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joshua:rolling joshua:fujitatomoya/fix-test_node_graph joshua:native_buffer/8-rclcpp joshua:kilted joshua:jazzy joshua:humble joshua:fujitatomoya/issues/3065 joshua:issues/3067-2 joshua:pull/3068/followup joshua:fujitatomoya/issues/2926 joshua:fujitatomoya/use-weakptr-memory-strategy joshua:mergify/bp/humble/pr-3037 joshua:mergify/bp/jazzy/pr-3037 joshua:mergify/bp/kilted/pr-3037 joshua:fujitatomoya/issues/1794 joshua:revert-3021-fix/wait-for-msg-ctx joshua:mergify/bp/humble/pr-3021 joshua:mergify/bp/jazzy/pr-3021 joshua:mergify/bp/kilted/pr-3021 joshua:fujitatomoya/sync-signal-with-future joshua:mergify/bp/humble/pr-2986 joshua:mergify/bp/jazzy/pr-2986 joshua:mergify/bp/kilted/pr-2986 joshua:fujitatomoya/issues/2968 joshua:mergify/bp/jazzy/pr-2952 joshua:mergify/bp/kilted/pr-2952 joshua:fujitatomoya/revert/pull/2963 joshua:fujitatomoya/revert/pull/2956 joshua:fujitatomoya/rclcpp/issues/2948 joshua:mergify/bp/humble/pr-2936 joshua:mergify/bp/jazzy/pr-2936 joshua:mergify/bp/humble/pr-2922 joshua:mergify/bp/jazzy/pr-2922 joshua:mergify/bp/kilted/pr-2922 joshua:mergify/bp/jazzy/pr-2927 joshua:mergify/bp/kilted/pr-2927 joshua:mergify/bp/humble/pr-2859 joshua:mergify/bp/jazzy/pr-2897 joshua:mergify/bp/kilted/pr-2897 joshua:mergify/bp/jazzy/pr-2891 joshua:mergify/bp/kilted/pr-2887 joshua:ahcorde/rolling/fix_tests joshua:mergify/bp/jazzy/pr-2854 joshua:mergify/bp/humble/pr-2840 joshua:mergify/bp/jazzy/pr-2841 joshua:fujitatomoya/shared-lock-for-ringbuffer joshua:fujitatomoya/introduce-rcl_lifecycle_get_transition_label_by_id joshua:mergify/bp/jazzy/pr-2814 joshua:ahcorde/rolling/warnings_clang joshua:fujitatomoya/fix-parameter-event-filter joshua:mergify/bp/jazzy/pr-2797 joshua:mergify/bp/humble/pr-2797 joshua:mergify/bp/humble/pr-2786 joshua:mergify/bp/jazzy/pr-2786 joshua:fujitatomoya/harden-rclcpp-action-convert joshua:mergify/bp/humble/pr-2774 joshua:sloretz__humble__backport_1969 joshua:ahcorde/rolling/test_zenoh_multicast joshua:fujitatomoya/doc-section-configure-introspection joshua:mergify/bp/humble/pr-2768 joshua:ahcorde/rolling/rmw_event_type_is_supported joshua:fujitatomoya/collect-more-rcl-log-message joshua:ch3/type_description_conversion joshua:dynamic_subscription joshua:mergify/bp/humble/pr-2707 joshua:fujitatomoya/fix-test_time_source joshua:fujitatomoya/jazzy-enable-test-connextdds joshua:mergify/bp/humble/pr-2686 joshua:master joshua:fujitatomoya/loaned-message-custom-allocator joshua:fujitatomoya/add-issue-templates joshua:iron joshua:mjcarorll/dx_2664 joshua:fujitatomoya/service-introspection-test-regression joshua:ahcorde/rolling/fix_wait_set_zenoh joshua:asoragna/actions-get-name joshua:fujitatomoya/mutex-bugfix-statistics-collector joshua:wjwwood/deterministic_execution_order_ub_fix joshua:wjwwood/deterministic_execution_order_ub_test_iron joshua:fujitatomoya/lifecyclenode-bugfix-tests joshua:wjwwood/deterministic_execution_order_ub_test_humble joshua:fujitatomoya/revert-shutdown-in-lcnode-dtor-humble joshua:fujitatomoya/revert-shutdown-in-lcnode-dtor-iron joshua:fujitatomoya/revert-shutdown-in-lcnode-dtor-jazzy joshua:fujitatomoya/revert-shutdown-in-lcnode-dtor joshua:wjwwood/executor_exception_handling joshua:fujitatomoya/issue-2477 joshua:christophebedard/revert-1956-revert-1874-hliberacki/timeout joshua:fujitatomoya/issue-2451 joshua:revert-2453-fujitatomoya/issue-2452 joshua:mjcarroll/suppress_override_warnings joshua:wjwwood/missing_event_with_waitset_executor joshua:wjwwood/missing_event_with_futures joshua:wjwwood/missing_event joshua:mjcarroll/components_architecture_doc joshua:rclcpp_waitset_executor joshua:foxy joshua:asoragna/events-executor-aarch64-deadlock joshua:asoragna/restore-first-mutex-impl joshua:asoragna/extend-timeout joshua:asoragna/start_canceled_timer joshua:mjcarroll/remove_stale_entities joshua:mjcarroll/executor_debugging joshua:runtime_interface_reflection_allocators joshua:runtime_interface_reflection joshua:asoragna/events-executor+entities-collector joshua:irobot/events-executor joshua:runtime_interface_reflection_wrappers joshua:mergify/bp/humble/pr-2108 joshua:sloretz__list_parameter_overrides joshua:galactic joshua:fujitatomoya/add-noexcept-to-get_parameter joshua:mergify/bp/humble/pr-2013 joshua:service_introspection-serialized joshua:asoragna/entities-collector-base joshua:clalancette/intra-process-debugging joshua:clalancette/rclcpp-clang-fixes joshua:fix_wait_set joshua:dashing joshua:hidmic/workaround-allocator-crash joshua:rcl_allocator joshua:clalancette/up-benchmark-action-client-timeout joshua:jacob/wait_for joshua:ivanpauno/add-method-to-get-logging-dir-reapply joshua:clalancette/test-multi-threaded-cleanups joshua:eloquent joshua:mjeronimo/continue-parameter-events-subscriber-work joshua:use-rcpputils-filesystem joshua:brawner/rclcpp-client-benchmark joshua:peterpena/guard-condition-trigger joshua:peterpena/timer-mutex joshua:clalancette/debugging joshua:peterpena/new-timer-mutex joshua:peterpena/new-guard_condition-trigger joshua:use_errors_tag2 joshua:executor_refactor/executor_use_wait_set joshua:revert_nodefault joshua:karsten/serialized_ipm_touchups joshua:karsten/serialized_ipm joshua:clalancette/global-clock-lock joshua:hidmic/thread-safe-timer joshua:crystal joshua:const_loaned_messages joshua:wjwwood/alsora/simplified_ipc joshua:hidmic/clang-format-keep-blank-lines joshua:hidmic/clang-format-not-break-before-ternary-operators joshua:hidmic/clang-format-not-bin-pack-parameters joshua:hidmic/clang-format-not-bin-pack-arguments joshua:hidmic/clang-format-disallow-short-functions-on-a-single-line joshua:hidmic/clang-format-space-after-template-keyword joshua:node_interfaces_traits joshua:wjwwood/read_ony_parameters joshua:check_parameters joshua:bouncy joshua:ardent
joshua:16.0.18 joshua:28.1.17 joshua:29.5.7 joshua:30.1.5 joshua:28.1.16 joshua:16.0.17 joshua:28.1.15 joshua:29.5.6 joshua:30.1.4 joshua:16.0.16 joshua:28.1.14 joshua:29.5.5 joshua:30.1.3 joshua:28.1.13 joshua:29.5.4 joshua:30.1.2 joshua:29.5.3 joshua:28.1.12 joshua:16.0.15 joshua:30.1.1 joshua:28.1.11 joshua:30.1.0 joshua:16.0.14 joshua:29.5.2 joshua:30.0.0 joshua:16.0.13 joshua:28.1.10 joshua:29.5.1 joshua:29.6.1 joshua:29.6.0 joshua:28.1.9 joshua:29.5.0 joshua:29.4.0 joshua:28.1.8 joshua:28.1.7 joshua:16.0.12 joshua:29.3.0 joshua:28.1.6 joshua:16.0.11 joshua:29.2.0 joshua:29.1.0 joshua:21.0.8 joshua:29.0.0 joshua:28.1.5 joshua:28.1.4 joshua:28.3.3 joshua:16.0.10 joshua:28.3.2 joshua:21.0.7 joshua:28.1.3 joshua:28.3.1 joshua:28.3.0 joshua:16.0.9 joshua:28.1.2 joshua:28.2.0 joshua:28.1.1 joshua:21.0.6 joshua:28.1.0 joshua:28.0.1 joshua:28.0.0 joshua:27.0.0 joshua:21.0.5 joshua:26.0.0 joshua:16.0.8 joshua:25.0.0 joshua:21.0.4 joshua:16.0.7 joshua:24.0.0 joshua:23.2.0 joshua:23.1.0 joshua:16.0.6 joshua:23.0.0 joshua:21.0.3 joshua:22.2.0 joshua:22.1.0 joshua:16.0.5 joshua:21.0.2 joshua:22.0.0 joshua:21.3.0 joshua:21.2.0 joshua:2.4.3 joshua:21.0.1 joshua:21.1.1 joshua:21.1.0 joshua:16.0.4 joshua:21.0.0 joshua:20.0.0 joshua:19.3.0 joshua:19.2.0 joshua:19.1.0 joshua:19.0.0 joshua:16.0.3 joshua:18.0.0 joshua:9.2.2 joshua:16.0.2 joshua:17.1.0 joshua:17.0.0 joshua:2.4.2 joshua:16.2.0 joshua:16.1.0 joshua:9.2.1 joshua:16.0.1 joshua:16.0.0 joshua:15.4.0 joshua:15.3.0 joshua:15.2.0 joshua:15.1.0 joshua:2.4.1 joshua:15.0.0 joshua:14.1.0 joshua:14.0.0 joshua:13.1.0 joshua:9.2.0 joshua:2.4.0 joshua:13.0.0 joshua:12.0.0 joshua:11.2.0 joshua:11.1.0 joshua:0.7.16 joshua:9.1.0 joshua:11.0.0 joshua:10.0.0 joshua:9.0.3 joshua:2.3.1 joshua:9.0.2 joshua:9.0.1 joshua:9.0.0 joshua:8.2.0 joshua:8.1.0 joshua:8.0.0 joshua:7.0.1 joshua:7.0.0 joshua:6.3.1 joshua:6.3.0 joshua:6.2.0 joshua:6.1.0 joshua:2.3.0 joshua:0.8.5 joshua:0.7.15 joshua:6.0.0 joshua:5.1.0 joshua:2.2.0 joshua:5.0.0 joshua:2.1.0 joshua:0.7.14 joshua:4.0.0 joshua:2.0.2 joshua:2.0.1 joshua:3.0.0 joshua:2.0.0 joshua:1.1.0 joshua:1.0.0 joshua:0.9.1 joshua:0.9.0 joshua:0.7.13 joshua:0.8.4 joshua:0.6.5 joshua:0.7.12 joshua:0.8.3 joshua:0.8.2 joshua:0.8.1 joshua:0.7.11 joshua:0.8.0 joshua:0.7.10 joshua:0.7.9 joshua:0.7.8 joshua:0.7.7 joshua:0.7.6 joshua:0.7.5 joshua:0.7.4 joshua:0.7.3 joshua:0.7.2 joshua:0.7.1 joshua:0.7.0 joshua:0.6.4 joshua:0.6.3 joshua:0.6.2 joshua:0.6.1 joshua:0.6.0 joshua:0.5.1 joshua:0.5.0 joshua:ardent-20180209-apex1 joshua:0.4.0 joshua:release-latest joshua:release-beta3 joshua:release-beta2 joshua:release-beta1 joshua:release-alpha8 joshua:release-alpha7 joshua:release-alpha6 joshua:release-alpha5 joshua:release-alpha4 joshua:release-alpha3 joshua:release-alpha2 joshua:release-alpha1
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compare: joshua:executor_refactor/executor_use_wait_set
Branches Tags
joshua:fujitatomoya/fix-test_node_graph joshua:rolling joshua:native_buffer/8-rclcpp joshua:kilted joshua:jazzy joshua:humble joshua:fujitatomoya/issues/3065 joshua:issues/3067-2 joshua:pull/3068/followup joshua:fujitatomoya/issues/2926 joshua:fujitatomoya/use-weakptr-memory-strategy joshua:mergify/bp/humble/pr-3037 joshua:mergify/bp/jazzy/pr-3037 joshua:mergify/bp/kilted/pr-3037 joshua:fujitatomoya/issues/1794 joshua:revert-3021-fix/wait-for-msg-ctx joshua:mergify/bp/humble/pr-3021 joshua:mergify/bp/jazzy/pr-3021 joshua:mergify/bp/kilted/pr-3021 joshua:fujitatomoya/sync-signal-with-future joshua:mergify/bp/humble/pr-2986 joshua:mergify/bp/jazzy/pr-2986 joshua:mergify/bp/kilted/pr-2986 joshua:fujitatomoya/issues/2968 joshua:mergify/bp/jazzy/pr-2952 joshua:mergify/bp/kilted/pr-2952 joshua:fujitatomoya/revert/pull/2963 joshua:fujitatomoya/revert/pull/2956 joshua:fujitatomoya/rclcpp/issues/2948 joshua:mergify/bp/humble/pr-2936 joshua:mergify/bp/jazzy/pr-2936 joshua:mergify/bp/humble/pr-2922 joshua:mergify/bp/jazzy/pr-2922 joshua:mergify/bp/kilted/pr-2922 joshua:mergify/bp/jazzy/pr-2927 joshua:mergify/bp/kilted/pr-2927 joshua:mergify/bp/humble/pr-2859 joshua:mergify/bp/jazzy/pr-2897 joshua:mergify/bp/kilted/pr-2897 joshua:mergify/bp/jazzy/pr-2891 joshua:mergify/bp/kilted/pr-2887 joshua:ahcorde/rolling/fix_tests joshua:mergify/bp/jazzy/pr-2854 joshua:mergify/bp/humble/pr-2840 joshua:mergify/bp/jazzy/pr-2841 joshua:fujitatomoya/shared-lock-for-ringbuffer joshua:fujitatomoya/introduce-rcl_lifecycle_get_transition_label_by_id joshua:mergify/bp/jazzy/pr-2814 joshua:ahcorde/rolling/warnings_clang joshua:fujitatomoya/fix-parameter-event-filter joshua:mergify/bp/jazzy/pr-2797 joshua:mergify/bp/humble/pr-2797 joshua:mergify/bp/humble/pr-2786 joshua:mergify/bp/jazzy/pr-2786 joshua:fujitatomoya/harden-rclcpp-action-convert joshua:mergify/bp/humble/pr-2774 joshua:sloretz__humble__backport_1969 joshua:ahcorde/rolling/test_zenoh_multicast joshua:fujitatomoya/doc-section-configure-introspection joshua:mergify/bp/humble/pr-2768 joshua:ahcorde/rolling/rmw_event_type_is_supported joshua:fujitatomoya/collect-more-rcl-log-message joshua:ch3/type_description_conversion joshua:dynamic_subscription joshua:mergify/bp/humble/pr-2707 joshua:fujitatomoya/fix-test_time_source joshua:fujitatomoya/jazzy-enable-test-connextdds joshua:mergify/bp/humble/pr-2686 joshua:master joshua:fujitatomoya/loaned-message-custom-allocator joshua:fujitatomoya/add-issue-templates joshua:iron joshua:mjcarorll/dx_2664 joshua:fujitatomoya/service-introspection-test-regression joshua:ahcorde/rolling/fix_wait_set_zenoh joshua:asoragna/actions-get-name joshua:fujitatomoya/mutex-bugfix-statistics-collector joshua:wjwwood/deterministic_execution_order_ub_fix joshua:wjwwood/deterministic_execution_order_ub_test_iron joshua:fujitatomoya/lifecyclenode-bugfix-tests joshua:wjwwood/deterministic_execution_order_ub_test_humble joshua:fujitatomoya/revert-shutdown-in-lcnode-dtor-humble joshua:fujitatomoya/revert-shutdown-in-lcnode-dtor-iron joshua:fujitatomoya/revert-shutdown-in-lcnode-dtor-jazzy joshua:fujitatomoya/revert-shutdown-in-lcnode-dtor joshua:wjwwood/executor_exception_handling joshua:fujitatomoya/issue-2477 joshua:christophebedard/revert-1956-revert-1874-hliberacki/timeout joshua:fujitatomoya/issue-2451 joshua:revert-2453-fujitatomoya/issue-2452 joshua:mjcarroll/suppress_override_warnings joshua:wjwwood/missing_event_with_waitset_executor joshua:wjwwood/missing_event_with_futures joshua:wjwwood/missing_event joshua:mjcarroll/components_architecture_doc joshua:rclcpp_waitset_executor joshua:foxy joshua:asoragna/events-executor-aarch64-deadlock joshua:asoragna/restore-first-mutex-impl joshua:asoragna/extend-timeout joshua:asoragna/start_canceled_timer joshua:mjcarroll/remove_stale_entities joshua:mjcarroll/executor_debugging joshua:runtime_interface_reflection_allocators joshua:runtime_interface_reflection joshua:asoragna/events-executor+entities-collector joshua:irobot/events-executor joshua:runtime_interface_reflection_wrappers joshua:mergify/bp/humble/pr-2108 joshua:sloretz__list_parameter_overrides joshua:galactic joshua:fujitatomoya/add-noexcept-to-get_parameter joshua:mergify/bp/humble/pr-2013 joshua:service_introspection-serialized joshua:asoragna/entities-collector-base joshua:clalancette/intra-process-debugging joshua:clalancette/rclcpp-clang-fixes joshua:fix_wait_set joshua:dashing joshua:hidmic/workaround-allocator-crash joshua:rcl_allocator joshua:clalancette/up-benchmark-action-client-timeout joshua:jacob/wait_for joshua:ivanpauno/add-method-to-get-logging-dir-reapply joshua:clalancette/test-multi-threaded-cleanups joshua:eloquent joshua:mjeronimo/continue-parameter-events-subscriber-work joshua:use-rcpputils-filesystem joshua:brawner/rclcpp-client-benchmark joshua:peterpena/guard-condition-trigger joshua:peterpena/timer-mutex joshua:clalancette/debugging joshua:peterpena/new-timer-mutex joshua:peterpena/new-guard_condition-trigger joshua:use_errors_tag2 joshua:executor_refactor/executor_use_wait_set joshua:revert_nodefault joshua:karsten/serialized_ipm_touchups joshua:karsten/serialized_ipm joshua:clalancette/global-clock-lock joshua:hidmic/thread-safe-timer joshua:crystal joshua:const_loaned_messages joshua:wjwwood/alsora/simplified_ipc joshua:hidmic/clang-format-keep-blank-lines joshua:hidmic/clang-format-not-break-before-ternary-operators joshua:hidmic/clang-format-not-bin-pack-parameters joshua:hidmic/clang-format-not-bin-pack-arguments joshua:hidmic/clang-format-disallow-short-functions-on-a-single-line joshua:hidmic/clang-format-space-after-template-keyword joshua:node_interfaces_traits joshua:wjwwood/read_ony_parameters joshua:check_parameters joshua:bouncy joshua:ardent
joshua:16.0.18 joshua:28.1.17 joshua:29.5.7 joshua:30.1.5 joshua:28.1.16 joshua:16.0.17 joshua:28.1.15 joshua:29.5.6 joshua:30.1.4 joshua:16.0.16 joshua:28.1.14 joshua:29.5.5 joshua:30.1.3 joshua:28.1.13 joshua:29.5.4 joshua:30.1.2 joshua:29.5.3 joshua:28.1.12 joshua:16.0.15 joshua:30.1.1 joshua:28.1.11 joshua:30.1.0 joshua:16.0.14 joshua:29.5.2 joshua:30.0.0 joshua:16.0.13 joshua:28.1.10 joshua:29.5.1 joshua:29.6.1 joshua:29.6.0 joshua:28.1.9 joshua:29.5.0 joshua:29.4.0 joshua:28.1.8 joshua:28.1.7 joshua:16.0.12 joshua:29.3.0 joshua:28.1.6 joshua:16.0.11 joshua:29.2.0 joshua:29.1.0 joshua:21.0.8 joshua:29.0.0 joshua:28.1.5 joshua:28.1.4 joshua:28.3.3 joshua:16.0.10 joshua:28.3.2 joshua:21.0.7 joshua:28.1.3 joshua:28.3.1 joshua:28.3.0 joshua:16.0.9 joshua:28.1.2 joshua:28.2.0 joshua:28.1.1 joshua:21.0.6 joshua:28.1.0 joshua:28.0.1 joshua:28.0.0 joshua:27.0.0 joshua:21.0.5 joshua:26.0.0 joshua:16.0.8 joshua:25.0.0 joshua:21.0.4 joshua:16.0.7 joshua:24.0.0 joshua:23.2.0 joshua:23.1.0 joshua:16.0.6 joshua:23.0.0 joshua:21.0.3 joshua:22.2.0 joshua:22.1.0 joshua:16.0.5 joshua:21.0.2 joshua:22.0.0 joshua:21.3.0 joshua:21.2.0 joshua:2.4.3 joshua:21.0.1 joshua:21.1.1 joshua:21.1.0 joshua:16.0.4 joshua:21.0.0 joshua:20.0.0 joshua:19.3.0 joshua:19.2.0 joshua:19.1.0 joshua:19.0.0 joshua:16.0.3 joshua:18.0.0 joshua:9.2.2 joshua:16.0.2 joshua:17.1.0 joshua:17.0.0 joshua:2.4.2 joshua:16.2.0 joshua:16.1.0 joshua:9.2.1 joshua:16.0.1 joshua:16.0.0 joshua:15.4.0 joshua:15.3.0 joshua:15.2.0 joshua:15.1.0 joshua:2.4.1 joshua:15.0.0 joshua:14.1.0 joshua:14.0.0 joshua:13.1.0 joshua:9.2.0 joshua:2.4.0 joshua:13.0.0 joshua:12.0.0 joshua:11.2.0 joshua:11.1.0 joshua:0.7.16 joshua:9.1.0 joshua:11.0.0 joshua:10.0.0 joshua:9.0.3 joshua:2.3.1 joshua:9.0.2 joshua:9.0.1 joshua:9.0.0 joshua:8.2.0 joshua:8.1.0 joshua:8.0.0 joshua:7.0.1 joshua:7.0.0 joshua:6.3.1 joshua:6.3.0 joshua:6.2.0 joshua:6.1.0 joshua:2.3.0 joshua:0.8.5 joshua:0.7.15 joshua:6.0.0 joshua:5.1.0 joshua:2.2.0 joshua:5.0.0 joshua:2.1.0 joshua:0.7.14 joshua:4.0.0 joshua:2.0.2 joshua:2.0.1 joshua:3.0.0 joshua:2.0.0 joshua:1.1.0 joshua:1.0.0 joshua:0.9.1 joshua:0.9.0 joshua:0.7.13 joshua:0.8.4 joshua:0.6.5 joshua:0.7.12 joshua:0.8.3 joshua:0.8.2 joshua:0.8.1 joshua:0.7.11 joshua:0.8.0 joshua:0.7.10 joshua:0.7.9 joshua:0.7.8 joshua:0.7.7 joshua:0.7.6 joshua:0.7.5 joshua:0.7.4 joshua:0.7.3 joshua:0.7.2 joshua:0.7.1 joshua:0.7.0 joshua:0.6.4 joshua:0.6.3 joshua:0.6.2 joshua:0.6.1 joshua:0.6.0 joshua:0.5.1 joshua:0.5.0 joshua:ardent-20180209-apex1 joshua:0.4.0 joshua:release-latest joshua:release-beta3 joshua:release-beta2 joshua:release-beta1 joshua:release-alpha8 joshua:release-alpha7 joshua:release-alpha6 joshua:release-alpha5 joshua:release-alpha4 joshua:release-alpha3 joshua:release-alpha2 joshua:release-alpha1

2 Commits
rolling ... executor_r

Author SHA1 Message Date
William Woodall
ad5fbbfcff wip 
Signed-off-by: William Woodall <william@osrfoundation.org>
 2020-04-22 12:38:05 -07:00
William Woodall
db43729de4 deprecate redundant namespaces, move classes to own files, rename some classes 
Signed-off-by: William Woodall <william@osrfoundation.org>
 2020-04-22 01:41:25 -07:00
528 changed files with 13322 additions and 82094 deletions
Expand all files Collapse all files

45
.github/ISSUE_TEMPLATE.md vendored Normal file
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@@ -0,0 +1,45 @@
<!--
For general questions, please ask on ROS answers: https://answers.ros.org, make sure to include at least the `ros2` tag and the rosdistro version you are running, e.g. `ardent`.
For general design discussions, please post on discourse: https://discourse.ros.org/c/ng-ros
Not sure if this is the right repository? Open an issue on https://github.com/ros2/ros2/issues
For Bug report or feature requests, please fill out the relevant category below
-->
## Bug report
**Required Info:**
- Operating System:
- <!-- OS and version (e.g. Windows 10, Ubuntu 16.04...) -->
- Installation type:
- <!-- binaries or from source -->
- Version or commit hash:
- <!-- Output of git rev-parse HEAD, release version, or repos file -->
- DDS implementation:
- <!-- rmw_implementation used (e.g. Fast-RTPS, RTI Connext, etc -->
- Client library (if applicable):
- <!-- e.g. rclcpp, rclpy, or N/A -->
#### Steps to reproduce issue
<!-- Detailed instructions on how to reliably reproduce this issue http://sscce.org/
``` code that can be copy-pasted is preferred ``` -->
```
```
#### Expected behavior
#### Actual behavior
#### Additional information
<!-- If you are reporting a bug delete everything below
If you are requesting a feature deleted everything above this line -->
----
## Feature request
#### Feature description
<!-- Description in a few sentences what the feature consists of and what problem it will solve -->
#### Implementation considerations
<!-- Relevant information on how the feature could be implemented and pros and cons of the different solutions -->

7
README.md
View File

@@ -8,11 +8,10 @@ rclcpp provides the standard C++ API for interacting with ROS 2.
`#include "rclcpp/rclcpp.hpp"` allows use of the most common elements of the ROS 2 system.
The link to the latest API documentation can be found on the [rclcpp package info page](https://docs.ros.org/en/rolling/p/rclcpp).
Visit the [rclcpp API documentation](http://docs.ros2.org/eloquent/api/rclcpp/) for a complete list of its main components.
### Examples
The ROS 2 tutorials [Writing a simple publisher and subscriber](https://docs.ros.org/en/rolling/Tutorials/Writing-A-Simple-Cpp-Publisher-And-Subscriber.html).
and [Writing a simple service and client](https://docs.ros.org/en/rolling/Tutorials/Writing-A-Simple-Cpp-Service-And-Client.html)
The ROS 2 tutorials [Writing a simple publisher and subscriber](https://index.ros.org/doc/ros2/Tutorials/Writing-A-Simple-Cpp-Publisher-And-Subscriber/)
and [Writing a simple service and client](https://index.ros.org/doc/ros2/Tutorials/Writing-A-Simple-Cpp-Service-And-Client/)
contain some examples of rclcpp APIs in use.

1295
rclcpp/CHANGELOG.rst
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File diff suppressed because it is too large Load Diff

649
rclcpp/CMakeLists.txt
View File

@@ -1,43 +1,33 @@
cmake_minimum_required(VERSION 3.20)
cmake_minimum_required(VERSION 3.5)
project(rclcpp)
find_package(Threads REQUIRED)
find_package(ament_cmake_ros REQUIRED)
find_package(ament_index_cpp REQUIRED)
find_package(builtin_interfaces REQUIRED)
find_package(libstatistics_collector REQUIRED)
find_package(rcl REQUIRED)
find_package(rcl_interfaces REQUIRED)
find_package(rcl_logging_interface REQUIRED)
find_package(rcl_yaml_param_parser REQUIRED)
find_package(rcpputils REQUIRED)
find_package(rcutils REQUIRED)
find_package(rmw REQUIRED)
find_package(rosgraph_msgs REQUIRED)
find_package(rosidl_dynamic_typesupport REQUIRED)
find_package(rosidl_runtime_c REQUIRED)
find_package(rosidl_runtime_cpp REQUIRED)
find_package(rosidl_typesupport_c REQUIRED)
find_package(rosidl_typesupport_cpp REQUIRED)
find_package(statistics_msgs REQUIRED)
find_package(tracetools REQUIRED)
# TODO(wjwwood): remove this when gtest can build on its own, when using target_compile_features()
# Default to C++17
# Default to C++14
if(NOT CMAKE_CXX_STANDARD)
set(CMAKE_CXX_STANDARD 17)
set(CMAKE_CXX_STANDARD_REQUIRED ON)
set(CMAKE_CXX_STANDARD 14)
endif()
if(CMAKE_COMPILER_IS_GNUCXX OR CMAKE_CXX_COMPILER_ID MATCHES "Clang")
# About -Wno-sign-conversion: With Clang, -Wconversion implies -Wsign-conversion. There are a number of
# implicit sign conversions in rclcpp and gtest.cc, see https://ci.ros2.org/job/ci_osx/9265/.
# Hence disabling -Wsign-conversion for now until all those have eventually been fixed.
# (from https://github.com/ros2/rclcpp/pull/1188#issuecomment-650229140)
add_compile_options(-Wall -Wextra -Wconversion -Wno-sign-conversion -Wpedantic -Wnon-virtual-dtor -Woverloaded-virtual)
add_compile_options(-Wall -Wextra -Wpedantic)
endif()
include_directories(include)
set(${PROJECT_NAME}_SRCS
src/rclcpp/any_executable.cpp
src/rclcpp/callback_group.cpp
@@ -45,50 +35,32 @@ set(${PROJECT_NAME}_SRCS
src/rclcpp/clock.cpp
src/rclcpp/context.cpp
src/rclcpp/contexts/default_context.cpp
src/rclcpp/create_generic_client.cpp
src/rclcpp/detail/add_guard_condition_to_rcl_wait_set.cpp
src/rclcpp/detail/resolve_intra_process_buffer_type.cpp
src/rclcpp/detail/resolve_parameter_overrides.cpp
src/rclcpp/detail/rmw_implementation_specific_payload.cpp
src/rclcpp/detail/rmw_implementation_specific_publisher_payload.cpp
src/rclcpp/detail/rmw_implementation_specific_subscription_payload.cpp
src/rclcpp/detail/utilities.cpp
src/rclcpp/duration.cpp
src/rclcpp/dynamic_typesupport/dynamic_message.cpp
src/rclcpp/dynamic_typesupport/dynamic_message_type.cpp
src/rclcpp/dynamic_typesupport/dynamic_message_type_builder.cpp
src/rclcpp/dynamic_typesupport/dynamic_message_type_support.cpp
src/rclcpp/dynamic_typesupport/dynamic_serialization_support.cpp
src/rclcpp/event.cpp
src/rclcpp/exceptions/exceptions.cpp
src/rclcpp/executable_list.cpp
src/rclcpp/executor.cpp
src/rclcpp/executor_options.cpp
src/rclcpp/executors.cpp
src/rclcpp/executors/executor_entities_collection.cpp
src/rclcpp/executors/executor_entities_collector.cpp
src/rclcpp/executors/executor_notify_waitable.cpp
src/rclcpp/expand_topic_or_service_name.cpp
src/rclcpp/executors/multi_threaded_executor.cpp
src/rclcpp/executors/single_threaded_executor.cpp
src/rclcpp/expand_topic_or_service_name.cpp
src/rclcpp/experimental/executors/events_executor/events_executor.cpp
src/rclcpp/experimental/timers_manager.cpp
src/rclcpp/executors/static_executor_entities_collector.cpp
src/rclcpp/executors/static_single_threaded_executor.cpp
src/rclcpp/future_return_code.cpp
src/rclcpp/generic_client.cpp
src/rclcpp/generic_publisher.cpp
src/rclcpp/generic_service.cpp
src/rclcpp/generic_subscription.cpp
src/rclcpp/graph_listener.cpp
src/rclcpp/guard_condition.cpp
src/rclcpp/init_options.cpp
src/rclcpp/intra_process_manager.cpp
src/rclcpp/logger.cpp
src/rclcpp/logging_mutex.cpp
src/rclcpp/memory_strategies.cpp
src/rclcpp/memory_strategy.cpp
src/rclcpp/message_info.cpp
src/rclcpp/network_flow_endpoint.cpp
src/rclcpp/node.cpp
src/rclcpp/node_options.cpp
src/rclcpp/node_interfaces/node_base.cpp
src/rclcpp/node_interfaces/node_clock.cpp
src/rclcpp/node_interfaces/node_graph.cpp
@@ -98,22 +70,16 @@ set(${PROJECT_NAME}_SRCS
src/rclcpp/node_interfaces/node_time_source.cpp
src/rclcpp/node_interfaces/node_timers.cpp
src/rclcpp/node_interfaces/node_topics.cpp
src/rclcpp/node_interfaces/node_type_descriptions.cpp
src/rclcpp/node_interfaces/node_waitables.cpp
src/rclcpp/node_options.cpp
src/rclcpp/parameter.cpp
src/rclcpp/parameter_value.cpp
src/rclcpp/parameter_client.cpp
src/rclcpp/parameter_descriptor_wrapper.cpp
src/rclcpp/parameter_event_handler.cpp
src/rclcpp/parameter_events_filter.cpp
src/rclcpp/parameter_map.cpp
src/rclcpp/parameter_service.cpp
src/rclcpp/parameter_value.cpp
src/rclcpp/publisher_base.cpp
src/rclcpp/qos.cpp
src/rclcpp/event_handler.cpp
src/rclcpp/qos_overriding_options.cpp
src/rclcpp/rate.cpp
src/rclcpp/qos_event.cpp
src/rclcpp/serialization.cpp
src/rclcpp/serialized_message.cpp
src/rclcpp/service.cpp
@@ -124,106 +90,48 @@ set(${PROJECT_NAME}_SRCS
src/rclcpp/time_source.cpp
src/rclcpp/timer.cpp
src/rclcpp/type_support.cpp
src/rclcpp/typesupport_helpers.cpp
src/rclcpp/utilities.cpp
src/rclcpp/wait_set_policies/detail/write_preferring_read_write_lock.cpp
src/rclcpp/waitable.cpp
)
# By default, without the settings below, find_package(Python3) will attempt
# to find the newest python version it can, and additionally will find the
# most specific version. For instance, on a system that has
# /usr/bin/python3.10, /usr/bin/python3.11, and /usr/bin/python3, it will find
# /usr/bin/python3.11, even if /usr/bin/python3 points to /usr/bin/python3.10.
# The behavior we want is to prefer the "system" installed version unless the
# user specifically tells us othewise through the Python3_EXECUTABLE hint.
# Setting CMP0094 to NEW means that the search will stop after the first
# python version is found. Setting Python3_FIND_UNVERSIONED_NAMES means that
# the search will prefer /usr/bin/python3 over /usr/bin/python3.11. And that
# latter functionality is only available in CMake 3.20 or later, so we need
# at least that version.
cmake_policy(SET CMP0094 NEW)
set(Python3_FIND_UNVERSIONED_NAMES FIRST)
find_package(Python3 REQUIRED COMPONENTS Interpreter)
file(GLOB interface_files "include/rclcpp/node_interfaces/node_*_interface.hpp")
foreach(interface_file ${interface_files})
get_filename_component(interface_name ${interface_file} NAME_WE)
# "watch" template for changes
configure_file(
"resource/interface_traits.hpp.em"
"${CMAKE_CURRENT_BINARY_DIR}/${interface_name}_traits.hpp.em.watch"
COPYONLY
)
set(python_${interface_name}_traits
"import em"
"em.invoke(['-D', 'interface_name = \\'${interface_name}\\'', '-o', 'include/rclcpp/node_interfaces/${interface_name}_traits.hpp', '${CMAKE_CURRENT_SOURCE_DIR}/resource/interface_traits.hpp.em'])")
string(REPLACE ";" "$<SEMICOLON>" python_${interface_name}_traits "${python_${interface_name}_traits}")
add_custom_command(OUTPUT include/rclcpp/node_interfaces/${interface_name}_traits.hpp
COMMAND ${CMAKE_COMMAND} -E make_directory "include/rclcpp/node_interfaces"
COMMAND Python3::Interpreter ARGS -c "${python_${interface_name}_traits}"
DEPENDS "${CMAKE_CURRENT_BINARY_DIR}/${interface_name}_traits.hpp.em.watch"
COMMENT "Expanding interface_traits.hpp.em into ${interface_name}_traits.hpp"
VERBATIM
)
list(APPEND ${PROJECT_NAME}_SRCS
include/rclcpp/node_interfaces/${interface_name}_traits.hpp)
# "watch" template for changes
configure_file(
"resource/get_interface.hpp.em"
"get_${interface_name}.hpp.em.watch"
COPYONLY
)
set(python_get_${interface_name}
"import em"
"em.invoke(['-D', 'interface_name = \\'${interface_name}\\'', '-o', 'include/rclcpp/node_interfaces/get_${interface_name}.hpp', '${CMAKE_CURRENT_SOURCE_DIR}/resource/get_interface.hpp.em'])")
string(REPLACE ";" "$<SEMICOLON>" python_get_${interface_name} "${python_get_${interface_name}}")
add_custom_command(OUTPUT include/rclcpp/node_interfaces/get_${interface_name}.hpp
COMMAND ${CMAKE_COMMAND} -E make_directory "include/rclcpp/node_interfaces"
COMMAND Python3::Interpreter ARGS -c "${python_get_${interface_name}}"
DEPENDS "${CMAKE_CURRENT_BINARY_DIR}/get_${interface_name}.hpp.em.watch"
COMMENT "Expanding get_interface.hpp.em into get_${interface_file}.hpp"
VERBATIM
)
list(APPEND ${PROJECT_NAME}_SRCS
include/rclcpp/node_interfaces/get_${interface_name}.hpp)
endforeach()
add_library(${PROJECT_NAME} ${${PROJECT_NAME}_SRCS})
target_compile_features(${PROJECT_NAME} PUBLIC cxx_std_17)
# TODO(wjwwood): address all deprecation warnings and then remove this
if(WIN32)
target_compile_definitions(${PROJECT_NAME} PUBLIC "_SILENCE_ALL_CXX17_DEPRECATION_WARNINGS")
endif()
target_include_directories(${PROJECT_NAME} PUBLIC
"$<BUILD_INTERFACE:${CMAKE_CURRENT_SOURCE_DIR}/include>"
"$<BUILD_INTERFACE:${CMAKE_CURRENT_BINARY_DIR}/include>"
"$<INSTALL_INTERFACE:include/${PROJECT_NAME}>")
target_link_libraries(${PROJECT_NAME} PUBLIC
${builtin_interfaces_TARGETS}
libstatistics_collector::libstatistics_collector
rcl::rcl
${rcl_interfaces_TARGETS}
rcl_yaml_param_parser::rcl_yaml_param_parser
rcpputils::rcpputils
rcutils::rcutils
rmw::rmw
${rosgraph_msgs_TARGETS}
rosidl_dynamic_typesupport::rosidl_dynamic_typesupport
rosidl_runtime_c::rosidl_runtime_c
rosidl_runtime_cpp::rosidl_runtime_cpp
rosidl_typesupport_cpp::rosidl_typesupport_cpp
${statistics_msgs_TARGETS}
tracetools::tracetools
${CMAKE_THREAD_LIBS_INIT}
# "watch" template for changes
configure_file(
"resource/logging.hpp.em"
"logging.hpp.em.watch"
COPYONLY
)
# generate header with logging macros
set(python_code
"import em"
"em.invoke(['-o', 'include/rclcpp/logging.hpp', '${CMAKE_CURRENT_SOURCE_DIR}/resource/logging.hpp.em'])")
string(REPLACE ";" "$<SEMICOLON>" python_code "${python_code}")
add_custom_command(OUTPUT include/rclcpp/logging.hpp
COMMAND ${CMAKE_COMMAND} -E make_directory "include/rclcpp"
COMMAND ${PYTHON_EXECUTABLE} ARGS -c "${python_code}"
DEPENDS "${CMAKE_CURRENT_BINARY_DIR}/logging.hpp.em.watch"
COMMENT "Expanding logging.hpp.em"
VERBATIM
)
list(APPEND ${PROJECT_NAME}_SRCS
include/rclcpp/logging.hpp)
include_directories("${CMAKE_CURRENT_BINARY_DIR}/include")
target_link_libraries(${PROJECT_NAME} PRIVATE
ament_index_cpp::ament_index_cpp
rcl_logging_interface::rcl_logging_interface
add_library(${PROJECT_NAME}
${${PROJECT_NAME}_SRCS})
# specific order: dependents before dependencies
ament_target_dependencies(${PROJECT_NAME}
"libstatistics_collector"
"rcl"
"rcl_yaml_param_parser"
"rcpputils"
"rcutils"
"builtin_interfaces"
"rosgraph_msgs"
"rosidl_typesupport_cpp"
"rosidl_runtime_cpp"
"statistics_msgs"
"tracetools"
)
# Causes the visibility macros to use dllexport rather than dllimport,
@@ -232,58 +140,449 @@ target_compile_definitions(${PROJECT_NAME}
PRIVATE "RCLCPP_BUILDING_LIBRARY")
install(
TARGETS ${PROJECT_NAME} EXPORT ${PROJECT_NAME}
TARGETS ${PROJECT_NAME}
ARCHIVE DESTINATION lib
LIBRARY DESTINATION lib
RUNTIME DESTINATION bin
)
# Export old-style CMake variables
ament_export_include_directories("include/${PROJECT_NAME}")
# specific order: dependents before dependencies
ament_export_include_directories(include)
ament_export_libraries(${PROJECT_NAME})
# Export modern CMake targets
ament_export_targets(${PROJECT_NAME})
ament_export_dependencies(
builtin_interfaces
libstatistics_collector
rcl
rcl_interfaces
rcl_yaml_param_parser
rcpputils
rcutils
rmw
rosgraph_msgs
rosidl_dynamic_typesupport
rosidl_runtime_c
rosidl_runtime_cpp
rosidl_typesupport_cpp
statistics_msgs
tracetools
)
ament_export_dependencies(libstatistics_collector)
ament_export_dependencies(rcl)
ament_export_dependencies(rcpputils)
ament_export_dependencies(rcutils)
ament_export_dependencies(builtin_interfaces)
ament_export_dependencies(rosgraph_msgs)
ament_export_dependencies(rosidl_typesupport_cpp)
ament_export_dependencies(rosidl_typesupport_c)
ament_export_dependencies(rosidl_runtime_cpp)
ament_export_dependencies(rcl_yaml_param_parser)
ament_export_dependencies(statistics_msgs)
ament_export_dependencies(tracetools)
if(BUILD_TESTING)
find_package(ament_cmake_gtest REQUIRED)
find_package(ament_lint_auto REQUIRED)
ament_lint_auto_find_test_dependencies()
add_subdirectory(test)
find_package(rmw_implementation_cmake REQUIRED)
find_package(test_msgs REQUIRED)
include(cmake/rclcpp_add_build_failure_test.cmake)
add_definitions(-DTEST_RESOURCES_DIRECTORY="${CMAKE_CURRENT_BINARY_DIR}/test/resources")
ament_add_gtest(test_client test/test_client.cpp)
if(TARGET test_client)
ament_target_dependencies(test_client
"rcl_interfaces"
"rmw"
"rosidl_runtime_cpp"
"rosidl_typesupport_cpp"
)
target_link_libraries(test_client ${PROJECT_NAME})
endif()
ament_add_gtest(test_create_timer test/test_create_timer.cpp)
if(TARGET test_create_timer)
ament_target_dependencies(test_create_timer
"rcl_interfaces"
"rmw"
"rcl"
"rosidl_runtime_cpp"
"rosidl_typesupport_cpp"
)
target_link_libraries(test_create_timer ${PROJECT_NAME})
target_include_directories(test_create_timer PRIVATE test/)
endif()
ament_add_gtest(test_expand_topic_or_service_name test/test_expand_topic_or_service_name.cpp)
if(TARGET test_expand_topic_or_service_name)
ament_target_dependencies(test_expand_topic_or_service_name
"rcl_interfaces"
"rmw"
"rosidl_runtime_cpp"
"rosidl_typesupport_cpp"
)
target_link_libraries(test_expand_topic_or_service_name ${PROJECT_NAME})
endif()
ament_add_gtest(test_function_traits test/test_function_traits.cpp)
if(TARGET test_function_traits)
ament_target_dependencies(test_function_traits
"rcl_interfaces"
"rmw"
"rosidl_runtime_cpp"
"rosidl_typesupport_cpp"
)
endif()
ament_add_gmock(test_intra_process_manager test/test_intra_process_manager.cpp)
if(TARGET test_intra_process_manager)
ament_target_dependencies(test_intra_process_manager
"rcl"
"rcl_interfaces"
"rmw"
"rosidl_runtime_cpp"
"rosidl_typesupport_cpp"
)
target_link_libraries(test_intra_process_manager ${PROJECT_NAME})
endif()
ament_add_gtest(test_ring_buffer_implementation test/test_ring_buffer_implementation.cpp)
if(TARGET test_ring_buffer_implementation)
ament_target_dependencies(test_ring_buffer_implementation
"rcl_interfaces"
"rmw"
"rosidl_runtime_cpp"
"rosidl_typesupport_cpp"
)
target_link_libraries(test_ring_buffer_implementation ${PROJECT_NAME})
endif()
ament_add_gtest(test_intra_process_buffer test/test_intra_process_buffer.cpp)
if(TARGET test_intra_process_buffer)
ament_target_dependencies(test_intra_process_buffer
"rcl_interfaces"
"rmw"
"rosidl_runtime_cpp"
"rosidl_typesupport_cpp"
)
target_link_libraries(test_intra_process_buffer ${PROJECT_NAME})
endif()
ament_add_gtest(test_loaned_message test/test_loaned_message.cpp)
ament_target_dependencies(test_loaned_message
"test_msgs"
)
target_link_libraries(test_loaned_message ${PROJECT_NAME})
ament_add_gtest(test_node test/test_node.cpp TIMEOUT 240)
if(TARGET test_node)
ament_target_dependencies(test_node
"rcl_interfaces"
"rcpputils"
"rmw"
"rosidl_runtime_cpp"
"rosidl_typesupport_cpp"
"test_msgs"
)
target_link_libraries(test_node ${PROJECT_NAME})
endif()
ament_add_gtest(test_node_interfaces__get_node_interfaces
test/node_interfaces/test_get_node_interfaces.cpp)
if(TARGET test_node_interfaces__get_node_interfaces)
target_link_libraries(test_node_interfaces__get_node_interfaces ${PROJECT_NAME})
endif()
# TODO(wjwwood): reenable these build failure tests when I can get Jenkins to ignore their output
# rclcpp_add_build_failure_test(build_failure__get_node_topics_interface_const_ref_rclcpp_node
# test/node_interfaces/test_does_not_compile/get_node_topics_interface_const_ref_rclcpp_node.cpp)
# target_link_libraries(build_failure__get_node_topics_interface_const_ref_rclcpp_node
# ${PROJECT_NAME})
# rclcpp_add_build_failure_test(build_failure__get_node_topics_interface_const_ptr_rclcpp_node
# test/node_interfaces/test_does_not_compile/get_node_topics_interface_const_ptr_rclcpp_node.cpp)
# target_link_libraries(build_failure__get_node_topics_interface_const_ptr_rclcpp_node
# ${PROJECT_NAME})
# rclcpp_add_build_failure_test(build_failure__get_node_topics_interface_const_ref_wrapped_node
# test/node_interfaces/test_does_not_compile/get_node_topics_interface_const_ref_wrapped_node.cpp)
# target_link_libraries(build_failure__get_node_topics_interface_const_ref_rclcpp_node
# ${PROJECT_NAME})
# rclcpp_add_build_failure_test(build_failure__get_node_topics_interface_const_ptr_wrapped_node
# test/node_interfaces/test_does_not_compile/get_node_topics_interface_const_ptr_wrapped_node.cpp)
# target_link_libraries(build_failure__get_node_topics_interface_const_ptr_rclcpp_node
# ${PROJECT_NAME})
ament_add_gtest(test_node_global_args test/test_node_global_args.cpp)
if(TARGET test_node_global_args)
ament_target_dependencies(test_node_global_args
"rcl_interfaces"
"rmw"
"rosidl_runtime_cpp"
"rosidl_typesupport_cpp"
)
target_link_libraries(test_node_global_args ${PROJECT_NAME})
endif()
ament_add_gtest(test_node_options test/test_node_options.cpp)
if(TARGET test_node_options)
ament_target_dependencies(test_node_options "rcl")
target_link_libraries(test_node_options ${PROJECT_NAME})
endif()
ament_add_gtest(test_parameter_client test/test_parameter_client.cpp)
if(TARGET test_parameter_client)
ament_target_dependencies(test_parameter_client
"rcl_interfaces"
)
target_link_libraries(test_parameter_client ${PROJECT_NAME})
endif()
ament_add_gtest(test_parameter_events_filter test/test_parameter_events_filter.cpp)
if(TARGET test_parameter_events_filter)
ament_target_dependencies(test_parameter_events_filter
"rcl_interfaces"
"rmw"
"rosidl_runtime_cpp"
"rosidl_typesupport_cpp"
)
target_link_libraries(test_parameter_events_filter ${PROJECT_NAME})
endif()
ament_add_gtest(test_parameter test/test_parameter.cpp)
if(TARGET test_parameter)
ament_target_dependencies(test_parameter
"rcl_interfaces"
"rmw"
"rosidl_runtime_cpp"
"rosidl_typesupport_cpp"
)
target_link_libraries(test_parameter ${PROJECT_NAME})
endif()
ament_add_gtest(test_parameter_map test/test_parameter_map.cpp)
if(TARGET test_parameter_map)
target_link_libraries(test_parameter_map ${PROJECT_NAME})
endif()
ament_add_gtest(test_publisher test/test_publisher.cpp)
if(TARGET test_publisher)
ament_target_dependencies(test_publisher
"rmw"
"rosidl_runtime_cpp"
"rosidl_typesupport_cpp"
"test_msgs"
)
target_link_libraries(test_publisher ${PROJECT_NAME})
endif()
ament_add_gtest(test_publisher_subscription_count_api test/test_publisher_subscription_count_api.cpp)
if(TARGET test_publisher_subscription_count_api)
ament_target_dependencies(test_publisher_subscription_count_api
"rcl_interfaces"
"rmw"
"rosidl_runtime_cpp"
"rosidl_typesupport_cpp"
"test_msgs"
)
target_link_libraries(test_publisher_subscription_count_api ${PROJECT_NAME})
endif()
ament_add_gtest(test_qos test/test_qos.cpp)
if(TARGET test_qos)
ament_target_dependencies(test_qos
"rmw"
)
target_link_libraries(test_qos
${PROJECT_NAME}
)
endif()
ament_add_gtest(test_qos_event test/test_qos_event.cpp)
if(TARGET test_qos_event)
ament_target_dependencies(test_qos_event
"rmw"
"test_msgs"
)
target_link_libraries(test_qos_event
${PROJECT_NAME}
)
endif()
ament_add_gtest(test_rate test/test_rate.cpp)
if(TARGET test_rate)
ament_target_dependencies(test_rate
"rcl_interfaces"
"rmw"
"rosidl_runtime_cpp"
"rosidl_typesupport_cpp"
)
target_link_libraries(test_rate
${PROJECT_NAME}
)
endif()
ament_add_gtest(test_serialized_message_allocator test/test_serialized_message_allocator.cpp)
if(TARGET test_serialized_message_allocator)
ament_target_dependencies(test_serialized_message_allocator
test_msgs
)
target_link_libraries(test_serialized_message_allocator
${PROJECT_NAME}
)
endif()
ament_add_gtest(test_serialized_message test/test_serialized_message.cpp)
if(TARGET test_serialized_message)
ament_target_dependencies(test_serialized_message
test_msgs
)
target_link_libraries(test_serialized_message
${PROJECT_NAME}
)
endif()
ament_add_gtest(test_service test/test_service.cpp)
if(TARGET test_service)
ament_target_dependencies(test_service
"rcl_interfaces"
"rmw"
"rosidl_runtime_cpp"
"rosidl_typesupport_cpp"
)
target_link_libraries(test_service ${PROJECT_NAME})
endif()
ament_add_gtest(test_subscription test/test_subscription.cpp)
if(TARGET test_subscription)
ament_target_dependencies(test_subscription
"rcl_interfaces"
"rmw"
"rosidl_runtime_cpp"
"rosidl_typesupport_cpp"
"test_msgs"
)
target_link_libraries(test_subscription ${PROJECT_NAME})
endif()
ament_add_gtest(test_subscription_publisher_count_api test/test_subscription_publisher_count_api.cpp)
if(TARGET test_subscription_publisher_count_api)
ament_target_dependencies(test_subscription_publisher_count_api
"rcl_interfaces"
"rmw"
"rosidl_runtime_cpp"
"rosidl_typesupport_cpp"
"test_msgs"
)
target_link_libraries(test_subscription_publisher_count_api ${PROJECT_NAME})
endif()
ament_add_gtest(test_subscription_traits test/test_subscription_traits.cpp)
if(TARGET test_subscription_traits)
ament_target_dependencies(test_subscription_traits
"rcl"
"test_msgs"
)
target_link_libraries(test_subscription_traits ${PROJECT_NAME})
endif()
ament_add_gtest(test_find_weak_nodes test/test_find_weak_nodes.cpp)
if(TARGET test_find_weak_nodes)
ament_target_dependencies(test_find_weak_nodes
"rcl"
)
target_link_libraries(test_find_weak_nodes ${PROJECT_NAME})
endif()
set(append_library_dirs "${CMAKE_CURRENT_BINARY_DIR}")
if(WIN32)
set(append_library_dirs "${append_library_dirs}/$<CONFIG>")
endif()
ament_add_gtest(test_externally_defined_services test/test_externally_defined_services.cpp)
ament_target_dependencies(test_externally_defined_services
"rcl"
"test_msgs"
)
target_link_libraries(test_externally_defined_services ${PROJECT_NAME})
ament_add_gtest(test_duration test/test_duration.cpp
APPEND_LIBRARY_DIRS "${append_library_dirs}")
if(TARGET test_duration)
ament_target_dependencies(test_duration
"rcl")
target_link_libraries(test_duration ${PROJECT_NAME})
endif()
ament_add_gtest(test_executor test/test_executor.cpp
APPEND_LIBRARY_DIRS "${append_library_dirs}")
if(TARGET test_executor)
ament_target_dependencies(test_executor
"rcl")
target_link_libraries(test_executor ${PROJECT_NAME})
endif()
ament_add_gtest(test_logger test/test_logger.cpp)
target_link_libraries(test_logger ${PROJECT_NAME})
ament_add_gmock(test_logging test/test_logging.cpp)
target_link_libraries(test_logging ${PROJECT_NAME})
ament_add_gtest(test_time test/test_time.cpp
APPEND_LIBRARY_DIRS "${append_library_dirs}")
if(TARGET test_time)
ament_target_dependencies(test_time
"rcl")
target_link_libraries(test_time ${PROJECT_NAME})
endif()
ament_add_gtest(test_timer test/test_timer.cpp
APPEND_LIBRARY_DIRS "${append_library_dirs}")
if(TARGET test_timer)
ament_target_dependencies(test_timer
"rcl")
target_link_libraries(test_timer ${PROJECT_NAME})
endif()
ament_add_gtest(test_time_source test/test_time_source.cpp
APPEND_LIBRARY_DIRS "${append_library_dirs}")
if(TARGET test_time_source)
ament_target_dependencies(test_time_source
"rcl")
target_link_libraries(test_time_source ${PROJECT_NAME})
endif()
ament_add_gtest(test_utilities test/test_utilities.cpp
APPEND_LIBRARY_DIRS "${append_library_dirs}")
if(TARGET test_utilities)
ament_target_dependencies(test_utilities
"rcl")
target_link_libraries(test_utilities ${PROJECT_NAME})
endif()
ament_add_gtest(test_init test/test_init.cpp
APPEND_LIBRARY_DIRS "${append_library_dirs}")
if(TARGET test_init)
ament_target_dependencies(test_init
"rcl")
target_link_libraries(test_init ${PROJECT_NAME})
endif()
ament_add_gtest(test_multi_threaded_executor test/executors/test_multi_threaded_executor.cpp
APPEND_LIBRARY_DIRS "${append_library_dirs}")
if(TARGET test_multi_threaded_executor)
ament_target_dependencies(test_multi_threaded_executor
"rcl")
target_link_libraries(test_multi_threaded_executor ${PROJECT_NAME})
endif()
ament_add_gtest(test_guard_condition test/test_guard_condition.cpp
APPEND_LIBRARY_DIRS "${append_library_dirs}")
if(TARGET test_guard_condition)
target_link_libraries(test_guard_condition ${PROJECT_NAME})
endif()
ament_add_gtest(test_wait_set test/test_wait_set.cpp
APPEND_LIBRARY_DIRS "${append_library_dirs}")
if(TARGET test_wait_set)
ament_target_dependencies(test_wait_set "test_msgs")
target_link_libraries(test_wait_set ${PROJECT_NAME})
endif()
ament_add_gtest(test_subscription_topic_statistics test/topic_statistics/test_subscription_topic_statistics.cpp)
if(TARGET test_subscription_topic_statistics)
ament_target_dependencies(test_subscription_topic_statistics
"libstatistics_collector"
"rcl_interfaces"
"rcutils"
"rmw"
"rosidl_runtime_cpp"
"rosidl_typesupport_cpp"
"statistics_msgs"
"test_msgs")
target_link_libraries(test_subscription_topic_statistics ${PROJECT_NAME})
endif()
ament_add_gtest(test_subscription_options test/test_subscription_options.cpp)
if(TARGET test_subscription_options)
ament_target_dependencies(test_subscription_options "rcl")
target_link_libraries(test_subscription_options ${PROJECT_NAME})
endif()
# Install test resources
install(
DIRECTORY test/resources
DESTINATION ${CMAKE_CURRENT_BINARY_DIR}/test)
endif()
ament_package()
install(
DIRECTORY include/ ${CMAKE_CURRENT_BINARY_DIR}/include/
DESTINATION include/${PROJECT_NAME}
DESTINATION include
)
if(TEST cppcheck)
# must set the property after ament_package()
set_tests_properties(cppcheck PROPERTIES TIMEOUT 1200)
endif()
if(TEST cpplint)
set_tests_properties(cpplint PROPERTIES TIMEOUT 180)
endif()
ament_generate_version_header(${PROJECT_NAME})

35
rclcpp/Doxyfile
View File

@@ -21,38 +21,13 @@ GENERATE_LATEX = NO
ENABLE_PREPROCESSING = YES
MACRO_EXPANSION = YES
EXPAND_ONLY_PREDEF = YES
EXCLUDE_SYMBOLS += RCLCPP_STATIC_ASSERT_LOGGER
EXCLUDE_SYMBOLS += RCLCPP_LOG
EXCLUDE_SYMBOLS += RCLCPP_LOG_ONCE
EXCLUDE_SYMBOLS += RCLCPP_LOG_EXPRESSION
EXCLUDE_SYMBOLS += RCLCPP_LOG_FUNCTION
EXCLUDE_SYMBOLS += RCLCPP_LOG_SKIPFIRST
EXCLUDE_SYMBOLS += RCLCPP_LOG_TIME_POINT_FUNC
EXCLUDE_SYMBOLS += RCLCPP_LOG_THROTTLE
EXCLUDE_SYMBOLS += RCLCPP_LOG_SKIPFIRST_THROTTLE
EXCLUDE_SYMBOLS += RCLCPP_LOG_STREAM
EXCLUDE_SYMBOLS += RCLCPP_LOG_STREAM_ONCE
EXCLUDE_SYMBOLS += RCLCPP_LOG_STREAM_EXPRESSION
EXCLUDE_SYMBOLS += RCLCPP_LOG_STREAM_FUNCTION
EXCLUDE_SYMBOLS += RCLCPP_LOG_STREAM_SKIPFIRST
EXCLUDE_SYMBOLS += RCLCPP_LOG_STREAM_THROTTLE
EXCLUDE_SYMBOLS += RCLCPP_LOG_STREAM_SKIPFIRST_THROTTLE
PREDEFINED += DOXYGEN_ONLY
PREDEFINED += RCLCPP_LOCAL=
PREDEFINED += RCLCPP_PUBLIC=
PREDEFINED += RCLCPP_PUBLIC_TYPE=
PREDEFINED += RCUTILS_WARN_UNUSED=
PREDEFINED += RCPPUTILS_TSA_GUARDED_BY(x)=
PREDEFINED += RCPPUTILS_TSA_PT_GUARDED_BY(x)=
PREDEFINED += RCPPUTILS_TSA_REQUIRES(x)=
DOT_GRAPH_MAX_NODES = 101
PREDEFINED = RCLCPP_PUBLIC=
# Tag files that do not exist will produce a warning and cross-project linking will not work.
#TAGFILES += "../../../../doxygen_tag_files/cppreference-doxygen-web.tag.xml=http://en.cppreference.com/w/"
TAGFILES += "../../../../doxygen_tag_files/cppreference-doxygen-web.tag.xml=http://en.cppreference.com/w/"
# Consider changing "latest" to the version you want to reference (e.g. beta1 or 1.0.0)
#TAGFILES += "../../../../doxygen_tag_files/rcl.tag=http://docs.ros2.org/latest/api/rcl/"
#TAGFILES += "../../../../doxygen_tag_files/rmw.tag=http://docs.ros2.org/latest/api/rmw/"
#TAGFILES += "../../../../doxygen_tag_files/rcutils.tag=http://docs.ros2.org/latest/api/rcutils/"
TAGFILES += "../../../../doxygen_tag_files/rcl.tag=http://docs.ros2.org/latest/api/rcl/"
TAGFILES += "../../../../doxygen_tag_files/rmw.tag=http://docs.ros2.org/latest/api/rmw/"
TAGFILES += "../../../../doxygen_tag_files/rcutils.tag=http://docs.ros2.org/latest/api/rcutils/"
# Uncomment to generate tag files for cross-project linking.
#GENERATE_TAGFILE = "../../../../doxygen_tag_files/rclcpp.tag"

228
rclcpp/QUALITY_DECLARATION.md
View File

@@ -1,228 +0,0 @@
This document is a declaration of software quality for the `rclcpp` package, based on the guidelines in [REP-2004](https://reps.openrobotics.org/rep-2004/).
# rclcpp Quality Declaration
The package `rclcpp` claims to be in the **Quality Level 1** category when it is used with a **Quality Level 1** middleware.
Below are the rationales, notes, and caveats for this claim, organized by each requirement listed in the [Package Requirements for Quality Level 1 in REP-2004](https://reps.openrobotics.org/rep-2004/).
## Version Policy [1]
### Version Scheme [1.i]
`rclcpp` uses `semver` according to the recommendation for ROS Core packages in the [ROS 2 Developer Guide](https://docs.ros.org/en/rolling/Contributing/Developer-Guide.html#versioning).
### Version Stability [1.ii]
`rclcpp` is at a stable version, i.e. `>= 1.0.0`.
The current version can be found in its [package.xml](package.xml), and its change history can be found in its [CHANGELOG](CHANGELOG.rst).
### Public API Declaration [1.iii]
All symbols in the installed headers are considered part of the public API.
Except for the exclusions listed below, all installed headers are in the `include` directory of the package, headers in any other folders are not installed and considered private.
Headers under the folder `experimental` are not considered part of the public API as they have not yet been stabilized. These symbols are namespaced `rclcpp::experimental`.
Headers under the folder `detail` are not considered part of the public API and are subject to change without notice. These symbols are namespaced `rclcpp::detail`.
### API Stability Policy [1.iv]
`rclcpp` will not break public API within a released ROS distribution, i.e. no major releases once the ROS distribution is released.
### ABI Stability Policy [1.v]
`rclcpp` contains C++ code and therefore must be concerned with ABI stability, and will maintain ABI stability within a ROS distribution.
### ABI and ABI Stability Within a Released ROS Distribution [1.vi]
`rclcpp` will not break API nor ABI within a released ROS distribution, i.e. no major releases once the ROS distribution is released.
## Change Control Process [2]
`rclcpp` follows the recommended guidelines for ROS Core packages in the [ROS 2 Developer Guide](https://docs.ros.org/en/rolling/Contributing/Developer-Guide.html#change-control-process).
### Change Requests [2.i]
All changes will occur through a pull request, check [ROS 2 Developer Guide](https://docs.ros.org/en/rolling/Contributing/Developer-Guide.html#change-control-process) for additional information.
### Contributor Origin [2.ii]
This package uses DCO as its confirmation of contributor origin policy. More information can be found in [CONTRIBUTING](../CONTRIBUTING.md).
### Peer Review Policy [2.iii]
All pull requests will be peer-reviewed, check [ROS 2 Developer Guide](https://docs.ros.org/en/rolling/Contributing/Developer-Guide.html#change-control-process) for additional information.
### Continuous Integration [2.iv]
All pull requests must pass CI on all [tier 1 platforms](https://reps.openrobotics.org/rep-2000/#support-tiers)
Currently nightly results can be seen here:
* [linux-aarch64_release](https://ci.ros2.org/view/nightly/job/nightly_linux-aarch64_release/lastBuild/testReport/rclcpp/)
* [linux_release](https://ci.ros2.org/view/nightly/job/nightly_linux_release/lastBuild/testReport/rclcpp/)
* [mac_osx_release](https://ci.ros2.org/view/nightly/job/nightly_osx_release/lastBuild/testReport/rclcpp/)
* [windows_release](https://ci.ros2.org/view/nightly/job/nightly_win_rel/lastBuild/testReport/rclcpp/)
### Documentation Policy [2.v]
All pull requests must resolve related documentation changes before merging.
## Documentation [3]
### Feature Documentation [3.i]
`rclcpp` has a [feature list](http://docs.ros2.org/latest/api/rclcpp/) and each item in the list links to the corresponding feature documentation. There is documentation for all of the features, and new features require documentation before being added.
### Public API Documentation [3.ii]
The API is publicly available in its [ROS 2 API documentation](http://docs.ros2.org/latest/api/rclcpp/).
### License [3.iii]
The license for `rclcpp` is Apache 2.0, and a summary is in each source file, the type is declared in the [`package.xml`](./package.xml) manifest file, and a full copy of the license is in the [`LICENSE`](../LICENSE) file.
There is an automated test which runs a linter that ensures each file has a license statement. [Here](http://build.ros2.org/view/Rpr/job/Rpr__rclcpp__ubuntu_focal_amd64/lastCompletedBuild/testReport/rclcpp/) can be found a list with the latest results of the various linters being run on the package.
### Copyright Statements [3.iv]
The copyright holders each provide a statement of copyright in each source code file in `rclcpp`.
There is an automated test which runs a linter that ensures each file has at least one copyright statement. Latest linter result report can be seen [here](http://build.ros2.org/view/Rpr/job/Rpr__rclcpp__ubuntu_focal_amd64/lastCompletedBuild/testReport/rclcpp/copyright/).
## Testing [4]
### Feature Testing [4.i]
Each feature in `rclcpp` has corresponding tests which simulate typical usage, and they are located in the [`test`](https://github.com/ros2/rclcpp/tree/rolling/test) directory.
New features are required to have tests before being added.
Currently nightly test results can be seen here:
* [linux-aarch64_release](https://ci.ros2.org/view/nightly/job/nightly_linux-aarch64_release/lastBuild/testReport/rclcpp/)
* [linux_release](https://ci.ros2.org/view/nightly/job/nightly_linux_release/lastBuild/testReport/rclcpp/)
* [mac_osx_release](https://ci.ros2.org/view/nightly/job/nightly_osx_release/lastBuild/testReport/rclcpp/)
* [windows_release](https://ci.ros2.org/view/nightly/job/nightly_win_rel/lastBuild/testReport/rclcpp/)
### Public API Testing [4.ii]
Each part of the public API has tests, and new additions or changes to the public API require tests before being added.
The tests aim to cover both typical usage and corner cases, but are quantified by contributing to code coverage.
### Coverage [4.iii]
`rclcpp` follows the recommendations for ROS Core packages in the [ROS 2 Developer Guide](https://docs.ros.org/en/rolling/Contributing/Developer-Guide.html#code-coverage), and opts to use line coverage instead of branch coverage.
This includes:
- tracking and reporting line coverage statistics
- achieving and maintaining a reasonable branch line coverage (90-100%)
- no lines are manually skipped in coverage calculations
Changes are required to make a best effort to keep or increase coverage before being accepted, but decreases are allowed if properly justified and accepted by reviewers.
Current coverage statistics can be viewed [here](https://ci.ros2.org/job/nightly_linux_coverage/lastCompletedBuild/cobertura/src_ros2_rclcpp_rclcpp_src_rclcpp/). A description of how coverage statistics are calculated is summarized in this page ["ROS 2 Onboarding Guide"](https://docs.ros.org/en/rolling/Contributing/Developer-Guide.html#note-on-coverage-runs).
`rclcpp` has a line coverage `>= 95%`, which is calculated over all directories within `rclcpp` with the exception of the `experimental` directory.
### Performance [4.iv]
`rclcpp` follows the recommendations for performance testing of C/C++ code in the [ROS 2 Developer Guide](https://docs.ros.org/en/rolling/Contributing/Developer-Guide.html#performance), and opts to do performance analysis on each release rather than each change.
The performance tests of `rclcpp` are located in the [test/benchmark directory](https://github.com/ros2/rclcpp/tree/rolling/rclcpp/test/benchmark).
System level performance benchmarks that cover features of `rclcpp` can be found at:
* [Benchmarks](http://build.ros2.org/view/Rci/job/Rci__benchmark_ubuntu_focal_amd64/BenchmarkTable/)
* [Performance](http://build.ros2.org/view/Rci/job/Rci__nightly-performance_ubuntu_focal_amd64/lastCompletedBuild/)
Changes that introduce regressions in performance must be adequately justified in order to be accepted and merged.
### Linters and Static Analysis [4.v]
`rclcpp` uses and passes all the ROS 2 standard linters and static analysis tools for a C++ package as described in the [ROS 2 Developer Guide](https://docs.ros.org/en/rolling/Contributing/Developer-Guide.html#linters-and-static-analysis). Passing implies there are no linter/static errors when testing against CI of supported platforms.
Currently nightly test results can be seen here:
* [linux-aarch64_release](https://ci.ros2.org/view/nightly/job/nightly_linux-aarch64_release/lastBuild/testReport/rclcpp/)
* [linux_release](https://ci.ros2.org/view/nightly/job/nightly_linux_release/lastBuild/testReport/rclcpp/)
* [mac_osx_release](https://ci.ros2.org/view/nightly/job/nightly_osx_release/lastBuild/testReport/rclcpp/)
* [windows_release](https://ci.ros2.org/view/nightly/job/nightly_win_rel/lastBuild/testReport/rclcpp/)
## Dependencies [5]
Below are evaluations of each of `rclcpp`'s run-time and build-time dependencies that have been determined to influence the quality.
It has several "buildtool" dependencies, which do not affect the resulting quality of the package, because they do not contribute to the public library API.
It also has several test dependencies, which do not affect the resulting quality of the package, because they are only used to build and run the test code.
### Direct and Optional Runtime ROS Dependencies [5.i]/[5.ii]
`rclcpp` has the following runtime ROS dependencies:
#### `libstatistics_collector`
The `libstatistics_collector` package provides lightweight aggregation utilities to collect statistics and measure message metrics.
It is **Quality Level 1**, see its [Quality Declaration document](https://github.com/ros-tooling/libstatistics_collector/tree/rolling/QUALITY_DECLARATION.md).
#### `rcl`
`rcl` a library to support implementation of language specific ROS 2 Client Libraries.
It is **Quality Level 1**, see its [Quality Declaration document](https://github.com/ros2/rcl/blob/rolling/rcl/QUALITY_DECLARATION.md).
#### `rcl_yaml_param_parser`
The `rcl_yaml_param_parser` package provides an API that is used to parse YAML configuration files which may be used to configure ROS and specific nodes.
It is **Quality Level 1**, see its [Quality Declaration document](https://github.com/ros2/rcl/tree/rolling/rcl_yaml_param_parser/QUALITY_DECLARATION.md).
#### `rcpputils`
The `rcpputils` package provides an API which contains common utilities and data structures useful when programming in C++.
It is **Quality Level 1**, see its [Quality Declaration document](https://github.com/ros2/rcpputils/blob/rolling/QUALITY_DECLARATION.md).
#### `rcutils`
The `rcutils` package provides an API which contains common utilities and data structures useful when programming in C.
It is **Quality Level 1**, see its [Quality Declaration document](https://github.com/ros2/rcutils/blob/rolling/QUALITY_DECLARATION.md).
#### `rmw`
`rmw` is the ROS 2 middleware library.
It is **Quality Level 1**, see its [Quality Declaration document](https://github.com/ros2/rmw/blob/rolling/rmw/QUALITY_DECLARATION.md).
#### `statistics_msgs`
The `statistics_msgs` package contains ROS 2 message definitions for reporting statistics for topics and system resources.
It is **Quality Level 1**, see its [Quality Declaration document](https://github.com/ros2/rcl_interfaces/blob/rolling/statistics_msgs/QUALITY_DECLARATION.md).
#### `tracetools`
The `tracetools` package provides utilities for instrumenting the code in `rclcpp` so that it may be traced for debugging and performance analysis.
It is **Quality Level 1**, see its [Quality Declaration document](https://github.com/ros2/ros2_tracing/blob/rolling/tracetools/QUALITY_DECLARATION.md).
### Direct Runtime non-ROS Dependency [5.iii]
`rclcpp` has no run-time or build-time dependencies that need to be considered for this declaration.
## Platform Support [6]
`rclcpp` supports all of the tier 1 platforms as described in [REP-2000](https://reps.openrobotics.org/rep-2000/#support-tiers), and tests each change against all of them.
Currently nightly build status can be seen here:
* [linux-aarch64_release](https://ci.ros2.org/view/nightly/job/nightly_linux-aarch64_release/lastBuild/rclcpp/)
* [linux_release](https://ci.ros2.org/view/nightly/job/nightly_linux_release/lastBuild/rclcpp/)
* [mac_osx_release](https://ci.ros2.org/view/nightly/job/nightly_osx_release/lastBuild/rclcpp/)
* [windows_release](https://ci.ros2.org/view/nightly/job/nightly_win_rel/lastBuild/rclcpp/)
## Security
### Vulnerability Disclosure Policy [7.i]
This package conforms to the Vulnerability Disclosure Policy in [REP-2006](https://reps.openrobotics.org/rep-2006/).

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# `rclcpp`
The ROS client library in C++.
The link to the latest rclcpp API documentation, which includes a complete list of its main components and features, can be found on the [rclcpp package info page](https://docs.ros.org/en/rolling/p/rclcpp).
## Quality Declaration
This package claims to be in the **Quality Level 1** category, see the [Quality Declaration](QUALITY_DECLARATION.md) for more details.

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# API Review for `rclcpp` from March 2020
## Notes
### Off-Topic Questions
> [rclcpp_action] There exists a thread-safe and non-thread-safe way to get the goal result from an action client. We probably want to remove the public interface to the non-thread safe call (or consolidate somehow): https://github.com/ros2/rclcpp/issues/955
`rclcpp_action` is out of scope atm.
**Notes from 2020-03-19**: To be handled in separate API review.
## Architecture
### Calling Syntax and Keeping Node-like Class APIs in Sync
> Currently, much of the API is exposed via the `rclcpp::Node` class, and due to the nature of the current architecture there is a lot of repeated code to expose these methods and then call the implementations which are in other classes like `rclcpp::node_interfaces::NodeTopics`, for example.
>
> Also, we have other versions of the class `rclcpp::Node` with different semantics and interfaces, like `rclcpp_lifecycle::LifecycleNode`, and we have been having trouble keeping the interface provided there up to date with how things are done in `rclcpp::Node`. Since `LifecycleNode` has a different API from `Node` in some important cases, it does not just inherit from `Node`.
>
> There are two main proposals (as I see it) to try and address this issue, either (a) break up the functionality in `Node` so that it is in separate classes and make `Node` multiple inherit from those classes, and then `LifecycleNode` could selectively inherit from those as well, or (b) change our calling convention from `node->do_thing(...)` to be `do_thing(node, ...)`.
>
> For (a) which commonly referred to as the [Policy Based Design Pattern](https://en.wikipedia.org/wiki/Modern_C%2B%2B_Design#Policy-based_design), we'd be reversing previous design decisions which we discussed at length where we decided to use composition over inheritance for various reasons.
> One of the reasons was testing, with the theory that having simpler separate interfaces we could more easily mock them as needed for testing.
> The testing goal would still be met, either by keeping the "node_interface" classes as-is or by mocking the classes that node would multiple inherit from, however it's harder to indicate that a function needs a class that multiple inherits from several classes but not others.
> Also having interdependency between the classes which are inherited from is a bit complicated in this design pattern.
>
> For (b), we would be changing how we recommend all code be written (not a trivial thing to do at all), because example code like `auto pub = node->create_publsiher(...);` would be come `auto pub = create_publisher(node, ...);`.
> This has some distinct advantages, however, in that it allows us to write these functions, like `create_publisher(node, ...)`, so that the node argument can be any class that meets the criteria of the function.
> That not only means that when we add a feature it automatically works with `Node` and `LifecycleNode` without adding anything to them, it also means that user defined `Node`-like classes will also work, even if they do not inherit from or provide the complete interface for `rclcpp::Node`.
> Another major downside of this approach is discoverability of the API when using auto-completion in text editors, as `node-><tab>` will often give you a list of methods to explore, but with the new calling convention, there's not way to get an auto complete for code who's first argument is a `Node`-like class.
>
> Both of the above approaches address some of the main concerns, which are: keeping `Node` and `LifecycleNode` in sync, reducing the size of the `Node` class so it is more easily maintained, documented, and so that related functions are grouped more clearly.
- https://github.com/ros2/rclcpp/issues/898
- https://github.com/ros2/rclcpp/issues/509
- https://github.com/ros2/rclcpp/issues/855
- https://github.com/ros2/rclcpp/issues/985
- subnode feature is in rclcpp::Node only, complicating "node using" API designs
- http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2014/n4174.pdf
- https://en.wikipedia.org/wiki/Uniform_Function_Call_Syntax#C++_proposal
- "Many programmers are tempted to write member functions to get the benefits of the member function syntax (e.g. "dot-autocomplete" to list member functions);[6] however, this leads to excessive coupling between classes.[7]"
**Suggested Action**: Document the discussion and defer until Foxy.
**Notes from 2020-03-19**:
- Another version of (b) could be to have classes that are constructed with node, e.g. `Publisher(node, ...)` rather than `node->create_publisher(...)`
- (tfoote) interface class? `NodeInterface<NodeLike>::something(node_like)`
- DRY?
- `NodeInterface<LifecycleNode>::<tab>` -> only life cycle node methods
- (karsten) use interface classes directly, e.g. node->get_X_interface()->do_thing()
- (dirk) use macros to add methods to class
- Question: Do we want tab-completable API (specifically list of member functions)?
- Question: Is consistency in calling between core and non-core features more important than tab-completion?
- Add better example of adding new feature and not needing to touch `rclcpp::Node`.
- (dirk) methods and free functions not mutually exclusive.
### Scoped Versus Non-Scoped Entities (e.g. Publishers/Subscriptions)
> Currently, Publisher and Subscription (and similar entities) are scoped, meaning that when they are created they are added to the ROS graph as a side effect, and when they are let out of scope they remove themselves from the graph too.
> Additionally, they necessarily have shared state with the system, for instance when you are spinning on a node, the executor shares ownership of the Subscriptions with the user.
> Therefore, the Subscription only gets removed when both the user and executor are done with it.
>
> This shared ownership is accomplished with the use of shared pointers and weak pointers.
>
> There are a few concerns here, (a) use of shared pointers confuses users, (b) overhead of shared pointers and lack of an ability to use these classes on the stack rather than the heap, and (c) complexity of shutdown of an entity from the users perspective.
>
> For (a), some users are overwhelmed by the need to use a shared pointer.
> In ROS 1 this was avoided by having a class which itself just thinly wraps a shared pointer (see: https://github.com/ros/ros_comm/blob/ac9f88c59a676ca6895e13445fc7d71f398ebe1f/clients/roscpp/include/ros/subscriber.h#L108-L111).
> This could be achieved in ROS 2 either by doing the same with a wrapper class (at the expense of lots of repeated code), or by eliminating the need for using shared ownership.
>
> For (b), for some use cases, especially resource constrained / real-time / safety-critical environments, requiring these classes to be on the heap rather than the stack is at least inconvenient.
> Additionally, there is a cost associated with using shared pointers, in the storage of shared state and in some implementation the use of locks or at least atomics for thread-safety.
>
> For (c), this is the most concerning drawback, because right now when a user lets their shared pointer to a, for example, Subscription go out of scope, a post condition is not that the Subscription is destroyed, nor that it has been removed from the graph.
> In stead, the behavior is more like "at some point in the future the Subscription will be destroyed and removed from the graph, when the system is done with it".
> This isn't a very satisfactory contract, as some users may wish to know when the Subscription has been deleted, but cannot easily know that.
>
> The benefit to the shared state is a safety net for users.
> The alternative would be to document that a Subscription, again for example, cannot be deleted until the system is done with it.
> We'd basically be pushing the responsibility onto the user to ensure the shared ownership is handled properly by the execution of their application, i.e. they create the Subscription, share a reference with the system (adding it by reference to an executor, for example), and they have to make sure the system is done with it before deleting the Subscription.
>
>Separately, from the above points, there is the related concern of forcing the user to keep a copy of their entities in scope, whether it be with a shared pointer or a class wrapping one.
> There is the desire to create it and forget it in some cases.
> The downside to this is that if/when the user wants to destroy the entity, they have no way of doing that as they have no handle or unique way to address the entity.
>
> One proposed solution would be to have a set of "named X" APIs, e.g. `create_named_subscription` rather than just `create_subscription`.
> This would allow the user to address the Subscription in the future in order to obtain a new reference to it or delete it.
- https://github.com/ros2/rclcpp/issues/506
- https://github.com/ros2/rclcpp/issues/726
**Suggested Action**: Consolidate to a single issue, and defer.
**Notes from 2020-03-23**:
- (chris) Putting ownership mechanics on user is hard.
- (dirk) add documentation clearly outlining ownership
- (shane) warn on unused to catch issues with immediately deleted items
- (tfoote) debugging output for destruction so it easy to see when reviewing logs
- (chris) possible to create API that checks for destruction
- (william) might lead to complex synchronization issues
- (tfoote) could add helper classes to make scoped things non-scoped
- (shane) concerned that there is no longer "one good way" to do it
### Allow QoS to be configured externally, like we allow remapping of topic names
> Suggestion from @stonier: allow the qos setting on a topic to be changed externally at startup, similar to how we do topic remapping (e.g., do it on the command-line using appropriate syntax).
>
> To keep the syntax manageable, we might just allow profiles to be picked.
- https://github.com/ros2/rclcpp/issues/239
**Suggested Action**: Update issue, defer for now.
**Notes from 2020-03-19**:
- (wjwwood) it depends on the QoS setting, but many don't make sense, mostly because they can change some of the behaviors of underlying API
- (dirk) Should developers expose a parameter instead?
- (multiple) should be a feature that makes configuring them (after opt-in) consistent
- (jacob) customers feedback was that this was expected, surprised it was not allowed
- (karsten) could limit to profiles
## Init/shutdown and Context
### Consider renaming `rclcpp::ok()`
> Old discussion to rename `rclcpp::ok()` to something more specific, like `rclcpp::is_not_shutdown()` or the corollary `rclcpp::is_shutdown()`.
- https://github.com/ros2/rclcpp/issues/3
**Suggested Action**: Defer.
**Notes from 2020-03-19**:
- (shane) preference to not have a negative in the function name
## Executor
### Exposing Scheduling of Tasks in Executor and a Better Default
> Currently there is a hard coded procedure for handling ready tasks in the executor, first timers, then subscriptions, and so on.
> This scheduling is not fair and results in non-deterministic behavior and starvation issues.
>
> We should provide a better default scheduling which is fairer and ideally deterministic, something like round-robin or FIFO.
>
> Additionally, we should make it easier to let the user override the scheduling logic in the executor.
- https://github.com/ros2/rclcpp/pull/614
- https://github.com/ros2/rclcpp/issues/633
- https://github.com/ros2/rclcpp/issues/392
**Suggested Action**: Follow up on proposals to implement FIFO scheduling and refactor the Executor design to more easily expose the scheduling logic.
**Notes from 2020-03-19**:
- No comments.
### Make it possible to wait on entities (e.g. Subscriptions) without an Executor
> Currently, it is only possible to use things like Timers and Subscriptions and Services with an executor.
> It should be possible, however, to either poll these entities or wait on them and then decide which to process as a user.
>
> This is most easily accomplished with a WaitSet-like class.
- https://github.com/ros2/rclcpp/issues/520
**Suggested Action**: implement WaitSet class in rclcpp so that this is possible, and make "waitable" entities such that they can be polled, e.g. `Subscription`s should have a user facing `take()` method, which can fail if no data is available.
**Notes from 2020-03-19**:
- No comments.
### Make it possible to use multiple executors per node
> Currently, you cannot use more than one executor per node, this limits your options when it comes to distributing work within a node across threads.
> You can use a multi-threaded executor, or make your own executor which does this, but it is often convenient to be able to spin part of the node separately from the the rest of the node.
- https://github.com/ros2/rclcpp/issues/519
**Suggested Action**: Make this possible, moving the exclusivity to be between an executor and callback groups rather than nodes.
**Notes from 2020-03-19**:
- No comments.
### Implement a Lock-free Executor
> This would presumably be useful for real-time and safety critical systems where locks and any kind of blocking code is considered undesirable.
- https://github.com/ros2/rclcpp/issues/77
**Suggested Action**: Keep in backlog until someone needs it specifically.
**Notes from 2020-03-19**:
- No comments.
### Add implementation of `spin_some()` to the `MultiThreadedExecutor`
> Currently `spin_some()` is only available in the `SingleThreadedExecutor`.
- https://github.com/ros2/rclcpp/issues/85
**Suggested Action**: Defer.
**Notes from 2020-03-19**:
- No comments.
## Node
### Do argument parsing outside of node constructor
> Things that come from command line arguments should be separately passed into the node's constructor rather than passing in arguments and asking the node to do the parsing.
- https://github.com/ros2/rclcpp/issues/492
**Suggested Action**: Defer until after foxy.
**Notes from 2020-03-23**:
- (dirk) may be related to ROS 1 heritage of argc/argv being passed to node directly
- (shane) impacts rcl API as well, two parts "global options" as well node specific options
- (dirk) what is the recommendation to users that want to add arguments programmatically
- user should be able to get non-ros argc/argv somehow (seems like you can now)
- (jacob) the argument in NodeOptions are used for application specific argument via component loading as well
## Timer
### Timer based on ROS Time
> `node->create_wall_timer` does exactly what it says; creates a timer that will call the callback when the wall time expires. But this is almost never what the user wants, since this wont work properly in simulation. Suggestion: deprecate `create_wall_timer`, add a new method called `create_timer` that takes the timer to use as one of the arguments, which defaults to ROS_TIME.
- https://github.com/ros2/rclcpp/blob/96ebf59a6045a535730d98fff25e522807c7aa75/rclcpp/include/rclcpp/node.hpp#L219-L230
- https://github.com/ros2/rclcpp/issues/465
**Suggested Action**: Promote `rclcpp::create_timer()` which is templated on a clock type, as suggested, but leave `create_wall_timer` as a convenience.
**Notes from 2020-03-19**:
- (shane) may be a `rclcpp::create_timer()` that can be used to create a non-wall timer already
## Publisher
## Subscription
### Callback Signature
> Is there a reason the subscription callback must have a smart pointer argument instead of accepting a const-reference argument?
- https://github.com/ros2/rclcpp/blob/96ebf59a6045a535730d98fff25e522807c7aa75/rclcpp/include/rclcpp/any_subscription_callback.hpp#L44-L52
- https://github.com/ros2/rclcpp/issues/281
**Suggested Action**: Provide const reference as an option, add documentation as to the implications of one callback signature versus others.
**Notes from 2020-03-19**:
- (dirk) have const reference and document it
## Service Server
### Allow for asynchronous Service Server callbacks
> Currently, the only callback signature for Service Servers takes a request and must return a response.
> This means that all of the activity of the service server has to happen within that function.
> This can cause issues, specifically if you want to call another service within the current service server's callback, as it causes deadlock issues trying to synchronously call the second service within a spin callback.
> More generally, it seems likely that long running service server callbacks may be necessary in the future and requiring them to be synchronous would tie up at least on thread in the spinning executor unnecessarily.
- https://github.com/ros2/rclcpp/issues/491
**Suggested Action**: Defer.
**Notes from 2020-03-23**:
- (dirk) likely new API, so possible to backport
## Service Client
### Callback has SharedFuture rather than const reference to response
> Why does the Client::send_async_request take in a callback that has a SharedFuture argument instead of an argument that is simply a const-reference (or smart pointer) to the service response type? The current API seems to imply that the callback ought to check whether the promise is broken or fulfilled before trying to access it. Is that the case? If so, it should be documented in the header.
- https://github.com/ros2/rclcpp/blob/7c1721a0b390be8242a6b824489d0bc861f6a0ad/rclcpp/include/rclcpp/client.hpp#L134
**Suggested Action**: Update ticket and defer.
**Notes from 2020-03-19**:
- (wjwwood) we wanted the user to handle error cases with the future?
- (dirk) future allows for single callback (rather than one for response and one for error)
- (jacob) actions uses a "wrapped result" object
### rclcpp missing synchronous `send_request` and issues with deadlocks
> This has been reported by several users, but there is only an `async_send_request` currently. `rclpy` has a synchronous `send_request` but it has issues with deadlock, specifically if you call it without spinning in another thread then it will deadlock. Or if you call it from within a spin callback when using a single threaded executor, it will deadlock.
- https://discourse.ros.org/t/synchronous-request-to-service-in-callback-results-in-deadlock/12767
- https://github.com/ros2/rclcpp/issues/975
- https://github.com/ros2/demos/blob/948b4f4869298f39cfe99d3ae517ad60a72a8909/demo_nodes_cpp/src/services/add_two_ints_client.cpp#L24-L39
**Suggested Action**: Update issue and defer. Also defer decision on reconciling rclpy's send_request.
**Notes from 2020-03-23**:
- (karsten/shane) async spinner helps in rclpy version, rclcpp could emulate
- (chris) sees three options:
- only async (current case in rclcpp)
- have sync version, add lots of docs that spinning needs to happen elsewhere (current case for rclpy)
- reentrant spinning
- (william) you either need async/await from language or ".then" syntax (we have this in async_send_request())
- (chris) more error checking for recursive spinning
- (chris) weird that rclcpp and rclpy have different API
- (shane) thinks it is ok to have different API, but rclpy is not ideal
## Parameters
### Expected vs Unexpected parameters
> Allow node author to define expected parameters and what happens when an unexpected parameter is set.
- https://github.com/ros2/rclcpp/issues/475
- https://github.com/ros2/rclcpp/tree/check_parameters
**Suggested Action**: Defer as nice to have.
**Notes from 2020-03-23**:
- None.
### Implicitly cast integer values for double parameters
> If we try to pass an integer value to a double parameter from the command line or from a parameters YAML file we get a `rclcpp::ParameterTypeException`.
> For example, passing a parameter from the command line:
>
> ros2 run foo_package foo_node --ros-args -p foo_arg:=1
>
> results in the following error:
>
> terminate called after throwing an instance of 'rclcpp::ParameterTypeException'
> what(): expected [double] got [integer]
>
> and we can fix it by explicitly making our value a floating point number:
>
> ros2 run foo_package foo_node --ros-args -p foo_arg:=1.0
>
> But, it seems reasonable to me that if a user forgets to explicitly provide a floating point value that we should implicitly cast an integer to a float (as is done in many programming languages).
- https://github.com/ros2/rclcpp/issues/979
**Suggested Action**: Continue with issue.
**Notes from 2020-03-23**:
- (shane) says "yes please" :)
### Use `std::variant` instead of custom `ParameterValue` class
> This is only possible if C++17 is available, but it would simplify our code, make our interface more standard, and allow us to use constexpr-if to simply our templated code.
**Suggested Action**: Create an issue for future work.
**Notes from 2020-03-23**:
- (chris) not sure churn is worth
- (ivan) other places for std::variant, like AnySubscriptionCallback
### Cannot set name or value on `Parameter`/`ParameterValue`
> Both `Parameter` and `ParameterValue` are read-only after construction.
- https://github.com/ros2/rclcpp/issues/238
**Suggested Action**: Update issue, possibly close.
**Notes from 2020-03-23**:
- (chris/william) setting values on temporary (local) objects is not reflected in the node, so misleading
## Parameter Clients
### No timeout option with synchronous parameter client calls
> As an example, SyncParametersClient::set_parameters doesn't take a timeout option. So, if anything goes wrong in the service call (e.g. the server goes down), we will get stuck waiting indefinitely.
- https://github.com/ros2/rclcpp/issues/360
- https://github.com/ros2/rclcpp/blob/96ebf59a6045a535730d98fff25e522807c7aa75/rclcpp/src/rclcpp/parameter_client.cpp#L453-L468
**Suggested Action**: Update issue, decide if it can be taken for Foxy or not.
**Notes from 2020-03-23**:
- (tfoote) Seems like adding a timeout is a good idea.
### Name of AsyncParametersClient inconsistent
> AsyncParameter**s**Client uses plural, when filename is singular (and ParameterService is singular):
- https://github.com/ros2/rclcpp/blob/7c1721a0b390be8242a6b824489d0bc861f6a0ad/rclcpp/include/rclcpp/parameter_client.hpp#L44
**Suggested Action**: Reconcile class and file name, switch to singular name?
**Notes from on-line, post 2020-03-23 meeting**:
- (tfoote) +1 for homogenizing to singular
### `SyncParametersClient::get_parameters` doesn't allow you to detect error cases
> E.g. https://github.com/ros2/rclcpp/blob/249b7d80d8f677edcda05052f598de84f4c2181c/rclcpp/src/rclcpp/parameter_client.cpp#L246-L257 returns an empty vector if something goes wrong which is also a valid response.
- https://github.com/ros2/rclcpp/issues/200
- https://github.com/ros2/rclcpp/blob/96ebf59a6045a535730d98fff25e522807c7aa75/rclcpp/src/rclcpp/parameter_client.cpp#L412-L426
**Suggested Action**: Throw an exception to indicate if something went wrong and document other expected conditions of the API.
**Notes from on-line, post 2020-03-23 meeting**:
- (tfoote) An empty list is not a valid response unless you passed in an empty list. The return should have the same length as the request in the same order. Any parameters that are not set should return a ParameterVariant with type PARAMETER_NOT_SET. to indicate that it was polled and determined to not be set. Suggested action improve documentation of the API to clarify a short or incomplete.
- (jacobperron) I think throwing an exception is also a valid action, making it clear that an error occurred.
- (wjwwood) Using exceptions to indicate an exceptional case (something went wrong) seems reasonable to me too.
## Clock
### Clock Jump callbacks on System or Steady time?
> Currently time jump callbacks are registered via Clock::create_jump_handler(). Jump handlers are only invoked by TimeSource::set_clock(). This is only called if the clock type is RCL_ROS_TIME and ROS time is active.
- https://github.com/ros2/rclcpp/issues/528
**Suggested Action**: Document that time jumping is only detected with ROS time, consider a warning.
**Notes from on-line, post 2020-03-23 meeting**:
- (tfoote) There should be no jumps in steady time. If there's a big change in system time, it doesn't necessarily mean that time jumped, just that you might have been sleeping for a long time. Most ntp systems adjust the slew rate these days instead of jumping but still that's an external process and I don't know of any APIs to introspect the state of the clock. I'm not sure that we have a way to detect jumps in time for system or steady time. To that end I think that we should be clear that we only provide callbacks when simulation time starts or stops, or simulation time jumps. We should also strongly recommend that operators not actively adjust their system clocks while running ROS nodes.
- (jacobperron) I agree with Tully, if we don't have a way to detect system time jumps then I think we should just document that this only works with ROS time. In addition to documentation, we could log an info or warning message if the user registers jump callback with steady or system time, but it may be unnecessarily noisy.

141
rclcpp/doc/notes_on_statically_typed_parameters.md
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@@ -1,141 +0,0 @@
# Notes on statically typed parameters
## Introduction
Until ROS 2 Foxy, all parameters could change type anytime, except if the user installed a parameter callback to reject a change.
This could generate confusing errors, for example:
```
$ ros2 run demo_nodes_py listener &
$ ros2 param set /listener use_sim_time not_a_boolean
[ERROR] [1614712713.233733147] [listener]: use_sim_time parameter set to something besides a bool
Set parameter successful
$ ros2 param get /listener use_sim_time
String value is: not_a_boolean
```
For most use cases, having static parameter types is enough.
This article documents some of the decisions that were made when implementing static parameter types enforcement in:
* https://github.com/ros2/rclcpp/pull/1522
* https://github.com/ros2/rclpy/pull/683
## Allowing dynamically typed parameters
There might be some scenarios where dynamic typing is desired, so a `dynamic_typing` field was added to the [parameter descriptor](https://github.com/ros2/rcl_interfaces/blob/09b5ed93a733adb9deddc47f9a4a8c6e9f584667/rcl_interfaces/msg/ParameterDescriptor.msg#L25).
It defaults to `false`.
For example:
```cpp
rcl_interfaces::msg::ParameterDescriptor descriptor;
descriptor.dynamic_typing = true;
node->declare_parameter("dynamically_typed_parameter", rclcpp::ParameterValue{}, descriptor);
```
```py
rcl_interfaces.msg.ParameterDescriptor descriptor;
descriptor.dynamic_typing = True;
node.declare_parameter("dynamically_typed_parameter", None, descriptor);
```
## How is the parameter type specified?
The parameter type will be inferred from the default value provided when declaring it.
## Statically typed parameters when allowing undeclared parameters
When undeclared parameters are allowed and a parameter is set without a previous declaration, the parameter will be dynamically typed.
This is consistent with other allowed behaviors when undeclared parameters are allowed, e.g. trying to get an undeclared parameter returns "NOT_SET".
Parameter declarations will remain special and dynamic or static typing will be used based on the parameter descriptor (default to static).
## Declaring a parameter without a default value
There might be cases were a default value does not make sense and the user must always provide an override.
In those cases, the parameter type can be specified explicitly:
```cpp
// method signature
template<typename T>
Node::declare_parameter<T>(std::string name, rcl_interfaces::msg::ParameterDescriptor = rcl_interfaces::msg::ParameterDescriptor{});
// or alternatively
Node::declare_parameter(std::string name, rclcpp::ParameterType type, rcl_interfaces::msg::ParameterDescriptor = rcl_interfaces::msg::ParameterDescriptor{});
// examples
node->declare_parameter<int64_t>("my_integer_parameter"); // declare an integer parameter
node->declare_parameter("another_integer_parameter", rclcpp::ParameterType::PARAMETER_INTEGER); // another way to do the same
```
```py
# method signature
Node.declare_parameter(name: str, param_type: rclpy.Parameter.Type, descriptor: rcl_interfaces.msg.ParameterDescriptor = rcl_interfaces.msg.ParameterDescriptor())
# example
node.declare_parameter('my_integer_parameter', rclpy.Parameter.Type.INTEGER); # declare an integer parameter
```
If the parameter may be unused, but when used requires a parameter override, then you could conditionally declare it:
```cpp
auto mode = node->declare_parameter("mode", "modeA"); // "mode" parameter is an string
if (mode == "modeB") {
node->declare_parameter<int64_t>("param_needed_when_mode_b"); // when "modeB", the user must provide "param_needed_when_mode_b"
}
```
## Other migration notes
Declaring a parameter with only a name is deprecated:
```cpp
node->declare_parameter("my_param"); // this generates a build warning
```
```py
node.declare_parameter("my_param"); # this generates a python user warning
```
Before, you could initialize a parameter with the "NOT SET" value (in cpp `rclcpp::ParameterValue{}`, in python `None`).
Now this will throw an exception in both cases:
```cpp
node->declare_parameter("my_param", rclcpp::ParameterValue{}); // not valid, will throw exception
```
```py
node.declare_parameter("my_param", None); # not valid, will raise error
```
## Possible improvements
### Easier way to declare dynamically typed parameters
Declaring a dynamically typed parameter in `rclcpp` could be considered to be a bit verbose:
```cpp
rcl_interfaces::msg::ParameterDescriptor descriptor;
descriptor.dynamic_typing = true;
node->declare_parameter(name, rclcpp::ParameterValue{}, descriptor);
```
the following ways could be supported to make it simpler:
```cpp
node->declare_parameter(name, rclcpp::PARAMETER_DYNAMIC);
node->declare_parameter(name, default_value, rclcpp::PARAMETER_DYNAMIC);
```
or alternatively:
```cpp
node->declare_parameter(name, default_value, rclcpp::ParameterDescriptor{}.dynamic_typing());
```
For `rclpy`, there's already a short way to do it:
```py
node.declare_parameter(name, default_value, rclpy.ParameterDescriptor(dynamic_typing=true));
```

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29
rclcpp/doc/proposed_node_parameter_callbacks.md
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@@ -1,29 +0,0 @@
# Proposed node parameters callback Design
## Introduction:
The original requirement came in **gazebo_ros_pkgs** for setting individual wheel slip parameters based on global wheel slip value [link to original issue](https://github.com/ros-simulation/gazebo_ros_pkgs/pull/1365).
The main requirement is to set one or more parameters after another parameter is set successfully.
Additionally, it would be nice if users could be notified locally (via a callback) when parameters have been set successfully (i.e. post validation).
Related discussion can be found in [#609](https://github.com/ros2/rclcpp/issues/609) [#1789](https://github.com/ros2/rclcpp/pull/1789)
With the current parameters API, the `add_on_set_parameters_callback` is intended for validation of parameter values before they are set, it should **not** cause any side-effects.
There is also the `ParameterEventHandler` that publishes changes to node parameters on `/parameter_events` topic for external nodes to see. Though the node could subscribe to the `/parameter_events` topic to be notified of changes to its own parameters, it is less than ideal since there is a delay caused by waiting for an executor to process the callback.
We propose adding a `PostSetParametersCallbackHandle` for successful parameter set similar to `OnSetParametersCallbackHandle` for parameter validation. Also, we propose adding a `PreSetParametersCallbackHandle` useful for modifying list of parameters being set.
The validation callback is often abused to trigger side effects in the code, for instance updating class attributes even before a parameter has been set successfully. Instead of relying on the `/parameter_events` topic to be notified of parameter changes, users can register a callback with a new API, `add_post_set_parameters_callback`.
It is possible to use the proposed `add_post_set_parameters_callback` for setting additional parameters, but this might result in infinite recursion and does not allow those additional parameters to be set atomically with the original parameter(s) changed.
To workaround these issues, we propose adding a "pre set" callback type that can be registered with `add_pre_set_parameters_callback`, which will be triggered before the validation callbacks and can be used to modify the parameter list.
![Desgin API](https://github.com/ros2/rclcpp/blob/deepanshu/local-param-changed-callback-support/rclcpp/doc/param_callback_design.png?raw=true)
## Alternatives
* Users could call `set_parameter` while processing a message from the `/parameter_events` topic, however, there is extra overhead in having to create subscription (as noted earlier).
* Users could call `set_parameter` inside the "on set" parameters callback, however it is not well-defined how side-effects should handle cases where parameter validation fails.

56
rclcpp/include/rclcpp/allocator/allocator_common.hpp
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@@ -15,7 +15,6 @@
#ifndef RCLCPP__ALLOCATOR__ALLOCATOR_COMMON_HPP_
#define RCLCPP__ALLOCATOR__ALLOCATOR_COMMON_HPP_
#include <cstring>
#include <memory>
#include "rcl/allocator.h"
@@ -27,39 +26,10 @@ namespace rclcpp
namespace allocator
{
template<typename T>
using clean_t = std::remove_cv_t<std::remove_reference_t<T>>;
// Primary template: false
template<typename, typename = std::void_t<>>
struct has_get_rcl_allocator : std::false_type {};
// Specialization: true if expression is valid
template<typename T>
struct has_get_rcl_allocator<T,
std::void_t<
decltype(std::declval<clean_t<T> &>().get_rcl_allocator())
>
>
: std::bool_constant<
std::is_same_v<
decltype(std::declval<clean_t<T> &>().get_rcl_allocator()),
rcl_allocator_t
>
>
{};
// Helper variable template
template<typename T>
inline constexpr bool has_get_rcl_allocator_v =
has_get_rcl_allocator<T>::value;
template<typename T, typename Alloc>
using AllocRebind = typename std::allocator_traits<Alloc>::template rebind_traits<T>;
template<typename Alloc>
[[deprecated("Conversion of C++ allocators to C style is not valid, as the size on deallocate"
"can not be determined. This will be remove in future versions of ros.")]]
void * retyped_allocate(size_t size, void * untyped_allocator)
{
auto typed_allocator = static_cast<Alloc *>(untyped_allocator);
@@ -69,27 +39,7 @@ void * retyped_allocate(size_t size, void * untyped_allocator)
return std::allocator_traits<Alloc>::allocate(*typed_allocator, size);
}
template<typename Alloc>
[[deprecated("Conversion of C++ allocators to C style is not valid, as the size on deallocate"
"can not be determined. This will be remove in future versions of ros.")]]
void * retyped_zero_allocate(size_t number_of_elem, size_t size_of_elem, void * untyped_allocator)
{
auto typed_allocator = static_cast<Alloc *>(untyped_allocator);
if (!typed_allocator) {
throw std::runtime_error("Received incorrect allocator type");
}
size_t size = number_of_elem * size_of_elem;
void * allocated_memory =
std::allocator_traits<Alloc>::allocate(*typed_allocator, size);
if (allocated_memory) {
std::memset(allocated_memory, 0, size);
}
return allocated_memory;
}
template<typename T, typename Alloc>
[[deprecated("Conversion of C++ allocators to C style is not valid, as the size on deallocate"
"can not be determined. This will be remove in future versions of ros.")]]
void retyped_deallocate(void * untyped_pointer, void * untyped_allocator)
{
auto typed_allocator = static_cast<Alloc *>(untyped_allocator);
@@ -101,8 +51,6 @@ void retyped_deallocate(void * untyped_pointer, void * untyped_allocator)
}
template<typename T, typename Alloc>
[[deprecated("Conversion of C++ allocators to C style is not valid, as the size on deallocate"
"can not be determined. This will be remove in future versions of ros.")]]
void * retyped_reallocate(void * untyped_pointer, size_t size, void * untyped_allocator)
{
auto typed_allocator = static_cast<Alloc *>(untyped_allocator);
@@ -120,15 +68,11 @@ template<
typename T,
typename Alloc,
typename std::enable_if<!std::is_same<Alloc, std::allocator<void>>::value>::type * = nullptr>
[[deprecated("Conversion of C++ allocators to C style is not valid, as the size on deallocate"
"can not be determined. This will be remove in future versions of ros. To suppress this warning"
"define the method 'rcl_allocator_t get_rcl_allocator()' on your allocator")]]
rcl_allocator_t get_rcl_allocator(Alloc & allocator)
{
rcl_allocator_t rcl_allocator = rcl_get_default_allocator();
#ifndef _WIN32
rcl_allocator.allocate = &retyped_allocate<Alloc>;
rcl_allocator.zero_allocate = &retyped_zero_allocate<Alloc>;
rcl_allocator.deallocate = &retyped_deallocate<T, Alloc>;
rcl_allocator.reallocate = &retyped_reallocate<T, Alloc>;
rcl_allocator.state = &allocator;

15
rclcpp/include/rclcpp/allocator/allocator_deleter.hpp
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@@ -41,7 +41,7 @@ public:
}
template<typename T>
explicit AllocatorDeleter(const AllocatorDeleter<T> & a)
AllocatorDeleter(const AllocatorDeleter<T> & a)
{
allocator_ = a.get_allocator();
}
@@ -69,17 +69,18 @@ private:
};
template<typename Alloc, typename T, typename D>
void set_allocator_for_deleter([[maybe_unused]] D * deleter, [[maybe_unused]] Alloc * alloc)
void set_allocator_for_deleter(D * deleter, Alloc * alloc)
{
(void) alloc;
(void) deleter;
throw std::runtime_error("Reached unexpected template specialization");
}
template<typename T, typename U>
void set_allocator_for_deleter(
[[maybe_unused]] std::default_delete<T> * deleter,
[[maybe_unused]] std::allocator<U> * alloc)
void set_allocator_for_deleter(std::default_delete<T> * deleter, std::allocator<U> * alloc)
{
// This function is intentionally left empty.
(void) deleter;
(void) alloc;
}
template<typename Alloc, typename T>
@@ -94,7 +95,7 @@ void set_allocator_for_deleter(AllocatorDeleter<T> * deleter, Alloc * alloc)
template<typename Alloc, typename T>
using Deleter = typename std::conditional<
std::is_same<typename std::allocator_traits<Alloc>::template rebind_alloc<T>,
std::allocator<T>>::value,
typename std::allocator<void>::template rebind<T>::other>::value,
std::default_delete<T>,
AllocatorDeleter<Alloc>
>::type;

11
rclcpp/include/rclcpp/any_executable.hpp
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@@ -45,11 +45,16 @@ struct AnyExecutable
rclcpp::ClientBase::SharedPtr client;
rclcpp::Waitable::SharedPtr waitable;
// These are used to keep the scope on the containing items
rclcpp::CallbackGroup::SharedPtr callback_group {nullptr};
rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_base {nullptr};
std::shared_ptr<void> data {nullptr};
rclcpp::CallbackGroup::SharedPtr callback_group;
rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_base;
};
namespace executor
{
using AnyExecutable [[deprecated("use rclcpp::AnyExecutable instead")]] = AnyExecutable;
} // namespace executor
} // namespace rclcpp
#endif // RCLCPP__ANY_EXECUTABLE_HPP_

231
rclcpp/include/rclcpp/any_service_callback.hpp
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@@ -15,12 +15,10 @@
#ifndef RCLCPP__ANY_SERVICE_CALLBACK_HPP_
#define RCLCPP__ANY_SERVICE_CALLBACK_HPP_
#include <variant>
#include <functional>
#include <memory>
#include <stdexcept>
#include <type_traits>
#include <utility>
#include "rclcpp/function_traits.hpp"
#include "rclcpp/visibility_control.hpp"
@@ -31,210 +29,93 @@
namespace rclcpp
{
namespace detail
{
template<typename T, typename = void>
struct can_be_nullptr : std::false_type {};
// Some lambdas define a comparison with nullptr,
// but we see a warning that they can never be null when using it.
// We also test if `T &` can be assigned to `nullptr` to avoid the issue.
template<typename T>
#ifdef __QNXNTO__
struct can_be_nullptr<T, std::void_t<
decltype(std::declval<T>() == nullptr)>>: std::true_type {};
#else
struct can_be_nullptr<T, std::void_t<
decltype(std::declval<T>() == nullptr), decltype(std::declval<T &>() = nullptr)>>
: std::true_type {};
#endif
} // namespace detail
// Forward declare
template<typename ServiceT>
class Service;
template<typename ServiceT>
class AnyServiceCallback
{
private:
using SharedPtrCallback = std::function<
void (
const std::shared_ptr<typename ServiceT::Request>,
std::shared_ptr<typename ServiceT::Response>
)>;
using SharedPtrWithRequestHeaderCallback = std::function<
void (
const std::shared_ptr<rmw_request_id_t>,
const std::shared_ptr<typename ServiceT::Request>,
std::shared_ptr<typename ServiceT::Response>
)>;
SharedPtrCallback shared_ptr_callback_;
SharedPtrWithRequestHeaderCallback shared_ptr_with_request_header_callback_;
public:
AnyServiceCallback()
: callback_(std::monostate{})
: shared_ptr_callback_(nullptr), shared_ptr_with_request_header_callback_(nullptr)
{}
AnyServiceCallback(const AnyServiceCallback &) = default;
template<
typename CallbackT,
typename std::enable_if_t<!detail::can_be_nullptr<CallbackT>::value, int> = 0>
void
set(CallbackT && callback)
{
// Workaround Windows issue with std::bind
if constexpr (
typename std::enable_if<
rclcpp::function_traits::same_arguments<
CallbackT,
SharedPtrCallback
>::value)
{
callback_.template emplace<SharedPtrCallback>(callback);
} else if constexpr ( // NOLINT, can't satisfy both cpplint and uncrustify
rclcpp::function_traits::same_arguments<
CallbackT,
SharedPtrWithRequestHeaderCallback
>::value)
{
callback_.template emplace<SharedPtrWithRequestHeaderCallback>(callback);
} else if constexpr ( // NOLINT
rclcpp::function_traits::same_arguments<
CallbackT,
SharedPtrDeferResponseCallback
>::value)
{
callback_.template emplace<SharedPtrDeferResponseCallback>(callback);
} else if constexpr ( // NOLINT
rclcpp::function_traits::same_arguments<
CallbackT,
SharedPtrDeferResponseCallbackWithServiceHandle
>::value)
{
callback_.template emplace<SharedPtrDeferResponseCallbackWithServiceHandle>(callback);
} else {
// the else clause is not needed, but anyways we should only be doing this instead
// of all the above workaround ...
callback_ = std::forward<CallbackT>(callback);
}
>::value
>::type * = nullptr
>
void set(CallbackT callback)
{
shared_ptr_callback_ = callback;
}
template<
typename CallbackT,
typename std::enable_if_t<detail::can_be_nullptr<CallbackT>::value, int> = 0>
void
set(CallbackT && callback)
{
if (!callback) {
throw std::invalid_argument("AnyServiceCallback::set(): callback cannot be nullptr");
}
// Workaround Windows issue with std::bind
if constexpr (
rclcpp::function_traits::same_arguments<
CallbackT,
SharedPtrCallback
>::value)
{
callback_.template emplace<SharedPtrCallback>(callback);
} else if constexpr ( // NOLINT
typename std::enable_if<
rclcpp::function_traits::same_arguments<
CallbackT,
SharedPtrWithRequestHeaderCallback
>::value)
{
callback_.template emplace<SharedPtrWithRequestHeaderCallback>(callback);
} else if constexpr ( // NOLINT
rclcpp::function_traits::same_arguments<
CallbackT,
SharedPtrDeferResponseCallback
>::value)
{
callback_.template emplace<SharedPtrDeferResponseCallback>(callback);
} else if constexpr ( // NOLINT
rclcpp::function_traits::same_arguments<
CallbackT,
SharedPtrDeferResponseCallbackWithServiceHandle
>::value)
{
callback_.template emplace<SharedPtrDeferResponseCallbackWithServiceHandle>(callback);
} else {
// the else clause is not needed, but anyways we should only be doing this instead
// of all the above workaround ...
callback_ = std::forward<CallbackT>(callback);
}
>::value
>::type * = nullptr
>
void set(CallbackT callback)
{
shared_ptr_with_request_header_callback_ = callback;
}
// template<typename Allocator = std::allocator<typename ServiceT::Response>>
std::shared_ptr<typename ServiceT::Response>
dispatch(
const std::shared_ptr<rclcpp::Service<ServiceT>> & service_handle,
const std::shared_ptr<rmw_request_id_t> & request_header,
std::shared_ptr<typename ServiceT::Request> request)
void dispatch(
std::shared_ptr<rmw_request_id_t> request_header,
std::shared_ptr<typename ServiceT::Request> request,
std::shared_ptr<typename ServiceT::Response> response)
{
TRACETOOLS_TRACEPOINT(callback_start, static_cast<const void *>(this), false);
if (std::holds_alternative<std::monostate>(callback_)) {
// TODO(ivanpauno): Remove the set method, and force the users of this class
// to pass a callback at construnciton.
throw std::runtime_error{"unexpected request without any callback set"};
}
if (std::holds_alternative<SharedPtrDeferResponseCallback>(callback_)) {
const auto & cb = std::get<SharedPtrDeferResponseCallback>(callback_);
cb(request_header, std::move(request));
TRACETOOLS_TRACEPOINT(callback_end, static_cast<const void *>(this));
return nullptr;
}
if (std::holds_alternative<SharedPtrDeferResponseCallbackWithServiceHandle>(callback_)) {
const auto & cb = std::get<SharedPtrDeferResponseCallbackWithServiceHandle>(callback_);
cb(service_handle, request_header, std::move(request));
TRACETOOLS_TRACEPOINT(callback_end, static_cast<const void *>(this));
return nullptr;
}
// auto response = allocate_shared<typename ServiceT::Response, Allocator>();
auto response = std::make_shared<typename ServiceT::Response>();
if (std::holds_alternative<SharedPtrCallback>(callback_)) {
TRACEPOINT(callback_start, (const void *)this, false);
if (shared_ptr_callback_ != nullptr) {
(void)request_header;
const auto & cb = std::get<SharedPtrCallback>(callback_);
cb(std::move(request), response);
} else if (std::holds_alternative<SharedPtrWithRequestHeaderCallback>(callback_)) {
const auto & cb = std::get<SharedPtrWithRequestHeaderCallback>(callback_);
cb(request_header, std::move(request), response);
shared_ptr_callback_(request, response);
} else if (shared_ptr_with_request_header_callback_ != nullptr) {
shared_ptr_with_request_header_callback_(request_header, request, response);
} else {
throw std::runtime_error("unexpected request without any callback set");
}
TRACETOOLS_TRACEPOINT(callback_end, static_cast<const void *>(this));
return response;
TRACEPOINT(callback_end, (const void *)this);
}
void register_callback_for_tracing()
{
#ifndef TRACETOOLS_DISABLED
std::visit(
[this](auto && arg) {
if (TRACETOOLS_TRACEPOINT_ENABLED(rclcpp_callback_register)) {
char * symbol = tracetools::get_symbol(arg);
TRACETOOLS_DO_TRACEPOINT(
rclcpp_callback_register,
static_cast<const void *>(this),
symbol);
std::free(symbol);
}
}, callback_);
if (shared_ptr_callback_) {
TRACEPOINT(
rclcpp_callback_register,
(const void *)this,
get_symbol(shared_ptr_callback_));
} else if (shared_ptr_with_request_header_callback_) {
TRACEPOINT(
rclcpp_callback_register,
(const void *)this,
get_symbol(shared_ptr_with_request_header_callback_));
}
#endif // TRACETOOLS_DISABLED
}
private:
using SharedPtrCallback = std::function<
void (
std::shared_ptr<typename ServiceT::Request>,
std::shared_ptr<typename ServiceT::Response>
)>;
using SharedPtrWithRequestHeaderCallback = std::function<
void (
std::shared_ptr<rmw_request_id_t>,
std::shared_ptr<typename ServiceT::Request>,
std::shared_ptr<typename ServiceT::Response>
)>;
using SharedPtrDeferResponseCallback = std::function<
void (
std::shared_ptr<rmw_request_id_t>,
std::shared_ptr<typename ServiceT::Request>
)>;
using SharedPtrDeferResponseCallbackWithServiceHandle = std::function<
void (
std::shared_ptr<rclcpp::Service<ServiceT>>,
std::shared_ptr<rmw_request_id_t>,
std::shared_ptr<typename ServiceT::Request>
)>;
std::variant<
std::monostate,
SharedPtrCallback,
SharedPtrWithRequestHeaderCallback,
SharedPtrDeferResponseCallback,
SharedPtrDeferResponseCallbackWithServiceHandle> callback_;
};
} // namespace rclcpp

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165
rclcpp/include/rclcpp/callback_group.hpp
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@@ -16,14 +16,11 @@
#define RCLCPP__CALLBACK_GROUP_HPP_
#include <atomic>
#include <functional>
#include <memory>
#include <mutex>
#include <string>
#include <vector>
#include "rclcpp/client.hpp"
#include "rclcpp/context.hpp"
#include "rclcpp/guard_condition.hpp"
#include "rclcpp/publisher_base.hpp"
#include "rclcpp/service.hpp"
#include "rclcpp/subscription_base.hpp"
@@ -59,222 +56,97 @@ class CallbackGroup
public:
RCLCPP_SMART_PTR_DEFINITIONS(CallbackGroup)
/// Constructor for CallbackGroup.
/**
* Callback Groups have a type, either 'Mutually Exclusive' or 'Reentrant'
* and when creating one the type must be specified.
*
* Callbacks in Reentrant Callback Groups must be able to:
* - run at the same time as themselves (reentrant)
* - run at the same time as other callbacks in their group
* - run at the same time as other callbacks in other groups
*
* Callbacks in Mutually Exclusive Callback Groups:
* - will not be run multiple times simultaneously (non-reentrant)
* - will not be run at the same time as other callbacks in their group
* - but must run at the same time as callbacks in other groups
*
* Additionally, callback groups have a property which determines whether or
* not they are added to an executor with their associated node automatically.
* When creating a callback group the automatically_add_to_executor_with_node
* argument determines this behavior, and if true it will cause the newly
* created callback group to be added to an executor with the node when the
* Executor::add_node method is used.
* If false, this callback group will not be added automatically and would
* have to be added to an executor manually using the
* Executor::add_callback_group method.
*
* Whether the node was added to the executor before creating the callback
* group, or after, is irrelevant; the callback group will be automatically
* added to the executor in either case.
*
* \param[in] group_type The type of the callback group.
* \param[in] context A weak pointer to the context associated with this callback group.
* \param[in] automatically_add_to_executor_with_node A boolean that
* determines whether a callback group is automatically added to an executor
* with the node with which it is associated.
*/
RCLCPP_PUBLIC
explicit CallbackGroup(
CallbackGroupType group_type,
const rclcpp::Context::WeakPtr & context,
bool automatically_add_to_executor_with_node = true);
/// Default destructor.
RCLCPP_PUBLIC
~CallbackGroup();
explicit CallbackGroup(CallbackGroupType group_type);
template<typename Function>
rclcpp::SubscriptionBase::SharedPtr
find_subscription_ptrs_if(const Function & func) const
find_subscription_ptrs_if(Function func) const
{
return _find_ptrs_if_impl<rclcpp::SubscriptionBase, Function>(func, subscription_ptrs_);
}
template<typename Function>
rclcpp::TimerBase::SharedPtr
find_timer_ptrs_if(const Function & func) const
find_timer_ptrs_if(Function func) const
{
return _find_ptrs_if_impl<rclcpp::TimerBase, Function>(func, timer_ptrs_);
}
template<typename Function>
rclcpp::ServiceBase::SharedPtr
find_service_ptrs_if(const Function & func) const
find_service_ptrs_if(Function func) const
{
return _find_ptrs_if_impl<rclcpp::ServiceBase, Function>(func, service_ptrs_);
}
template<typename Function>
rclcpp::ClientBase::SharedPtr
find_client_ptrs_if(const Function & func) const
find_client_ptrs_if(Function func) const
{
return _find_ptrs_if_impl<rclcpp::ClientBase, Function>(func, client_ptrs_);
}
template<typename Function>
rclcpp::Waitable::SharedPtr
find_waitable_ptrs_if(const Function & func) const
find_waitable_ptrs_if(Function func) const
{
return _find_ptrs_if_impl<rclcpp::Waitable, Function>(func, waitable_ptrs_);
}
/// Get the total number of entities in this callback group.
/**
* \return the number of entities in the callback group.
*/
RCLCPP_PUBLIC
size_t
size() const;
/// Return a reference to the 'can be taken' atomic boolean.
/**
* The resulting bool will be true in the case that no executor is currently
* using an executable entity from this group.
* The resulting bool will be false in the case that an executor is currently
* using an executable entity from this group, and the group policy doesn't
* allow a second take (eg mutual exclusion)
* \return a reference to the flag
*/
RCLCPP_PUBLIC
std::atomic_bool &
can_be_taken_from();
/// Get the group type.
/**
* \return the group type
*/
RCLCPP_PUBLIC
const CallbackGroupType &
type() const;
/// Collect all of the entity pointers contained in this callback group.
/**
* \param[in] sub_func Function to execute for each subscription
* \param[in] service_func Function to execute for each service
* \param[in] client_func Function to execute for each client
* \param[in] timer_func Function to execute for each timer
* \param[in] waitable_fuinc Function to execute for each waitable
*/
RCLCPP_PUBLIC
void
collect_all_ptrs(
const std::function<void(const rclcpp::SubscriptionBase::SharedPtr &)> & sub_func,
const std::function<void(const rclcpp::ServiceBase::SharedPtr &)> & service_func,
const std::function<void(const rclcpp::ClientBase::SharedPtr &)> & client_func,
const std::function<void(const rclcpp::TimerBase::SharedPtr &)> & timer_func,
const std::function<void(const rclcpp::Waitable::SharedPtr &)> & waitable_func) const;
/// Return a reference to the 'associated with executor' atomic boolean.
/**
* When a callback group is added to an executor this boolean is checked
* to ensure it has not already been added to another executor.
* If it has not been, then this boolean is set to true to indicate it is
* now associated with an executor.
*
* When the callback group is removed from the executor, this atomic boolean
* is set back to false.
*
* \return the 'associated with executor' atomic boolean
*/
RCLCPP_PUBLIC
std::atomic_bool &
get_associated_with_executor_atomic();
/// Return true if this callback group should be automatically added to an executor by the node.
/**
* \return boolean true if this callback group should be automatically added
* to an executor when the associated node is added, otherwise false.
*/
RCLCPP_PUBLIC
bool
automatically_add_to_executor_with_node() const;
/// Retrieve the guard condition used to signal changes to this callback group.
/**
* \return guard condition if it is valid, otherwise nullptr.
*/
RCLCPP_PUBLIC
rclcpp::GuardCondition::SharedPtr
get_notify_guard_condition();
/// Trigger the notify guard condition.
RCLCPP_PUBLIC
void
trigger_notify_guard_condition();
protected:
RCLCPP_DISABLE_COPY(CallbackGroup)
RCLCPP_PUBLIC
void
add_publisher(const rclcpp::PublisherBase::SharedPtr & publisher_ptr);
add_publisher(const rclcpp::PublisherBase::SharedPtr publisher_ptr);
RCLCPP_PUBLIC
void
add_subscription(const rclcpp::SubscriptionBase::SharedPtr & subscription_ptr);
add_subscription(const rclcpp::SubscriptionBase::SharedPtr subscription_ptr);
RCLCPP_PUBLIC
void
add_timer(const rclcpp::TimerBase::SharedPtr & timer_ptr);
add_timer(const rclcpp::TimerBase::SharedPtr timer_ptr);
RCLCPP_PUBLIC
void
add_service(const rclcpp::ServiceBase::SharedPtr & service_ptr);
add_service(const rclcpp::ServiceBase::SharedPtr service_ptr);
RCLCPP_PUBLIC
void
add_client(const rclcpp::ClientBase::SharedPtr & client_ptr);
add_client(const rclcpp::ClientBase::SharedPtr client_ptr);
RCLCPP_PUBLIC
void
add_waitable(const rclcpp::Waitable::SharedPtr & waitable_ptr);
add_waitable(const rclcpp::Waitable::SharedPtr waitable_ptr);
RCLCPP_PUBLIC
void
remove_waitable(const rclcpp::Waitable::SharedPtr & waitable_ptr) noexcept;
remove_waitable(const rclcpp::Waitable::SharedPtr waitable_ptr) noexcept;
CallbackGroupType type_;
// Mutex to protect the subsequent vectors of pointers.
mutable std::mutex mutex_;
std::atomic_bool associated_with_executor_;
std::vector<rclcpp::SubscriptionBase::WeakPtr> subscription_ptrs_;
std::vector<rclcpp::TimerBase::WeakPtr> timer_ptrs_;
std::vector<rclcpp::ServiceBase::WeakPtr> service_ptrs_;
std::vector<rclcpp::ClientBase::WeakPtr> client_ptrs_;
std::vector<rclcpp::Waitable::WeakPtr> waitable_ptrs_;
std::atomic_bool can_be_taken_from_;
const bool automatically_add_to_executor_with_node_;
// defer the creation of the guard condition
std::shared_ptr<rclcpp::GuardCondition> notify_guard_condition_ = nullptr;
std::recursive_mutex notify_guard_condition_mutex_;
rclcpp::Context::WeakPtr context_;
private:
template<typename TypeT, typename Function>
typename TypeT::SharedPtr _find_ptrs_if_impl(
const Function & func, const std::vector<typename TypeT::WeakPtr> & vect_ptrs) const
Function func, const std::vector<typename TypeT::WeakPtr> & vect_ptrs) const
{
std::lock_guard<std::mutex> lock(mutex_);
for (auto & weak_ptr : vect_ptrs) {
@@ -287,6 +159,13 @@ private:
}
};
namespace callback_group
{
using CallbackGroupType [[deprecated("use rclcpp::CallbackGroupType instead")]] = CallbackGroupType;
using CallbackGroup [[deprecated("use rclcpp::CallbackGroup instead")]] = CallbackGroup;
} // namespace callback_group
} // namespace rclcpp
#endif // RCLCPP__CALLBACK_GROUP_HPP_

672
rclcpp/include/rclcpp/client.hpp
View File

@@ -16,122 +16,35 @@
#define RCLCPP__CLIENT_HPP_
#include <atomic>
#include <functional>
#include <future>
#include <map>
#include <memory>
#include <mutex>
#include <optional>
#include <sstream>
#include <string>
#include <tuple>
#include <unordered_map>
#include <utility>
#include <variant>
#include <vector>
#include "rcl/client.h"
#include "rcl/error_handling.h"
#include "rcl/event_callback.h"
#include "rcl/service_introspection.h"
#include "rcl/wait.h"
#include "rclcpp/clock.hpp"
#include "rclcpp/detail/cpp_callback_trampoline.hpp"
#include "rclcpp/exceptions.hpp"
#include "rclcpp/expand_topic_or_service_name.hpp"
#include "rclcpp/function_traits.hpp"
#include "rclcpp/logging.hpp"
#include "rclcpp/macros.hpp"
#include "rclcpp/node_interfaces/node_graph_interface.hpp"
#include "rclcpp/qos.hpp"
#include "rclcpp/type_support_decl.hpp"
#include "rclcpp/utilities.hpp"
#include "rclcpp/expand_topic_or_service_name.hpp"
#include "rclcpp/visibility_control.hpp"
#include "rcutils/logging_macros.h"
#include "rmw/error_handling.h"
#include "rmw/impl/cpp/demangle.hpp"
#include "rmw/rmw.h"
namespace rclcpp
{
namespace detail
{
template<typename FutureT>
struct FutureAndRequestId
{
FutureT future;
int64_t request_id;
FutureAndRequestId(FutureT impl, int64_t req_id)
: future(std::move(impl)), request_id(req_id)
{}
/// Allow implicit conversions to `std::future` by reference.
operator FutureT &() {return this->future;}
// delegate future like methods in the std::future impl_
/// See std::future::get().
auto get() {return this->future.get();}
/// See std::future::valid().
bool valid() const noexcept {return this->future.valid();}
/// See std::future::wait().
void wait() const {return this->future.wait();}
/// See std::future::wait_for().
template<class Rep, class Period>
std::future_status wait_for(
const std::chrono::duration<Rep, Period> & timeout_duration) const
{
return this->future.wait_for(timeout_duration);
}
/// See std::future::wait_until().
template<class Clock, class Duration>
std::future_status wait_until(
const std::chrono::time_point<Clock, Duration> & timeout_time) const
{
return this->future.wait_until(timeout_time);
}
// Rule of five, we could use the rule of zero here, but better be explicit as some of the
// methods are deleted.
/// Move constructor.
FutureAndRequestId(FutureAndRequestId && other) noexcept = default;
/// Deleted copy constructor, each instance is a unique owner of the future.
FutureAndRequestId(const FutureAndRequestId & other) = delete;
/// Move assignment.
FutureAndRequestId & operator=(FutureAndRequestId && other) noexcept = default;
/// Deleted copy assignment, each instance is a unique owner of the future.
FutureAndRequestId & operator=(const FutureAndRequestId & other) = delete;
/// Destructor.
~FutureAndRequestId() = default;
};
template<typename PendingRequestsT, typename AllocatorT = std::allocator<int64_t>>
size_t
prune_requests_older_than_impl(
PendingRequestsT & pending_requests,
std::mutex & pending_requests_mutex,
std::chrono::time_point<std::chrono::system_clock> time_point,
std::vector<int64_t, AllocatorT> * pruned_requests = nullptr)
{
std::lock_guard guard(pending_requests_mutex);
auto old_size = pending_requests.size();
for (auto it = pending_requests.begin(), last = pending_requests.end(); it != last; ) {
if (it->second.first < time_point) {
if (pruned_requests) {
pruned_requests->push_back(it->first);
}
it = pending_requests.erase(it);
} else {
++it;
}
}
return old_size - pending_requests.size();
}
} // namespace detail
namespace node_interfaces
{
class NodeBaseInterface;
@@ -145,10 +58,10 @@ public:
RCLCPP_PUBLIC
ClientBase(
rclcpp::node_interfaces::NodeBaseInterface * node_base,
const rclcpp::node_interfaces::NodeGraphInterface::SharedPtr & node_graph);
rclcpp::node_interfaces::NodeGraphInterface::SharedPtr node_graph);
RCLCPP_PUBLIC
virtual ~ClientBase() = default;
virtual ~ClientBase();
/// Take the next response for this client as a type erased pointer.
/**
@@ -171,43 +84,22 @@ public:
bool
take_type_erased_response(void * response_out, rmw_request_id_t & request_header_out);
/// Return the name of the service.
/** \return The name of the service. */
RCLCPP_PUBLIC
const char *
get_service_name() const;
/// Return the rcl_client_t client handle in a std::shared_ptr.
/**
* This handle remains valid after the Client is destroyed.
* The actual rcl client is not finalized until it is out of scope everywhere.
*/
RCLCPP_PUBLIC
std::shared_ptr<rcl_client_t>
get_client_handle();
/// Return the rcl_client_t client handle in a std::shared_ptr.
/**
* This handle remains valid after the Client is destroyed.
* The actual rcl client is not finalized until it is out of scope everywhere.
*/
RCLCPP_PUBLIC
std::shared_ptr<const rcl_client_t>
get_client_handle() const;
/// Return if the service is ready.
/**
* \return `true` if the service is ready, `false` otherwise
*/
RCLCPP_PUBLIC
bool
service_is_ready() const;
/// Wait for a service to be ready.
/**
* \param timeout maximum time to wait
* \return `true` if the service is ready and the timeout is not over, `false` otherwise
*/
template<typename RepT = int64_t, typename RatioT = std::milli>
bool
wait_for_service(
@@ -221,8 +113,7 @@ public:
virtual std::shared_ptr<void> create_response() = 0;
virtual std::shared_ptr<rmw_request_id_t> create_request_header() = 0;
virtual void handle_response(
const std::shared_ptr<rmw_request_id_t> & request_header,
const std::shared_ptr<void> & response) = 0;
std::shared_ptr<rmw_request_id_t> request_header, std::shared_ptr<void> response) = 0;
/// Exchange the "in use by wait set" state for this client.
/**
@@ -238,123 +129,6 @@ public:
bool
exchange_in_use_by_wait_set_state(bool in_use_state);
/// Get the actual request publsher QoS settings, after the defaults have been determined.
/**
* The actual configuration applied when using RMW_QOS_POLICY_*_SYSTEM_DEFAULT
* can only be resolved after the creation of the client, and it
* depends on the underlying rmw implementation.
* If the underlying setting in use can't be represented in ROS terms,
* it will be set to RMW_QOS_POLICY_*_UNKNOWN.
* May throw runtime_error when an unexpected error occurs.
*
* \return The actual request publsher qos settings.
* \throws std::runtime_error if failed to get qos settings
*/
RCLCPP_PUBLIC
rclcpp::QoS
get_request_publisher_actual_qos() const;
/// Get the actual response subscription QoS settings, after the defaults have been determined.
/**
* The actual configuration applied when using RMW_QOS_POLICY_*_SYSTEM_DEFAULT
* can only be resolved after the creation of the client, and it
* depends on the underlying rmw implementation.
* If the underlying setting in use can't be represented in ROS terms,
* it will be set to RMW_QOS_POLICY_*_UNKNOWN.
* May throw runtime_error when an unexpected error occurs.
*
* \return The actual response subscription qos settings.
* \throws std::runtime_error if failed to get qos settings
*/
RCLCPP_PUBLIC
rclcpp::QoS
get_response_subscription_actual_qos() const;
/// Set a callback to be called when each new response is received.
/**
* The callback receives a size_t which is the number of responses received
* since the last time this callback was called.
* Normally this is 1, but can be > 1 if responses were received before any
* callback was set.
*
* Since this callback is called from the middleware, you should aim to make
* it fast and not blocking.
* If you need to do a lot of work or wait for some other event, you should
* spin it off to another thread, otherwise you risk blocking the middleware.
*
* Calling it again will clear any previously set callback.
*
* An exception will be thrown if the callback is not callable.
*
* This function is thread-safe.
*
* If you want more information available in the callback, like the client
* or other information, you may use a lambda with captures or std::bind.
*
* \sa rmw_client_set_on_new_response_callback
* \sa rcl_client_set_on_new_response_callback
*
* \param[in] callback functor to be called when a new response is received
*/
void
set_on_new_response_callback(const std::function<void(size_t)> & callback)
{
if (!callback) {
throw std::invalid_argument(
"The callback passed to set_on_new_response_callback "
"is not callable.");
}
auto new_callback =
[callback, this](size_t number_of_responses) {
try {
callback(number_of_responses);
} catch (const std::exception & exception) {
RCLCPP_ERROR_STREAM(
node_logger_,
"rclcpp::ClientBase@" << this <<
" caught " << rmw::impl::cpp::demangle(exception) <<
" exception in user-provided callback for the 'on new response' callback: " <<
exception.what());
} catch (...) {
RCLCPP_ERROR_STREAM(
node_logger_,
"rclcpp::ClientBase@" << this <<
" caught unhandled exception in user-provided callback " <<
"for the 'on new response' callback");
}
};
std::lock_guard<std::recursive_mutex> lock(callback_mutex_);
// Set it temporarily to the new callback, while we replace the old one.
// This two-step setting, prevents a gap where the old std::function has
// been replaced but the middleware hasn't been told about the new one yet.
set_on_new_response_callback(
rclcpp::detail::cpp_callback_trampoline<decltype(new_callback), const void *, size_t>,
static_cast<const void *>(&new_callback));
// Store the std::function to keep it in scope, also overwrites the existing one.
on_new_response_callback_ = new_callback;
// Set it again, now using the permanent storage.
set_on_new_response_callback(
rclcpp::detail::cpp_callback_trampoline<
decltype(on_new_response_callback_), const void *, size_t>,
static_cast<const void *>(&on_new_response_callback_));
}
/// Unset the callback registered for new responses, if any.
void
clear_on_new_response_callback()
{
std::lock_guard<std::recursive_mutex> lock(callback_mutex_);
if (on_new_response_callback_) {
set_on_new_response_callback(nullptr, nullptr);
on_new_response_callback_ = nullptr;
}
}
protected:
RCLCPP_DISABLE_COPY(ClientBase)
@@ -370,22 +144,10 @@ protected:
const rcl_node_t *
get_rcl_node_handle() const;
RCLCPP_PUBLIC
void
set_on_new_response_callback(rcl_event_callback_t callback, const void * user_data);
rclcpp::node_interfaces::NodeGraphInterface::WeakPtr node_graph_;
std::shared_ptr<rcl_node_t> node_handle_;
std::shared_ptr<rclcpp::Context> context_;
rclcpp::Logger node_logger_;
std::recursive_mutex callback_mutex_;
// It is important to declare on_new_response_callback_ before
// client_handle_, so on destruction the client is
// destroyed first. Otherwise, the rmw client callback
// would point briefly to a destroyed function.
std::function<void(size_t)> on_new_response_callback_{nullptr};
// Declare client_handle_ after callback
std::shared_ptr<rcl_client_t> client_handle_;
std::atomic<bool> in_use_by_wait_set_{false};
@@ -395,9 +157,6 @@ template<typename ServiceT>
class Client : public ClientBase
{
public:
using Request = typename ServiceT::Request;
using Response = typename ServiceT::Response;
using SharedRequest = typename ServiceT::Request::SharedPtr;
using SharedResponse = typename ServiceT::Response::SharedPtr;
@@ -407,7 +166,6 @@ public:
using SharedPromise = std::shared_ptr<Promise>;
using SharedPromiseWithRequest = std::shared_ptr<PromiseWithRequest>;
using Future = std::future<SharedResponse>;
using SharedFuture = std::shared_future<SharedResponse>;
using SharedFutureWithRequest = std::shared_future<std::pair<SharedRequest, SharedResponse>>;
@@ -416,78 +174,20 @@ public:
RCLCPP_SMART_PTR_DEFINITIONS(Client)
/// A convenient Client::Future and request id pair.
/**
* Public members:
* - future: a std::future<SharedResponse>.
* - request_id: the request id associated with the future.
*
* All the other methods are equivalent to the ones std::future provides.
*/
struct FutureAndRequestId
: detail::FutureAndRequestId<std::future<SharedResponse>>
{
using detail::FutureAndRequestId<std::future<SharedResponse>>::FutureAndRequestId;
// delegate future like methods in the std::future impl_
/// See std::future::share().
SharedFuture share() noexcept {return this->future.share();}
};
/// A convenient Client::SharedFuture and request id pair.
/**
* Public members:
* - future: a std::shared_future<SharedResponse>.
* - request_id: the request id associated with the future.
*
* All the other methods are equivalent to the ones std::shared_future provides.
*/
struct SharedFutureAndRequestId
: detail::FutureAndRequestId<std::shared_future<SharedResponse>>
{
using detail::FutureAndRequestId<std::shared_future<SharedResponse>>::FutureAndRequestId;
};
/// A convenient Client::SharedFutureWithRequest and request id pair.
/**
* Public members:
* - future: a std::shared_future<SharedResponse>.
* - request_id: the request id associated with the future.
*
* All the other methods are equivalent to the ones std::shared_future provides.
*/
struct SharedFutureWithRequestAndRequestId
: detail::FutureAndRequestId<std::shared_future<std::pair<SharedRequest, SharedResponse>>>
{
using detail::FutureAndRequestId<
std::shared_future<std::pair<SharedRequest, SharedResponse>>
>::FutureAndRequestId;
};
/// Default constructor.
/**
* The constructor for a Client is almost never called directly.
* Instead, clients should be instantiated through the function
* rclcpp::create_client().
*
* \param[in] node_base NodeBaseInterface pointer that is used in part of the setup.
* \param[in] node_graph The node graph interface of the corresponding node.
* \param[in] service_name Name of the topic to publish to.
* \param[in] client_options options for the client.
*/
Client(
rclcpp::node_interfaces::NodeBaseInterface * node_base,
const rclcpp::node_interfaces::NodeGraphInterface::SharedPtr & node_graph,
rclcpp::node_interfaces::NodeGraphInterface::SharedPtr node_graph,
const std::string & service_name,
rcl_client_options_t & client_options)
: ClientBase(node_base, node_graph),
srv_type_support_handle_(rosidl_typesupport_cpp::get_service_type_support_handle<ServiceT>())
: ClientBase(node_base, node_graph)
{
using rosidl_typesupport_cpp::get_service_type_support_handle;
auto service_type_support_handle =
get_service_type_support_handle<ServiceT>();
rcl_ret_t ret = rcl_client_init(
this->get_client_handle().get(),
this->get_rcl_node_handle(),
srv_type_support_handle_,
service_type_support_handle,
service_name.c_str(),
&client_options);
if (ret != RCL_RET_OK) {
@@ -528,20 +228,12 @@ public:
return this->take_type_erased_response(&response_out, request_header_out);
}
/// Create a shared pointer with the response type
/**
* \return shared pointer with the response type
*/
std::shared_ptr<void>
create_response() override
{
return std::shared_ptr<void>(new typename ServiceT::Response());
}
/// Create a shared pointer with a rmw_request_id_t
/**
* \return shared pointer with a rmw_request_id_t
*/
std::shared_ptr<rmw_request_id_t>
create_request_header() override
{
@@ -550,99 +242,39 @@ public:
return std::shared_ptr<rmw_request_id_t>(new rmw_request_id_t);
}
/// Handle a server response
/**
* \param[in] request_header used to check if the secuence number is valid
* \param[in] response message with the server response
*/
void
handle_response(
const std::shared_ptr<rmw_request_id_t> & request_header,
const std::shared_ptr<void> & response) override
std::shared_ptr<rmw_request_id_t> request_header,
std::shared_ptr<void> response) override
{
std::optional<CallbackInfoVariant>
optional_pending_request = this->get_and_erase_pending_request(request_header->sequence_number);
if (!optional_pending_request) {
std::unique_lock<std::mutex> lock(pending_requests_mutex_);
auto typed_response = std::static_pointer_cast<typename ServiceT::Response>(response);
int64_t sequence_number = request_header->sequence_number;
// TODO(esteve) this should throw instead since it is not expected to happen in the first place
if (this->pending_requests_.count(sequence_number) == 0) {
RCUTILS_LOG_ERROR_NAMED(
"rclcpp",
"Received invalid sequence number. Ignoring...");
return;
}
auto & value = *optional_pending_request;
auto typed_response = std::static_pointer_cast<typename ServiceT::Response>(
response);
if (std::holds_alternative<Promise>(value)) {
auto & promise = std::get<Promise>(value);
promise.set_value(std::move(typed_response));
} else if (std::holds_alternative<CallbackTypeValueVariant>(value)) {
auto & inner = std::get<CallbackTypeValueVariant>(value);
const auto & callback = std::get<CallbackType>(inner);
auto & promise = std::get<Promise>(inner);
auto & future = std::get<SharedFuture>(inner);
promise.set_value(std::move(typed_response));
callback(std::move(future));
} else if (std::holds_alternative<CallbackWithRequestTypeValueVariant>(value)) {
auto & inner = std::get<CallbackWithRequestTypeValueVariant>(value);
const auto & callback = std::get<CallbackWithRequestType>(inner);
auto & promise = std::get<PromiseWithRequest>(inner);
auto & future = std::get<SharedFutureWithRequest>(inner);
auto & request = std::get<SharedRequest>(inner);
promise.set_value(std::make_pair(std::move(request), std::move(typed_response)));
callback(std::move(future));
}
auto tuple = this->pending_requests_[sequence_number];
auto call_promise = std::get<0>(tuple);
auto callback = std::get<1>(tuple);
auto future = std::get<2>(tuple);
this->pending_requests_.erase(sequence_number);
// Unlock here to allow the service to be called recursively from one of its callbacks.
lock.unlock();
call_promise->set_value(typed_response);
callback(future);
}
/// Send a request to the service server.
/**
* This method returns a `FutureAndRequestId` instance
* that can be passed to Executor::spin_until_future_complete() to
* wait until it has been completed.
*
* If the future never completes,
* e.g. the call to Executor::spin_until_future_complete() times out,
* Client::remove_pending_request() must be called to clean the client internal state.
* Not doing so will make the `Client` instance to use more memory each time a response is not
* received from the service server.
*
* ```cpp
* auto future = client->async_send_request(my_request);
* if (
* rclcpp::FutureReturnCode::TIMEOUT ==
* executor->spin_until_future_complete(future, timeout))
* {
* client->remove_pending_request(future);
* // handle timeout
* } else {
* handle_response(future.get());
* }
* ```
*
* \param[in] request request to be send.
* \return a FutureAndRequestId instance.
*/
FutureAndRequestId
async_send_request(const SharedRequest & request)
SharedFuture
async_send_request(SharedRequest request)
{
Promise promise;
auto future = promise.get_future();
auto req_id = async_send_request_impl(
*request,
std::move(promise));
return FutureAndRequestId(std::move(future), req_id);
return async_send_request(request, [](SharedFuture) {});
}
/// Send a request to the service server and schedule a callback in the executor.
/**
* Similar to the previous overload, but a callback will automatically be called when a response is received.
*
* If the callback is never called, because we never got a reply for the service server, remove_pending_request()
* has to be called with the returned request id or prune_pending_requests().
* Not doing so will make the `Client` instance use more memory each time a response is not
* received from the service server.
* In this case, it's convenient to setup a timer to cleanup the pending requests.
* See for example the `examples_rclcpp_async_client` package in https://github.com/ros2/examples.
*
* \param[in] request request to be send.
* \param[in] cb callback that will be called when we get a response for this request.
* \return the request id representing the request just sent.
*/
template<
typename CallbackT,
typename std::enable_if<
@@ -652,28 +284,23 @@ public:
>::value
>::type * = nullptr
>
SharedFutureAndRequestId
async_send_request(const SharedRequest & request, CallbackT && cb)
SharedFuture
async_send_request(SharedRequest request, CallbackT && cb)
{
Promise promise;
auto shared_future = promise.get_future().share();
auto req_id = async_send_request_impl(
*request,
std::make_tuple(
CallbackType{std::forward<CallbackT>(cb)},
shared_future,
std::move(promise)));
return SharedFutureAndRequestId{std::move(shared_future), req_id};
std::lock_guard<std::mutex> lock(pending_requests_mutex_);
int64_t sequence_number;
rcl_ret_t ret = rcl_send_request(get_client_handle().get(), request.get(), &sequence_number);
if (RCL_RET_OK != ret) {
rclcpp::exceptions::throw_from_rcl_error(ret, "failed to send request");
}
SharedPromise call_promise = std::make_shared<Promise>();
SharedFuture f(call_promise->get_future());
pending_requests_[sequence_number] =
std::make_tuple(call_promise, std::forward<CallbackType>(cb), f);
return f;
}
/// Send a request to the service server and schedule a callback in the executor.
/**
* Similar to the previous method, but you can get both the request and response in the callback.
*
* \param[in] request request to be send.
* \param[in] cb callback that will be called when we get a response for this request.
* \return the request id representing the request just sent.
*/
template<
typename CallbackT,
typename std::enable_if<
@@ -683,191 +310,28 @@ public:
>::value
>::type * = nullptr
>
SharedFutureWithRequestAndRequestId
async_send_request(const SharedRequest & request, CallbackT && cb)
SharedFutureWithRequest
async_send_request(SharedRequest request, CallbackT && cb)
{
PromiseWithRequest promise;
auto shared_future = promise.get_future().share();
auto req_id = async_send_request_impl(
*request,
std::make_tuple(
CallbackWithRequestType{std::forward<CallbackT>(cb)},
request,
shared_future,
std::move(promise)));
return SharedFutureWithRequestAndRequestId{std::move(shared_future), req_id};
SharedPromiseWithRequest promise = std::make_shared<PromiseWithRequest>();
SharedFutureWithRequest future_with_request(promise->get_future());
auto wrapping_cb = [future_with_request, promise, request, &cb](SharedFuture future) {
auto response = future.get();
promise->set_value(std::make_pair(request, response));
cb(future_with_request);
};
async_send_request(request, wrapping_cb);
return future_with_request;
}
/// Cleanup a pending request.
/**
* This notifies the client that we have waited long enough for a response from the server
* to come, we have given up and we are not waiting for a response anymore.
*
* Not calling this will make the client start using more memory for each request
* that never got a reply from the server.
*
* \param[in] request_id request id returned by async_send_request().
* \return true when a pending request was removed, false if not (e.g. a response was received).
*/
bool
remove_pending_request(int64_t request_id)
{
std::lock_guard guard(pending_requests_mutex_);
return pending_requests_.erase(request_id) != 0u;
}
/// Cleanup a pending request.
/**
* Convenient overload, same as:
*
* `Client::remove_pending_request(this, future.request_id)`.
*/
bool
remove_pending_request(const FutureAndRequestId & future)
{
return this->remove_pending_request(future.request_id);
}
/// Cleanup a pending request.
/**
* Convenient overload, same as:
*
* `Client::remove_pending_request(this, future.request_id)`.
*/
bool
remove_pending_request(const SharedFutureAndRequestId & future)
{
return this->remove_pending_request(future.request_id);
}
/// Cleanup a pending request.
/**
* Convenient overload, same as:
*
* `Client::remove_pending_request(this, future.request_id)`.
*/
bool
remove_pending_request(const SharedFutureWithRequestAndRequestId & future)
{
return this->remove_pending_request(future.request_id);
}
/// Clean all pending requests.
/**
* \return number of pending requests that were removed.
*/
size_t
prune_pending_requests()
{
std::lock_guard guard(pending_requests_mutex_);
auto ret = pending_requests_.size();
pending_requests_.clear();
return ret;
}
/// Clean all pending requests older than a time_point.
/**
* \param[in] time_point Requests that were sent before this point are going to be removed.
* \param[inout] pruned_requests Removed requests id will be pushed to the vector
* if a pointer is provided.
* \return number of pending requests that were removed.
*/
template<typename AllocatorT = std::allocator<int64_t>>
size_t
prune_requests_older_than(
std::chrono::time_point<std::chrono::system_clock> time_point,
std::vector<int64_t, AllocatorT> * pruned_requests = nullptr)
{
return detail::prune_requests_older_than_impl(
pending_requests_,
pending_requests_mutex_,
time_point,
pruned_requests);
}
/// Configure client introspection.
/**
* \param[in] clock clock to use to generate introspection timestamps
* \param[in] qos_service_event_pub QoS settings to use when creating the introspection publisher
* \param[in] introspection_state the state to set introspection to
*
* \throws anything rclcpp::exceptions::throw_from_rcl_error can throw if
* it failed to configure introspection.
*/
void
configure_introspection(
const Clock::SharedPtr & clock, const QoS & qos_service_event_pub,
rcl_service_introspection_state_t introspection_state)
{
rcl_publisher_options_t pub_opts = rcl_publisher_get_default_options();
pub_opts.qos = qos_service_event_pub.get_rmw_qos_profile();
rcl_ret_t ret = rcl_client_configure_service_introspection(
client_handle_.get(),
node_handle_.get(),
clock->get_clock_handle(),
srv_type_support_handle_,
pub_opts,
introspection_state);
if (RCL_RET_OK != ret) {
rclcpp::exceptions::throw_from_rcl_error(ret, "failed to configure client introspection");
}
}
protected:
using CallbackTypeValueVariant = std::tuple<CallbackType, SharedFuture, Promise>;
using CallbackWithRequestTypeValueVariant = std::tuple<
CallbackWithRequestType, SharedRequest, SharedFutureWithRequest, PromiseWithRequest>;
using CallbackInfoVariant = std::variant<
std::promise<SharedResponse>,
CallbackTypeValueVariant,
CallbackWithRequestTypeValueVariant>;
int64_t
async_send_request_impl(const Request & request, CallbackInfoVariant value)
{
int64_t sequence_number;
std::lock_guard<std::mutex> lock(pending_requests_mutex_);
rcl_ret_t ret = rcl_send_request(get_client_handle().get(), &request, &sequence_number);
if (RCL_RET_OK != ret) {
rclcpp::exceptions::throw_from_rcl_error(ret, "failed to send request");
}
pending_requests_.try_emplace(
sequence_number,
std::make_pair(std::chrono::system_clock::now(), std::move(value)));
return sequence_number;
}
std::optional<CallbackInfoVariant>
get_and_erase_pending_request(int64_t request_number)
{
std::unique_lock<std::mutex> lock(pending_requests_mutex_);
auto it = this->pending_requests_.find(request_number);
if (it == this->pending_requests_.end()) {
RCUTILS_LOG_DEBUG_NAMED(
"rclcpp",
"Received invalid sequence number. Ignoring...");
return std::nullopt;
}
std::optional<CallbackInfoVariant> value = std::move(it->second.second);
this->pending_requests_.erase(request_number);
return value;
}
RCLCPP_DISABLE_COPY(Client)
std::unordered_map<
int64_t,
std::pair<
std::chrono::time_point<std::chrono::system_clock>,
CallbackInfoVariant>>
pending_requests_;
std::mutex pending_requests_mutex_;
private:
const rosidl_service_type_support_t * srv_type_support_handle_;
RCLCPP_DISABLE_COPY(Client)
std::map<int64_t, std::tuple<SharedPromise, CallbackType, SharedFuture>> pending_requests_;
std::mutex pending_requests_mutex_;
};
} // namespace rclcpp

244
rclcpp/include/rclcpp/clock.hpp
View File

@@ -19,7 +19,6 @@
#include <memory>
#include <mutex>
#include "rclcpp/contexts/default_context.hpp"
#include "rclcpp/macros.hpp"
#include "rclcpp/time.hpp"
#include "rclcpp/visibility_control.hpp"
@@ -60,13 +59,6 @@ public:
/**
* Initializes the clock instance with the given clock_type.
*
* WARNING Don't instantiate a clock using RCL_ROS_TIME directly,
* unless you really know what you are doing. By default no TimeSource
* is attached to a new clock. This will lead to the unexpected behavior,
* that your RCL_ROS_TIME will run always on system time. If you want
* a RCL_ROS_TIME use Node::get_clock(), or make sure to attach a
* TimeSource yourself.
*
* \param clock_type type of the clock.
* \throws anything rclcpp::exceptions::throw_from_rcl_error can throw.
*/
@@ -84,110 +76,7 @@ public:
*/
RCLCPP_PUBLIC
Time
now() const;
/**
* Sleep until a specified Time, according to clock type.
*
* Notes for RCL_ROS_TIME clock type:
* - Can sleep forever if ros time is active and received clock never reaches `until`
* - If ROS time enabled state changes during the sleep, this method will immediately return
* false. There is not a consistent choice of sleeping time when the time source changes,
* so this is up to the caller to call again if needed.
*
* \warning When using gcc < 10 or when using gcc >= 10 and pthreads lacks the function
* `pthread_cond_clockwait`, steady clocks may sleep using the system clock.
* If so, steady clock sleep times can be affected by system clock time jumps.
* Depending on the steady clock's epoch and resolution in comparison to the system clock's,
* an overflow when converting steady clock durations to system clock times may cause
* undefined behavior.
* For more info see these issues:
* https://gcc.gnu.org/bugzilla/show_bug.cgi?id=41861
* https://gcc.gnu.org/bugzilla/show_bug.cgi?id=58931
*
* \param until absolute time according to current clock type to sleep until.
* \param context the rclcpp context the clock should use to check that ROS is still initialized.
* \return true immediately if `until` is in the past
* \return true when the time `until` is reached
* \return false if time cannot be reached reliably, for example from shutdown or a change
* of time source.
* \throws std::runtime_error if the context is invalid
* \throws std::runtime_error if `until` has a different clock type from this clock
*/
RCLCPP_PUBLIC
bool
sleep_until(
const Time & until,
const Context::SharedPtr & context = contexts::get_global_default_context());
/**
* Sleep for a specified Duration.
*
* Equivalent to
*
* ```cpp
* clock->sleep_until(clock->now() + rel_time, context)
* ```
*
* The function will return immediately if `rel_time` is zero or negative.
*
* \param rel_time the length of time to sleep for.
* \param context the rclcpp context the clock should use to check that ROS is still initialized.
* \return true when the end time is reached
* \return false if time cannot be reached reliably, for example from shutdown or a change
* of time source.
* \throws std::runtime_error if the context is invalid
*/
RCLCPP_PUBLIC
bool
sleep_for(
const Duration & rel_time,
const Context::SharedPtr & context = contexts::get_global_default_context());
/**
* Check if the clock is started.
*
* A started clock is a clock that reflects non-zero time.
* Typically a clock will be unstarted if it is using RCL_ROS_TIME with ROS time and
* nothing has been published on the clock topic yet.
*
* \return true if clock is started
* \throws std::runtime_error if the clock is not rcl_clock_valid
*/
RCLCPP_PUBLIC
bool
started();
/**
* Wait until clock to start.
*
* \rclcpp::Clock::started
* \param context the context to wait in
* \return true if clock was already started or became started
* \throws std::runtime_error if the context is invalid or clock is not rcl_clock_valid
*/
RCLCPP_PUBLIC
bool
wait_until_started(const Context::SharedPtr & context = contexts::get_global_default_context());
/**
* Wait for clock to start, with timeout.
*
* The timeout is waited in steady time.
*
* \rclcpp::Clock::started
* \param timeout the maximum time to wait for.
* \param context the context to wait in.
* \param wait_tick_ns the time to wait between each iteration of the wait loop (in nanoseconds).
* \return true if clock was or became valid
* \throws std::runtime_error if the context is invalid or clock is not rcl_clock_valid
*/
RCLCPP_PUBLIC
bool
wait_until_started(
const rclcpp::Duration & timeout,
const Context::SharedPtr & context = contexts::get_global_default_context(),
const rclcpp::Duration & wait_tick_ns = rclcpp::Duration(0, static_cast<uint32_t>(1e7)));
now();
/**
* Returns the clock of the type `RCL_ROS_TIME` is active.
@@ -200,7 +89,6 @@ public:
bool
ros_time_is_active();
/// Return the rcl_clock_t clock handle
RCLCPP_PUBLIC
rcl_clock_t *
get_clock_handle() noexcept;
@@ -209,27 +97,26 @@ public:
rcl_clock_type_t
get_clock_type() const noexcept;
/// Get the clock's mutex
RCLCPP_PUBLIC
std::mutex &
get_clock_mutex() noexcept;
/// Add a callback to invoke if the jump threshold is exceeded.
// Add a callback to invoke if the jump threshold is exceeded.
/**
* These callback functions must remain valid as long as the
* returned shared pointer is valid.
*
* Function will register callbacks to the callback queue. On time jump all
* callbacks will be executed whose threshold is greater than the time jump;
* callbacks will be executed whose threshold is greater then the time jump;
* The logic will first call selected pre_callbacks and then all selected
* post_callbacks.
*
* Function is only applicable if the clock_type is `RCL_ROS_TIME`
*
* \param pre_callback Must be non-throwing
* \param post_callback Must be non-throwing.
* \param threshold Callbacks will be triggered if the time jump is greater
* than the threshold.
* \param pre_callback. Must be non-throwing
* \param post_callback. Must be non-throwing.
* \param threshold. Callbacks will be triggered if the time jump is greater
* then the threshold.
* \throws anything rclcpp::exceptions::throw_from_rcl_error can throw.
* \throws std::bad_alloc if the allocation of the JumpHandler fails.
* \warning the instance of the clock must remain valid as long as any created
@@ -238,8 +125,8 @@ public:
RCLCPP_PUBLIC
JumpHandler::SharedPtr
create_jump_callback(
const JumpHandler::pre_callback_t & pre_callback,
const JumpHandler::post_callback_t & post_callback,
JumpHandler::pre_callback_t pre_callback,
JumpHandler::post_callback_t post_callback,
const rcl_jump_threshold_t & threshold);
private:
@@ -247,7 +134,7 @@ private:
RCLCPP_PUBLIC
static void
on_time_jump(
const rcl_time_jump_t * time_jump,
const struct rcl_time_jump_t * time_jump,
bool before_jump,
void * user_data);
@@ -257,117 +144,6 @@ private:
std::shared_ptr<Impl> impl_;
};
/**
* A synchronization primitive, equal to std::conditional_variable,
* that works with the rclcpp::Clock.
*
* For more information on the API see https://en.cppreference.com/w/cpp/thread/condition_variable.
*
* Note, this class does not handle shutdowns, if you want to
* haven them handles as well, use ClockConditionalVariable.
*/
class ClockWaiter
{
private:
class ClockWaiterImpl;
std::unique_ptr<ClockWaiterImpl> impl_;
public:
RCLCPP_SMART_PTR_DEFINITIONS(ClockWaiter)
RCLCPP_PUBLIC
explicit ClockWaiter(const rclcpp::Clock::SharedPtr & clock);
RCLCPP_PUBLIC
~ClockWaiter();
/**
* Calling this function will block the current thread, until abs_time is reached,
* or pred returns true.
* @param lock A locked lock. The lock must be locked at call time, or this method will throw.
* The lock will be atomically released and this thread will blocked.
* @param abs_time The time until which this thread shall be blocked.
* @param pred may be called in cased of spurious wakeups, but must be called every time
* notify_one() was called. During the call to pred, the given lock will be locked.
* This method will return, if pred returns true.
*/
RCLCPP_PUBLIC
bool
wait_until(
std::unique_lock<std::mutex> & lock,
const rclcpp::Time & abs_time, const std::function<bool ()> & pred);
/**
* Notify the blocked thread, that it should reevaluate the wakeup condition.
* The given pred function in wait_until will be reevaluated and wait_until
* will return if it evaluates to true.
*/
RCLCPP_PUBLIC
void
notify_one();
};
/**
* A synchronization primitive, similar to std::conditional_variable,
* that works with the rclcpp::Clock.
*
* For more information on the API see https://en.cppreference.com/w/cpp/thread/condition_variable.
*
* This primitive will wake up if the context was shut down.
*/
class ClockConditionalVariable
{
class Impl;
std::unique_ptr<Impl> impl_;
public:
RCLCPP_SMART_PTR_DEFINITIONS(ClockConditionalVariable)
RCLCPP_PUBLIC
ClockConditionalVariable(
const rclcpp::Clock::SharedPtr & clock,
const rclcpp::Context::SharedPtr & context = rclcpp::contexts::get_global_default_context());
RCLCPP_PUBLIC
~ClockConditionalVariable();
/**
* Calling this function will block the current thread, until abs_time is reached,
* or pred returns true.
* @param lock A locked lock. The lock must be locked at call time, or this method will throw.
* The lock will be atomically released and this thread will blocked.
* The given lock must be created using the mutex returned my mutex().
* @param abs_time The time until which this thread shall be blocked.
* @param pred may be called in cased of spurious wakeups, but must be called every time
* notify_one() was called. During the call to pred, the given lock will be locked.
* This method will return, if pred returns true.
*
* @return true if until was reached.
*/
RCLCPP_PUBLIC
bool
wait_until(
std::unique_lock<std::mutex> & lock, const rclcpp::Time & until,
const std::function<bool ()> & pred);
/**
* Notify the blocked thread, that is should reevaluate the wakeup condition.
* E.g. the given pred function in wait_until shall be reevaluated.
*/
RCLCPP_PUBLIC
void
notify_one();
/**
* Returns the internal mutex. In order to be race free with the context shutdown,
* this mutex must be used for the wait_until call.
*/
RCLCPP_PUBLIC
std::mutex &
mutex();
};
} // namespace rclcpp
#endif // RCLCPP__CLOCK_HPP_

248
rclcpp/include/rclcpp/context.hpp
View File

@@ -23,10 +23,8 @@
#include <typeindex>
#include <typeinfo>
#include <unordered_map>
#include <unordered_set>
#include <utility>
#include <vector>
#include <stdexcept>
#include "rcl/context.h"
#include "rcl/guard_condition.h"
@@ -37,10 +35,6 @@
namespace rclcpp
{
namespace graph_listener
{
class GraphListener;
} // namespace graph_listener
/// Thrown when init is called on an already initialized context.
class ContextAlreadyInitialized : public std::runtime_error
@@ -50,31 +44,11 @@ public:
: std::runtime_error("context is already initialized") {}
};
/// Forward declare WeakContextsWrapper
class WeakContextsWrapper;
class ShutdownCallbackHandle
{
friend class Context;
public:
using ShutdownCallbackType = std::function<void ()>;
private:
std::weak_ptr<ShutdownCallbackType> callback;
};
using OnShutdownCallbackHandle = ShutdownCallbackHandle;
using PreShutdownCallbackHandle = ShutdownCallbackHandle;
/// Context which encapsulates shared state between nodes and other similar entities.
/**
* A context also represents the lifecycle between init and shutdown of rclcpp.
* Nodes may be attached to a particular context by passing to the rclcpp::Node
* constructor a rclcpp::NodeOptions instance in which the Context is set via
* rclcpp::NodeOptions::context.
* Nodes will be automatically removed from the context when destructed.
* Contexts may be shutdown by calling rclcpp::shutdown.
* It is often used in conjunction with rclcpp::init, or rclcpp::init_local,
* and rclcpp::shutdown.
*/
class Context : public std::enable_shared_from_this<Context>
{
@@ -86,7 +60,7 @@ public:
* Every context which is constructed is added to a global vector of contexts,
* which is used by the signal handler to conditionally shutdown each context
* on SIGINT.
* See the shutdown_on_signal option in the InitOptions class.
* See the shutdown_on_sigint option in the InitOptions class.
*/
RCLCPP_PUBLIC
Context();
@@ -103,8 +77,8 @@ public:
*
* Note that this function does not setup any signal handlers, so if you want
* it to be shutdown by the signal handler, then you need to either install
* them manually with rclcpp::install_signal_handlers() or use rclcpp::init().
* In addition to installing the signal handlers, the shutdown_on_signal
* them manually with rclcpp::install_signal_handers() or use rclcpp::init().
* In addition to installing the signal handlers, the shutdown_on_sigint
* of the InitOptions needs to be `true` for this context to be shutdown by
* the signal handler, otherwise it will be passed over.
*
@@ -126,16 +100,13 @@ public:
* \param[in] argv argument array which may contain arguments intended for ROS
* \param[in] init_options initialization options for rclcpp and underlying layers
* \throw ContextAlreadyInitialized if called if init is called more than once
* \throws anything rclcpp::exceptions::throw_from_rcl_error can throw.
* \throws std::runtime_error if the global logging configure mutex is NULL
* \throws exceptions::UnknownROSArgsError if there are unknown ROS arguments
*/
RCLCPP_PUBLIC
virtual
void
init(
int argc,
char const * const * argv,
char const * const argv[],
const rclcpp::InitOptions & init_options = rclcpp::InitOptions());
/// Return true if the context is valid, otherwise false.
@@ -162,18 +133,13 @@ public:
rclcpp::InitOptions
get_init_options();
/// Return actual domain id.
RCLCPP_PUBLIC
size_t
get_domain_id() const;
/// Return the shutdown reason, or empty string if not shutdown.
/**
* This function is thread-safe.
*/
RCLCPP_PUBLIC
std::string
shutdown_reason() const;
shutdown_reason();
/// Shutdown the context, making it uninitialized and therefore invalid for derived entities.
/**
@@ -191,11 +157,6 @@ public:
*
* This function is thread-safe.
*
* Note that if you override this method, but leave shutdown to be called in
* the destruction of this base class, it will not call the overridden
* version from your base class.
* So you need to ensure you call your class's shutdown() in its destructor.
*
* \param[in] reason the description of why shutdown happened
* \return true if shutdown was successful, false if context was already shutdown
* \throw various exceptions derived from rclcpp::exceptions::RCLError, if rcl_shutdown fails
@@ -205,7 +166,7 @@ public:
bool
shutdown(const std::string & reason);
using OnShutdownCallback = OnShutdownCallbackHandle::ShutdownCallbackType;
using OnShutdownCallback = std::function<void ()>;
/// Add a on_shutdown callback to be called when shutdown is called for this context.
/**
@@ -213,7 +174,7 @@ public:
* to last step in shutdown().
*
* When shutdown occurs due to the signal handler, these callbacks are run
* asynchronously in the dedicated singal handling thread.
* asynchronoulsy in the dedicated singal handling thread.
*
* Also, shutdown() may be called from the destructor of this function.
* Therefore, it is not safe to throw exceptions from these callbacks.
@@ -229,101 +190,38 @@ public:
RCLCPP_PUBLIC
virtual
OnShutdownCallback
on_shutdown(const OnShutdownCallback & callback);
on_shutdown(OnShutdownCallback callback);
/// Add a on_shutdown callback to be called when shutdown is called for this context.
/// Return the shutdown callbacks as const.
/**
* These callbacks will be called in the order they are added as the second
* to last step in shutdown().
*
* When shutdown occurs due to the signal handler, these callbacks are run
* asynchronously in the dedicated signal handling thread.
*
* Also, shutdown() may be called from the destructor of this function.
* Therefore, it is not safe to throw exceptions from these callbacks.
* Instead, log errors or use some other mechanism to indicate an error has
* occurred.
*
* On shutdown callbacks may be registered before init and after shutdown,
* and persist on repeated init's.
*
* \param[in] callback the on_shutdown callback to be registered
* \return the created callback handle
* Using the returned reference is not thread-safe with calls that modify
* the list of "on shutdown" callbacks, i.e. on_shutdown().
*/
RCLCPP_PUBLIC
virtual
OnShutdownCallbackHandle
add_on_shutdown_callback(const OnShutdownCallback & callback);
/// Remove an registered on_shutdown callbacks.
/**
* \param[in] callback_handle the on_shutdown callback handle to be removed.
* \return true if the callback is found and removed, otherwise false.
*/
RCLCPP_PUBLIC
virtual
bool
remove_on_shutdown_callback(const OnShutdownCallbackHandle & callback_handle);
using PreShutdownCallback = PreShutdownCallbackHandle::ShutdownCallbackType;
/// Add a pre_shutdown callback to be called before shutdown is called for this context.
/**
* These callbacks will be called in the order they are added.
*
* When shutdown occurs due to the signal handler, these callbacks are run
* asynchronously in the dedicated signal handling thread.
*
* \param[in] callback the pre_shutdown callback to be registered
* \return the created callback handle
*/
RCLCPP_PUBLIC
virtual
PreShutdownCallbackHandle
add_pre_shutdown_callback(const PreShutdownCallback & callback);
/// Remove an registered pre_shutdown callback.
/**
* \param[in] callback_handle the pre_shutdown callback handle to be removed.
* \return true if the callback is found and removed, otherwise false.
*/
RCLCPP_PUBLIC
virtual
bool
remove_pre_shutdown_callback(const PreShutdownCallbackHandle & callback_handle);
const std::vector<OnShutdownCallback> &
get_on_shutdown_callbacks() const;
/// Return the shutdown callbacks.
/**
* Returned callbacks are a copy of the registered callbacks.
* Using the returned reference is not thread-safe with calls that modify
* the list of "on shutdown" callbacks, i.e. on_shutdown().
*/
RCLCPP_PUBLIC
std::vector<OnShutdownCallback>
get_on_shutdown_callbacks() const;
/// Return the pre-shutdown callbacks.
/**
* Returned callbacks are a copy of the registered callbacks.
*/
RCLCPP_PUBLIC
std::vector<PreShutdownCallback>
get_pre_shutdown_callbacks() const;
std::vector<OnShutdownCallback> &
get_on_shutdown_callbacks();
/// Return the internal rcl context.
RCLCPP_PUBLIC
std::shared_ptr<rcl_context_t>
get_rcl_context();
RCLCPP_PUBLIC
std::shared_ptr<rclcpp::graph_listener::GraphListener>
get_graph_listener();
/// Sleep for a given period of time or until shutdown() is called.
/**
* This function can be interrupted early if:
*
* - this context is shutdown()
* - this context is destructed (resulting in shutdown)
* - this context has shutdown_on_signal=true and SIGINT/SIGTERM occurs (resulting in shutdown)
* - this context has shutdown_on_sigint=true and SIGINT occurs (resulting in shutdown)
* - interrupt_all_sleep_for() is called
*
* \param[in] nanoseconds A std::chrono::duration representing how long to sleep for.
@@ -335,9 +233,68 @@ public:
/// Interrupt any blocking sleep_for calls, causing them to return immediately and return true.
RCLCPP_PUBLIC
virtual
void
interrupt_all_sleep_for();
/// Get a handle to the guard condition which is triggered when interrupted.
/**
* This guard condition is triggered any time interrupt_all_wait_sets() is
* called, which may be called by the user, or shutdown().
* And in turn, shutdown() may be called by the user, the destructor of this
* context, or the signal handler if installed and shutdown_on_sigint is true
* for this context.
*
* The first time that this function is called for a given wait set a new guard
* condition will be created and returned; thereafter the same guard condition
* will be returned for the same wait set.
* This mechanism is designed to ensure that the same guard condition is not
* reused across wait sets (e.g., when using multiple executors in the same
* process).
* This method will throw an exception if initialization of the guard
* condition fails.
*
* The returned guard condition needs to be released with the
* release_interrupt_guard_condition() method in order to reclaim resources.
*
* \param[in] wait_set Pointer to the rcl_wait_set_t that will be using the
* resulting guard condition.
* \return Pointer to the guard condition.
*/
RCLCPP_PUBLIC
rcl_guard_condition_t *
get_interrupt_guard_condition(rcl_wait_set_t * wait_set);
/// Release the previously allocated guard condition which is triggered when interrupted.
/**
* If you previously called get_interrupt_guard_condition() for a given wait
* set to get a interrupt guard condition, then you should call
* release_interrupt_guard_condition() when you're done, to free that
* condition.
* Will throw an exception if get_interrupt_guard_condition() wasn't
* previously called for the given wait set.
*
* After calling this, the pointer returned by get_interrupt_guard_condition()
* for the given wait_set is invalid.
*
* \param[in] wait_set Pointer to the rcl_wait_set_t that was using the
* resulting guard condition.
*/
RCLCPP_PUBLIC
void
release_interrupt_guard_condition(rcl_wait_set_t * wait_set);
/// Nothrow version of release_interrupt_guard_condition(), logs to RCLCPP_ERROR instead.
RCLCPP_PUBLIC
void
release_interrupt_guard_condition(rcl_wait_set_t * wait_set, const std::nothrow_t &) noexcept;
/// Interrupt any blocking executors, or wait sets associated with this context.
RCLCPP_PUBLIC
virtual
void
interrupt_all_wait_sets();
/// Return a singleton instance for the SubContext type, constructing one if necessary.
template<typename SubContext, typename ... Args>
std::shared_ptr<SubContext>
@@ -367,6 +324,7 @@ protected:
// Called by constructor and destructor to clean up by finalizing the
// shutdown rcl context and preparing for a new init cycle.
RCLCPP_PUBLIC
virtual
void
clean_up();
@@ -375,60 +333,28 @@ private:
// This mutex is recursive so that the destructor can ensure atomicity
// between is_initialized and shutdown.
mutable std::recursive_mutex init_mutex_;
std::recursive_mutex init_mutex_;
std::shared_ptr<rcl_context_t> rcl_context_;
rclcpp::InitOptions init_options_;
std::string shutdown_reason_;
// Keep shared ownership of the global logging mutex.
std::shared_ptr<std::recursive_mutex> logging_mutex_;
std::unordered_map<std::type_index, std::shared_ptr<void>> sub_contexts_;
// This mutex is recursive so that the constructor of a sub context may
// attempt to acquire another sub context.
std::recursive_mutex sub_contexts_mutex_;
std::vector<std::shared_ptr<OnShutdownCallback>> on_shutdown_callbacks_;
mutable std::recursive_mutex on_shutdown_callbacks_mutex_;
std::vector<std::shared_ptr<PreShutdownCallback>> pre_shutdown_callbacks_;
mutable std::recursive_mutex pre_shutdown_callbacks_mutex_;
std::vector<OnShutdownCallback> on_shutdown_callbacks_;
std::mutex on_shutdown_callbacks_mutex_;
/// Condition variable for timed sleep (see sleep_for).
std::condition_variable interrupt_condition_variable_;
/// Mutex for protecting the global condition variable.
std::mutex interrupt_mutex_;
/// Graph Listener which waits on graph changes for the node and is shared across nodes.
std::shared_ptr<rclcpp::graph_listener::GraphListener> graph_listener_;
/// Keep shared ownership of global vector of weak contexts
std::shared_ptr<WeakContextsWrapper> weak_contexts_;
enum class ShutdownType
{
pre_shutdown,
on_shutdown
};
using ShutdownCallback = ShutdownCallbackHandle::ShutdownCallbackType;
template<ShutdownType shutdown_type>
RCLCPP_LOCAL
ShutdownCallbackHandle
add_shutdown_callback(
const ShutdownCallback & callback);
template<ShutdownType shutdown_type>
RCLCPP_LOCAL
bool
remove_shutdown_callback(
const ShutdownCallbackHandle & callback_handle);
template<ShutdownType shutdown_type>
RCLCPP_LOCAL
std::vector<rclcpp::Context::ShutdownCallback>
get_shutdown_callback() const;
/// Mutex to protect sigint_guard_cond_handles_.
std::mutex interrupt_guard_cond_handles_mutex_;
/// Guard conditions for interrupting of associated wait sets on interrupt_all_wait_sets().
std::unordered_map<rcl_wait_set_t *, rcl_guard_condition_t> interrupt_guard_cond_handles_;
};
/// Return a copy of the list of context shared pointers.

16
rclcpp/include/rclcpp/contexts/default_context.hpp
View File

@@ -36,6 +36,22 @@ RCLCPP_PUBLIC
DefaultContext::SharedPtr
get_global_default_context();
namespace default_context
{
using DefaultContext
[[deprecated("use rclcpp::contexts::DefaultContext instead")]] = DefaultContext;
[[deprecated("use rclcpp::contexts::get_global_default_context() instead")]]
RCLCPP_PUBLIC
inline
DefaultContext::SharedPtr
get_global_default_context()
{
return rclcpp::contexts::get_global_default_context();
}
} // namespace default_context
} // namespace contexts
} // namespace rclcpp

82
rclcpp/include/rclcpp/copy_all_parameter_values.hpp
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@@ -1,82 +0,0 @@
// Copyright 2023 Open Navigation LLC
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__COPY_ALL_PARAMETER_VALUES_HPP_
#define RCLCPP__COPY_ALL_PARAMETER_VALUES_HPP_
#include <string>
#include <vector>
#include "rcl_interfaces/srv/list_parameters.hpp"
#include "rcl_interfaces/msg/parameter_descriptor.hpp"
#include "rcl_interfaces/msg/set_parameters_result.hpp"
#include "rclcpp/parameter.hpp"
#include "rclcpp/logger.hpp"
#include "rclcpp/logging.hpp"
namespace rclcpp
{
/**
* Copy all parameters from one source node to another destination node.
* May throw exceptions if parameters from source are uninitialized or undeclared.
* \param source Node to copy parameters from
* \param destination Node to copy parameters to
* \param override_existing_params Default false. Whether to override existing destination params
* if both the source and destination contain the same parameter.
*/
template<typename NodeT1, typename NodeT2>
void
copy_all_parameter_values(
const NodeT1 & source, const NodeT2 & destination, const bool override_existing_params = false)
{
using Parameters = std::vector<rclcpp::Parameter>;
using Descriptions = std::vector<rcl_interfaces::msg::ParameterDescriptor>;
auto source_params = source->get_node_parameters_interface();
auto dest_params = destination->get_node_parameters_interface();
rclcpp::Logger logger = destination->get_node_logging_interface()->get_logger();
std::vector<std::string> param_names = source_params->list_parameters({}, 0).names;
Parameters params = source_params->get_parameters(param_names);
Descriptions descriptions = source_params->describe_parameters(param_names);
for (unsigned int idx = 0; idx != params.size(); idx++) {
if (!dest_params->has_parameter(params[idx].get_name())) {
dest_params->declare_parameter(
params[idx].get_name(), params[idx].get_parameter_value(), descriptions[idx]);
} else if (override_existing_params) {
try {
rcl_interfaces::msg::SetParametersResult result =
dest_params->set_parameters_atomically({params[idx]});
if (!result.successful) {
// Parameter update rejected or read-only
RCLCPP_WARN(
logger,
"Unable to set parameter (%s): %s!",
params[idx].get_name().c_str(), result.reason.c_str());
}
} catch (const rclcpp::exceptions::InvalidParameterTypeException & e) {
RCLCPP_WARN(
logger,
"Unable to set parameter (%s): incompatable parameter type (%s)!",
params[idx].get_name().c_str(), e.what());
}
}
}
}
} // namespace rclcpp
#endif // RCLCPP__COPY_ALL_PARAMETER_VALUES_HPP_

22
rclcpp/include/rclcpp/create_client.hpp
View File

@@ -20,24 +20,13 @@
#include "rclcpp/node_interfaces/node_base_interface.hpp"
#include "rclcpp/node_interfaces/node_services_interface.hpp"
#include "rclcpp/qos.hpp"
#include "rmw/rmw.h"
namespace rclcpp
{
/// Create a service client with a given type.
/**
* \param[in] node_base NodeBaseInterface implementation of the node on which
* to create the client.
* \param[in] node_graph NodeGraphInterface implementation of the node on which
* to create the client.
* \param[in] node_services NodeServicesInterface implementation of the node on
* which to create the client.
* \param[in] service_name The name on which the service is accessible.
* \param[in] qos Quality of service profile for client.
* \param[in] group Callback group to handle the reply to service calls.
* \return Shared pointer to the created client.
*/
/// \internal
template<typename ServiceT>
typename rclcpp::Client<ServiceT>::SharedPtr
create_client(
@@ -45,11 +34,11 @@ create_client(
std::shared_ptr<node_interfaces::NodeGraphInterface> node_graph,
std::shared_ptr<node_interfaces::NodeServicesInterface> node_services,
const std::string & service_name,
const rclcpp::QoS & qos = rclcpp::ServicesQoS(),
rclcpp::CallbackGroup::SharedPtr group = nullptr)
const rmw_qos_profile_t & qos_profile,
rclcpp::CallbackGroup::SharedPtr group)
{
rcl_client_options_t options = rcl_client_get_default_options();
options.qos = qos.get_rmw_qos_profile();
options.qos = qos_profile;
auto cli = rclcpp::Client<ServiceT>::make_shared(
node_base.get(),
@@ -61,6 +50,7 @@ create_client(
node_services->add_client(cli_base_ptr, group);
return cli;
}
} // namespace rclcpp
#endif // RCLCPP__CREATE_CLIENT_HPP_

90
rclcpp/include/rclcpp/create_generic_client.hpp
View File

@@ -1,90 +0,0 @@
// Copyright 2023 Sony Group Corporation.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__CREATE_GENERIC_CLIENT_HPP_
#define RCLCPP__CREATE_GENERIC_CLIENT_HPP_
#include <memory>
#include <string>
#include "rclcpp/generic_client.hpp"
#include "rclcpp/node_interfaces/get_node_base_interface.hpp"
#include "rclcpp/node_interfaces/get_node_graph_interface.hpp"
#include "rclcpp/node_interfaces/get_node_services_interface.hpp"
#include "rclcpp/node_interfaces/node_base_interface.hpp"
#include "rclcpp/node_interfaces/node_graph_interface.hpp"
#include "rclcpp/node_interfaces/node_services_interface.hpp"
#include "rclcpp/qos.hpp"
namespace rclcpp
{
/// Create a generic service client with a name of given type.
/**
* \param[in] node_base NodeBaseInterface implementation of the node on which
* to create the client.
* \param[in] node_graph NodeGraphInterface implementation of the node on which
* to create the client.
* \param[in] node_services NodeServicesInterface implementation of the node on
* which to create the client.
* \param[in] service_name The name on which the service is accessible.
* \param[in] service_type The name of service type, e.g. "test_msgs/srv/BasicTypes"
* \param[in] qos Quality of service profile for client.
* \param[in] group Callback group to handle the reply to service calls.
* \return Shared pointer to the created client.
*/
RCLCPP_PUBLIC
rclcpp::GenericClient::SharedPtr
create_generic_client(
const std::shared_ptr<node_interfaces::NodeBaseInterface> & node_base,
const std::shared_ptr<node_interfaces::NodeGraphInterface> & node_graph,
const std::shared_ptr<node_interfaces::NodeServicesInterface> & node_services,
const std::string & service_name,
const std::string & service_type,
const rclcpp::QoS & qos = rclcpp::ServicesQoS(),
const rclcpp::CallbackGroup::SharedPtr & group = rclcpp::CallbackGroup::SharedPtr());
/// Create a generic service client with a name of given type.
/**
* The NodeT type needs to have NodeBaseInterface implementation, NodeGraphInterface implementation
* and NodeServicesInterface implementation of the node which to create the client.
*
* \param[in] node The node on which to create the client.
* \param[in] service_name The name on which the service is accessible.
* \param[in] service_type The name of service type, e.g. "test_msgs/srv/BasicTypes"
* \param[in] qos Quality of service profile for client.
* \param[in] group Callback group to handle the reply to service calls.
* \return Shared pointer to the created client.
*/
template<typename NodeT>
rclcpp::GenericClient::SharedPtr
create_generic_client(
NodeT node,
const std::string & service_name,
const std::string & service_type,
const rclcpp::QoS & qos = rclcpp::ServicesQoS(),
rclcpp::CallbackGroup::SharedPtr group = nullptr)
{
return create_generic_client(
rclcpp::node_interfaces::get_node_base_interface(node),
rclcpp::node_interfaces::get_node_graph_interface(node),
rclcpp::node_interfaces::get_node_services_interface(node),
service_name,
service_type,
qos,
group
);
}
} // namespace rclcpp
#endif // RCLCPP__CREATE_GENERIC_CLIENT_HPP_

69
rclcpp/include/rclcpp/create_generic_publisher.hpp
View File

@@ -1,69 +0,0 @@
// Copyright 2020, Apex.AI Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__CREATE_GENERIC_PUBLISHER_HPP_
#define RCLCPP__CREATE_GENERIC_PUBLISHER_HPP_
#include <memory>
#include <string>
#include <utility>
#include "rclcpp/generic_publisher.hpp"
#include "rclcpp/node_interfaces/node_topics_interface.hpp"
#include "rclcpp/publisher_options.hpp"
#include "rclcpp/qos.hpp"
#include "rclcpp/typesupport_helpers.hpp"
namespace rclcpp
{
/// Create and return a GenericPublisher.
/**
* The returned pointer will never be empty, but this function can throw various exceptions, for
* instance when the message's package can not be found on the AMENT_PREFIX_PATH.
*
* \param topics_interface NodeTopicsInterface pointer used in parts of the setup
* \param topic_name Topic name
* \param topic_type Topic type
* \param qos %QoS settings
* \param options %Publisher options.
* Not all publisher options are currently respected, the only relevant options for this
* publisher are `event_callbacks`, `use_default_callbacks`, and `%callback_group`.
*/
template<typename AllocatorT = std::allocator<void>>
std::shared_ptr<GenericPublisher> create_generic_publisher(
rclcpp::node_interfaces::NodeTopicsInterface::SharedPtr topics_interface,
const std::string & topic_name,
const std::string & topic_type,
const rclcpp::QoS & qos,
const rclcpp::PublisherOptionsWithAllocator<AllocatorT> & options = (
rclcpp::PublisherOptionsWithAllocator<AllocatorT>()
)
)
{
auto ts_lib = rclcpp::get_typesupport_library(topic_type, "rosidl_typesupport_cpp");
auto pub = std::make_shared<GenericPublisher>(
topics_interface->get_node_base_interface(),
std::move(ts_lib),
topic_name,
topic_type,
qos,
options);
topics_interface->add_publisher(pub, options.callback_group);
return pub;
}
} // namespace rclcpp
#endif // RCLCPP__CREATE_GENERIC_PUBLISHER_HPP_

102
rclcpp/include/rclcpp/create_generic_service.hpp
View File

@@ -1,102 +0,0 @@
// Copyright 2024 Sony Group Corporation.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__CREATE_GENERIC_SERVICE_HPP_
#define RCLCPP__CREATE_GENERIC_SERVICE_HPP_
#include <memory>
#include <string>
#include <utility>
#include "rclcpp/generic_service.hpp"
#include "rclcpp/node_interfaces/get_node_base_interface.hpp"
#include "rclcpp/node_interfaces/node_base_interface.hpp"
#include "rclcpp/node_interfaces/get_node_services_interface.hpp"
#include "rclcpp/node_interfaces/node_services_interface.hpp"
#include "rclcpp/visibility_control.hpp"
#include "rmw/rmw.h"
namespace rclcpp
{
/// Create a generic service with a given type.
/**
* \param[in] node_base NodeBaseInterface implementation of the node on which
* to create the generic service.
* \param[in] node_services NodeServicesInterface implementation of the node on
* which to create the service.
* \param[in] service_name The name on which the service is accessible.
* \param[in] service_type The name of service type, e.g. "std_srvs/srv/SetBool".
* \param[in] callback The callback to call when the service gets a request.
* \param[in] qos Quality of service profile for the service.
* \param[in] group Callback group to handle the reply to service calls.
* \return Shared pointer to the created service.
*/
template<typename CallbackT>
typename rclcpp::GenericService::SharedPtr
create_generic_service(
std::shared_ptr<node_interfaces::NodeBaseInterface> node_base,
std::shared_ptr<node_interfaces::NodeServicesInterface> node_services,
const std::string & service_name,
const std::string & service_type,
CallbackT && callback,
const rclcpp::QoS & qos,
rclcpp::CallbackGroup::SharedPtr group)
{
rclcpp::GenericServiceCallback any_service_callback;
any_service_callback.set(std::forward<CallbackT>(callback));
rcl_service_options_t service_options = rcl_service_get_default_options();
service_options.qos = qos.get_rmw_qos_profile();
auto serv = GenericService::make_shared(
node_base->get_shared_rcl_node_handle(),
service_name, service_type, any_service_callback, service_options);
auto serv_base_ptr = std::dynamic_pointer_cast<ServiceBase>(serv);
node_services->add_service(serv_base_ptr, group);
return serv;
}
/// Create a generic service with a given type.
/**
* The NodeT type needs to have NodeBaseInterface implementation and NodeServicesInterface
* implementation of the node which to create the generic service.
*
* \param[in] node The node on which to create the generic service.
* \param[in] service_name The name on which the service is accessible.
* \param[in] service_type The name of service type, e.g. "std_srvs/srv/SetBool".
* \param[in] callback The callback to call when the service gets a request.
* \param[in] qos Quality of service profile for the service.
* \param[in] group Callback group to handle the reply to service calls.
* \return Shared pointer to the created service.
*/
template<typename NodeT, typename CallbackT>
typename rclcpp::GenericService::SharedPtr
create_generic_service(
NodeT node,
const std::string & service_name,
const std::string & service_type,
CallbackT && callback,
const rclcpp::QoS & qos,
rclcpp::CallbackGroup::SharedPtr group)
{
return create_generic_service<CallbackT>(
rclcpp::node_interfaces::get_node_base_interface(node),
rclcpp::node_interfaces::get_node_services_interface(node),
service_name,
service_type,
std::forward<CallbackT>(callback), qos.get_rmw_qos_profile(), group);
}
} // namespace rclcpp
#endif // RCLCPP__CREATE_GENERIC_SERVICE_HPP_

88
rclcpp/include/rclcpp/create_generic_subscription.hpp
View File

@@ -1,88 +0,0 @@
// Copyright 2020, Apex.AI Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__CREATE_GENERIC_SUBSCRIPTION_HPP_
#define RCLCPP__CREATE_GENERIC_SUBSCRIPTION_HPP_
#include <functional>
#include <memory>
#include <string>
#include <utility>
#include "rcl/subscription.h"
#include "rclcpp/generic_subscription.hpp"
#include "rclcpp/node_interfaces/node_topics_interface.hpp"
#include "rclcpp/qos.hpp"
#include "rclcpp/serialized_message.hpp"
#include "rclcpp/subscription_options.hpp"
#include "rclcpp/typesupport_helpers.hpp"
namespace rclcpp
{
/// Create and return a GenericSubscription.
/**
* The returned pointer will never be empty, but this function can throw various exceptions, for
* instance when the message's package can not be found on the AMENT_PREFIX_PATH.
*
* \param topics_interface NodeTopicsInterface pointer used in parts of the setup.
* \param topic_name Topic name
* \param topic_type Topic type
* \param qos %QoS settings
* \param callback Callback for new messages of serialized form
* \param options %Publisher options.
* Not all publisher options are currently respected, the only relevant options for this
* publisher are `event_callbacks`, `use_default_callbacks`, and `%callback_group`.
*/
template<
typename CallbackT,
typename AllocatorT = std::allocator<void>>
std::shared_ptr<GenericSubscription> create_generic_subscription(
rclcpp::node_interfaces::NodeTopicsInterface::SharedPtr topics_interface,
const std::string & topic_name,
const std::string & topic_type,
const rclcpp::QoS & qos,
CallbackT && callback,
const rclcpp::SubscriptionOptionsWithAllocator<AllocatorT> & options = (
rclcpp::SubscriptionOptionsWithAllocator<AllocatorT>()
)
)
{
auto ts_lib = rclcpp::get_typesupport_library(
topic_type, "rosidl_typesupport_cpp");
auto allocator = options.get_allocator();
using rclcpp::AnySubscriptionCallback;
AnySubscriptionCallback<rclcpp::SerializedMessage, AllocatorT>
any_subscription_callback(*allocator);
any_subscription_callback.set(std::forward<CallbackT>(callback));
auto subscription = std::make_shared<GenericSubscription>(
topics_interface->get_node_base_interface(),
std::move(ts_lib),
topic_name,
topic_type,
qos,
any_subscription_callback,
options);
topics_interface->add_subscription(subscription, options.callback_group);
return subscription;
}
} // namespace rclcpp
#endif // RCLCPP__CREATE_GENERIC_SUBSCRIPTION_HPP_

88
rclcpp/include/rclcpp/create_publisher.hpp
View File

@@ -17,7 +17,6 @@
#include <memory>
#include <string>
#include <utility>
#include "rclcpp/node_interfaces/get_node_topics_interface.hpp"
#include "rclcpp/node_interfaces/node_topics_interface.hpp"
@@ -25,65 +24,15 @@
#include "rclcpp/publisher_factory.hpp"
#include "rclcpp/publisher_options.hpp"
#include "rclcpp/qos.hpp"
#include "rclcpp/qos_overriding_options.hpp"
#include "rclcpp/detail/qos_parameters.hpp"
#include "rmw/qos_profiles.h"
namespace rclcpp
{
namespace detail
{
/// Create and return a publisher of the given MessageT type.
template<
typename MessageT,
typename AllocatorT = std::allocator<void>,
typename PublisherT = rclcpp::Publisher<MessageT, AllocatorT>,
typename NodeParametersT,
typename NodeTopicsT>
std::shared_ptr<PublisherT>
create_publisher(
NodeParametersT & node_parameters,
NodeTopicsT & node_topics,
const std::string & topic_name,
const rclcpp::QoS & qos,
const rclcpp::PublisherOptionsWithAllocator<AllocatorT> & options = (
rclcpp::PublisherOptionsWithAllocator<AllocatorT>()
)
)
{
auto node_topics_interface = rclcpp::node_interfaces::get_node_topics_interface(node_topics);
const rclcpp::QoS & actual_qos = options.qos_overriding_options.get_policy_kinds().size() ?
rclcpp::detail::declare_qos_parameters(
options.qos_overriding_options, node_parameters,
node_topics_interface->resolve_topic_name(topic_name),
qos, rclcpp::detail::PublisherQosParametersTraits{}) :
qos;
// Create the publisher.
auto pub = node_topics_interface->create_publisher(
topic_name,
rclcpp::create_publisher_factory<MessageT, AllocatorT, PublisherT>(options),
actual_qos
);
// Add the publisher to the node topics interface.
node_topics_interface->add_publisher(pub, options.callback_group);
return std::dynamic_pointer_cast<PublisherT>(pub);
}
} // namespace detail
/// Create and return a publisher of the given MessageT type.
/**
* The NodeT type only needs to have a method called get_node_topics_interface()
* which returns a shared_ptr to a NodeTopicsInterface.
*
* In case `options.qos_overriding_options` is enabling qos parameter overrides,
* NodeT must also have a method called get_node_parameters_interface()
* which returns a shared_ptr to a NodeParametersInterface.
*/
template<
typename MessageT,
@@ -92,7 +41,7 @@ template<
typename NodeT>
std::shared_ptr<PublisherT>
create_publisher(
NodeT && node,
NodeT & node,
const std::string & topic_name,
const rclcpp::QoS & qos,
const rclcpp::PublisherOptionsWithAllocator<AllocatorT> & options = (
@@ -100,28 +49,21 @@ create_publisher(
)
)
{
return detail::create_publisher<MessageT, AllocatorT, PublisherT>(
node, node, topic_name, qos, options);
}
// Extract the NodeTopicsInterface from the NodeT.
using rclcpp::node_interfaces::get_node_topics_interface;
auto node_topics = get_node_topics_interface(node);
/// Create and return a publisher of the given MessageT type.
template<
typename MessageT,
typename AllocatorT = std::allocator<void>,
typename PublisherT = rclcpp::Publisher<MessageT, AllocatorT>>
std::shared_ptr<PublisherT>
create_publisher(
rclcpp::node_interfaces::NodeParametersInterface::SharedPtr & node_parameters,
rclcpp::node_interfaces::NodeTopicsInterface::SharedPtr & node_topics,
const std::string & topic_name,
const rclcpp::QoS & qos,
const rclcpp::PublisherOptionsWithAllocator<AllocatorT> & options = (
rclcpp::PublisherOptionsWithAllocator<AllocatorT>()
)
)
{
return detail::create_publisher<MessageT, AllocatorT, PublisherT>(
node_parameters, node_topics, topic_name, qos, options);
// Create the publisher.
auto pub = node_topics->create_publisher(
topic_name,
rclcpp::create_publisher_factory<MessageT, AllocatorT, PublisherT>(options),
qos
);
// Add the publisher to the node topics interface.
node_topics->add_publisher(pub, options.callback_group);
return std::dynamic_pointer_cast<PublisherT>(pub);
}
} // namespace rclcpp

26
rclcpp/include/rclcpp/create_service.hpp
View File

@@ -26,32 +26,6 @@
namespace rclcpp
{
/// Create a service with a given type.
/**
* \param[in] node_base NodeBaseInterface implementation of the node on which
* to create the service.
* \param[in] node_services NodeServicesInterface implementation of the node on
* which to create the service.
* \param[in] service_name The name on which the service is accessible.
* \param[in] callback The callback to call when the service gets a request.
* \param[in] qos Quality of service profile for the service.
* \param[in] group Callback group to handle the reply to service calls.
* \return Shared pointer to the created service.
*/
template<typename ServiceT, typename CallbackT>
typename rclcpp::Service<ServiceT>::SharedPtr
create_service(
std::shared_ptr<node_interfaces::NodeBaseInterface> node_base,
std::shared_ptr<node_interfaces::NodeServicesInterface> node_services,
const std::string & service_name,
CallbackT && callback,
const rclcpp::QoS & qos,
rclcpp::CallbackGroup::SharedPtr group)
{
return create_service<ServiceT, CallbackT>(
node_base, node_services, service_name,
std::forward<CallbackT>(callback), qos.get_rmw_qos_profile(), group);
}
/// Create a service with a given type.
/// \internal

188
rclcpp/include/rclcpp/create_subscription.hpp
View File

@@ -15,47 +15,41 @@
#ifndef RCLCPP__CREATE_SUBSCRIPTION_HPP_
#define RCLCPP__CREATE_SUBSCRIPTION_HPP_
#include <chrono>
#include <functional>
#include <memory>
#include <stdexcept>
#include <string>
#include <utility>
#include "rclcpp/detail/resolve_enable_topic_statistics.hpp"
#include "rclcpp/node_interfaces/get_node_timers_interface.hpp"
#include "rclcpp/node_interfaces/get_node_topics_interface.hpp"
#include "rclcpp/node_interfaces/node_timers_interface.hpp"
#include "rclcpp/node_interfaces/node_topics_interface.hpp"
#include "rclcpp/create_publisher.hpp"
#include "rclcpp/create_timer.hpp"
#include "rclcpp/qos.hpp"
#include "rclcpp/subscription_factory.hpp"
#include "rclcpp/subscription_options.hpp"
#include "rclcpp/timer.hpp"
#include "rclcpp/topic_statistics/subscription_topic_statistics.hpp"
#include "rclcpp/qos.hpp"
#include "rmw/qos_profiles.h"
namespace rclcpp
{
namespace detail
{
/// Create and return a subscription of the given MessageT type.
/**
* The NodeT type only needs to have a method called get_node_topics_interface()
* which returns a shared_ptr to a NodeTopicsInterface, or be a
* NodeTopicsInterface pointer itself.
*/
template<
typename MessageT,
typename CallbackT,
typename AllocatorT,
typename SubscriptionT,
typename MessageMemoryStrategyT,
typename NodeParametersT,
typename NodeTopicsT
>
typename AllocatorT = std::allocator<void>,
typename CallbackMessageT =
typename rclcpp::subscription_traits::has_message_type<CallbackT>::type,
typename SubscriptionT = rclcpp::Subscription<CallbackMessageT, AllocatorT>,
typename MessageMemoryStrategyT = rclcpp::message_memory_strategy::MessageMemoryStrategy<
CallbackMessageT,
AllocatorT
>,
typename NodeT>
typename std::shared_ptr<SubscriptionT>
create_subscription(
NodeParametersT & node_parameters,
NodeTopicsT & node_topics,
NodeT && node,
const std::string & topic_name,
const rclcpp::QoS & qos,
CallbackT && callback,
@@ -68,159 +62,19 @@ create_subscription(
)
{
using rclcpp::node_interfaces::get_node_topics_interface;
auto node_topics_interface = get_node_topics_interface(node_topics);
std::shared_ptr<rclcpp::topic_statistics::SubscriptionTopicStatistics>
subscription_topic_stats = nullptr;
if (rclcpp::detail::resolve_enable_topic_statistics(
options,
*node_topics_interface->get_node_base_interface()))
{
if (options.topic_stats_options.publish_period <= std::chrono::milliseconds(0)) {
throw std::invalid_argument(
"topic_stats_options.publish_period must be greater than 0, specified value of " +
std::to_string(options.topic_stats_options.publish_period.count()) + " ms");
}
std::shared_ptr<Publisher<statistics_msgs::msg::MetricsMessage>>
publisher = rclcpp::detail::create_publisher<statistics_msgs::msg::MetricsMessage>(
node_parameters,
node_topics_interface,
options.topic_stats_options.publish_topic,
options.topic_stats_options.qos);
subscription_topic_stats =
std::make_shared<rclcpp::topic_statistics::SubscriptionTopicStatistics>(
node_topics_interface->get_node_base_interface()->get_name(), publisher);
std::weak_ptr<
rclcpp::topic_statistics::SubscriptionTopicStatistics
> weak_subscription_topic_stats(subscription_topic_stats);
auto sub_call_back = [weak_subscription_topic_stats]() {
auto subscription_topic_stats = weak_subscription_topic_stats.lock();
if (subscription_topic_stats) {
subscription_topic_stats->publish_message_and_reset_measurements();
}
};
auto node_timer_interface = node_topics_interface->get_node_timers_interface();
auto timer = create_wall_timer(
std::chrono::duration_cast<std::chrono::nanoseconds>(
options.topic_stats_options.publish_period),
sub_call_back,
options.callback_group,
node_topics_interface->get_node_base_interface(),
node_timer_interface
);
subscription_topic_stats->set_publisher_timer(timer);
}
auto node_topics = get_node_topics_interface(std::forward<NodeT>(node));
auto factory = rclcpp::create_subscription_factory<MessageT>(
std::forward<CallbackT>(callback),
options,
msg_mem_strat,
subscription_topic_stats
msg_mem_strat
);
const rclcpp::QoS & actual_qos = options.qos_overriding_options.get_policy_kinds().size() ?
rclcpp::detail::declare_qos_parameters(
options.qos_overriding_options, node_parameters,
node_topics_interface->resolve_topic_name(topic_name),
qos, rclcpp::detail::SubscriptionQosParametersTraits{}) :
qos;
auto sub = node_topics_interface->create_subscription(topic_name, factory, actual_qos);
node_topics_interface->add_subscription(sub, options.callback_group);
auto sub = node_topics->create_subscription(topic_name, factory, qos);
node_topics->add_subscription(sub, options.callback_group);
return std::dynamic_pointer_cast<SubscriptionT>(sub);
}
} // namespace detail
/// Create and return a subscription of the given MessageT type.
/**
* The NodeT type only needs to have a method called get_node_topics_interface()
* which returns a shared_ptr to a NodeTopicsInterface, or be a
* NodeTopicsInterface pointer itself.
*
* In case `options.qos_overriding_options` is enabling qos parameter overrides,
* NodeT must also have a method called get_node_parameters_interface()
* which returns a shared_ptr to a NodeParametersInterface.
*
* \tparam MessageT
* \tparam CallbackT
* \tparam AllocatorT
* \tparam SubscriptionT
* \tparam MessageMemoryStrategyT
* \tparam NodeT
* \param node
* \param topic_name
* \param qos
* \param callback
* \param options
* \param msg_mem_strat
* \return the created subscription
* \throws std::invalid_argument if topic statistics is enabled and the publish period is
* less than or equal to zero.
*/
template<
typename MessageT,
typename CallbackT,
typename AllocatorT = std::allocator<void>,
typename SubscriptionT = rclcpp::Subscription<MessageT, AllocatorT>,
typename MessageMemoryStrategyT = typename SubscriptionT::MessageMemoryStrategyType,
typename NodeT>
typename std::shared_ptr<SubscriptionT>
create_subscription(
NodeT & node,
const std::string & topic_name,
const rclcpp::QoS & qos,
CallbackT && callback,
const rclcpp::SubscriptionOptionsWithAllocator<AllocatorT> & options = (
rclcpp::SubscriptionOptionsWithAllocator<AllocatorT>()
),
typename MessageMemoryStrategyT::SharedPtr msg_mem_strat = (
MessageMemoryStrategyT::create_default()
)
)
{
return rclcpp::detail::create_subscription<
MessageT, CallbackT, AllocatorT, SubscriptionT, MessageMemoryStrategyT>(
node, node, topic_name, qos, std::forward<CallbackT>(callback), options, msg_mem_strat);
}
/// Create and return a subscription of the given MessageT type.
/**
* See \ref create_subscription().
*/
template<
typename MessageT,
typename CallbackT,
typename AllocatorT = std::allocator<void>,
typename SubscriptionT = rclcpp::Subscription<MessageT, AllocatorT>,
typename MessageMemoryStrategyT = typename SubscriptionT::MessageMemoryStrategyType>
typename std::shared_ptr<SubscriptionT>
create_subscription(
rclcpp::node_interfaces::NodeParametersInterface::SharedPtr & node_parameters,
rclcpp::node_interfaces::NodeTopicsInterface::SharedPtr & node_topics,
const std::string & topic_name,
const rclcpp::QoS & qos,
CallbackT && callback,
const rclcpp::SubscriptionOptionsWithAllocator<AllocatorT> & options = (
rclcpp::SubscriptionOptionsWithAllocator<AllocatorT>()
),
typename MessageMemoryStrategyT::SharedPtr msg_mem_strat = (
MessageMemoryStrategyT::create_default()
)
)
{
return rclcpp::detail::create_subscription<
MessageT, CallbackT, AllocatorT, SubscriptionT, MessageMemoryStrategyT>(
node_parameters, node_topics, topic_name, qos,
std::forward<CallbackT>(callback), options, msg_mem_strat);
}
} // namespace rclcpp

170
rclcpp/include/rclcpp/create_timer.hpp
View File

@@ -15,92 +15,38 @@
#ifndef RCLCPP__CREATE_TIMER_HPP_
#define RCLCPP__CREATE_TIMER_HPP_
#include <chrono>
#include <exception>
#include <memory>
#include <string>
#include <utility>
#include "rclcpp/duration.hpp"
#include "rclcpp/node_interfaces/get_node_base_interface.hpp"
#include "rclcpp/node_interfaces/get_node_clock_interface.hpp"
#include "rclcpp/node_interfaces/get_node_timers_interface.hpp"
#include "rclcpp/node_interfaces/node_base_interface.hpp"
#include "rclcpp/node_interfaces/node_clock_interface.hpp"
#include "rclcpp/node_interfaces/node_timers_interface.hpp"
namespace rclcpp
{
namespace detail
{
/// Perform a safe cast to a timer period in nanoseconds
/**
*
* \tparam DurationRepT
* \tparam DurationT
* \param period period to execute callback. This duration must be 0 <= period < nanoseconds::max()
* \return period, expressed as chrono::duration::nanoseconds
* \throws std::invalid_argument if period is negative or too large
*/
template<typename DurationRepT, typename DurationT>
std::chrono::nanoseconds
safe_cast_to_period_in_ns(std::chrono::duration<DurationRepT, DurationT> period)
{
if (period < std::chrono::duration<DurationRepT, DurationT>::zero()) {
throw std::invalid_argument{"timer period cannot be negative"};
}
// Casting to a double representation might lose precision and allow the check below to succeed
// but the actual cast to nanoseconds fail. Using 1 DurationT worth of nanoseconds less than max.
constexpr auto maximum_safe_cast_ns =
std::chrono::nanoseconds::max() - std::chrono::duration<DurationRepT, DurationT>(1);
// If period is greater than nanoseconds::max(), the duration_cast to nanoseconds will overflow
// a signed integer, which is undefined behavior. Checking whether any std::chrono::duration is
// greater than nanoseconds::max() is a difficult general problem. This is a more conservative
// version of Howard Hinnant's (the <chrono> guy>) response here:
// https://stackoverflow.com/a/44637334/2089061
// However, this doesn't solve the issue for all possible duration types of period.
// Follow-up issue: https://github.com/ros2/rclcpp/issues/1177
constexpr auto ns_max_as_double =
std::chrono::duration_cast<std::chrono::duration<double, std::chrono::nanoseconds::period>>(
maximum_safe_cast_ns);
if (period > ns_max_as_double) {
throw std::invalid_argument{
"timer period must be less than std::chrono::nanoseconds::max()"};
}
const auto period_ns = std::chrono::duration_cast<std::chrono::nanoseconds>(period);
if (period_ns < std::chrono::nanoseconds::zero()) {
throw std::runtime_error{
"Casting timer period to nanoseconds resulted in integer overflow."};
}
return period_ns;
}
} // namespace detail
/// Create a timer with a given clock
/// \internal
template<typename CallbackT>
typename rclcpp::TimerBase::SharedPtr
create_timer(
std::shared_ptr<node_interfaces::NodeBaseInterface> node_base,
std::shared_ptr<node_interfaces::NodeTimersInterface> node_timers,
node_interfaces::NodeBaseInterface * node_base,
node_interfaces::NodeTimersInterface * node_timers,
rclcpp::Clock::SharedPtr clock,
rclcpp::Duration period,
CallbackT && callback,
rclcpp::CallbackGroup::SharedPtr group = nullptr,
bool autostart = true)
rclcpp::CallbackGroup::SharedPtr group = nullptr)
{
return create_timer(
auto timer = rclcpp::GenericTimer<CallbackT>::make_shared(
clock,
period.to_chrono<std::chrono::nanoseconds>(),
std::forward<CallbackT>(callback),
group,
node_base.get(),
node_timers.get(),
autostart);
node_base->get_context());
node_timers->add_timer(timer, group);
return timer;
}
/// Create a timer with a given clock
@@ -111,107 +57,17 @@ create_timer(
rclcpp::Clock::SharedPtr clock,
rclcpp::Duration period,
CallbackT && callback,
rclcpp::CallbackGroup::SharedPtr group = nullptr,
bool autostart = true)
rclcpp::CallbackGroup::SharedPtr group = nullptr)
{
return create_timer(
rclcpp::node_interfaces::get_node_base_interface(node),
rclcpp::node_interfaces::get_node_timers_interface(node),
clock,
period.to_chrono<std::chrono::nanoseconds>(),
period,
std::forward<CallbackT>(callback),
group,
rclcpp::node_interfaces::get_node_base_interface(node).get(),
rclcpp::node_interfaces::get_node_timers_interface(node).get(),
autostart);
group);
}
/// Convenience method to create a general timer with node resources.
/**
*
* \tparam DurationRepT
* \tparam DurationT
* \tparam CallbackT
* \param clock clock to be used
* \param period period to execute callback. This duration must be 0 <= period < nanoseconds::max()
* \param callback callback to execute via the timer period
* \param group callback group
* \param node_base node base interface
* \param node_timers node timer interface
* \param autostart defines if the timer should start it's countdown on initialization or not.
* \return shared pointer to a generic timer
* \throws std::invalid_argument if either clock, node_base or node_timers
* are nullptr, or period is negative or too large
*/
template<typename DurationRepT, typename DurationT, typename CallbackT>
typename rclcpp::GenericTimer<CallbackT>::SharedPtr
create_timer(
rclcpp::Clock::SharedPtr clock,
std::chrono::duration<DurationRepT, DurationT> period,
CallbackT callback,
rclcpp::CallbackGroup::SharedPtr group,
node_interfaces::NodeBaseInterface * node_base,
node_interfaces::NodeTimersInterface * node_timers,
bool autostart = true)
{
if (clock == nullptr) {
throw std::invalid_argument{"clock cannot be null"};
}
if (node_base == nullptr) {
throw std::invalid_argument{"input node_base cannot be null"};
}
if (node_timers == nullptr) {
throw std::invalid_argument{"input node_timers cannot be null"};
}
const std::chrono::nanoseconds period_ns = detail::safe_cast_to_period_in_ns(period);
// Add a new generic timer.
auto timer = rclcpp::GenericTimer<CallbackT>::make_shared(
std::move(clock), period_ns, std::move(callback), node_base->get_context(), autostart);
node_timers->add_timer(timer, group);
return timer;
}
/// Convenience method to create a wall timer with node resources.
/**
*
* \tparam DurationRepT
* \tparam DurationT
* \tparam CallbackT
* \param period period to execute callback. This duration must be 0 <= period < nanoseconds::max()
* \param callback callback to execute via the timer period
* \param group callback group
* \param node_base node base interface
* \param node_timers node timer interface
* \return shared pointer to a wall timer
* \throws std::invalid_argument if either node_base or node_timers
* are null, or period is negative or too large
*/
template<typename DurationRepT, typename DurationT, typename CallbackT>
typename rclcpp::WallTimer<CallbackT>::SharedPtr
create_wall_timer(
std::chrono::duration<DurationRepT, DurationT> period,
CallbackT callback,
rclcpp::CallbackGroup::SharedPtr group,
node_interfaces::NodeBaseInterface * node_base,
node_interfaces::NodeTimersInterface * node_timers,
bool autostart = true)
{
if (node_base == nullptr) {
throw std::invalid_argument{"input node_base cannot be null"};
}
if (node_timers == nullptr) {
throw std::invalid_argument{"input node_timers cannot be null"};
}
const std::chrono::nanoseconds period_ns = detail::safe_cast_to_period_in_ns(period);
// Add a new wall timer.
auto timer = rclcpp::WallTimer<CallbackT>::make_shared(
period_ns, std::move(callback), node_base->get_context(), autostart);
node_timers->add_timer(timer, group);
return timer;
}
} // namespace rclcpp
#endif // RCLCPP__CREATE_TIMER_HPP_

39
rclcpp/include/rclcpp/detail/add_guard_condition_to_rcl_wait_set.hpp
View File

@@ -1,39 +0,0 @@
// Copyright 2021 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__DETAIL__ADD_GUARD_CONDITION_TO_RCL_WAIT_SET_HPP_
#define RCLCPP__DETAIL__ADD_GUARD_CONDITION_TO_RCL_WAIT_SET_HPP_
#include "rclcpp/guard_condition.hpp"
namespace rclcpp
{
namespace detail
{
/// Adds the guard condition to a waitset
/**
* \param[in] wait_set reference to a wait set where to add the guard condition
* \param[in] guard_condition reference to the guard_condition to be added
*/
RCLCPP_PUBLIC
void
add_guard_condition_to_rcl_wait_set(
rcl_wait_set_t & wait_set,
const rclcpp::GuardCondition & guard_condition);
} // namespace detail
} // namespace rclcpp
#endif // RCLCPP__DETAIL__ADD_GUARD_CONDITION_TO_RCL_WAIT_SET_HPP_

70
rclcpp/include/rclcpp/detail/cpp_callback_trampoline.hpp
View File

@@ -1,70 +0,0 @@
// Copyright 2021 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__DETAIL__CPP_CALLBACK_TRAMPOLINE_HPP_
#define RCLCPP__DETAIL__CPP_CALLBACK_TRAMPOLINE_HPP_
#include <functional>
namespace rclcpp
{
namespace detail
{
/// Trampoline pattern for wrapping std::function into C-style callbacks.
/**
* A common pattern in C is for a function to take a function pointer and a
* void pointer for "user data" which is passed to the function pointer when it
* is called from within C.
*
* It works by using the user data pointer to store a pointer to a
* std::function instance.
* So when called from C, this function will cast the user data to the right
* std::function type and call it.
*
* This should allow you to use free functions, lambdas with and without
* captures, and various kinds of std::bind instances.
*
* The interior of this function is likely to be executed within a C runtime,
* so no exceptions should be thrown at this point, and doing so results in
* undefined behavior.
*
* \tparam UserDataRealT Declared type of the passed function
* \tparam UserDataT Deduced type based on what is passed for user data,
* usually this type is either `void *` or `const void *`.
* \tparam Args the arguments being passed to the callback
* \tparam ReturnT the return type of this function and the callback, default void
* \param user_data the function pointer, possibly type erased
* \param args the arguments to be forwarded to the callback
* \returns whatever the callback returns, if anything
*/
template<
typename UserDataRealT,
typename UserDataT,
typename ... Args,
typename ReturnT = void
>
ReturnT
cpp_callback_trampoline(UserDataT user_data, Args ... args) noexcept
{
auto & actual_callback = *static_cast<const UserDataRealT *>(user_data);
return actual_callback(args ...);
}
} // namespace detail
} // namespace rclcpp
#endif // RCLCPP__DETAIL__CPP_CALLBACK_TRAMPOLINE_HPP_

345
rclcpp/include/rclcpp/detail/qos_parameters.hpp
View File

@@ -1,345 +0,0 @@
// Copyright 2020 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__DETAIL__QOS_PARAMETERS_HPP_
#define RCLCPP__DETAIL__QOS_PARAMETERS_HPP_
#include <algorithm>
#include <array>
#include <functional>
#include <initializer_list>
#include <map>
#include <string>
#include <type_traits>
#include <vector>
#include "rcl_interfaces/msg/parameter_descriptor.hpp"
#include "rcpputils/pointer_traits.hpp"
#include "rmw/qos_string_conversions.h"
#include "rclcpp/duration.hpp"
#include "rclcpp/node_interfaces/get_node_parameters_interface.hpp"
#include "rclcpp/node_interfaces/node_parameters_interface.hpp"
#include "rclcpp/qos_overriding_options.hpp"
namespace rclcpp
{
namespace detail
{
/// \internal Trait used to specialize `declare_qos_parameters()` for publishers.
struct PublisherQosParametersTraits
{
static constexpr const char * entity_type() {return "publisher";}
static constexpr auto allowed_policies()
{
return std::array<::rclcpp::QosPolicyKind, 9> {
QosPolicyKind::AvoidRosNamespaceConventions,
QosPolicyKind::Deadline,
QosPolicyKind::Durability,
QosPolicyKind::History,
QosPolicyKind::Depth,
QosPolicyKind::Lifespan,
QosPolicyKind::Liveliness,
QosPolicyKind::LivelinessLeaseDuration,
QosPolicyKind::Reliability,
};
}
};
/// \internal Trait used to specialize `declare_qos_parameters()` for subscriptions.
struct SubscriptionQosParametersTraits
{
static constexpr const char * entity_type() {return "subscription";}
static constexpr auto allowed_policies()
{
return std::array<::rclcpp::QosPolicyKind, 8> {
QosPolicyKind::AvoidRosNamespaceConventions,
QosPolicyKind::Deadline,
QosPolicyKind::Durability,
QosPolicyKind::History,
QosPolicyKind::Depth,
QosPolicyKind::Liveliness,
QosPolicyKind::LivelinessLeaseDuration,
QosPolicyKind::Reliability,
};
}
};
/// \internal Returns the given `policy` of the profile `qos` converted to a parameter value.
inline
::rclcpp::ParameterValue
get_default_qos_param_value(rclcpp::QosPolicyKind policy, const rclcpp::QoS & qos);
/// \internal Modify the given `policy` in `qos` to be `value`.
inline
void
apply_qos_override(
rclcpp::QosPolicyKind policy, rclcpp::ParameterValue value, rclcpp::QoS & qos);
inline
rclcpp::ParameterValue
declare_parameter_or_get(
rclcpp::node_interfaces::NodeParametersInterface & parameters_interface,
const std::string & param_name,
rclcpp::ParameterValue param_value,
rcl_interfaces::msg::ParameterDescriptor descriptor)
{
try {
// enable parameter modification to make it possible
// to declare QoS override parameters during parameter callbacks.
parameters_interface.enable_parameter_modification();
return parameters_interface.declare_parameter(
param_name, param_value, descriptor);
} catch (const rclcpp::exceptions::ParameterAlreadyDeclaredException &) {
return parameters_interface.get_parameter(param_name).get_parameter_value();
}
}
#ifdef DOXYGEN_ONLY
/// \internal Declare QoS parameters for the given entity.
/**
* \tparam NodeT Node pointer or reference type.
* \tparam EntityQosParametersTraits A class with two static methods: `entity_type()` and
* `allowed_policies()`. See `PublisherQosParametersTraits` and `SubscriptionQosParametersTraits`.
* \param options User provided options that indicate if QoS parameter overrides should be
* declared or not, which policy can have overrides, and optionally a callback to validate the profile.
* \param node Parameters will be declared using this node.
* \param topic_name Name of the topic of the entity.
* \param default_qos User provided qos. It will be used as a default for the parameters declared.
* \return qos profile based on the user provided parameter overrides.
*/
template<typename NodeT, typename EntityQosParametersTraits>
rclcpp::QoS
declare_qos_parameters(
const ::rclcpp::QosOverridingOptions & options,
NodeT & node,
const std::string & topic_name,
const ::rclcpp::QoS & default_qos,
EntityQosParametersTraits);
#else
template<typename NodeT, typename EntityQosParametersTraits>
std::enable_if_t<
(rclcpp::node_interfaces::has_node_parameters_interface<
decltype(std::declval<typename rcpputils::remove_pointer<NodeT>::type>())>::value ||
std::is_same<typename std::decay_t<NodeT>,
rclcpp::node_interfaces::NodeParametersInterface::SharedPtr>::value),
rclcpp::QoS>
declare_qos_parameters(
const ::rclcpp::QosOverridingOptions & options,
NodeT & node,
const std::string & topic_name,
const ::rclcpp::QoS & default_qos,
EntityQosParametersTraits)
{
auto & parameters_interface = *rclcpp::node_interfaces::get_node_parameters_interface(node);
std::string param_prefix;
const auto & id = options.get_id();
{
std::ostringstream oss{"qos_overrides.", std::ios::ate};
oss << topic_name << "." << EntityQosParametersTraits::entity_type();
if (!id.empty()) {
oss << "_" << id;
}
oss << ".";
param_prefix = oss.str();
}
std::string param_description_suffix;
{
std::ostringstream oss{"} for ", std::ios::ate};
oss << EntityQosParametersTraits::entity_type() << " {" << topic_name << "}";
if (!id.empty()) {
oss << " with id {" << id << "}";
}
param_description_suffix = oss.str();
}
rclcpp::QoS qos = default_qos;
for (auto policy : EntityQosParametersTraits::allowed_policies()) {
if (
std::count(options.get_policy_kinds().begin(), options.get_policy_kinds().end(), policy))
{
std::ostringstream param_name{param_prefix, std::ios::ate};
param_name << qos_policy_kind_to_cstr(policy);
std::ostringstream param_desciption{"qos policy {", std::ios::ate};
param_desciption << qos_policy_kind_to_cstr(policy) << param_description_suffix;
rcl_interfaces::msg::ParameterDescriptor descriptor{};
descriptor.description = param_desciption.str();
descriptor.read_only = true;
auto value = declare_parameter_or_get(
parameters_interface, param_name.str(),
get_default_qos_param_value(policy, qos), descriptor);
::rclcpp::detail::apply_qos_override(policy, value, qos);
}
}
const auto & validation_callback = options.get_validation_callback();
if (validation_callback) {
auto result = validation_callback(qos);
if (!result.successful) {
throw rclcpp::exceptions::InvalidQosOverridesException{
"validation callback failed: " + result.reason};
}
}
return qos;
}
// TODO(ivanpauno): This overload cannot declare the QoS parameters, as a node parameters interface
// was not provided.
template<typename NodeT, typename EntityQosParametersTraits>
std::enable_if_t<
!(rclcpp::node_interfaces::has_node_parameters_interface<
decltype(std::declval<typename rcpputils::remove_pointer<NodeT>::type>())>::value ||
std::is_same<typename std::decay_t<NodeT>,
rclcpp::node_interfaces::NodeParametersInterface::SharedPtr>::value),
rclcpp::QoS>
declare_qos_parameters(
const ::rclcpp::QosOverridingOptions & options,
NodeT &,
const std::string &,
const ::rclcpp::QoS & default_qos,
EntityQosParametersTraits)
{
if (options.get_policy_kinds().size()) {
std::runtime_error exc{
"passed non-default qos overriding options without providing a parameters interface"};
throw exc;
}
return default_qos;
}
#endif
/// \internal Helper function to get a rmw qos policy value from a string.
#define RCLCPP_DETAIL_APPLY_QOS_OVERRIDE_FROM_PARAMETER_STRING( \
kind_lower, kind_upper, parameter_value, rclcpp_qos) \
do { \
auto policy_string = (parameter_value).get<std::string>(); \
auto policy_value = rmw_qos_ ## kind_lower ## _policy_from_str(policy_string.c_str()); \
if (RMW_QOS_POLICY_ ## kind_upper ## _UNKNOWN == policy_value) { \
throw std::invalid_argument{"unknown QoS policy " #kind_lower " value: " + policy_string}; \
} \
((rclcpp_qos).kind_lower)(policy_value); \
} while (0)
inline
void
apply_qos_override(
rclcpp::QosPolicyKind policy, rclcpp::ParameterValue value, rclcpp::QoS & qos)
{
switch (policy) {
case QosPolicyKind::AvoidRosNamespaceConventions:
qos.avoid_ros_namespace_conventions(value.get<bool>());
break;
case QosPolicyKind::Deadline:
qos.deadline(::rclcpp::Duration::from_nanoseconds(value.get<int64_t>()));
break;
case QosPolicyKind::Durability:
RCLCPP_DETAIL_APPLY_QOS_OVERRIDE_FROM_PARAMETER_STRING(
durability, DURABILITY, value, qos);
break;
case QosPolicyKind::History:
RCLCPP_DETAIL_APPLY_QOS_OVERRIDE_FROM_PARAMETER_STRING(
history, HISTORY, value, qos);
break;
case QosPolicyKind::Depth:
qos.get_rmw_qos_profile().depth = static_cast<size_t>(value.get<int64_t>());
break;
case QosPolicyKind::Lifespan:
qos.lifespan(::rclcpp::Duration::from_nanoseconds(value.get<int64_t>()));
break;
case QosPolicyKind::Liveliness:
RCLCPP_DETAIL_APPLY_QOS_OVERRIDE_FROM_PARAMETER_STRING(
liveliness, LIVELINESS, value, qos);
break;
case QosPolicyKind::LivelinessLeaseDuration:
qos.liveliness_lease_duration(::rclcpp::Duration::from_nanoseconds(value.get<int64_t>()));
break;
case QosPolicyKind::Reliability:
RCLCPP_DETAIL_APPLY_QOS_OVERRIDE_FROM_PARAMETER_STRING(
reliability, RELIABILITY, value, qos);
break;
case QosPolicyKind::Invalid:
throw std::invalid_argument{"invalid QosPolicyKind"};
}
}
/// Convert `rmw_time_t` to `int64_t` that can be used as a parameter value.
inline
int64_t
rmw_duration_to_int64_t(rmw_time_t rmw_duration)
{
return ::rclcpp::Duration(
static_cast<int32_t>(rmw_duration.sec),
static_cast<uint32_t>(rmw_duration.nsec)
).nanoseconds();
}
/// \internal Throw an exception if `policy_value_stringified` is NULL.
inline
const char *
check_if_stringified_policy_is_null(const char * policy_value_stringified, QosPolicyKind kind)
{
if (!policy_value_stringified) {
std::ostringstream oss{"unknown value for policy kind {", std::ios::ate};
oss << kind << "}";
throw std::invalid_argument{oss.str()};
}
return policy_value_stringified;
}
inline
::rclcpp::ParameterValue
get_default_qos_param_value(rclcpp::QosPolicyKind kind, const rclcpp::QoS & qos)
{
using ParameterValue = ::rclcpp::ParameterValue;
const auto & rmw_qos = qos.get_rmw_qos_profile();
switch (kind) {
case QosPolicyKind::AvoidRosNamespaceConventions:
return ParameterValue(rmw_qos.avoid_ros_namespace_conventions);
case QosPolicyKind::Deadline:
return ParameterValue(rmw_duration_to_int64_t(rmw_qos.deadline));
case QosPolicyKind::Durability:
return ParameterValue(
check_if_stringified_policy_is_null(
rmw_qos_durability_policy_to_str(rmw_qos.durability), kind));
case QosPolicyKind::History:
return ParameterValue(
check_if_stringified_policy_is_null(
rmw_qos_history_policy_to_str(rmw_qos.history), kind));
case QosPolicyKind::Depth:
return ParameterValue(static_cast<int64_t>(rmw_qos.depth));
case QosPolicyKind::Lifespan:
return ParameterValue(rmw_duration_to_int64_t(rmw_qos.lifespan));
case QosPolicyKind::Liveliness:
return ParameterValue(
check_if_stringified_policy_is_null(
rmw_qos_liveliness_policy_to_str(rmw_qos.liveliness), kind));
case QosPolicyKind::LivelinessLeaseDuration:
return ParameterValue(rmw_duration_to_int64_t(rmw_qos.liveliness_lease_duration));
case QosPolicyKind::Reliability:
return ParameterValue(
check_if_stringified_policy_is_null(
rmw_qos_reliability_policy_to_str(rmw_qos.reliability), kind));
case QosPolicyKind::Invalid:
throw std::invalid_argument{"invalid QoS policy kind"};
}
return ParameterValue();
}
} // namespace detail
} // namespace rclcpp
#endif // RCLCPP__DETAIL__QOS_PARAMETERS_HPP_

3
rclcpp/include/rclcpp/detail/resolve_enable_topic_statistics.hpp
View File

@@ -29,7 +29,7 @@ template<typename OptionsT, typename NodeBaseT>
bool
resolve_enable_topic_statistics(const OptionsT & options, const NodeBaseT & node_base)
{
bool topic_stats_enabled = false;
bool topic_stats_enabled;
switch (options.topic_stats_options.state) {
case TopicStatisticsState::Enable:
topic_stats_enabled = true;
@@ -42,6 +42,7 @@ resolve_enable_topic_statistics(const OptionsT & options, const NodeBaseT & node
break;
default:
throw std::runtime_error("Unrecognized EnableTopicStatistics value");
break;
}
return topic_stats_enabled;

5
rclcpp/include/rclcpp/detail/resolve_intra_process_buffer_type.hpp
View File

@@ -47,11 +47,6 @@ resolve_intra_process_buffer_type(
return resolved_buffer_type;
}
RCLCPP_PUBLIC
rclcpp::IntraProcessBufferType
resolve_intra_process_buffer_type(
const rclcpp::IntraProcessBufferType buffer_type);
} // namespace detail
} // namespace rclcpp

3
rclcpp/include/rclcpp/detail/resolve_use_intra_process.hpp
View File

@@ -30,7 +30,7 @@ template<typename OptionsT, typename NodeBaseT>
bool
resolve_use_intra_process(const OptionsT & options, const NodeBaseT & node_base)
{
bool use_intra_process = false;
bool use_intra_process;
switch (options.use_intra_process_comm) {
case IntraProcessSetting::Enable:
use_intra_process = true;
@@ -43,6 +43,7 @@ resolve_use_intra_process(const OptionsT & options, const NodeBaseT & node_base)
break;
default:
throw std::runtime_error("Unrecognized IntraProcessSetting value");
break;
}
return use_intra_process;

166
rclcpp/include/rclcpp/detail/subscription_callback_type_helper.hpp
View File

@@ -1,166 +0,0 @@
// Copyright 2021 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__DETAIL__SUBSCRIPTION_CALLBACK_TYPE_HELPER_HPP_
#define RCLCPP__DETAIL__SUBSCRIPTION_CALLBACK_TYPE_HELPER_HPP_
#include <memory>
#include <type_traits>
#include "rclcpp/function_traits.hpp"
#include "rclcpp/message_info.hpp"
namespace rclcpp
{
namespace detail
{
/// Template metaprogramming helper used to resolve the callback argument into a std::function.
/**
* Sometimes the CallbackT is a std::function already, but it could also be a
* function pointer, lambda, bind, or some variant of those.
* In some cases, like a lambda where the arguments can be converted between one
* another, e.g. std::function<void (shared_ptr<...>)> and
* std::function<void (unique_ptr<...>)>, you need to make that not ambiguous
* by checking the arguments independently using function traits rather than
* rely on overloading the two std::function types.
*
* This issue, with the lambda's, can be demonstrated with this minimal program:
*
* \code{.cpp}
* #include <functional>
* #include <memory>
*
* void f(std::function<void (std::shared_ptr<int>)>) {}
* void f(std::function<void (std::unique_ptr<int>)>) {}
*
* int main() {
* // Fails to compile with an "ambiguous call" error.
* f([](std::shared_ptr<int>){});
*
* // Works.
* std::function<void (std::shared_ptr<int>)> cb = [](std::shared_ptr<int>){};
* f(cb);
* }
* \endcode
*
* If this program ever starts working in a future version of C++, this class
* may become redundant.
*
* This helper works by using SFINAE with rclcpp::function_traits::same_arguments<>
* to narrow down the exact std::function<> type for the given CallbackT.
*/
template<typename MessageT, typename CallbackT, typename Enable = void>
struct SubscriptionCallbackTypeHelper
{
using callback_type = typename rclcpp::function_traits::as_std_function<CallbackT>::type;
};
template<typename MessageT, typename CallbackT>
struct SubscriptionCallbackTypeHelper<
MessageT,
CallbackT,
typename std::enable_if_t<
rclcpp::function_traits::same_arguments<
CallbackT,
std::function<void(std::shared_ptr<const MessageT>)>
>::value
>
>
{
using callback_type = std::function<void (std::shared_ptr<const MessageT>)>;
};
template<typename MessageT, typename CallbackT>
struct SubscriptionCallbackTypeHelper<
MessageT,
CallbackT,
typename std::enable_if_t<
rclcpp::function_traits::same_arguments<
CallbackT,
std::function<void(std::shared_ptr<const MessageT>, const rclcpp::MessageInfo &)>
>::value
>
>
{
using callback_type =
std::function<void (std::shared_ptr<const MessageT>, const rclcpp::MessageInfo &)>;
};
template<typename MessageT, typename CallbackT>
struct SubscriptionCallbackTypeHelper<
MessageT,
CallbackT,
typename std::enable_if_t<
rclcpp::function_traits::same_arguments<
CallbackT,
std::function<void(const std::shared_ptr<const MessageT> &)>
>::value
>
>
{
using callback_type = std::function<void (const std::shared_ptr<const MessageT> &)>;
};
template<typename MessageT, typename CallbackT>
struct SubscriptionCallbackTypeHelper<
MessageT,
CallbackT,
typename std::enable_if_t<
rclcpp::function_traits::same_arguments<
CallbackT,
std::function<void(const std::shared_ptr<const MessageT> &, const rclcpp::MessageInfo &)>
>::value
>
>
{
using callback_type =
std::function<void (const std::shared_ptr<const MessageT> &, const rclcpp::MessageInfo &)>;
};
template<typename MessageT, typename CallbackT>
struct SubscriptionCallbackTypeHelper<
MessageT,
CallbackT,
typename std::enable_if_t<
rclcpp::function_traits::same_arguments<
CallbackT,
std::function<void(std::shared_ptr<MessageT>)>
>::value
>
>
{
using callback_type = std::function<void (std::shared_ptr<MessageT>)>;
};
template<typename MessageT, typename CallbackT>
struct SubscriptionCallbackTypeHelper<
MessageT,
CallbackT,
typename std::enable_if_t<
rclcpp::function_traits::same_arguments<
CallbackT,
std::function<void(std::shared_ptr<MessageT>, const rclcpp::MessageInfo &)>
>::value
>
>
{
using callback_type =
std::function<void (std::shared_ptr<MessageT>, const rclcpp::MessageInfo &)>;
};
} // namespace detail
} // namespace rclcpp
#endif // RCLCPP__DETAIL__SUBSCRIPTION_CALLBACK_TYPE_HELPER_HPP_

47
rclcpp/include/rclcpp/detail/template_contains.hpp
View File

@@ -1,47 +0,0 @@
// Copyright 2022 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__DETAIL__TEMPLATE_CONTAINS_HPP_
#define RCLCPP__DETAIL__TEMPLATE_CONTAINS_HPP_
#include <type_traits>
namespace rclcpp
{
namespace detail
{
/// Template meta-function that checks if a given T is contained in the list Us.
template<typename T, typename ... Us>
struct template_contains;
template<typename ... Args>
inline constexpr bool template_contains_v = template_contains<Args ...>::value;
template<typename T, typename NextT, typename ... Us>
struct template_contains<T, NextT, Us ...>
{
enum { value = (std::is_same_v<T, NextT>|| template_contains_v<T, Us ...>)};
};
template<typename T>
struct template_contains<T>
{
enum { value = false };
};
} // namespace detail
} // namespace rclcpp
#endif // RCLCPP__DETAIL__TEMPLATE_CONTAINS_HPP_

49
rclcpp/include/rclcpp/detail/template_unique.hpp
View File

@@ -1,49 +0,0 @@
// Copyright 2022 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__DETAIL__TEMPLATE_UNIQUE_HPP_
#define RCLCPP__DETAIL__TEMPLATE_UNIQUE_HPP_
#include <type_traits>
#include "rclcpp/detail/template_contains.hpp"
namespace rclcpp
{
namespace detail
{
/// Template meta-function that checks if a given list Ts contains unique types.
template<typename ... Ts>
struct template_unique;
template<typename ... Args>
inline constexpr bool template_unique_v = template_unique<Args ...>::value;
template<typename NextT, typename ... Ts>
struct template_unique<NextT, Ts ...>
{
enum { value = !template_contains_v<NextT, Ts ...>&& template_unique_v<Ts ...>};
};
template<typename T>
struct template_unique<T>
{
enum { value = true };
};
} // namespace detail
} // namespace rclcpp
#endif // RCLCPP__DETAIL__TEMPLATE_UNIQUE_HPP_

2
rclcpp/include/rclcpp/detail/utilities.hpp
View File

@@ -30,7 +30,7 @@ namespace detail
std::vector<std::string>
get_unparsed_ros_arguments(
int argc, char const * const * argv,
int argc, char const * const argv[],
rcl_arguments_t * arguments,
rcl_allocator_t allocator);

69
rclcpp/include/rclcpp/duration.hpp
View File

@@ -18,7 +18,6 @@
#include <chrono>
#include "builtin_interfaces/msg/duration.hpp"
#include "builtin_interfaces/msg/time.hpp"
#include "rcl/time.h"
#include "rclcpp/visibility_control.hpp"
@@ -27,19 +26,11 @@ namespace rclcpp
class RCLCPP_PUBLIC Duration
{
public:
/// Duration constructor.
/**
* Initializes the time values for seconds and nanoseconds individually.
* Large values for nsecs are wrapped automatically with the remainder added to secs.
* Both inputs must be integers.
* Seconds can be negative.
*
* \param seconds time in seconds
* \param nanoseconds time in nanoseconds
*/
Duration(int32_t seconds, uint32_t nanoseconds);
/// Construct duration from the specified std::chrono::nanoseconds.
// This constructor matches any numeric value - ints or floats
explicit Duration(rcl_duration_value_t nanoseconds);
explicit Duration(std::chrono::nanoseconds nanoseconds);
// This constructor matches any std::chrono value other than nanoseconds
@@ -53,10 +44,6 @@ public:
// cppcheck-suppress noExplicitConstructor
Duration(const builtin_interfaces::msg::Duration & duration_msg); // NOLINT(runtime/explicit)
/// Time constructor
/**
* \param duration rcl_duration_t structure to copy.
*/
explicit Duration(const rcl_duration_t & duration);
Duration(const Duration & rhs);
@@ -70,14 +57,11 @@ public:
operator=(const Duration & rhs);
Duration &
operator=(const builtin_interfaces::msg::Duration & duration_msg);
operator=(const builtin_interfaces::msg::Duration & Duration_msg);
bool
operator==(const rclcpp::Duration & rhs) const;
bool
operator!=(const rclcpp::Duration & rhs) const;
bool
operator<(const rclcpp::Duration & rhs) const;
@@ -93,17 +77,9 @@ public:
Duration
operator+(const rclcpp::Duration & rhs) const;
Duration & operator+=(const rclcpp::Duration & rhs);
Duration
operator-(const rclcpp::Duration & rhs) const;
Duration & operator-=(const rclcpp::Duration & rhs);
/// Get the maximum representable value.
/**
* \return the maximum representable value
*/
static
Duration
max();
@@ -111,37 +87,19 @@ public:
Duration
operator*(double scale) const;
Duration &
operator*=(double scale);
/// Get duration in nanosecods
/**
* \return the duration in nanoseconds as a rcl_duration_value_t.
*/
rcl_duration_value_t
nanoseconds() const;
/// Get duration in seconds
/**
* \warning Depending on sizeof(double) there could be significant precision loss.
* When an exact time is required use nanoseconds() instead.
* \return the duration in seconds as a floating point number.
*/
/// \return the duration in seconds as a floating point number.
/// \warning Depending on sizeof(double) there could be significant precision loss.
/// When an exact time is required use nanoseconds() instead.
double
seconds() const;
/// Create a duration object from a floating point number representing seconds
// Create a duration object from a floating point number representing seconds
static Duration
from_seconds(double seconds);
/// Create a duration object from an integer number representing nanoseconds
static Duration
from_nanoseconds(rcl_duration_value_t nanoseconds);
static Duration
from_rmw_time(rmw_time_t duration);
/// Convert Duration into a std::chrono::Duration.
template<class DurationT>
DurationT
to_chrono() const
@@ -149,24 +107,13 @@ public:
return std::chrono::duration_cast<DurationT>(std::chrono::nanoseconds(this->nanoseconds()));
}
/// Convert Duration into rmw_time_t.
rmw_time_t
to_rmw_time() const;
private:
rcl_duration_t rcl_duration_;
Duration() = default;
};
RCLCPP_PUBLIC
builtin_interfaces::msg::Time
operator+(const builtin_interfaces::msg::Time & lhs, const rclcpp::Duration & rhs);
RCLCPP_PUBLIC
builtin_interfaces::msg::Time
operator-(const builtin_interfaces::msg::Time & lhs, const rclcpp::Duration & rhs);
} // namespace rclcpp
#endif // RCLCPP__DURATION_HPP_

70
rclcpp/include/rclcpp/dynamic_typesupport/dynamic_message.hpp
View File

@@ -1,70 +0,0 @@
// Copyright 2023 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__DYNAMIC_TYPESUPPORT__DYNAMIC_MESSAGE_HPP_
#define RCLCPP__DYNAMIC_TYPESUPPORT__DYNAMIC_MESSAGE_HPP_
#include <rcl/allocator.h>
#include <rcl/types.h>
#include <rosidl_dynamic_typesupport/types.h>
#include <memory>
#include <string>
#include "rclcpp/dynamic_typesupport/dynamic_message_type.hpp"
#include "rclcpp/dynamic_typesupport/dynamic_serialization_support.hpp"
#include "rclcpp/macros.hpp"
#include "rclcpp/visibility_control.hpp"
namespace rclcpp
{
namespace dynamic_typesupport
{
/// Utility wrapper class for rosidl_dynamic_typesupport_dynamic_data_t
/// STUBBED OUT
class DynamicMessage : public std::enable_shared_from_this<DynamicMessage>
{
public:
RCLCPP_SMART_PTR_ALIASES_ONLY(DynamicMessage)
RCLCPP_PUBLIC
virtual ~DynamicMessage();
protected:
// NOTE(methylDragon):
// This is just here to extend the lifetime of the serialization support
// It isn't actually used by the builder since the builder should compose its own support
//
// ... Though ideally it should be the exact same support as the one stored in the
// DynamicSerializationSupport
DynamicSerializationSupport::SharedPtr serialization_support_;
rosidl_dynamic_typesupport_dynamic_data_t rosidl_dynamic_data_;
bool is_loaned_;
// Used for returning the loaned value, and lifetime management
DynamicMessage::SharedPtr parent_data_;
private:
RCLCPP_DISABLE_COPY(DynamicMessage)
RCLCPP_PUBLIC
DynamicMessage();
};
} // namespace dynamic_typesupport
} // namespace rclcpp
#endif // RCLCPP__DYNAMIC_TYPESUPPORT__DYNAMIC_MESSAGE_HPP_

64
rclcpp/include/rclcpp/dynamic_typesupport/dynamic_message_type.hpp
View File

@@ -1,64 +0,0 @@
// Copyright 2023 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__DYNAMIC_TYPESUPPORT__DYNAMIC_MESSAGE_TYPE_HPP_
#define RCLCPP__DYNAMIC_TYPESUPPORT__DYNAMIC_MESSAGE_TYPE_HPP_
#include <rcl/allocator.h>
#include <rosidl_dynamic_typesupport/types.h>
#include <memory>
#include <string>
#include "rclcpp/dynamic_typesupport/dynamic_serialization_support.hpp"
#include "rclcpp/macros.hpp"
#include "rclcpp/visibility_control.hpp"
namespace rclcpp
{
namespace dynamic_typesupport
{
/// Utility wrapper class for `rosidl_dynamic_typesupport_dynamic_type_t`
/// STUBBED OUT
class DynamicMessageType : public std::enable_shared_from_this<DynamicMessageType>
{
public:
RCLCPP_SMART_PTR_ALIASES_ONLY(DynamicMessageType)
RCLCPP_PUBLIC
virtual ~DynamicMessageType();
protected:
// NOTE(methylDragon):
// This is just here to extend the lifetime of the serialization support
// It isn't actually used by the builder since the builder should compose its own support
//
// ... Though ideally it should be the exact same support as the one stored in the
// `DynamicSerializationSupport`
DynamicSerializationSupport::SharedPtr serialization_support_;
rosidl_dynamic_typesupport_dynamic_type_t rosidl_dynamic_type_;
private:
RCLCPP_DISABLE_COPY(DynamicMessageType)
RCLCPP_PUBLIC
DynamicMessageType();
};
} // namespace dynamic_typesupport
} // namespace rclcpp
#endif // RCLCPP__DYNAMIC_TYPESUPPORT__DYNAMIC_MESSAGE_TYPE_HPP_

65
rclcpp/include/rclcpp/dynamic_typesupport/dynamic_message_type_builder.hpp
View File

@@ -1,65 +0,0 @@
// Copyright 2023 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__DYNAMIC_TYPESUPPORT__DYNAMIC_MESSAGE_TYPE_BUILDER_HPP_
#define RCLCPP__DYNAMIC_TYPESUPPORT__DYNAMIC_MESSAGE_TYPE_BUILDER_HPP_
#include <rcl/allocator.h>
#include <rosidl_dynamic_typesupport/types.h>
#include <memory>
#include <string>
#include "rclcpp/dynamic_typesupport/dynamic_serialization_support.hpp"
#include "rclcpp/macros.hpp"
#include "rclcpp/visibility_control.hpp"
namespace rclcpp
{
namespace dynamic_typesupport
{
/// Utility wrapper class for `rosidl_dynamic_typesupport_dynamic_type_builder_t *`
/// STUBBED OUT
class DynamicMessageTypeBuilder : public std::enable_shared_from_this<DynamicMessageTypeBuilder>
{
public:
RCLCPP_SMART_PTR_ALIASES_ONLY(DynamicMessageTypeBuilder)
RCLCPP_PUBLIC
virtual ~DynamicMessageTypeBuilder();
protected:
// NOTE(methylDragon):
// This is just here to extend the lifetime of the serialization support
// It isn't actually used by the builder since the builder should compose its own support
//
// ... Though ideally it should be the exact same support as the one stored in the
// `DynamicSerializationSupport`
DynamicSerializationSupport::SharedPtr serialization_support_;
rosidl_dynamic_typesupport_dynamic_type_builder_t rosidl_dynamic_type_builder_;
private:
RCLCPP_DISABLE_COPY(DynamicMessageTypeBuilder)
RCLCPP_PUBLIC
DynamicMessageTypeBuilder();
};
} // namespace dynamic_typesupport
} // namespace rclcpp
#endif // RCLCPP__DYNAMIC_TYPESUPPORT__DYNAMIC_MESSAGE_TYPE_BUILDER_HPP_

67
rclcpp/include/rclcpp/dynamic_typesupport/dynamic_message_type_support.hpp
View File

@@ -1,67 +0,0 @@
// Copyright 2023 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__DYNAMIC_TYPESUPPORT__DYNAMIC_MESSAGE_TYPE_SUPPORT_HPP_
#define RCLCPP__DYNAMIC_TYPESUPPORT__DYNAMIC_MESSAGE_TYPE_SUPPORT_HPP_
#include <rcl/allocator.h>
#include <rosidl_dynamic_typesupport/dynamic_message_type_support_struct.h>
#include <rosidl_dynamic_typesupport/types.h>
#include <rosidl_runtime_c/message_type_support_struct.h>
#include <rosidl_runtime_c/type_description/type_description__struct.h>
#include <memory>
#include <string>
#include "rclcpp/dynamic_typesupport/dynamic_message.hpp"
#include "rclcpp/dynamic_typesupport/dynamic_message_type.hpp"
#include "rclcpp/dynamic_typesupport/dynamic_serialization_support.hpp"
#include "rclcpp/macros.hpp"
#include "rclcpp/visibility_control.hpp"
namespace rclcpp
{
namespace dynamic_typesupport
{
/// Utility wrapper class for `rosidl_message_type_support_t` containing managed
/// STUBBED OUT
class DynamicMessageTypeSupport : public std::enable_shared_from_this<DynamicMessageTypeSupport>
{
public:
RCLCPP_SMART_PTR_ALIASES_ONLY(DynamicMessageTypeSupport)
RCLCPP_PUBLIC
virtual ~DynamicMessageTypeSupport();
protected:
DynamicSerializationSupport::SharedPtr serialization_support_;
DynamicMessageType::SharedPtr dynamic_message_type_;
DynamicMessage::SharedPtr dynamic_message_;
rosidl_message_type_support_t rosidl_message_type_support_;
private:
RCLCPP_DISABLE_COPY(DynamicMessageTypeSupport)
RCLCPP_PUBLIC
DynamicMessageTypeSupport();
};
} // namespace dynamic_typesupport
} // namespace rclcpp
#endif // RCLCPP__DYNAMIC_TYPESUPPORT__DYNAMIC_MESSAGE_TYPE_SUPPORT_HPP_

60
rclcpp/include/rclcpp/dynamic_typesupport/dynamic_serialization_support.hpp
View File

@@ -1,60 +0,0 @@
// Copyright 2023 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__DYNAMIC_TYPESUPPORT__DYNAMIC_SERIALIZATION_SUPPORT_HPP_
#define RCLCPP__DYNAMIC_TYPESUPPORT__DYNAMIC_SERIALIZATION_SUPPORT_HPP_
#include <rcl/allocator.h>
#include <rosidl_dynamic_typesupport/api/serialization_support.h>
#include <rosidl_dynamic_typesupport/types.h>
#include <memory>
#include <string>
#include "rclcpp/macros.hpp"
#include "rclcpp/visibility_control.hpp"
namespace rclcpp
{
namespace dynamic_typesupport
{
/// Utility wrapper class for rosidl_dynamic_typesupport_serialization_support_t
class DynamicSerializationSupport : public std::enable_shared_from_this<DynamicSerializationSupport>
{
public:
RCLCPP_SMART_PTR_ALIASES_ONLY(DynamicSerializationSupport)
RCLCPP_PUBLIC
explicit DynamicSerializationSupport(rcl_allocator_t allocator = rcl_get_default_allocator());
RCLCPP_PUBLIC
DynamicSerializationSupport(
const std::string & serialization_library_name,
rcl_allocator_t allocator = rcl_get_default_allocator());
RCLCPP_PUBLIC
virtual ~DynamicSerializationSupport();
protected:
rosidl_dynamic_typesupport_serialization_support_t rosidl_serialization_support_;
private:
RCLCPP_DISABLE_COPY(DynamicSerializationSupport)
};
} // namespace dynamic_typesupport
} // namespace rclcpp
#endif // RCLCPP__DYNAMIC_TYPESUPPORT__DYNAMIC_SERIALIZATION_SUPPORT_HPP_

16
rclcpp/include/rclcpp/event.hpp
View File

@@ -29,33 +29,17 @@ class Event
public:
RCLCPP_SMART_PTR_DEFINITIONS_NOT_COPYABLE(Event)
/// Default construct
/**
* Set the default value to false
*/
RCLCPP_PUBLIC
Event();
/// Set the Event state value to true
/**
* \return The state value before the call.
*/
RCLCPP_PUBLIC
bool
set();
/// Get the state value of the Event
/**
* \return the Event state value
*/
RCLCPP_PUBLIC
bool
check();
/// Get the state value of the Event and set to false
/**
* \return the Event state value
*/
RCLCPP_PUBLIC
bool
check_and_clear();

376
rclcpp/include/rclcpp/event_handler.hpp
View File

@@ -1,376 +0,0 @@
// Copyright 2019 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__EVENT_HANDLER_HPP_
#define RCLCPP__EVENT_HANDLER_HPP_
#include <atomic>
#include <functional>
#include <memory>
#include <mutex>
#include <stdexcept>
#include <string>
#include <vector>
#include "rcl/error_handling.h"
#include "rcl/event_callback.h"
#include "rmw/impl/cpp/demangle.hpp"
#include "rmw/incompatible_qos_events_statuses.h"
#include "rmw/events_statuses/incompatible_type.h"
#include "rcutils/logging_macros.h"
#include "rclcpp/detail/cpp_callback_trampoline.hpp"
#include "rclcpp/exceptions.hpp"
#include "rclcpp/function_traits.hpp"
#include "rclcpp/logging.hpp"
#include "rclcpp/waitable.hpp"
namespace rclcpp
{
using QOSDeadlineRequestedInfo = rmw_requested_deadline_missed_status_t;
using QOSDeadlineOfferedInfo = rmw_offered_deadline_missed_status_t;
using QOSLivelinessChangedInfo = rmw_liveliness_changed_status_t;
using QOSLivelinessLostInfo = rmw_liveliness_lost_status_t;
using QOSMessageLostInfo = rmw_message_lost_status_t;
using QOSOfferedIncompatibleQoSInfo = rmw_offered_qos_incompatible_event_status_t;
using QOSRequestedIncompatibleQoSInfo = rmw_requested_qos_incompatible_event_status_t;
using IncompatibleTypeInfo = rmw_incompatible_type_status_t;
using MatchedInfo = rmw_matched_status_t;
using QOSDeadlineRequestedCallbackType = std::function<void (QOSDeadlineRequestedInfo &)>;
using QOSDeadlineOfferedCallbackType = std::function<void (QOSDeadlineOfferedInfo &)>;
using QOSLivelinessChangedCallbackType = std::function<void (QOSLivelinessChangedInfo &)>;
using QOSLivelinessLostCallbackType = std::function<void (QOSLivelinessLostInfo &)>;
using QOSMessageLostCallbackType = std::function<void (QOSMessageLostInfo &)>;
using QOSOfferedIncompatibleQoSCallbackType = std::function<void (QOSOfferedIncompatibleQoSInfo &)>;
using QOSRequestedIncompatibleQoSCallbackType =
std::function<void (QOSRequestedIncompatibleQoSInfo &)>;
using IncompatibleTypeCallbackType = std::function<void (IncompatibleTypeInfo &)>;
using PublisherMatchedCallbackType = std::function<void (MatchedInfo &)>;
using SubscriptionMatchedCallbackType = std::function<void (MatchedInfo &)>;
/// Contains callbacks for various types of events a Publisher can receive from the middleware.
struct PublisherEventCallbacks
{
QOSDeadlineOfferedCallbackType deadline_callback;
QOSLivelinessLostCallbackType liveliness_callback;
QOSOfferedIncompatibleQoSCallbackType incompatible_qos_callback;
IncompatibleTypeCallbackType incompatible_type_callback;
PublisherMatchedCallbackType matched_callback;
};
/// Contains callbacks for non-message events that a Subscription can receive from the middleware.
struct SubscriptionEventCallbacks
{
QOSDeadlineRequestedCallbackType deadline_callback;
QOSLivelinessChangedCallbackType liveliness_callback;
QOSRequestedIncompatibleQoSCallbackType incompatible_qos_callback;
QOSMessageLostCallbackType message_lost_callback;
IncompatibleTypeCallbackType incompatible_type_callback;
SubscriptionMatchedCallbackType matched_callback;
};
class UnsupportedEventTypeException : public exceptions::RCLErrorBase, public std::runtime_error
{
public:
RCLCPP_PUBLIC
UnsupportedEventTypeException(
rcl_ret_t ret,
const rcl_error_state_t * error_state,
const std::string & prefix);
RCLCPP_PUBLIC
UnsupportedEventTypeException(
const exceptions::RCLErrorBase & base_exc,
const std::string & prefix);
};
class EventHandlerBase : public Waitable
{
public:
enum class EntityType : std::size_t
{
Event,
};
RCLCPP_PUBLIC
virtual ~EventHandlerBase();
RCLCPP_PUBLIC
virtual
void enable() = 0;
RCLCPP_PUBLIC
virtual
void disable() = 0;
/// Get the number of ready events
RCLCPP_PUBLIC
size_t
get_number_of_ready_events() override;
/// Add the Waitable to a wait set.
RCLCPP_PUBLIC
void
add_to_wait_set(rcl_wait_set_t & wait_set) override;
/// Check if the Waitable is ready.
RCLCPP_PUBLIC
bool
is_ready(const rcl_wait_set_t & wait_set) override;
/// Set a callback to be called when each new event instance occurs.
/**
* The callback receives a size_t which is the number of events that occurred
* since the last time this callback was called.
* Normally this is 1, but can be > 1 if events occurred before any
* callback was set.
*
* The callback also receives an int identifier argument.
* This is needed because a Waitable may be composed of several distinct entities,
* such as subscriptions, services, etc.
* The application should provide a generic callback function that will be then
* forwarded by the waitable to all of its entities.
* Before forwarding, a different value for the identifier argument will be
* bond to the function.
* This implies that the provided callback can use the identifier to behave
* differently depending on which entity triggered the waitable to become ready.
*
* Since this callback is called from the middleware, you should aim to make
* it fast and not blocking.
* If you need to do a lot of work or wait for some other event, you should
* spin it off to another thread, otherwise you risk blocking the middleware.
*
* Calling it again will clear any previously set callback.
*
* An exception will be thrown if the callback is not callable.
*
* This function is thread-safe.
*
* If you want more information available in the callback, like the qos event
* or other information, you may use a lambda with captures or std::bind.
*
* \sa rmw_event_set_callback
* \sa rcl_event_set_callback
*
* \param[in] callback functor to be called when a new event occurs
*/
void
set_on_ready_callback(std::function<void(size_t, int)> callback) override
{
if (!callback) {
throw std::invalid_argument(
"The callback passed to set_on_ready_callback "
"is not callable.");
}
// Note: we bind the int identifier argument to this waitable's entity types
auto new_callback =
[callback, this](size_t number_of_events) {
try {
callback(number_of_events, static_cast<int>(EntityType::Event));
} catch (const std::exception & exception) {
RCLCPP_ERROR_STREAM(
// TODO(wjwwood): get this class access to the node logger it is associated with
rclcpp::get_logger("rclcpp"),
"rclcpp::EventHandlerBase@" << this <<
" caught " << rmw::impl::cpp::demangle(exception) <<
" exception in user-provided callback for the 'on ready' callback: " <<
exception.what());
} catch (...) {
RCLCPP_ERROR_STREAM(
rclcpp::get_logger("rclcpp"),
"rclcpp::EventHandlerBase@" << this <<
" caught unhandled exception in user-provided callback " <<
"for the 'on ready' callback");
}
};
std::lock_guard<std::recursive_mutex> lock(on_new_event_callback_mutex_);
// Set it temporarily to the new callback, while we replace the old one.
// This two-step setting, prevents a gap where the old std::function has
// been replaced but the middleware hasn't been told about the new one yet.
set_on_new_event_callback(
rclcpp::detail::cpp_callback_trampoline<decltype(new_callback), const void *, size_t>,
static_cast<const void *>(&new_callback));
// Store the std::function to keep it in scope, also overwrites the existing one.
on_new_event_callback_ = new_callback;
// Set it again, now using the permanent storage.
set_on_new_event_callback(
rclcpp::detail::cpp_callback_trampoline<
decltype(on_new_event_callback_), const void *, size_t>,
static_cast<const void *>(&on_new_event_callback_));
}
/// Unset the callback registered for new events, if any.
void
clear_on_ready_callback() override
{
std::lock_guard<std::recursive_mutex> lock(on_new_event_callback_mutex_);
if (on_new_event_callback_) {
set_on_new_event_callback(nullptr, nullptr);
on_new_event_callback_ = nullptr;
}
}
RCLCPP_PUBLIC
std::vector<std::shared_ptr<rclcpp::TimerBase>>
get_timers() const override
{
return {};
}
protected:
RCLCPP_PUBLIC
void
set_on_new_event_callback(rcl_event_callback_t callback, const void * user_data);
std::recursive_mutex on_new_event_callback_mutex_;
std::function<void(size_t)> on_new_event_callback_{nullptr};
rcl_event_t event_handle_;
size_t wait_set_event_index_;
};
template<typename EventCallbackT, typename ParentHandleT>
class EventHandler : public EventHandlerBase
{
public:
template<typename InitFuncT, typename EventTypeEnum>
EventHandler(
const EventCallbackT & callback,
InitFuncT init_func,
ParentHandleT parent_handle,
EventTypeEnum event_type)
: parent_handle_(parent_handle), event_callback_(callback)
{
event_handle_ = rcl_get_zero_initialized_event();
rcl_ret_t ret = init_func(&event_handle_, parent_handle.get(), event_type);
if (ret != RCL_RET_OK) {
if (ret == RCL_RET_UNSUPPORTED) {
UnsupportedEventTypeException exc(ret, rcl_get_error_state(), "Failed to initialize event");
rcl_reset_error();
throw exc;
} else {
rclcpp::exceptions::throw_from_rcl_error(ret, "Failed to initialize event");
}
}
}
~EventHandler()
{
// Since the rmw event listener holds a reference to the
// "on ready" callback, we need to clear it on destruction of this class.
// This clearing is not needed for other rclcpp entities like pub/subs, since
// they do own the underlying rmw entities, which are destroyed
// on their rclcpp destructors, thus no risk of dangling pointers.
clear_on_ready_callback();
}
/// Take data so that the callback cannot be scheduled again
std::shared_ptr<void>
take_data() override
{
EventCallbackInfoT callback_info;
rcl_ret_t ret = rcl_take_event(&event_handle_, &callback_info);
if (ret != RCL_RET_OK) {
RCUTILS_LOG_ERROR_NAMED(
"rclcpp",
"Couldn't take event info: %s", rcl_get_error_string().str);
rcl_reset_error();
return nullptr;
}
return std::static_pointer_cast<void>(std::make_shared<EventCallbackInfoT>(callback_info));
}
std::shared_ptr<void>
take_data_by_entity_id([[maybe_unused]] size_t id) override
{
return take_data();
}
/// Execute any entities of the Waitable that are ready.
void
execute(const std::shared_ptr<void> & data) override
{
std::unique_lock<std::mutex> event_callback_lock(event_callback_mutex_);
if (disabled_.load()) {
return;
}
if (!data) {
throw std::runtime_error("'data' is empty");
}
auto callback_ptr = std::static_pointer_cast<EventCallbackInfoT>(data);
event_callback_(*callback_ptr);
callback_ptr.reset();
}
/// Disable the event callback from being called when execute(..) invoked
/**
* This will also temporarily remove the on_new_event_callback from the underlying rmw layer,
* so that it is not called from the middleware while disabled.
*/
void disable() override
{
{
// Temporary remove the on_new_event_callback_ to prevent it from being called
std::lock_guard<std::recursive_mutex> on_new_event_lock(on_new_event_callback_mutex_);
if (on_new_event_callback_) {
set_on_new_event_callback(nullptr, nullptr);
}
}
std::lock_guard<std::mutex> event_callback_lock(event_callback_mutex_);
disabled_.store(true);
}
/// Enable the event callback to be called when execute(..) invoked
/**
* This will also set back the on_new_event_callback to the underlying rmw layer, if it was
* previously removed with disable().
*/
void enable() override
{
{
// Set callback again if it was previously removed in disable()
std::lock_guard<std::recursive_mutex> on_new_event_lock(on_new_event_callback_mutex_);
if (on_new_event_callback_) {
set_on_new_event_callback(
rclcpp::detail::cpp_callback_trampoline<
decltype(on_new_event_callback_), const void *, size_t>,
static_cast<const void *>(&on_new_event_callback_));
}
}
std::lock_guard<std::mutex> event_callback_lock(event_callback_mutex_);
disabled_.store(false);
}
private:
using EventCallbackInfoT = typename std::remove_reference<typename
rclcpp::function_traits::function_traits<EventCallbackT>::template argument_type<0>>::type;
ParentHandleT parent_handle_;
EventCallbackT event_callback_;
std::mutex event_callback_mutex_;
std::atomic_bool disabled_{false};
};
} // namespace rclcpp
#endif // RCLCPP__EVENT_HANDLER_HPP_

82
rclcpp/include/rclcpp/exceptions/exceptions.hpp
View File

@@ -100,26 +100,6 @@ public:
{}
};
class InvalidServiceTypeError : public std::runtime_error
{
public:
InvalidServiceTypeError()
: std::runtime_error("Service type is invalid.") {}
explicit InvalidServiceTypeError(const std::string & msg)
: std::runtime_error(msg) {}
};
class UnimplementedError : public std::runtime_error
{
public:
UnimplementedError()
: std::runtime_error("This code is unimplemented.") {}
explicit UnimplementedError(const std::string & msg)
: std::runtime_error(msg) {}
};
typedef void (* reset_error_function_t)();
/// Throw a C++ std::exception which was created based on an rcl error.
/**
* Passing nullptr for reset_error is safe and will avoid calling any function
@@ -140,7 +120,7 @@ throw_from_rcl_error [[noreturn]] (
rcl_ret_t ret,
const std::string & prefix = "",
const rcl_error_state_t * error_state = nullptr,
reset_error_function_t reset_error = rcl_reset_error);
void (* reset_error)() = rcl_reset_error);
/* *INDENT-ON* */
class RCLErrorBase
@@ -215,14 +195,6 @@ public:
const std::vector<std::string> unknown_ros_args;
};
/// Thrown when an unknown type is passed
class UnknownTypeError : public std::runtime_error
{
public:
explicit UnknownTypeError(const std::string & type)
: std::runtime_error("Unknown type: " + type) {}
};
/// Thrown when an invalid rclcpp::Event object or SharedPtr is encountered.
class InvalidEventError : public std::runtime_error
{
@@ -239,14 +211,6 @@ public:
: std::runtime_error("event already registered") {}
};
/// Thrown when a callback group is missing from the node, when it wants to utilize the group.
class MissingGroupNodeException : public std::runtime_error
{
public:
explicit MissingGroupNodeException(const std::string & obj_type)
: std::runtime_error("cannot create: " + obj_type + " , callback group not in node") {}
};
/// Thrown if passed parameters are inconsistent or invalid
class InvalidParametersException : public std::runtime_error
{
@@ -281,23 +245,6 @@ public:
{}
};
/// Thrown if user attempts to create an uninitialized statically typed parameter
/**
* (see https://github.com/ros2/rclcpp/issues/1691)
*/
class UninitializedStaticallyTypedParameterException : public std::runtime_error
{
public:
/// Construct an instance.
/**
* \param[in] name the name of the parameter.
*/
RCLCPP_PUBLIC
explicit UninitializedStaticallyTypedParameterException(const std::string & name)
: std::runtime_error("Statically typed parameter '" + name + "' must be initialized.")
{}
};
/// Thrown if parameter is already declared.
class ParameterAlreadyDeclaredException : public std::runtime_error
{
@@ -326,33 +273,6 @@ class ParameterModifiedInCallbackException : public std::runtime_error
using std::runtime_error::runtime_error;
};
/// Thrown when an uninitialized parameter is accessed.
class ParameterUninitializedException : public std::runtime_error
{
public:
/// Construct an instance.
/**
* \param[in] name the name of the parameter.
*/
explicit ParameterUninitializedException(const std::string & name)
: std::runtime_error("parameter '" + name + "' is not initialized")
{}
};
/// Thrown if the QoS overrides provided aren't valid.
class InvalidQosOverridesException : public std::runtime_error
{
// Inherit constructors from runtime_error.
using std::runtime_error::runtime_error;
};
/// Thrown if a QoS compatibility check fails.
class QoSCheckCompatibleException : public std::runtime_error
{
// Inherit constructors from runtime_error.
using std::runtime_error::runtime_error;
};
} // namespace exceptions
} // namespace rclcpp

813
rclcpp/include/rclcpp/executor.hpp
View File

@@ -21,7 +21,6 @@
#include <cstdlib>
#include <iostream>
#include <list>
#include <map>
#include <memory>
#include <mutex>
#include <string>
@@ -29,16 +28,14 @@
#include "rcl/guard_condition.h"
#include "rcl/wait.h"
#include "rclcpp/executors/executor_notify_waitable.hpp"
#include "rcpputils/scope_exit.hpp"
#include "rclcpp/context.hpp"
#include "rclcpp/contexts/default_context.hpp"
#include "rclcpp/guard_condition.hpp"
#include "rclcpp/callback_group.hpp"
#include "rclcpp/executor_options.hpp"
#include "rclcpp/executors/executor_entities_collection.hpp"
#include "rclcpp/executors/executor_entities_collector.hpp"
#include "rclcpp/executor_policies/timer_favoring_priority_queue.hpp"
#include "rclcpp/future_return_code.hpp"
#include "rclcpp/guard_condition.hpp"
#include "rclcpp/memory_strategies.hpp"
#include "rclcpp/memory_strategy.hpp"
#include "rclcpp/node_interfaces/node_base_interface.hpp"
#include "rclcpp/utilities.hpp"
#include "rclcpp/visibility_control.hpp"
@@ -47,209 +44,231 @@
namespace rclcpp
{
// Forward declaration is used in convenience method signature.
class Node;
class ExecutorImplementation;
/// Coordinate the order and timing of available communication tasks.
/**
* Executor provides spin functions (including spin_node_once and spin_some).
* It coordinates the nodes and callback groups by looking for available work and completing it,
* based on the threading or concurrency scheme provided by the subclass implementation.
* An example of available work is executing a subscription callback, or a timer callback.
* The executor structure allows for a decoupling of the communication graph and the execution
* model.
* See SingleThreadedExecutor and MultiThreadedExecutor for examples of execution paradigms.
*/
class Executor
/// Base class for Executor providing the common interface for adding items, spinning, etc.
class ExecutorBase
{
public:
RCLCPP_SMART_PTR_DEFINITIONS_NOT_COPYABLE(Executor)
RCLCPP_SMART_PTR_DEFINITIONS_NOT_COPYABLE(ExecutorBase)
/// Default constructor.
/**
* \param[in] options Options used to configure the executor.
* \param[in] options Options for the executor.
*/
RCLCPP_PUBLIC
explicit Executor(const rclcpp::ExecutorOptions & options = rclcpp::ExecutorOptions());
explicit ExecutorBase(const ExecutorOptions & options = ExecutorOptions());
/// Default destructor.
RCLCPP_PUBLIC
virtual ~Executor();
virtual ~ExecutorBase();
/// Do work periodically as it becomes available to us. Blocking call, may block indefinitely.
// It is up to the implementation of Executor to implement spin.
virtual void
/// Execution loop which waits for work, executes work, and repeats until canceled.
/**
* This will block, continuing to wait for work and then execute it, until
* canceled, either by the cancel() method or by the associated context being
* shutdown, either explicitly or due to a SIGINT (perhaps due to ctrl-c).
*/
virtual
void
spin() = 0;
/// Add a callback group to an executor.
/// Add all of a node's callback groups to the executor.
/**
* An executor can have zero or more callback groups which provide work during `spin` functions.
* When an executor attempts to add a callback group, the executor checks to see if it is already
* associated with another executor, and if it has been, then an exception is thrown.
* Otherwise, the callback group is added to the executor.
* Add all of the callback groups of a node to this executor.
*
* Adding a callback group with this method does not associate its node with this executor
* in any way
* If any callback groups are associated with another executor, this method
* will throw a std::runtime_error.
*
* \param[in] group_ptr a shared ptr that points to a callback group
* \param[in] node_ptr a shared pointer that points to a node base interface
* \param[in] notify True to trigger the interrupt guard condition during this function. If
* the executor is blocked at the rmw layer while waiting for work and it is notified that a new
* callback group was added, it will wake up.
* \throw std::runtime_error if the callback group is associated to an executor
* It will also trigger the interrupt guard condition which will cause the
* executor to wake up and consider the changes, then go back to waiting.
* Unless the notify parameter is passed false, in which case it will not
* interrupt the executor, and the changes may not be considered immediately.
*
* \param[in] node_ptr Shared pointer to the node which will have callback groups added.
* \param[in] notify If true, notfiy the executor of changes, otherwise do not.
* \throws std::runtime_error if any callback groups are associated with another executor.
*/
RCLCPP_PUBLIC
virtual void
add_callback_group(
const rclcpp::CallbackGroup::SharedPtr & group_ptr,
const rclcpp::node_interfaces::NodeBaseInterface::SharedPtr & node_ptr,
bool notify = true);
template<class NodeT>
void
add_node(const std::shared_ptr<NodeT> & node_ptr, bool notify = true)
{
this->add_node(
node_ptr->get_node_base_interface(),
notify,
false // raise on encountering already associated callback groups
);
}
/// Get callback groups that belong to executor.
/**
* This function returns a vector of weak pointers that point to callback groups that were
* associated with the executor.
* The callback groups associated with this executor may have been added with
* `add_callback_group`, or added when a node was added to the executor with `add_node`, or
* automatically added when it created by a node already associated with this executor and the
* automatically_add_to_executor_with_node parameter was true.
*
* \return a vector of weak pointers that point to callback groups that are associated with
* the executor
*/
RCLCPP_PUBLIC
virtual std::vector<rclcpp::CallbackGroup::WeakPtr>
get_all_callback_groups();
/// Get callback groups that belong to executor.
/**
* This function returns a vector of weak pointers that point to callback groups that were
* associated with the executor.
* The callback groups associated with this executor have been added with
* `add_callback_group`.
*
* \return a vector of weak pointers that point to callback groups that are associated with
* the executor
*/
RCLCPP_PUBLIC
virtual std::vector<rclcpp::CallbackGroup::WeakPtr>
get_manually_added_callback_groups();
/// Get callback groups that belong to executor.
/**
* This function returns a vector of weak pointers that point to callback groups that were
* added from a node that is associated with the executor.
* The callback groups are added when a node is added to the executor with `add_node`, or
* automatically if they are created in the future by that node and have the
* automatically_add_to_executor_with_node argument set to true.
*
* \return a vector of weak pointers that point to callback groups from a node associated with
* the executor
*/
RCLCPP_PUBLIC
virtual std::vector<rclcpp::CallbackGroup::WeakPtr>
get_automatically_added_callback_groups_from_nodes();
/// Remove a callback group from the executor.
/**
* The callback group is removed from and disassociated with the executor.
* If the callback group removed was the last callback group from the node
* that is associated with the executor, the interrupt guard condition
* is triggered and node's guard condition is removed from the executor.
*
* This function only removes a callback group that was manually added with
* rclcpp::Executor::add_callback_group.
* To remove callback groups that were added from a node using
* rclcpp::Executor::add_node, use rclcpp::Executor::remove_node instead.
*
* \param[in] group_ptr Shared pointer to the callback group to be added.
* \param[in] notify True to trigger the interrupt guard condition during this function. If
* the executor is blocked at the rmw layer while waiting for work and it is notified that a
* callback group was removed, it will wake up.
* \throw std::runtime_error if node is deleted before callback group
* \throw std::runtime_error if the callback group is not associated with the executor
*/
RCLCPP_PUBLIC
virtual void
remove_callback_group(
const rclcpp::CallbackGroup::SharedPtr & group_ptr,
bool notify = true);
/// Add a node to the executor.
/**
* Nodes have associated callback groups, and this method adds any of those callback groups
* to this executor which have their automatically_add_to_executor_with_node parameter true.
* The node is also associated with the executor so that future callback groups which are
* created on the node with the automatically_add_to_executor_with_node parameter set to true
* are also automatically associated with this executor.
*
* Callback groups with the automatically_add_to_executor_with_node parameter set to false must
* be manually added to an executor using the rclcpp::Executor::add_callback_group method.
*
* If a node is already associated with an executor, this method throws an exception.
*
* \param[in] node_ptr Shared pointer to the node to be added.
* \param[in] notify True to trigger the interrupt guard condition during this function. If
* the executor is blocked at the rmw layer while waiting for work and it is notified that a new
* node was added, it will wake up.
* \throw std::runtime_error if a node is already associated to an executor
*/
RCLCPP_PUBLIC
virtual void
/// Overload that takes the NodeBaseInterface directly.
template<class NodeT>
void
add_node(
const rclcpp::node_interfaces::NodeBaseInterface::SharedPtr & node_ptr,
bool notify = true);
bool notify = true)
{
this->add_node(
node_ptr,
notify,
false // raise on encountering already associated callback groups
);
}
/// Convenience function which takes Node and forwards NodeBaseInterface.
/// Add all unassociated callback groups of the given node to this executor.
/**
* \see rclcpp::Executor::add_node
* Same as add_node(), but instead of throwing if a callback group is already
* associated with another exector (already added to it) it will just ignore
* it rather than throwing.
*
* \param[in] node_ptr Shared pointer to the node which will have callback groups added.
* \param[in] notify If true, notfiy the executor of changes, otherwise do not.
*/
RCLCPP_PUBLIC
virtual void
add_node(const std::shared_ptr<rclcpp::Node> & node_ptr, bool notify = true);
template<class NodeT>
void
add_unassociated_callback_groups_from_node(
const std::shared_ptr<NodeT> & node_ptr,
bool notify = true)
{
this->add_node(
node_ptr->get_node_base_interface(),
notify,
true // ignore already associated callback groups
);
}
/// Remove a node from the executor.
/**
* Any callback groups automatically added when this node was added with
* rclcpp::Executor::add_node are automatically removed, and the node is no longer associated
* with this executor.
*
* This also means that future callback groups created by the given node are no longer
* automatically added to this executor.
*
* \param[in] node_ptr Shared pointer to the node to remove.
* \param[in] notify True to trigger the interrupt guard condition and wake up the executor.
* This is useful if the last node was removed from the executor while the executor was blocked
* waiting for work in another thread, because otherwise the executor would never be notified.
* \throw std::runtime_error if the node is not associated with an executor.
* \throw std::runtime_error if the node is not associated with this executor.
*/
RCLCPP_PUBLIC
virtual void
remove_node(
/// Overload that takes the NodeBaseInterface directly.
template<class NodeT>
void
add_unassociated_callback_groups_from_node(
const rclcpp::node_interfaces::NodeBaseInterface::SharedPtr & node_ptr,
bool notify = true);
bool notify = true)
{
this->add_node(
node_ptr,
notify,
true // ignore already associated callback groups
);
}
/// Convenience function which takes Node and forwards NodeBaseInterface.
/// Remove all of a node's callback groups from the executor.
/**
* \see rclcpp::Executor::remove_node
* Remove all of the callback groups of a node from this executor.
*
* It will also trigger the interrupt guard condition which will cause the
* executor to wake up and consider the changes, then go back to waiting.
* Unless the notify parameter is passed false, in which case it will not
* interrupt the executor, and the changes may not be considered immediately.
*
* \param[in] node Node which will have callback groups removed.
* \param[in] notify If true, notfiy the executor of changes, otherwise do not.
*/
template<class NodeT>
void
remove_node(const NodeT & node, bool notify = true)
{
this->remove_node(*node.get_node_base_interface(), notify);
}
/// Overload that takes a shared pointer to the node.
/**
* This is kept for backwards compatibility from when executors shared
* ownership of Nodes.
*/
template<class NodeT>
void
remove_node(const std::shared_ptr<NodeT> & node_ptr, bool notify = true)
{
this->remove_node(*node_ptr->get_node_base_interface(), notify);
}
/// Placeholder used to indicate that a method overload should not notify the executor.
struct DoNotNotify {};
/// Add a callback group to this executor.
/**
* If the given callback group is already associated with another executor,
* this method will throw a std::runtime_error.
*
* This overload of add_callback_group() will notify the executor so it will
* wake up if waiting and consider the changes.
*
* Weak ownership of the callback group is kept by the executor all of the
* time, but while waiting the weak ownership is periodically elevated to
* shared ownership.
* Therefore, if you let the callback group shared pointer go out of scope
* then it will stay in scope until this executor is done using it, at which
* point the callback group will be destructed and automatically removed from
* this executor in the next pass.
*
* \param[in] callback_group_ptr The callback group to be added.
* \throws std::runtime_error if the callback group is associated with another
* executor already.
* \throws std::invalid_argument if the callback group pointer is nullptr.
*/
RCLCPP_PUBLIC
virtual void
remove_node(const std::shared_ptr<rclcpp::Node> & node_ptr, bool notify = true);
virtual
void
add_callback_group(rclcpp::CallbackGroup::SharedPtr callback_group_ptr) = 0;
/// Add a callback group to this executor without notifying the executor.
/**
* The same as the other overload of add_callback_group(), except it does not
* notify the executor, so it will not wake up and these changes may not be
* considered immediately.
*
* Note, a bool with a default value would be preferable for controlling the
* notify behavior, and we're using it in the add/remove node above, but
* in order to keep this function virtual, and to avoid using default values
* in conjunction with virtual methods, we use an overload instead, in the
* spirit of std::nothrow_t, e.g.:
* https://en.cppreference.com/w/cpp/memory/new/nothrow
*/
RCLCPP_PUBLIC
virtual
void
add_callback_group(rclcpp::CallbackGroup::SharedPtr callback_group_ptr, DoNotNotify) = 0;
/// Remove a callback group from this executor.
/**
* If the given callback group is not associated with this executor, this
* method will throw a std::runtime_error.
*
* This overload of add_callback_group() will notify the executor so it will
* wake up if waiting and consider the changes.
*
* \param[in] callback_group The callback group to be removed.
* \throws std::runtime_error if the callback group is not associated with
* this executor.
* \throws std::invalid_argument if the callback group pointer is nullptr.
*/
RCLCPP_PUBLIC
virtual
void
remove_callback_group(const rclcpp::CallbackGroup & callback_group) = 0;
/// Remove a callback group from this executor without notifying the executor.
/**
* The same as the other overload of remove_callback_group(), except it does not
* notify the executor, so it will not wake up and these changes may not be
* considered immediately.
*
* See add_callback_group() for a note about the use of DoNotNotify.
*/
RCLCPP_PUBLIC
virtual
void
remove_callback_group(const rclcpp::CallbackGroup & callback_group, DoNotNotify) = 0;
/// Add a node to executor, execute the next available unit of work, and remove the node.
/**
* \param[in] node Shared pointer to the node to add.
* \param[in] timeout How long to wait for work to become available. Negative values cause
* spin_node_once to block indefinitely (the default behavior). A timeout of 0 causes this
* function to be non-blocking.
* \param[in] timeout How long to wait for work to become available.
* Negative values cause spin_node_once to block indefinitely (the default
* behavior).
* A timeout of 0 causes this function to be non-blocking.
*/
template<typename RepT = int64_t, typename T = std::milli>
void
spin_node_once(
const rclcpp::node_interfaces::NodeBaseInterface::SharedPtr & node,
rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node,
std::chrono::duration<RepT, T> timeout = std::chrono::duration<RepT, T>(-1))
{
return spin_node_once_nanoseconds(
@@ -259,10 +278,10 @@ public:
}
/// Convenience function which takes Node and forwards NodeBaseInterface.
template<typename NodeT = rclcpp::Node, typename RepT = int64_t, typename T = std::milli>
template<typename NodeT, typename RepT = int64_t, typename T = std::milli>
void
spin_node_once(
const std::shared_ptr<NodeT> & node,
std::shared_ptr<NodeT> node,
std::chrono::duration<RepT, T> timeout = std::chrono::duration<RepT, T>(-1))
{
return spin_node_once_nanoseconds(
@@ -273,98 +292,35 @@ public:
/// Add a node, complete all immediately available work, and remove the node.
/**
* \param[in] node Shared pointer to the node to add.
* \param[in] node Shared pointer to the node to spin some.
*/
RCLCPP_PUBLIC
virtual void
spin_node_some(const rclcpp::node_interfaces::NodeBaseInterface::SharedPtr & node);
template<class NodeT>
void
spin_node_some(const std::shared_ptr<NodeT> & node)
{
this->spin_node_some(node->get_node_base_interface());
}
/// Convenience function which takes Node and forwards NodeBaseInterface.
RCLCPP_PUBLIC
virtual void
spin_node_some(const std::shared_ptr<rclcpp::Node> & node);
/// Collect work once and execute all available work, optionally within a max duration.
/**
* This function can be overridden.
* The default implementation is suitable for a single-threaded model of execution.
* Adding subscriptions, timers, services, etc. with blocking or long running
* callbacks may cause the function exceed the max_duration significantly.
*
* Work that is ready to be done is collected only once, and when collecting that work
* entities which may have multiple pieces of work ready will only be executed at most
* one time.
* The reason for this is that it is not possible to tell if, for example, a ready
* subscription has only one message ready or multiple without checking again.
* Because, in order to find out if there are multiple messages, one message must
* be taken and executed before checking again if that subscription is still ready.
* However, this function only checks for ready entities to work on once,
* and so it will never execute a single entity more than once per call to this function.
* See spin_all() variants for a function that will repeatedly work on a single entity
* in a single call.
*
* If there is no work to be done when this called, it will return immediately
* because the collecting of available work is non-blocking.
* Before each piece of ready work is executed this function checks if the
* max_duration has been exceeded, and if it has it returns without starting
* the execution of the next piece of work.
*
* If a max_duration of 0 is given, then all of the collected work will be
* executed before the function returns.
*
* \param[in] max_duration The maximum amount of time to spend executing work, or 0 for no limit.
*/
RCLCPP_PUBLIC
virtual void
spin_some(std::chrono::nanoseconds max_duration = std::chrono::nanoseconds(0));
/// Add a node, complete all immediately available work exhaustively, and remove the node.
/**
* \param[in] node Shared pointer to the node to add.
*/
RCLCPP_PUBLIC
virtual void
spin_node_all(
const rclcpp::node_interfaces::NodeBaseInterface::SharedPtr & node,
std::chrono::nanoseconds max_duration);
/// Convenience function which takes Node and forwards NodeBaseInterface.
RCLCPP_PUBLIC
virtual void
spin_node_all(const std::shared_ptr<rclcpp::Node> & node, std::chrono::nanoseconds max_duration);
/// Collect and execute work repeatedly within a duration or until no more work is available.
/// Complete all available queued work without blocking.
/**
* This function can be overridden. The default implementation is suitable for a
* single-threaded model of execution.
* Adding subscriptions, timers, services, etc. with blocking callbacks will cause this function
* to block (which may have unintended consequences).
* If the time that waitables take to be executed is longer than the period on which new waitables
* become ready, this method will execute work repeatedly until `max_duration` has elapsed.
*
* \param[in] max_duration The maximum amount of time to spend executing work, must be >= 0.
* `0` is potentially block forever until no more work is available.
* \throw std::invalid_argument if max_duration is less than 0.
* Note that spin_all() may take longer than this time as it only returns once max_duration has
* \param[in] max_duration The maximum amount of time to spend executing work, or 0 for no limit.
* Note that spin_some() may take longer than this time as it only returns once max_duration has
* been exceeded.
*/
RCLCPP_PUBLIC
virtual void
spin_all(std::chrono::nanoseconds max_duration);
virtual
void
spin_some(std::chrono::nanoseconds max_duration = std::chrono::nanoseconds(0)) = 0;
/// Collect work once and execute the next available work, optionally within a duration.
/**
* This function can be overridden. The default implementation is suitable for
* a single-thread model of execution.
* Adding subscriptions, timers, services, etc. with blocking callbacks will cause this function
* to block (which may have unintended consequences).
* \param[in] timeout The maximum amount of time to spend waiting for work.
* `-1` is potentially block forever waiting for work.
*/
RCLCPP_PUBLIC
virtual void
spin_once(std::chrono::nanoseconds timeout = std::chrono::nanoseconds(-1));
virtual
void
spin_once(std::chrono::nanoseconds timeout = std::chrono::nanoseconds(-1)) = 0;
/// Spin (blocking) until the future is complete, it times out waiting, or rclcpp is interrupted.
/**
@@ -375,248 +331,235 @@ public:
* If the time spent inside the blocking loop exceeds this timeout, return a TIMEOUT return
* code.
* \return The return code, one of `SUCCESS`, `INTERRUPTED`, or `TIMEOUT`.
* \note This method will check the future and the timeout only when the executor is woken up.
* If this future is unrelated to an executor's entity, this method will not correctly detect
* when it's completed and therefore may wait forever and never time out.
*/
template<typename FutureT, typename TimeRepT = int64_t, typename TimeT = std::milli>
template<typename ResponseT, typename TimeRepT = int64_t, typename TimeT = std::milli>
FutureReturnCode
spin_until_future_complete(
const FutureT & future,
const std::shared_future<ResponseT> & future,
std::chrono::duration<TimeRepT, TimeT> timeout = std::chrono::duration<TimeRepT, TimeT>(-1))
{
return spin_until_future_complete_impl(
std::chrono::duration_cast<std::chrono::nanoseconds>(timeout),
[&future](std::chrono::nanoseconds wait_time) {
return future.wait_for(wait_time);
// TODO(wjwwood): does not work recursively; can't call spin_node_until_future_complete
// inside a callback executed by an executor.
// Check the future before entering the while loop.
// If the future is already complete, don't try to spin.
std::future_status status = future.wait_for(std::chrono::seconds(0));
if (status == std::future_status::ready) {
return FutureReturnCode::SUCCESS;
}
auto end_time = std::chrono::steady_clock::now();
std::chrono::nanoseconds timeout_ns = std::chrono::duration_cast<std::chrono::nanoseconds>(
timeout);
if (timeout_ns > std::chrono::nanoseconds::zero()) {
end_time += timeout_ns;
}
std::chrono::nanoseconds timeout_left = timeout_ns;
while (rclcpp::ok(this->context_)) {
// Do one item of work.
spin_once(timeout_left);
// Check if the future is set, return SUCCESS if it is.
status = future.wait_for(std::chrono::seconds(0));
if (status == std::future_status::ready) {
return FutureReturnCode::SUCCESS;
}
);
// If the original timeout is < 0, then this is blocking, never TIMEOUT.
if (timeout_ns < std::chrono::nanoseconds::zero()) {
continue;
}
// Otherwise check if we still have time to wait, return TIMEOUT if not.
auto now = std::chrono::steady_clock::now();
if (now >= end_time) {
return FutureReturnCode::TIMEOUT;
}
// Subtract the elapsed time from the original timeout.
timeout_left = std::chrono::duration_cast<std::chrono::nanoseconds>(end_time - now);
}
// The future did not complete before ok() returned false, return INTERRUPTED.
return FutureReturnCode::INTERRUPTED;
}
/// Cancel any running spin* function, causing it to return.
/**
* This function can be called asynchonously from any thread.
* \throws std::runtime_error if there is an issue triggering the guard condition
*/
RCLCPP_PUBLIC
virtual void
cancel();
/// Returns true if the executor is currently spinning.
/**
* This function can be called asynchronously from any thread.
* \return True if the executor is currently spinning.
*/
RCLCPP_PUBLIC
bool
is_spinning();
virtual
void
cancel() = 0;
protected:
/// Constructor that will not initialize any non-trivial members.
/// Implementation of add_node().
/**
* This constructor is intended to be used by any derived executor
* that explicitly does not want to use the default implementation provided
* by this class.
*/
explicit Executor(const std::shared_ptr<rclcpp::Context> & context);
/// Add a node to executor, execute the next available unit of work, and remove the node.
/**
* Implementation of spin_node_once using std::chrono::nanoseconds
* \param[in] node Shared pointer to the node to add.
* \param[in] timeout How long to wait for work to become available. Negative values cause
* spin_node_once to block indefinitely (the default behavior). A timeout of 0 causes this
* function to be non-blocking.
* \param[in] node_ptr The node which will have its callback groups added.
* \param[in] notify If true, the executor is interrupted to consider the
* changes, otherwise it is not interrupted.
* \param[in] ignore_associated_callback_groups If true, then when a callback
* group which is already been added to another executor is encountered
* it will be ignored, if false then std::runtime_error is thrown instead.
* \throws std::runtime_error if ignore_associated_callback_groups is false
* and a callback group which is already associated with another executor
* is encountered.
* \throws std::invalid_argument if node_ptr is nullptr.
*/
RCLCPP_PUBLIC
virtual
void
add_node(
rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_ptr,
bool notify,
bool ignore_associated_callback_groups) = 0;
RCLCPP_PUBLIC
virtual
void
remove_node(rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_ptr, bool notify) = 0;
RCLCPP_PUBLIC
void
spin_node_once_nanoseconds(
const rclcpp::node_interfaces::NodeBaseInterface::SharedPtr & node,
rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node,
std::chrono::nanoseconds timeout);
/// Spin (blocking) until the future is complete, it times out waiting, or rclcpp is interrupted.
/**
* \sa spin_until_future_complete()
* The only difference with spin_until_future_complete() is that the future's
* type is obscured through a std::function which lets you wait on it
* reguardless of type.
*
* \param[in] timeout see spin_until_future_complete() for details
* \param[in] wait_for_future function to wait on the future and get the
* status after waiting
*/
RCLCPP_PUBLIC
virtual FutureReturnCode
spin_until_future_complete_impl(
std::chrono::nanoseconds timeout,
const std::function<std::future_status(std::chrono::nanoseconds wait_time)> & wait_for_future);
/// Collect work and execute available work, optionally within a duration.
/**
* Implementation of spin_some and spin_all.
* The exhaustive flag controls if the function will re-collect available work within the duration.
*
* \param[in] max_duration The maximum amount of time to spend executing work, or 0 for no limit.
* \param[in] exhaustive when set to true, continue to collect work and execute (spin_all)
* when set to false, return when all collected work is executed (spin_some)
*/
RCLCPP_PUBLIC
virtual
void
spin_some_impl(std::chrono::nanoseconds max_duration, bool exhaustive);
spin_node_some(rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node);
/// Find the next available executable and do the work associated with it.
/**
* \param[in] any_exec Union structure that can hold any executable type (timer, subscription,
/** \param[in] any_exec Union structure that can hold any executable type (timer, subscription,
* service, client).
* \throws std::runtime_error if there is an issue triggering the guard condition
*/
RCLCPP_PUBLIC
void
execute_any_executable(AnyExecutable & any_exec);
execute_any_executable(rclcpp::AnyExecutable & any_exec);
/// Run subscription executable.
/**
* Do necessary setup and tear-down as well as executing the subscription.
* \param[in] subscription Subscription to execute
*/
RCLCPP_PUBLIC
static void
static
void
execute_subscription(
const rclcpp::SubscriptionBase::SharedPtr & subscription);
rclcpp::SubscriptionBase::SharedPtr subscription);
/// Run timer executable.
/**
* Do necessary setup and tear-down as well as executing the timer callback.
* \param[in] timer Timer to execute
*/
RCLCPP_PUBLIC
static void
execute_timer(const rclcpp::TimerBase::SharedPtr & timer, const std::shared_ptr<void> & data_ptr);
/// Run service server executable.
/**
* Do necessary setup and tear-down as well as executing the service server callback.
* \param[in] service Service to execute
*/
RCLCPP_PUBLIC
static void
execute_service(const rclcpp::ServiceBase::SharedPtr & service);
/// Run service client executable.
/**
* Do necessary setup and tear-down as well as executing the service client callback.
* \param[in] service Service to execute
*/
RCLCPP_PUBLIC
static void
execute_client(const rclcpp::ClientBase::SharedPtr & client);
/// Gather all of the waitable entities from associated nodes and callback groups.
RCLCPP_PUBLIC
static
void
collect_entities();
execute_timer(rclcpp::TimerBase::SharedPtr timer);
RCLCPP_PUBLIC
static
void
execute_service(rclcpp::ServiceBase::SharedPtr service);
RCLCPP_PUBLIC
static
void
execute_client(rclcpp::ClientBase::SharedPtr client);
/// Block until more work becomes avilable or timeout is reached.
/**
* Builds a set of waitable entities, which are passed to the middleware.
* After building wait set, waits on middleware to notify.
* \param[in] timeout duration to wait for new work to become available.
* \throws std::runtime_error if the wait set can be cleared
*/
RCLCPP_PUBLIC
void
wait_for_work(std::chrono::nanoseconds timeout = std::chrono::nanoseconds(-1));
/// Check for executable in ready state and populate union structure.
/**
* \param[out] any_executable populated union structure of ready executable
* \return true if an executable was ready and any_executable was populated,
* otherwise false
*/
RCLCPP_PUBLIC
rclcpp::CallbackGroup::SharedPtr
get_group_by_timer(rclcpp::TimerBase::SharedPtr timer);
RCLCPP_PUBLIC
bool
get_next_ready_executable(AnyExecutable & any_executable);
get_next_ready_executable(rclcpp::AnyExecutable & any_executable);
/// Wait for executable in ready state and populate union structure.
/**
* If an executable is ready, it will return immediately, otherwise
* block based on the timeout for work to become ready.
*
* \param[out] any_executable populated union structure of ready executable
* \param[in] timeout duration of time to wait for work, a negative value
* (the defualt behavior), will make this function block indefinitely
* \return true if an executable was ready and any_executable was populated,
* otherwise false
*/
RCLCPP_PUBLIC
bool
get_next_executable(
AnyExecutable & any_executable,
rclcpp::AnyExecutable & any_executable,
std::chrono::nanoseconds timeout = std::chrono::nanoseconds(-1));
/// This function triggers a recollect of all entities that are registered to the executor.
/**
* Calling this function is thread safe.
*
* \param[in] notify if true will execute a trigger that will wake up a waiting executor
*/
RCLCPP_PUBLIC
virtual void
handle_updated_entities(bool notify);
RCLCPP_DISABLE_COPY(ExecutorBase)
/// Spinning state, used to prevent multi threaded calls to spin and to cancel blocking spins.
std::atomic_bool spinning;
/// Guard condition for signaling the rmw layer to wake up for special events.
std::shared_ptr<rclcpp::GuardCondition> interrupt_guard_condition_;
rclcpp::GuardCondition interrupt_guard_condition_;
// rcl_guard_condition_t interrupt_guard_condition_ = rcl_get_zero_initialized_guard_condition();
/// Guard condition for signaling the rmw layer to wake up for system shutdown.
std::shared_ptr<rclcpp::GuardCondition> shutdown_guard_condition_;
// /// Wait set for managing entities that the rmw layer waits on.
// rcl_wait_set_t wait_set_ = rcl_get_zero_initialized_wait_set();
mutable std::mutex mutex_;
// // Mutex to protect the subsequent memory_strategy_.
// std::mutex memory_strategy_mutex_;
// /// The memory strategy: an interface for handling user-defined memory allocation strategies.
// memory_strategy::MemoryStrategy::SharedPtr memory_strategy_;
/// The context associated with this executor.
std::shared_ptr<rclcpp::Context> context_;
rclcpp::Context::SharedPtr context_;
RCLCPP_DISABLE_COPY(Executor)
// std::list<rclcpp::node_interfaces::NodeBaseInterface::WeakPtr> weak_nodes_;
// std::list<const rcl_guard_condition_t *> guard_conditions_;
std::vector<rclcpp::CallbackGroup::WeakPtr> weak_guard_conditions_;
RCLCPP_PUBLIC
virtual void
spin_once_impl(std::chrono::nanoseconds timeout);
/// Waitable containing guard conditions controlling the executor flow.
/**
* This waitable contains the interrupt and shutdown guard condition, as well
* as the guard condition associated with each node and callback group.
* By default, if any change is detected in the monitored entities, the notify
* waitable will awake the executor and rebuild the collections.
*/
std::shared_ptr<rclcpp::executors::ExecutorNotifyWaitable> notify_waitable_;
std::atomic_bool entities_need_rebuild_;
/// Collector used to associate executable entities from nodes and guard conditions
rclcpp::executors::ExecutorEntitiesCollector collector_;
/// WaitSet to be waited on.
rclcpp::WaitSet wait_set_ RCPPUTILS_TSA_GUARDED_BY(mutex_);
std::optional<rclcpp::WaitResult<rclcpp::WaitSet>> wait_result_ RCPPUTILS_TSA_GUARDED_BY(mutex_);
/// Hold the current state of the collection being waited on by the waitset
rclcpp::executors::ExecutorEntitiesCollection current_collection_ RCPPUTILS_TSA_GUARDED_BY(
mutex_);
/// Hold the current state of the notify waitable being waited on by the waitset
std::shared_ptr<rclcpp::executors::ExecutorNotifyWaitable> current_notify_waitable_
RCPPUTILS_TSA_GUARDED_BY(mutex_);
/// shutdown callback handle registered to Context
rclcpp::OnShutdownCallbackHandle shutdown_callback_handle_;
/// Pointer to implementation
std::unique_ptr<ExecutorImplementation> impl_;
};
/// Template class which serves as the foundation of actual executors.
/**
* This class combines the wait set, scheduling policy, and the ExecutorBase
* class, and implements all of the pure virtual functions of ExecutorBase
* making it a concrete class.
*/
template<class WaitSetT, class SchedulingPolicy>
class ExecutorTemplate : public ExecutorBase, public SchedulingPolicy
{
public:
RCLCPP_SMART_PTR_DEFINITIONS_NOT_COPYABLE(ExecutorTemplate)
/// Default constructor.
/**
* \param[in] options Options for the executor.
*/
explicit ExecutorTemplate(const ExecutorOptions & options = ExecutorOptions())
: ExecutorBase(options), SchedulingPolicy(options), WaitSetT(options.context)
{}
/// Default virtual destructor.
RCLCPP_PUBLIC
virtual
~ExecutorTemplate() = default;
protected:
WaitSetT wait_set_;
};
/// Executor concept which waits for work and coordinates execution of user callbacks.
/**
* Executor provides spin functions (including spin_node_once and spin_some).
* It coordinates the nodes and callback groups by looking for available work
* and completing it, based on the threading or concurrency scheme provided by
* the subclass implementation.
* An example of available work is executing a subscription callback, or a
* timer callback.
* The executor structure allows for a decoupling of the communication graph
* and the execution model.
* See SingleThreadedExecutor and MultiThreadedExecutor for examples of
* different execution paradigms.
*
* By default this alias provides a foundation based on specific wait set type
* and a scheduling policy.
* The wait set is expected to be dynamic, i.e. items can be added or removed
* after creation, and thread-safe, i.e. items can be added or removed while
* also waiting concurrently.
*/
using Executor = ExecutorTemplate<
rclcpp::ThreadSafeWaitSet,
rclcpp::executor_policies::TimerFavoringPriorityQueue>;
namespace executor
{
using Executor [[deprecated("use rclcpp::Executor instead")]] = Executor;
} // namespace executor
} // namespace rclcpp
#endif // RCLCPP__EXECUTOR_HPP_

32
rclcpp/include/rclcpp/executor_options.hpp
View File

@@ -1,4 +1,4 @@
// Copyright 2014-2020 Open Source Robotics Foundation, Inc.
// Copyright 2014 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
@@ -15,8 +15,6 @@
#ifndef RCLCPP__EXECUTOR_OPTIONS_HPP_
#define RCLCPP__EXECUTOR_OPTIONS_HPP_
#include <memory>
#include "rclcpp/context.hpp"
#include "rclcpp/contexts/default_context.hpp"
#include "rclcpp/memory_strategies.hpp"
@@ -26,32 +24,26 @@
namespace rclcpp
{
class ExecutorOptionsImplementation;
/// Options to be passed to the executor constructor.
struct ExecutorOptions
{
RCLCPP_PUBLIC
ExecutorOptions();
RCLCPP_PUBLIC
virtual ~ExecutorOptions();
RCLCPP_PUBLIC
ExecutorOptions(const ExecutorOptions &);
RCLCPP_PUBLIC
ExecutorOptions & operator=(const ExecutorOptions &);
ExecutorOptions()
: memory_strategy(rclcpp::memory_strategies::create_default_strategy()),
context(rclcpp::contexts::get_global_default_context()),
max_conditions(0)
{}
rclcpp::memory_strategy::MemoryStrategy::SharedPtr memory_strategy;
rclcpp::Context::SharedPtr context;
size_t max_conditions;
private:
/// Pointer to implementation
std::unique_ptr<ExecutorOptionsImplementation> impl_;
};
namespace executor
{
using ExecutorArgs [[deprecated("use rclcpp::ExecutorOptions instead")]] = ExecutorOptions;
} // namespace executor
} // namespace rclcpp
#endif // RCLCPP__EXECUTOR_OPTIONS_HPP_

32
rclcpp/src/rclcpp/logging_mutex.cpp → rclcpp/include/rclcpp/executor_policies/scheduling_result.hpp
View File

@@ -12,20 +12,24 @@
// See the License for the specific language governing permissions and
// limitations under the License.
#include <memory>
#include <mutex>
#include <stdexcept>
#ifndef RCLCPP__EXECUTOR_POLICIES__SCHEDULING_RESULT_HPP_
#define RCLCPP__EXECUTOR_POLICIES__SCHEDULING_RESULT_HPP_
#include "rcutils/macros.h"
#include "rclcpp/visibility_control.hpp"
#include "./logging_mutex.hpp"
std::shared_ptr<std::recursive_mutex>
get_global_logging_mutex()
namespace rclcpp
{
static auto mutex = std::make_shared<std::recursive_mutex>();
if (RCUTILS_UNLIKELY(!mutex)) {
throw std::runtime_error("rclcpp global logging mutex is a nullptr");
}
return mutex;
}
namespace executor_policies
{
/// Represents the directions a SchedulingPolicy can give to an Executor.
enum RCLCPP_PUBLIC SchedulingResult
{
ContinueExecuting, //<! Indicates more work should be done before waiting.
WaitForWork, //<! Indicates that the executor should wait on the wait set again.
};
} // namespace executor_policies
} // namespace rclcpp
#endif // RCLCPP__EXECUTOR_POLICIES__SCHEDULING_RESULT_HPP_

77
rclcpp/include/rclcpp/executor_policies/timer_favoring_priority_queue.hpp Normal file
View File

@@ -0,0 +1,77 @@
// Copyright 2020 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__EXECUTOR_POLICIES__TIMER_FAVORING_PRIORITY_QUEUE_HPP_
#define RCLCPP__EXECUTOR_POLICIES__TIMER_FAVORING_PRIORITY_QUEUE_HPP_
#include "rclcpp/any_executable.hpp"
#include "rclcpp/executor_options.hpp"
#include "rclcpp/executor_policies/scheduling_result.hpp"
#include "rclcpp/visibility_control.hpp"
#include "rclcpp/wait_result.hpp"
namespace rclcpp
{
namespace executor_policies
{
/// A naive scheduling policy which selects Timers first, then Subscriptions and other items.
/**
* Items are executed in the order they were added, favoring Timers, then
* Subscriptions, Service Servers, Service Clients, and finally Waitables.
* All Timers are executed before any Subscriptions, and all Subscriptions
* before any Service Servers, and so on.
*
* User guard conditions are not yet supported by the Executor and so all guard
* condition are used by the executor itself and are handled before this policy
* is consulted.
* Therefore, guard conditions are ignored for the purposes of scheduling.
*
* This is a naive policy, but is the default until a better one is implemented.
*/
class TimerFavoringPriorityQueue
{
public:
explicit TimerFavoringPriorityQueue(const rclcpp::ExecutorOptions &) {}
/// Select which item should next be executed, and indicate if waiting should resume.
/**
* Selects which item to be executed next, assign it to the any_executable, or
* assigning nullptr if no work should be done right now.
*
* This method is called by the executor after waiting on a wait set, in
* order to determine what to execute next based on the result.
*
* Additionally, if returning SchedulingResult::ContinueExecuting then the
* executor will call this function again without waiting on the wait set, or
* if returning SchedulingResult::WaitForWork then the executor will wait on
* the wait set again after executing the selected any_executable, or
* immediately if any_executable was assigned nullptr.
*/
template<class WaitSetT>
rclcpp::executor_policies::SchedulingResult
schedule_next_any_executable(
const WaitResult<WaitSetT> & wait_result,
rclcpp::AnyExecutable & any_executable)
{
// Explicitly ignore guard conditions.
// Check Timers for being ready.
}
};
} // namespace executor_policies
} // namespace rclcpp
#endif // RCLCPP__EXECUTOR_POLICIES__TIMER_FAVORING_PRIORITY_QUEUE_HPP_

108
rclcpp/include/rclcpp/executors.hpp
View File

@@ -20,7 +20,7 @@
#include "rclcpp/executors/multi_threaded_executor.hpp"
#include "rclcpp/executors/single_threaded_executor.hpp"
#include "rclcpp/experimental/executors/events_executor/events_executor.hpp"
#include "rclcpp/executors/static_single_threaded_executor.hpp"
#include "rclcpp/node.hpp"
#include "rclcpp/utilities.hpp"
#include "rclcpp/visibility_control.hpp"
@@ -28,95 +28,25 @@
namespace rclcpp
{
/**
* @brief Create a default single-threaded executor and execute all available work exhaustively.
* @param node_ptr Shared pointer to the base interface of the node to spin.
* @param max_duration max duration to spin
*
* This method is deprecated because it can lead to very bad performance if used in a loop:
* each call will create a new executor and register the node, which is an expensive operation.
* It's recommended to always manually instantiate an executor and call the methods with
* the same name on it.
* For example:
* SingleThreadedExecutor executor;
* executor.add_node(node_ptr);
* executor.spin_all(max_duration);
* If you are using a non-default context, this should be passed to the executor's constructor.
*/
[[deprecated("use SingleThreadedExecutor::spin_all instead")]]
/// Create a default single-threaded executor and execute any immediately available work.
/** \param[in] node_ptr Shared pointer to the node to spin. */
RCLCPP_PUBLIC
void
spin_all(
const rclcpp::node_interfaces::NodeBaseInterface::SharedPtr & node_ptr,
std::chrono::nanoseconds max_duration);
spin_some(rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_ptr);
/**
* @brief Create a default single-threaded executor and execute all available work exhaustively.
* @param node_ptr Shared pointer to the node to spin.
* @param max_duration max duration to spin
*
* This method is deprecated because it can lead to very bad performance if used in a loop:
* each call will create a new executor and register the node, which is an expensive operation.
* It's recommended to always manually instantiate an executor and call the methods with
* the same name on it.
* For example:
* SingleThreadedExecutor executor;
* executor.add_node(node_ptr);
* executor.spin_all(max_duration);
* If you are using a non-default context, this should be passed to the executor's constructor.
*/
[[deprecated("use SingleThreadedExecutor::spin_all instead")]]
RCLCPP_PUBLIC
void
spin_all(const rclcpp::Node::SharedPtr & node_ptr, std::chrono::nanoseconds max_duration);
/**
* @brief Create a default single-threaded executor and execute any immediately available work.
* @param node_ptr Shared pointer to the base interface of the node to spin.
*
* This method is deprecated because it can lead to very bad performance if used in a loop:
* each call will create a new executor and register the node, which is an expensive operation.
* It's recommended to always manually instantiate an executor and call the methods with
* the same name on it.
* For example:
* SingleThreadedExecutor executor;
* executor.add_node(node_ptr);
* executor.spin_some();
* If you are using a non-default context, this should be passed to the executor's constructor.
*/
[[deprecated("use SingleThreadedExecutor::spin_some instead")]]
RCLCPP_PUBLIC
void
spin_some(const rclcpp::node_interfaces::NodeBaseInterface::SharedPtr & node_ptr);
/**
* @brief Create a default single-threaded executor and execute any immediately available work.
* @param node_ptr Shared pointer to the node to spin.
*
* This method is deprecated because it can lead to very bad performance if used in a loop:
* each call will create a new executor and register the node, which is an expensive operation.
* It's recommended to always manually instantiate an executor and call the methods with
* the same name on it.
* For example:
* SingleThreadedExecutor executor;
* executor.add_node(node_ptr);
* executor.spin_some();
* If you are using a non-default context, this should be passed to the executor's constructor.
*/
[[deprecated("use SingleThreadedExecutor::spin_some instead")]]
RCLCPP_PUBLIC
void
spin_some(const rclcpp::Node::SharedPtr & node_ptr);
spin_some(rclcpp::Node::SharedPtr node_ptr);
/// Create a default single-threaded executor and spin the specified node.
/** \param[in] node_ptr Shared pointer to the node to spin. */
RCLCPP_PUBLIC
void
spin(const rclcpp::node_interfaces::NodeBaseInterface::SharedPtr & node_ptr);
spin(rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_ptr);
RCLCPP_PUBLIC
void
spin(const rclcpp::Node::SharedPtr & node_ptr);
spin(rclcpp::Node::SharedPtr node_ptr);
namespace executors
{
@@ -136,12 +66,12 @@ using rclcpp::executors::SingleThreadedExecutor;
* If the time spent inside the blocking loop exceeds this timeout, return a `TIMEOUT` return code.
* \return The return code, one of `SUCCESS`, `INTERRUPTED`, or `TIMEOUT`.
*/
template<typename FutureT, typename TimeRepT = int64_t, typename TimeT = std::milli>
template<typename ResponseT, typename TimeRepT = int64_t, typename TimeT = std::milli>
rclcpp::FutureReturnCode
spin_node_until_future_complete(
rclcpp::Executor & executor,
const rclcpp::node_interfaces::NodeBaseInterface::SharedPtr & node_ptr,
const FutureT & future,
rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_ptr,
const std::shared_future<ResponseT> & future,
std::chrono::duration<TimeRepT, TimeT> timeout = std::chrono::duration<TimeRepT, TimeT>(-1))
{
// TODO(wjwwood): does not work recursively; can't call spin_node_until_future_complete
@@ -152,13 +82,13 @@ spin_node_until_future_complete(
return retcode;
}
template<typename NodeT = rclcpp::Node, typename FutureT, typename TimeRepT = int64_t,
template<typename NodeT = rclcpp::Node, typename ResponseT, typename TimeRepT = int64_t,
typename TimeT = std::milli>
rclcpp::FutureReturnCode
spin_node_until_future_complete(
rclcpp::Executor & executor,
const std::shared_ptr<NodeT> & node_ptr,
const FutureT & future,
std::shared_ptr<NodeT> node_ptr,
const std::shared_future<ResponseT> & future,
std::chrono::duration<TimeRepT, TimeT> timeout = std::chrono::duration<TimeRepT, TimeT>(-1))
{
return rclcpp::executors::spin_node_until_future_complete(
@@ -173,13 +103,11 @@ spin_node_until_future_complete(
template<typename FutureT, typename TimeRepT = int64_t, typename TimeT = std::milli>
rclcpp::FutureReturnCode
spin_until_future_complete(
const rclcpp::node_interfaces::NodeBaseInterface::SharedPtr & node_ptr,
const FutureT & future,
rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_ptr,
const std::shared_future<FutureT> & future,
std::chrono::duration<TimeRepT, TimeT> timeout = std::chrono::duration<TimeRepT, TimeT>(-1))
{
rclcpp::ExecutorOptions options;
options.context = node_ptr->get_context();
rclcpp::executors::SingleThreadedExecutor executor(options);
rclcpp::executors::SingleThreadedExecutor executor;
return executors::spin_node_until_future_complete<FutureT>(executor, node_ptr, future, timeout);
}
@@ -187,8 +115,8 @@ template<typename NodeT = rclcpp::Node, typename FutureT, typename TimeRepT = in
typename TimeT = std::milli>
rclcpp::FutureReturnCode
spin_until_future_complete(
const std::shared_ptr<NodeT> & node_ptr,
const FutureT & future,
std::shared_ptr<NodeT> node_ptr,
const std::shared_future<FutureT> & future,
std::chrono::duration<TimeRepT, TimeT> timeout = std::chrono::duration<TimeRepT, TimeT>(-1))
{
return rclcpp::spin_until_future_complete(node_ptr->get_node_base_interface(), future, timeout);

219
rclcpp/include/rclcpp/executors/executor_entities_collection.hpp
View File

@@ -1,219 +0,0 @@
// Copyright 2023 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__EXECUTORS__EXECUTOR_ENTITIES_COLLECTION_HPP_
#define RCLCPP__EXECUTORS__EXECUTOR_ENTITIES_COLLECTION_HPP_
#include <deque>
#include <functional>
#include <unordered_map>
#include <vector>
#include <rclcpp/any_executable.hpp>
#include <rclcpp/node_interfaces/node_base.hpp>
#include <rclcpp/callback_group.hpp>
#include <rclcpp/executors/executor_notify_waitable.hpp>
#include <rclcpp/visibility_control.hpp>
#include <rclcpp/wait_result.hpp>
#include <rclcpp/wait_set.hpp>
namespace rclcpp
{
namespace executors
{
/// Structure to represent a single entity's entry in a collection
template<typename EntityValueType>
struct CollectionEntry
{
/// Weak pointer to entity type
using EntityWeakPtr = typename EntityValueType::WeakPtr;
/// Shared pointer to entity type
using EntitySharedPtr = typename EntityValueType::SharedPtr;
/// The entity
EntityWeakPtr entity;
/// If relevant, the entity's corresponding callback_group
rclcpp::CallbackGroup::WeakPtr callback_group;
};
/// Update a collection based on another collection
/*
* Iterates update_from and update_to to see which entities have been added/removed between
* the two collections.
*
* For each new entry (in update_from, but not in update_to),
* add the entity and fire the on_added callback
* For each removed entry (in update_to, but not in update_from),
* remove the entity and fire the on_removed callback.
*
* \param[in] update_from The collection representing the next iteration's state
* \param[inout] update_to The collection representing the current iteration's state
* \param[in] on_added Callback fired when a new entity is detected
* \param[in] on_removed Callback fired when an entity is removed
*/
template<typename CollectionType>
void update_entities(
const CollectionType & update_from,
CollectionType & update_to,
std::function<void(const typename CollectionType::EntitySharedPtr &)> on_added,
std::function<void(const typename CollectionType::EntitySharedPtr &)> on_removed
)
{
for (auto it = update_to.begin(); it != update_to.end(); ) {
if (update_from.count(it->first) == 0) {
auto entity = it->second.entity.lock();
if (entity) {
on_removed(entity);
}
it = update_to.erase(it);
} else {
++it;
}
}
for (auto it = update_from.begin(); it != update_from.end(); ++it) {
if (update_to.count(it->first) == 0) {
auto entity = it->second.entity.lock();
if (entity) {
on_added(entity);
}
update_to.insert(*it);
}
}
}
/// A collection of entities, indexed by their corresponding handles
template<typename EntityKeyType, typename EntityValueType>
class EntityCollection
: public std::unordered_map<const EntityKeyType *, CollectionEntry<EntityValueType>>
{
public:
/// Key type of the map
using Key = const EntityKeyType *;
/// Weak pointer to entity type
using EntityWeakPtr = typename EntityValueType::WeakPtr;
/// Shared pointer to entity type
using EntitySharedPtr = typename EntityValueType::SharedPtr;
/// Update this collection based on the contents of another collection
/**
* Update the internal state of this collection, firing callbacks when entities have been
* added or removed.
*
* \param[in] other Collection to compare to
* \param[in] on_added Callback for when entities have been added
* \param[in] on_removed Callback for when entities have been removed
*/
void update(
const EntityCollection<EntityKeyType, EntityValueType> & other,
std::function<void(const EntitySharedPtr &)> on_added,
std::function<void(const EntitySharedPtr &)> on_removed)
{
update_entities(other, *this, on_added, on_removed);
}
};
/// Represent the total set of entities for a single executor
/**
* This allows the entities to be stored from ExecutorEntitiesCollector.
* The structure also makes in convenient to re-evaluate when entities have been added or removed.
*/
struct ExecutorEntitiesCollection
{
/// Collection type for timer entities
using TimerCollection = EntityCollection<rcl_timer_t, rclcpp::TimerBase>;
/// Collection type for subscription entities
using SubscriptionCollection = EntityCollection<rcl_subscription_t, rclcpp::SubscriptionBase>;
/// Collection type for client entities
using ClientCollection = EntityCollection<rcl_client_t, rclcpp::ClientBase>;
/// Collection type for service entities
using ServiceCollection = EntityCollection<rcl_service_t, rclcpp::ServiceBase>;
/// Collection type for waitable entities
using WaitableCollection = EntityCollection<rclcpp::Waitable, rclcpp::Waitable>;
/// Collection type for guard condition entities
using GuardConditionCollection = EntityCollection<rcl_guard_condition_t, rclcpp::GuardCondition>;
/// Collection of timers currently in use by the executor.
TimerCollection timers;
/// Collection of subscriptions currently in use by the executor.
SubscriptionCollection subscriptions;
/// Collection of clients currently in use by the executor.
ClientCollection clients;
/// Collection of services currently in use by the executor.
ServiceCollection services;
/// Collection of guard conditions currently in use by the executor.
GuardConditionCollection guard_conditions;
/// Collection of waitables currently in use by the executor.
WaitableCollection waitables;
/// Check if the entities collection is empty
/**
* \return true if all member collections are empty, false otherwise
*/
bool empty() const;
/// Clear the entities collection
void clear();
/// Remove entities that have expired weak ownership
/**
* \return The total number of removed entities
*/
size_t remove_expired_entities();
};
/// Build an entities collection from callback groups
/**
* Iterates a list of callback groups and adds entities from each valid group
*
* \param[in] callback_groups List of callback groups to check for entities
* \param[inout] colletion Entities collection to populate with found entities
*/
void
build_entities_collection(
const std::vector<rclcpp::CallbackGroup::WeakPtr> & callback_groups,
ExecutorEntitiesCollection & collection);
/// Build a queue of executables ready to be executed
/**
* Iterates a list of entities and adds them to a queue if they are ready.
*
* \param[in] collection Collection of entities corresponding to the current wait set.
* \param[in] wait_result Result of rclcpp::WaitSet::wait corresponding to the collection.
* \param[inout] queue of executables to append new ready executables to
* \return number of new ready executables
*/
size_t
ready_executables(
const ExecutorEntitiesCollection & collection,
rclcpp::WaitResult<rclcpp::WaitSet> & wait_result,
std::deque<rclcpp::AnyExecutable> & executables
);
} // namespace executors
} // namespace rclcpp
#endif // RCLCPP__EXECUTORS__EXECUTOR_ENTITIES_COLLECTION_HPP_

270
rclcpp/include/rclcpp/executors/executor_entities_collector.hpp
View File

@@ -1,270 +0,0 @@
// Copyright 2023 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__EXECUTORS__EXECUTOR_ENTITIES_COLLECTOR_HPP_
#define RCLCPP__EXECUTORS__EXECUTOR_ENTITIES_COLLECTOR_HPP_
#include <map>
#include <memory>
#include <mutex>
#include <set>
#include <vector>
#include "rcpputils/thread_safety_annotations.hpp"
#include <rclcpp/any_executable.hpp>
#include <rclcpp/node_interfaces/node_base.hpp>
#include <rclcpp/callback_group.hpp>
#include <rclcpp/executors/executor_notify_waitable.hpp>
#include <rclcpp/visibility_control.hpp>
#include <rclcpp/wait_set.hpp>
#include <rclcpp/wait_result.hpp>
namespace rclcpp
{
namespace executors
{
/// Class to monitor a set of nodes and callback groups for changes in entity membership
/**
* This is to be used with an executor to track the membership of various nodes, groups,
* and entities (timers, subscriptions, clients, services, etc) and report status to the
* executor.
*
* In general, users will add either nodes or callback groups to an executor.
* Each node may have callback groups that are automatically associated with executors,
* or callback groups that must be manually associated with an executor.
*
* This object tracks both types of callback groups as well as nodes that have been
* previously added to the executor.
* When a new callback group is added/removed or new entities are added/removed, the
* corresponding node or callback group will signal this to the executor so that the
* entity collection may be rebuilt according to that executor's implementation.
*
*/
class ExecutorEntitiesCollector
{
public:
/// Constructor
/**
* \param[in] notify_waitable Waitable that is used to signal to the executor
* when nodes or callback groups have been added or removed.
*/
RCLCPP_PUBLIC
explicit ExecutorEntitiesCollector(
const std::shared_ptr<ExecutorNotifyWaitable> & notify_waitable);
/// Destructor
RCLCPP_PUBLIC
~ExecutorEntitiesCollector();
/// Indicate if the entities collector has pending additions or removals.
/**
* \return true if there are pending additions or removals
*/
bool has_pending() const;
/// Add a node to the entity collector
/**
* \param[in] node_ptr a shared pointer that points to a node base interface
* \throw std::runtime_error if the node is associated with an executor
*/
RCLCPP_PUBLIC
void
add_node(const rclcpp::node_interfaces::NodeBaseInterface::SharedPtr & node_ptr);
/// Remove a node from the entity collector
/**
* \param[in] node_ptr a shared pointer that points to a node base interface
* \throw std::runtime_error if the node is associated with an executor
* \throw std::runtime_error if the node is associated with this executor
*/
RCLCPP_PUBLIC
void
remove_node(const rclcpp::node_interfaces::NodeBaseInterface::SharedPtr & node_ptr);
/// Add a callback group to the entity collector
/**
* \param[in] group_ptr a shared pointer that points to a callback group
* \throw std::runtime_error if the callback_group is associated with an executor
*/
RCLCPP_PUBLIC
void
add_callback_group(const rclcpp::CallbackGroup::SharedPtr & group_ptr);
/// Remove a callback group from the entity collector
/**
* \param[in] group_ptr a shared pointer that points to a callback group
* \throw std::runtime_error if the callback_group is not associated with an executor
* \throw std::runtime_error if the callback_group is not associated with this executor
*/
RCLCPP_PUBLIC
void
remove_callback_group(const rclcpp::CallbackGroup::SharedPtr & group_ptr);
/// Get all callback groups known to this entity collector
/**
* This will include manually added and automatically added (node associated) groups
* \return vector of all callback groups
*/
RCLCPP_PUBLIC
std::vector<rclcpp::CallbackGroup::WeakPtr>
get_all_callback_groups() const;
/// Get manually-added callback groups known to this entity collector
/**
* This will include callback groups that have been added via add_callback_group
* \return vector of manually-added callback groups
*/
RCLCPP_PUBLIC
std::vector<rclcpp::CallbackGroup::WeakPtr>
get_manually_added_callback_groups() const;
/// Get automatically-added callback groups known to this entity collector
/**
* This will include callback groups that are associated with nodes added via add_node
* \return vector of automatically-added callback groups
*/
RCLCPP_PUBLIC
std::vector<rclcpp::CallbackGroup::WeakPtr>
get_automatically_added_callback_groups() const;
/// Update the underlying collections
/**
* This will prune nodes and callback groups that are no longer valid as well
* as add new callback groups from any associated nodes.
*/
RCLCPP_PUBLIC
void
update_collections();
protected:
using NodeCollection = std::set<
rclcpp::node_interfaces::NodeBaseInterface::WeakPtr,
std::owner_less<rclcpp::node_interfaces::NodeBaseInterface::WeakPtr>>;
using CallbackGroupCollection = std::set<
rclcpp::CallbackGroup::WeakPtr,
std::owner_less<rclcpp::CallbackGroup::WeakPtr>>;
using WeakNodesToGuardConditionsMap = std::map<
rclcpp::node_interfaces::NodeBaseInterface::WeakPtr,
rclcpp::GuardCondition::WeakPtr,
std::owner_less<rclcpp::node_interfaces::NodeBaseInterface::WeakPtr>>;
using WeakGroupsToGuardConditionsMap = std::map<
rclcpp::CallbackGroup::WeakPtr,
rclcpp::GuardCondition::WeakPtr,
std::owner_less<rclcpp::CallbackGroup::WeakPtr>>;
/// Implementation of removing a node from the collector.
/**
* This will disassociate the node from the collector and remove any
* automatically-added callback groups
*
* This takes and returns an iterator so it may be used as:
*
* it = remove_weak_node(it);
*
* \param[in] weak_node iterator to the weak node to be removed
* \return Valid updated iterator in the same collection
*/
RCLCPP_PUBLIC
NodeCollection::iterator
remove_weak_node(NodeCollection::iterator weak_node) RCPPUTILS_TSA_REQUIRES(mutex_);
/// Implementation of removing a callback group from the collector.
/**
* This will disassociate the callback group from the collector
*
* This takes and returns an iterator so it may be used as:
*
* it = remove_weak_callback_group(it);
*
* \param[in] weak_group_it iterator to the weak group to be removed
* \param[in] collection the collection to remove the group from
* (manually or automatically added)
* \return Valid updated iterator in the same collection
*/
RCLCPP_PUBLIC
CallbackGroupCollection::iterator
remove_weak_callback_group(
CallbackGroupCollection::iterator weak_group_it,
CallbackGroupCollection & collection) RCPPUTILS_TSA_REQUIRES(mutex_);
/// Implementation of adding a callback group
/**
* \param[in] group_ptr the group to add
* \param[in] collection the collection to add the group to
*/
RCLCPP_PUBLIC
void
add_callback_group_to_collection(
const rclcpp::CallbackGroup::SharedPtr & group_ptr,
CallbackGroupCollection & collection) RCPPUTILS_TSA_REQUIRES(mutex_);
/// Iterate over queued added/remove nodes and callback_groups
RCLCPP_PUBLIC
void
process_queues() RCPPUTILS_TSA_REQUIRES(mutex_);
/// Check a collection of nodes and add any new callback_groups that
/// are set to be automatically associated via the node.
RCLCPP_PUBLIC
void
add_automatically_associated_callback_groups(
const NodeCollection & nodes_to_check) RCPPUTILS_TSA_REQUIRES(mutex_);
/// Check all nodes and group for expired weak pointers and remove them.
RCLCPP_PUBLIC
void
prune_invalid_nodes_and_groups() RCPPUTILS_TSA_REQUIRES(mutex_);
/// mutex to protect collections and pending queues
mutable std::mutex mutex_;
/// Callback groups that were added via `add_callback_group`
CallbackGroupCollection manually_added_groups_ RCPPUTILS_TSA_GUARDED_BY(mutex_);
/// Callback groups that were added by their association with added nodes
CallbackGroupCollection automatically_added_groups_ RCPPUTILS_TSA_GUARDED_BY(mutex_);
/// nodes that are associated with the executor
NodeCollection weak_nodes_ RCPPUTILS_TSA_GUARDED_BY(mutex_);
/// Track guard conditions associated with added nodes
WeakNodesToGuardConditionsMap weak_nodes_to_guard_conditions_ RCPPUTILS_TSA_GUARDED_BY(mutex_);
/// Track guard conditions associated with added callback groups
WeakGroupsToGuardConditionsMap weak_groups_to_guard_conditions_ RCPPUTILS_TSA_GUARDED_BY(mutex_);
/// nodes that have been added since the last update.
NodeCollection pending_added_nodes_ RCPPUTILS_TSA_GUARDED_BY(mutex_);
/// nodes that have been removed since the last update.
NodeCollection pending_removed_nodes_ RCPPUTILS_TSA_GUARDED_BY(mutex_);
/// callback groups that have been added since the last update.
CallbackGroupCollection pending_manually_added_groups_ RCPPUTILS_TSA_GUARDED_BY(mutex_);
/// callback groups that have been removed since the last update.
CallbackGroupCollection pending_manually_removed_groups_ RCPPUTILS_TSA_GUARDED_BY(mutex_);
/// Waitable to add guard conditions to
std::shared_ptr<ExecutorNotifyWaitable> notify_waitable_;
};
} // namespace executors
} // namespace rclcpp
//
#endif // RCLCPP__EXECUTORS__EXECUTOR_ENTITIES_COLLECTOR_HPP_

189
rclcpp/include/rclcpp/executors/executor_notify_waitable.hpp
View File

@@ -1,189 +0,0 @@
// Copyright 2023 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__EXECUTORS__EXECUTOR_NOTIFY_WAITABLE_HPP_
#define RCLCPP__EXECUTORS__EXECUTOR_NOTIFY_WAITABLE_HPP_
#include <functional>
#include <memory>
#include <mutex>
#include <set>
#include <vector>
#include "rclcpp/guard_condition.hpp"
#include "rclcpp/waitable.hpp"
namespace rclcpp
{
namespace executors
{
/// Maintain a collection of guard conditions from associated nodes and callback groups
/// to signal to the executor when associated entities have changed.
class ExecutorNotifyWaitable : public rclcpp::Waitable
{
public:
RCLCPP_SMART_PTR_DEFINITIONS(ExecutorNotifyWaitable)
// Constructor
/**
* \param[in] on_execute_callback Callback to execute when one of the conditions
* of this waitable has signaled the wait_set.
*/
RCLCPP_PUBLIC
explicit ExecutorNotifyWaitable(
const std::function<void(void)> & on_execute_callback = {},
const rclcpp::Context::SharedPtr & context =
rclcpp::contexts::get_global_default_context());
// Destructor
RCLCPP_PUBLIC
~ExecutorNotifyWaitable() override = default;
RCLCPP_PUBLIC
ExecutorNotifyWaitable(ExecutorNotifyWaitable & other);
RCLCPP_PUBLIC
ExecutorNotifyWaitable & operator=(ExecutorNotifyWaitable & other);
/// Add conditions to the wait set
/**
* \param[inout] wait_set structure that conditions will be added to
*/
RCLCPP_PUBLIC
void
add_to_wait_set(rcl_wait_set_t & wait_set) override;
/// Check conditions against the wait set
/**
* \param[inout] wait_set structure that internal elements will be checked against.
* \return true if this waitable is ready to be executed, false otherwise.
*/
RCLCPP_PUBLIC
bool
is_ready(const rcl_wait_set_t & wait_set) override;
/// Perform work associated with the waitable.
/**
* This will call the callback provided in the constructor.
* \param[in] data Data to be use for the execute, if available, else nullptr.
*/
RCLCPP_PUBLIC
void
execute(const std::shared_ptr<void> & data) override;
/// Retrieve data to be used in the next execute call.
/**
* \return If available, data to be used, otherwise nullptr
*/
RCLCPP_PUBLIC
std::shared_ptr<void>
take_data() override;
/// Take the data from an entity ID so that it can be consumed with `execute`.
/**
* \param[in] id ID of the entity to take data from.
* \return If available, data to be used, otherwise nullptr
* \sa rclcpp::Waitable::take_data_by_entity_id
*/
RCLCPP_PUBLIC
std::shared_ptr<void>
take_data_by_entity_id(size_t id) override;
/// Set a callback to be called whenever the waitable becomes ready.
/**
* \param[in] callback callback to set
* \sa rclcpp::Waitable::set_on_ready_callback
*/
RCLCPP_PUBLIC
void
set_on_ready_callback(std::function<void(size_t, int)> callback) override;
/// Add a guard condition to be waited on.
/**
* \param[in] guard_condition The guard condition to add.
*/
RCLCPP_PUBLIC
void
add_guard_condition(const rclcpp::GuardCondition::WeakPtr & guard_condition);
/// Unset any callback registered via set_on_ready_callback.
/**
* \sa rclcpp::Waitable::clear_on_ready_callback
*/
RCLCPP_PUBLIC
void
clear_on_ready_callback() override;
/// Set a new callback to be called whenever this waitable is executed.
/**
* \param[in] on_execute_callback The new callback
*/
RCLCPP_PUBLIC
void
set_execute_callback(std::function<void(void)> on_execute_callback);
/// Remove a guard condition from being waited on.
/**
* \param[in] weak_guard_condition The guard condition to remove.
*/
RCLCPP_PUBLIC
void
remove_guard_condition(const rclcpp::GuardCondition::WeakPtr & weak_guard_condition);
/// Get the number of ready guard_conditions
/**
* \return The number of guard_conditions associated with the Waitable.
*/
RCLCPP_PUBLIC
size_t
get_number_of_ready_guard_conditions() override;
/// Returns the number of used Timers
/**
* Will always return an empty vector.
*/
RCLCPP_PUBLIC
std::vector<std::shared_ptr<rclcpp::TimerBase>>
get_timers() const override;
private:
/// Callback to run when waitable executes
std::function<void(void)> execute_callback_;
/// Mutex to procetect the guard conditions
std::mutex guard_condition_mutex_;
/// Mutex to protect the execute callback
std::mutex execute_mutex_;
std::function<void(size_t)> on_ready_callback_;
/// The collection of guard conditions to be waited on.
std::set<rclcpp::GuardCondition::SharedPtr> notify_guard_conditions_;
/// The indixes were our guard conditions were stored in the
/// rcl waitset
std::vector<size_t> idxs_of_added_guard_condition_;
/// set to true, if we got a pending trigger
bool needs_processing = false;
/// A guard condition needed to generate wakeups
rclcpp::GuardCondition::SharedPtr guard_condition_;
};
} // namespace executors
} // namespace rclcpp
#endif // RCLCPP__EXECUTORS__EXECUTOR_NOTIFY_WAITABLE_HPP_

11
rclcpp/include/rclcpp/executors/multi_threaded_executor.hpp
View File

@@ -47,12 +47,11 @@ public:
*
* \param options common options for all executors
* \param number_of_threads number of threads to have in the thread pool,
* the default 0 will use the number of cpu cores found (minimum of 2)
* the default 0 will use the number of cpu cores found instead
* \param yield_before_execute if true std::this_thread::yield() is called
* \param timeout maximum time to wait
*/
RCLCPP_PUBLIC
explicit MultiThreadedExecutor(
MultiThreadedExecutor(
const rclcpp::ExecutorOptions & options = rclcpp::ExecutorOptions(),
size_t number_of_threads = 0,
bool yield_before_execute = false,
@@ -61,10 +60,6 @@ public:
RCLCPP_PUBLIC
virtual ~MultiThreadedExecutor();
/**
* \sa rclcpp::Executor:spin() for more details
* \throws std::runtime_error when spin() called while already spinning
*/
RCLCPP_PUBLIC
void
spin() override;
@@ -85,6 +80,8 @@ private:
size_t number_of_threads_;
bool yield_before_execute_;
std::chrono::nanoseconds next_exec_timeout_;
std::set<TimerBase::SharedPtr> scheduled_timers_;
};
} // namespace executors

1
rclcpp/include/rclcpp/executors/single_threaded_executor.hpp
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@@ -59,7 +59,6 @@ public:
* the process until canceled.
* It may be interrupt by a call to rclcpp::Executor::cancel() or by ctrl-c
* if the associated context is configured to shutdown on SIGINT.
* \throws std::runtime_error when spin() called while already spinning
*/
RCLCPP_PUBLIC
void

168
rclcpp/include/rclcpp/executors/static_executor_entities_collector.hpp Normal file
View File

@@ -0,0 +1,168 @@
// Copyright 2020 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__EXECUTORS__STATIC_EXECUTOR_ENTITIES_COLLECTOR_HPP_
#define RCLCPP__EXECUTORS__STATIC_EXECUTOR_ENTITIES_COLLECTOR_HPP_
#include <chrono>
#include <list>
#include <memory>
#include "rcl/guard_condition.h"
#include "rcl/wait.h"
#include "rclcpp/experimental/executable_list.hpp"
#include "rclcpp/macros.hpp"
#include "rclcpp/memory_strategy.hpp"
#include "rclcpp/visibility_control.hpp"
#include "rclcpp/waitable.hpp"
namespace rclcpp
{
namespace executors
{
class StaticExecutorEntitiesCollector final
: public rclcpp::Waitable,
public std::enable_shared_from_this<StaticExecutorEntitiesCollector>
{
public:
RCLCPP_SMART_PTR_DEFINITIONS(StaticExecutorEntitiesCollector)
// Constructor
RCLCPP_PUBLIC
StaticExecutorEntitiesCollector() = default;
// Destructor
~StaticExecutorEntitiesCollector();
RCLCPP_PUBLIC
void
init(
rcl_wait_set_t * p_wait_set,
rclcpp::memory_strategy::MemoryStrategy::SharedPtr & memory_strategy,
rcl_guard_condition_t * executor_guard_condition);
RCLCPP_PUBLIC
void
execute() override;
RCLCPP_PUBLIC
void
fill_memory_strategy();
RCLCPP_PUBLIC
void
fill_executable_list();
/// Function to reallocate space for entities in the wait set.
RCLCPP_PUBLIC
void
prepare_wait_set();
/// Function to add_handles_to_wait_set and wait for work and
// block until the wait set is ready or until the timeout has been exceeded.
RCLCPP_PUBLIC
void
refresh_wait_set(std::chrono::nanoseconds timeout = std::chrono::nanoseconds(-1));
RCLCPP_PUBLIC
bool
add_to_wait_set(rcl_wait_set_t * wait_set) override;
RCLCPP_PUBLIC
size_t
get_number_of_ready_guard_conditions() override;
RCLCPP_PUBLIC
void
add_node(
rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_ptr);
RCLCPP_PUBLIC
bool
remove_node(
rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_ptr);
/// Complete all available queued work without blocking.
/**
* This function checks if after the guard condition was triggered
* (or a spurious wakeup happened) we are really ready to execute
* i.e. re-collect entities
*/
RCLCPP_PUBLIC
bool
is_ready(rcl_wait_set_t * wait_set) override;
RCLCPP_PUBLIC
size_t
get_number_of_timers() {return exec_list_.number_of_timers;}
RCLCPP_PUBLIC
size_t
get_number_of_subscriptions() {return exec_list_.number_of_subscriptions;}
RCLCPP_PUBLIC
size_t
get_number_of_services() {return exec_list_.number_of_services;}
RCLCPP_PUBLIC
size_t
get_number_of_clients() {return exec_list_.number_of_clients;}
RCLCPP_PUBLIC
size_t
get_number_of_waitables() {return exec_list_.number_of_waitables;}
RCLCPP_PUBLIC
rclcpp::SubscriptionBase::SharedPtr
get_subscription(size_t i) {return exec_list_.subscription[i];}
RCLCPP_PUBLIC
rclcpp::TimerBase::SharedPtr
get_timer(size_t i) {return exec_list_.timer[i];}
RCLCPP_PUBLIC
rclcpp::ServiceBase::SharedPtr
get_service(size_t i) {return exec_list_.service[i];}
RCLCPP_PUBLIC
rclcpp::ClientBase::SharedPtr
get_client(size_t i) {return exec_list_.client[i];}
RCLCPP_PUBLIC
rclcpp::Waitable::SharedPtr
get_waitable(size_t i) {return exec_list_.waitable[i];}
private:
/// Nodes guard conditions which trigger this waitable
std::list<const rcl_guard_condition_t *> guard_conditions_;
/// Memory strategy: an interface for handling user-defined memory allocation strategies.
rclcpp::memory_strategy::MemoryStrategy::SharedPtr memory_strategy_;
/// List of weak nodes registered in the static executor
std::list<rclcpp::node_interfaces::NodeBaseInterface::WeakPtr> weak_nodes_;
/// Wait set for managing entities that the rmw layer waits on.
rcl_wait_set_t * p_wait_set_ = nullptr;
/// Executable list: timers, subscribers, clients, services and waitables
rclcpp::experimental::ExecutableList exec_list_;
};
} // namespace executors
} // namespace rclcpp
#endif // RCLCPP__EXECUTORS__STATIC_EXECUTOR_ENTITIES_COLLECTOR_HPP_

200
rclcpp/include/rclcpp/executors/static_single_threaded_executor.hpp Normal file
View File

@@ -0,0 +1,200 @@
// Copyright 2019 Nobleo Technology
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__EXECUTORS__STATIC_SINGLE_THREADED_EXECUTOR_HPP_
#define RCLCPP__EXECUTORS__STATIC_SINGLE_THREADED_EXECUTOR_HPP_
#include <cassert>
#include <cstdlib>
#include <memory>
#include <vector>
#include <string>
#include "rmw/rmw.h"
#include "rclcpp/executor.hpp"
#include "rclcpp/executors/static_executor_entities_collector.hpp"
#include "rclcpp/experimental/executable_list.hpp"
#include "rclcpp/macros.hpp"
#include "rclcpp/memory_strategies.hpp"
#include "rclcpp/node.hpp"
#include "rclcpp/rate.hpp"
#include "rclcpp/utilities.hpp"
#include "rclcpp/visibility_control.hpp"
namespace rclcpp
{
namespace executors
{
/// Static executor implementation
/**
* This executor is a static version of the original single threaded executor.
* It's static because it doesn't reconstruct the executable list for every iteration.
* All nodes, callbackgroups, timers, subscriptions etc. are created before
* spin() is called, and modified only when an entity is added/removed to/from a node.
*
* To run this executor instead of SingleThreadedExecutor replace:
* rclcpp::executors::SingleThreadedExecutor exec;
* by
* rclcpp::executors::StaticSingleThreadedExecutor exec;
* in your source code and spin node(s) in the following way:
* exec.add_node(node);
* exec.spin();
* exec.remove_node(node);
*/
class StaticSingleThreadedExecutor : public rclcpp::Executor
{
public:
RCLCPP_SMART_PTR_DEFINITIONS(StaticSingleThreadedExecutor)
/// Default constructor. See the default constructor for Executor.
RCLCPP_PUBLIC
explicit StaticSingleThreadedExecutor(
const rclcpp::ExecutorOptions & options = rclcpp::ExecutorOptions());
/// Default destrcutor.
RCLCPP_PUBLIC
virtual ~StaticSingleThreadedExecutor();
/// Static executor implementation of spin.
// This function will block until work comes in, execute it, and keep blocking.
// It will only be interrupt by a CTRL-C (managed by the global signal handler).
RCLCPP_PUBLIC
void
spin() override;
/// Add a node to the executor.
/**
* An executor can have zero or more nodes which provide work during `spin` functions.
* \param[in] node_ptr Shared pointer to the node to be added.
* \param[in] notify True to trigger the interrupt guard condition during this function. If
* the executor is blocked at the rmw layer while waiting for work and it is notified that a new
* node was added, it will wake up.
*/
RCLCPP_PUBLIC
void
add_node(
rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_ptr,
bool notify = true) override;
/// Convenience function which takes Node and forwards NodeBaseInterface.
RCLCPP_PUBLIC
void
add_node(std::shared_ptr<rclcpp::Node> node_ptr, bool notify = true) override;
/// Remove a node from the executor.
/**
* \param[in] node_ptr Shared pointer to the node to remove.
* \param[in] notify True to trigger the interrupt guard condition and wake up the executor.
* This is useful if the last node was removed from the executor while the executor was blocked
* waiting for work in another thread, because otherwise the executor would never be notified.
*/
RCLCPP_PUBLIC
void
remove_node(
rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_ptr,
bool notify = true) override;
/// Convenience function which takes Node and forwards NodeBaseInterface.
RCLCPP_PUBLIC
void
remove_node(std::shared_ptr<rclcpp::Node> node_ptr, bool notify = true) override;
/// Spin (blocking) until the future is complete, it times out waiting, or rclcpp is interrupted.
/**
* \param[in] future The future to wait on. If this function returns SUCCESS, the future can be
* accessed without blocking (though it may still throw an exception).
* \param[in] timeout Optional timeout parameter, which gets passed to
* Executor::execute_ready_executables.
* `-1` is block forever, `0` is non-blocking.
* If the time spent inside the blocking loop exceeds this timeout, return a TIMEOUT return
* code.
* \return The return code, one of `SUCCESS`, `INTERRUPTED`, or `TIMEOUT`.
*
* Example usage:
* rclcpp::executors::StaticSingleThreadedExecutor exec;
* // ... other part of code like creating node
* // define future
* exec.add_node(node);
* exec.spin_until_future_complete(future);
*/
template<typename ResponseT, typename TimeRepT = int64_t, typename TimeT = std::milli>
rclcpp::FutureReturnCode
spin_until_future_complete(
std::shared_future<ResponseT> & future,
std::chrono::duration<TimeRepT, TimeT> timeout = std::chrono::duration<TimeRepT, TimeT>(-1))
{
std::future_status status = future.wait_for(std::chrono::seconds(0));
if (status == std::future_status::ready) {
return rclcpp::FutureReturnCode::SUCCESS;
}
auto end_time = std::chrono::steady_clock::now();
std::chrono::nanoseconds timeout_ns = std::chrono::duration_cast<std::chrono::nanoseconds>(
timeout);
if (timeout_ns > std::chrono::nanoseconds::zero()) {
end_time += timeout_ns;
}
std::chrono::nanoseconds timeout_left = timeout_ns;
entities_collector_ = std::make_shared<StaticExecutorEntitiesCollector>();
entities_collector_->init(&wait_set_, memory_strategy_, &interrupt_guard_condition_);
while (rclcpp::ok(this->context_)) {
// Do one set of work.
entities_collector_->refresh_wait_set(timeout_left);
execute_ready_executables();
// Check if the future is set, return SUCCESS if it is.
status = future.wait_for(std::chrono::seconds(0));
if (status == std::future_status::ready) {
return rclcpp::FutureReturnCode::SUCCESS;
}
// If the original timeout is < 0, then this is blocking, never TIMEOUT.
if (timeout_ns < std::chrono::nanoseconds::zero()) {
continue;
}
// Otherwise check if we still have time to wait, return TIMEOUT if not.
auto now = std::chrono::steady_clock::now();
if (now >= end_time) {
return rclcpp::FutureReturnCode::TIMEOUT;
}
// Subtract the elapsed time from the original timeout.
timeout_left = std::chrono::duration_cast<std::chrono::nanoseconds>(end_time - now);
}
// The future did not complete before ok() returned false, return INTERRUPTED.
return rclcpp::FutureReturnCode::INTERRUPTED;
}
protected:
/// Check which executables in ExecutableList struct are ready from wait_set and execute them.
/**
* \param[in] exec_list Structure that can hold subscriptionbases, timerbases, etc
* \param[in] timeout Optional timeout parameter.
*/
RCLCPP_PUBLIC
void
execute_ready_executables();
private:
RCLCPP_DISABLE_COPY(StaticSingleThreadedExecutor)
StaticExecutorEntitiesCollector::SharedPtr entities_collector_;
};
} // namespace executors
} // namespace rclcpp
#endif // RCLCPP__EXECUTORS__STATIC_SINGLE_THREADED_EXECUTOR_HPP_

2
rclcpp/include/rclcpp/expand_topic_or_service_name.hpp
View File

@@ -49,8 +49,6 @@ namespace rclcpp
* \throws InvalidServiceNameError if name is invalid and is_service is true
* \throws std::bad_alloc if memory cannot be allocated
* \throws RCLError if an unexpect error occurs
* \throws std::runtime_error if the topic name is unexpectedly valid or,
* if the rcl name is invalid or if the rcl namespace is invalid
*/
RCLCPP_PUBLIC
std::string

5
rclcpp/include/rclcpp/experimental/buffers/buffer_implementation_base.hpp
View File

@@ -15,8 +15,6 @@
#ifndef RCLCPP__EXPERIMENTAL__BUFFERS__BUFFER_IMPLEMENTATION_BASE_HPP_
#define RCLCPP__EXPERIMENTAL__BUFFERS__BUFFER_IMPLEMENTATION_BASE_HPP_
#include <vector>
namespace rclcpp
{
namespace experimental
@@ -33,11 +31,8 @@ public:
virtual BufferT dequeue() = 0;
virtual void enqueue(BufferT request) = 0;
virtual std::vector<BufferT> get_all_data() = 0;
virtual void clear() = 0;
virtual bool has_data() const = 0;
virtual size_t available_capacity() const = 0;
};
} // namespace buffers

91
rclcpp/include/rclcpp/experimental/buffers/intra_process_buffer.hpp
View File

@@ -16,16 +16,13 @@
#define RCLCPP__EXPERIMENTAL__BUFFERS__INTRA_PROCESS_BUFFER_HPP_
#include <memory>
#include <stdexcept>
#include <type_traits>
#include <utility>
#include <vector>
#include "rclcpp/allocator/allocator_common.hpp"
#include "rclcpp/allocator/allocator_deleter.hpp"
#include "rclcpp/experimental/buffers/buffer_implementation_base.hpp"
#include "rclcpp/macros.hpp"
#include "tracetools/tracetools.h"
namespace rclcpp
{
@@ -45,7 +42,6 @@ public:
virtual bool has_data() const = 0;
virtual bool use_take_shared_method() const = 0;
virtual size_t available_capacity() const = 0;
};
template<
@@ -67,9 +63,6 @@ public:
virtual MessageSharedPtr consume_shared() = 0;
virtual MessageUniquePtr consume_unique() = 0;
virtual std::vector<MessageSharedPtr> get_all_data_shared() = 0;
virtual std::vector<MessageUniquePtr> get_all_data_unique() = 0;
};
template<
@@ -100,10 +93,6 @@ public:
buffer_ = std::move(buffer_impl);
TRACETOOLS_TRACEPOINT(
rclcpp_buffer_to_ipb,
static_cast<const void *>(buffer_.get()),
static_cast<const void *>(this));
if (!allocator) {
message_allocator_ = std::make_shared<MessageAlloc>();
} else {
@@ -133,16 +122,6 @@ public:
return consume_unique_impl<BufferT>();
}
std::vector<MessageSharedPtr> get_all_data_shared() override
{
return get_all_data_shared_impl();
}
std::vector<MessageUniquePtr> get_all_data_unique() override
{
return get_all_data_unique_impl();
}
bool has_data() const override
{
return buffer_->has_data();
@@ -158,11 +137,6 @@ public:
return std::is_same<BufferT, MessageSharedPtr>::value;
}
size_t available_capacity() const override
{
return buffer_->available_capacity();
}
private:
std::unique_ptr<BufferImplementationBase<BufferT>> buffer_;
@@ -257,71 +231,6 @@ private:
{
return buffer_->dequeue();
}
// MessageSharedPtr to MessageSharedPtr
template<typename T = BufferT>
typename std::enable_if<
std::is_same<T, MessageSharedPtr>::value,
std::vector<MessageSharedPtr>
>::type
get_all_data_shared_impl()
{
return buffer_->get_all_data();
}
// MessageUniquePtr to MessageSharedPtr
template<typename T = BufferT>
typename std::enable_if<
std::is_same<T, MessageUniquePtr>::value,
std::vector<MessageSharedPtr>
>::type
get_all_data_shared_impl()
{
std::vector<MessageSharedPtr> result;
auto uni_ptr_vec = buffer_->get_all_data();
result.reserve(uni_ptr_vec.size());
for (MessageUniquePtr & uni_ptr : uni_ptr_vec) {
result.emplace_back(std::move(uni_ptr));
}
return result;
}
// MessageSharedPtr to MessageUniquePtr
template<typename T = BufferT>
typename std::enable_if<
std::is_same<T, MessageSharedPtr>::value,
std::vector<MessageUniquePtr>
>::type
get_all_data_unique_impl()
{
std::vector<MessageUniquePtr> result;
auto shared_ptr_vec = buffer_->get_all_data();
result.reserve(shared_ptr_vec.size());
for (MessageSharedPtr shared_msg : shared_ptr_vec) {
MessageUniquePtr unique_msg;
MessageDeleter * deleter = std::get_deleter<MessageDeleter, const MessageT>(shared_msg);
auto ptr = MessageAllocTraits::allocate(*message_allocator_.get(), 1);
MessageAllocTraits::construct(*message_allocator_.get(), ptr, *shared_msg);
if (deleter) {
unique_msg = MessageUniquePtr(ptr, *deleter);
} else {
unique_msg = MessageUniquePtr(ptr);
}
result.push_back(std::move(unique_msg));
}
return result;
}
// MessageUniquePtr to MessageUniquePtr
template<typename T = BufferT>
typename std::enable_if<
std::is_same<T, MessageUniquePtr>::value,
std::vector<MessageUniquePtr>
>::type
get_all_data_unique_impl()
{
return buffer_->get_all_data();
}
};
} // namespace buffers

238
rclcpp/include/rclcpp/experimental/buffers/ring_buffer_implementation.hpp
View File

@@ -15,6 +15,9 @@
#ifndef RCLCPP__EXPERIMENTAL__BUFFERS__RING_BUFFER_IMPLEMENTATION_HPP_
#define RCLCPP__EXPERIMENTAL__BUFFERS__RING_BUFFER_IMPLEMENTATION_HPP_
#include <algorithm>
#include <cstddef>
#include <cstdint>
#include <memory>
#include <mutex>
#include <stdexcept>
@@ -26,7 +29,6 @@
#include "rclcpp/logging.hpp"
#include "rclcpp/macros.hpp"
#include "rclcpp/visibility_control.hpp"
#include "tracetools/tracetools.h"
namespace rclcpp
{
@@ -35,10 +37,6 @@ namespace experimental
namespace buffers
{
/// Store elements in a fixed-size, FIFO buffer
/**
* All public member functions are thread-safe.
*/
template<typename BufferT>
class RingBufferImplementation : public BufferImplementationBase<BufferT>
{
@@ -53,260 +51,60 @@ public:
if (capacity == 0) {
throw std::invalid_argument("capacity must be a positive, non-zero value");
}
TRACETOOLS_TRACEPOINT(
rclcpp_construct_ring_buffer,
static_cast<const void *>(this),
capacity_);
}
virtual ~RingBufferImplementation() {}
/// Add a new element to store in the ring buffer
/**
* This member function is thread-safe.
*
* \param request the element to be stored in the ring buffer
*/
void enqueue(BufferT request) override
void enqueue(BufferT request)
{
std::lock_guard<std::mutex> lock(mutex_);
write_index_ = next_(write_index_);
write_index_ = next(write_index_);
ring_buffer_[write_index_] = std::move(request);
TRACETOOLS_TRACEPOINT(
rclcpp_ring_buffer_enqueue,
static_cast<const void *>(this),
write_index_,
size_ + 1,
is_full_());
if (is_full_()) {
read_index_ = next_(read_index_);
if (is_full()) {
read_index_ = next(read_index_);
} else {
size_++;
}
}
/// Remove the oldest element from ring buffer
/**
* This member function is thread-safe.
*
* \return the element that is being removed from the ring buffer
*/
BufferT dequeue() override
BufferT dequeue()
{
std::lock_guard<std::mutex> lock(mutex_);
if (!has_data_()) {
return BufferT();
if (!has_data()) {
RCLCPP_ERROR(rclcpp::get_logger("rclcpp"), "Calling dequeue on empty intra-process buffer");
throw std::runtime_error("Calling dequeue on empty intra-process buffer");
}
auto request = std::move(ring_buffer_[read_index_]);
TRACETOOLS_TRACEPOINT(
rclcpp_ring_buffer_dequeue,
static_cast<const void *>(this),
read_index_,
size_ - 1);
read_index_ = next_(read_index_);
read_index_ = next(read_index_);
size_--;
return request;
}
/// Get all the elements from the ring buffer
/**
* This member function is thread-safe.
*
* \return a vector containing all the elements from the ring buffer
*/
std::vector<BufferT> get_all_data() override
{
return get_all_data_impl();
}
/// Get the next index value for the ring buffer
/**
* This member function is thread-safe.
*
* \param val the current index value
* \return the next index value
*/
inline size_t next(size_t val)
{
std::lock_guard<std::mutex> lock(mutex_);
return next_(val);
}
/// Get if the ring buffer has at least one element stored
/**
* This member function is thread-safe.
*
* \return `true` if there is data and `false` otherwise
*/
inline bool has_data() const override
{
std::lock_guard<std::mutex> lock(mutex_);
return has_data_();
}
/// Get if the size of the buffer is equal to its capacity
/**
* This member function is thread-safe.
*
* \return `true` if the size of the buffer is equal is capacity
* and `false` otherwise
*/
inline bool is_full() const
{
std::lock_guard<std::mutex> lock(mutex_);
return is_full_();
}
/// Get the remaining capacity to store messages
/**
* This member function is thread-safe.
*
* \return the number of free capacity for new messages
*/
size_t available_capacity() const override
{
std::lock_guard<std::mutex> lock(mutex_);
return available_capacity_();
}
void clear() override
{
TRACETOOLS_TRACEPOINT(rclcpp_ring_buffer_clear, static_cast<const void *>(this));
std::lock_guard<std::mutex> lock(mutex_);
clear_();
}
private:
/// Get the next index value for the ring buffer
/**
* This member function is not thread-safe.
*
* \param val the current index value
* \return the next index value
*/
inline size_t next_(size_t val)
{
return (val + 1) % capacity_;
}
/// Get if the ring buffer has at least one element stored
/**
* This member function is not thread-safe.
*
* \return `true` if there is data and `false` otherwise
*/
inline bool has_data_() const
inline bool has_data() const
{
return size_ != 0;
}
/// Get if the size of the buffer is equal to its capacity
/**
* This member function is not thread-safe.
*
* \return `true` if the size of the buffer is equal is capacity
* and `false` otherwise
*/
inline bool is_full_() const
inline bool is_full()
{
return size_ == capacity_;
}
/// Get the remaining capacity to store messages
/**
* This member function is not thread-safe.
*
* \return the number of free capacity for new messages
*/
inline size_t available_capacity_() const
{
return capacity_ - size_;
}
void clear() {}
inline void clear_()
{
ring_buffer_.clear();
size_ = 0;
read_index_ = 0;
write_index_ = capacity_ - 1;
}
/// Traits for checking if a type is std::unique_ptr
template<typename ...>
struct is_std_unique_ptr final : std::false_type {};
template<class T, typename ... Args>
struct is_std_unique_ptr<std::unique_ptr<T, Args...>> final : std::true_type
{
typedef T Ptr_type;
};
/// Get all the elements from the ring buffer
/**
* This member function is thread-safe.
* Two versions for the implementation of the function.
* One for buffer containing unique_ptr and the other for other types
*
* \return a vector containing all the elements from the ring buffer
*/
template<typename T = BufferT, std::enable_if_t<is_std_unique_ptr<T>::value &&
std::is_copy_constructible<
typename is_std_unique_ptr<T>::Ptr_type
>::value,
void> * = nullptr>
std::vector<BufferT> get_all_data_impl()
{
std::lock_guard<std::mutex> lock(mutex_);
std::vector<BufferT> result_vtr;
result_vtr.reserve(size_);
for (size_t id = 0; id < size_; ++id) {
const auto & elem(ring_buffer_[(read_index_ + id) % capacity_]);
if (elem != nullptr) {
result_vtr.emplace_back(new typename is_std_unique_ptr<T>::Ptr_type(
*elem));
} else {
result_vtr.emplace_back(nullptr);
}
}
return result_vtr;
}
template<typename T = BufferT, std::enable_if_t<
std::is_copy_constructible<T>::value, void> * = nullptr>
std::vector<BufferT> get_all_data_impl()
{
std::lock_guard<std::mutex> lock(mutex_);
std::vector<BufferT> result_vtr;
result_vtr.reserve(size_);
for (size_t id = 0; id < size_; ++id) {
result_vtr.emplace_back(ring_buffer_[(read_index_ + id) % capacity_]);
}
return result_vtr;
}
template<typename T = BufferT, std::enable_if_t<!is_std_unique_ptr<T>::value &&
!std::is_copy_constructible<T>::value, void> * = nullptr>
std::vector<BufferT> get_all_data_impl()
{
throw std::logic_error("Underlined type results in invalid get_all_data_impl()");
return {};
}
template<typename T = BufferT, std::enable_if_t<is_std_unique_ptr<T>::value &&
!std::is_copy_constructible<typename is_std_unique_ptr<T>::Ptr_type>::value,
void> * = nullptr>
std::vector<BufferT> get_all_data_impl()
{
throw std::logic_error("Underlined type in unique_ptr results in invalid get_all_data_impl()");
return {};
}
const size_t capacity_;
private:
size_t capacity_;
std::vector<BufferT> ring_buffer_;
@@ -314,7 +112,7 @@ private:
size_t read_index_;
size_t size_;
mutable std::mutex mutex_;
std::mutex mutex_;
};
} // namespace buffers

14
rclcpp/include/rclcpp/experimental/create_intra_process_buffer.hpp
View File

@@ -16,13 +16,14 @@
#define RCLCPP__EXPERIMENTAL__CREATE_INTRA_PROCESS_BUFFER_HPP_
#include <memory>
#include <stdexcept>
#include <type_traits>
#include <utility>
#include "rcl/subscription.h"
#include "rclcpp/experimental/buffers/intra_process_buffer.hpp"
#include "rclcpp/experimental/buffers/ring_buffer_implementation.hpp"
#include "rclcpp/intra_process_buffer_type.hpp"
#include "rclcpp/qos.hpp"
namespace rclcpp
{
@@ -36,13 +37,13 @@ template<
typename rclcpp::experimental::buffers::IntraProcessBuffer<MessageT, Alloc, Deleter>::UniquePtr
create_intra_process_buffer(
IntraProcessBufferType buffer_type,
const rclcpp::QoS & qos,
rmw_qos_profile_t qos,
std::shared_ptr<Alloc> allocator)
{
using MessageSharedPtr = std::shared_ptr<const MessageT>;
using MessageUniquePtr = std::unique_ptr<MessageT, Deleter>;
size_t buffer_size = qos.depth();
size_t buffer_size = qos.depth;
using rclcpp::experimental::buffers::IntraProcessBuffer;
typename IntraProcessBuffer<MessageT, Alloc, Deleter>::UniquePtr buffer;
@@ -82,9 +83,10 @@ create_intra_process_buffer(
break;
}
case IntraProcessBufferType::CallbackDefault:
default:
{
throw std::runtime_error("IntraProcessBufferType::CallbackDefault is not allowed");
throw std::runtime_error("Unrecognized IntraProcessBufferType value");
break;
}
}

1
rclcpp/include/rclcpp/experimental/executable_list.hpp
View File

@@ -15,6 +15,7 @@
#ifndef RCLCPP__EXPERIMENTAL__EXECUTABLE_LIST_HPP_
#define RCLCPP__EXPERIMENTAL__EXECUTABLE_LIST_HPP_
#include <memory>
#include <vector>
#include "rclcpp/client.hpp"

211
rclcpp/include/rclcpp/experimental/executors/events_executor/events_executor.hpp
View File

@@ -1,211 +0,0 @@
// Copyright 2023 iRobot Corporation.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__EXPERIMENTAL__EXECUTORS__EVENTS_EXECUTOR__EVENTS_EXECUTOR_HPP_
#define RCLCPP__EXPERIMENTAL__EXECUTORS__EVENTS_EXECUTOR__EVENTS_EXECUTOR_HPP_
#include <atomic>
#include <chrono>
#include <memory>
#include <vector>
#include "rclcpp/executor.hpp"
#include "rclcpp/executors/executor_entities_collection.hpp"
#include "rclcpp/executors/executor_entities_collector.hpp"
#include "rclcpp/experimental/executors/events_executor/events_executor_event_types.hpp"
#include "rclcpp/experimental/executors/events_executor/events_queue.hpp"
#include "rclcpp/experimental/executors/events_executor/simple_events_queue.hpp"
#include "rclcpp/experimental/timers_manager.hpp"
#include "rclcpp/node.hpp"
namespace rclcpp
{
namespace experimental
{
namespace executors
{
/// Events executor implementation
/**
* This executor uses an events queue and a timers manager to execute entities from its
* associated nodes and callback groups.
* ROS 2 entities allow to set callback functions that are invoked when the entity is triggered
* or has work to do. The events-executor sets these callbacks such that they push an
* event into its queue.
*
* This executor tries to reduce as much as possible the amount of maintenance operations.
* This allows to use customized `EventsQueue` classes to achieve different goals such
* as very low CPU usage, bounded memory requirement, determinism, etc.
*
* The executor uses a weak ownership model and it locks entities only while executing
* their related events.
*
* To run this executor:
* rclcpp::experimental::executors::EventsExecutor executor;
* executor.add_node(node);
* executor.spin();
* executor.remove_node(node);
*/
class EventsExecutor : public rclcpp::Executor
{
public:
RCLCPP_SMART_PTR_DEFINITIONS(EventsExecutor)
/// Default constructor. See the default constructor for Executor.
/**
* \param[in] options Options used to configure the executor.
* \param[in] events_queue The queue used to store events.
* \param[in] execute_timers_separate_thread If true, timers are executed in a separate
* thread. If false, timers are executed in the same thread as all other entities.
*/
RCLCPP_PUBLIC
EventsExecutor(
const rclcpp::ExecutorOptions & options = rclcpp::ExecutorOptions(),
rclcpp::experimental::executors::EventsQueue::UniquePtr events_queue = std::make_unique<
rclcpp::experimental::executors::SimpleEventsQueue>(),
bool execute_timers_separate_thread = false);
/// Default destructor.
RCLCPP_PUBLIC
virtual ~EventsExecutor();
/// Events executor implementation of spin.
/**
* This function will block until work comes in, execute it, and keep blocking.
* It will only be interrupted by a CTRL-C (managed by the global signal handler).
* \throws std::runtime_error when spin() called while already spinning
*/
RCLCPP_PUBLIC
void
spin() override;
/// Events executor implementation of spin some
/**
* This non-blocking function will execute the timers and events
* that were ready when this API was called, until timeout or no
* more work available. New ready-timers/events arrived while
* executing work, won't be taken into account here.
*
* Example:
* while(condition) {
* spin_some();
* sleep(); // User should have some sync work or
* // sleep to avoid a 100% CPU usage
* }
*/
RCLCPP_PUBLIC
void
spin_some(std::chrono::nanoseconds max_duration = std::chrono::nanoseconds(0)) override;
/// Events executor implementation of spin all
/**
* This non-blocking function will execute timers and events
* until timeout or no more work available. If new ready-timers/events
* arrive while executing work available, they will be executed
* as long as the timeout hasn't expired.
*
* Example:
* while(condition) {
* spin_all();
* sleep(); // User should have some sync work or
* // sleep to avoid a 100% CPU usage
* }
*/
RCLCPP_PUBLIC
void
spin_all(std::chrono::nanoseconds max_duration) override;
protected:
/// Internal implementation of spin_once
RCLCPP_PUBLIC
void
spin_once_impl(std::chrono::nanoseconds timeout) override;
/// Internal implementation of spin_some
RCLCPP_PUBLIC
void
spin_some_impl(std::chrono::nanoseconds max_duration, bool exhaustive);
/// Collect entities from callback groups and refresh the current collection with them
RCLCPP_PUBLIC
void
handle_updated_entities(bool notify) override;
private:
RCLCPP_DISABLE_COPY(EventsExecutor)
/// Execute a provided executor event if its associated entities are available
void
execute_event(const ExecutorEvent & event);
/// Rebuilds the executor's notify waitable, as we can't use the one built in the base class
void
setup_notify_waitable();
/// Refresh the current collection using the provided new_collection
void
refresh_current_collection(const rclcpp::executors::ExecutorEntitiesCollection & new_collection);
/// Create a listener callback function for the provided entity
std::function<void(size_t)>
create_entity_callback(void * entity_key, ExecutorEventType type);
/// Create a listener callback function for the provided waitable entity
std::function<void(size_t, int)>
create_waitable_callback(const rclcpp::Waitable * waitable_id);
/// Utility to add the notify waitable to an entities collection
void
add_notify_waitable_to_collection(
rclcpp::executors::ExecutorEntitiesCollection::WaitableCollection & collection);
/// Searches for the provided entity_id in the collection and returns the entity if valid
template<typename CollectionType>
typename CollectionType::EntitySharedPtr
retrieve_entity(typename CollectionType::Key entity_id, CollectionType & collection)
{
// Note: we lock the mutex because we assume that you are trying to get an element from the
// current collection... If there will be a use-case to retrieve elements also from other
// collections, we can move the mutex back to the calling codes.
std::lock_guard<std::mutex> guard(mutex_);
// Check if the entity_id is in the collection
auto it = collection.find(entity_id);
if (it == collection.end()) {
return nullptr;
}
// Check if the entity associated with the entity_id is valid
// and remove it from the collection if it isn't
auto entity = it->second.entity.lock();
if (!entity) {
collection.erase(it);
}
// Return the retrieved entity (this can be a nullptr if the entity was not valid)
return entity;
}
/// Queue where entities can push events
rclcpp::experimental::executors::EventsQueue::UniquePtr events_queue_;
/// Timers manager used to track and/or execute associated timers
std::shared_ptr<rclcpp::experimental::TimersManager> timers_manager_;
};
} // namespace executors
} // namespace experimental
} // namespace rclcpp
#endif // RCLCPP__EXPERIMENTAL__EXECUTORS__EVENTS_EXECUTOR__EVENTS_EXECUTOR_HPP_

49
rclcpp/include/rclcpp/experimental/executors/events_executor/events_executor_event_types.hpp
View File

@@ -1,49 +0,0 @@
// Copyright 2023 iRobot Corporation.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__EXPERIMENTAL__EXECUTORS__EVENTS_EXECUTOR__EVENTS_EXECUTOR_EVENT_TYPES_HPP_
#define RCLCPP__EXPERIMENTAL__EXECUTORS__EVENTS_EXECUTOR__EVENTS_EXECUTOR_EVENT_TYPES_HPP_
#include <memory>
namespace rclcpp
{
namespace experimental
{
namespace executors
{
enum ExecutorEventType
{
CLIENT_EVENT,
SUBSCRIPTION_EVENT,
SERVICE_EVENT,
TIMER_EVENT,
WAITABLE_EVENT
};
struct ExecutorEvent
{
const void * entity_key;
std::shared_ptr<void> data;
int waitable_data;
ExecutorEventType type;
size_t num_events;
};
} // namespace executors
} // namespace experimental
} // namespace rclcpp
#endif // RCLCPP__EXPERIMENTAL__EXECUTORS__EVENTS_EXECUTOR__EVENTS_EXECUTOR_EVENT_TYPES_HPP_

100
rclcpp/include/rclcpp/experimental/executors/events_executor/events_queue.hpp
View File

@@ -1,100 +0,0 @@
// Copyright 2023 iRobot Corporation.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__EXPERIMENTAL__EXECUTORS__EVENTS_EXECUTOR__EVENTS_QUEUE_HPP_
#define RCLCPP__EXPERIMENTAL__EXECUTORS__EVENTS_EXECUTOR__EVENTS_QUEUE_HPP_
#include <queue>
#include "rclcpp/macros.hpp"
#include "rclcpp/visibility_control.hpp"
#include "rclcpp/experimental/executors/events_executor/events_executor_event_types.hpp"
namespace rclcpp
{
namespace experimental
{
namespace executors
{
/**
* @brief This abstract class can be used to implement different types of queues
* where `ExecutorEvent` can be stored.
* The derived classes should choose which underlying container to use and
* the strategy for pushing and popping events.
* For example a queue implementation may be bounded or unbounded and have
* different pruning strategies.
* Implementations may or may not check the validity of events and decide how to handle
* the situation where an event is not valid anymore (e.g. a subscription history cache overruns)
*/
class EventsQueue
{
public:
RCLCPP_SMART_PTR_ALIASES_ONLY(EventsQueue)
RCLCPP_PUBLIC
EventsQueue() = default;
/**
* @brief Destruct the object.
*/
RCLCPP_PUBLIC
virtual ~EventsQueue() = default;
/**
* @brief push event into the queue
* @param event The event to push into the queue
*/
RCLCPP_PUBLIC
virtual
void
enqueue(const rclcpp::experimental::executors::ExecutorEvent & event) = 0;
/**
* @brief Extracts an event from the queue, eventually waiting until timeout
* if none is available.
* @return true if event has been found, false if timeout
*/
RCLCPP_PUBLIC
virtual
bool
dequeue(
rclcpp::experimental::executors::ExecutorEvent & event,
std::chrono::nanoseconds timeout = std::chrono::nanoseconds::max()) = 0;
/**
* @brief Test whether queue is empty
* @return true if the queue's size is 0, false otherwise.
*/
RCLCPP_PUBLIC
virtual
bool
empty() const = 0;
/**
* @brief Returns the number of elements in the queue.
* @return the number of elements in the queue.
*/
RCLCPP_PUBLIC
virtual
size_t
size() const = 0;
};
} // namespace executors
} // namespace experimental
} // namespace rclcpp
#endif // RCLCPP__EXPERIMENTAL__EXECUTORS__EVENTS_EXECUTOR__EVENTS_QUEUE_HPP_

134
rclcpp/include/rclcpp/experimental/executors/events_executor/simple_events_queue.hpp
View File

@@ -1,134 +0,0 @@
// Copyright 2023 iRobot Corporation.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__EXPERIMENTAL__EXECUTORS__EVENTS_EXECUTOR__SIMPLE_EVENTS_QUEUE_HPP_
#define RCLCPP__EXPERIMENTAL__EXECUTORS__EVENTS_EXECUTOR__SIMPLE_EVENTS_QUEUE_HPP_
#include <condition_variable>
#include <mutex>
#include <queue>
#include <utility>
#include "rclcpp/experimental/executors/events_executor/events_queue.hpp"
namespace rclcpp
{
namespace experimental
{
namespace executors
{
/**
* @brief This class implements an EventsQueue as a simple wrapper around a std::queue.
* It does not perform any checks about the size of queue, which can grow
* unbounded without being pruned.
* The simplicity of this implementation makes it suitable for optimizing CPU usage.
*/
class SimpleEventsQueue : public EventsQueue
{
public:
RCLCPP_PUBLIC
~SimpleEventsQueue() override = default;
/**
* @brief enqueue event into the queue
* Thread safe
* @param event The event to enqueue into the queue
*/
RCLCPP_PUBLIC
void
enqueue(const rclcpp::experimental::executors::ExecutorEvent & event) override
{
rclcpp::experimental::executors::ExecutorEvent single_event = event;
single_event.num_events = 1;
{
std::unique_lock<std::mutex> lock(mutex_);
for (size_t ev = 0; ev < event.num_events; ev++) {
event_queue_.push(single_event);
}
}
events_queue_cv_.notify_one();
}
/**
* @brief waits for an event until timeout, gets a single event
* Thread safe
* @return true if event, false if timeout
*/
RCLCPP_PUBLIC
bool
dequeue(
rclcpp::experimental::executors::ExecutorEvent & event,
std::chrono::nanoseconds timeout = std::chrono::nanoseconds::max()) override
{
std::unique_lock<std::mutex> lock(mutex_);
// Initialize to true because it's only needed if we have a valid timeout
bool has_data = true;
if (timeout != std::chrono::nanoseconds::max()) {
has_data =
events_queue_cv_.wait_for(lock, timeout, [this]() {return !event_queue_.empty();});
} else {
events_queue_cv_.wait(lock, [this]() {return !event_queue_.empty();});
}
if (has_data) {
event = event_queue_.front();
event_queue_.pop();
return true;
}
return false;
}
/**
* @brief Test whether queue is empty
* Thread safe
* @return true if the queue's size is 0, false otherwise.
*/
RCLCPP_PUBLIC
bool
empty() const override
{
std::unique_lock<std::mutex> lock(mutex_);
return event_queue_.empty();
}
/**
* @brief Returns the number of elements in the queue.
* Thread safe
* @return the number of elements in the queue.
*/
RCLCPP_PUBLIC
size_t
size() const override
{
std::unique_lock<std::mutex> lock(mutex_);
return event_queue_.size();
}
private:
// The underlying queue implementation
std::queue<rclcpp::experimental::executors::ExecutorEvent> event_queue_;
// Mutex to protect read/write access to the queue
mutable std::mutex mutex_;
// Variable used to notify when an event is added to the queue
std::condition_variable events_queue_cv_;
};
} // namespace executors
} // namespace experimental
} // namespace rclcpp
#endif // RCLCPP__EXPERIMENTAL__EXECUTORS__EVENTS_EXECUTOR__SIMPLE_EVENTS_QUEUE_HPP_

413
rclcpp/include/rclcpp/experimental/intra_process_manager.hpp
View File

@@ -20,25 +20,23 @@
#include <shared_mutex>
#include <algorithm>
#include <iterator>
#include <atomic>
#include <cstdint>
#include <exception>
#include <map>
#include <memory>
#include <stdexcept>
#include <string>
#include <unordered_map>
#include <utility>
#include <vector>
#include <typeinfo>
#include "rclcpp/allocator/allocator_deleter.hpp"
#include "rclcpp/experimental/buffers/intra_process_buffer.hpp"
#include "rclcpp/experimental/ros_message_intra_process_buffer.hpp"
#include "rclcpp/experimental/subscription_intra_process.hpp"
#include "rclcpp/experimental/subscription_intra_process_base.hpp"
#include "rclcpp/experimental/subscription_intra_process_buffer.hpp"
#include "rclcpp/logger.hpp"
#include "rclcpp/logging.hpp"
#include "rclcpp/macros.hpp"
#include "rclcpp/publisher_base.hpp"
#include "rclcpp/type_adapter.hpp"
#include "rclcpp/visibility_control.hpp"
namespace rclcpp
@@ -114,41 +112,9 @@ public:
* \param subscription the SubscriptionIntraProcess to register.
* \return an unsigned 64-bit integer which is the subscription's unique id.
*/
template<
typename ROSMessageType,
typename Alloc = std::allocator<ROSMessageType>
>
RCLCPP_PUBLIC
uint64_t
add_subscription(
const rclcpp::experimental::SubscriptionIntraProcessBase::SharedPtr & subscription)
{
std::unique_lock<std::shared_timed_mutex> lock(mutex_);
uint64_t sub_id = IntraProcessManager::get_next_unique_id();
subscriptions_[sub_id] = subscription;
// adds the subscription id to all the matchable publishers
for (auto & pair : publishers_) {
auto publisher = pair.second.lock();
if (!publisher) {
continue;
}
if (can_communicate(publisher, subscription)) {
uint64_t pub_id = pair.first;
insert_sub_id_for_pub(sub_id, pub_id, subscription->use_take_shared_method());
if (publisher->is_durability_transient_local() &&
subscription->is_durability_transient_local())
{
do_transient_local_publish<ROSMessageType, Alloc>(
pub_id, sub_id,
subscription->use_take_shared_method());
}
}
}
return sub_id;
}
add_subscription(rclcpp::experimental::SubscriptionIntraProcessBase::SharedPtr subscription);
/// Unregister a subscription using the subscription's unique id.
/**
@@ -165,21 +131,14 @@ public:
* This method stores the publisher intra process object, together with
* the information of its wrapped publisher (i.e. topic name and QoS).
*
* If the publisher's durability is transient local, its buffer pointer should
* be passed and the method will store it as well.
*
* In addition this generates a unique intra process id for the publisher.
*
* \param publisher publisher to be registered with the manager.
* \param buffer publisher's buffer to be stored if its duability is transient local.
* \return an unsigned 64-bit integer which is the publisher's unique id.
*/
RCLCPP_PUBLIC
uint64_t
add_publisher(
const rclcpp::PublisherBase::SharedPtr & publisher,
const rclcpp::experimental::buffers::IntraProcessBufferBase::SharedPtr & buffer =
rclcpp::experimental::buffers::IntraProcessBufferBase::SharedPtr());
add_publisher(rclcpp::PublisherBase::SharedPtr publisher);
/// Unregister a publisher using the publisher's unique id.
/**
@@ -213,19 +172,16 @@ public:
*
* \param intra_process_publisher_id the id of the publisher of this message.
* \param message the message that is being stored.
* \param allocator for allocations when buffering messages.
*/
template<
typename MessageT,
typename ROSMessageType,
typename Alloc,
typename Deleter = std::default_delete<MessageT>
>
typename Alloc = std::allocator<void>,
typename Deleter = std::default_delete<MessageT>>
void
do_intra_process_publish(
uint64_t intra_process_publisher_id,
std::unique_ptr<MessageT, Deleter> message,
typename allocator::AllocRebind<MessageT, Alloc>::allocator_type & allocator)
std::shared_ptr<typename allocator::AllocRebind<MessageT, Alloc>::allocator_type> allocator)
{
using MessageAllocTraits = allocator::AllocRebind<MessageT, Alloc>;
using MessageAllocatorT = typename MessageAllocTraits::allocator_type;
@@ -246,22 +202,21 @@ public:
// None of the buffers require ownership, so we promote the pointer
std::shared_ptr<MessageT> msg = std::move(message);
this->template add_shared_msg_to_buffers<MessageT, Alloc, Deleter, ROSMessageType>(
msg, sub_ids.take_shared_subscriptions);
this->template add_shared_msg_to_buffers<MessageT>(msg, sub_ids.take_shared_subscriptions);
} else if (!sub_ids.take_ownership_subscriptions.empty() && // NOLINT
sub_ids.take_shared_subscriptions.size() <= 1)
{
// There is at maximum 1 buffer that does not require ownership.
// So this case is equivalent to all the buffers requiring ownership
// So we this case is equivalent to all the buffers requiring ownership
// Merge the two vector of ids into a unique one
std::vector<uint64_t> concatenated_vector(
sub_ids.take_shared_subscriptions.begin(), sub_ids.take_shared_subscriptions.end());
std::vector<uint64_t> concatenated_vector(sub_ids.take_shared_subscriptions);
concatenated_vector.insert(
concatenated_vector.end(),
sub_ids.take_ownership_subscriptions.begin(),
sub_ids.take_ownership_subscriptions.end());
this->template add_owned_msg_to_buffers<MessageT, Alloc, Deleter, ROSMessageType>(
this->template add_owned_msg_to_buffers<MessageT, Alloc, Deleter>(
std::move(message),
concatenated_vector,
allocator);
@@ -270,26 +225,24 @@ public:
{
// Construct a new shared pointer from the message
// for the buffers that do not require ownership
auto shared_msg = std::allocate_shared<MessageT, MessageAllocatorT>(allocator, *message);
auto shared_msg = std::allocate_shared<MessageT, MessageAllocatorT>(*allocator, *message);
this->template add_shared_msg_to_buffers<MessageT, Alloc, Deleter, ROSMessageType>(
this->template add_shared_msg_to_buffers<MessageT>(
shared_msg, sub_ids.take_shared_subscriptions);
this->template add_owned_msg_to_buffers<MessageT, Alloc, Deleter, ROSMessageType>(
this->template add_owned_msg_to_buffers<MessageT, Alloc, Deleter>(
std::move(message), sub_ids.take_ownership_subscriptions, allocator);
}
}
template<
typename MessageT,
typename ROSMessageType,
typename Alloc,
typename Deleter = std::default_delete<MessageT>
>
typename Alloc = std::allocator<void>,
typename Deleter = std::default_delete<MessageT>>
std::shared_ptr<const MessageT>
do_intra_process_publish_and_return_shared(
uint64_t intra_process_publisher_id,
std::unique_ptr<MessageT, Deleter> message,
typename allocator::AllocRebind<MessageT, Alloc>::allocator_type & allocator)
std::shared_ptr<typename allocator::AllocRebind<MessageT, Alloc>::allocator_type> allocator)
{
using MessageAllocTraits = allocator::AllocRebind<MessageT, Alloc>;
using MessageAllocatorT = typename MessageAllocTraits::allocator_type;
@@ -310,58 +263,31 @@ public:
// If there are no owning, just convert to shared.
std::shared_ptr<MessageT> shared_msg = std::move(message);
if (!sub_ids.take_shared_subscriptions.empty()) {
this->template add_shared_msg_to_buffers<MessageT, Alloc, Deleter, ROSMessageType>(
this->template add_shared_msg_to_buffers<MessageT>(
shared_msg, sub_ids.take_shared_subscriptions);
}
return shared_msg;
} else {
// Construct a new shared pointer from the message for the buffers that
// do not require ownership and to return.
auto shared_msg = std::allocate_shared<MessageT, MessageAllocatorT>(allocator, *message);
auto shared_msg = std::allocate_shared<MessageT, MessageAllocatorT>(*allocator, *message);
if (!sub_ids.take_shared_subscriptions.empty()) {
this->template add_shared_msg_to_buffers<MessageT, Alloc, Deleter, ROSMessageType>(
this->template add_shared_msg_to_buffers<MessageT>(
shared_msg,
sub_ids.take_shared_subscriptions);
}
if (!sub_ids.take_ownership_subscriptions.empty()) {
this->template add_owned_msg_to_buffers<MessageT, Alloc, Deleter, ROSMessageType>(
this->template add_owned_msg_to_buffers<MessageT, Alloc, Deleter>(
std::move(message),
sub_ids.take_ownership_subscriptions,
allocator);
}
return shared_msg;
}
}
template<
typename MessageT,
typename Alloc,
typename Deleter,
typename ROSMessageType>
void
add_shared_msg_to_buffer(
std::shared_ptr<const MessageT> message,
uint64_t subscription_id)
{
add_shared_msg_to_buffers<MessageT, Alloc, Deleter, ROSMessageType>(message, {subscription_id});
}
template<
typename MessageT,
typename Alloc,
typename Deleter,
typename ROSMessageType>
void
add_owned_msg_to_buffer(
std::unique_ptr<MessageT, Deleter> message,
uint64_t subscription_id,
typename allocator::AllocRebind<MessageT, Alloc>::allocator_type & allocator)
{
add_owned_msg_to_buffers<MessageT, Alloc, Deleter, ROSMessageType>(
std::move(message), {subscription_id}, allocator);
}
/// Return true if the given rmw_gid_t matches any stored Publishers.
RCLCPP_PUBLIC
bool
@@ -376,73 +302,41 @@ public:
rclcpp::experimental::SubscriptionIntraProcessBase::SharedPtr
get_subscription_intra_process(uint64_t intra_process_subscription_id);
/// Return the lowest available capacity for all subscription buffers for a publisher id.
RCLCPP_PUBLIC
size_t
lowest_available_capacity(const uint64_t intra_process_publisher_id) const;
private:
struct SubscriptionInfo
{
SubscriptionInfo() = default;
rclcpp::experimental::SubscriptionIntraProcessBase::SharedPtr subscription;
rmw_qos_profile_t qos;
const char * topic_name;
bool use_take_shared_method;
};
struct PublisherInfo
{
PublisherInfo() = default;
rclcpp::PublisherBase::WeakPtr publisher;
rmw_qos_profile_t qos;
const char * topic_name;
};
struct SplittedSubscriptions
{
std::vector<uint64_t> take_shared_subscriptions;
std::vector<uint64_t> take_ownership_subscriptions;
};
/// Hash function for rmw_gid_t to enable use in unordered_map
struct rmw_gid_hash
{
std::size_t operator()(const rmw_gid_t & gid) const noexcept
{
// Using the FNV-1a hash algorithm on the gid data
constexpr std::size_t FNV_prime = 1099511628211u;
std::size_t result = 14695981039346656037u;
for (std::size_t i = 0; i < RMW_GID_STORAGE_SIZE; ++i) {
result ^= gid.data[i];
result *= FNV_prime;
}
return result;
}
};
/// Equality comparison for rmw_gid_t to enable use in unordered_map
struct rmw_gid_equal
{
bool operator()(const rmw_gid_t & lhs, const rmw_gid_t & rhs) const noexcept
{
// Compare the data bytes only.
// implementation_identifier pointer comparison is not used here because
// intra-process communication is always within the same process and RMW,
// and pointer comparison is fragile across dynamically loaded components.
return std::equal(
std::begin(lhs.data),
std::end(lhs.data),
std::begin(rhs.data));
}
};
using SubscriptionMap =
std::unordered_map<uint64_t, rclcpp::experimental::SubscriptionIntraProcessBase::WeakPtr>;
std::unordered_map<uint64_t, SubscriptionInfo>;
using PublisherMap =
std::unordered_map<uint64_t, rclcpp::PublisherBase::WeakPtr>;
using PublisherBufferMap =
std::unordered_map<uint64_t, rclcpp::experimental::buffers::IntraProcessBufferBase::WeakPtr>;
std::unordered_map<uint64_t, PublisherInfo>;
using PublisherToSubscriptionIdsMap =
std::unordered_map<uint64_t, SplittedSubscriptions>;
/// Structure to store publisher information in GID lookup map
struct PublisherInfo
{
uint64_t pub_id;
rclcpp::PublisherBase::WeakPtr publisher;
};
using GidToPublisherInfoMap =
std::unordered_map<rmw_gid_t, PublisherInfo, rmw_gid_hash, rmw_gid_equal>;
RCLCPP_PUBLIC
static
uint64_t
@@ -454,229 +348,65 @@ private:
RCLCPP_PUBLIC
bool
can_communicate(
const rclcpp::PublisherBase::SharedPtr & pub,
const rclcpp::experimental::SubscriptionIntraProcessBase::SharedPtr & sub) const;
can_communicate(PublisherInfo pub_info, SubscriptionInfo sub_info) const;
template<
typename ROSMessageType,
typename Alloc = std::allocator<ROSMessageType>
>
void do_transient_local_publish(
const uint64_t pub_id, const uint64_t sub_id,
const bool use_take_shared_method)
{
using ROSMessageTypeAllocatorTraits = allocator::AllocRebind<ROSMessageType, Alloc>;
using ROSMessageTypeAllocator = typename ROSMessageTypeAllocatorTraits::allocator_type;
using ROSMessageTypeDeleter = allocator::Deleter<ROSMessageTypeAllocator, ROSMessageType>;
auto publisher_buffer = publisher_buffers_[pub_id].lock();
if (!publisher_buffer) {
throw std::runtime_error("publisher buffer has unexpectedly gone out of scope");
}
auto buffer = std::dynamic_pointer_cast<
rclcpp::experimental::buffers::IntraProcessBuffer<
ROSMessageType,
ROSMessageTypeAllocator,
ROSMessageTypeDeleter
>
>(publisher_buffer);
if (!buffer) {
throw std::runtime_error(
"failed to dynamic cast publisher's IntraProcessBufferBase to "
"IntraProcessBuffer<ROSMessageType,ROSMessageTypeAllocator,"
"ROSMessageTypeDeleter> which can happen when the publisher and "
"subscription use different allocator types, which is not supported");
}
if (use_take_shared_method) {
auto data_vec = buffer->get_all_data_shared();
for (auto shared_data : data_vec) {
this->template add_shared_msg_to_buffer<
ROSMessageType, ROSMessageTypeAllocator, ROSMessageTypeDeleter, ROSMessageType>(
shared_data, sub_id);
}
} else {
auto data_vec = buffer->get_all_data_unique();
for (auto & owned_data : data_vec) {
auto allocator = ROSMessageTypeAllocator();
this->template add_owned_msg_to_buffer<
ROSMessageType, ROSMessageTypeAllocator, ROSMessageTypeDeleter, ROSMessageType>(
std::move(owned_data), sub_id, allocator);
}
}
}
template<
typename MessageT,
typename Alloc,
typename Deleter,
typename ROSMessageType>
template<typename MessageT>
void
add_shared_msg_to_buffers(
std::shared_ptr<const MessageT> message,
std::vector<uint64_t> subscription_ids)
{
using ROSMessageTypeAllocatorTraits = allocator::AllocRebind<ROSMessageType, Alloc>;
using ROSMessageTypeAllocator = typename ROSMessageTypeAllocatorTraits::allocator_type;
using ROSMessageTypeDeleter = allocator::Deleter<ROSMessageTypeAllocator, ROSMessageType>;
using PublishedType = typename rclcpp::TypeAdapter<MessageT>::custom_type;
using PublishedTypeAllocatorTraits = allocator::AllocRebind<PublishedType, Alloc>;
using PublishedTypeAllocator = typename PublishedTypeAllocatorTraits::allocator_type;
using PublishedTypeDeleter = allocator::Deleter<PublishedTypeAllocator, PublishedType>;
for (auto id : subscription_ids) {
auto subscription_it = subscriptions_.find(id);
if (subscription_it == subscriptions_.end()) {
throw std::runtime_error("subscription has unexpectedly gone out of scope");
}
auto subscription_base = subscription_it->second.lock();
if (subscription_base == nullptr) {
subscriptions_.erase(id);
continue;
}
auto subscription_base = subscription_it->second.subscription;
auto subscription = std::dynamic_pointer_cast<
rclcpp::experimental::SubscriptionIntraProcessBuffer<PublishedType,
PublishedTypeAllocator, PublishedTypeDeleter, ROSMessageType>
auto subscription = std::static_pointer_cast<
rclcpp::experimental::SubscriptionIntraProcess<MessageT>
>(subscription_base);
if (subscription != nullptr) {
subscription->provide_intra_process_data(message);
continue;
}
auto ros_message_subscription = std::dynamic_pointer_cast<
rclcpp::experimental::SubscriptionROSMsgIntraProcessBuffer<ROSMessageType,
ROSMessageTypeAllocator, ROSMessageTypeDeleter>
>(subscription_base);
if (nullptr == ros_message_subscription) {
throw std::runtime_error(
"failed to dynamic cast SubscriptionIntraProcessBase to "
"SubscriptionIntraProcessBuffer<MessageT, Alloc, Deleter>, or to "
"SubscriptionROSMsgIntraProcessBuffer<ROSMessageType,ROSMessageTypeAllocator,"
"ROSMessageTypeDeleter> which can happen when the publisher and "
"subscription use different allocator types, which is not supported");
}
if constexpr (rclcpp::TypeAdapter<MessageT>::is_specialized::value) {
ROSMessageType ros_msg;
rclcpp::TypeAdapter<MessageT>::convert_to_ros_message(*message, ros_msg);
ros_message_subscription->provide_intra_process_message(
std::make_shared<ROSMessageType>(ros_msg));
} else {
if constexpr (std::is_same<MessageT, ROSMessageType>::value) {
ros_message_subscription->provide_intra_process_message(message);
} else {
if constexpr (std::is_same<typename rclcpp::TypeAdapter<MessageT,
ROSMessageType>::ros_message_type, ROSMessageType>::value)
{
ROSMessageType ros_msg;
rclcpp::TypeAdapter<MessageT, ROSMessageType>::convert_to_ros_message(
*message, ros_msg);
ros_message_subscription->provide_intra_process_message(
std::make_shared<ROSMessageType>(ros_msg));
}
}
}
subscription->provide_intra_process_message(message);
}
}
template<
typename MessageT,
typename Alloc,
typename Deleter,
typename ROSMessageType>
typename Alloc = std::allocator<void>,
typename Deleter = std::default_delete<MessageT>>
void
add_owned_msg_to_buffers(
std::unique_ptr<MessageT, Deleter> message,
std::vector<uint64_t> subscription_ids,
typename allocator::AllocRebind<MessageT, Alloc>::allocator_type & allocator)
std::shared_ptr<typename allocator::AllocRebind<MessageT, Alloc>::allocator_type> allocator)
{
using MessageAllocTraits = allocator::AllocRebind<MessageT, Alloc>;
using MessageUniquePtr = std::unique_ptr<MessageT, Deleter>;
using ROSMessageTypeAllocatorTraits = allocator::AllocRebind<ROSMessageType, Alloc>;
using ROSMessageTypeAllocator = typename ROSMessageTypeAllocatorTraits::allocator_type;
using ROSMessageTypeDeleter = allocator::Deleter<ROSMessageTypeAllocator, ROSMessageType>;
using PublishedType = typename rclcpp::TypeAdapter<MessageT>::custom_type;
using PublishedTypeAllocatorTraits = allocator::AllocRebind<PublishedType, Alloc>;
using PublishedTypeAllocator = typename PublishedTypeAllocatorTraits::allocator_type;
using PublishedTypeDeleter = allocator::Deleter<PublishedTypeAllocator, PublishedType>;
for (auto it = subscription_ids.begin(); it != subscription_ids.end(); it++) {
auto subscription_it = subscriptions_.find(*it);
if (subscription_it == subscriptions_.end()) {
throw std::runtime_error("subscription has unexpectedly gone out of scope");
}
auto subscription_base = subscription_it->second.lock();
if (subscription_base == nullptr) {
subscriptions_.erase(subscription_it);
continue;
}
auto subscription_base = subscription_it->second.subscription;
auto subscription = std::dynamic_pointer_cast<
rclcpp::experimental::SubscriptionIntraProcessBuffer<PublishedType,
PublishedTypeAllocator, PublishedTypeDeleter, ROSMessageType>
auto subscription = std::static_pointer_cast<
rclcpp::experimental::SubscriptionIntraProcess<MessageT>
>(subscription_base);
if (subscription != nullptr) {
if (std::next(it) == subscription_ids.end()) {
// If this is the last subscription, give up ownership
subscription->provide_intra_process_data(std::move(message));
// Last message delivered, break from for loop
break;
} else {
// Copy the message since we have additional subscriptions to serve
Deleter deleter = message.get_deleter();
auto ptr = MessageAllocTraits::allocate(allocator, 1);
MessageAllocTraits::construct(allocator, ptr, *message);
subscription->provide_intra_process_data(MessageUniquePtr(ptr, deleter));
}
continue;
}
auto ros_message_subscription = std::dynamic_pointer_cast<
rclcpp::experimental::SubscriptionROSMsgIntraProcessBuffer<ROSMessageType,
ROSMessageTypeAllocator, ROSMessageTypeDeleter>
>(subscription_base);
if (nullptr == ros_message_subscription) {
throw std::runtime_error(
"failed to dynamic cast SubscriptionIntraProcessBase to "
"SubscriptionIntraProcessBuffer<MessageT, Alloc, Deleter>, or to "
"SubscriptionROSMsgIntraProcessBuffer<ROSMessageType,ROSMessageTypeAllocator,"
"ROSMessageTypeDeleter> which can happen when the publisher and "
"subscription use different allocator types, which is not supported");
}
if constexpr (rclcpp::TypeAdapter<MessageT, ROSMessageType>::is_specialized::value) {
ROSMessageTypeAllocator ros_message_alloc(allocator);
auto ptr = ROSMessageTypeAllocatorTraits::allocate(ros_message_alloc, 1);
ROSMessageTypeAllocatorTraits::construct(ros_message_alloc, ptr);
ROSMessageTypeDeleter deleter;
allocator::set_allocator_for_deleter(&deleter, &allocator);
rclcpp::TypeAdapter<MessageT, ROSMessageType>::convert_to_ros_message(*message, *ptr);
auto ros_msg = std::unique_ptr<ROSMessageType, ROSMessageTypeDeleter>(ptr, deleter);
ros_message_subscription->provide_intra_process_message(std::move(ros_msg));
if (std::next(it) == subscription_ids.end()) {
// If this is the last subscription, give up ownership
subscription->provide_intra_process_message(std::move(message));
} else {
if constexpr (std::is_same<MessageT, ROSMessageType>::value) {
if (std::next(it) == subscription_ids.end()) {
// If this is the last subscription, give up ownership
ros_message_subscription->provide_intra_process_message(std::move(message));
// Last message delivered, break from for loop
break;
} else {
// Copy the message since we have additional subscriptions to serve
Deleter deleter = message.get_deleter();
allocator::set_allocator_for_deleter(&deleter, &allocator);
auto ptr = MessageAllocTraits::allocate(allocator, 1);
MessageAllocTraits::construct(allocator, ptr, *message);
// Copy the message since we have additional subscriptions to serve
MessageUniquePtr copy_message;
Deleter deleter = message.get_deleter();
auto ptr = MessageAllocTraits::allocate(*allocator.get(), 1);
MessageAllocTraits::construct(*allocator.get(), ptr, *message);
copy_message = MessageUniquePtr(ptr, deleter);
ros_message_subscription->provide_intra_process_message(
MessageUniquePtr(ptr, deleter));
}
}
subscription->provide_intra_process_message(std::move(copy_message));
}
}
}
@@ -684,11 +414,8 @@ private:
PublisherToSubscriptionIdsMap pub_to_subs_;
SubscriptionMap subscriptions_;
PublisherMap publishers_;
PublisherBufferMap publisher_buffers_;
mutable std::shared_timed_mutex mutex_;
GidToPublisherInfoMap gid_to_publisher_info_;
};
} // namespace experimental

68
rclcpp/include/rclcpp/experimental/ros_message_intra_process_buffer.hpp
View File

@@ -1,68 +0,0 @@
// Copyright 2021 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__EXPERIMENTAL__ROS_MESSAGE_INTRA_PROCESS_BUFFER_HPP_
#define RCLCPP__EXPERIMENTAL__ROS_MESSAGE_INTRA_PROCESS_BUFFER_HPP_
#include <memory>
#include <string>
#include "rcl/error_handling.h"
#include "rclcpp/any_subscription_callback.hpp"
#include "rclcpp/context.hpp"
#include "rclcpp/experimental/subscription_intra_process_base.hpp"
#include "tracetools/tracetools.h"
namespace rclcpp
{
namespace experimental
{
template<
typename RosMessageT,
typename Alloc = std::allocator<void>,
typename Deleter = std::default_delete<void>
>
class SubscriptionROSMsgIntraProcessBuffer : public SubscriptionIntraProcessBase
{
public:
using ROSMessageTypeAllocatorTraits = allocator::AllocRebind<RosMessageT, Alloc>;
using ROSMessageTypeAllocator = typename ROSMessageTypeAllocatorTraits::allocator_type;
using ROSMessageTypeDeleter = allocator::Deleter<ROSMessageTypeAllocator, RosMessageT>;
using ConstMessageSharedPtr = std::shared_ptr<const RosMessageT>;
using MessageUniquePtr = std::unique_ptr<RosMessageT, ROSMessageTypeDeleter>;
SubscriptionROSMsgIntraProcessBuffer(
rclcpp::Context::SharedPtr context,
const std::string & topic_name,
const rclcpp::QoS & qos_profile)
: SubscriptionIntraProcessBase(context, topic_name, qos_profile)
{}
virtual ~SubscriptionROSMsgIntraProcessBuffer()
{}
virtual void
provide_intra_process_message(ConstMessageSharedPtr message) = 0;
virtual void
provide_intra_process_message(MessageUniquePtr message) = 0;
};
} // namespace experimental
} // namespace rclcpp
#endif // RCLCPP__EXPERIMENTAL__ROS_MESSAGE_INTRA_PROCESS_BUFFER_HPP_

207
rclcpp/include/rclcpp/experimental/subscription_intra_process.hpp
View File

@@ -15,22 +15,21 @@
#ifndef RCLCPP__EXPERIMENTAL__SUBSCRIPTION_INTRA_PROCESS_HPP_
#define RCLCPP__EXPERIMENTAL__SUBSCRIPTION_INTRA_PROCESS_HPP_
#include <rmw/types.h>
#include <rmw/rmw.h>
#include <functional>
#include <memory>
#include <stdexcept>
#include <string>
#include <type_traits>
#include <utility>
#include "rcl/types.h"
#include "rcl/error_handling.h"
#include "rclcpp/any_subscription_callback.hpp"
#include "rclcpp/context.hpp"
#include "rclcpp/experimental/buffers/intra_process_buffer.hpp"
#include "rclcpp/experimental/subscription_intra_process_buffer.hpp"
#include "rclcpp/qos.hpp"
#include "rclcpp/experimental/create_intra_process_buffer.hpp"
#include "rclcpp/experimental/subscription_intra_process_base.hpp"
#include "rclcpp/type_support_decl.hpp"
#include "rclcpp/waitable.hpp"
#include "tracetools/tracetools.h"
namespace rclcpp
@@ -40,57 +39,61 @@ namespace experimental
template<
typename MessageT,
typename SubscribedType,
typename SubscribedTypeAlloc = std::allocator<SubscribedType>,
typename SubscribedTypeDeleter = std::default_delete<SubscribedType>,
typename ROSMessageType = SubscribedType,
typename Alloc = std::allocator<void>
>
class SubscriptionIntraProcess
: public SubscriptionIntraProcessBuffer<
SubscribedType,
SubscribedTypeAlloc,
SubscribedTypeDeleter,
ROSMessageType
>
typename Alloc = std::allocator<void>,
typename Deleter = std::default_delete<MessageT>,
typename CallbackMessageT = MessageT>
class SubscriptionIntraProcess : public SubscriptionIntraProcessBase
{
using SubscriptionIntraProcessBufferT = SubscriptionIntraProcessBuffer<
SubscribedType,
SubscribedTypeAlloc,
SubscribedTypeDeleter,
ROSMessageType
>;
public:
RCLCPP_SMART_PTR_DEFINITIONS(SubscriptionIntraProcess)
using MessageAllocTraits =
typename SubscriptionIntraProcessBufferT::SubscribedTypeAllocatorTraits;
using MessageAlloc = typename SubscriptionIntraProcessBufferT::SubscribedTypeAllocator;
using ConstMessageSharedPtr = typename SubscriptionIntraProcessBufferT::ConstDataSharedPtr;
using MessageUniquePtr = typename SubscriptionIntraProcessBufferT::SubscribedTypeUniquePtr;
using BufferUniquePtr = typename SubscriptionIntraProcessBufferT::BufferUniquePtr;
using MessageAllocTraits = allocator::AllocRebind<MessageT, Alloc>;
using MessageAlloc = typename MessageAllocTraits::allocator_type;
using ConstMessageSharedPtr = std::shared_ptr<const MessageT>;
using MessageUniquePtr = std::unique_ptr<MessageT, Deleter>;
using BufferUniquePtr = typename rclcpp::experimental::buffers::IntraProcessBuffer<
MessageT,
Alloc,
Deleter
>::UniquePtr;
SubscriptionIntraProcess(
AnySubscriptionCallback<MessageT, Alloc> callback,
AnySubscriptionCallback<CallbackMessageT, Alloc> callback,
std::shared_ptr<Alloc> allocator,
rclcpp::Context::SharedPtr context,
const std::string & topic_name,
const rclcpp::QoS & qos_profile,
rmw_qos_profile_t qos_profile,
rclcpp::IntraProcessBufferType buffer_type)
: SubscriptionIntraProcessBuffer<SubscribedType, SubscribedTypeAlloc,
SubscribedTypeDeleter, ROSMessageType>(
std::make_shared<SubscribedTypeAlloc>(*allocator),
context,
topic_name,
qos_profile,
buffer_type),
: SubscriptionIntraProcessBase(topic_name, qos_profile),
any_callback_(callback)
{
TRACETOOLS_TRACEPOINT(
if (!std::is_same<MessageT, CallbackMessageT>::value) {
throw std::runtime_error("SubscriptionIntraProcess wrong callback type");
}
// Create the intra-process buffer.
buffer_ = rclcpp::experimental::create_intra_process_buffer<MessageT, Alloc, Deleter>(
buffer_type,
qos_profile,
allocator);
// Create the guard condition.
rcl_guard_condition_options_t guard_condition_options =
rcl_guard_condition_get_default_options();
gc_ = rcl_get_zero_initialized_guard_condition();
rcl_ret_t ret = rcl_guard_condition_init(
&gc_, context->get_rcl_context().get(), guard_condition_options);
if (RCL_RET_OK != ret) {
throw std::runtime_error("SubscriptionIntraProcess init error initializing guard condition");
}
TRACEPOINT(
rclcpp_subscription_callback_added,
static_cast<const void *>(this),
static_cast<const void *>(&any_callback_));
(const void *)this,
(const void *)&any_callback_);
// The callback object gets copied, so if registration is done too early/before this point
// (e.g. in `AnySubscriptionCallback::set()`), its address won't match any address used later
// in subsequent tracepoints.
@@ -99,118 +102,72 @@ public:
#endif
}
virtual ~SubscriptionIntraProcess() = default;
bool
is_ready(rcl_wait_set_t * wait_set)
{
(void)wait_set;
return buffer_->has_data();
}
void execute()
{
execute_impl<CallbackMessageT>();
}
void
add_to_wait_set(rcl_wait_set_t & wait_set) override
provide_intra_process_message(ConstMessageSharedPtr message)
{
// This block is necessary when the guard condition wakes the wait set, but
// the intra process waitable was not handled before the wait set is waited
// on again.
// Basically we're keeping the guard condition triggered so long as there is
// data in the buffer.
if (this->buffer_->has_data()) {
// If there is data still to be processed, indicate to the
// executor or waitset by triggering the guard condition.
this->trigger_guard_condition();
}
// Let the parent classes handle the rest of the work:
return SubscriptionIntraProcessBufferT::add_to_wait_set(wait_set);
buffer_->add_shared(std::move(message));
trigger_guard_condition();
}
std::shared_ptr<void>
take_data() override
void
provide_intra_process_message(MessageUniquePtr message)
{
ConstMessageSharedPtr shared_msg;
MessageUniquePtr unique_msg;
if (any_callback_.use_take_shared_method()) {
shared_msg = this->buffer_->consume_shared();
if (!shared_msg) {
return nullptr;
}
} else {
unique_msg = this->buffer_->consume_unique();
if (!unique_msg) {
return nullptr;
}
}
if (this->buffer_->has_data()) {
// If there is data still to be processed, indicate to the
// executor or waitset by triggering the guard condition.
this->trigger_guard_condition();
}
return std::static_pointer_cast<void>(
std::make_shared<std::pair<ConstMessageSharedPtr, MessageUniquePtr>>(
std::pair<ConstMessageSharedPtr, MessageUniquePtr>(
shared_msg, std::move(unique_msg)))
);
buffer_->add_unique(std::move(message));
trigger_guard_condition();
}
void execute(const std::shared_ptr<void> & data) override
bool
use_take_shared_method() const
{
execute_impl<SubscribedType>(data);
return buffer_->use_take_shared_method();
}
/// Disable callbacks from being called
/**
* This method will block, until any subscription's callbacks currently being executed are
* finished.
* This method is thread safe, and provides a safe way to atomically disable the callbacks.
*/
void disable_callbacks() override
private:
void
trigger_guard_condition()
{
SubscriptionIntraProcessBase::disable_callbacks();
any_callback_.disable();
rcl_ret_t ret = rcl_trigger_guard_condition(&gc_);
(void)ret;
}
/// Enable the callbacks to be called
/**
* This method is thread safe, and provides a safe way to atomically enable the callbacks
* in a multithreaded environment.
*/
void enable_callbacks() override
{
SubscriptionIntraProcessBase::enable_callbacks();
any_callback_.enable();
}
protected:
template<typename T>
typename std::enable_if<std::is_same<T, rcl_serialized_message_t>::value, void>::type
execute_impl(const std::shared_ptr<void> &)
execute_impl()
{
throw std::runtime_error("Subscription intra-process can't handle serialized messages");
}
template<class T>
typename std::enable_if<!std::is_same<T, rcl_serialized_message_t>::value, void>::type
execute_impl(const std::shared_ptr<void> & data)
execute_impl()
{
if (nullptr == data) {
return;
}
rmw_message_info_t msg_info;
msg_info.publisher_gid = {0, {0}};
msg_info.from_intra_process = true;
auto shared_ptr = std::static_pointer_cast<std::pair<ConstMessageSharedPtr, MessageUniquePtr>>(
data);
if (any_callback_.use_take_shared_method()) {
ConstMessageSharedPtr shared_msg = shared_ptr->first;
any_callback_.dispatch_intra_process(shared_msg, msg_info);
ConstMessageSharedPtr msg = buffer_->consume_shared();
any_callback_.dispatch_intra_process(msg, msg_info);
} else {
MessageUniquePtr unique_msg = std::move(shared_ptr->second);
any_callback_.dispatch_intra_process(std::move(unique_msg), msg_info);
MessageUniquePtr msg = buffer_->consume_unique();
any_callback_.dispatch_intra_process(std::move(msg), msg_info);
}
shared_ptr.reset();
}
AnySubscriptionCallback<MessageT, Alloc> any_callback_;
AnySubscriptionCallback<CallbackMessageT, Alloc> any_callback_;
BufferUniquePtr buffer_;
};
} // namespace experimental

189
rclcpp/include/rclcpp/experimental/subscription_intra_process_base.hpp
View File

@@ -15,18 +15,17 @@
#ifndef RCLCPP__EXPERIMENTAL__SUBSCRIPTION_INTRA_PROCESS_BASE_HPP_
#define RCLCPP__EXPERIMENTAL__SUBSCRIPTION_INTRA_PROCESS_BASE_HPP_
#include <algorithm>
#include <rmw/rmw.h>
#include <functional>
#include <memory>
#include <mutex>
#include <string>
#include <vector>
#include <utility>
#include "rcl/wait.h"
#include "rmw/impl/cpp/demangle.hpp"
#include "rcl/error_handling.h"
#include "rclcpp/guard_condition.hpp"
#include "rclcpp/logging.hpp"
#include "rclcpp/qos.hpp"
#include "rclcpp/type_support_decl.hpp"
#include "rclcpp/waitable.hpp"
namespace rclcpp
@@ -39,72 +38,28 @@ class SubscriptionIntraProcessBase : public rclcpp::Waitable
public:
RCLCPP_SMART_PTR_ALIASES_ONLY(SubscriptionIntraProcessBase)
enum class EntityType : std::size_t
{
Subscription,
};
RCLCPP_PUBLIC
SubscriptionIntraProcessBase(
rclcpp::Context::SharedPtr context,
const std::string & topic_name,
const rclcpp::QoS & qos_profile)
: gc_(context), topic_name_(topic_name), qos_profile_(qos_profile)
SubscriptionIntraProcessBase(const std::string & topic_name, rmw_qos_profile_t qos_profile)
: topic_name_(topic_name), qos_profile_(qos_profile)
{}
RCLCPP_PUBLIC
virtual ~SubscriptionIntraProcessBase() = default;
RCLCPP_PUBLIC
size_t
get_number_of_ready_guard_conditions() override {return 1;}
RCLCPP_PUBLIC
void
add_to_wait_set(rcl_wait_set_t & wait_set) override;
RCLCPP_PUBLIC
virtual
size_t
available_capacity() const = 0;
get_number_of_ready_guard_conditions() {return 1;}
RCLCPP_PUBLIC
bool
is_durability_transient_local() const;
add_to_wait_set(rcl_wait_set_t * wait_set);
bool
is_ready(const rcl_wait_set_t & wait_set) override = 0;
virtual bool
is_ready(rcl_wait_set_t * wait_set) = 0;
std::shared_ptr<void>
take_data() override = 0;
virtual void
execute() = 0;
std::shared_ptr<void>
take_data_by_entity_id([[maybe_unused]] size_t id) override
{
return take_data();
}
void
execute(const std::shared_ptr<void> & data) override = 0;
/// Disable callbacks from being called
/**
* This function temporary disable on_new_message_callback to prevent it from being called.
*/
RCLCPP_PUBLIC
virtual
void disable_callbacks();
/// Enable the callbacks to be called
/**
* This function enable the on_new_message_callback if it was previously set.
*/
RCLCPP_PUBLIC
virtual
void enable_callbacks();
virtual
bool
virtual bool
use_take_shared_method() const = 0;
RCLCPP_PUBLIC
@@ -112,123 +67,19 @@ public:
get_topic_name() const;
RCLCPP_PUBLIC
QoS
rmw_qos_profile_t
get_actual_qos() const;
/// Set a callback to be called when each new message arrives.
/**
* The callback receives a size_t which is the number of messages received
* since the last time this callback was called.
* Normally this is 1, but can be > 1 if messages were received before any
* callback was set.
*
* The callback also receives an int identifier argument.
* This is needed because a Waitable may be composed of several distinct entities,
* such as subscriptions, services, etc.
* The application should provide a generic callback function that will be then
* forwarded by the waitable to all of its entities.
* Before forwarding, a different value for the identifier argument will be
* bound to the function.
* This implies that the provided callback can use the identifier to behave
* differently depending on which entity triggered the waitable to become ready.
*
* Calling it again will clear any previously set callback.
*
* An exception will be thrown if the callback is not callable.
*
* This function is thread-safe.
*
* If you want more information available in the callback, like the subscription
* or other information, you may use a lambda with captures or std::bind.
*
* \param[in] callback functor to be called when a new message is received.
*/
void
set_on_ready_callback(std::function<void(size_t, int)> callback) override
{
if (!callback) {
throw std::invalid_argument(
"The callback passed to set_on_ready_callback "
"is not callable.");
}
// Note: we bind the int identifier argument to this waitable's entity types
auto new_callback =
[callback, this](size_t number_of_events) {
try {
callback(number_of_events, static_cast<int>(EntityType::Subscription));
} catch (const std::exception & exception) {
RCLCPP_ERROR_STREAM(
// TODO(wjwwood): get this class access to the node logger it is associated with
rclcpp::get_logger("rclcpp"),
"rclcpp::SubscriptionIntraProcessBase@" << this <<
" caught " << rmw::impl::cpp::demangle(exception) <<
" exception in user-provided callback for the 'on ready' callback: " <<
exception.what());
} catch (...) {
RCLCPP_ERROR_STREAM(
rclcpp::get_logger("rclcpp"),
"rclcpp::SubscriptionIntraProcessBase@" << this <<
" caught unhandled exception in user-provided callback " <<
"for the 'on ready' callback");
}
};
std::lock_guard<std::recursive_mutex> lock(on_new_message_callback_mutex_);
on_new_message_callback_ = new_callback;
if (unread_count_ > 0) {
if (qos_profile_.history() == HistoryPolicy::KeepAll) {
on_new_message_callback_(unread_count_);
} else {
// Use qos profile depth as upper bound for unread_count_
on_new_message_callback_(std::min(unread_count_, qos_profile_.depth()));
}
unread_count_ = 0;
}
}
/// Unset the callback registered for new messages, if any.
void
clear_on_ready_callback() override
{
std::lock_guard<std::recursive_mutex> lock(on_new_message_callback_mutex_);
on_new_message_callback_ = nullptr;
}
RCLCPP_PUBLIC
std::vector<std::shared_ptr<rclcpp::TimerBase>>
get_timers() const override
{
return {};
}
protected:
std::recursive_mutex on_new_message_callback_mutex_;
std::function<void(size_t)> on_new_message_callback_ {nullptr};
bool on_new_message_callback_disabled_{false};
size_t unread_count_{0};
rclcpp::GuardCondition gc_;
std::recursive_mutex reentrant_mutex_;
rcl_guard_condition_t gc_;
private:
virtual void
trigger_guard_condition() = 0;
void
invoke_on_new_message()
{
std::lock_guard<std::recursive_mutex> lock(this->on_new_message_callback_mutex_);
if (!on_new_message_callback_disabled_) {
if (this->on_new_message_callback_) {
this->on_new_message_callback_(1);
} else {
this->unread_count_++;
}
}
}
private:
std::string topic_name_;
QoS qos_profile_;
rmw_qos_profile_t qos_profile_;
};
} // namespace experimental

201
rclcpp/include/rclcpp/experimental/subscription_intra_process_buffer.hpp
View File

@@ -1,201 +0,0 @@
// Copyright 2021 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__EXPERIMENTAL__SUBSCRIPTION_INTRA_PROCESS_BUFFER_HPP_
#define RCLCPP__EXPERIMENTAL__SUBSCRIPTION_INTRA_PROCESS_BUFFER_HPP_
#include <memory>
#include <string>
#include <stdexcept>
#include <utility>
#include "rcl/error_handling.h"
#include "rcl/guard_condition.h"
#include "rcl/wait.h"
#include "rclcpp/experimental/buffers/intra_process_buffer.hpp"
#include "rclcpp/experimental/create_intra_process_buffer.hpp"
#include "rclcpp/experimental/subscription_intra_process_base.hpp"
#include "rclcpp/experimental/ros_message_intra_process_buffer.hpp"
#include "rclcpp/qos.hpp"
#include "rclcpp/type_support_decl.hpp"
#include "rclcpp/detail/add_guard_condition_to_rcl_wait_set.hpp"
#include "tracetools/tracetools.h"
namespace rclcpp
{
namespace experimental
{
template<
typename SubscribedType,
typename Alloc = std::allocator<SubscribedType>,
typename Deleter = std::default_delete<SubscribedType>,
/// MessageT::ros_message_type if MessageT is a TypeAdapter,
/// otherwise just MessageT.
typename ROSMessageType = SubscribedType
>
class SubscriptionIntraProcessBuffer : public SubscriptionROSMsgIntraProcessBuffer<ROSMessageType,
typename allocator::AllocRebind<ROSMessageType, Alloc>::allocator_type,
allocator::Deleter<typename allocator::AllocRebind<ROSMessageType, Alloc>::allocator_type,
ROSMessageType>>
{
public:
RCLCPP_SMART_PTR_DEFINITIONS(SubscriptionIntraProcessBuffer)
using SubscribedTypeAllocatorTraits = allocator::AllocRebind<SubscribedType, Alloc>;
using SubscribedTypeAllocator = typename SubscribedTypeAllocatorTraits::allocator_type;
using SubscribedTypeDeleter = allocator::Deleter<SubscribedTypeAllocator, SubscribedType>;
using ROSMessageTypeAllocatorTraits = allocator::AllocRebind<ROSMessageType, Alloc>;
using ROSMessageTypeAllocator = typename ROSMessageTypeAllocatorTraits::allocator_type;
using ROSMessageTypeDeleter = allocator::Deleter<ROSMessageTypeAllocator, ROSMessageType>;
using ConstMessageSharedPtr = std::shared_ptr<const ROSMessageType>;
using MessageUniquePtr = std::unique_ptr<ROSMessageType, ROSMessageTypeDeleter>;
using ConstDataSharedPtr = std::shared_ptr<const SubscribedType>;
using SubscribedTypeUniquePtr = std::unique_ptr<SubscribedType, SubscribedTypeDeleter>;
using BufferUniquePtr = typename rclcpp::experimental::buffers::IntraProcessBuffer<
SubscribedType,
Alloc,
SubscribedTypeDeleter
>::UniquePtr;
SubscriptionIntraProcessBuffer(
std::shared_ptr<Alloc> allocator,
rclcpp::Context::SharedPtr context,
const std::string & topic_name,
const rclcpp::QoS & qos_profile,
rclcpp::IntraProcessBufferType buffer_type)
: SubscriptionROSMsgIntraProcessBuffer<ROSMessageType, ROSMessageTypeAllocator,
ROSMessageTypeDeleter>(
context, topic_name, qos_profile),
subscribed_type_allocator_(*allocator)
{
allocator::set_allocator_for_deleter(&subscribed_type_deleter_, &subscribed_type_allocator_);
// Create the intra-process buffer.
buffer_ = rclcpp::experimental::create_intra_process_buffer<SubscribedType, Alloc,
SubscribedTypeDeleter>(
buffer_type,
qos_profile,
std::make_shared<Alloc>(subscribed_type_allocator_));
TRACETOOLS_TRACEPOINT(
rclcpp_ipb_to_subscription,
static_cast<const void *>(buffer_.get()),
static_cast<const void *>(this));
}
void
add_to_wait_set(rcl_wait_set_t & wait_set) override
{
if (this->buffer_->has_data()) {
this->trigger_guard_condition();
}
detail::add_guard_condition_to_rcl_wait_set(wait_set, this->gc_);
}
bool
is_ready([[maybe_unused]] const rcl_wait_set_t & wait_set) override
{
return buffer_->has_data();
}
SubscribedTypeUniquePtr
convert_ros_message_to_subscribed_type_unique_ptr(const ROSMessageType & msg)
{
if constexpr (!std::is_same<SubscribedType, ROSMessageType>::value) {
auto ptr = SubscribedTypeAllocatorTraits::allocate(subscribed_type_allocator_, 1);
SubscribedTypeAllocatorTraits::construct(subscribed_type_allocator_, ptr);
rclcpp::TypeAdapter<SubscribedType, ROSMessageType>::convert_to_custom(msg, *ptr);
return SubscribedTypeUniquePtr(ptr, subscribed_type_deleter_);
} else {
throw std::runtime_error(
"convert_ros_message_to_subscribed_type_unique_ptr "
"unexpectedly called without TypeAdapter");
}
}
void
provide_intra_process_message(ConstMessageSharedPtr message) override
{
if constexpr (std::is_same<SubscribedType, ROSMessageType>::value) {
buffer_->add_shared(std::move(message));
trigger_guard_condition();
} else {
buffer_->add_shared(convert_ros_message_to_subscribed_type_unique_ptr(*message));
trigger_guard_condition();
}
this->invoke_on_new_message();
}
void
provide_intra_process_message(MessageUniquePtr message) override
{
if constexpr (std::is_same<SubscribedType, ROSMessageType>::value) {
buffer_->add_unique(std::move(message));
trigger_guard_condition();
} else {
buffer_->add_unique(convert_ros_message_to_subscribed_type_unique_ptr(*message));
trigger_guard_condition();
}
this->invoke_on_new_message();
}
void
provide_intra_process_data(ConstDataSharedPtr message)
{
buffer_->add_shared(std::move(message));
trigger_guard_condition();
this->invoke_on_new_message();
}
void
provide_intra_process_data(SubscribedTypeUniquePtr message)
{
buffer_->add_unique(std::move(message));
trigger_guard_condition();
this->invoke_on_new_message();
}
bool
use_take_shared_method() const override
{
return buffer_->use_take_shared_method();
}
size_t available_capacity() const override
{
return buffer_->available_capacity();
}
protected:
void
trigger_guard_condition() override
{
this->gc_.trigger();
}
BufferUniquePtr buffer_;
SubscribedTypeAllocator subscribed_type_allocator_;
SubscribedTypeDeleter subscribed_type_deleter_;
};
} // namespace experimental
} // namespace rclcpp
#endif // RCLCPP__EXPERIMENTAL__SUBSCRIPTION_INTRA_PROCESS_BUFFER_HPP_

558
rclcpp/include/rclcpp/experimental/timers_manager.hpp
View File

@@ -1,558 +0,0 @@
// Copyright 2023 iRobot Corporation.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__EXPERIMENTAL__TIMERS_MANAGER_HPP_
#define RCLCPP__EXPERIMENTAL__TIMERS_MANAGER_HPP_
#include <algorithm>
#include <atomic>
#include <chrono>
#include <condition_variable>
#include <functional>
#include <memory>
#include <mutex>
#include <optional>
#include <thread>
#include <utility>
#include <vector>
#include "rclcpp/context.hpp"
#include "rclcpp/timer.hpp"
namespace rclcpp
{
namespace experimental
{
/**
* @brief This class provides a way for storing and executing timer objects.
* It provides APIs to suit the needs of different applications and execution models.
* All public APIs provided by this class are thread-safe.
*
* Timers management
* This class provides APIs to add/remove timers to/from an internal storage.
* It keeps a list of weak pointers from added timers, and locks them only when
* they need to be executed or modified.
* Timers are kept ordered in a binary-heap priority queue.
* Calls to add/remove APIs will temporarily block the execution of the timers and
* will require to reorder the internal priority queue.
* Because of this, they have a not-negligible impact on the performance.
*
* Timers execution
* The most efficient use of this class consists in letting a TimersManager object
* to spawn a thread where timers are monitored and optionally executed.
* This can be controlled via the `start` and `stop` methods.
* Ready timers can either be executed or an on_ready_callback can be used to notify
* other entities that they are ready and need to be executed.
* Other APIs allow to directly execute a given timer.
*
* This class assumes that the `execute_callback()` API of the stored timers is never
* called by other entities, but it can only be called from here.
* If this assumption is not respected, the heap property may be invalidated,
* so timers may be executed out of order, without this object noticing it.
*
*/
class TimersManager
{
public:
RCLCPP_SMART_PTR_DEFINITIONS_NOT_COPYABLE(TimersManager)
/**
* @brief Construct a new TimersManager object
*
* @param context custom context to be used.
* Shared ownership of the context is held until destruction.
* @param on_ready_callback The timers on ready callback. The presence of this function
* indicates what to do when the TimersManager is running and a timer becomes ready.
* The TimersManager is considered "running" when the `start` method has been called.
* If it's callable, it will be invoked instead of the timer callback.
* If it's not callable, then the TimersManager will
* directly execute timers when they are ready.
* All the methods that execute a given timer (e.g. `execute_head_timer`
* or `execute_ready_timer`) without the TimersManager being `running`, i.e.
* without actually explicitly waiting for the timer to become ready, will ignore this
* callback.
*/
RCLCPP_PUBLIC
TimersManager(
std::shared_ptr<rclcpp::Context> context,
std::function<void(const rclcpp::TimerBase *,
const std::shared_ptr<void> &)> on_ready_callback = nullptr);
/**
* @brief Destruct the TimersManager object making sure to stop thread and release memory.
*/
RCLCPP_PUBLIC
~TimersManager();
/**
* @brief Adds a new timer to the storage, maintaining weak ownership of it.
* Function is thread safe and it can be called regardless of the state of the timers thread.
*
* @param timer the timer to add.
* @throws std::invalid_argument if timer is a nullptr.
*/
RCLCPP_PUBLIC
void add_timer(const rclcpp::TimerBase::SharedPtr & timer);
/**
* @brief Remove a single timer from the object storage.
* Will do nothing if the timer was not being stored here.
* Function is thread safe and it can be called regardless of the state of the timers thread.
*
* @param timer the timer to remove.
*/
RCLCPP_PUBLIC
void remove_timer(const rclcpp::TimerBase::SharedPtr & timer);
/**
* @brief Remove all the timers stored in the object.
* Function is thread safe and it can be called regardless of the state of the timers thread.
*/
RCLCPP_PUBLIC
void clear();
/**
* @brief Starts a thread that takes care of executing the timers stored in this object.
* Function will throw an error if the timers thread was already running.
*/
RCLCPP_PUBLIC
void start();
/**
* @brief Stops the timers thread.
* Will do nothing if the timer thread was not running.
*/
RCLCPP_PUBLIC
void stop();
/**
* @brief Get the number of timers that are currently ready.
* This function is thread safe.
*
* @return size_t number of ready timers.
* @throws std::runtime_error if the timers thread was already running.
*/
RCLCPP_PUBLIC
size_t get_number_ready_timers();
/**
* @brief Executes head timer if ready.
* This function is thread safe.
* This function will try to execute the timer callback regardless of whether
* the TimersManager on_ready_callback was passed during construction.
*
* @return true if head timer was ready.
* @throws std::runtime_error if the timers thread was already running.
*/
RCLCPP_PUBLIC
bool execute_head_timer();
/**
* @brief Executes timer identified by its ID.
* This function is thread safe.
* This function will try to execute the timer callback regardless of whether
* the TimersManager on_ready_callback was passed during construction.
*
* @param timer_id the timer ID of the timer to execute
* @param data internal data of the timer
*/
RCLCPP_PUBLIC
void execute_ready_timer(const rclcpp::TimerBase * timer_id, const std::shared_ptr<void> & data);
/**
* @brief Get the amount of time before the next timer triggers.
* This function is thread safe.
*
* @return std::optional<std::chrono::nanoseconds> to wait,
* the returned value could be negative if the timer is already expired
* or std::chrono::nanoseconds::max() if there are no timers stored in the object.
* If the head timer was cancelled, then this will return a nullopt.
* @throws std::runtime_error if the timers thread was already running.
*/
RCLCPP_PUBLIC
std::optional<std::chrono::nanoseconds> get_head_timeout();
private:
RCLCPP_DISABLE_COPY(TimersManager)
using TimerPtr = rclcpp::TimerBase::SharedPtr;
using WeakTimerPtr = rclcpp::TimerBase::WeakPtr;
// Forward declaration
class TimersHeap;
/**
* @brief This class allows to store weak pointers to timers in a heap-like data structure.
* The root of the heap is the timer that triggers first.
* Since this class uses weak ownership, it is not guaranteed that it represents a valid heap
* at any point in time as timers could go out of scope, thus invalidating it.
* The "validate_and_lock" API allows to restore the heap property and also returns a locked version
* of the timers heap.
* This class is not thread safe and requires external mutexes to protect its usage.
*/
class WeakTimersHeap
{
public:
/**
* @brief Add a new timer to the heap. After the addition, the heap property is enforced.
*
* @param timer new timer to add.
* @return true if timer has been added, false if it was already there.
*/
bool add_timer(TimerPtr timer)
{
TimersHeap locked_heap = this->validate_and_lock();
bool added = locked_heap.add_timer(std::move(timer));
if (added) {
// Re-create the weak heap with the new timer added
this->store(locked_heap);
}
return added;
}
/**
* @brief Remove a timer from the heap. After the removal, the heap property is enforced.
*
* @param timer timer to remove.
* @return true if timer has been removed, false if it was not there.
*/
bool remove_timer(TimerPtr timer)
{
TimersHeap locked_heap = this->validate_and_lock();
bool removed = locked_heap.remove_timer(std::move(timer));
if (removed) {
// Re-create the weak heap with the timer removed
this->store(locked_heap);
}
return removed;
}
/**
* @brief Retrieve the timer identified by the key
* @param timer_id The ID of the timer to retrieve.
* @return TimerPtr if there's a timer associated with the ID, nullptr otherwise
*/
TimerPtr get_timer(const rclcpp::TimerBase * timer_id)
{
for (auto & weak_timer : weak_heap_) {
auto timer = weak_timer.lock();
if (timer.get() == timer_id) {
return timer;
}
}
return nullptr;
}
/**
* @brief Returns a const reference to the front element.
*/
const WeakTimerPtr & front() const
{
return weak_heap_.front();
}
/**
* @brief Returns whether the heap is empty or not.
*/
bool empty() const
{
return weak_heap_.empty();
}
/**
* @brief This function restores the current object as a valid heap
* and it returns a locked version of it.
* Timers that went out of scope are removed from the container.
* It is the only public API to access and manipulate the stored timers.
*
* @return TimersHeap owned timers corresponding to the current object
*/
TimersHeap validate_and_lock()
{
TimersHeap locked_heap;
bool any_timer_destroyed = false;
for (auto weak_timer : weak_heap_) {
auto timer = weak_timer.lock();
if (timer) {
// This timer is valid, so add it to the locked heap
// Note: we access friend private `owned_heap_` member field.
locked_heap.owned_heap_.push_back(std::move(timer));
} else {
// This timer went out of scope, so we don't add it to locked heap
// and we mark the corresponding flag.
// It's not needed to erase it from weak heap, as we are going to re-heapify.
// Note: we can't exit from the loop here, as we need to find all valid timers.
any_timer_destroyed = true;
}
}
// If a timer has gone out of scope, then the remaining elements do not represent
// a valid heap anymore. We need to re-heapify the timers heap.
if (any_timer_destroyed) {
locked_heap.heapify();
// Re-create the weak heap now that elements have been heapified again
this->store(locked_heap);
}
return locked_heap;
}
/**
* @brief This function allows to recreate the heap of weak pointers
* from an heap of owned pointers.
* It is required to be called after a locked TimersHeap generated from this object
* has been modified in any way (e.g. timers triggered, added, removed).
*
* @param heap timers heap to store as weak pointers
*/
void store(const TimersHeap & heap)
{
weak_heap_.clear();
// Note: we access friend private `owned_heap_` member field.
for (auto t : heap.owned_heap_) {
weak_heap_.push_back(t);
}
}
/**
* @brief Remove all timers from the heap.
*/
void clear()
{
weak_heap_.clear();
}
private:
std::vector<WeakTimerPtr> weak_heap_;
};
/**
* @brief This class is the equivalent of WeakTimersHeap but with ownership of the timers.
* It can be generated by locking the weak version.
* It provides operations to manipulate the heap.
* This class is not thread safe and requires external mutexes to protect its usage.
*/
class TimersHeap
{
public:
/**
* @brief Try to add a new timer to the heap.
* After the addition, the heap property is preserved.
* @param timer new timer to add.
* @return true if timer has been added, false if it was already there.
*/
bool add_timer(TimerPtr timer)
{
// Nothing to do if the timer is already stored here
auto it = std::find(owned_heap_.begin(), owned_heap_.end(), timer);
if (it != owned_heap_.end()) {
return false;
}
owned_heap_.push_back(std::move(timer));
std::push_heap(owned_heap_.begin(), owned_heap_.end(), timer_greater);
return true;
}
/**
* @brief Try to remove a timer from the heap.
* After the removal, the heap property is preserved.
* @param timer timer to remove.
* @return true if timer has been removed, false if it was not there.
*/
bool remove_timer(TimerPtr timer)
{
// Nothing to do if the timer is not stored here
auto it = std::find(owned_heap_.begin(), owned_heap_.end(), timer);
if (it == owned_heap_.end()) {
return false;
}
owned_heap_.erase(it);
this->heapify();
return true;
}
/**
* @brief Returns a reference to the front element.
* @return reference to front element.
*/
TimerPtr & front()
{
return owned_heap_.front();
}
/**
* @brief Returns a const reference to the front element.
* @return const reference to front element.
*/
const TimerPtr & front() const
{
return owned_heap_.front();
}
/**
* @brief Returns whether the heap is empty or not.
* @return true if the heap is empty.
*/
bool empty() const
{
return owned_heap_.empty();
}
/**
* @brief Returns the size of the heap.
* @return the number of valid timers in the heap.
*/
size_t size() const
{
return owned_heap_.size();
}
/**
* @brief Get the number of timers that are currently ready.
* @return size_t number of ready timers.
*/
size_t get_number_ready_timers() const
{
size_t ready_timers = 0;
for (TimerPtr t : owned_heap_) {
if (t->is_ready()) {
ready_timers++;
}
}
return ready_timers;
}
/**
* @brief Restore a valid heap after the root value has been replaced (e.g. timer triggered).
*/
void heapify_root()
{
// The following code is a more efficient version than doing
// pop_heap, pop_back, push_back, push_heap
// as it removes the need for the last push_heap
// Push the modified element (i.e. the current root) at the bottom of the heap
owned_heap_.push_back(owned_heap_[0]);
// Exchange first and last-1 elements and reheapify
std::pop_heap(owned_heap_.begin(), owned_heap_.end(), timer_greater);
// Remove last element
owned_heap_.pop_back();
}
/**
* @brief Completely restores the structure to a valid heap
*/
void heapify()
{
std::make_heap(owned_heap_.begin(), owned_heap_.end(), timer_greater);
}
/**
* @brief Helper function to clear the "on_reset_callback" on all associated timers.
*/
void clear_timers_on_reset_callbacks()
{
for (TimerPtr & t : owned_heap_) {
t->clear_on_reset_callback();
}
}
/**
* @brief Friend declaration to allow the `validate_and_lock()` function to access the
* underlying heap container
*/
friend TimersHeap WeakTimersHeap::validate_and_lock();
/**
* @brief Friend declaration to allow the `store()` function to access the
* underlying heap container
*/
friend void WeakTimersHeap::store(const TimersHeap & heap);
private:
/**
* @brief Comparison function between timers.
* @return true if `a` triggers after `b`.
*/
static bool timer_greater(TimerPtr a, TimerPtr b)
{
// TODO(alsora): this can cause an error if timers are using different clocks
return a->time_until_trigger() > b->time_until_trigger();
}
std::vector<TimerPtr> owned_heap_;
};
/**
* @brief Implements a loop that keeps executing ready timers.
* This function is executed in the timers thread.
*/
void run_timers();
/**
* @brief Get the amount of time before the next timer triggers.
* This function is not thread safe, acquire a mutex before calling it.
*
* @return std::optional<std::chrono::nanoseconds> to wait,
* the returned value could be negative if the timer is already expired
* or std::chrono::nanoseconds::max() if the heap is empty.
* If the head timer was cancelled, then this will return a nullopt.
* This function is not thread safe, acquire the timers_mutex_ before calling it.
*/
std::optional<std::chrono::nanoseconds> get_head_timeout_unsafe();
/**
* @brief Executes all the timers currently ready when the function is invoked
* while keeping the heap correctly sorted.
* This function is not thread safe, acquire the timers_mutex_ before calling it.
*/
void execute_ready_timers_unsafe();
// Callback to be called when timer is ready
std::function<void(const rclcpp::TimerBase *,
const std::shared_ptr<void> &)> on_ready_callback_ = nullptr;
// Thread used to run the timers execution task
std::thread timers_thread_;
// Protects access to timers
std::mutex timers_mutex_;
// Protects access to stop()
std::mutex stop_mutex_;
// Notifies the timers thread whenever timers are added/removed
std::condition_variable timers_cv_;
// Flag used as predicate by timers_cv_ that denotes one or more timers being added/removed
bool timers_updated_ {false};
// Indicates whether the timers thread is currently running or not
std::atomic<bool> running_ {false};
// Parent context used to understand if ROS is still active
std::shared_ptr<rclcpp::Context> context_;
// Timers heap storage with weak ownership
WeakTimersHeap weak_timers_heap_;
};
} // namespace experimental
} // namespace rclcpp
#endif // RCLCPP__EXPERIMENTAL__TIMERS_MANAGER_HPP_

42
rclcpp/include/rclcpp/function_traits.hpp
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@@ -80,12 +80,10 @@ struct function_traits<ReturnTypeT (*)(Args ...)>: function_traits<ReturnTypeT(A
// std::bind for object methods
template<typename ClassT, typename ReturnTypeT, typename ... Args, typename ... FArgs>
#if defined DOXYGEN_ONLY
struct function_traits<std::bind<ReturnTypeT (ClassT::*)(Args ...), FArgs ...>>
#elif defined _LIBCPP_VERSION // libc++ (Clang)
#if defined _LIBCPP_VERSION // libc++ (Clang)
struct function_traits<std::__bind<ReturnTypeT (ClassT::*)(Args ...), FArgs ...>>
#elif defined _GLIBCXX_RELEASE // glibc++ (GNU C++ >= 7.1)
struct function_traits<std::_Bind<ReturnTypeT(ClassT::* (FArgs ...))(Args ...)>>
struct function_traits<std::_Bind<ReturnTypeT(ClassT::*(FArgs ...))(Args ...)>>
#elif defined __GLIBCXX__ // glibc++ (GNU C++)
struct function_traits<std::_Bind<std::_Mem_fn<ReturnTypeT (ClassT::*)(Args ...)>(FArgs ...)>>
#elif defined _MSC_VER // MS Visual Studio
@@ -99,12 +97,10 @@ struct function_traits<
// std::bind for object const methods
template<typename ClassT, typename ReturnTypeT, typename ... Args, typename ... FArgs>
#if defined DOXYGEN_ONLY
struct function_traits<std::bind<ReturnTypeT (ClassT::*)(Args ...) const, FArgs ...>>
#elif defined _LIBCPP_VERSION // libc++ (Clang)
#if defined _LIBCPP_VERSION // libc++ (Clang)
struct function_traits<std::__bind<ReturnTypeT (ClassT::*)(Args ...) const, FArgs ...>>
#elif defined _GLIBCXX_RELEASE // glibc++ (GNU C++ >= 7.1)
struct function_traits<std::_Bind<ReturnTypeT(ClassT::* (FArgs ...))(Args ...) const>>
struct function_traits<std::_Bind<ReturnTypeT(ClassT::*(FArgs ...))(Args ...) const>>
#elif defined __GLIBCXX__ // glibc++ (GNU C++)
struct function_traits<std::_Bind<std::_Mem_fn<ReturnTypeT (ClassT::*)(Args ...) const>(FArgs ...)>>
#elif defined _MSC_VER // MS Visual Studio
@@ -118,9 +114,7 @@ struct function_traits<
// std::bind for free functions
template<typename ReturnTypeT, typename ... Args, typename ... FArgs>
#if defined DOXYGEN_ONLY
struct function_traits<std::bind<ReturnTypeT( &)(Args ...), FArgs ...>>
#elif defined _LIBCPP_VERSION // libc++ (Clang)
#if defined _LIBCPP_VERSION // libc++ (Clang)
struct function_traits<std::__bind<ReturnTypeT( &)(Args ...), FArgs ...>>
#elif defined __GLIBCXX__ // glibc++ (GNU C++)
struct function_traits<std::_Bind<ReturnTypeT(*(FArgs ...))(Args ...)>>
@@ -168,32 +162,6 @@ struct same_arguments : std::is_same<
>
{};
namespace detail
{
template<typename ReturnTypeT, typename ... Args>
struct as_std_function_helper;
template<typename ReturnTypeT, typename ... Args>
struct as_std_function_helper<ReturnTypeT, std::tuple<Args ...>>
{
using type = std::function<ReturnTypeT(Args ...)>;
};
} // namespace detail
template<
typename FunctorT,
typename FunctionTraits = function_traits<FunctorT>
>
struct as_std_function
{
using type = typename detail::as_std_function_helper<
typename FunctionTraits::return_type,
typename FunctionTraits::arguments
>::type;
};
} // namespace function_traits
} // namespace rclcpp

6
rclcpp/include/rclcpp/future_return_code.hpp
View File

@@ -42,6 +42,12 @@ RCLCPP_PUBLIC
std::string
to_string(const FutureReturnCode & future_return_code);
namespace executor
{
using FutureReturnCode [[deprecated("use rclcpp::FutureReturnCode instead")]] = FutureReturnCode;
} // namespace executor
} // namespace rclcpp
#endif // RCLCPP__FUTURE_RETURN_CODE_HPP_

303
rclcpp/include/rclcpp/generic_client.hpp
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@@ -1,303 +0,0 @@
// Copyright 2023 Sony Group Corporation.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__GENERIC_CLIENT_HPP_
#define RCLCPP__GENERIC_CLIENT_HPP_
#include <map>
#include <memory>
#include <future>
#include <string>
#include <tuple>
#include <vector>
#include <utility>
#include "rcl/client.h"
#include "rclcpp/client.hpp"
#include "rclcpp/visibility_control.hpp"
#include "rcpputils/shared_library.hpp"
#include "rosidl_typesupport_introspection_cpp/message_introspection.hpp"
namespace rclcpp
{
class GenericClient : public ClientBase
{
public:
using Request = void *; // Deserialized data pointer of request message
using Response = void *; // Deserialized data pointer of response message
using SharedResponse = std::shared_ptr<void>;
using Promise = std::promise<SharedResponse>;
using SharedPromise = std::shared_ptr<Promise>;
using Future = std::future<SharedResponse>;
using SharedFuture = std::shared_future<SharedResponse>;
using CallbackType = std::function<void (SharedFuture)>;
RCLCPP_SMART_PTR_DEFINITIONS(GenericClient)
/// A convenient GenericClient::Future and request id pair.
/**
* Public members:
* - future: a std::future<void *>.
* - request_id: the request id associated with the future.
*
* All the other methods are equivalent to the ones std::future provides.
*/
struct FutureAndRequestId
: detail::FutureAndRequestId<Future>
{
using detail::FutureAndRequestId<Future>::FutureAndRequestId;
/// See std::future::share().
SharedFuture share() noexcept {return this->future.share();}
/// Move constructor.
FutureAndRequestId(FutureAndRequestId && other) noexcept = default;
/// Deleted copy constructor, each instance is a unique owner of the future.
FutureAndRequestId(const FutureAndRequestId & other) = delete;
/// Move assignment.
FutureAndRequestId & operator=(FutureAndRequestId && other) noexcept = default;
/// Deleted copy assignment, each instance is a unique owner of the future.
FutureAndRequestId & operator=(const FutureAndRequestId & other) = delete;
/// Destructor.
~FutureAndRequestId() = default;
};
/// A convenient GenericClient::SharedFuture and request id pair.
/**
* Public members:
* - future: a std::shared_future<SharedResponse>.
* - request_id: the request id associated with the future.
*
* All the other methods are equivalent to the ones std::shared_future provides.
*/
struct SharedFutureAndRequestId
: detail::FutureAndRequestId<std::shared_future<SharedResponse>>
{
using detail::FutureAndRequestId<std::shared_future<SharedResponse>>::FutureAndRequestId;
};
GenericClient(
rclcpp::node_interfaces::NodeBaseInterface * node_base,
const rclcpp::node_interfaces::NodeGraphInterface::SharedPtr & node_graph,
const std::string & service_name,
const std::string & service_type,
rcl_client_options_t & client_options);
RCLCPP_PUBLIC
SharedResponse
create_response() override;
RCLCPP_PUBLIC
std::shared_ptr<rmw_request_id_t>
create_request_header() override;
RCLCPP_PUBLIC
void
handle_response(
const std::shared_ptr<rmw_request_id_t> & request_header,
const std::shared_ptr<void> & response) override;
/// Send a request to the service server.
/**
* This method returns a `FutureAndRequestId` instance
* that can be passed to Executor::spin_until_future_complete() to
* wait until it has been completed.
*
* If the future never completes,
* e.g. the call to Executor::spin_until_future_complete() times out,
* GenericClient::remove_pending_request() must be called to clean the client internal state.
* Not doing so will make the `GenericClient` instance to use more memory each time a response is
* not received from the service server.
*
* ```cpp
* auto future = generic_client->async_send_request(my_request);
* if (
* rclcpp::FutureReturnCode::TIMEOUT ==
* executor->spin_until_future_complete(future, timeout))
* {
* generic_client->remove_pending_request(future);
* // handle timeout
* } else {
* handle_response(future.get());
* }
* ```
*
* \param[in] request request to be send.
* \return a FutureAndRequestId instance.
*/
RCLCPP_PUBLIC
FutureAndRequestId
async_send_request(const Request & request);
/// Send a request to the service server and schedule a callback in the executor.
/**
* Similar to the previous overload, but a callback will automatically be called when a response
* is received.
*
* If the callback is never called, because we never got a reply for the service server,
* remove_pending_request() has to be called with the returned request id or
* prune_pending_requests().
* Not doing so will make the `GenericClient` instance use more memory each time a response is not
* received from the service server.
* In this case, it's convenient to setup a timer to cleanup the pending requests.
*
* \param[in] request request to be send.
* \param[in] cb callback that will be called when we get a response for this request.
* \return the request id representing the request just sent.
*/
template<
typename CallbackT,
typename std::enable_if<
rclcpp::function_traits::same_arguments<
CallbackT,
CallbackType
>::value
>::type * = nullptr
>
SharedFutureAndRequestId
async_send_request(const Request & request, CallbackT && cb)
{
Promise promise;
auto shared_future = promise.get_future().share();
auto req_id = async_send_request_impl(
request,
std::make_tuple(
CallbackType{std::forward<CallbackT>(cb)},
shared_future,
std::move(promise)));
return SharedFutureAndRequestId{std::move(shared_future), req_id};
}
/// Clean all pending requests older than a time_point.
/**
* \param[in] time_point Requests that were sent before this point are going to be removed.
* \param[inout] pruned_requests Removed requests id will be pushed to the vector
* if a pointer is provided.
* \return number of pending requests that were removed.
*/
template<typename AllocatorT = std::allocator<int64_t>>
size_t
prune_requests_older_than(
std::chrono::time_point<std::chrono::system_clock> time_point,
std::vector<int64_t, AllocatorT> * pruned_requests = nullptr)
{
return detail::prune_requests_older_than_impl(
pending_requests_,
pending_requests_mutex_,
time_point,
pruned_requests);
}
/// Clean all pending requests.
/**
* \return number of pending requests that were removed.
*/
RCLCPP_PUBLIC
size_t
prune_pending_requests();
/// Cleanup a pending request.
/**
* This notifies the client that we have waited long enough for a response from the server
* to come, we have given up and we are not waiting for a response anymore.
*
* Not calling this will make the client start using more memory for each request
* that never got a reply from the server.
*
* \param[in] request_id request id returned by async_send_request().
* \return true when a pending request was removed, false if not (e.g. a response was received).
*/
RCLCPP_PUBLIC
bool
remove_pending_request(
int64_t request_id);
/// Cleanup a pending request.
/**
* Convenient overload, same as:
*
* `GenericClient::remove_pending_request(this, future.request_id)`.
*/
RCLCPP_PUBLIC
bool
remove_pending_request(
const FutureAndRequestId & future);
/// Cleanup a pending request.
/**
* Convenient overload, same as:
*
* `GenericClient::remove_pending_request(this, future.request_id)`.
*/
RCLCPP_PUBLIC
bool
remove_pending_request(
const SharedFutureAndRequestId & future);
/// Take the next response for this client.
/**
* \sa ClientBase::take_type_erased_response().
*
* \param[out] response_out The reference to a Service Response into
* which the middleware will copy the response being taken.
* \param[out] request_header_out The request header to be filled by the
* middleware when taking, and which can be used to associate the response
* to a specific request.
* \returns true if the response was taken, otherwise false.
* \throws rclcpp::exceptions::RCLError based exceptions if the underlying
* rcl function fail.
*/
RCLCPP_PUBLIC
bool
take_response(Response response_out, rmw_request_id_t & request_header_out)
{
return this->take_type_erased_response(response_out, request_header_out);
}
protected:
using CallbackTypeValueVariant = std::tuple<CallbackType, SharedFuture, Promise>;
using CallbackInfoVariant = std::variant<
std::promise<SharedResponse>,
CallbackTypeValueVariant>; // Use variant for extension
RCLCPP_PUBLIC
int64_t
async_send_request_impl(
const Request & request,
CallbackInfoVariant value);
std::optional<CallbackInfoVariant>
get_and_erase_pending_request(
int64_t request_number);
RCLCPP_DISABLE_COPY(GenericClient)
std::map<int64_t, std::pair<
std::chrono::time_point<std::chrono::system_clock>,
CallbackInfoVariant>> pending_requests_;
std::mutex pending_requests_mutex_;
private:
std::shared_ptr<rcpputils::SharedLibrary> ts_lib_;
const rosidl_typesupport_introspection_cpp::MessageMembers * response_members_;
};
} // namespace rclcpp
#endif // RCLCPP__GENERIC_CLIENT_HPP_

117
rclcpp/include/rclcpp/generic_publisher.hpp
View File

@@ -1,117 +0,0 @@
// Copyright 2018, Bosch Software Innovations GmbH.
// Copyright 2021, Apex.AI Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__GENERIC_PUBLISHER_HPP_
#define RCLCPP__GENERIC_PUBLISHER_HPP_
#include <memory>
#include <string>
#include "rcpputils/shared_library.hpp"
#include "rclcpp/callback_group.hpp"
#include "rclcpp/macros.hpp"
#include "rclcpp/node_interfaces/node_base_interface.hpp"
#include "rclcpp/node_interfaces/node_topics_interface.hpp"
#include "rclcpp/publisher_base.hpp"
#include "rclcpp/qos.hpp"
#include "rclcpp/serialized_message.hpp"
#include "rclcpp/typesupport_helpers.hpp"
#include "rclcpp/visibility_control.hpp"
#include "rmw/rmw.h"
namespace rclcpp
{
/// %Publisher for serialized messages whose type is not known at compile time.
/**
* Since the type is not known at compile time, this is not a template, and the dynamic library
* containing type support information has to be identified and loaded based on the type name.
*
* It does not support intra-process handling.
*/
class GenericPublisher : public rclcpp::PublisherBase
{
public:
// cppcheck-suppress unknownMacro
RCLCPP_SMART_PTR_DEFINITIONS(GenericPublisher)
/// Constructor.
/**
* In order to properly publish to a topic, this publisher needs to be added to
* the node_topic_interface of the node passed into this constructor.
*
* \sa rclcpp::Node::create_generic_publisher() or rclcpp::create_generic_publisher() for
* creating an instance of this class and adding it to the node_topic_interface.
*
* \param node_base Pointer to parent node's NodeBaseInterface
* \param ts_lib Type support library, needs to correspond to topic_type
* \param topic_name Topic name
* \param topic_type Topic type
* \param qos %QoS settings
* \param options %Publisher options.
* Not all publisher options are currently respected, the only relevant options for this
* publisher are `event_callbacks`, `use_default_callbacks`, and `%callback_group`.
*/
template<typename AllocatorT = std::allocator<void>>
GenericPublisher(
rclcpp::node_interfaces::NodeBaseInterface * node_base,
std::shared_ptr<rcpputils::SharedLibrary> ts_lib,
const std::string & topic_name,
const std::string & topic_type,
const rclcpp::QoS & qos,
const rclcpp::PublisherOptionsWithAllocator<AllocatorT> & options)
: rclcpp::PublisherBase(
node_base,
topic_name,
*rclcpp::get_message_typesupport_handle(topic_type, "rosidl_typesupport_cpp", *ts_lib),
options.template to_rcl_publisher_options<rclcpp::SerializedMessage>(qos),
// NOTE(methylDragon): Passing these args separately is necessary for event binding
options.event_callbacks,
options.use_default_callbacks),
ts_lib_(ts_lib)
{}
RCLCPP_PUBLIC
virtual ~GenericPublisher() = default;
/// Publish a rclcpp::SerializedMessage.
RCLCPP_PUBLIC
void publish(const rclcpp::SerializedMessage & message);
/**
* Publish a rclcpp::SerializedMessage via loaned message after de-serialization.
*
* \param message a serialized message
* \throws anything rclcpp::exceptions::throw_from_rcl_error can show
*/
RCLCPP_PUBLIC
void publish_as_loaned_msg(const rclcpp::SerializedMessage & message);
private:
// The type support library should stay loaded, so it is stored in the GenericPublisher
std::shared_ptr<rcpputils::SharedLibrary> ts_lib_;
void * borrow_loaned_message();
void deserialize_message(
const rmw_serialized_message_t & serialized_message,
void * deserialized_msg);
void publish_loaned_message(void * loaned_message);
};
} // namespace rclcpp
#endif // RCLCPP__GENERIC_PUBLISHER_HPP_

308
rclcpp/include/rclcpp/generic_service.hpp
View File

@@ -1,308 +0,0 @@
// Copyright 2024 Sony Group Corporation.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__GENERIC_SERVICE_HPP_
#define RCLCPP__GENERIC_SERVICE_HPP_
#include <cstdlib>
#include <functional>
#include <memory>
#include <string>
#include <type_traits>
#include <utility>
#include <variant>
#include "rclcpp/typesupport_helpers.hpp"
#include "rosidl_runtime_c/service_type_support_struct.h"
#include "rosidl_typesupport_introspection_cpp/identifier.hpp"
#include "rosidl_typesupport_introspection_cpp/service_introspection.hpp"
#include "service.hpp"
namespace rclcpp
{
class GenericService;
class GenericServiceCallback
{
public:
using SharedRequest = std::shared_ptr<void>;
using SharedResponse = std::shared_ptr<void>;
GenericServiceCallback()
: callback_(std::monostate{})
{}
template<
typename CallbackT,
typename std::enable_if_t<!detail::can_be_nullptr<CallbackT>::value, int> = 0>
void
set(CallbackT && callback)
{
// Workaround Windows issue with std::bind
if constexpr (
rclcpp::function_traits::same_arguments<
CallbackT,
SharedPtrCallback
>::value)
{
callback_.template emplace<SharedPtrCallback>(callback);
} else if constexpr ( // NOLINT, can't satisfy both cpplint and uncrustify
rclcpp::function_traits::same_arguments<
CallbackT,
SharedPtrWithRequestHeaderCallback
>::value)
{
callback_.template emplace<SharedPtrWithRequestHeaderCallback>(callback);
} else if constexpr ( // NOLINT
rclcpp::function_traits::same_arguments<
CallbackT,
SharedPtrDeferResponseCallback
>::value)
{
callback_.template emplace<SharedPtrDeferResponseCallback>(callback);
} else if constexpr ( // NOLINT
rclcpp::function_traits::same_arguments<
CallbackT,
SharedPtrDeferResponseCallbackWithServiceHandle
>::value)
{
callback_.template emplace<SharedPtrDeferResponseCallbackWithServiceHandle>(callback);
} else {
// the else clause is not needed, but anyways we should only be doing this instead
// of all the above workaround ...
callback_ = std::forward<CallbackT>(callback);
}
}
template<
typename CallbackT,
typename std::enable_if_t<detail::can_be_nullptr<CallbackT>::value, int> = 0>
void
set(CallbackT && callback)
{
if (!callback) {
throw std::invalid_argument("AnyServiceCallback::set(): callback cannot be nullptr");
}
// Workaround Windows issue with std::bind
if constexpr (
rclcpp::function_traits::same_arguments<
CallbackT,
SharedPtrCallback
>::value)
{
callback_.template emplace<SharedPtrCallback>(callback);
} else if constexpr ( // NOLINT
rclcpp::function_traits::same_arguments<
CallbackT,
SharedPtrWithRequestHeaderCallback
>::value)
{
callback_.template emplace<SharedPtrWithRequestHeaderCallback>(callback);
} else if constexpr ( // NOLINT
rclcpp::function_traits::same_arguments<
CallbackT,
SharedPtrDeferResponseCallback
>::value)
{
callback_.template emplace<SharedPtrDeferResponseCallback>(callback);
} else if constexpr ( // NOLINT
rclcpp::function_traits::same_arguments<
CallbackT,
SharedPtrDeferResponseCallbackWithServiceHandle
>::value)
{
callback_.template emplace<SharedPtrDeferResponseCallbackWithServiceHandle>(callback);
} else {
// the else clause is not needed, but anyways we should only be doing this instead
// of all the above workaround ...
callback_ = std::forward<CallbackT>(callback);
}
}
SharedResponse
dispatch(
const std::shared_ptr<rclcpp::GenericService> & service_handle,
const std::shared_ptr<rmw_request_id_t> & request_header,
SharedRequest request,
SharedRequest response)
{
TRACETOOLS_TRACEPOINT(callback_start, static_cast<const void *>(this), false);
if (std::holds_alternative<std::monostate>(callback_)) {
// TODO(ivanpauno): Remove the set method, and force the users of this class
// to pass a callback at construnciton.
throw std::runtime_error{"unexpected request without any callback set"};
}
if (std::holds_alternative<SharedPtrDeferResponseCallback>(callback_)) {
const auto & cb = std::get<SharedPtrDeferResponseCallback>(callback_);
cb(request_header, std::move(request));
return nullptr;
}
if (std::holds_alternative<SharedPtrDeferResponseCallbackWithServiceHandle>(callback_)) {
const auto & cb = std::get<SharedPtrDeferResponseCallbackWithServiceHandle>(callback_);
cb(service_handle, request_header, std::move(request));
return nullptr;
}
if (std::holds_alternative<SharedPtrCallback>(callback_)) {
(void)request_header;
const auto & cb = std::get<SharedPtrCallback>(callback_);
cb(std::move(request), response);
} else if (std::holds_alternative<SharedPtrWithRequestHeaderCallback>(callback_)) {
const auto & cb = std::get<SharedPtrWithRequestHeaderCallback>(callback_);
cb(request_header, std::move(request), response);
}
TRACETOOLS_TRACEPOINT(callback_end, static_cast<const void *>(this));
return response;
}
void register_callback_for_tracing()
{
#ifndef TRACETOOLS_DISABLED
std::visit(
[this](auto && arg) {
if (TRACETOOLS_TRACEPOINT_ENABLED(rclcpp_callback_register)) {
char * symbol = tracetools::get_symbol(arg);
TRACETOOLS_DO_TRACEPOINT(
rclcpp_callback_register,
static_cast<const void *>(this),
symbol);
std::free(symbol);
}
}, callback_);
#endif // TRACETOOLS_DISABLED
}
private:
using SharedPtrCallback = std::function<void (SharedRequest, SharedResponse)>;
using SharedPtrWithRequestHeaderCallback = std::function<
void (
std::shared_ptr<rmw_request_id_t>,
SharedRequest,
SharedResponse
)>;
using SharedPtrDeferResponseCallback = std::function<
void (
std::shared_ptr<rmw_request_id_t>,
SharedRequest
)>;
using SharedPtrDeferResponseCallbackWithServiceHandle = std::function<
void (
std::shared_ptr<rclcpp::GenericService>,
std::shared_ptr<rmw_request_id_t>,
SharedRequest
)>;
std::variant<
std::monostate,
SharedPtrCallback,
SharedPtrWithRequestHeaderCallback,
SharedPtrDeferResponseCallback,
SharedPtrDeferResponseCallbackWithServiceHandle> callback_;
};
class GenericService
: public ServiceBase,
public std::enable_shared_from_this<GenericService>
{
public:
using Request = void *; // Serialized/Deserialized data pointer of request message
using Response = void *; // Serialized/Deserialized data pointer of response message
using SharedRequest = std::shared_ptr<void>;
using SharedResponse = std::shared_ptr<void>;
using CallbackType = std::function<void (const SharedRequest, SharedResponse)>;
using CallbackWithHeaderType =
std::function<void (const std::shared_ptr<rmw_request_id_t>,
const SharedRequest,
SharedResponse)>;
RCLCPP_SMART_PTR_DEFINITIONS(GenericService)
/// Default constructor.
/**
* The constructor for a Service is almost never called directly.
* Instead, services should be instantiated through the function
* rclcpp::create_service().
*
* \param[in] node_handle NodeBaseInterface pointer that is used in part of the setup.
* \param[in] service_name Name of the topic to publish to.
* \param[in] service_type The name of service type, e.g. "std_srvs/srv/SetBool".
* \param[in] any_callback User defined callback to call when a client request is received.
* \param[in] service_options options for the service.
*/
RCLCPP_PUBLIC
GenericService(
const std::shared_ptr<rcl_node_t> & node_handle,
const std::string & service_name,
const std::string & service_type,
GenericServiceCallback any_callback,
rcl_service_options_t & service_options);
GenericService() = delete;
RCLCPP_PUBLIC
virtual ~GenericService() {}
/// Take the next request from the service.
/**
* \sa ServiceBase::take_type_erased_request().
*
* \param[out] request_out The reference to a service deserialized request object
* into which the middleware will copy the taken request.
* \param[out] request_id_out The output id for the request which can be used
* to associate response with this request in the future.
* \returns true if the request was taken, otherwise false.
* \throws rclcpp::exceptions::RCLError based exceptions if the underlying
* rcl calls fail.
*/
RCLCPP_PUBLIC
bool
take_request(SharedRequest & request_out, rmw_request_id_t & request_id_out);
RCLCPP_PUBLIC
std::shared_ptr<void>
create_request() override;
RCLCPP_PUBLIC
std::shared_ptr<void>
create_response();
RCLCPP_PUBLIC
std::shared_ptr<rmw_request_id_t>
create_request_header() override;
RCLCPP_PUBLIC
void
handle_request(
const std::shared_ptr<rmw_request_id_t> & request_header,
const std::shared_ptr<void> & request) override;
RCLCPP_PUBLIC
void
send_response(rmw_request_id_t & req_id, SharedResponse & response);
private:
RCLCPP_DISABLE_COPY(GenericService)
GenericServiceCallback any_callback_;
std::shared_ptr<rcpputils::SharedLibrary> ts_lib_;
const rosidl_typesupport_introspection_cpp::MessageMembers * request_members_;
const rosidl_typesupport_introspection_cpp::MessageMembers * response_members_;
};
} // namespace rclcpp
#endif // RCLCPP__GENERIC_SERVICE_HPP_

192
rclcpp/include/rclcpp/generic_subscription.hpp
View File

@@ -1,192 +0,0 @@
// Copyright 2018, Bosch Software Innovations GmbH.
// Copyright 2021, Apex.AI Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__GENERIC_SUBSCRIPTION_HPP_
#define RCLCPP__GENERIC_SUBSCRIPTION_HPP_
#include <functional>
#include <memory>
#include <string>
#include "rcpputils/shared_library.hpp"
#include "rclcpp/callback_group.hpp"
#include "rclcpp/macros.hpp"
#include "rclcpp/node_interfaces/node_base_interface.hpp"
#include "rclcpp/node_interfaces/node_topics_interface.hpp"
#include "rclcpp/qos.hpp"
#include "rclcpp/serialized_message.hpp"
#include "rclcpp/subscription_base.hpp"
#include "rclcpp/typesupport_helpers.hpp"
#include "rclcpp/visibility_control.hpp"
namespace rclcpp
{
/// %Subscription for serialized messages whose type is not known at compile time.
/**
* Since the type is not known at compile time, this is not a template, and the dynamic library
* containing type support information has to be identified and loaded based on the type name.
*
* It does not support intra-process handling.
*/
class GenericSubscription : public rclcpp::SubscriptionBase
{
public:
// cppcheck-suppress unknownMacro
RCLCPP_SMART_PTR_DEFINITIONS(GenericSubscription)
/// Constructor.
/**
* In order to properly subscribe to a topic, this subscription needs to be added to
* the node_topic_interface of the node passed into this constructor.
*
* \sa rclcpp::Node::create_generic_subscription() or rclcpp::create_generic_subscription() for
* creating an instance of this class and adding it to the node_topic_interface.
*
* \param node_base Pointer to parent node's NodeBaseInterface
* \param ts_lib Type support library, needs to correspond to topic_type
* \param topic_name Topic name
* \param topic_type Topic type
* \param qos %QoS settings
* \param callback Callback for new messages of serialized form
* \param options %Subscription options.
* Not all subscription options are currently respected, the only relevant options for this
* subscription are `event_callbacks`, `use_default_callbacks`, `ignore_local_publications`, and
* `%callback_group`.
*/
template<typename AllocatorT = std::allocator<void>>
GenericSubscription(
rclcpp::node_interfaces::NodeBaseInterface * node_base,
const std::shared_ptr<rcpputils::SharedLibrary> ts_lib,
const std::string & topic_name,
const std::string & topic_type,
const rclcpp::QoS & qos,
AnySubscriptionCallback<rclcpp::SerializedMessage, AllocatorT> callback,
const rclcpp::SubscriptionOptionsWithAllocator<AllocatorT> & options)
: SubscriptionBase(
node_base,
*rclcpp::get_message_typesupport_handle(topic_type, "rosidl_typesupport_cpp", *ts_lib),
topic_name,
options.to_rcl_subscription_options(qos),
options.event_callbacks,
options.use_default_callbacks,
DeliveredMessageKind::SERIALIZED_MESSAGE),
any_callback_(callback),
ts_lib_(ts_lib)
{
TRACETOOLS_TRACEPOINT(
rclcpp_subscription_init,
static_cast<const void *>(get_subscription_handle().get()),
static_cast<const void *>(this));
TRACETOOLS_TRACEPOINT(
rclcpp_subscription_callback_added,
static_cast<const void *>(this),
static_cast<const void *>(&any_callback_));
#ifndef TRACETOOLS_DISABLED
any_callback_.register_callback_for_tracing();
#endif
}
RCLCPP_PUBLIC
virtual ~GenericSubscription() = default;
// Same as create_serialized_message() as the subscription is to serialized_messages only
RCLCPP_PUBLIC
std::shared_ptr<void> create_message() override;
RCLCPP_PUBLIC
std::shared_ptr<rclcpp::SerializedMessage> create_serialized_message() override;
/// Disable callbacks from being called
/**
* This method will block, until any subscription's callbacks provided during construction
* currently being executed are finished.
* \note This method also temporary removes the on new message callback and all
* on new event callbacks from the rmw layer to prevent them from being called. However, this
* method will not block and wait until the currently executing on_new_[message]event callbacks
* are finished.
*/
RCLCPP_PUBLIC
void disable_callbacks() override;
/// Enable the callbacks to be called
/**
* This method is thread safe, and provides a safe way to atomically enable the callbacks
* in a multithreaded environment.
*/
RCLCPP_PUBLIC
void enable_callbacks() override;
/// Cast the message to a rclcpp::SerializedMessage and call the callback.
RCLCPP_PUBLIC
void handle_message(
std::shared_ptr<void> & message, const rclcpp::MessageInfo & message_info) override;
/// Handle dispatching rclcpp::SerializedMessage to user callback.
RCLCPP_PUBLIC
void
handle_serialized_message(
const std::shared_ptr<rclcpp::SerializedMessage> & serialized_message,
const rclcpp::MessageInfo & message_info) override;
/// This function is currently not implemented.
RCLCPP_PUBLIC
void handle_loaned_message(
void * loaned_message, const rclcpp::MessageInfo & message_info) override;
// Same as return_serialized_message() as the subscription is to serialized_messages only
RCLCPP_PUBLIC
void return_message(std::shared_ptr<void> & message) override;
RCLCPP_PUBLIC
void return_serialized_message(std::shared_ptr<rclcpp::SerializedMessage> & message) override;
// DYNAMIC TYPE ==================================================================================
RCLCPP_PUBLIC
rclcpp::dynamic_typesupport::DynamicMessageType::SharedPtr get_shared_dynamic_message_type()
override;
RCLCPP_PUBLIC
rclcpp::dynamic_typesupport::DynamicMessage::SharedPtr get_shared_dynamic_message() override;
RCLCPP_PUBLIC
rclcpp::dynamic_typesupport::DynamicSerializationSupport::SharedPtr
get_shared_dynamic_serialization_support() override;
RCLCPP_PUBLIC
rclcpp::dynamic_typesupport::DynamicMessage::SharedPtr create_dynamic_message() override;
RCLCPP_PUBLIC
void return_dynamic_message(
rclcpp::dynamic_typesupport::DynamicMessage::SharedPtr & message) override;
RCLCPP_PUBLIC
void handle_dynamic_message(
const rclcpp::dynamic_typesupport::DynamicMessage::SharedPtr & message,
const rclcpp::MessageInfo & message_info) override;
private:
RCLCPP_DISABLE_COPY(GenericSubscription)
AnySubscriptionCallback<rclcpp::SerializedMessage, std::allocator<void>> any_callback_;
// The type support library should stay loaded, so it is stored in the GenericSubscription
std::shared_ptr<rcpputils::SharedLibrary> ts_lib_;
};
} // namespace rclcpp
#endif // RCLCPP__GENERIC_SUBSCRIPTION_HPP_

98
rclcpp/include/rclcpp/get_message_type_support_handle.hpp
View File

@@ -1,98 +0,0 @@
// Copyright 2021 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__GET_MESSAGE_TYPE_SUPPORT_HANDLE_HPP_
#define RCLCPP__GET_MESSAGE_TYPE_SUPPORT_HANDLE_HPP_
#include <type_traits>
#include "rosidl_runtime_cpp/traits.hpp"
#include "rosidl_runtime_cpp/message_type_support_decl.hpp"
#include "rosidl_typesupport_cpp/message_type_support.hpp"
#include "rclcpp/type_adapter.hpp"
/// Versions of rosidl_typesupport_cpp::get_message_type_support_handle that handle adapted types.
namespace rclcpp
{
#ifdef DOXYGEN_ONLY
/// Returns the message type support for the given `MessageT` type.
/**
* \tparam MessageT an actual ROS message type or an adapted type using `rclcpp::TypeAdapter`
*/
template<typename MessageT>
constexpr const rosidl_message_type_support_t & get_message_type_support_handle();
#else
template<typename MessageT>
constexpr
typename std::enable_if_t<
rosidl_generator_traits::is_message<MessageT>::value,
const rosidl_message_type_support_t &
>
get_message_type_support_handle()
{
auto handle = rosidl_typesupport_cpp::get_message_type_support_handle<MessageT>();
if (!handle) {
throw std::runtime_error("Type support handle unexpectedly nullptr");
}
return *handle;
}
template<typename AdaptedType>
constexpr
typename std::enable_if_t<
!rosidl_generator_traits::is_message<AdaptedType>::value &&
rclcpp::TypeAdapter<AdaptedType>::is_specialized::value,
const rosidl_message_type_support_t &
>
get_message_type_support_handle()
{
auto handle = rosidl_typesupport_cpp::get_message_type_support_handle<
typename TypeAdapter<AdaptedType>::ros_message_type
>();
if (!handle) {
throw std::runtime_error("Type support handle unexpectedly nullptr");
}
return *handle;
}
// This specialization is a pass through runtime check, which allows a better
// static_assert to catch this issue further down the line.
// This should never get to be called in practice, and is purely defensive.
template<
typename AdaptedType
>
constexpr
typename std::enable_if_t<
!rosidl_generator_traits::is_message<AdaptedType>::value &&
!TypeAdapter<AdaptedType>::is_specialized::value,
const rosidl_message_type_support_t &
>
get_message_type_support_handle()
{
throw std::runtime_error(
"this specialization of rclcpp::get_message_type_support_handle() "
"should never be called");
}
#endif
} // namespace rclcpp
#endif // RCLCPP__GET_MESSAGE_TYPE_SUPPORT_HANDLE_HPP_

31
rclcpp/include/rclcpp/graph_listener.hpp
View File

@@ -24,7 +24,6 @@
#include "rcl/guard_condition.h"
#include "rcl/wait.h"
#include "rclcpp/context.hpp"
#include "rclcpp/guard_condition.hpp"
#include "rclcpp/macros.hpp"
#include "rclcpp/node_interfaces/node_graph_interface.hpp"
#include "rclcpp/visibility_control.hpp"
@@ -64,7 +63,7 @@ class GraphListener : public std::enable_shared_from_this<GraphListener>
{
public:
RCLCPP_PUBLIC
explicit GraphListener(const rclcpp::Context::SharedPtr & parent_context);
explicit GraphListener(std::shared_ptr<rclcpp::Context> parent_context);
RCLCPP_PUBLIC
virtual ~GraphListener();
@@ -74,8 +73,6 @@ public:
* This function is thread-safe.
*
* \throws GraphListenerShutdownError if the GraphListener is shutdown
* \throws std::runtime if the parent context was destroyed
* \throws anything rclcpp::exceptions::throw_from_rcl_error can throw.
*/
RCLCPP_PUBLIC
virtual
@@ -128,11 +125,6 @@ public:
* If start_if_not_started() was never called, this function still succeeds,
* but start_if_not_started() still cannot be called after this function.
*
* Note that if you override this method, but leave shutdown to be called in
* the destruction of this base class, it will not call the overridden
* version from your base class.
* So you need to ensure you call your class's shutdown() in its destructor.
*
* \throws rclcpp::execptions::RCLError from rcl_guard_condition_fini()
* \throws rclcpp::execptions::RCLError from rcl_wait_set_fini()
* \throws std::system_error anything std::mutex::lock() throws
@@ -154,12 +146,6 @@ public:
bool
is_shutdown();
/// Return true if the graph listener was started.
RCLCPP_PUBLIC
virtual
bool
is_started();
protected:
/// Main function for the listening thread.
RCLCPP_PUBLIC
@@ -172,22 +158,14 @@ protected:
void
run_loop();
RCLCPP_PUBLIC
void
init_wait_set();
RCLCPP_PUBLIC
void
cleanup_wait_set();
private:
RCLCPP_DISABLE_COPY(GraphListener)
/** \internal */
void
__shutdown();
__shutdown(bool);
std::shared_ptr<rcl_context_t> rcl_parent_context_;
rclcpp::Context::WeakPtr parent_context_;
std::thread listener_thread_;
bool is_started_;
@@ -198,7 +176,8 @@ private:
mutable std::mutex node_graph_interfaces_mutex_;
std::vector<rclcpp::node_interfaces::NodeGraphInterface *> node_graph_interfaces_;
rclcpp::GuardCondition interrupt_guard_condition_;
rcl_guard_condition_t interrupt_guard_condition_ = rcl_get_zero_initialized_guard_condition();
rcl_guard_condition_t * shutdown_guard_condition_;
rcl_wait_set_t wait_set_ = rcl_get_zero_initialized_wait_set();
};

52
rclcpp/include/rclcpp/guard_condition.hpp
View File

@@ -40,34 +40,30 @@ public:
* Defaults to using the global default context singleton.
* Shared ownership of the context is held with the guard condition until
* destruction.
* \param[in] guard_condition_options Optional guard condition options to be used.
* Defaults to using the default guard condition options.
* \throws std::invalid_argument if the context is nullptr.
* \throws rclcpp::exceptions::RCLError based exceptions when underlying
* rcl functions fail.
*/
RCLCPP_PUBLIC
explicit GuardCondition(
const rclcpp::Context::SharedPtr & context =
rclcpp::contexts::get_global_default_context(),
rcl_guard_condition_options_t guard_condition_options =
rcl_guard_condition_get_default_options());
rclcpp::Context::SharedPtr context =
rclcpp::contexts::get_global_default_context());
RCLCPP_PUBLIC
virtual
~GuardCondition();
/// Return the underlying rcl guard condition structure.
/// Return the context used when creating this guard condition.
RCLCPP_PUBLIC
rcl_guard_condition_t &
get_rcl_guard_condition();
rclcpp::Context::SharedPtr
get_context() const;
/// Return the underlying rcl guard condition structure.
RCLCPP_PUBLIC
const rcl_guard_condition_t &
get_rcl_guard_condition() const;
/// Signal that the condition has been met, notifying both the wait set and listeners, if any.
/// Notify the wait set waiting on this condition, if any, that the condition had been met.
/**
* This function is thread-safe, and may be called concurrently with waiting
* on this guard condition in a wait set.
@@ -93,44 +89,10 @@ public:
bool
exchange_in_use_by_wait_set_state(bool in_use_state);
/// Adds the guard condition to a waitset
/**
* This function is thread-safe.
* \param[in] wait_set pointer to a wait set where to add the guard condition
*/
RCLCPP_PUBLIC
void
add_to_wait_set(rcl_wait_set_t & wait_set);
/// Set a callback to be called whenever the guard condition is triggered.
/**
* The callback receives a size_t which is the number of times the guard condition was triggered
* since the last time this callback was called.
* Normally this is 1, but can be > 1 if the guard condition was triggered before any
* callback was set.
*
* Calling it again will clear any previously set callback.
*
* This function is thread-safe.
*
* If you want more information available in the callback, like the guard condition
* or other information, you may use a lambda with captures or std::bind.
*
* \param[in] callback functor to be called when the guard condition is triggered
*/
RCLCPP_PUBLIC
void
set_on_trigger_callback(const std::function<void(size_t)> & callback);
protected:
rclcpp::Context::SharedPtr context_;
rcl_guard_condition_t rcl_guard_condition_;
std::atomic<bool> in_use_by_wait_set_{false};
std::recursive_mutex reentrant_mutex_;
std::function<void(size_t)> on_trigger_callback_{nullptr};
size_t unread_count_{0};
// the type of wait_set_ is actually rcl_wait_set_t *, but it's never
// dereferenced, only compared to, so make it void * to avoid accidental use
void * wait_set_{nullptr};
};
} // namespace rclcpp

49
rclcpp/include/rclcpp/init_options.hpp
View File

@@ -16,7 +16,6 @@
#define RCLCPP__INIT_OPTIONS_HPP_
#include <memory>
#include <mutex>
#include "rcl/init_options.h"
#include "rclcpp/visibility_control.hpp"
@@ -29,23 +28,13 @@ class InitOptions
{
public:
/// If true, the context will be shutdown on SIGINT by the signal handler (if it was installed).
bool shutdown_on_signal = true;
bool shutdown_on_sigint = true;
/// Constructor
/**
* It allows you to specify the allocator used within the init options.
* \param[in] allocator used allocate memory within the init options
* \throws anything rclcpp::exceptions::throw_from_rcl_error can throw.
*/
/// Constructor which allows you to specify the allocator used within the init options.
RCLCPP_PUBLIC
explicit InitOptions(rcl_allocator_t allocator = rcl_get_default_allocator());
/// Constructor which is initialized by an existing init_options.
/**
* Initialized by an existing init_options.
* \param[in] init_options rcl_init_options_t to initialized
* \throws anything rclcpp::exceptions::throw_from_rcl_error can throw.
*/
RCLCPP_PUBLIC
explicit InitOptions(const rcl_init_options_t & init_options);
@@ -53,16 +42,6 @@ public:
RCLCPP_PUBLIC
InitOptions(const InitOptions & other);
/// Return `true` if logging should be initialized when `rclcpp::Context::init` is called.
RCLCPP_PUBLIC
bool
auto_initialize_logging() const;
/// Set flag indicating if logging should be initialized or not.
RCLCPP_PUBLIC
InitOptions &
auto_initialize_logging(bool initialize_logging);
/// Assignment operator.
RCLCPP_PUBLIC
InitOptions &
@@ -73,40 +52,16 @@ public:
~InitOptions();
/// Return the rcl init options.
/**
* \return the rcl init options.
* \throws anything rclcpp::exceptions::throw_from_rcl_error can throw.
*/
RCLCPP_PUBLIC
const rcl_init_options_t *
get_rcl_init_options() const;
/// Retrieve default domain id and set.
RCLCPP_PUBLIC
void
use_default_domain_id();
/// Set the domain id.
RCLCPP_PUBLIC
void
set_domain_id(size_t domain_id);
/// Return domain id.
RCLCPP_PUBLIC
size_t
get_domain_id() const;
protected:
void
finalize_init_options();
private:
void
finalize_init_options_impl();
mutable std::mutex init_options_mutex_;
std::unique_ptr<rcl_init_options_t> init_options_;
bool initialize_logging_{true};
};
} // namespace rclcpp

35
rclcpp/include/rclcpp/is_ros_compatible_type.hpp
View File

@@ -1,35 +0,0 @@
// Copyright 2021 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__IS_ROS_COMPATIBLE_TYPE_HPP_
#define RCLCPP__IS_ROS_COMPATIBLE_TYPE_HPP_
#include "rosidl_runtime_cpp/traits.hpp"
#include "rclcpp/type_adapter.hpp"
namespace rclcpp
{
template<typename T>
struct is_ros_compatible_type
{
static constexpr bool value =
rosidl_generator_traits::is_message<T>::value ||
rclcpp::TypeAdapter<T>::is_specialized::value;
};
} // namespace rclcpp
#endif // RCLCPP__IS_ROS_COMPATIBLE_TYPE_HPP_

76
rclcpp/include/rclcpp/loaned_message.hpp
View File

@@ -31,33 +31,33 @@ namespace rclcpp
template<typename MessageT, typename AllocatorT = std::allocator<void>>
class LoanedMessage
{
public:
using MessageAllocatorTraits = rclcpp::allocator::AllocRebind<MessageT, AllocatorT>;
using MessageAllocator = typename MessageAllocatorTraits::allocator_type;
public:
/// Constructor of the LoanedMessage class.
/**
* The constructor of this class allocates memory for a given message type
* and associates this with a given publisher.
*
* The underlying middleware is queried to determine whether it is able to allocate the
* appropriate memory for this message type or not.
* In the case that the middleware cannot loan messages, the passed in allocator instance
* is used to allocate the message within the scope of this class.
* Otherwise, the allocator is ignored and the allocation is solely performed
* Given the publisher instance, a case differentiation is being performaned
* which decides whether the underlying middleware is able to allocate the appropriate
* memory for this message type or not.
* In the case that the middleware can not loan messages, the passed in allocator instance
* is being used to allocate the message within the scope of this class.
* Otherwise, the allocator is being ignored and the allocation is solely performaned
* in the underlying middleware with its appropriate allocation strategy.
* The need for this arises as the user code can be written explicitly targeting a middleware
* capable of loaning messages.
* However, this user code is ought to be usable even when dynamically linked against
* a middleware which doesn't support message loaning in which case the allocator will be used.
*
* \param[in] pub rclcpp::Publisher instance to which the memory belongs
* \param[in] allocator Allocator instance in case middleware cannot allocate messages
* \throws anything rclcpp::exceptions::throw_from_rcl_error can throw.
* \param pub rclcpp::Publisher instance to which the memory belongs
* \param allocator Allocator instance in case middleware can not allocate messages
*/
LoanedMessage(
const rclcpp::PublisherBase & pub,
MessageAllocator allocator)
std::allocator<MessageT> allocator)
: pub_(pub),
message_(nullptr),
message_allocator_(std::move(allocator))
@@ -65,7 +65,7 @@ public:
if (pub_.can_loan_messages()) {
void * message_ptr = nullptr;
auto ret = rcl_borrow_loaned_message(
pub_.get_publisher_handle().get(),
pub_.get_publisher_handle(),
rosidl_typesupport_cpp::get_message_type_support_handle<MessageT>(),
&message_ptr);
if (RCL_RET_OK != ret) {
@@ -81,14 +81,38 @@ public:
}
}
/// Constructor of the LoanedMessage class.
/**
* The constructor of this class allocates memory for a given message type
* and associates this with a given publisher.
*
* Given the publisher instance, a case differentiation is being performaned
* which decides whether the underlying middleware is able to allocate the appropriate
* memory for this message type or not.
* In the case that the middleware can not loan messages, the passed in allocator instance
* is being used to allocate the message within the scope of this class.
* Otherwise, the allocator is being ignored and the allocation is solely performaned
* in the underlying middleware with its appropriate allocation strategy.
* The need for this arises as the user code can be written explicitly targeting a middleware
* capable of loaning messages.
* However, this user code is ought to be usable even when dynamically linked against
* a middleware which doesn't support message loaning in which case the allocator will be used.
*
* \param pub rclcpp::Publisher instance to which the memory belongs
* \param allocator Allocator instance in case middleware can not allocate messages
*/
LoanedMessage(
const rclcpp::PublisherBase * pub,
std::shared_ptr<std::allocator<MessageT>> allocator)
: LoanedMessage(*pub, *allocator)
{}
/// Move semantic for RVO
LoanedMessage(LoanedMessage<MessageT> && other)
: pub_(std::move(other.pub_)),
message_(std::move(other.message_)),
message_allocator_(std::move(other.message_allocator_))
{
other.message_ = nullptr;
}
{}
/// Destructor of the LoanedMessage class.
/**
@@ -113,7 +137,7 @@ public:
if (pub_.can_loan_messages()) {
// return allocated memory to the middleware
auto ret =
rcl_return_loaned_message_from_publisher(pub_.get_publisher_handle().get(), message_);
rcl_return_loaned_message_from_publisher(pub_.get_publisher_handle(), message_);
if (ret != RCL_RET_OK) {
RCLCPP_ERROR(
error_logger, "rcl_deallocate_loaned_message failed: %s", rcl_get_error_string().str);
@@ -157,30 +181,14 @@ public:
/**
* A call to `release()` will unmanage the memory for the ROS message.
* That means that the destructor of this class will not free the memory on scope exit.
* If the message is loaned from the middleware but not be published, the user needs to call
* `rcl_return_loaned_message_from_publisher` manually.
* If the memory is from the local allocator, the memory is freed when the unique pointer
* goes out instead.
*
* \return std::unique_ptr to the message instance.
* \return Raw pointer to the message instance.
*/
std::unique_ptr<MessageT, std::function<void(MessageT *)>>
release()
MessageT * release()
{
auto msg = message_;
message_ = nullptr;
if (pub_.can_loan_messages()) {
return std::unique_ptr<MessageT, std::function<void(MessageT *)>>(msg, [](MessageT *) {});
}
return std::unique_ptr<MessageT, std::function<void(MessageT *)>>(
msg,
[allocator = message_allocator_](MessageT * msg_ptr) mutable {
// call destructor before deallocating
msg_ptr->~MessageT();
allocator.deallocate(msg_ptr, 1);
});
return msg;
}
protected:

68
rclcpp/include/rclcpp/logger.hpp
View File

@@ -15,16 +15,12 @@
#ifndef RCLCPP__LOGGER_HPP_
#define RCLCPP__LOGGER_HPP_
#include <filesystem>
#include <memory>
#include <string>
#include <utility>
#include "rclcpp/visibility_control.hpp"
#include "rcl/node.h"
#include "rcutils/logging.h"
#include "rcpputils/filesystem_helper.hpp"
/**
* \def RCLCPP_LOGGING_ENABLED
@@ -78,32 +74,8 @@ RCLCPP_PUBLIC
Logger
get_node_logger(const rcl_node_t * node);
/// Get the current logging directory.
/**
* For more details of how the logging directory is determined,
* see rcl_logging_get_logging_directory().
*
* \returns the logging directory being used.
* \throws rclcpp::exceptions::RCLError if an unexpected error occurs.
*/
RCLCPP_PUBLIC
std::filesystem::path
get_log_directory();
class Logger
{
public:
/// An enum for the type of logger level.
enum class Level
{
Unset = RCUTILS_LOG_SEVERITY_UNSET, ///< The unset log level
Debug = RCUTILS_LOG_SEVERITY_DEBUG, ///< The debug log level
Info = RCUTILS_LOG_SEVERITY_INFO, ///< The info log level
Warn = RCUTILS_LOG_SEVERITY_WARN, ///< The warn log level
Error = RCUTILS_LOG_SEVERITY_ERROR, ///< The error log level
Fatal = RCUTILS_LOG_SEVERITY_FATAL, ///< The fatal log level
};
private:
friend Logger rclcpp::get_logger(const std::string & name);
friend ::rclcpp::node_interfaces::NodeLogging;
@@ -124,9 +96,11 @@ private:
: name_(new std::string(name)) {}
std::shared_ptr<const std::string> name_;
std::shared_ptr<std::pair<std::string, std::string>> logger_sublogger_pairname_ = nullptr;
public:
RCLCPP_PUBLIC
Logger(const Logger &) = default;
/// Get the name of this logger.
/**
* \return the full name of the logger including any prefixes, or
@@ -157,35 +131,13 @@ public:
*/
RCLCPP_PUBLIC
Logger
get_child(const std::string & suffix);
/// Set level for current logger.
/**
* \param[in] level the logger's level
* \throws rclcpp::exceptions::RCLInvalidArgument if level is invalid.
* \throws rclcpp::exceptions::RCLError if other error happens.
*/
RCLCPP_PUBLIC
void
set_level(Level level);
/// Get effective level for current logger.
/**
* The effective level is determined as the severity level of
* the logger if it is set, otherwise it is the first specified severity
* level of the logger's ancestors, starting with its closest ancestor.
* The ancestor hierarchy is signified by logger names being separated by dots:
* a logger named `x` is an ancestor of `x.y`, and both `x` and `x.y` are
* ancestors of `x.y.z`, etc.
* If the level has not been set for the logger nor any of its
* ancestors, the default level is used.
*
* \throws rclcpp::exceptions::RCLError if any error happens.
* \return Level for the current logger.
*/
RCLCPP_PUBLIC
Level
get_effective_level() const;
get_child(const std::string & suffix)
{
if (!name_) {
return Logger();
}
return Logger(*name_ + "." + suffix);
}
};
} // namespace rclcpp

983
rclcpp/include/rclcpp/logging.hpp
View File

@@ -1,983 +0,0 @@
// Copyright 2017 Open Source Robotics Foundation, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__LOGGING_HPP_
#define RCLCPP__LOGGING_HPP_
#include <sstream>
#include <type_traits>
#include "rclcpp/logger.hpp"
#include "rcutils/logging_macros.h"
// These are used for compiling out logging macros lower than a minimum severity.
#define RCLCPP_LOG_MIN_SEVERITY_DEBUG 0
#define RCLCPP_LOG_MIN_SEVERITY_INFO 1
#define RCLCPP_LOG_MIN_SEVERITY_WARN 2
#define RCLCPP_LOG_MIN_SEVERITY_ERROR 3
#define RCLCPP_LOG_MIN_SEVERITY_FATAL 4
#define RCLCPP_LOG_MIN_SEVERITY_NONE 5
#define RCLCPP_STATIC_ASSERT_LOGGER(logger) \
do { \
static_assert( \
::std::is_convertible_v<decltype(logger), ::rclcpp::Logger>, \
"First argument to logging macros must be an rclcpp::Logger"); \
} while (0)
/**
* \def RCLCPP_LOG
* Log a message with given severity.
* \param logger The `rclcpp::Logger` to use
* \param ... The format string, followed by the variable arguments for the format string.
*/
#define RCLCPP_LOG(severity, logger, ...) \
do { \
RCLCPP_STATIC_ASSERT_LOGGER(logger); \
RCUTILS_LOG_NAMED(severity, (logger).get_name(), __VA_ARGS__); \
} while (0)
/**
* \def RCLCPP_LOG_ONCE
* Log a message with given severity with the following condition:
* - All log calls except the first one are ignored.
*
* \param logger The `rclcpp::Logger` to use
* \param ... The format string, followed by the variable arguments for the format string.
*/
#define RCLCPP_LOG_ONCE(severity, logger, ...) \
do { \
RCLCPP_STATIC_ASSERT_LOGGER(logger); \
RCUTILS_LOG_ONCE_NAMED(severity, (logger).get_name(), __VA_ARGS__); \
} while (0)
/**
* \def RCLCPP_LOG_EXPRESSION
* Log a message with given severity with the following condition:
* - Log calls are ignored when the expression evaluates to false.
*
* \param logger The `rclcpp::Logger` to use
* \param expression The expression determining if the message should be logged
* \param ... The format string, followed by the variable arguments for the format string.
*/
#define RCLCPP_LOG_EXPRESSION(severity, logger, expression, ...) \
do { \
RCLCPP_STATIC_ASSERT_LOGGER(logger); \
RCUTILS_LOG_EXPRESSION_NAMED(severity, expression, (logger).get_name(), __VA_ARGS__); \
} while (0)
/**
* \def RCLCPP_LOG_FUNCTION
* Log a message with given severity with the following condition:
* - Log calls are ignored when the function returns false.
*
* \param logger The `rclcpp::Logger` to use
* \param function The functions return value determines if the message should be logged
* \param ... The format string, followed by the variable arguments for the format string.
*/
#define RCLCPP_LOG_FUNCTION(severity, logger, function, ...) \
do { \
RCLCPP_STATIC_ASSERT_LOGGER(logger); \
RCUTILS_LOG_FUNCTION_NAMED(severity, function, (logger).get_name(), __VA_ARGS__); \
} while (0)
/**
* \def RCLCPP_LOG_SKIPFIRST
* Log a message with given severity with the following condition:
* - The first log call is ignored but all subsequent calls are processed.
*
* \param logger The `rclcpp::Logger` to use
* \param ... The format string, followed by the variable arguments for the format string.
*/
#define RCLCPP_LOG_SKIPFIRST(severity, logger, ...) \
do { \
RCLCPP_STATIC_ASSERT_LOGGER(logger); \
RCUTILS_LOG_SKIPFIRST_NAMED(severity, (logger).get_name(), __VA_ARGS__); \
} while (0)
#define RCLCPP_LOG_TIME_POINT_FUNC(clock) \
[&c = clock](rcutils_time_point_value_t * time_point)->rcutils_ret_t { \
try { \
*time_point = c.now().nanoseconds(); \
} catch (...) { \
RCUTILS_SAFE_FWRITE_TO_STDERR( \
"[rclcpp|logging.hpp] RCLCPP_DEBUG_THROTTLE could not get current time stamp\n"); \
return RCUTILS_RET_ERROR; \
} \
return RCUTILS_RET_OK; \
}
/**
* \def RCLCPP_LOG_THROTTLE
* Log a message with given severity with the following condition:
* - Log calls are ignored if the last logged message is not longer ago than the specified duration.
*
* \param logger The `rclcpp::Logger` to use
* \param clock rclcpp::Clock that will be used to get the time point.
* \param duration The duration of the throttle interval as an integral value in milliseconds.
* \param ... The format string, followed by the variable arguments for the format string.
*/
#define RCLCPP_LOG_THROTTLE(severity, logger, clock, duration, ...) \
do { \
RCLCPP_STATIC_ASSERT_LOGGER(logger); \
RCUTILS_LOG_THROTTLE_NAMED( \
severity, \
RCLCPP_LOG_TIME_POINT_FUNC(clock), \
duration, \
(logger).get_name(), \
__VA_ARGS__); \
} while (0)
/**
* \def RCLCPP_LOG_SKIPFIRST_THROTTLE
* Log a message with given severity with the following conditions:
* - The first log call is ignored but all subsequent calls are processed.
* - Log calls are ignored if the last logged message is not longer ago than the specified duration.
*
* \param logger The `rclcpp::Logger` to use
* \param clock rclcpp::Clock that will be used to get the time point.
* \param duration The duration of the throttle interval as an integral value in milliseconds.
* \param ... The format string, followed by the variable arguments for the format string.
*/
#define RCLCPP_LOG_SKIPFIRST_THROTTLE(severity, logger, clock, duration, ...) \
do { \
RCLCPP_STATIC_ASSERT_LOGGER(logger); \
RCUTILS_LOG_SKIPFIRST_THROTTLE_NAMED( \
severity, \
RCLCPP_LOG_TIME_POINT_FUNC(clock), \
duration, \
(logger).get_name(), \
__VA_ARGS__); \
} while (0)
/**
* \def RCLCPP_LOG_STREAM
* Log a message with given severity.
*
* \param logger The `rclcpp::Logger` to use
* \param stream_arg The argument << into a stringstream
*/
#define RCLCPP_LOG_STREAM(severity, logger, stream_arg) \
do { \
RCLCPP_STATIC_ASSERT_LOGGER(logger); \
std::stringstream rclcpp_stream_ss_; \
rclcpp_stream_ss_ << stream_arg; \
RCUTILS_LOG_NAMED(severity, (logger).get_name(), "%s", rclcpp_stream_ss_.str().c_str()); \
} while (0)
/**
* \def RCLCPP_LOG_STREAM_ONCE
* Log a message with given severity with the following condition:
* - All log calls except the first one are ignored.
*
* \param logger The `rclcpp::Logger` to use
* \param stream_arg The argument << into a stringstream
*/
#define RCLCPP_LOG_STREAM_ONCE(severity, logger, stream_arg) \
do { \
RCLCPP_STATIC_ASSERT_LOGGER(logger); \
std::stringstream rclcpp_stream_ss_; \
rclcpp_stream_ss_ << stream_arg; \
RCUTILS_LOG_ONCE_NAMED(severity, (logger).get_name(), "%s", rclcpp_stream_ss_.str().c_str()); \
} while (0)
/**
* \def RCLCPP_LOG_STREAM_EXPRESSION
* Log a message with given severity with the following condition:
* - Log calls are being ignored when the expression evaluates to false.
*
* \param logger The `rclcpp::Logger` to use
* \param expression The expression determining if the message should be logged
* \param stream_arg The argument << into a stringstream
*/
#define RCLCPP_LOG_STREAM_EXPRESSION(severity, logger, expression, stream_arg) \
do { \
RCLCPP_STATIC_ASSERT_LOGGER(logger); \
std::stringstream rclcpp_stream_ss_; \
rclcpp_stream_ss_ << stream_arg; \
RCUTILS_LOG_EXPRESSION_NAMED( \
severity, \
expression, \
(logger).get_name(), \
"%s", rclcpp_stream_ss_.str().c_str()); \
} while (0)
/**
* \def RCLCPP_LOG_STREAM_FUNCTION
* Log a message with given severity with the following condition:
* - Log calls are being ignored when the function returns false.
*
* \param logger The `rclcpp::Logger` to use
* \param function The functions return value determines if the message should be logged
* \param stream_arg The argument << into a stringstream
*/
#define RCLCPP_LOG_STREAM_FUNCTION(severity, logger, function, stream_arg) \
do { \
RCLCPP_STATIC_ASSERT_LOGGER(logger); \
std::stringstream rclcpp_stream_ss_; \
rclcpp_stream_ss_ << stream_arg; \
RCUTILS_LOG_FUNCTION_NAMED( \
severity, \
function, \
(logger).get_name(), \
"%s", rclcpp_stream_ss_.str().c_str()); \
} while (0)
/**
* \def RCLCPP_LOG_STREAM_SKIPFIRST
* Log a message with given severity with the following condition:
* - The first log call is ignored but all subsequent calls are processed.
*
* \param logger The `rclcpp::Logger` to use
* \param stream_arg The argument << into a stringstream
*/
#define RCLCPP_LOG_STREAM_SKIPFIRST(severity, logger, stream_arg) \
do { \
RCLCPP_STATIC_ASSERT_LOGGER(logger); \
std::stringstream rclcpp_stream_ss_; \
rclcpp_stream_ss_ << stream_arg; \
RCUTILS_LOG_SKIPFIRST_NAMED( \
severity, \
(logger).get_name(), \
"%s", rclcpp_stream_ss_.str().c_str()); \
} while (0)
/**
* \def RCLCPP_LOG_STREAM_THROTTLE
* Log a message with given severity with the following condition:
* - Log calls are ignored if the last logged message is not longer ago than the specified duration.
*
* \param logger The `rclcpp::Logger` to use
* \param clock rclcpp::Clock that will be used to get the time point.
* \param duration The duration of the throttle interval as an integral value in milliseconds.
* \param stream_arg The argument << into a stringstream
*/
#define RCLCPP_LOG_STREAM_THROTTLE(severity, logger, clock, duration, stream_arg) \
do { \
RCLCPP_STATIC_ASSERT_LOGGER(logger); \
std::stringstream rclcpp_stream_ss_; \
rclcpp_stream_ss_ << stream_arg; \
RCUTILS_LOG_THROTTLE_NAMED( \
severity, \
RCLCPP_LOG_TIME_POINT_FUNC(clock), \
duration, \
(logger).get_name(), \
"%s", rclcpp_stream_ss_.str().c_str()); \
} while (0)
/**
* \def RCLCPP_LOG_STREAM_SKIPFIRST_THROTTLE
* Log a message with given severity with the following conditions:
* - The first log call is ignored but all subsequent calls are processed.
* - Log calls are ignored if the last logged message is not longer ago than the specified duration.
*
* \param logger The `rclcpp::Logger` to use
* \param clock rclcpp::Clock that will be used to get the time point.
* \param duration The duration of the throttle interval as an integral value in milliseconds.
* \param stream_arg The argument << into a stringstream
*/
#define RCLCPP_LOG_STREAM_SKIPFIRST_THROTTLE(severity, logger, clock, duration, stream_arg) \
do { \
RCLCPP_STATIC_ASSERT_LOGGER(logger); \
std::stringstream rclcpp_stream_ss_; \
rclcpp_stream_ss_ << stream_arg; \
RCUTILS_LOG_SKIPFIRST_THROTTLE_NAMED( \
severity, \
RCLCPP_LOG_TIME_POINT_FUNC(clock), \
duration, \
(logger).get_name(), \
"%s", rclcpp_stream_ss_.str().c_str()); \
} while (0)
/**
* \def RCLCPP_LOG_MIN_SEVERITY
* Define RCLCPP_LOG_MIN_SEVERITY=RCLCPP_LOG_MIN_SEVERITY_[DEBUG|INFO|WARN|ERROR|FATAL]
* in your build options to compile out anything below that severity.
* Use RCLCPP_LOG_MIN_SEVERITY_NONE to compile out all macros.
*/
#ifndef RCLCPP_LOG_MIN_SEVERITY
#define RCLCPP_LOG_MIN_SEVERITY RCLCPP_LOG_MIN_SEVERITY_DEBUG
#endif
/** @name Logging macros for severity DEBUG.
*/
#if (RCLCPP_LOG_MIN_SEVERITY > RCLCPP_LOG_MIN_SEVERITY_DEBUG)
// empty logging macros for severity DEBUG when being disabled at compile time
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_DEBUG(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_DEBUG_ONCE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_DEBUG_EXPRESSION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_DEBUG_FUNCTION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_DEBUG_SKIPFIRST(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_DEBUG_THROTTLE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_DEBUG_SKIPFIRST_THROTTLE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_DEBUG_STREAM(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_DEBUG_STREAM_ONCE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_DEBUG_STREAM_EXPRESSION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_DEBUG_STREAM_FUNCTION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_DEBUG_STREAM_SKIPFIRST(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_DEBUG_STREAM_THROTTLE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_DEBUG_STREAM_SKIPFIRST_THROTTLE(...)
#else
/**
* \def RCLCPP_DEBUG
* \copydoc RCLCPP_LOG
*/
#define RCLCPP_DEBUG(logger, ...) RCLCPP_LOG(RCUTILS_LOG_SEVERITY_DEBUG, logger, __VA_ARGS__)
/**
* \def RCLCPP_DEBUG_ONCE
* \copydoc RCLCPP_LOG_ONCE
*/
#define RCLCPP_DEBUG_ONCE(logger, ...) \
RCLCPP_LOG_ONCE(RCUTILS_LOG_SEVERITY_DEBUG, logger, __VA_ARGS__)
/**
* \def RCLCPP_DEBUG_EXPRESSION
* \copydoc RCLCPP_LOG_EXPRESSION
*/
#define RCLCPP_DEBUG_EXPRESSION(logger, expression, ...) \
RCLCPP_LOG_EXPRESSION(RCUTILS_LOG_SEVERITY_DEBUG, logger, expression, __VA_ARGS__)
/**
* \def RCLCPP_DEBUG_FUNCTION
* \copydoc RCLCPP_LOG_FUNCTION
*/
#define RCLCPP_DEBUG_FUNCTION(logger, function, ...) \
RCLCPP_LOG_FUNCTION(RCUTILS_LOG_SEVERITY_DEBUG, logger, function, __VA_ARGS__)
/**
* \def RCLCPP_DEBUG_SKIPFIRST
* \copydoc RCLCPP_LOG_SKIPFIRST
*/
#define RCLCPP_DEBUG_SKIPFIRST(logger, ...) \
RCLCPP_LOG_SKIPFIRST(RCUTILS_LOG_SEVERITY_DEBUG, logger, __VA_ARGS__)
/**
* \def RCLCPP_DEBUG_THROTTLE
* \copydoc RCLCPP_LOG_THROTTLE
*/
#define RCLCPP_DEBUG_THROTTLE(logger, clock, duration, ...) \
RCLCPP_LOG_THROTTLE(RCUTILS_LOG_SEVERITY_DEBUG, logger, clock, duration, __VA_ARGS__)
/**
* \def RCLCPP_DEBUG_SKIPFIRST_THROTTLE
* \copydoc RCLCPP_LOG_SKIPFIRST_THROTTLE
*/
#define RCLCPP_DEBUG_SKIPFIRST_THROTTLE(logger, clock, duration, ...) \
RCLCPP_LOG_SKIPFIRST_THROTTLE(RCUTILS_LOG_SEVERITY_DEBUG, logger, clock, duration, __VA_ARGS__)
/**
* \def RCLCPP_DEBUG_STREAM
* \copydoc RCLCPP_LOG_STREAM
*/
#define RCLCPP_DEBUG_STREAM(logger, stream_arg) \
RCLCPP_LOG_STREAM(RCUTILS_LOG_SEVERITY_DEBUG, logger, stream_arg)
/**
* \def RCLCPP_DEBUG_STREAM_ONCE
* \copydoc RCLCPP_LOG_STREAM_ONCE
*/
#define RCLCPP_DEBUG_STREAM_ONCE(logger, stream_arg) \
RCLCPP_LOG_STREAM_ONCE(RCUTILS_LOG_SEVERITY_DEBUG, logger, stream_arg)
/**
* \def RCLCPP_DEBUG_STREAM_EXPRESSION
* \copydoc RCLCPP_LOG_STREAM_EXPRESSION
*/
#define RCLCPP_DEBUG_STREAM_EXPRESSION(logger, expression, stream_arg) \
RCLCPP_LOG_STREAM_EXPRESSION(RCUTILS_LOG_SEVERITY_DEBUG, logger, expression, stream_arg)
/**
* \def RCLCPP_DEBUG_STREAM_FUNCTION
* \copydoc RCLCPP_LOG_STREAM_FUNCTION
*/
#define RCLCPP_DEBUG_STREAM_FUNCTION(logger, function, stream_arg) \
RCLCPP_LOG_STREAM_FUNCTION(RCUTILS_LOG_SEVERITY_DEBUG, logger, function, stream_args)
/**
* \def RCLCPP_DEBUG_STREAM_SKIPFIRST
* \copydoc RCLCPP_LOG_STREAM_SKIPFIRST
*/
#define RCLCPP_DEBUG_STREAM_SKIPFIRST(logger, stream_arg) \
RCLCPP_LOG_STREAM_SKIPFIRST(RCUTILS_LOG_SEVERITY_DEBUG, logger, stream_arg)
/**
* \def RCLCPP_DEBUG_STREAM_THROTTLE
* \copydoc RCLCPP_LOG_STREAM_THROTTLE
*/
#define RCLCPP_DEBUG_STREAM_THROTTLE(logger, clock, duration, stream_arg) \
RCLCPP_LOG_STREAM_THROTTLE(RCUTILS_LOG_SEVERITY_DEBUG, logger, clock, duration, stream_arg)
/**
* \def RCLCPP_DEBUG_STREAM_SKIPFIRST_THROTTLE
* \copydoc RCLCPP_LOG_STREAM_SKIPFIRST_THROTTLE
*/
#define RCLCPP_DEBUG_STREAM_SKIPFIRST_THROTTLE(logger, clock, duration, stream_arg) \
RCLCPP_LOG_STREAM_SKIPFIRST_THROTTLE(RCUTILS_LOG_SEVERITY_DEBUG, logger, clock, duration, \
stream_arg)
#endif
/** @name Logging macros for severity INFO.
*/
#if (RCLCPP_LOG_MIN_SEVERITY > RCLCPP_LOG_MIN_SEVERITY_INFO)
// empty logging macros for severity INFO when being disabled at compile time
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_INFO(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_INFO_ONCE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_INFO_EXPRESSION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_INFO_FUNCTION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_INFO_SKIPFIRST(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_INFO_THROTTLE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_INFO_SKIPFIRST_THROTTLE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_INFO_STREAM(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_INFO_STREAM_ONCE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_INFO_STREAM_EXPRESSION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_INFO_STREAM_FUNCTION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_INFO_STREAM_SKIPFIRST(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_INFO_STREAM_THROTTLE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_INFO_STREAM_SKIPFIRST_THROTTLE(...)
#else
/**
* \def RCLCPP_INFO
* \copydoc RCLCPP_LOG
*/
#define RCLCPP_INFO(logger, ...) RCLCPP_LOG(RCUTILS_LOG_SEVERITY_INFO, logger, __VA_ARGS__)
/**
* \def RCLCPP_INFO_ONCE
* \copydoc RCLCPP_LOG_ONCE
*/
#define RCLCPP_INFO_ONCE(logger, ...) \
RCLCPP_LOG_ONCE(RCUTILS_LOG_SEVERITY_INFO, logger, __VA_ARGS__)
/**
* \def RCLCPP_INFO_EXPRESSION
* \copydoc RCLCPP_LOG_EXPRESSION
*/
#define RCLCPP_INFO_EXPRESSION(logger, expression, ...) \
RCLCPP_LOG_EXPRESSION(RCUTILS_LOG_SEVERITY_INFO, logger, expression, __VA_ARGS__)
/**
* \def RCLCPP_INFO_FUNCTION
* \copydoc RCLCPP_LOG_FUNCTION
*/
#define RCLCPP_INFO_FUNCTION(logger, function, ...) \
RCLCPP_LOG_FUNCTION(RCUTILS_LOG_SEVERITY_INFO, logger, function, __VA_ARGS__)
/**
* \def RCLCPP_INFO_SKIPFIRST
* \copydoc RCLCPP_LOG_SKIPFIRST
*/
#define RCLCPP_INFO_SKIPFIRST(logger, ...) \
RCLCPP_LOG_SKIPFIRST(RCUTILS_LOG_SEVERITY_INFO, logger, __VA_ARGS__)
/**
* \def RCLCPP_INFO_THROTTLE
* \copydoc RCLCPP_LOG_THROTTLE
*/
#define RCLCPP_INFO_THROTTLE(logger, clock, duration, ...) \
RCLCPP_LOG_THROTTLE(RCUTILS_LOG_SEVERITY_INFO, logger, clock, duration, __VA_ARGS__)
/**
* \def RCLCPP_INFO_SKIPFIRST_THROTTLE
* \copydoc RCLCPP_LOG_SKIPFIRST_THROTTLE
*/
#define RCLCPP_INFO_SKIPFIRST_THROTTLE(logger, clock, duration, ...) \
RCLCPP_LOG_SKIPFIRST_THROTTLE(RCUTILS_LOG_SEVERITY_INFO, logger, clock, duration, __VA_ARGS__)
/**
* \def RCLCPP_INFO_STREAM
* \copydoc RCLCPP_LOG_STREAM
*/
#define RCLCPP_INFO_STREAM(logger, stream_arg) \
RCLCPP_LOG_STREAM(RCUTILS_LOG_SEVERITY_INFO, logger, stream_arg)
/**
* \def RCLCPP_INFO_STREAM_ONCE
* \copydoc RCLCPP_LOG_STREAM_ONCE
*/
#define RCLCPP_INFO_STREAM_ONCE(logger, stream_arg) \
RCLCPP_LOG_STREAM_ONCE(RCUTILS_LOG_SEVERITY_INFO, logger, stream_arg)
/**
* \def RCLCPP_INFO_STREAM_EXPRESSION
* \copydoc RCLCPP_LOG_STREAM_EXPRESSION
*/
#define RCLCPP_INFO_STREAM_EXPRESSION(logger, expression, stream_arg) \
RCLCPP_LOG_STREAM_EXPRESSION(RCUTILS_LOG_SEVERITY_INFO, logger, expression, stream_arg)
/**
* \def RCLCPP_INFO_STREAM_FUNCTION
* \copydoc RCLCPP_LOG_STREAM_FUNCTION
*/
#define RCLCPP_INFO_STREAM_FUNCTION(logger, function, stream_arg) \
RCLCPP_LOG_STREAM_FUNCTION(RCUTILS_LOG_SEVERITY_INFO, logger, function, stream_args)
/**
* \def RCLCPP_INFO_STREAM_SKIPFIRST
* \copydoc RCLCPP_LOG_STREAM_SKIPFIRST
*/
#define RCLCPP_INFO_STREAM_SKIPFIRST(logger, stream_arg) \
RCLCPP_LOG_STREAM_SKIPFIRST(RCUTILS_LOG_SEVERITY_INFO, logger, stream_arg)
/**
* \def RCLCPP_INFO_STREAM_THROTTLE
* \copydoc RCLCPP_LOG_STREAM_THROTTLE
*/
#define RCLCPP_INFO_STREAM_THROTTLE(logger, clock, duration, stream_arg) \
RCLCPP_LOG_STREAM_THROTTLE(RCUTILS_LOG_SEVERITY_INFO, logger, clock, duration, stream_arg)
/**
* \def RCLCPP_INFO_STREAM_SKIPFIRST_THROTTLE
* \copydoc RCLCPP_LOG_STREAM_SKIPFIRST_THROTTLE
*/
#define RCLCPP_INFO_STREAM_SKIPFIRST_THROTTLE(logger, clock, duration, stream_arg) \
RCLCPP_LOG_STREAM_SKIPFIRST_THROTTLE(RCUTILS_LOG_SEVERITY_INFO, logger, clock, duration, \
stream_arg)
#endif
/** @name Logging macros for severity WARN.
*/
#if (RCLCPP_LOG_MIN_SEVERITY > RCLCPP_LOG_MIN_SEVERITY_WARN)
// empty logging macros for severity WARN when being disabled at compile time
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_WARN(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_WARN_ONCE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_WARN_EXPRESSION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_WARN_FUNCTION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_WARN_SKIPFIRST(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_WARN_THROTTLE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_WARN_SKIPFIRST_THROTTLE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_WARN_STREAM(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_WARN_STREAM_ONCE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_WARN_STREAM_EXPRESSION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_WARN_STREAM_FUNCTION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_WARN_STREAM_SKIPFIRST(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_WARN_STREAM_THROTTLE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_WARN_STREAM_SKIPFIRST_THROTTLE(...)
#else
/**
* \def RCLCPP_WARN
* \copydoc RCLCPP_LOG
*/
#define RCLCPP_WARN(logger, ...) RCLCPP_LOG(RCUTILS_LOG_SEVERITY_WARN, logger, __VA_ARGS__)
/**
* \def RCLCPP_WARN_ONCE
* \copydoc RCLCPP_LOG_ONCE
*/
#define RCLCPP_WARN_ONCE(logger, ...) \
RCLCPP_LOG_ONCE(RCUTILS_LOG_SEVERITY_WARN, logger, __VA_ARGS__)
/**
* \def RCLCPP_WARN_EXPRESSION
* \copydoc RCLCPP_LOG_EXPRESSION
*/
#define RCLCPP_WARN_EXPRESSION(logger, expression, ...) \
RCLCPP_LOG_EXPRESSION(RCUTILS_LOG_SEVERITY_WARN, logger, expression, __VA_ARGS__)
/**
* \def RCLCPP_WARN_FUNCTION
* \copydoc RCLCPP_LOG_FUNCTION
*/
#define RCLCPP_WARN_FUNCTION(logger, function, ...) \
RCLCPP_LOG_FUNCTION(RCUTILS_LOG_SEVERITY_WARN, logger, function, __VA_ARGS__)
/**
* \def RCLCPP_WARN_SKIPFIRST
* \copydoc RCLCPP_LOG_SKIPFIRST
*/
#define RCLCPP_WARN_SKIPFIRST(logger, ...) \
RCLCPP_LOG_SKIPFIRST(RCUTILS_LOG_SEVERITY_WARN, logger, __VA_ARGS__)
/**
* \def RCLCPP_WARN_THROTTLE
* \copydoc RCLCPP_LOG_THROTTLE
*/
#define RCLCPP_WARN_THROTTLE(logger, clock, duration, ...) \
RCLCPP_LOG_THROTTLE(RCUTILS_LOG_SEVERITY_WARN, logger, clock, duration, __VA_ARGS__)
/**
* \def RCLCPP_WARN_SKIPFIRST_THROTTLE
* \copydoc RCLCPP_LOG_SKIPFIRST_THROTTLE
*/
#define RCLCPP_WARN_SKIPFIRST_THROTTLE(logger, clock, duration, ...) \
RCLCPP_LOG_SKIPFIRST_THROTTLE(RCUTILS_LOG_SEVERITY_WARN, logger, clock, duration, __VA_ARGS__)
/**
* \def RCLCPP_WARN_STREAM
* \copydoc RCLCPP_LOG_STREAM
*/
#define RCLCPP_WARN_STREAM(logger, stream_arg) \
RCLCPP_LOG_STREAM(RCUTILS_LOG_SEVERITY_WARN, logger, stream_arg)
/**
* \def RCLCPP_WARN_STREAM_ONCE
* \copydoc RCLCPP_LOG_STREAM_ONCE
*/
#define RCLCPP_WARN_STREAM_ONCE(logger, stream_arg) \
RCLCPP_LOG_STREAM_ONCE(RCUTILS_LOG_SEVERITY_WARN, logger, stream_arg)
/**
* \def RCLCPP_WARN_STREAM_EXPRESSION
* \copydoc RCLCPP_LOG_STREAM_EXPRESSION
*/
#define RCLCPP_WARN_STREAM_EXPRESSION(logger, expression, stream_arg) \
RCLCPP_LOG_STREAM_EXPRESSION(RCUTILS_LOG_SEVERITY_WARN, logger, expression, stream_arg)
/**
* \def RCLCPP_WARN_STREAM_FUNCTION
* \copydoc RCLCPP_LOG_STREAM_FUNCTION
*/
#define RCLCPP_WARN_STREAM_FUNCTION(logger, function, stream_arg) \
RCLCPP_LOG_STREAM_FUNCTION(RCUTILS_LOG_SEVERITY_WARN, logger, function, stream_args)
/**
* \def RCLCPP_WARN_STREAM_SKIPFIRST
* \copydoc RCLCPP_LOG_STREAM_SKIPFIRST
*/
#define RCLCPP_WARN_STREAM_SKIPFIRST(logger, stream_arg) \
RCLCPP_LOG_STREAM_SKIPFIRST(RCUTILS_LOG_SEVERITY_WARN, logger, stream_arg)
/**
* \def RCLCPP_WARN_STREAM_THROTTLE
* \copydoc RCLCPP_LOG_STREAM_THROTTLE
*/
#define RCLCPP_WARN_STREAM_THROTTLE(logger, clock, duration, stream_arg) \
RCLCPP_LOG_STREAM_THROTTLE(RCUTILS_LOG_SEVERITY_WARN, logger, clock, duration, stream_arg)
/**
* \def RCLCPP_WARN_STREAM_SKIPFIRST_THROTTLE
* \copydoc RCLCPP_LOG_STREAM_SKIPFIRST_THROTTLE
*/
#define RCLCPP_WARN_STREAM_SKIPFIRST_THROTTLE(logger, clock, duration, stream_arg) \
RCLCPP_LOG_STREAM_SKIPFIRST_THROTTLE(RCUTILS_LOG_SEVERITY_WARN, logger, clock, duration, \
stream_arg)
#endif
/** @name Logging macros for severity ERROR.
*/
#if (RCLCPP_LOG_MIN_SEVERITY > RCLCPP_LOG_MIN_SEVERITY_ERROR)
// empty logging macros for severity ERROR when being disabled at compile time
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_ERROR(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_ERROR_ONCE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_ERROR_EXPRESSION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_ERROR_FUNCTION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_ERROR_SKIPFIRST(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_ERROR_THROTTLE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_ERROR_SKIPFIRST_THROTTLE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_ERROR_STREAM(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_ERROR_STREAM_ONCE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_ERROR_STREAM_EXPRESSION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_ERROR_STREAM_FUNCTION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_ERROR_STREAM_SKIPFIRST(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_ERROR_STREAM_THROTTLE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_ERROR_STREAM_SKIPFIRST_THROTTLE(...)
#else
/**
* \def RCLCPP_ERROR
* \copydoc RCLCPP_LOG
*/
#define RCLCPP_ERROR(logger, ...) RCLCPP_LOG(RCUTILS_LOG_SEVERITY_ERROR, logger, __VA_ARGS__)
/**
* \def RCLCPP_ERROR_ONCE
* \copydoc RCLCPP_LOG_ONCE
*/
#define RCLCPP_ERROR_ONCE(logger, ...) \
RCLCPP_LOG_ONCE(RCUTILS_LOG_SEVERITY_ERROR, logger, __VA_ARGS__)
/**
* \def RCLCPP_ERROR_EXPRESSION
* \copydoc RCLCPP_LOG_EXPRESSION
*/
#define RCLCPP_ERROR_EXPRESSION(logger, expression, ...) \
RCLCPP_LOG_EXPRESSION(RCUTILS_LOG_SEVERITY_ERROR, logger, expression, __VA_ARGS__)
/**
* \def RCLCPP_ERROR_FUNCTION
* \copydoc RCLCPP_LOG_FUNCTION
*/
#define RCLCPP_ERROR_FUNCTION(logger, function, ...) \
RCLCPP_LOG_FUNCTION(RCUTILS_LOG_SEVERITY_ERROR, logger, function, __VA_ARGS__)
/**
* \def RCLCPP_ERROR_SKIPFIRST
* \copydoc RCLCPP_LOG_SKIPFIRST
*/
#define RCLCPP_ERROR_SKIPFIRST(logger, ...) \
RCLCPP_LOG_SKIPFIRST(RCUTILS_LOG_SEVERITY_ERROR, logger, __VA_ARGS__)
/**
* \def RCLCPP_ERROR_THROTTLE
* \copydoc RCLCPP_LOG_THROTTLE
*/
#define RCLCPP_ERROR_THROTTLE(logger, clock, duration, ...) \
RCLCPP_LOG_THROTTLE(RCUTILS_LOG_SEVERITY_ERROR, logger, clock, duration, __VA_ARGS__)
/**
* \def RCLCPP_ERROR_SKIPFIRST_THROTTLE
* \copydoc RCLCPP_LOG_SKIPFIRST_THROTTLE
*/
#define RCLCPP_ERROR_SKIPFIRST_THROTTLE(logger, clock, duration, ...) \
RCLCPP_LOG_SKIPFIRST_THROTTLE(RCUTILS_LOG_SEVERITY_ERROR, logger, clock, duration, __VA_ARGS__)
/**
* \def RCLCPP_ERROR_STREAM
* \copydoc RCLCPP_LOG_STREAM
*/
#define RCLCPP_ERROR_STREAM(logger, stream_arg) \
RCLCPP_LOG_STREAM(RCUTILS_LOG_SEVERITY_ERROR, logger, stream_arg)
/**
* \def RCLCPP_ERROR_STREAM_ONCE
* \copydoc RCLCPP_LOG_STREAM_ONCE
*/
#define RCLCPP_ERROR_STREAM_ONCE(logger, stream_arg) \
RCLCPP_LOG_STREAM_ONCE(RCUTILS_LOG_SEVERITY_ERROR, logger, stream_arg)
/**
* \def RCLCPP_ERROR_STREAM_EXPRESSION
* \copydoc RCLCPP_LOG_STREAM_EXPRESSION
*/
#define RCLCPP_ERROR_STREAM_EXPRESSION(logger, expression, stream_arg) \
RCLCPP_LOG_STREAM_EXPRESSION(RCUTILS_LOG_SEVERITY_ERROR, logger, expression, stream_arg)
/**
* \def RCLCPP_ERROR_STREAM_FUNCTION
* \copydoc RCLCPP_LOG_STREAM_FUNCTION
*/
#define RCLCPP_ERROR_STREAM_FUNCTION(logger, function, stream_arg) \
RCLCPP_LOG_STREAM_FUNCTION(RCUTILS_LOG_SEVERITY_ERROR, logger, function, stream_args)
/**
* \def RCLCPP_ERROR_STREAM_SKIPFIRST
* \copydoc RCLCPP_LOG_STREAM_SKIPFIRST
*/
#define RCLCPP_ERROR_STREAM_SKIPFIRST(logger, stream_arg) \
RCLCPP_LOG_STREAM_SKIPFIRST(RCUTILS_LOG_SEVERITY_ERROR, logger, stream_arg)
/**
* \def RCLCPP_ERROR_STREAM_THROTTLE
* \copydoc RCLCPP_LOG_STREAM_THROTTLE
*/
#define RCLCPP_ERROR_STREAM_THROTTLE(logger, clock, duration, stream_arg) \
RCLCPP_LOG_STREAM_THROTTLE(RCUTILS_LOG_SEVERITY_ERROR, logger, clock, duration, stream_arg)
/**
* \def RCLCPP_ERROR_STREAM_SKIPFIRST_THROTTLE
* \copydoc RCLCPP_LOG_STREAM_SKIPFIRST_THROTTLE
*/
#define RCLCPP_ERROR_STREAM_SKIPFIRST_THROTTLE(logger, clock, duration, stream_arg) \
RCLCPP_LOG_STREAM_SKIPFIRST_THROTTLE(RCUTILS_LOG_SEVERITY_ERROR, logger, clock, duration, \
stream_arg)
#endif
/** @name Logging macros for severity FATAL.
*/
#if (RCLCPP_LOG_MIN_SEVERITY > RCLCPP_LOG_MIN_SEVERITY_FATAL)
// empty logging macros for severity FATAL when being disabled at compile time
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_FATAL(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_FATAL_ONCE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_FATAL_EXPRESSION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_FATAL_FUNCTION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_FATAL_SKIPFIRST(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_FATAL_THROTTLE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_FATAL_SKIPFIRST_THROTTLE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_FATAL_STREAM(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_FATAL_STREAM_ONCE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_FATAL_STREAM_EXPRESSION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_FATAL_STREAM_FUNCTION(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_FATAL_STREAM_SKIPFIRST(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_FATAL_STREAM_THROTTLE(...)
/// Empty logging macro due to the preprocessor definition of RCLCPP_LOG_MIN_SEVERITY.
#define RCLCPP_FATAL_STREAM_SKIPFIRST_THROTTLE(...)
#else
/**
* \def RCLCPP_FATAL
* \copydoc RCLCPP_LOG
*/
#define RCLCPP_FATAL(logger, ...) RCLCPP_LOG(RCUTILS_LOG_SEVERITY_FATAL, logger, __VA_ARGS__)
/**
* \def RCLCPP_FATAL_ONCE
* \copydoc RCLCPP_LOG_ONCE
*/
#define RCLCPP_FATAL_ONCE(logger, ...) \
RCLCPP_LOG_ONCE(RCUTILS_LOG_SEVERITY_FATAL, logger, __VA_ARGS__)
/**
* \def RCLCPP_FATAL_EXPRESSION
* \copydoc RCLCPP_LOG_EXPRESSION
*/
#define RCLCPP_FATAL_EXPRESSION(logger, expression, ...) \
RCLCPP_LOG_EXPRESSION(RCUTILS_LOG_SEVERITY_FATAL, logger, expression, __VA_ARGS__)
/**
* \def RCLCPP_FATAL_FUNCTION
* \copydoc RCLCPP_LOG_FUNCTION
*/
#define RCLCPP_FATAL_FUNCTION(logger, function, ...) \
RCLCPP_LOG_FUNCTION(RCUTILS_LOG_SEVERITY_FATAL, logger, function, __VA_ARGS__)
/**
* \def RCLCPP_FATAL_SKIPFIRST
* \copydoc RCLCPP_LOG_SKIPFIRST
*/
#define RCLCPP_FATAL_SKIPFIRST(logger, ...) \
RCLCPP_LOG_SKIPFIRST(RCUTILS_LOG_SEVERITY_FATAL, logger, __VA_ARGS__)
/**
* \def RCLCPP_FATAL_THROTTLE
* \copydoc RCLCPP_LOG_THROTTLE
*/
#define RCLCPP_FATAL_THROTTLE(logger, clock, duration, ...) \
RCLCPP_LOG_THROTTLE(RCUTILS_LOG_SEVERITY_FATAL, logger, clock, duration, __VA_ARGS__)
/**
* \def RCLCPP_FATAL_SKIPFIRST_THROTTLE
* \copydoc RCLCPP_LOG_SKIPFIRST_THROTTLE
*/
#define RCLCPP_FATAL_SKIPFIRST_THROTTLE(logger, clock, duration, ...) \
RCLCPP_LOG_SKIPFIRST_THROTTLE(RCUTILS_LOG_SEVERITY_FATAL, logger, clock, duration, __VA_ARGS__)
/**
* \def RCLCPP_FATAL_STREAM
* \copydoc RCLCPP_LOG_STREAM
*/
#define RCLCPP_FATAL_STREAM(logger, stream_arg) \
RCLCPP_LOG_STREAM(RCUTILS_LOG_SEVERITY_FATAL, logger, stream_arg)
/**
* \def RCLCPP_FATAL_STREAM_ONCE
* \copydoc RCLCPP_LOG_STREAM_ONCE
*/
#define RCLCPP_FATAL_STREAM_ONCE(logger, stream_arg) \
RCLCPP_LOG_STREAM_ONCE(RCUTILS_LOG_SEVERITY_FATAL, logger, stream_arg)
/**
* \def RCLCPP_FATAL_STREAM_EXPRESSION
* \copydoc RCLCPP_LOG_STREAM_EXPRESSION
*/
#define RCLCPP_FATAL_STREAM_EXPRESSION(logger, expression, stream_arg) \
RCLCPP_LOG_STREAM_EXPRESSION(RCUTILS_LOG_SEVERITY_FATAL, logger, expression, stream_arg)
/**
* \def RCLCPP_FATAL_STREAM_FUNCTION
* \copydoc RCLCPP_LOG_STREAM_FUNCTION
*/
#define RCLCPP_FATAL_STREAM_FUNCTION(logger, function, stream_arg) \
RCLCPP_LOG_STREAM_FUNCTION(RCUTILS_LOG_SEVERITY_FATAL, logger, function, stream_args)
/**
* \def RCLCPP_FATAL_STREAM_SKIPFIRST
* \copydoc RCLCPP_LOG_STREAM_SKIPFIRST
*/
#define RCLCPP_FATAL_STREAM_SKIPFIRST(logger, stream_arg) \
RCLCPP_LOG_STREAM_SKIPFIRST(RCUTILS_LOG_SEVERITY_FATAL, logger, stream_arg)
/**
* \def RCLCPP_FATAL_STREAM_THROTTLE
* \copydoc RCLCPP_LOG_STREAM_THROTTLE
*/
#define RCLCPP_FATAL_STREAM_THROTTLE(logger, clock, duration, stream_arg) \
RCLCPP_LOG_STREAM_THROTTLE(RCUTILS_LOG_SEVERITY_FATAL, logger, clock, duration, stream_arg)
/**
* \def RCLCPP_FATAL_STREAM_SKIPFIRST_THROTTLE
* \copydoc RCLCPP_LOG_STREAM_SKIPFIRST_THROTTLE
*/
#define RCLCPP_FATAL_STREAM_SKIPFIRST_THROTTLE(logger, clock, duration, stream_arg) \
RCLCPP_LOG_STREAM_SKIPFIRST_THROTTLE(RCUTILS_LOG_SEVERITY_FATAL, logger, clock, duration, \
stream_arg)
#endif
#endif // RCLCPP__LOGGING_HPP_

4
rclcpp/include/rclcpp/memory_strategies.hpp
View File

@@ -23,10 +23,6 @@ namespace rclcpp
namespace memory_strategies
{
/// Create a MemoryStrategy sharedPtr
/**
* \return a MemoryStrategy sharedPtr
*/
RCLCPP_PUBLIC
memory_strategy::MemoryStrategy::SharedPtr
create_default_strategy();

63
rclcpp/include/rclcpp/memory_strategy.hpp
View File

@@ -16,7 +16,6 @@
#define RCLCPP__MEMORY_STRATEGY_HPP_
#include <list>
#include <map>
#include <memory>
#include "rcl/allocator.h"
@@ -43,13 +42,11 @@ class RCLCPP_PUBLIC MemoryStrategy
{
public:
RCLCPP_SMART_PTR_DEFINITIONS_NOT_COPYABLE(MemoryStrategy)
using WeakCallbackGroupsToNodesMap = std::map<rclcpp::CallbackGroup::WeakPtr,
rclcpp::node_interfaces::NodeBaseInterface::WeakPtr,
std::owner_less<rclcpp::CallbackGroup::WeakPtr>>;
using WeakNodeList = std::list<rclcpp::node_interfaces::NodeBaseInterface::WeakPtr>;
virtual ~MemoryStrategy() = default;
virtual bool collect_entities(const WeakCallbackGroupsToNodesMap & weak_groups_to_nodes) = 0;
virtual bool collect_entities(const WeakNodeList & weak_nodes) = 0;
virtual size_t number_of_ready_subscriptions() const = 0;
virtual size_t number_of_ready_services() const = 0;
@@ -64,89 +61,87 @@ public:
virtual void clear_handles() = 0;
virtual void remove_null_handles(rcl_wait_set_t * wait_set) = 0;
virtual void
add_guard_condition(const rclcpp::GuardCondition & guard_condition) = 0;
virtual void add_guard_condition(const rcl_guard_condition_t * guard_condition) = 0;
virtual void
remove_guard_condition(const rclcpp::GuardCondition * guard_condition) = 0;
virtual void remove_guard_condition(const rcl_guard_condition_t * guard_condition) = 0;
virtual void
get_next_subscription(
rclcpp::AnyExecutable & any_exec,
const WeakCallbackGroupsToNodesMap & weak_groups_to_nodes) = 0;
const WeakNodeList & weak_nodes) = 0;
virtual void
get_next_service(
rclcpp::AnyExecutable & any_exec,
const WeakCallbackGroupsToNodesMap & weak_groups_to_nodes) = 0;
const WeakNodeList & weak_nodes) = 0;
virtual void
get_next_client(
rclcpp::AnyExecutable & any_exec,
const WeakCallbackGroupsToNodesMap & weak_groups_to_nodes) = 0;
const WeakNodeList & weak_nodes) = 0;
virtual void
get_next_timer(
rclcpp::AnyExecutable & any_exec,
const WeakCallbackGroupsToNodesMap & weak_groups_to_nodes) = 0;
const WeakNodeList & weak_nodes) = 0;
virtual void
get_next_waitable(
rclcpp::AnyExecutable & any_exec,
const WeakCallbackGroupsToNodesMap & weak_groups_to_nodes) = 0;
const WeakNodeList & weak_nodes) = 0;
virtual rcl_allocator_t
get_allocator() = 0;
static rclcpp::SubscriptionBase::SharedPtr
get_subscription_by_handle(
const std::shared_ptr<const rcl_subscription_t> & subscriber_handle,
const WeakCallbackGroupsToNodesMap & weak_groups_to_nodes);
std::shared_ptr<const rcl_subscription_t> subscriber_handle,
const WeakNodeList & weak_nodes);
static rclcpp::ServiceBase::SharedPtr
get_service_by_handle(
const std::shared_ptr<const rcl_service_t> & service_handle,
const WeakCallbackGroupsToNodesMap & weak_groups_to_nodes);
std::shared_ptr<const rcl_service_t> service_handle,
const WeakNodeList & weak_nodes);
static rclcpp::ClientBase::SharedPtr
get_client_by_handle(
const std::shared_ptr<const rcl_client_t> & client_handle,
const WeakCallbackGroupsToNodesMap & weak_groups_to_nodes);
std::shared_ptr<const rcl_client_t> client_handle,
const WeakNodeList & weak_nodes);
static rclcpp::TimerBase::SharedPtr
get_timer_by_handle(
const std::shared_ptr<const rcl_timer_t> & timer_handle,
const WeakCallbackGroupsToNodesMap & weak_groups_to_nodes);
std::shared_ptr<const rcl_timer_t> timer_handle,
const WeakNodeList & weak_nodes);
static rclcpp::node_interfaces::NodeBaseInterface::SharedPtr
get_node_by_group(
const rclcpp::CallbackGroup::SharedPtr & group,
const WeakCallbackGroupsToNodesMap & weak_groups_to_nodes);
rclcpp::CallbackGroup::SharedPtr group,
const WeakNodeList & weak_nodes);
static rclcpp::CallbackGroup::SharedPtr
get_group_by_subscription(
const rclcpp::SubscriptionBase::SharedPtr & subscription,
const WeakCallbackGroupsToNodesMap & weak_groups_to_nodes);
rclcpp::SubscriptionBase::SharedPtr subscription,
const WeakNodeList & weak_nodes);
static rclcpp::CallbackGroup::SharedPtr
get_group_by_service(
const rclcpp::ServiceBase::SharedPtr & service,
const WeakCallbackGroupsToNodesMap & weak_groups_to_nodes);
rclcpp::ServiceBase::SharedPtr service,
const WeakNodeList & weak_nodes);
static rclcpp::CallbackGroup::SharedPtr
get_group_by_client(
const rclcpp::ClientBase::SharedPtr & client,
const WeakCallbackGroupsToNodesMap & weak_groups_to_nodes);
rclcpp::ClientBase::SharedPtr client,
const WeakNodeList & weak_nodes);
static rclcpp::CallbackGroup::SharedPtr
get_group_by_timer(
const rclcpp::TimerBase::SharedPtr & timer,
const WeakCallbackGroupsToNodesMap & weak_groups_to_nodes);
rclcpp::TimerBase::SharedPtr timer,
const WeakNodeList & weak_nodes);
static rclcpp::CallbackGroup::SharedPtr
get_group_by_waitable(
const rclcpp::Waitable::SharedPtr & waitable,
const WeakCallbackGroupsToNodesMap & weak_groups_to_nodes);
rclcpp::Waitable::SharedPtr waitable,
const WeakNodeList & weak_nodes);
};
} // namespace memory_strategy

3
rclcpp/include/rclcpp/message_info.hpp
View File

@@ -30,9 +30,6 @@ public:
MessageInfo() = default;
/// Conversion constructor, which is intentionally not marked as explicit.
/**
* \param[in] rmw_message_info message info to initialize the class
*/
// cppcheck-suppress noExplicitConstructor
MessageInfo(const rmw_message_info_t & rmw_message_info); // NOLINT(runtime/explicit)

56
rclcpp/include/rclcpp/message_memory_strategy.hpp
View File

@@ -18,13 +18,11 @@
#include <memory>
#include <stdexcept>
#include "rcl/allocator.h"
#include "rcl/types.h"
#include "rclcpp/allocator/allocator_common.hpp"
#include "rclcpp/exceptions.hpp"
#include "rclcpp/macros.hpp"
#include "rclcpp/serialized_message.hpp"
#include "rclcpp/visibility_control.hpp"
#include "rcutils/logging_macros.h"
@@ -48,10 +46,10 @@ public:
using MessageAlloc = typename MessageAllocTraits::allocator_type;
using MessageDeleter = allocator::Deleter<MessageAlloc, MessageT>;
using SerializedMessageAllocTraits = allocator::AllocRebind<rclcpp::SerializedMessage, Alloc>;
using SerializedMessageAllocTraits = allocator::AllocRebind<rcl_serialized_message_t, Alloc>;
using SerializedMessageAlloc = typename SerializedMessageAllocTraits::allocator_type;
using SerializedMessageDeleter =
allocator::Deleter<SerializedMessageAlloc, rclcpp::SerializedMessage>;
allocator::Deleter<SerializedMessageAlloc, rcl_serialized_message_t>;
using BufferAllocTraits = allocator::AllocRebind<char, Alloc>;
using BufferAlloc = typename BufferAllocTraits::allocator_type;
@@ -62,16 +60,7 @@ public:
message_allocator_ = std::make_shared<MessageAlloc>();
serialized_message_allocator_ = std::make_shared<SerializedMessageAlloc>();
buffer_allocator_ = std::make_shared<BufferAlloc>();
if constexpr (std::is_same_v<Alloc, std::allocator<void>>) {
rcutils_allocator_ = rcl_get_default_allocator();
} else {
if constexpr (rclcpp::allocator::has_get_rcl_allocator_v<Alloc>) {
rcutils_allocator_ = message_allocator_->get_rcl_allocator();
} else {
rcutils_allocator_ = allocator::get_rcl_allocator<char,
BufferAlloc>(*buffer_allocator_.get());
}
}
rcutils_allocator_ = allocator::get_rcl_allocator<char, BufferAlloc>(*buffer_allocator_.get());
}
explicit MessageMemoryStrategy(std::shared_ptr<Alloc> allocator)
@@ -79,16 +68,7 @@ public:
message_allocator_ = std::make_shared<MessageAlloc>(*allocator.get());
serialized_message_allocator_ = std::make_shared<SerializedMessageAlloc>(*allocator.get());
buffer_allocator_ = std::make_shared<BufferAlloc>(*allocator.get());
if constexpr (std::is_same_v<Alloc, std::allocator<void>>) {
rcutils_allocator_ = rcl_get_default_allocator();
} else {
if constexpr (rclcpp::allocator::has_get_rcl_allocator_v<Alloc>) {
rcutils_allocator_ = allocator->get_rcl_allocator();
} else {
rcutils_allocator_ = allocator::get_rcl_allocator<char,
BufferAlloc>(*buffer_allocator_.get());
}
}
rcutils_allocator_ = allocator::get_rcl_allocator<char, BufferAlloc>(*buffer_allocator_.get());
}
virtual ~MessageMemoryStrategy() = default;
@@ -106,12 +86,31 @@ public:
return std::allocate_shared<MessageT, MessageAlloc>(*message_allocator_.get());
}
virtual std::shared_ptr<rclcpp::SerializedMessage> borrow_serialized_message(size_t capacity)
virtual std::shared_ptr<rcl_serialized_message_t> borrow_serialized_message(size_t capacity)
{
return std::make_shared<rclcpp::SerializedMessage>(capacity);
auto msg = new rcl_serialized_message_t;
*msg = rmw_get_zero_initialized_serialized_message();
auto ret = rmw_serialized_message_init(msg, capacity, &rcutils_allocator_);
if (ret != RCL_RET_OK) {
rclcpp::exceptions::throw_from_rcl_error(ret);
}
auto serialized_msg = std::shared_ptr<rcl_serialized_message_t>(
msg,
[](rmw_serialized_message_t * msg) {
auto fini_ret = rmw_serialized_message_fini(msg);
delete msg;
if (fini_ret != RCL_RET_OK) {
RCUTILS_LOG_ERROR_NAMED(
"rclcpp",
"failed to destroy serialized message: %s", rcl_get_error_string().str);
}
});
return serialized_msg;
}
virtual std::shared_ptr<rclcpp::SerializedMessage> borrow_serialized_message()
virtual std::shared_ptr<rcl_serialized_message_t> borrow_serialized_message()
{
return borrow_serialized_message(default_buffer_capacity_);
}
@@ -128,8 +127,7 @@ public:
msg.reset();
}
virtual void return_serialized_message(
std::shared_ptr<rclcpp::SerializedMessage> & serialized_msg)
virtual void return_serialized_message(std::shared_ptr<rcl_serialized_message_t> & serialized_msg)
{
serialized_msg.reset();
}

115
rclcpp/include/rclcpp/network_flow_endpoint.hpp
View File

@@ -1,115 +0,0 @@
// Copyright 2020 Ericsson AB
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef RCLCPP__NETWORK_FLOW_ENDPOINT_HPP_
#define RCLCPP__NETWORK_FLOW_ENDPOINT_HPP_
#include <cstdint>
#include <string>
#include <iostream>
#include "rcl/network_flow_endpoints.h"
#include "rclcpp/visibility_control.hpp"
namespace rclcpp
{
/// Forward declaration
class NetworkFlowEndpoint;
/// Check if two NetworkFlowEndpoint instances are equal
RCLCPP_PUBLIC
bool operator==(const NetworkFlowEndpoint & left, const NetworkFlowEndpoint & right);
/// Check if two NetworkFlowEndpoint instances are not equal
RCLCPP_PUBLIC
bool operator!=(const NetworkFlowEndpoint & left, const NetworkFlowEndpoint & right);
/// Streaming helper for NetworkFlowEndpoint
RCLCPP_PUBLIC
std::ostream & operator<<(std::ostream & os, const NetworkFlowEndpoint & network_flow_endpoint);
/**
* Class describes a network flow endpoint based on the counterpart definition
* in the RMW layer.
*/
class NetworkFlowEndpoint
{
public:
/// Construct from rcl_network_flow_endpoint_t
RCLCPP_PUBLIC
explicit NetworkFlowEndpoint(const rcl_network_flow_endpoint_t & network_flow_endpoint)
: transport_protocol_(
rcl_network_flow_endpoint_get_transport_protocol_string(network_flow_endpoint.
transport_protocol)),
internet_protocol_(
rcl_network_flow_endpoint_get_internet_protocol_string(
network_flow_endpoint.internet_protocol)),
transport_port_(network_flow_endpoint.transport_port),
flow_label_(network_flow_endpoint.flow_label),
dscp_(network_flow_endpoint.dscp),
internet_address_(network_flow_endpoint.internet_address)
{
}
/// Get transport protocol
RCLCPP_PUBLIC
const std::string & transport_protocol() const;
/// Get internet protocol
RCLCPP_PUBLIC
const std::string & internet_protocol() const;
/// Get transport port
RCLCPP_PUBLIC
uint16_t transport_port() const;
/// Get flow label
RCLCPP_PUBLIC
uint32_t flow_label() const;
/// Get DSCP
RCLCPP_PUBLIC
uint8_t dscp() const;
/// Get internet address
RCLCPP_PUBLIC
const std::string & internet_address() const;
/// Compare two NetworkFlowEndpoint instances
friend bool rclcpp::operator==(
const NetworkFlowEndpoint & left,
const NetworkFlowEndpoint & right);
friend bool rclcpp::operator!=(
const NetworkFlowEndpoint & left,
const NetworkFlowEndpoint & right);
/// Streaming helper
friend std::ostream & rclcpp::operator<<(
std::ostream & os,
const NetworkFlowEndpoint & network_flow_endpoint);
private:
std::string transport_protocol_;
std::string internet_protocol_;
uint16_t transport_port_;
uint32_t flow_label_;
uint8_t dscp_;
std::string internet_address_;
};
} // namespace rclcpp
#endif // RCLCPP__NETWORK_FLOW_ENDPOINT_HPP_

693
rclcpp/include/rclcpp/node.hpp
View File

File diff suppressed because it is too large Load Diff

146
rclcpp/include/rclcpp/node_impl.hpp
View File

@@ -19,7 +19,6 @@
#include <rmw/rmw.h>
#include <algorithm>
#include <chrono>
#include <cstdlib>
#include <iostream>
#include <limits>
@@ -36,17 +35,12 @@
#include "rclcpp/contexts/default_context.hpp"
#include "rclcpp/create_client.hpp"
#include "rclcpp/create_generic_publisher.hpp"
#include "rclcpp/create_generic_subscription.hpp"
#include "rclcpp/create_publisher.hpp"
#include "rclcpp/create_service.hpp"
#include "rclcpp/create_generic_service.hpp"
#include "rclcpp/create_subscription.hpp"
#include "rclcpp/create_timer.hpp"
#include "rclcpp/detail/resolve_enable_topic_statistics.hpp"
#include "rclcpp/parameter.hpp"
#include "rclcpp/qos.hpp"
#include "rclcpp/timer.hpp"
#include "rclcpp/type_support_decl.hpp"
#include "rclcpp/visibility_control.hpp"
@@ -87,6 +81,7 @@ template<
typename MessageT,
typename CallbackT,
typename AllocatorT,
typename CallbackMessageT,
typename SubscriptionT,
typename MessageMemoryStrategyT>
std::shared_ptr<SubscriptionT>
@@ -111,47 +106,29 @@ typename rclcpp::WallTimer<CallbackT>::SharedPtr
Node::create_wall_timer(
std::chrono::duration<DurationRepT, DurationT> period,
CallbackT callback,
const rclcpp::CallbackGroup::SharedPtr & group,
bool autostart)
rclcpp::CallbackGroup::SharedPtr group)
{
return rclcpp::create_wall_timer(
period,
auto timer = rclcpp::WallTimer<CallbackT>::make_shared(
std::chrono::duration_cast<std::chrono::nanoseconds>(period),
std::move(callback),
group,
this->node_base_.get(),
this->node_timers_.get(),
autostart);
}
template<typename DurationRepT, typename DurationT, typename CallbackT>
typename rclcpp::GenericTimer<CallbackT>::SharedPtr
Node::create_timer(
std::chrono::duration<DurationRepT, DurationT> period,
CallbackT callback,
const rclcpp::CallbackGroup::SharedPtr & group)
{
return rclcpp::create_timer(
this->get_clock(),
period,
std::move(callback),
group,
this->node_base_.get(),
this->node_timers_.get());
this->node_base_->get_context());
node_timers_->add_timer(timer, group);
return timer;
}
template<typename ServiceT>
typename Client<ServiceT>::SharedPtr
Node::create_client(
const std::string & service_name,
const rclcpp::QoS & qos,
const rclcpp::CallbackGroup::SharedPtr & group)
const rmw_qos_profile_t & qos_profile,
rclcpp::CallbackGroup::SharedPtr group)
{
return rclcpp::create_client<ServiceT>(
node_base_,
node_graph_,
node_services_,
extend_name_with_sub_namespace(service_name, this->get_sub_namespace()),
qos,
qos_profile,
group);
}
@@ -160,74 +137,18 @@ typename rclcpp::Service<ServiceT>::SharedPtr
Node::create_service(
const std::string & service_name,
CallbackT && callback,
const rclcpp::QoS & qos,
const rclcpp::CallbackGroup::SharedPtr & group)
const rmw_qos_profile_t & qos_profile,
rclcpp::CallbackGroup::SharedPtr group)
{
return rclcpp::create_service<ServiceT, CallbackT>(
node_base_,
node_services_,
extend_name_with_sub_namespace(service_name, this->get_sub_namespace()),
std::forward<CallbackT>(callback),
qos,
qos_profile,
group);
}
template<typename CallbackT>
typename rclcpp::GenericService::SharedPtr
Node::create_generic_service(
const std::string & service_name,
const std::string & service_type,
CallbackT && callback,
const rclcpp::QoS & qos,
const rclcpp::CallbackGroup::SharedPtr & group)
{
return rclcpp::create_generic_service<CallbackT>(
node_base_,
node_services_,
extend_name_with_sub_namespace(service_name, this->get_sub_namespace()),
service_type,
std::forward<CallbackT>(callback),
qos,
group);
}
template<typename AllocatorT>
std::shared_ptr<rclcpp::GenericPublisher>
Node::create_generic_publisher(
const std::string & topic_name,
const std::string & topic_type,
const rclcpp::QoS & qos,
const rclcpp::PublisherOptionsWithAllocator<AllocatorT> & options)
{
return rclcpp::create_generic_publisher(
node_topics_,
extend_name_with_sub_namespace(topic_name, this->get_sub_namespace()),
topic_type,
qos,
options
);
}
template<typename CallbackT, typename AllocatorT>
std::shared_ptr<rclcpp::GenericSubscription>
Node::create_generic_subscription(
const std::string & topic_name,
const std::string & topic_type,
const rclcpp::QoS & qos,
CallbackT && callback,
const rclcpp::SubscriptionOptionsWithAllocator<AllocatorT> & options)
{
return rclcpp::create_generic_subscription(
node_topics_,
extend_name_with_sub_namespace(topic_name, this->get_sub_namespace()),
topic_type,
qos,
std::forward<CallbackT>(callback),
options
);
}
template<typename ParameterT>
auto
Node::declare_parameter(
@@ -248,28 +169,6 @@ Node::declare_parameter(
}
}
template<typename ParameterT>
auto
Node::declare_parameter(
const std::string & name,
const rcl_interfaces::msg::ParameterDescriptor & parameter_descriptor,
bool ignore_override)
{
// get advantage of parameter value template magic to get
// the correct rclcpp::ParameterType from ParameterT
rclcpp::ParameterValue value{ParameterT{}};
try {
return this->declare_parameter(
name,
value.get_type(),
parameter_descriptor,
ignore_override
).get<ParameterT>();
} catch (const ParameterTypeException &) {
throw exceptions::UninitializedStaticallyTypedParameterException(name);
}
}
template<typename ParameterT>
std::vector<ParameterT>
Node::declare_parameters(
@@ -323,9 +222,11 @@ template<typename ParameterT>
bool
Node::get_parameter(const std::string & name, ParameterT & parameter) const
{
std::string sub_name = extend_name_with_sub_namespace(name, this->get_sub_namespace());
rclcpp::Parameter parameter_variant;
bool result = get_parameter(name, parameter_variant);
bool result = get_parameter(sub_name, parameter_variant);
if (result) {
parameter = static_cast<ParameterT>(parameter_variant.get_value<ParameterT>());
}
@@ -340,24 +241,15 @@ Node::get_parameter_or(
ParameterT & parameter,
const ParameterT & alternative_value) const
{
bool got_parameter = get_parameter(name, parameter);
std::string sub_name = extend_name_with_sub_namespace(name, this->get_sub_namespace());
bool got_parameter = get_parameter(sub_name, parameter);
if (!got_parameter) {
parameter = alternative_value;
}
return got_parameter;
}
template<typename ParameterT>
ParameterT
Node::get_parameter_or(
const std::string & name,
const ParameterT & alternative_value) const
{
ParameterT parameter;
get_parameter_or(name, parameter, alternative_value);
return parameter;
}
// this is a partially-specialized version of get_parameter above,
// where our concrete type for ParameterT is std::map, but the to-be-determined
// type is the value in the map.

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