Use rmw_serialization_support_init

Signed-off-by: methylDragon <methylDragon@gmail.com>

rclcpp/CHANGELOG.rst

@@ -2,38 +2,6 @@
 Changelog for package rclcpp
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^
 
-21.1.0 (2023-04-27)
--------------------
-
-21.0.0 (2023-04-18)
--------------------
-* Add support for logging service. (`#2122 <https://github.com/ros2/rclcpp/issues/2122>`_)
-* Picking ABI-incompatible executor changes (`#2170 <https://github.com/ros2/rclcpp/issues/2170>`_)
-* add events-executor and timers-manager in rclcpp (`#2155 <https://github.com/ros2/rclcpp/issues/2155>`_)
-* Create common structures for executors to use (`#2143 <https://github.com/ros2/rclcpp/issues/2143>`_)
-* Implement deliver message kind (`#2168 <https://github.com/ros2/rclcpp/issues/2168>`_)
-* Contributors: Alberto Soragna, Lei Liu, Michael Carroll, methylDragon
-
-20.0.0 (2023-04-13)
--------------------
-* applied tracepoints for ring_buffer (`#2091 <https://github.com/ros2/rclcpp/issues/2091>`_)
-* Dynamic Subscription (REP-2011 Subset): Stubs for rclcpp (`#2165 <https://github.com/ros2/rclcpp/issues/2165>`_)
-* Add type_hash to cpp TopicEndpointInfo (`#2137 <https://github.com/ros2/rclcpp/issues/2137>`_)
-* Trigger the intraprocess guard condition with data (`#2164 <https://github.com/ros2/rclcpp/issues/2164>`_)
-* Minor grammar fix (`#2149 <https://github.com/ros2/rclcpp/issues/2149>`_)
-* Fix unnecessary allocations in executor.cpp (`#2135 <https://github.com/ros2/rclcpp/issues/2135>`_)
-* add Logger::get_effective_level(). (`#2141 <https://github.com/ros2/rclcpp/issues/2141>`_)
-* Remove deprecated header (`#2139 <https://github.com/ros2/rclcpp/issues/2139>`_)
-* Implement matched event (`#2105 <https://github.com/ros2/rclcpp/issues/2105>`_)
-* use allocator via init_options argument. (`#2129 <https://github.com/ros2/rclcpp/issues/2129>`_)
-* Fixes to silence some clang warnings. (`#2127 <https://github.com/ros2/rclcpp/issues/2127>`_)
-* Documentation improvements on the executor (`#2125 <https://github.com/ros2/rclcpp/issues/2125>`_)
-* Avoid losing waitable handles while using MultiThreadedExecutor (`#2109 <https://github.com/ros2/rclcpp/issues/2109>`_)
-* Hook up the incompatible type event inside of rclcpp (`#2069 <https://github.com/ros2/rclcpp/issues/2069>`_)
-* Update all rclcpp packages to C++17. (`#2121 <https://github.com/ros2/rclcpp/issues/2121>`_)
-* Fix clang warning: bugprone-use-after-move (`#2116 <https://github.com/ros2/rclcpp/issues/2116>`_)
-* Contributors: Barry Xu, Chris Lalancette, Christopher Wecht, Emerson Knapp, Michael Carroll, Tomoya Fujita, Yadu, mauropasse, methylDragon, ymski
-
 19.3.0 (2023-03-01)
 -------------------
 * Fix memory leak in tracetools::get_symbol() (`#2104 <https://github.com/ros2/rclcpp/issues/2104>`_)

rclcpp/CMakeLists.txt

@@ -59,16 +59,11 @@ set(${PROJECT_NAME}_SRCS
   src/rclcpp/executable_list.cpp
   src/rclcpp/executor.cpp
   src/rclcpp/executors.cpp
-  src/rclcpp/executors/executor_entities_collection.cpp
-  src/rclcpp/executors/executor_entities_collector.cpp
-  src/rclcpp/executors/executor_notify_waitable.cpp
   src/rclcpp/executors/multi_threaded_executor.cpp
   src/rclcpp/executors/single_threaded_executor.cpp
   src/rclcpp/executors/static_executor_entities_collector.cpp
   src/rclcpp/executors/static_single_threaded_executor.cpp
   src/rclcpp/expand_topic_or_service_name.cpp
-  src/rclcpp/experimental/executors/events_executor/events_executor.cpp
-  src/rclcpp/experimental/timers_manager.cpp
   src/rclcpp/future_return_code.cpp
   src/rclcpp/generic_publisher.cpp
   src/rclcpp/generic_subscription.cpp
@@ -105,6 +100,7 @@ set(${PROJECT_NAME}_SRCS
   src/rclcpp/qos.cpp
   src/rclcpp/event_handler.cpp
   src/rclcpp/qos_overriding_options.cpp
+  src/rclcpp/dynamic_subscription.cpp
   src/rclcpp/serialization.cpp
   src/rclcpp/serialized_message.cpp
   src/rclcpp/service.cpp

rclcpp/include/rclcpp/callback_group.hpp

@@ -93,54 +93,11 @@ public:
    *   determines whether a callback group is automatically added to an executor
    *   with the node with which it is associated.
    */
-  [[deprecated("Use CallbackGroup constructor with context function argument")]]
   RCLCPP_PUBLIC
   explicit CallbackGroup(
     CallbackGroupType group_type,
     bool automatically_add_to_executor_with_node = true);
 
-  /// 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] get_node_context Lambda to retrieve the node context when
-   *   checking that the creating node is valid and using the guard condition.
-   * \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,
-    std::function<rclcpp::Context::SharedPtr(void)> get_node_context,
-    bool automatically_add_to_executor_with_node = true);
-
   /// Default destructor.
   RCLCPP_PUBLIC
   ~CallbackGroup();
@@ -180,13 +137,6 @@ public:
     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;
-
   RCLCPP_PUBLIC
   std::atomic_bool &
   can_be_taken_from();
@@ -228,24 +178,11 @@ public:
   bool
   automatically_add_to_executor_with_node() const;
 
-  /// Retrieve the guard condition used to signal changes to this callback group.
-  /**
-   * \param[in] context_ptr context to use when creating the guard condition
-   * \return guard condition if it is valid, otherwise nullptr.
-   */
-  [[deprecated("Use get_notify_guard_condition() without arguments")]]
+  /// Defer creating the notify guard condition and return it.
   RCLCPP_PUBLIC
   rclcpp::GuardCondition::SharedPtr
   get_notify_guard_condition(const rclcpp::Context::SharedPtr context_ptr);
 
-  /// 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
@@ -297,8 +234,6 @@ protected:
   std::shared_ptr<rclcpp::GuardCondition> notify_guard_condition_ = nullptr;
   std::recursive_mutex notify_guard_condition_mutex_;
 
-  std::function<rclcpp::Context::SharedPtr(void)> get_context_;
-
 private:
   template<typename TypeT, typename Function>
   typename TypeT::SharedPtr _find_ptrs_if_impl(

rclcpp/include/rclcpp/dynamic_subscription.hpp

@@ -0,0 +1,176 @@
+// 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__DYNAMIC_SUBSCRIPTION_HPP_
+#define RCLCPP__DYNAMIC_SUBSCRIPTION_HPP_
+
+#include <rosidl_dynamic_typesupport/identifier.h>
+
+#include <functional>
+#include <memory>
+#include <string>
+
+#include "rcpputils/shared_library.hpp"
+
+#include "rclcpp/callback_group.hpp"
+#include "rclcpp/dynamic_typesupport/dynamic_message_type_support.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 messages whose type descriptions are obtained at runtime.
+/**
+ * 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.
+ *
+ * NOTE(methylDragon): No considerations for intra-process handling are made.
+ */
+class DynamicSubscription : public rclcpp::SubscriptionBase
+{
+public:
+  // cppcheck-suppress unknownMacro
+  RCLCPP_SMART_PTR_DEFINITIONS(DynamicSubscription)
+
+  template<typename AllocatorT = std::allocator<void>>
+  DynamicSubscription(
+    rclcpp::node_interfaces::NodeBaseInterface * node_base,
+    rclcpp::dynamic_typesupport::DynamicMessageTypeSupport::SharedPtr type_support,
+    const std::string & topic_name,
+    const rclcpp::QoS & qos,
+    std::function<void(
+      rclcpp::dynamic_typesupport::DynamicMessage::SharedPtr,
+      const rosidl_runtime_c__type_description__TypeDescription &
+    )> callback,
+    const rclcpp::SubscriptionOptionsWithAllocator<AllocatorT> & options,
+    bool use_take_dynamic_message = true)
+  : SubscriptionBase(
+      node_base,
+      type_support->get_const_rosidl_message_type_support(),
+      topic_name,
+      options.to_rcl_subscription_options(
+        qos),
+      options.event_callbacks,
+      options.use_default_callbacks,
+      use_take_dynamic_message ? SubscriptionType::DYNAMIC_MESSAGE_DIRECT : SubscriptionType::DYNAMIC_MESSAGE_FROM_SERIALIZED),  // NOLINT
+    ts_(type_support),
+    callback_(callback),
+    serialization_support_(nullptr),
+    dynamic_message_(nullptr),
+    dynamic_message_type_(nullptr)
+  {
+    if (!type_support) {
+      throw std::runtime_error("DynamicMessageTypeSupport cannot be nullptr!");
+    }
+
+    if (type_support->get_const_rosidl_message_type_support().typesupport_identifier !=
+      rosidl_get_dynamic_typesupport_identifier())
+    {
+      throw std::runtime_error(
+              "DynamicSubscription must use dynamic type introspection type support!");
+    }
+
+    serialization_support_ = type_support->get_shared_dynamic_serialization_support();
+    dynamic_message_type_ = type_support->get_shared_dynamic_message_type()->clone_shared();
+    dynamic_message_ = type_support->get_shared_dynamic_message()->clone_shared();
+  }
+
+  // TODO(methylDragon):
+  /// Deferred type description constructor, only usable if the middleware implementation supports
+  /// type discovery
+
+  RCLCPP_PUBLIC
+  virtual ~DynamicSubscription() = 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;
+
+  /// 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 ==================================================================================
+  // TODO(methylDragon): Reorder later
+  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(DynamicSubscription)
+
+  rclcpp::dynamic_typesupport::DynamicMessageTypeSupport::SharedPtr ts_;
+  std::function<void(
+      rclcpp::dynamic_typesupport::DynamicMessage::SharedPtr,
+      const rosidl_runtime_c__type_description__TypeDescription &
+    )> callback_;
+
+  rclcpp::dynamic_typesupport::DynamicSerializationSupport::SharedPtr serialization_support_;
+  rclcpp::dynamic_typesupport::DynamicMessage::SharedPtr dynamic_message_;
+  rclcpp::dynamic_typesupport::DynamicMessageType::SharedPtr dynamic_message_type_;
+};
+
+}  // namespace rclcpp
+
+#endif  // RCLCPP__DYNAMIC_SUBSCRIPTION_HPP_

rclcpp/include/rclcpp/dynamic_typesupport/detail/dynamic_message_impl.hpp

@@ -0,0 +1,327 @@
+// 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__DETAIL__DYNAMIC_MESSAGE_IMPL_HPP_
+#define RCLCPP__DYNAMIC_TYPESUPPORT__DETAIL__DYNAMIC_MESSAGE_IMPL_HPP_
+
+#include <rosidl_dynamic_typesupport/types.h>
+#include <rosidl_dynamic_typesupport/api/dynamic_data.h>
+
+#include <cstdint>
+#include <cstddef>
+#include <memory>
+#include <string>
+
+#include "rclcpp/exceptions.hpp"
+
+#ifndef RCLCPP__DYNAMIC_TYPESUPPORT__DYNAMIC_MESSAGE_HPP_
+#include "rclcpp/dynamic_typesupport/dynamic_message.hpp"
+#endif
+
+
+#define __DYNAMIC_MESSAGE_GET_VALUE_BY_ID_FN(ValueT, FunctionT) \
+  template<> \
+  ValueT \
+  DynamicMessage::get_value<ValueT>(rosidl_dynamic_typesupport_member_id_t id) \
+  { \
+    ValueT out; \
+    rosidl_dynamic_typesupport_dynamic_data_get_ ## FunctionT ## _value( \
+      &rosidl_dynamic_data_, id, &out); \
+    return out; \
+  }
+
+#define __DYNAMIC_MESSAGE_GET_VALUE_BY_NAME_FN(ValueT, FunctionT) \
+  template<> \
+  ValueT \
+  DynamicMessage::get_value<ValueT>(const std::string & name) \
+  { \
+    return get_value<ValueT>(get_member_id(name)); \
+  }
+
+#define __DYNAMIC_MESSAGE_SET_VALUE_BY_ID_FN(ValueT, FunctionT) \
+  template<> \
+  void \
+  DynamicMessage::set_value<ValueT>(rosidl_dynamic_typesupport_member_id_t id, ValueT value) \
+  { \
+    rosidl_dynamic_typesupport_dynamic_data_set_ ## FunctionT ## _value( \
+      &rosidl_dynamic_data_, id, value); \
+  }
+
+#define __DYNAMIC_MESSAGE_SET_VALUE_BY_NAME_FN(ValueT, FunctionT) \
+  template<> \
+  void \
+  DynamicMessage::set_value<ValueT>(const std::string & name, ValueT value) \
+  { \
+    set_value<ValueT>(get_member_id(name), value); \
+  }
+
+#define __DYNAMIC_MESSAGE_INSERT_VALUE(ValueT, FunctionT) \
+  template<> \
+  rosidl_dynamic_typesupport_member_id_t \
+  DynamicMessage::insert_value<ValueT>(ValueT value) \
+  { \
+    rosidl_dynamic_typesupport_member_id_t out; \
+    rosidl_dynamic_typesupport_dynamic_data_insert_ ## FunctionT ## _value( \
+      &rosidl_dynamic_data_, value, &out); \
+    return out; \
+  }
+
+#define DYNAMIC_MESSAGE_DEFINITIONS(ValueT, FunctionT) \
+  __DYNAMIC_MESSAGE_GET_VALUE_BY_ID_FN(ValueT, FunctionT) \
+  __DYNAMIC_MESSAGE_GET_VALUE_BY_NAME_FN(ValueT, FunctionT) \
+  __DYNAMIC_MESSAGE_SET_VALUE_BY_ID_FN(ValueT, FunctionT) \
+  __DYNAMIC_MESSAGE_SET_VALUE_BY_NAME_FN(ValueT, FunctionT) \
+  __DYNAMIC_MESSAGE_INSERT_VALUE(ValueT, FunctionT)
+
+
+namespace rclcpp
+{
+namespace dynamic_typesupport
+{
+
+/**
+ * Since we're in a ROS layer, these should support all ROS interface C++ types as found in:
+ * https://docs.ros.org/en/rolling/Concepts/About-ROS-Interfaces.html
+ *
+ * Explicitly:
+ * - Basic types:        bool, byte, char
+ * - Float types:        float, double
+ * - Int types:          int8_t, int16_t, int32_t, int64_t
+ * - Unsigned int types: uint8_t, uint16_t, uint32_t, uint64_t
+ * - String types:       std::string, std::u16string
+ */
+
+DYNAMIC_MESSAGE_DEFINITIONS(bool, bool);
+// DYNAMIC_MESSAGE_DEFINITIONS(std::byte, byte);
+DYNAMIC_MESSAGE_DEFINITIONS(char, char);
+DYNAMIC_MESSAGE_DEFINITIONS(float, float32);
+DYNAMIC_MESSAGE_DEFINITIONS(double, float64);
+DYNAMIC_MESSAGE_DEFINITIONS(int8_t, int8);
+DYNAMIC_MESSAGE_DEFINITIONS(int16_t, int16);
+DYNAMIC_MESSAGE_DEFINITIONS(int32_t, int32);
+DYNAMIC_MESSAGE_DEFINITIONS(int64_t, int64);
+DYNAMIC_MESSAGE_DEFINITIONS(uint8_t, uint8);
+DYNAMIC_MESSAGE_DEFINITIONS(uint16_t, uint16);
+DYNAMIC_MESSAGE_DEFINITIONS(uint32_t, uint32);
+DYNAMIC_MESSAGE_DEFINITIONS(uint64_t, uint64);
+// DYNAMIC_MESSAGE_DEFINITIONS(std::string, std::string);
+// DYNAMIC_MESSAGE_DEFINITIONS(std::u16string, std::u16string);
+
+// Byte and String getters have a different implementation and are defined below
+
+
+// BYTE ============================================================================================
+template<>
+std::byte
+DynamicMessage::get_value<std::byte>(rosidl_dynamic_typesupport_member_id_t id)
+{
+  unsigned char out;
+  rosidl_dynamic_typesupport_dynamic_data_get_byte_value(&get_rosidl_dynamic_data(), id, &out);
+  return static_cast<std::byte>(out);
+}
+
+
+template<>
+std::byte
+DynamicMessage::get_value<std::byte>(const std::string & name)
+{
+  return get_value<std::byte>(get_member_id(name));
+}
+
+
+template<>
+void
+DynamicMessage::set_value<std::byte>(
+  rosidl_dynamic_typesupport_member_id_t id, const std::byte value)
+{
+  rosidl_dynamic_typesupport_dynamic_data_set_byte_value(
+    &rosidl_dynamic_data_, id, static_cast<unsigned char>(value));
+}
+
+
+template<>
+void
+DynamicMessage::set_value<std::byte>(const std::string & name, const std::byte value)
+{
+  set_value<std::byte>(get_member_id(name), value);
+}
+
+
+template<>
+rosidl_dynamic_typesupport_member_id_t
+DynamicMessage::insert_value<std::byte>(const std::byte value)
+{
+  rosidl_dynamic_typesupport_member_id_t out;
+  rosidl_dynamic_typesupport_dynamic_data_insert_byte_value(
+    &rosidl_dynamic_data_, static_cast<unsigned char>(value), &out);
+  return out;
+}
+
+
+// STRINGS =========================================================================================
+template<>
+std::string
+DynamicMessage::get_value<std::string>(rosidl_dynamic_typesupport_member_id_t id)
+{
+  size_t buf_length;
+  char * buf = nullptr;
+  rosidl_dynamic_typesupport_dynamic_data_get_string_value(
+    &get_rosidl_dynamic_data(), id, &buf, &buf_length);
+  auto out = std::string(buf, buf_length);
+  delete buf;
+  return out;
+}
+
+
+template<>
+std::u16string
+DynamicMessage::get_value<std::u16string>(rosidl_dynamic_typesupport_member_id_t id)
+{
+  size_t buf_length;
+  char16_t * buf = nullptr;
+  rosidl_dynamic_typesupport_dynamic_data_get_wstring_value(
+    &get_rosidl_dynamic_data(), id, &buf, &buf_length);
+  auto out = std::u16string(buf, buf_length);
+  delete buf;
+  return out;
+}
+
+
+template<>
+std::string
+DynamicMessage::get_value<std::string>(const std::string & name)
+{
+  return get_value<std::string>(get_member_id(name));
+}
+
+
+template<>
+std::u16string
+DynamicMessage::get_value<std::u16string>(const std::string & name)
+{
+  return get_value<std::u16string>(get_member_id(name));
+}
+
+
+template<>
+void
+DynamicMessage::set_value<std::string>(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string value)
+{
+  rosidl_dynamic_typesupport_dynamic_data_set_string_value(
+    &rosidl_dynamic_data_, id, value.c_str(), value.size());
+}
+
+
+template<>
+void
+DynamicMessage::set_value<std::u16string>(
+  rosidl_dynamic_typesupport_member_id_t id, const std::u16string value)
+{
+  rosidl_dynamic_typesupport_dynamic_data_set_wstring_value(
+    &rosidl_dynamic_data_, id, value.c_str(), value.size());
+}
+
+
+template<>
+void
+DynamicMessage::set_value<std::string>(const std::string & name, const std::string value)
+{
+  set_value<std::string>(get_member_id(name), value);
+}
+
+
+template<>
+void
+DynamicMessage::set_value<std::u16string>(const std::string & name, const std::u16string value)
+{
+  set_value<std::u16string>(get_member_id(name), value);
+}
+
+
+template<>
+rosidl_dynamic_typesupport_member_id_t
+DynamicMessage::insert_value<std::string>(const std::string value)
+{
+  rosidl_dynamic_typesupport_member_id_t out;
+  rosidl_dynamic_typesupport_dynamic_data_insert_string_value(
+    &rosidl_dynamic_data_, value.c_str(), value.size(), &out);
+  return out;
+}
+
+
+template<>
+rosidl_dynamic_typesupport_member_id_t
+DynamicMessage::insert_value<std::u16string>(const std::u16string value)
+{
+  rosidl_dynamic_typesupport_member_id_t out;
+  rosidl_dynamic_typesupport_dynamic_data_insert_wstring_value(
+    &rosidl_dynamic_data_, value.c_str(), value.size(), &out);
+  return out;
+}
+
+
+// THROW FOR UNSUPPORTED TYPES =====================================================================
+template<typename ValueT>
+ValueT
+DynamicMessage::get_value(rosidl_dynamic_typesupport_member_id_t id)
+{
+  throw rclcpp::exceptions::UnimplementedError("get_value is not implemented for input type");
+}
+
+
+template<typename ValueT>
+ValueT
+DynamicMessage::get_value(const std::string & name)
+{
+  throw rclcpp::exceptions::UnimplementedError("get_value is not implemented for input type");
+}
+
+
+template<typename ValueT>
+void
+DynamicMessage::set_value(
+  rosidl_dynamic_typesupport_member_id_t id, ValueT value)
+{
+  throw rclcpp::exceptions::UnimplementedError("set_value is not implemented for input type");
+}
+
+
+template<typename ValueT>
+void
+DynamicMessage::set_value(const std::string & name, ValueT value)
+{
+  throw rclcpp::exceptions::UnimplementedError("set_value is not implemented for input type");
+}
+
+
+template<typename ValueT>
+rosidl_dynamic_typesupport_member_id_t
+DynamicMessage::insert_value(ValueT value)
+{
+  throw rclcpp::exceptions::UnimplementedError("insert_value is not implemented for input type");
+}
+
+
+}  // namespace dynamic_typesupport
+}  // namespace rclcpp
+
+#undef __DYNAMIC_MESSAGE_GET_VALUE_BY_ID_FN
+#undef __DYNAMIC_MESSAGE_GET_VALUE_BY_NAME_FN
+#undef __DYNAMIC_MESSAGE_SET_VALUE_BY_ID_FN
+#undef __DYNAMIC_MESSAGE_SET_VALUE_BY_NAME_FN
+#undef __DYNAMIC_MESSAGE_INSERT_VALUE
+#undef DYNAMIC_MESSAGE_DEFINITIONS
+
+#endif  // RCLCPP__DYNAMIC_TYPESUPPORT__DETAIL__DYNAMIC_MESSAGE_IMPL_HPP_

rclcpp/include/rclcpp/dynamic_typesupport/detail/dynamic_message_type_builder_impl.hpp

@@ -0,0 +1,189 @@
+// 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__DETAIL__DYNAMIC_MESSAGE_TYPE_BUILDER_IMPL_HPP_
+#define RCLCPP__DYNAMIC_TYPESUPPORT__DETAIL__DYNAMIC_MESSAGE_TYPE_BUILDER_IMPL_HPP_
+
+#include <rosidl_dynamic_typesupport/types.h>
+#include <rosidl_dynamic_typesupport/api/dynamic_type.h>
+
+#include <cstdint>
+#include <cstddef>
+#include <memory>
+#include <string>
+
+#include "rclcpp/exceptions.hpp"
+
+#ifndef RCLCPP__DYNAMIC_TYPESUPPORT__DYNAMIC_MESSAGE_TYPE_BUILDER_HPP_
+#include "rclcpp/dynamic_typesupport/dynamic_message_type_builder.hpp"
+#endif
+
+
+#define __DYNAMIC_MESSAGE_TYPE_BUILDER_ADD_MEMBER_FN(MemberT, FunctionT) \
+  template<> \
+  void \
+  DynamicMessageTypeBuilder::add_member<MemberT>( \
+    rosidl_dynamic_typesupport_member_id_t id, \
+    const std::string & name, \
+    const std::string & default_value) \
+  { \
+    rosidl_dynamic_typesupport_dynamic_type_builder_add_ ## FunctionT ## _member( \
+      &rosidl_dynamic_type_builder_, \
+      id, name.c_str(), name.size(), default_value.c_str(), default_value.size()); \
+  }
+
+#define __DYNAMIC_MESSAGE_TYPE_BUILDER_ADD_ARRAY_MEMBER_FN(MemberT, FunctionT) \
+  template<> \
+  void \
+  DynamicMessageTypeBuilder::add_array_member<MemberT>( \
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name, \
+    size_t array_length, \
+    const std::string & default_value) \
+  { \
+    rosidl_dynamic_typesupport_dynamic_type_builder_add_ ## FunctionT ## _array_member( \
+      &rosidl_dynamic_type_builder_, \
+      id, name.c_str(), name.size(), default_value.c_str(), default_value.size(), \
+      array_length); \
+  }
+
+#define __DYNAMIC_MESSAGE_TYPE_BUILDER_ADD_UNBOUNDED_SEQUENCE_MEMBER_FN(MemberT, FunctionT) \
+  template<> \
+  void \
+  DynamicMessageTypeBuilder::add_unbounded_sequence_member<MemberT>( \
+    rosidl_dynamic_typesupport_member_id_t id, \
+    const std::string & name, \
+    const std::string & default_value) \
+  { \
+    rosidl_dynamic_typesupport_dynamic_type_builder_add_ ## FunctionT ## \
+    _unbounded_sequence_member( \
+      &rosidl_dynamic_type_builder_, \
+      id, name.c_str(), name.size(), default_value.c_str(), default_value.size()); \
+  }
+
+#define __DYNAMIC_MESSAGE_TYPE_BUILDER_ADD_BOUNDED_SEQUENCE_MEMBER_FN(MemberT, FunctionT) \
+  template<> \
+  void \
+  DynamicMessageTypeBuilder::add_bounded_sequence_member<MemberT>( \
+    rosidl_dynamic_typesupport_member_id_t id, \
+    const std::string & name, \
+    size_t sequence_bound, \
+    const std::string & default_value) \
+  { \
+    rosidl_dynamic_typesupport_dynamic_type_builder_add_ ## FunctionT ## _bounded_sequence_member( \
+      &rosidl_dynamic_type_builder_, \
+      id, name.c_str(), name.size(), default_value.c_str(), default_value.size(), \
+      sequence_bound); \
+  }
+
+#define DYNAMIC_MESSAGE_TYPE_BUILDER_DEFINITIONS(MemberT, FunctionT) \
+  __DYNAMIC_MESSAGE_TYPE_BUILDER_ADD_MEMBER_FN(MemberT, FunctionT) \
+  __DYNAMIC_MESSAGE_TYPE_BUILDER_ADD_ARRAY_MEMBER_FN(MemberT, FunctionT) \
+  __DYNAMIC_MESSAGE_TYPE_BUILDER_ADD_UNBOUNDED_SEQUENCE_MEMBER_FN(MemberT, FunctionT) \
+  __DYNAMIC_MESSAGE_TYPE_BUILDER_ADD_BOUNDED_SEQUENCE_MEMBER_FN(MemberT, FunctionT) \
+
+
+namespace rclcpp
+{
+namespace dynamic_typesupport
+{
+
+/**
+ * Since we're in a ROS layer, these should support all ROS interface C++ types as found in:
+ * https://docs.ros.org/en/rolling/Concepts/About-ROS-Interfaces.html
+ *
+ * Explicitly:
+ * - Basic types:        bool, byte, char
+ * - Float types:        float, double
+ * - Int types:          int8_t, int16_t, int32_t, int64_t
+ * - Unsigned int types: uint8_t, uint16_t, uint32_t, uint64_t
+ * - String types:       std::string, std::u16string
+ */
+
+DYNAMIC_MESSAGE_TYPE_BUILDER_DEFINITIONS(bool, bool);
+DYNAMIC_MESSAGE_TYPE_BUILDER_DEFINITIONS(std::byte, byte);
+DYNAMIC_MESSAGE_TYPE_BUILDER_DEFINITIONS(char, char);
+DYNAMIC_MESSAGE_TYPE_BUILDER_DEFINITIONS(float, float32);
+DYNAMIC_MESSAGE_TYPE_BUILDER_DEFINITIONS(double, float64);
+DYNAMIC_MESSAGE_TYPE_BUILDER_DEFINITIONS(int8_t, int8);
+DYNAMIC_MESSAGE_TYPE_BUILDER_DEFINITIONS(int16_t, int16);
+DYNAMIC_MESSAGE_TYPE_BUILDER_DEFINITIONS(int32_t, int32);
+DYNAMIC_MESSAGE_TYPE_BUILDER_DEFINITIONS(int64_t, int64);
+DYNAMIC_MESSAGE_TYPE_BUILDER_DEFINITIONS(uint8_t, uint8);
+DYNAMIC_MESSAGE_TYPE_BUILDER_DEFINITIONS(uint16_t, uint16);
+DYNAMIC_MESSAGE_TYPE_BUILDER_DEFINITIONS(uint32_t, uint32);
+DYNAMIC_MESSAGE_TYPE_BUILDER_DEFINITIONS(uint64_t, uint64);
+DYNAMIC_MESSAGE_TYPE_BUILDER_DEFINITIONS(std::string, string);
+DYNAMIC_MESSAGE_TYPE_BUILDER_DEFINITIONS(std::u16string, wstring);
+
+
+// THROW FOR UNSUPPORTED TYPES =====================================================================
+template<typename MemberT>
+void
+DynamicMessageTypeBuilder::add_member(
+  rosidl_dynamic_typesupport_member_id_t id,
+  const std::string & name,
+  const std::string & default_value)
+{
+  throw rclcpp::exceptions::UnimplementedError(
+          "add_member is not implemented for input type");
+}
+
+
+template<typename MemberT>
+void
+DynamicMessageTypeBuilder::add_array_member(
+  rosidl_dynamic_typesupport_member_id_t id,
+  const std::string & name,
+  size_t array_length, const std::string & default_value)
+{
+  throw rclcpp::exceptions::UnimplementedError(
+          "add_array_member is not implemented for input type");
+}
+
+
+template<typename MemberT>
+void
+DynamicMessageTypeBuilder::add_unbounded_sequence_member(
+  rosidl_dynamic_typesupport_member_id_t id,
+  const std::string & name,
+  const std::string & default_value)
+{
+  throw rclcpp::exceptions::UnimplementedError(
+          "add_unbounded_sequence_member is not implemented for input type");
+}
+
+
+template<typename MemberT>
+void
+DynamicMessageTypeBuilder::add_bounded_sequence_member(
+  rosidl_dynamic_typesupport_member_id_t id,
+  const std::string & name,
+  size_t sequence_bound,
+  const std::string & default_value)
+{
+  throw rclcpp::exceptions::UnimplementedError(
+          "add_bounded_sequence_member is not implemented for input type");
+}
+
+
+}  // namespace dynamic_typesupport
+}  // namespace rclcpp
+
+#undef __DYNAMIC_MESSAGE_TYPE_BUILDER_ADD_MEMBER_FN
+#undef __DYNAMIC_MESSAGE_TYPE_BUILDER_ADD_ARRAY_MEMBER_FN
+#undef __DYNAMIC_MESSAGE_TYPE_BUILDER_ADD_UNBOUNDED_SEQUENCE_MEMBER_FN
+#undef __DYNAMIC_MESSAGE_TYPE_BUILDER_ADD_BOUNDED_SEQUENCE_MEMBER_FN
+#undef DYNAMIC_MESSAGE_TYPE_BUILDER_DEFINITIONS
+
+#endif  // RCLCPP__DYNAMIC_TYPESUPPORT__DETAIL__DYNAMIC_MESSAGE_TYPE_BUILDER_IMPL_HPP_

rclcpp/include/rclcpp/dynamic_typesupport/dynamic_message.hpp

@@ -32,16 +32,372 @@ namespace rclcpp
 namespace dynamic_typesupport
 {
 
+class DynamicMessageType;
+class DynamicMessageTypeBuilder;
+
 /// Utility wrapper class for rosidl_dynamic_typesupport_dynamic_data_t
-/// STUBBED OUT
+/**
+ * This class:
+ * - Exposes getter methods for the struct
+ * - Exposes the underlying serialization support API
+ *
+ * Ownership:
+ * - This class borrows the rosidl_dynamic_typesupport_serialization_support_t stored in the passed
+ *   DynamicSerializationSupport. So it cannot outlive the DynamicSerializationSupport.
+ * - The DynamicSerializationSupport's rosidl_dynamic_typesupport_serialization_support_t pointer
+ *   must point to the same location in memory as the stored raw pointer!
+ *
+ * Note: This class is meant to map to the lower level rosidl_dynamic_typesupport_dynamic_data_t,
+ *       even though rosidl_dynamic_typesupport_dynamic_data_t is equivalent to
+ *       rosidl_dynamic_typesupport_dynamic_data_t, exposing the fundamental methods available to
+ *       rosidl_dynamic_typesupport_dynamic_data_t, allowing the user to access the data's fields.
+ */
 class DynamicMessage : public std::enable_shared_from_this<DynamicMessage>
 {
 public:
   RCLCPP_SMART_PTR_ALIASES_ONLY(DynamicMessage)
 
+  // CONSTRUCTION ==================================================================================
+  // Most constructors require a passed in DynamicSerializationSupport::SharedPtr, to extend the
+  // lifetime of the serialization support (if the constructor cannot otherwise get it from args).
+  //
+  // In cases where a dynamic data pointer is passed, the serialization support composed by
+  // the data should be the exact same object managed by the DynamicSerializationSupport,
+  // otherwise the lifetime management will not work properly.
+
+  /// Construct a new DynamicMessage with the provided dynamic type builder, using its allocator
+  RCLCPP_PUBLIC
+  explicit DynamicMessage(std::shared_ptr<DynamicMessageTypeBuilder> dynamic_type_builder);
+
+  /// Construct a new DynamicMessage with the provided dynamic type builder and allocator
+  RCLCPP_PUBLIC
+  DynamicMessage(
+    std::shared_ptr<DynamicMessageTypeBuilder> dynamic_type_builder,
+    rcl_allocator_t allocator);
+
+  /// Construct a new DynamicMessage with the provided dynamic type, using its allocator
+  RCLCPP_PUBLIC
+  explicit DynamicMessage(std::shared_ptr<DynamicMessageType> dynamic_type);
+
+  /// Construct a new DynamicMessage with the provided dynamic type and allocator
+  RCLCPP_PUBLIC
+  DynamicMessage(
+    std::shared_ptr<DynamicMessageType> dynamic_type,
+    rcl_allocator_t allocator);
+
+  /// Assume ownership of struct
+  RCLCPP_PUBLIC
+  DynamicMessage(
+    DynamicSerializationSupport::SharedPtr serialization_support,
+    rosidl_dynamic_typesupport_dynamic_data_t && rosidl_dynamic_data);
+
+  /// Loaning constructor
+  /// Must only be called with a rosidl dynaimc data object obtained from loaning!
+  // NOTE(methylDragon): I'd put this in protected, but I need this exposed to
+  //                     enable_shared_from_this...
+  RCLCPP_PUBLIC
+  DynamicMessage(
+    DynamicMessage::SharedPtr parent_data,
+    rosidl_dynamic_typesupport_dynamic_data_t && rosidl_loaned_data);
+
+  // NOTE(methylDragon): Deliberately no constructor from description to nudge users towards using
+  //                     construction from dynamic type/builder, which is more efficient
+
+  /// Move constructor
+  RCLCPP_PUBLIC
+  DynamicMessage(DynamicMessage && other) noexcept;
+
+  /// Move assignment
+  RCLCPP_PUBLIC
+  DynamicMessage & operator=(DynamicMessage && other) noexcept;
+
   RCLCPP_PUBLIC
   virtual ~DynamicMessage();
 
+
+  // GETTERS =======================================================================================
+  RCLCPP_PUBLIC
+  const std::string
+  get_serialization_library_identifier() const;
+
+  RCLCPP_PUBLIC
+  const std::string
+  get_name() const;
+
+  RCLCPP_PUBLIC
+  rosidl_dynamic_typesupport_dynamic_data_t &
+  get_rosidl_dynamic_data();
+
+  RCLCPP_PUBLIC
+  const rosidl_dynamic_typesupport_dynamic_data_t &
+  get_rosidl_dynamic_data() const;
+
+  RCLCPP_PUBLIC
+  DynamicSerializationSupport::SharedPtr
+  get_shared_dynamic_serialization_support();
+
+  RCLCPP_PUBLIC
+  DynamicSerializationSupport::ConstSharedPtr
+  get_shared_dynamic_serialization_support() const;
+
+  RCLCPP_PUBLIC
+  size_t
+  get_item_count() const;
+
+  RCLCPP_PUBLIC
+  rosidl_dynamic_typesupport_member_id_t
+  get_member_id(size_t index) const;
+
+  RCLCPP_PUBLIC
+  rosidl_dynamic_typesupport_member_id_t
+  get_member_id(const std::string & name) const;
+
+  RCLCPP_PUBLIC
+  rosidl_dynamic_typesupport_member_id_t
+  get_array_index(size_t index) const;
+
+  RCLCPP_PUBLIC
+  rosidl_dynamic_typesupport_member_id_t
+  get_array_index(const std::string & name) const;
+
+
+  // METHODS =======================================================================================
+  RCLCPP_PUBLIC
+  DynamicMessage
+  clone(rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  RCLCPP_PUBLIC
+  DynamicMessage::SharedPtr
+  clone_shared(rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  RCLCPP_PUBLIC
+  DynamicMessage
+  init_from_type(
+    DynamicMessageType & type, rcl_allocator_t allocator = rcl_get_default_allocator()) const;
+
+  RCLCPP_PUBLIC
+  DynamicMessage::SharedPtr
+  init_from_type_shared(
+    DynamicMessageType & type, rcl_allocator_t allocator = rcl_get_default_allocator()) const;
+
+  RCLCPP_PUBLIC
+  bool
+  equals(const DynamicMessage & other) const;
+
+  RCLCPP_PUBLIC
+  DynamicMessage::SharedPtr
+  loan_value(
+    rosidl_dynamic_typesupport_member_id_t id,
+    rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  RCLCPP_PUBLIC
+  DynamicMessage::SharedPtr
+  loan_value(
+    const std::string & name,
+    rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  RCLCPP_PUBLIC
+  void
+  clear_all_values();
+
+  RCLCPP_PUBLIC
+  void
+  clear_nonkey_values();
+
+  RCLCPP_PUBLIC
+  void
+  clear_value(rosidl_dynamic_typesupport_member_id_t id);
+
+  RCLCPP_PUBLIC
+  void
+  clear_value(const std::string & name);
+
+  RCLCPP_PUBLIC
+  void
+  clear_sequence();
+
+  RCLCPP_PUBLIC
+  rosidl_dynamic_typesupport_member_id_t
+  insert_sequence_data();
+
+  RCLCPP_PUBLIC
+  void
+  remove_sequence_data(rosidl_dynamic_typesupport_member_id_t index);
+
+  RCLCPP_PUBLIC
+  bool
+  serialize(rcl_serialized_message_t & buffer);
+
+  RCLCPP_PUBLIC
+  bool
+  deserialize(rcl_serialized_message_t & buffer);
+
+
+  // MEMBER ACCESS TEMPLATES =======================================================================
+  /**
+   * Since we're in a ROS layer, these should support all ROS interface C++ types as found in:
+   * https://docs.ros.org/en/rolling/Concepts/About-ROS-Interfaces.html
+   *
+   * Explicitly:
+   * - Basic types:        bool, byte, char
+   * - Float types:        float, double
+   * - Int types:          int8_t, int16_t, int32_t, int64_t
+   * - Unsigned int types: uint8_t, uint16_t, uint32_t, uint64_t
+   * - String types:       std::string, std::u16string
+   */
+
+  template<typename ValueT>
+  ValueT
+  get_value(rosidl_dynamic_typesupport_member_id_t id);
+
+  template<typename ValueT>
+  ValueT
+  get_value(const std::string & name);
+
+  template<typename ValueT>
+  void
+  set_value(rosidl_dynamic_typesupport_member_id_t id, ValueT value);
+
+  template<typename ValueT>
+  void
+  set_value(const std::string & name, ValueT value);
+
+  template<typename ValueT>
+  rosidl_dynamic_typesupport_member_id_t
+  insert_value(ValueT value);
+
+
+  // FIXED STRING MEMBER ACCESS ====================================================================
+  RCLCPP_PUBLIC
+  const std::string
+  get_fixed_string_value(rosidl_dynamic_typesupport_member_id_t id, size_t string_length);
+
+  RCLCPP_PUBLIC
+  const std::string
+  get_fixed_string_value(const std::string & name, size_t string_length);
+
+  RCLCPP_PUBLIC
+  const std::u16string
+  get_fixed_wstring_value(rosidl_dynamic_typesupport_member_id_t id, size_t wstring_length);
+
+  RCLCPP_PUBLIC
+  const std::u16string
+  get_fixed_wstring_value(const std::string & name, size_t wstring_length);
+
+  RCLCPP_PUBLIC
+  void
+  set_fixed_string_value(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string value, size_t string_length);
+
+  RCLCPP_PUBLIC
+  void
+  set_fixed_string_value(const std::string & name, const std::string value, size_t string_length);
+
+  RCLCPP_PUBLIC
+  void
+  set_fixed_wstring_value(
+    rosidl_dynamic_typesupport_member_id_t id, const std::u16string value, size_t wstring_length);
+
+  RCLCPP_PUBLIC
+  void
+  set_fixed_wstring_value(
+    const std::string & name, const std::u16string value, size_t wstring_length);
+
+  RCLCPP_PUBLIC
+  rosidl_dynamic_typesupport_member_id_t
+  insert_fixed_string_value(const std::string value, size_t string_length);
+
+  RCLCPP_PUBLIC
+  rosidl_dynamic_typesupport_member_id_t
+  insert_fixed_wstring_value(const std::u16string value, size_t wstring_length);
+
+
+  // BOUNDED STRING MEMBER ACCESS ==================================================================
+  RCLCPP_PUBLIC
+  const std::string
+  get_bounded_string_value(rosidl_dynamic_typesupport_member_id_t id, size_t string_bound);
+
+  RCLCPP_PUBLIC
+  const std::string
+  get_bounded_string_value(const std::string & name, size_t string_bound);
+
+  RCLCPP_PUBLIC
+  const std::u16string
+  get_bounded_wstring_value(rosidl_dynamic_typesupport_member_id_t id, size_t wstring_bound);
+
+  RCLCPP_PUBLIC
+  const std::u16string
+  get_bounded_wstring_value(const std::string & name, size_t wstring_bound);
+
+  RCLCPP_PUBLIC
+  void
+  set_bounded_string_value(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string value, size_t string_bound);
+
+  RCLCPP_PUBLIC
+  void
+  set_bounded_string_value(const std::string & name, const std::string value, size_t string_bound);
+
+  RCLCPP_PUBLIC
+  void
+  set_bounded_wstring_value(
+    rosidl_dynamic_typesupport_member_id_t id, const std::u16string value, size_t wstring_bound);
+
+  RCLCPP_PUBLIC
+  void
+  set_bounded_wstring_value(
+    const std::string & name, const std::u16string value, size_t wstring_bound);
+
+  RCLCPP_PUBLIC
+  rosidl_dynamic_typesupport_member_id_t
+  insert_bounded_string_value(const std::string value, size_t string_bound);
+
+  RCLCPP_PUBLIC
+  rosidl_dynamic_typesupport_member_id_t
+  insert_bounded_wstring_value(const std::u16string value, size_t wstring_bound);
+
+
+  // NESTED MEMBER ACCESS ==========================================================================
+  RCLCPP_PUBLIC
+  DynamicMessage
+  get_complex_value(
+    rosidl_dynamic_typesupport_member_id_t id,
+    rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  RCLCPP_PUBLIC
+  DynamicMessage
+  get_complex_value(
+    const std::string & name,
+    rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  RCLCPP_PUBLIC
+  DynamicMessage::SharedPtr
+  get_complex_value_shared(
+    rosidl_dynamic_typesupport_member_id_t id,
+    rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  RCLCPP_PUBLIC
+  DynamicMessage::SharedPtr
+  get_complex_value_shared(
+    const std::string & name,
+    rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  RCLCPP_PUBLIC
+  void
+  set_complex_value(rosidl_dynamic_typesupport_member_id_t id, DynamicMessage & value);
+
+  RCLCPP_PUBLIC
+  void
+  set_complex_value(const std::string & name, DynamicMessage & value);
+
+  RCLCPP_PUBLIC
+  rosidl_dynamic_typesupport_member_id_t
+  insert_complex_value_copy(const DynamicMessage & value);
+
+  RCLCPP_PUBLIC
+  rosidl_dynamic_typesupport_member_id_t
+  insert_complex_value(DynamicMessage & value);
+
 protected:
   // NOTE(methylDragon):
   // This is just here to extend the lifetime of the serialization support
@@ -62,6 +418,12 @@ private:
 
   RCLCPP_PUBLIC
   DynamicMessage();
+
+  RCLCPP_PUBLIC
+  bool
+  match_serialization_support_(
+    const DynamicSerializationSupport & serialization_support,
+    const rosidl_dynamic_typesupport_dynamic_data_t & dynamic_data);
 };
 
 }  // namespace dynamic_typesupport

rclcpp/include/rclcpp/dynamic_typesupport/dynamic_message_type.hpp

@@ -30,16 +30,143 @@ namespace rclcpp
 namespace dynamic_typesupport
 {
 
+class DynamicMessage;
+class DynamicMessageTypeBuilder;
+
 /// Utility wrapper class for `rosidl_dynamic_typesupport_dynamic_type_t`
-/// STUBBED OUT
+/**
+ * This class:
+ * - Exposes getter methods for the struct
+ * - Exposes the underlying serialization support API
+ *
+ * Ownership:
+ * - This class borrows the `rosidl_dynamic_typesupport_serialization_support_t` stored in the
+ *   passed `DynamicSerializationSupport`.
+ *   So it cannot outlive the `DynamicSerializationSupport`.
+ * - The `DynamicSerializationSupport`'s `rosidl_dynamic_typesupport_serialization_support_t`
+ *   pointer must point to the same location in memory as the stored raw pointer!
+ *
+ * This class is meant to map to the lower level `rosidl_dynamic_typesupport_dynamic_type_t`,
+ * which can be constructed via `DynamicMessageTypeBuilder`, which maps to
+ * `rosidl_dynamic_typesupport_dynamic_type_builder_t`.
+ *
+ *  The usual method of obtaining a `DynamicMessageType` is through construction of
+ *  `rosidl_message_type_support_t` via `rcl_dynamic_message_type_support_handle_create()`, then
+ *  taking ownership of its contents. But `DynamicMessageTypeBuilder` can also be used to obtain
+ *  `DynamicMessageType` by constructing it bottom-up instead, since it exposes the lower_level
+ *  rosidl methods.
+ */
 class DynamicMessageType : public std::enable_shared_from_this<DynamicMessageType>
 {
 public:
   RCLCPP_SMART_PTR_ALIASES_ONLY(DynamicMessageType)
 
+  // CONSTRUCTION ==================================================================================
+  // Most constructors require a passed in `DynamicSerializationSupport::SharedPtr`, to extend the
+  // lifetime of the serialization support (if the constructor cannot otherwise get it from args).
+  //
+  // In cases where a dynamic type pointer is passed, the serialization support composed by
+  // the type should be the exact same object managed by the `DynamicSerializationSupport`,
+  // otherwise the lifetime management will not work properly.
+
+  /// Construct a new `DynamicMessageType` with the provided dynamic type builder,
+  /// using its allocator
+  RCLCPP_PUBLIC
+  explicit DynamicMessageType(std::shared_ptr<DynamicMessageTypeBuilder> dynamic_type_builder);
+
+  /// Construct a new `DynamicMessageType` with the provided dynamic type builder and allocator
+  RCLCPP_PUBLIC
+  DynamicMessageType(
+    std::shared_ptr<DynamicMessageTypeBuilder> dynamic_type_builder,
+    rcl_allocator_t allocator);
+
+  /// Assume ownership of struct
+  RCLCPP_PUBLIC
+  DynamicMessageType(
+    DynamicSerializationSupport::SharedPtr serialization_support,
+    rosidl_dynamic_typesupport_dynamic_type_t && rosidl_dynamic_type);
+
+  /// From description
+  RCLCPP_PUBLIC
+  DynamicMessageType(
+    DynamicSerializationSupport::SharedPtr serialization_support,
+    const rosidl_runtime_c__type_description__TypeDescription & description,
+    rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  /// Move constructor
+  RCLCPP_PUBLIC
+  DynamicMessageType(DynamicMessageType && other) noexcept;
+
+  /// Move assignment
+  RCLCPP_PUBLIC
+  DynamicMessageType & operator=(DynamicMessageType && other) noexcept;
+
   RCLCPP_PUBLIC
   virtual ~DynamicMessageType();
 
+  /// Swaps the serialization support if `serialization_support` is populated
+  /**
+   * The user can call this with another description to reconfigure the type without changing the
+   * serialization support
+   */
+  RCLCPP_PUBLIC
+  void
+  init_from_description(
+    const rosidl_runtime_c__type_description__TypeDescription & description,
+    rcl_allocator_t allocator = rcl_get_default_allocator(),
+    DynamicSerializationSupport::SharedPtr serialization_support = nullptr);
+
+  // GETTERS =======================================================================================
+  RCLCPP_PUBLIC
+  const std::string
+  get_serialization_library_identifier() const;
+
+  RCLCPP_PUBLIC
+  const std::string
+  get_name() const;
+
+  RCLCPP_PUBLIC
+  size_t
+  get_member_count() const;
+
+  RCLCPP_PUBLIC
+  rosidl_dynamic_typesupport_dynamic_type_t &
+  get_rosidl_dynamic_type();
+
+  RCLCPP_PUBLIC
+  const rosidl_dynamic_typesupport_dynamic_type_t &
+  get_rosidl_dynamic_type() const;
+
+  RCLCPP_PUBLIC
+  DynamicSerializationSupport::SharedPtr
+  get_shared_dynamic_serialization_support();
+
+  RCLCPP_PUBLIC
+  DynamicSerializationSupport::ConstSharedPtr
+  get_shared_dynamic_serialization_support() const;
+
+
+  // METHODS =======================================================================================
+  RCLCPP_PUBLIC
+  DynamicMessageType
+  clone(rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  RCLCPP_PUBLIC
+  DynamicMessageType::SharedPtr
+  clone_shared(rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  RCLCPP_PUBLIC
+  bool
+  equals(const DynamicMessageType & other) const;
+
+  RCLCPP_PUBLIC
+  DynamicMessage
+  build_dynamic_message(rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  RCLCPP_PUBLIC
+  std::shared_ptr<DynamicMessage>
+  build_dynamic_message_shared(rcl_allocator_t allocator = rcl_get_default_allocator());
+
 protected:
   // NOTE(methylDragon):
   // This is just here to extend the lifetime of the serialization support
@@ -56,6 +183,12 @@ private:
 
   RCLCPP_PUBLIC
   DynamicMessageType();
+
+  RCLCPP_PUBLIC
+  bool
+  match_serialization_support_(
+    const DynamicSerializationSupport & serialization_support,
+    const rosidl_dynamic_typesupport_dynamic_type_t & rosidl_dynamic_type);
 };
 
 }  // namespace dynamic_typesupport

rclcpp/include/rclcpp/dynamic_typesupport/dynamic_message_type_builder.hpp

@@ -30,16 +30,347 @@ namespace rclcpp
 namespace dynamic_typesupport
 {
 
+class DynamicMessage;
+class DynamicMessageType;
+
 /// Utility wrapper class for `rosidl_dynamic_typesupport_dynamic_type_builder_t *`
-/// STUBBED OUT
+/**
+ * This class:
+ * - Manages the lifetime of the raw pointer.
+ * - Exposes getter methods to get the raw pointer and shared pointers
+ * - Exposes the underlying serialization support API
+ *
+ * Ownership:
+ * - This class borrows the rosidl_dynamic_typesupport_serialization_support_t stored in the passed
+ *   `DynamicSerializationSupport`.
+ *   So it cannot outlive the `DynamicSerializationSupport`.
+ * - The `DynamicSerializationSupport`'s `rosidl_dynamic_typesupport_serialization_support_t`
+ *   pointer must point to the same location in memory as the stored raw pointer!
+ *
+ * This class is meant to map to rosidl_dynamic_typesupport_dynamic_type_builder_t, facilitating the
+ * construction of dynamic types bottom-up in the C++ layer.
+ *
+ * The usual method of obtaining a `DynamicMessageType` is through construction of
+ * `rosidl_message_type_support_t` via `rcl_dynamic_message_type_support_handle_create()`, then
+ * taking ownership of its contents.
+ * But `DynamicMessageTypeBuilder` can also be used to obtain `DynamicMessageType` by constructing
+ * it bottom-up instead, since it exposes the lower_level rosidl methods.
+ */
 class DynamicMessageTypeBuilder : public std::enable_shared_from_this<DynamicMessageTypeBuilder>
 {
 public:
   RCLCPP_SMART_PTR_ALIASES_ONLY(DynamicMessageTypeBuilder)
 
+  // CONSTRUCTION ==================================================================================
+  // All constructors require a passed in `DynamicSerializationSupport::SharedPtr`, to extend the
+  // lifetime of the serialization support.
+  //
+  // In cases where a dynamic type builder pointer is passed, the serialization support composed by
+  // the builder should be the exact same object managed by the `DynamicSerializationSupport`,
+  // otherwise the lifetime management will not work properly.
+
+  /// Construct a new `DynamicMessageTypeBuilder` with the provided serialization support using its
+  /// allocator
+  RCLCPP_PUBLIC
+  DynamicMessageTypeBuilder(
+    DynamicSerializationSupport::SharedPtr serialization_support,
+    const std::string & name);
+
+  /// Construct a new `DynamicMessageTypeBuilder` with the provided serialization support and
+  /// allocator
+  RCLCPP_PUBLIC
+  DynamicMessageTypeBuilder(
+    DynamicSerializationSupport::SharedPtr serialization_support,
+    const std::string & name,
+    rcl_allocator_t allocator);
+
+  /// Assume ownership of struct
+  RCLCPP_PUBLIC
+  DynamicMessageTypeBuilder(
+    DynamicSerializationSupport::SharedPtr serialization_support,
+    rosidl_dynamic_typesupport_dynamic_type_builder_t && dynamic_type_builder);
+
+  /// From description
+  RCLCPP_PUBLIC
+  DynamicMessageTypeBuilder(
+    DynamicSerializationSupport::SharedPtr serialization_support,
+    const rosidl_runtime_c__type_description__TypeDescription & description,
+    rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  /// Move constructor
+  RCLCPP_PUBLIC
+  DynamicMessageTypeBuilder(DynamicMessageTypeBuilder && other) noexcept;
+
+  /// Move assignment
+  RCLCPP_PUBLIC
+  DynamicMessageTypeBuilder & operator=(DynamicMessageTypeBuilder && other) noexcept;
+
   RCLCPP_PUBLIC
   virtual ~DynamicMessageTypeBuilder();
 
+  /// Swaps the serialization support if serialization_support is populated
+  /**
+   * The user can call this with another description to reconfigure the type without changing the
+   * serialization support
+   */
+  RCLCPP_PUBLIC
+  void
+  init_from_description(
+    const rosidl_runtime_c__type_description__TypeDescription & description,
+    rcl_allocator_t allocator = rcl_get_default_allocator(),
+    DynamicSerializationSupport::SharedPtr serialization_support = nullptr);
+
+
+  // GETTERS =======================================================================================
+  RCLCPP_PUBLIC
+  const std::string
+  get_serialization_library_identifier() const;
+
+  RCLCPP_PUBLIC
+  const std::string
+  get_name() const;
+
+  RCLCPP_PUBLIC
+  rosidl_dynamic_typesupport_dynamic_type_builder_t &
+  get_rosidl_dynamic_type_builder();
+
+  RCLCPP_PUBLIC
+  const rosidl_dynamic_typesupport_dynamic_type_builder_t &
+  get_rosidl_dynamic_type_builder() const;
+
+  RCLCPP_PUBLIC
+  DynamicSerializationSupport::SharedPtr
+  get_shared_dynamic_serialization_support();
+
+  RCLCPP_PUBLIC
+  DynamicSerializationSupport::ConstSharedPtr
+  get_shared_dynamic_serialization_support() const;
+
+
+  // METHODS =======================================================================================
+  RCLCPP_PUBLIC
+  void
+  set_name(const std::string & name);
+
+  RCLCPP_PUBLIC
+  DynamicMessageTypeBuilder
+  clone(rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  RCLCPP_PUBLIC
+  DynamicMessageTypeBuilder::SharedPtr
+  clone_shared(rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  RCLCPP_PUBLIC
+  void
+  clear(rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  RCLCPP_PUBLIC
+  DynamicMessage
+  build_dynamic_message(rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  RCLCPP_PUBLIC
+  DynamicMessage::SharedPtr
+  build_dynamic_message_shared(rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  RCLCPP_PUBLIC
+  DynamicMessageType
+  build_dynamic_message_type(rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  RCLCPP_PUBLIC
+  DynamicMessageType::SharedPtr
+  build_dynamic_message_type_shared(rcl_allocator_t allocator = rcl_get_default_allocator());
+
+
+  // ADD MEMBERS TEMPLATES =========================================================================
+  /**
+   * Since we're in a ROS layer, these should support all ROS interface C++ types as found in:
+   * https://docs.ros.org/en/rolling/Concepts/About-ROS-Interfaces.html
+   *
+   * Explicitly:
+   * - Basic types:        bool, byte, char
+   * - Float types:        float, double
+   * - Int types:          int8_t, int16_t, int32_t, int64_t
+   * - Unsigned int types: uint8_t, uint16_t, uint32_t, uint64_t
+   * - String types:       std::string, std::u16string
+   */
+
+  template<typename MemberT>
+  void
+  add_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+    const std::string & default_value = "");
+
+  template<typename MemberT>
+  void
+  add_array_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name, size_t array_length,
+    const std::string & default_value = "");
+
+  template<typename MemberT>
+  void
+  add_unbounded_sequence_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+    const std::string & default_value = "");
+
+  template<typename MemberT>
+  void
+  add_bounded_sequence_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name, size_t sequence_bound,
+    const std::string & default_value = "");
+
+
+  // ADD FIXED STRING MEMBERS ======================================================================
+  RCLCPP_PUBLIC
+  void
+  add_fixed_string_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name, size_t string_length,
+    const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_fixed_wstring_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name, size_t wstring_length,
+    const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_fixed_string_array_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+    size_t string_length, size_t array_length, const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_fixed_wstring_array_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+    size_t wstring_length, size_t array_length, const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_fixed_string_unbounded_sequence_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name, size_t string_length,
+    const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_fixed_wstring_unbounded_sequence_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name, size_t wstring_length,
+    const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_fixed_string_bounded_sequence_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+    size_t string_length, size_t sequence_bound, const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_fixed_wstring_bounded_sequence_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+    size_t wstring_length, size_t sequence_bound, const std::string & default_value = "");
+
+
+  // ADD BOUNDED STRING MEMBERS ====================================================================
+  RCLCPP_PUBLIC
+  void
+  add_bounded_string_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name, size_t string_bound,
+    const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_bounded_wstring_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name, size_t wstring_bound,
+    const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_bounded_string_array_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+    size_t string_bound, size_t array_length, const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_bounded_wstring_array_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+    size_t wstring_bound, size_t array_length, const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_bounded_string_unbounded_sequence_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name, size_t string_bound,
+    const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_bounded_wstring_unbounded_sequence_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name, size_t wstring_bound,
+    const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_bounded_string_bounded_sequence_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+    size_t string_bound, size_t sequence_bound, const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_bounded_wstring_bounded_sequence_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+    size_t wstring_bound, size_t sequence_bound, const std::string & default_value = "");
+
+
+  // ADD NESTED MEMBERS ============================================================================
+  RCLCPP_PUBLIC
+  void
+  add_complex_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+    DynamicMessageType & nested_type, const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_complex_array_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+    DynamicMessageType & nested_type, size_t array_length, const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_complex_unbounded_sequence_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+    DynamicMessageType & nested_type, const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_complex_bounded_sequence_member(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+    DynamicMessageType & nested_type, size_t sequence_bound,
+    const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_complex_member_builder(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+    DynamicMessageTypeBuilder & nested_type_builder, const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_complex_array_member_builder(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+    DynamicMessageTypeBuilder & nested_type_builder, size_t array_length,
+    const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_complex_unbounded_sequence_member_builder(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+    DynamicMessageTypeBuilder & nested_type_builder, const std::string & default_value = "");
+
+  RCLCPP_PUBLIC
+  void
+  add_complex_bounded_sequence_member_builder(
+    rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+    DynamicMessageTypeBuilder & nested_type_builder, size_t sequence_bound,
+    const std::string & default_value = "");
+
 protected:
   // NOTE(methylDragon):
   // This is just here to extend the lifetime of the serialization support
@@ -56,6 +387,19 @@ private:
 
   RCLCPP_PUBLIC
   DynamicMessageTypeBuilder();
+
+  RCLCPP_PUBLIC
+  void
+  init_from_serialization_support_(
+    DynamicSerializationSupport::SharedPtr serialization_support,
+    const std::string & name,
+    rcl_allocator_t allocator);
+
+  RCLCPP_PUBLIC
+  bool
+  match_serialization_support_(
+    const DynamicSerializationSupport & serialization_support,
+    const rosidl_dynamic_typesupport_dynamic_type_builder_t & dynamic_type_builder);
 };
 
 }  // namespace dynamic_typesupport

rclcpp/include/rclcpp/dynamic_typesupport/dynamic_message_type_support.hpp

@@ -38,27 +38,126 @@ namespace dynamic_typesupport
 {
 
 /// Utility wrapper class for `rosidl_message_type_support_t` containing managed
-/// STUBBED OUT
+/// instances of the typesupport handle impl.
+/**
+ *
+ * NOTE: This class is the recommended way to obtain the dynamic message type
+ *       support struct, instead of `rcl_dynamic_message_type_support_handle_init()`,
+ *       because this class will manage the lifetimes for you.
+ *
+ *       Do NOT call rcl_dynamic_message_type_support_handle_fini
+ *
+ * This class:
+ * - Exposes getter methods for the struct
+ * - Stores shared pointers to wrapper classes that expose the underlying
+ *   serialization support API
+ *
+ * Ownership:
+ * - This class, similarly to the `rosidl_dynamic_typesupport_serialization_support_t`, must outlive
+ *   all downstream usages of the serialization support.
+ */
 class DynamicMessageTypeSupport : public std::enable_shared_from_this<DynamicMessageTypeSupport>
 {
 public:
   RCLCPP_SMART_PTR_ALIASES_ONLY(DynamicMessageTypeSupport)
 
+  // CONSTRUCTION ==================================================================================
+  /// From description
+  /// Does NOT take ownership of the description (copies instead.)
+  /// Constructs type support top-down (calling `rcl_dynamic_message_type_support_handle_create()`)
+  RCLCPP_PUBLIC
+  DynamicMessageTypeSupport(
+    const rosidl_runtime_c__type_description__TypeDescription & description,
+    const std::string & serialization_library_name = "",
+    rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  /// From description, for provided serialization support
+  /// Does NOT take ownership of the description (copies instead.)
+  /// Constructs type support top-down (calling `rosidl_dynamic_message_type_support_handle_init()`)
+  RCLCPP_PUBLIC
+  DynamicMessageTypeSupport(
+    DynamicSerializationSupport::SharedPtr serialization_support,
+    const rosidl_runtime_c__type_description__TypeDescription & description,
+    rcl_allocator_t allocator = rcl_get_default_allocator());
+
+  /// Assume ownership of managed types
+  /// Does NOT take ownership of the description (copies instead.)
+  ///
+  /// The serialization support used to construct all managed SharedPtrs must match.
+  /// The structure of the provided `description` must match the `dynamic_message_type`
+  /// The structure of the provided `dynamic_message_type` must match the `dynamic_message
+  ///
+  /// In this case, the user would have constructed the type support bototm-up (by creating the
+  /// respective dynamic members.)
+  RCLCPP_PUBLIC
+  DynamicMessageTypeSupport(
+    DynamicSerializationSupport::SharedPtr serialization_support,
+    DynamicMessageType::SharedPtr dynamic_message_type,
+    DynamicMessage::SharedPtr dynamic_message,
+    const rosidl_runtime_c__type_description__TypeDescription & description,
+    rcl_allocator_t allocator = rcl_get_default_allocator());
+
   RCLCPP_PUBLIC
   virtual ~DynamicMessageTypeSupport();
 
+
+  // GETTERS =======================================================================================
+  RCLCPP_PUBLIC
+  const std::string
+  get_serialization_library_identifier() const;
+
+  RCLCPP_PUBLIC
+  const rosidl_message_type_support_t &
+  get_const_rosidl_message_type_support();
+
+  RCLCPP_PUBLIC
+  const rosidl_message_type_support_t &
+  get_const_rosidl_message_type_support() const;
+
+  RCLCPP_PUBLIC
+  const rosidl_runtime_c__type_description__TypeDescription &
+  get_rosidl_runtime_c_type_description() const;
+
+  RCLCPP_PUBLIC
+  DynamicSerializationSupport::SharedPtr
+  get_shared_dynamic_serialization_support();
+
+  RCLCPP_PUBLIC
+  DynamicSerializationSupport::ConstSharedPtr
+  get_shared_dynamic_serialization_support() const;
+
+  RCLCPP_PUBLIC
+  DynamicMessageType::SharedPtr
+  get_shared_dynamic_message_type();
+
+  RCLCPP_PUBLIC
+  DynamicMessageType::ConstSharedPtr
+  get_shared_dynamic_message_type() const;
+
+  RCLCPP_PUBLIC
+  DynamicMessage::SharedPtr
+  get_shared_dynamic_message();
+
+  RCLCPP_PUBLIC
+  DynamicMessage::ConstSharedPtr
+  get_shared_dynamic_message() const;
+
 protected:
+  RCLCPP_DISABLE_COPY(DynamicMessageTypeSupport)
+
+  RCLCPP_PUBLIC
+  rosidl_message_type_support_t &
+  get_rosidl_message_type_support();
+
+private:
+  RCLCPP_PUBLIC
+  DynamicMessageTypeSupport();
+
   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

rclcpp/include/rclcpp/dynamic_typesupport/dynamic_serialization_support.hpp

@@ -31,27 +31,65 @@ namespace dynamic_typesupport
 {
 
 /// Utility wrapper class for rosidl_dynamic_typesupport_serialization_support_t
+/**
+ * This class:
+ * - Exposes getter methods for the struct
+ * - Exposes the underlying serialization support API
+ *
+ * Ownership:
+ * - This class, similarly to the rosidl_dynamic_typesupport_serialization_support_t, must outlive
+ *   all downstream usages of the serialization support.
+ */
 class DynamicSerializationSupport : public std::enable_shared_from_this<DynamicSerializationSupport>
 {
 public:
   RCLCPP_SMART_PTR_ALIASES_ONLY(DynamicSerializationSupport)
 
+  // CONSTRUCTION ==================================================================================
   RCLCPP_PUBLIC
   explicit DynamicSerializationSupport(rcl_allocator_t allocator = rcl_get_default_allocator());
 
+  /// Get the rmw middleware implementation specific serialization support (configured by name)
   RCLCPP_PUBLIC
   DynamicSerializationSupport(
     const std::string & serialization_library_name,
     rcl_allocator_t allocator = rcl_get_default_allocator());
 
+  /// Assume ownership of struct
+  RCLCPP_PUBLIC
+  explicit DynamicSerializationSupport(
+    rosidl_dynamic_typesupport_serialization_support_t && rosidl_serialization_support);
+
+  /// Move constructor
+  RCLCPP_PUBLIC
+  DynamicSerializationSupport(DynamicSerializationSupport && other) noexcept;
+
+  /// Move assignment
+  RCLCPP_PUBLIC
+  DynamicSerializationSupport & operator=(DynamicSerializationSupport && other) noexcept;
+
   RCLCPP_PUBLIC
   virtual ~DynamicSerializationSupport();
 
+
+  // GETTERS =======================================================================================
+  RCLCPP_PUBLIC
+  const std::string
+  get_serialization_library_identifier() const;
+
+  RCLCPP_PUBLIC
+  rosidl_dynamic_typesupport_serialization_support_t &
+  get_rosidl_serialization_support();
+
+  RCLCPP_PUBLIC
+  const rosidl_dynamic_typesupport_serialization_support_t &
+  get_rosidl_serialization_support() const;
+
 protected:
-  rosidl_dynamic_typesupport_serialization_support_t rosidl_serialization_support_;
+  RCLCPP_DISABLE_COPY(DynamicSerializationSupport)
 
 private:
-  RCLCPP_DISABLE_COPY(DynamicSerializationSupport)
+  rosidl_dynamic_typesupport_serialization_support_t rosidl_serialization_support_;
 };
 
 }  // namespace dynamic_typesupport

rclcpp/include/rclcpp/executor.hpp

@@ -51,7 +51,6 @@ typedef std::map<rclcpp::CallbackGroup::WeakPtr,
 
 // Forward declaration is used in convenience method signature.
 class Node;
-class ExecutorImplementation;
 
 /// Coordinate the order and timing of available communication tasks.
 /**
@@ -638,9 +637,8 @@ protected:
   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_;
 
-  /// 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.
@@ -698,9 +696,6 @@ protected:
 
   /// shutdown callback handle registered to Context
   rclcpp::OnShutdownCallbackHandle shutdown_callback_handle_;
-
-  /// Pointer to implementation
-  std::unique_ptr<ExecutorImplementation> impl_;
 };
 
 }  // namespace rclcpp

rclcpp/include/rclcpp/executors.hpp

@@ -21,7 +21,6 @@
 #include "rclcpp/executors/multi_threaded_executor.hpp"
 #include "rclcpp/executors/single_threaded_executor.hpp"
 #include "rclcpp/executors/static_single_threaded_executor.hpp"
-#include "rclcpp/experimental/executors/events_executor/events_executor.hpp"
 #include "rclcpp/node.hpp"
 #include "rclcpp/utilities.hpp"
 #include "rclcpp/visibility_control.hpp"

rclcpp/include/rclcpp/executors/executor_entities_collection.hpp

@@ -1,213 +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();
-};
-
-/// 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_

rclcpp/include/rclcpp/executors/executor_entities_collector.hpp

@@ -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(
-    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(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(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(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(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(
-    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_

rclcpp/include/rclcpp/executors/executor_notify_waitable.hpp

@@ -1,158 +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 "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(std::function<void(void)> on_execute_callback = {});
-
-  // Destructor
-  RCLCPP_PUBLIC
-  ~ExecutorNotifyWaitable() override = default;
-
-  RCLCPP_PUBLIC
-  ExecutorNotifyWaitable(const ExecutorNotifyWaitable & other);
-
-
-  RCLCPP_PUBLIC
-  ExecutorNotifyWaitable & operator=(const 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(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(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(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;
-
-  /// Remove a guard condition from being waited on.
-  /**
-   * \param[in] weak_guard_condition The guard condition to remove.
-   */
-  RCLCPP_PUBLIC
-  void
-  remove_guard_condition(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;
-
-private:
-  /// Callback to run when waitable executes
-  std::function<void(void)> execute_callback_;
-
-  std::mutex guard_condition_mutex_;
-
-  std::function<void(size_t)> on_ready_callback_;
-
-  /// The collection of guard conditions to be waited on.
-  std::set<rclcpp::GuardCondition::WeakPtr,
-    std::owner_less<rclcpp::GuardCondition::WeakPtr>> notify_guard_conditions_;
-};
-
-}  // namespace executors
-}  // namespace rclcpp
-
-#endif  // RCLCPP__EXECUTORS__EXECUTOR_NOTIFY_WAITABLE_HPP_

rclcpp/include/rclcpp/experimental/buffers/intra_process_buffer.hpp

@@ -24,7 +24,6 @@
 #include "rclcpp/allocator/allocator_deleter.hpp"
 #include "rclcpp/experimental/buffers/buffer_implementation_base.hpp"
 #include "rclcpp/macros.hpp"
-#include "tracetools/tracetools.h"
 
 namespace rclcpp
 {
@@ -95,10 +94,6 @@ public:
 
     buffer_ = std::move(buffer_impl);
 
-    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 {

rclcpp/include/rclcpp/experimental/buffers/ring_buffer_implementation.hpp

@@ -25,7 +25,6 @@
 #include "rclcpp/logging.hpp"
 #include "rclcpp/macros.hpp"
 #include "rclcpp/visibility_control.hpp"
-#include "tracetools/tracetools.h"
 
 namespace rclcpp
 {
@@ -52,7 +51,6 @@ public:
     if (capacity == 0) {
       throw std::invalid_argument("capacity must be a positive, non-zero value");
     }
-    TRACEPOINT(rclcpp_construct_ring_buffer, static_cast<const void *>(this), capacity_);
   }
 
   virtual ~RingBufferImplementation() {}
@@ -69,12 +67,6 @@ public:
 
     write_index_ = next_(write_index_);
     ring_buffer_[write_index_] = std::move(request);
-    TRACEPOINT(
-      rclcpp_ring_buffer_enqueue,
-      static_cast<const void *>(this),
-      write_index_,
-      size_ + 1,
-      is_full_());
 
     if (is_full_()) {
       read_index_ = next_(read_index_);
@@ -98,11 +90,6 @@ public:
     }
 
     auto request = std::move(ring_buffer_[read_index_]);
-    TRACEPOINT(
-      rclcpp_ring_buffer_dequeue,
-      static_cast<const void *>(this),
-      read_index_,
-      size_ - 1);
     read_index_ = next_(read_index_);
 
     size_--;
@@ -148,10 +135,7 @@ public:
     return is_full_();
   }
 
-  void clear()
-  {
-    TRACEPOINT(rclcpp_ring_buffer_clear, static_cast<const void *>(this));
-  }
+  void clear() {}
 
 private:
   /// Get the next index value for the ring buffer

rclcpp/include/rclcpp/experimental/executors/events_executor/events_executor.hpp

@@ -1,286 +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
-{
-  friend class EventsExecutorEntitiesCollector;
-
-public:
-  RCLCPP_SMART_PTR_DEFINITIONS(EventsExecutor)
-
-  /// Default constructor. See the default constructor for 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.
-   * \param[in] options Options used to configure the executor.
-   */
-  RCLCPP_PUBLIC
-  explicit EventsExecutor(
-    rclcpp::experimental::executors::EventsQueue::UniquePtr events_queue = std::make_unique<
-      rclcpp::experimental::executors::SimpleEventsQueue>(),
-    bool execute_timers_separate_thread = false,
-    const rclcpp::ExecutorOptions & options = rclcpp::ExecutorOptions());
-
-  /// 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;
-
-  /// Add a node to the executor.
-  /**
-   * \sa rclcpp::Executor::add_node
-   */
-  RCLCPP_PUBLIC
-  void
-  add_node(
-    rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_ptr,
-    bool notify = true) override;
-
-  /// Convenience function which takes Node and forwards NodeBaseInterface.
-  /**
-   * \sa rclcpp::EventsExecutor::add_node
-   */
-  RCLCPP_PUBLIC
-  void
-  add_node(std::shared_ptr<rclcpp::Node> node_ptr, bool notify = true) override;
-
-  /// Remove a node from the executor.
-  /**
-   * \sa rclcpp::Executor::remove_node
-   */
-  RCLCPP_PUBLIC
-  void
-  remove_node(
-    rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_ptr,
-    bool notify = true) override;
-
-  /// Convenience function which takes Node and forwards NodeBaseInterface.
-  /**
-   * \sa rclcpp::Executor::remove_node
-   */
-  RCLCPP_PUBLIC
-  void
-  remove_node(std::shared_ptr<rclcpp::Node> node_ptr, bool notify = true) override;
-
-  /// Add a callback group to an executor.
-  /**
-   * \sa rclcpp::Executor::add_callback_group
-   */
-  RCLCPP_PUBLIC
-  void
-  add_callback_group(
-    rclcpp::CallbackGroup::SharedPtr group_ptr,
-    rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_ptr,
-    bool notify = true) override;
-
-  /// Remove callback group from the executor
-  /**
-   * \sa rclcpp::Executor::remove_callback_group
-   */
-  RCLCPP_PUBLIC
-  void
-  remove_callback_group(
-    rclcpp::CallbackGroup::SharedPtr group_ptr,
-    bool notify = true) override;
-
-  /// Get callback groups that belong to executor.
-  /**
-   * \sa rclcpp::Executor::get_all_callback_groups()
-   */
-  RCLCPP_PUBLIC
-  std::vector<rclcpp::CallbackGroup::WeakPtr>
-  get_all_callback_groups() override;
-
-  /// Get callback groups that belong to executor.
-  /**
-   * \sa rclcpp::Executor::get_manually_added_callback_groups()
-   */
-  RCLCPP_PUBLIC
-  std::vector<rclcpp::CallbackGroup::WeakPtr>
-  get_manually_added_callback_groups() override;
-
-  /// Get callback groups that belong to executor.
-  /**
-   * \sa rclcpp::Executor::get_automatically_added_callback_groups_from_nodes()
-   */
-  RCLCPP_PUBLIC
-  std::vector<rclcpp::CallbackGroup::WeakPtr>
-  get_automatically_added_callback_groups_from_nodes() 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);
-
-private:
-  RCLCPP_DISABLE_COPY(EventsExecutor)
-
-  /// Execute a provided executor event if its associated entities are available
-  void
-  execute_event(const ExecutorEvent & event);
-
-  /// Collect entities from callback groups and refresh the current collection with them
-  void
-  refresh_current_collection_from_callback_groups();
-
-  /// 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);
-
-  /// 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)
-  {
-    // 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_;
-
-  std::shared_ptr<rclcpp::executors::ExecutorEntitiesCollector> entities_collector_;
-  std::shared_ptr<rclcpp::executors::ExecutorEntitiesCollection> current_entities_collection_;
-  std::shared_ptr<rclcpp::executors::ExecutorNotifyWaitable> notify_waitable_;
-
-  /// Flag used to reduce the number of unnecessary waitable events
-  std::atomic<bool> notify_waitable_event_pushed_ {false};
-
-  /// 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_

rclcpp/include/rclcpp/experimental/executors/events_executor/events_executor_event_types.hpp

@@ -1,46 +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_
-
-namespace rclcpp
-{
-namespace experimental
-{
-namespace executors
-{
-
-enum ExecutorEventType
-{
-  CLIENT_EVENT,
-  SUBSCRIPTION_EVENT,
-  SERVICE_EVENT,
-  TIMER_EVENT,
-  WAITABLE_EVENT
-};
-
-struct ExecutorEvent
-{
-  const void * entity_key;
-  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_

rclcpp/include/rclcpp/experimental/executors/events_executor/events_queue.hpp

@@ -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_

rclcpp/include/rclcpp/experimental/executors/events_executor/simple_events_queue.hpp

@@ -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_

rclcpp/include/rclcpp/experimental/subscription_intra_process.hpp

@@ -118,13 +118,6 @@ public:
         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>(

rclcpp/include/rclcpp/experimental/subscription_intra_process_buffer.hpp

@@ -31,8 +31,6 @@
 #include "rclcpp/qos.hpp"
 #include "rclcpp/type_support_decl.hpp"
 
-#include "tracetools/tracetools.h"
-
 namespace rclcpp
 {
 namespace experimental
@@ -93,10 +91,6 @@ public:
       buffer_type,
       qos_profile,
       std::make_shared<Alloc>(subscribed_type_allocator_));
-    TRACEPOINT(
-      rclcpp_ipb_to_subscription,
-      static_cast<const void *>(buffer_.get()),
-      static_cast<const void *>(this));
   }
 
   bool

rclcpp/include/rclcpp/experimental/timers_manager.hpp

@@ -1,553 +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 <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 *)> 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(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(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
-   */
-  RCLCPP_PUBLIC
-  void execute_ready_timer(const rclcpp::TimerBase * timer_id);
-
-  /**
-   * @brief Get the amount of time before the next timer triggers.
-   * This function is thread safe.
-   *
-   * @return 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.
-   * @throws std::runtime_error if the timers thread was already running.
-   */
-  RCLCPP_PUBLIC
-  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::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.
-   * This function is not thread safe, acquire the timers_mutex_ before calling it.
-   */
-  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 *)> 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_

rclcpp/include/rclcpp/generic_subscription.hpp

@@ -84,7 +84,7 @@ public:
       options.to_rcl_subscription_options(qos),
       options.event_callbacks,
       options.use_default_callbacks,
-      DeliveredMessageKind::SERIALIZED_MESSAGE),
+      SubscriptionType::SERIALIZED_MESSAGE),
     callback_(callback),
     ts_lib_(ts_lib)
   {}
@@ -125,6 +125,7 @@ public:
 
 
   // DYNAMIC TYPE ==================================================================================
+  // TODO(methylDragon): Reorder later
   RCLCPP_PUBLIC
   rclcpp::dynamic_typesupport::DynamicMessageType::SharedPtr get_shared_dynamic_message_type()
   override;

rclcpp/include/rclcpp/node_interfaces/node_base.hpp

@@ -121,19 +121,10 @@ public:
   std::atomic_bool &
   get_associated_with_executor_atomic() override;
 
-  [[deprecated("Use get_shared_notify_guard_condition or trigger_notify_guard_condition instead")]]
   RCLCPP_PUBLIC
   rclcpp::GuardCondition &
   get_notify_guard_condition() override;
 
-  RCLCPP_PUBLIC
-  rclcpp::GuardCondition::SharedPtr
-  get_shared_notify_guard_condition() override;
-
-  RCLCPP_PUBLIC
-  void
-  trigger_notify_guard_condition() override;
-
   RCLCPP_PUBLIC
   bool
   get_use_intra_process_default() const override;
@@ -162,7 +153,7 @@ private:
 
   /// Guard condition for notifying the Executor of changes to this node.
   mutable std::recursive_mutex notify_guard_condition_mutex_;
-  std::shared_ptr<rclcpp::GuardCondition> notify_guard_condition_;
+  rclcpp::GuardCondition notify_guard_condition_;
   bool notify_guard_condition_is_valid_;
 };
 

rclcpp/include/rclcpp/node_interfaces/node_base_interface.hpp

@@ -148,33 +148,13 @@ public:
   /**
    * For example, this should be notified when a publisher is added or removed.
    *
-   * \return the GuardCondition if it is valid, else throw runtime error
+   * \return the GuardCondition if it is valid, else thow runtime error
    */
   RCLCPP_PUBLIC
   virtual
   rclcpp::GuardCondition &
   get_notify_guard_condition() = 0;
 
-  /// Return a guard condition that should be notified when the internal node state changes.
-  /**
-   * For example, this should be notified when a publisher is added or removed.
-   *
-   * \return the GuardCondition if it is valid, else nullptr
-   */
-  RCLCPP_PUBLIC
-  virtual
-  rclcpp::GuardCondition::SharedPtr
-  get_shared_notify_guard_condition() = 0;
-
-  /// Trigger the guard condition that notifies of internal node state changes.
-  /**
-   * For example, this should be notified when a publisher is added or removed.
-   */
-  RCLCPP_PUBLIC
-  virtual
-  void
-  trigger_notify_guard_condition() = 0;
-
   /// Return the default preference for using intra process communication.
   RCLCPP_PUBLIC
   virtual

rclcpp/include/rclcpp/node_interfaces/node_graph_interface.hpp

@@ -57,8 +57,7 @@ public:
     node_namespace_(info.node_namespace),
     topic_type_(info.topic_type),
     endpoint_type_(static_cast<rclcpp::EndpointType>(info.endpoint_type)),
-    qos_profile_({info.qos_profile.history, info.qos_profile.depth}, info.qos_profile),
-    topic_type_hash_(info.topic_type_hash)
+    qos_profile_({info.qos_profile.history, info.qos_profile.depth}, info.qos_profile)
   {
     std::copy(info.endpoint_gid, info.endpoint_gid + RMW_GID_STORAGE_SIZE, endpoint_gid_.begin());
   }
@@ -123,16 +122,6 @@ public:
   const rclcpp::QoS &
   qos_profile() const;
 
-  /// Get a mutable reference to the type hash of the topic endpoint.
-  RCLCPP_PUBLIC
-  rosidl_type_hash_t &
-  topic_type_hash();
-
-  /// Get a const reference to the type hash of the topic endpoint.
-  RCLCPP_PUBLIC
-  const rosidl_type_hash_t &
-  topic_type_hash() const;
-
 private:
   std::string node_name_;
   std::string node_namespace_;
@@ -140,7 +129,6 @@ private:
   rclcpp::EndpointType endpoint_type_;
   std::array<uint8_t, RMW_GID_STORAGE_SIZE> endpoint_gid_;
   rclcpp::QoS qos_profile_;
-  rosidl_type_hash_t topic_type_hash_;
 };
 
 namespace node_interfaces

rclcpp/include/rclcpp/node_interfaces/node_logging.hpp

@@ -23,9 +23,6 @@
 #include "rclcpp/node_interfaces/node_logging_interface.hpp"
 #include "rclcpp/visibility_control.hpp"
 
-#include "rcl_interfaces/srv/get_logger_levels.hpp"
-#include "rcl_interfaces/srv/set_logger_levels.hpp"
-
 namespace rclcpp
 {
 namespace node_interfaces
@@ -38,7 +35,7 @@ public:
   RCLCPP_SMART_PTR_ALIASES_ONLY(NodeLoggingInterface)
 
   RCLCPP_PUBLIC
-  explicit NodeLogging(rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_base);
+  explicit NodeLogging(rclcpp::node_interfaces::NodeBaseInterface * node_base);
 
   RCLCPP_PUBLIC
   virtual
@@ -52,21 +49,13 @@ public:
   const char *
   get_logger_name() const override;
 
-  RCLCPP_PUBLIC
-  void
-  create_logger_services(
-    node_interfaces::NodeServicesInterface::SharedPtr node_services) override;
-
 private:
   RCLCPP_DISABLE_COPY(NodeLogging)
 
   /// Handle to the NodeBaseInterface given in the constructor.
-  rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_base_;
+  rclcpp::node_interfaces::NodeBaseInterface * node_base_;
 
   rclcpp::Logger logger_;
-
-  rclcpp::Service<rcl_interfaces::srv::GetLoggerLevels>::SharedPtr get_loggers_service_;
-  rclcpp::Service<rcl_interfaces::srv::SetLoggerLevels>::SharedPtr set_loggers_service_;
 };
 
 }  // namespace node_interfaces

rclcpp/include/rclcpp/node_interfaces/node_logging_interface.hpp

@@ -19,7 +19,6 @@
 
 #include "rclcpp/logger.hpp"
 #include "rclcpp/macros.hpp"
-#include "rclcpp/node_interfaces/node_services_interface.hpp"
 #include "rclcpp/node_interfaces/detail/node_interfaces_helpers.hpp"
 #include "rclcpp/visibility_control.hpp"
 
@@ -55,13 +54,6 @@ public:
   virtual
   const char *
   get_logger_name() const = 0;
-
-  /// create logger services
-  RCLCPP_PUBLIC
-  virtual
-  void
-  create_logger_services(
-    node_interfaces::NodeServicesInterface::SharedPtr node_services) = 0;
 };
 
 }  // namespace node_interfaces

rclcpp/include/rclcpp/node_options.hpp

@@ -50,7 +50,6 @@ public:
    *   - clock_type = RCL_ROS_TIME
    *   - clock_qos = rclcpp::ClockQoS()
    *   - use_clock_thread = true
-   *   - enable_logger_service = false
    *   - rosout_qos = rclcpp::RosoutQoS()
    *   - parameter_event_qos = rclcpp::ParameterEventQoS
    *     - with history setting and depth from rmw_qos_profile_parameter_events
@@ -233,24 +232,6 @@ public:
   NodeOptions &
   start_parameter_services(bool start_parameter_services);
 
-  /// Return the enable_logger_service flag.
-  RCLCPP_PUBLIC
-  bool
-  enable_logger_service() const;
-
-  /// Set the enable_logger_service flag, return this for logger idiom.
-  /**
-   * If true, ROS services are created to allow external nodes to get
-   * and set logger levels of this node.
-   *
-   * If false, loggers will still be configured and set logger levels locally,
-   * but logger levels cannot be changed remotely .
-   *
-   */
-  RCLCPP_PUBLIC
-  NodeOptions &
-  enable_logger_service(bool enable_log_service);
-
   /// Return the start_parameter_event_publisher flag.
   RCLCPP_PUBLIC
   bool
@@ -440,8 +421,6 @@ private:
 
   bool use_clock_thread_ {true};
 
-  bool enable_logger_service_ {false};
-
   rclcpp::QoS parameter_event_qos_ = rclcpp::ParameterEventsQoS(
     rclcpp::QoSInitialization::from_rmw(rmw_qos_profile_parameter_events)
   );

rclcpp/include/rclcpp/publisher.hpp

@@ -484,10 +484,6 @@ protected:
     if (!msg) {
       throw std::runtime_error("cannot publish msg which is a null pointer");
     }
-    TRACEPOINT(
-      rclcpp_intra_publish,
-      static_cast<const void *>(publisher_handle_.get()),
-      msg.get());
 
     ipm->template do_intra_process_publish<PublishedType, ROSMessageType, AllocatorT>(
       intra_process_publisher_id_,
@@ -506,10 +502,6 @@ protected:
     if (!msg) {
       throw std::runtime_error("cannot publish msg which is a null pointer");
     }
-    TRACEPOINT(
-      rclcpp_intra_publish,
-      static_cast<const void *>(publisher_handle_.get()),
-      msg.get());
 
     ipm->template do_intra_process_publish<ROSMessageType, ROSMessageType, AllocatorT>(
       intra_process_publisher_id_,
@@ -529,10 +521,6 @@ protected:
     if (!msg) {
       throw std::runtime_error("cannot publish msg which is a null pointer");
     }
-    TRACEPOINT(
-      rclcpp_intra_publish,
-      static_cast<const void *>(publisher_handle_.get()),
-      msg.get());
 
     return ipm->template do_intra_process_publish_and_return_shared<ROSMessageType, ROSMessageType,
              AllocatorT>(

rclcpp/include/rclcpp/rclcpp.hpp

@@ -129,6 +129,9 @@
  * - Dynamic typesupport
  *   - rclcpp::dynamic_typesupport::DynamicMessageTypeSupport
  *   - rclcpp/dynamic_typesupport/dynamic_message_type_support.hpp
+ * - Dynamic subscription
+ *   - rclcpp::DynamicSubscription
+ *   - rclcpp/dynamic_subscription.hpp
  * - Generic publisher
  *   - rclcpp::Node::create_generic_publisher()
  *   - rclcpp::GenericPublisher
@@ -179,4 +182,6 @@
 #include "rclcpp/waitable.hpp"
 #include "rclcpp/wait_set.hpp"
 
+#include "rclcpp/dynamic_subscription.hpp"
+
 #endif  // RCLCPP__RCLCPP_HPP_

rclcpp/include/rclcpp/subscription.hpp

@@ -144,7 +144,7 @@ public:
       // NOTE(methylDragon): Passing these args separately is necessary for event binding
       options.event_callbacks,
       options.use_default_callbacks,
-      callback.is_serialized_message_callback() ? DeliveredMessageKind::SERIALIZED_MESSAGE : DeliveredMessageKind::ROS_MESSAGE),  // NOLINT
+      callback.is_serialized_message_callback() ? SubscriptionType::SERIALIZED_MESSAGE : SubscriptionType::ROS_MESSAGE),  // NOLINT
     any_callback_(callback),
     options_(options),
     message_memory_strategy_(message_memory_strategy)

rclcpp/include/rclcpp/subscription_base.hpp

@@ -63,25 +63,12 @@ namespace experimental
 class IntraProcessManager;
 }  // namespace experimental
 
-/// The kind of message that the subscription delivers in its callback, used by the executor
-/**
- * This enum needs to exist because the callback handle is not accessible to the executor's scope.
- *
- * "Kind" is used since what is being delivered is a category of messages, for example, there are
- * different ROS message types that can be delivered, but they're all ROS messages.
- *
- * As a concrete example, all of the following callbacks will be considered ROS_MESSAGE for
- * DeliveredMessageKind:
- *   - void callback(const std_msgs::msg::String &)
- *   - void callback(const std::string &)  // type adaption
- *   - void callback(std::unique_ptr<std_msgs::msg::String>)
- */
-enum class DeliveredMessageKind : uint8_t
+enum class SubscriptionType : uint8_t
 {
-  INVALID = 0,
-  ROS_MESSAGE = 1,  // The subscription delivers a ROS message to its callback
-  SERIALIZED_MESSAGE = 2,  // The subscription delivers a serialized message to its callback
-  DYNAMIC_MESSAGE = 3,  // The subscription delivers a dynamic message to its callback
+  ROS_MESSAGE = 1,  // take message as ROS message and handle as ROS message
+  SERIALIZED_MESSAGE = 2,  // take message as serialized and handle as serialized
+  DYNAMIC_MESSAGE_DIRECT = 3,  // take message as DynamicMessage and handle as DynamicMessage
+  DYNAMIC_MESSAGE_FROM_SERIALIZED = 4  // take message as serialized and handle as DynamicMessage
 };
 
 /// Virtual base class for subscriptions. This pattern allows us to iterate over different template
@@ -100,8 +87,7 @@ public:
    * \param[in] type_support_handle rosidl type support struct, for the Message type of the topic.
    * \param[in] topic_name Name of the topic to subscribe to.
    * \param[in] subscription_options Options for the subscription.
-   * \param[in] delivered_message_kind Enum flag to change how the message will be received and
-   *            delivered
+   * \param[in] subscription_type Enum flag to change how the message will be received and delivered
    */
   RCLCPP_PUBLIC
   SubscriptionBase(
@@ -111,7 +97,7 @@ public:
     const rcl_subscription_options_t & subscription_options,
     const SubscriptionEventCallbacks & event_callbacks,
     bool use_default_callbacks,
-    DeliveredMessageKind delivered_message_kind = DeliveredMessageKind::ROS_MESSAGE);
+    SubscriptionType subscription_type = SubscriptionType::ROS_MESSAGE);
 
   /// Destructor.
   RCLCPP_PUBLIC
@@ -252,20 +238,12 @@ public:
   const rosidl_message_type_support_t &
   get_message_type_support_handle() const;
 
-  /// Return if the subscription is serialized
-  /**
-   * \return `true` if the subscription is serialized, `false` otherwise
-   */
-  RCLCPP_PUBLIC
-  bool
-  is_serialized() const;
-
   /// Return the type of the subscription.
   /**
-   * \return `DeliveredMessageKind`, which adjusts how messages are received and delivered.
+   * \return `SubscriptionType`, which adjusts how messages are received and delivered.
    */
   RCLCPP_PUBLIC
-  DeliveredMessageKind
+  SubscriptionType
   get_subscription_type() const;
 
   /// Get matching publisher count.
@@ -644,6 +622,10 @@ protected:
 
   rclcpp::node_interfaces::NodeBaseInterface * const node_base_;
 
+  // TODO(methylDragon): Remove if we don't need this
+  // rclcpp::node_interfaces::NodeGraphInterface * const node_graph_;
+  // rclcpp::node_interfaces::NodeServicesInterface * const node_services_;
+
   std::shared_ptr<rcl_node_t> node_handle_;
   std::shared_ptr<rcl_subscription_t> subscription_handle_;
   std::shared_ptr<rcl_subscription_t> intra_process_subscription_handle_;
@@ -663,7 +645,7 @@ private:
   RCLCPP_DISABLE_COPY(SubscriptionBase)
 
   rosidl_message_type_support_t type_support_;
-  DeliveredMessageKind delivered_message_type_;
+  SubscriptionType subscription_type_;
 
   std::atomic<bool> subscription_in_use_by_wait_set_{false};
   std::atomic<bool> intra_process_subscription_waitable_in_use_by_wait_set_{false};

rclcpp/package.xml

@@ -2,7 +2,7 @@
 <?xml-model href="http://download.ros.org/schema/package_format2.xsd" schematypens="http://www.w3.org/2001/XMLSchema"?>
 <package format="2">
   <name>rclcpp</name>
-  <version>21.1.0</version>
+  <version>19.3.0</version>
   <description>The ROS client library in C++.</description>
 
   <maintainer email="ivanpauno@ekumenlabs.com">Ivan Paunovic</maintainer>

rclcpp/src/rclcpp/callback_group.cpp

@@ -31,12 +31,10 @@ using rclcpp::CallbackGroupType;
 
 CallbackGroup::CallbackGroup(
   CallbackGroupType group_type,
-  std::function<rclcpp::Context::SharedPtr(void)> get_context,
   bool automatically_add_to_executor_with_node)
 : type_(group_type), associated_with_executor_(false),
   can_be_taken_from_(true),
-  automatically_add_to_executor_with_node_(automatically_add_to_executor_with_node),
-  get_context_(get_context)
+  automatically_add_to_executor_with_node_(automatically_add_to_executor_with_node)
 {}
 
 CallbackGroup::~CallbackGroup()
@@ -56,16 +54,6 @@ CallbackGroup::type() const
   return type_;
 }
 
-size_t
-CallbackGroup::size() const
-{
-  return
-    subscription_ptrs_.size() +
-    service_ptrs_.size() +
-    client_ptrs_.size() +
-    timer_ptrs_.size() +
-    waitable_ptrs_.size();
-}
 void CallbackGroup::collect_all_ptrs(
   std::function<void(const rclcpp::SubscriptionBase::SharedPtr &)> sub_func,
   std::function<void(const rclcpp::ServiceBase::SharedPtr &)> service_func,
@@ -123,7 +111,6 @@ CallbackGroup::automatically_add_to_executor_with_node() const
   return automatically_add_to_executor_with_node_;
 }
 
-// \TODO(mjcarroll) Deprecated, remove on tock
 rclcpp::GuardCondition::SharedPtr
 CallbackGroup::get_notify_guard_condition(const rclcpp::Context::SharedPtr context_ptr)
 {
@@ -142,29 +129,6 @@ CallbackGroup::get_notify_guard_condition(const rclcpp::Context::SharedPtr conte
   return notify_guard_condition_;
 }
 
-rclcpp::GuardCondition::SharedPtr
-CallbackGroup::get_notify_guard_condition()
-{
-  std::lock_guard<std::recursive_mutex> lock(notify_guard_condition_mutex_);
-  if (!this->get_context_) {
-    throw std::runtime_error("Callback group was created without context and not passed context");
-  }
-  auto context_ptr = this->get_context_();
-  if (context_ptr && context_ptr->is_valid()) {
-    if (notify_guard_condition_ && context_ptr != notify_guard_condition_->get_context()) {
-      if (associated_with_executor_) {
-        trigger_notify_guard_condition();
-      }
-      notify_guard_condition_ = nullptr;
-    }
-    if (!notify_guard_condition_) {
-      notify_guard_condition_ = std::make_shared<rclcpp::GuardCondition>(context_ptr);
-    }
-    return notify_guard_condition_;
-  }
-  return nullptr;
-}
-
 void
 CallbackGroup::trigger_notify_guard_condition()
 {

rclcpp/src/rclcpp/dynamic_subscription.cpp

@@ -0,0 +1,113 @@
+// 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.
+
+#include "rclcpp/dynamic_subscription.hpp"
+
+#include <memory>
+#include <string>
+
+#include "rcl/subscription.h"
+
+#include "rclcpp/exceptions.hpp"
+
+namespace rclcpp
+{
+
+std::shared_ptr<void> DynamicSubscription::create_message()
+{
+  return create_serialized_message();
+}
+
+std::shared_ptr<rclcpp::SerializedMessage> DynamicSubscription::create_serialized_message()
+{
+  return std::make_shared<rclcpp::SerializedMessage>(0);
+}
+
+void DynamicSubscription::handle_message(std::shared_ptr<void> &, const rclcpp::MessageInfo &)
+{
+  throw rclcpp::exceptions::UnimplementedError(
+          "handle_message is not implemented for DynamicSubscription");
+}
+
+void DynamicSubscription::handle_serialized_message(
+  const std::shared_ptr<rclcpp::SerializedMessage> &, const rclcpp::MessageInfo &)
+{
+  throw rclcpp::exceptions::UnimplementedError(
+          "handle_serialized_message is not implemented for DynamicSubscription");
+}
+
+void DynamicSubscription::handle_loaned_message(void *, const rclcpp::MessageInfo &)
+{
+  throw rclcpp::exceptions::UnimplementedError(
+          "handle_loaned_message is not implemented for DynamicSubscription");
+}
+
+void DynamicSubscription::return_message(std::shared_ptr<void> & message)
+{
+  auto typed_message = std::static_pointer_cast<rclcpp::SerializedMessage>(message);
+  return_serialized_message(typed_message);
+}
+
+void DynamicSubscription::return_serialized_message(
+  std::shared_ptr<rclcpp::SerializedMessage> & message)
+{
+  message.reset();
+}
+
+
+// DYNAMIC TYPE ====================================================================================
+// TODO(methylDragon): Re-order later
+
+// Does not clone
+rclcpp::dynamic_typesupport::DynamicMessageType::SharedPtr
+DynamicSubscription::get_shared_dynamic_message_type()
+{
+  return dynamic_message_type_;
+}
+
+// Does not clone
+rclcpp::dynamic_typesupport::DynamicMessage::SharedPtr
+DynamicSubscription::get_shared_dynamic_message()
+{
+  return dynamic_message_;
+}
+
+rclcpp::dynamic_typesupport::DynamicSerializationSupport::SharedPtr
+DynamicSubscription::get_shared_dynamic_serialization_support()
+{
+  return serialization_support_;
+}
+
+rclcpp::dynamic_typesupport::DynamicMessage::SharedPtr
+DynamicSubscription::create_dynamic_message()
+{
+  return dynamic_message_->init_from_type_shared(*dynamic_message_type_);
+}
+
+void
+DynamicSubscription::return_dynamic_message(
+  rclcpp::dynamic_typesupport::DynamicMessage::SharedPtr & message)
+{
+  message.reset();
+}
+
+void DynamicSubscription::handle_dynamic_message(
+  const rclcpp::dynamic_typesupport::DynamicMessage::SharedPtr & message,
+  const rclcpp::MessageInfo & message_info)
+{
+  (void) message_info;
+  callback_(message, ts_->get_rosidl_runtime_c_type_description());
+}
+
+}  // namespace rclcpp

rclcpp/src/rclcpp/dynamic_typesupport/dynamic_message.cpp

@@ -36,5 +36,734 @@ using rclcpp::dynamic_typesupport::DynamicMessageType;
 using rclcpp::dynamic_typesupport::DynamicMessageTypeBuilder;
 using rclcpp::dynamic_typesupport::DynamicSerializationSupport;
 
+#ifndef RCLCPP__DYNAMIC_TYPESUPPORT__DETAIL__DYNAMIC_MESSAGE_IMPL_HPP_
+// Template specialization implementations
+#include "rclcpp/dynamic_typesupport/detail/dynamic_message_impl.hpp"
+#endif
+
+
+// CONSTRUCTION ==================================================================================
+DynamicMessage::DynamicMessage(const DynamicMessageTypeBuilder::SharedPtr dynamic_type_builder)
+: DynamicMessage::DynamicMessage(
+    dynamic_type_builder, dynamic_type_builder->get_rosidl_dynamic_type_builder().allocator) {}
+
+
+DynamicMessage::DynamicMessage(
+  const DynamicMessageTypeBuilder::SharedPtr dynamic_type_builder,
+  rcl_allocator_t allocator)
+: serialization_support_(dynamic_type_builder->get_shared_dynamic_serialization_support()),
+  rosidl_dynamic_data_(rosidl_dynamic_typesupport_get_zero_initialized_dynamic_data()),
+  is_loaned_(false),
+  parent_data_(nullptr)
+{
+  if (!serialization_support_) {
+    throw std::runtime_error("dynamic message could not bind serialization support!");
+  }
+  if (!dynamic_type_builder) {
+    throw std::runtime_error("dynamic message type builder cannot be nullptr!");
+  }
+
+  rosidl_dynamic_typesupport_dynamic_type_builder_t rosidl_dynamic_type_builder =
+    dynamic_type_builder->get_rosidl_dynamic_type_builder();
+
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_data_init_from_dynamic_type_builder(
+    &rosidl_dynamic_type_builder, &allocator, &get_rosidl_dynamic_data());
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error("could not init new dynamic data object from dynamic type builder");
+  }
+}
+
+
+DynamicMessage::DynamicMessage(const DynamicMessageType::SharedPtr dynamic_type)
+: DynamicMessage::DynamicMessage(
+    dynamic_type, dynamic_type->get_rosidl_dynamic_type().allocator) {}
+
+
+DynamicMessage::DynamicMessage(
+  const DynamicMessageType::SharedPtr dynamic_type,
+  rcl_allocator_t allocator)
+: serialization_support_(dynamic_type->get_shared_dynamic_serialization_support()),
+  rosidl_dynamic_data_(rosidl_dynamic_typesupport_get_zero_initialized_dynamic_data()),
+  is_loaned_(false),
+  parent_data_(nullptr)
+{
+  if (!serialization_support_) {
+    throw std::runtime_error("dynamic type could not bind serialization support!");
+  }
+  if (!dynamic_type) {
+    throw std::runtime_error("dynamic message type cannot be nullptr!");
+  }
+
+  rosidl_dynamic_typesupport_dynamic_type_t rosidl_dynamic_type =
+    dynamic_type->get_rosidl_dynamic_type();
+
+  rosidl_dynamic_typesupport_dynamic_data_t rosidl_dynamic_data =
+    rosidl_dynamic_typesupport_get_zero_initialized_dynamic_data();
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_data_init_from_dynamic_type(
+    &rosidl_dynamic_type, &allocator, &rosidl_dynamic_data);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error(
+            std::string("could not init new dynamic data object from dynamic type") +
+            rcl_get_error_string().str);
+  }
+}
+
+
+DynamicMessage::DynamicMessage(
+  DynamicSerializationSupport::SharedPtr serialization_support,
+  rosidl_dynamic_typesupport_dynamic_data_t && rosidl_dynamic_data)
+: serialization_support_(serialization_support),
+  rosidl_dynamic_data_(std::move(rosidl_dynamic_data)),
+  is_loaned_(false),
+  parent_data_(nullptr)
+{
+  if (serialization_support) {
+    if (!match_serialization_support_(*serialization_support, rosidl_dynamic_data)) {
+      throw std::runtime_error(
+              "serialization support library identifier does not match dynamic data's!");
+    }
+  }
+}
+
+
+DynamicMessage::DynamicMessage(
+  DynamicMessage::SharedPtr parent_data,
+  rosidl_dynamic_typesupport_dynamic_data_t && rosidl_loaned_data)
+: serialization_support_(parent_data->get_shared_dynamic_serialization_support()),
+  rosidl_dynamic_data_(std::move(rosidl_loaned_data)),
+  is_loaned_(true),
+  parent_data_(nullptr)
+{
+  if (!parent_data) {
+    throw std::runtime_error("parent dynamic data cannot be nullptr!");
+  }
+  if (serialization_support_) {
+    if (!match_serialization_support_(*serialization_support_, rosidl_loaned_data)) {
+      throw std::runtime_error(
+              "serialization support library identifier does not match loaned dynamic data's!");
+    }
+  }
+  parent_data_ = parent_data;
+}
+
+
+DynamicMessage::DynamicMessage(DynamicMessage && other) noexcept
+: serialization_support_(std::exchange(other.serialization_support_, nullptr)),
+  rosidl_dynamic_data_(std::exchange(
+      other.rosidl_dynamic_data_,
+      rosidl_dynamic_typesupport_get_zero_initialized_dynamic_data())),
+  is_loaned_(other.is_loaned_),
+  parent_data_(std::exchange(other.parent_data_, nullptr))
+{}
+
+
+DynamicMessage &
+DynamicMessage::operator=(DynamicMessage && other) noexcept
+{
+  std::swap(serialization_support_, other.serialization_support_);
+  std::swap(rosidl_dynamic_data_, other.rosidl_dynamic_data_);
+  is_loaned_ = other.is_loaned_;
+  std::swap(parent_data_, other.parent_data_);
+  return *this;
+}
+
+
 DynamicMessage::~DynamicMessage()
-{}  // STUBBED
+{
+  if (!is_loaned_) {
+    if (rosidl_dynamic_typesupport_dynamic_data_fini(&get_rosidl_dynamic_data()) !=
+      RCUTILS_RET_OK)
+    {
+      RCUTILS_LOG_ERROR("could not fini rosidl dynamic data");
+    }
+    return;
+  }
+
+  // Loaned case
+  if (!parent_data_) {
+    RCUTILS_LOG_ERROR("dynamic data is loaned, but parent is missing!!");
+  } else {
+    rosidl_dynamic_typesupport_dynamic_data_return_loaned_value(
+      &parent_data_->get_rosidl_dynamic_data(), &get_rosidl_dynamic_data());
+  }
+}
+
+
+bool
+DynamicMessage::match_serialization_support_(
+  const DynamicSerializationSupport & serialization_support,
+  const rosidl_dynamic_typesupport_dynamic_data_t & rosidl_dynamic_type_data)
+{
+  if (serialization_support.get_serialization_library_identifier() != std::string(
+      rosidl_dynamic_type_data.serialization_support->serialization_library_identifier))
+  {
+    RCUTILS_LOG_ERROR("serialization support library identifier does not match dynamic data's");
+    return false;
+  }
+  return true;
+}
+
+
+// GETTERS =======================================================================================
+const std::string
+DynamicMessage::get_serialization_library_identifier() const
+{
+  return std::string(
+    get_rosidl_dynamic_data().serialization_support->serialization_library_identifier);
+}
+
+
+const std::string
+DynamicMessage::get_name() const
+{
+  size_t buf_length;
+  const char * buf;
+  if (
+    rosidl_dynamic_typesupport_dynamic_data_get_name(
+      &get_rosidl_dynamic_data(), &buf,
+      &buf_length) !=
+    RCUTILS_RET_OK)
+  {
+    throw std::runtime_error(
+            std::string("could not get name for dynamic data") + rcl_get_error_string().str);
+  }
+  return std::string(buf, buf_length);
+}
+
+
+rosidl_dynamic_typesupport_dynamic_data_t &
+DynamicMessage::get_rosidl_dynamic_data()
+{
+  return rosidl_dynamic_data_;
+}
+
+
+const rosidl_dynamic_typesupport_dynamic_data_t &
+DynamicMessage::get_rosidl_dynamic_data() const
+{
+  return rosidl_dynamic_data_;
+}
+
+
+DynamicSerializationSupport::SharedPtr
+DynamicMessage::get_shared_dynamic_serialization_support()
+{
+  return serialization_support_;
+}
+
+
+DynamicSerializationSupport::ConstSharedPtr
+DynamicMessage::get_shared_dynamic_serialization_support() const
+{
+  return serialization_support_;
+}
+
+
+size_t
+DynamicMessage::get_item_count() const
+{
+  size_t item_count;
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_data_get_item_count(
+    &get_rosidl_dynamic_data(), &item_count);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error("could not get item count of dynamic data");
+  }
+  return item_count;
+}
+
+
+rosidl_dynamic_typesupport_member_id_t
+DynamicMessage::get_member_id(size_t index) const
+{
+  rosidl_dynamic_typesupport_member_id_t member_id;
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_data_get_member_id_at_index(
+    &get_rosidl_dynamic_data(), index, &member_id);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error("could not member id of dynamic data element by index");
+  }
+  return member_id;
+}
+
+
+rosidl_dynamic_typesupport_member_id_t
+DynamicMessage::get_member_id(const std::string & name) const
+{
+  rosidl_dynamic_typesupport_member_id_t member_id;
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_data_get_member_id_by_name(
+    &get_rosidl_dynamic_data(), name.c_str(), name.size(), &member_id);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error("could not member id of dynamic data element by name");
+  }
+  return member_id;
+}
+
+
+rosidl_dynamic_typesupport_member_id_t
+DynamicMessage::get_array_index(size_t index) const
+{
+  rosidl_dynamic_typesupport_member_id_t array_index;
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_data_get_array_index(
+    &get_rosidl_dynamic_data(), index, &array_index);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error("could not array index of dynamic data element by index");
+  }
+  return array_index;
+}
+
+
+rosidl_dynamic_typesupport_member_id_t
+DynamicMessage::get_array_index(const std::string & name) const
+{
+  return get_array_index(get_member_id(name));
+}
+
+
+// METHODS =======================================================================================
+DynamicMessage
+DynamicMessage::clone(rcl_allocator_t allocator)
+{
+  rosidl_dynamic_typesupport_dynamic_data_t rosidl_dynamic_data =
+    rosidl_dynamic_typesupport_get_zero_initialized_dynamic_data();
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_data_clone(
+    &get_rosidl_dynamic_data(), &allocator, &rosidl_dynamic_data);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error(
+            std::string("could not clone dynamic data: ") + rcl_get_error_string().str);
+  }
+  return DynamicMessage(get_shared_dynamic_serialization_support(), std::move(rosidl_dynamic_data));
+}
+
+
+DynamicMessage::SharedPtr
+DynamicMessage::clone_shared(rcl_allocator_t allocator)
+{
+  rosidl_dynamic_typesupport_dynamic_data_t rosidl_dynamic_data =
+    rosidl_dynamic_typesupport_get_zero_initialized_dynamic_data();
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_data_clone(
+    &get_rosidl_dynamic_data(), &allocator, &rosidl_dynamic_data);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error(
+            std::string("could not clone dynamic data: ") + rcl_get_error_string().str);
+  }
+  return DynamicMessage::make_shared(
+    get_shared_dynamic_serialization_support(), std::move(rosidl_dynamic_data));
+}
+
+
+DynamicMessage
+DynamicMessage::init_from_type(DynamicMessageType & type, rcl_allocator_t allocator) const
+{
+  rosidl_dynamic_typesupport_dynamic_data_t rosidl_dynamic_data =
+    rosidl_dynamic_typesupport_get_zero_initialized_dynamic_data();
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_data_init_from_dynamic_type(
+    &type.get_rosidl_dynamic_type(), &allocator, &rosidl_dynamic_data);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error("could not init new dynamic data object from dynamic type");
+  }
+  return DynamicMessage(serialization_support_, std::move(rosidl_dynamic_data));
+}
+
+
+DynamicMessage::SharedPtr
+DynamicMessage::init_from_type_shared(DynamicMessageType & type, rcl_allocator_t allocator) const
+{
+  rosidl_dynamic_typesupport_dynamic_data_t rosidl_dynamic_data =
+    rosidl_dynamic_typesupport_get_zero_initialized_dynamic_data();
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_data_init_from_dynamic_type(
+    &type.get_rosidl_dynamic_type(), &allocator, &rosidl_dynamic_data);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error("could not init new dynamic data object from dynamic type");
+  }
+  return DynamicMessage::make_shared(serialization_support_, std::move(rosidl_dynamic_data));
+}
+
+
+bool
+DynamicMessage::equals(const DynamicMessage & other) const
+{
+  if (get_serialization_library_identifier() != other.get_serialization_library_identifier()) {
+    throw std::runtime_error("library identifiers don't match");
+  }
+  bool equals;
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_data_equals(
+    &get_rosidl_dynamic_data(), &other.get_rosidl_dynamic_data(), &equals);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error("could not equate dynamic messages");
+  }
+  return equals;
+}
+
+
+DynamicMessage::SharedPtr
+DynamicMessage::loan_value(
+  rosidl_dynamic_typesupport_member_id_t id,
+  rcl_allocator_t allocator)
+{
+  rosidl_dynamic_typesupport_dynamic_data_t rosidl_dynamic_data =
+    rosidl_dynamic_typesupport_get_zero_initialized_dynamic_data();
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_data_loan_value(
+    &get_rosidl_dynamic_data(), id, &allocator, &rosidl_dynamic_data);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error(
+            std::string("could not loan dynamic data: ") + rcl_get_error_string().str);
+  }
+  return DynamicMessage::make_shared(shared_from_this(), std::move(rosidl_dynamic_data));
+}
+
+
+DynamicMessage::SharedPtr
+DynamicMessage::loan_value(const std::string & name, rcl_allocator_t allocator)
+{
+  return loan_value(get_member_id(name), allocator);
+}
+
+
+void
+DynamicMessage::clear_all_values()
+{
+  rosidl_dynamic_typesupport_dynamic_data_clear_all_values(&get_rosidl_dynamic_data());
+}
+
+
+void
+DynamicMessage::clear_nonkey_values()
+{
+  rosidl_dynamic_typesupport_dynamic_data_clear_nonkey_values(&get_rosidl_dynamic_data());
+}
+
+
+void
+DynamicMessage::clear_value(rosidl_dynamic_typesupport_member_id_t id)
+{
+  rosidl_dynamic_typesupport_dynamic_data_clear_value(&get_rosidl_dynamic_data(), id);
+}
+
+
+void
+DynamicMessage::clear_value(const std::string & name)
+{
+  clear_value(get_member_id(name));
+}
+
+
+void
+DynamicMessage::clear_sequence()
+{
+  rosidl_dynamic_typesupport_dynamic_data_clear_sequence_data(&get_rosidl_dynamic_data());
+}
+
+
+rosidl_dynamic_typesupport_member_id_t
+DynamicMessage::insert_sequence_data()
+{
+  rosidl_dynamic_typesupport_member_id_t out;
+  rosidl_dynamic_typesupport_dynamic_data_insert_sequence_data(&get_rosidl_dynamic_data(), &out);
+  return out;
+}
+
+
+void
+DynamicMessage::remove_sequence_data(rosidl_dynamic_typesupport_member_id_t index)
+{
+  rosidl_dynamic_typesupport_dynamic_data_remove_sequence_data(
+    &get_rosidl_dynamic_data(), index);
+}
+
+
+bool
+DynamicMessage::serialize(rcl_serialized_message_t & buffer)
+{
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_data_serialize(
+    &get_rosidl_dynamic_data(), &buffer);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error(
+            std::string("could serialize loan dynamic data: ") + rcl_get_error_string().str);
+  }
+  return true;
+}
+
+
+bool
+DynamicMessage::deserialize(rcl_serialized_message_t & buffer)
+{
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_data_deserialize(
+    &get_rosidl_dynamic_data(), &buffer);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error(
+            std::string("could deserialize loan dynamic data: ") + rcl_get_error_string().str);
+  }
+  return true;
+}
+
+
+// MEMBER ACCESS ===================================================================================
+// Defined in "detail/dynamic_message_impl.hpp"
+
+
+// FIXED STRING MEMBER ACCESS ======================================================================
+const std::string
+DynamicMessage::get_fixed_string_value(
+  rosidl_dynamic_typesupport_member_id_t id, size_t string_length)
+{
+  size_t buf_length;
+  char * buf = nullptr;
+  rosidl_dynamic_typesupport_dynamic_data_get_fixed_string_value(
+    &get_rosidl_dynamic_data(), id, &buf, &buf_length, string_length);
+  auto out = std::string(buf, buf_length);
+  delete buf;
+  return out;
+}
+
+
+const std::string
+DynamicMessage::get_fixed_string_value(const std::string & name, size_t string_length)
+{
+  return get_fixed_string_value(get_member_id(name), string_length);
+}
+
+
+const std::u16string
+DynamicMessage::get_fixed_wstring_value(
+  rosidl_dynamic_typesupport_member_id_t id, size_t wstring_length)
+{
+  size_t buf_length;
+  char16_t * buf = nullptr;
+  rosidl_dynamic_typesupport_dynamic_data_get_fixed_wstring_value(
+    &get_rosidl_dynamic_data(), id, &buf, &buf_length, wstring_length);
+  auto out = std::u16string(buf, buf_length);
+  delete buf;
+  return out;
+}
+
+
+const std::u16string
+DynamicMessage::get_fixed_wstring_value(const std::string & name, size_t wstring_length)
+{
+  return get_fixed_wstring_value(get_member_id(name), wstring_length);
+}
+
+
+void
+DynamicMessage::set_fixed_string_value(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string value, size_t string_length)
+{
+  rosidl_dynamic_typesupport_dynamic_data_set_fixed_string_value(
+    &get_rosidl_dynamic_data(), id, value.c_str(), value.size(), string_length);
+}
+
+
+void
+DynamicMessage::set_fixed_string_value(
+  const std::string & name, const std::string value, size_t string_length)
+{
+  set_fixed_string_value(get_member_id(name), value, string_length);
+}
+
+
+void
+DynamicMessage::set_fixed_wstring_value(
+  rosidl_dynamic_typesupport_member_id_t id, const std::u16string value, size_t wstring_length)
+{
+  rosidl_dynamic_typesupport_dynamic_data_set_fixed_wstring_value(
+    &get_rosidl_dynamic_data(), id, value.c_str(), value.size(), wstring_length);
+}
+
+
+void
+DynamicMessage::set_fixed_wstring_value(
+  const std::string & name, const std::u16string value, size_t wstring_length)
+{
+  set_fixed_wstring_value(get_member_id(name), value, wstring_length);
+}
+
+
+rosidl_dynamic_typesupport_member_id_t
+DynamicMessage::insert_fixed_string_value(const std::string value, size_t string_length)
+{
+  rosidl_dynamic_typesupport_member_id_t out;
+  rosidl_dynamic_typesupport_dynamic_data_insert_fixed_string_value(
+    &get_rosidl_dynamic_data(), value.c_str(), value.size(), string_length, &out);
+  return out;
+}
+
+
+rosidl_dynamic_typesupport_member_id_t
+DynamicMessage::insert_fixed_wstring_value(const std::u16string value, size_t wstring_length)
+{
+  rosidl_dynamic_typesupport_member_id_t out;
+  rosidl_dynamic_typesupport_dynamic_data_insert_fixed_wstring_value(
+    &get_rosidl_dynamic_data(), value.c_str(), value.size(), wstring_length, &out);
+  return out;
+}
+
+
+// BOUNDED STRING MEMBER ACCESS ====================================================================
+const std::string
+DynamicMessage::get_bounded_string_value(
+  rosidl_dynamic_typesupport_member_id_t id, size_t string_bound)
+{
+  size_t buf_length;
+  char * buf = nullptr;
+  rosidl_dynamic_typesupport_dynamic_data_get_bounded_string_value(
+    &get_rosidl_dynamic_data(), id, &buf, &buf_length, string_bound);
+  auto out = std::string(buf, buf_length);
+  delete buf;
+  return out;
+}
+
+
+const std::string
+DynamicMessage::get_bounded_string_value(const std::string & name, size_t string_bound)
+{
+  return get_bounded_string_value(get_member_id(name), string_bound);
+}
+
+
+const std::u16string
+DynamicMessage::get_bounded_wstring_value(
+  rosidl_dynamic_typesupport_member_id_t id, size_t wstring_bound)
+{
+  size_t buf_length;
+  char16_t * buf = nullptr;
+  rosidl_dynamic_typesupport_dynamic_data_get_bounded_wstring_value(
+    &get_rosidl_dynamic_data(), id, &buf, &buf_length, wstring_bound);
+  auto out = std::u16string(buf, buf_length);
+  delete buf;
+  return out;
+}
+
+
+const std::u16string
+DynamicMessage::get_bounded_wstring_value(const std::string & name, size_t wstring_bound)
+{
+  return get_bounded_wstring_value(get_member_id(name), wstring_bound);
+}
+
+
+void
+DynamicMessage::set_bounded_string_value(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string value, size_t string_bound)
+{
+  rosidl_dynamic_typesupport_dynamic_data_set_bounded_string_value(
+    &get_rosidl_dynamic_data(), id, value.c_str(), value.size(), string_bound);
+}
+
+
+void
+DynamicMessage::set_bounded_string_value(
+  const std::string & name, const std::string value, size_t string_bound)
+{
+  set_bounded_string_value(get_member_id(name), value, string_bound);
+}
+
+
+void
+DynamicMessage::set_bounded_wstring_value(
+  rosidl_dynamic_typesupport_member_id_t id, const std::u16string value, size_t wstring_bound)
+{
+  rosidl_dynamic_typesupport_dynamic_data_set_bounded_wstring_value(
+    &get_rosidl_dynamic_data(), id, value.c_str(), value.size(), wstring_bound);
+}
+
+
+void
+DynamicMessage::set_bounded_wstring_value(
+  const std::string & name, const std::u16string value, size_t wstring_bound)
+{
+  set_bounded_wstring_value(get_member_id(name), value, wstring_bound);
+}
+
+
+rosidl_dynamic_typesupport_member_id_t
+DynamicMessage::insert_bounded_string_value(const std::string value, size_t string_bound)
+{
+  rosidl_dynamic_typesupport_member_id_t out;
+  rosidl_dynamic_typesupport_dynamic_data_insert_bounded_string_value(
+    &get_rosidl_dynamic_data(), value.c_str(), value.size(), string_bound, &out);
+  return out;
+}
+
+
+rosidl_dynamic_typesupport_member_id_t
+DynamicMessage::insert_bounded_wstring_value(const std::u16string value, size_t wstring_bound)
+{
+  rosidl_dynamic_typesupport_member_id_t out;
+  rosidl_dynamic_typesupport_dynamic_data_insert_bounded_wstring_value(
+    &get_rosidl_dynamic_data(), value.c_str(), value.size(), wstring_bound, &out);
+  return out;
+}
+
+
+// NESTED MEMBER ACCESS ============================================================================
+DynamicMessage
+DynamicMessage::get_complex_value(
+  rosidl_dynamic_typesupport_member_id_t id, rcl_allocator_t allocator)
+{
+  rosidl_dynamic_typesupport_dynamic_data_t out =
+    rosidl_dynamic_typesupport_get_zero_initialized_dynamic_data();
+  rosidl_dynamic_typesupport_dynamic_data_get_complex_value(
+    &get_rosidl_dynamic_data(), id, &allocator, &out);
+  return DynamicMessage(get_shared_dynamic_serialization_support(), std::move(out));
+}
+
+
+DynamicMessage
+DynamicMessage::get_complex_value(const std::string & name, rcl_allocator_t allocator)
+{
+  return get_complex_value(get_member_id(name), allocator);
+}
+
+
+DynamicMessage::SharedPtr
+DynamicMessage::get_complex_value_shared(
+  rosidl_dynamic_typesupport_member_id_t id, rcl_allocator_t allocator)
+{
+  rosidl_dynamic_typesupport_dynamic_data_t out =
+    rosidl_dynamic_typesupport_get_zero_initialized_dynamic_data();
+  rosidl_dynamic_typesupport_dynamic_data_get_complex_value(
+    &get_rosidl_dynamic_data(), id, &allocator, &out);
+  return DynamicMessage::make_shared(get_shared_dynamic_serialization_support(), std::move(out));
+}
+
+
+DynamicMessage::SharedPtr
+DynamicMessage::get_complex_value_shared(const std::string & name, rcl_allocator_t allocator)
+{
+  return get_complex_value_shared(get_member_id(name), allocator);
+}
+
+
+void
+DynamicMessage::set_complex_value(
+  rosidl_dynamic_typesupport_member_id_t id, DynamicMessage & value)
+{
+  rosidl_dynamic_typesupport_dynamic_data_set_complex_value(
+    &get_rosidl_dynamic_data(), id, &value.get_rosidl_dynamic_data());
+}
+
+
+void
+DynamicMessage::set_complex_value(const std::string & name, DynamicMessage & value)
+{
+  set_complex_value(get_member_id(name), value);
+}
+
+
+rosidl_dynamic_typesupport_member_id_t
+DynamicMessage::insert_complex_value_copy(const DynamicMessage & value)
+{
+  rosidl_dynamic_typesupport_member_id_t out;
+  rosidl_dynamic_typesupport_dynamic_data_insert_complex_value_copy(
+    &get_rosidl_dynamic_data(), &value.get_rosidl_dynamic_data(), &out);
+  return out;
+}
+
+
+rosidl_dynamic_typesupport_member_id_t
+DynamicMessage::insert_complex_value(DynamicMessage & value)
+{
+  rosidl_dynamic_typesupport_member_id_t out;
+  rosidl_dynamic_typesupport_dynamic_data_insert_complex_value(
+    &get_rosidl_dynamic_data(), &value.get_rosidl_dynamic_data(), &out);
+  return out;
+}

rclcpp/src/rclcpp/dynamic_typesupport/dynamic_message_type.cpp

@@ -34,5 +34,248 @@ using rclcpp::dynamic_typesupport::DynamicMessageType;
 using rclcpp::dynamic_typesupport::DynamicMessageTypeBuilder;
 using rclcpp::dynamic_typesupport::DynamicSerializationSupport;
 
+
+// CONSTRUCTION ====================================================================================
+DynamicMessageType::DynamicMessageType(DynamicMessageTypeBuilder::SharedPtr dynamic_type_builder)
+: DynamicMessageType::DynamicMessageType(
+    dynamic_type_builder, dynamic_type_builder->get_rosidl_dynamic_type_builder().allocator) {}
+
+
+DynamicMessageType::DynamicMessageType(
+  DynamicMessageTypeBuilder::SharedPtr dynamic_type_builder,
+  rcl_allocator_t allocator)
+: serialization_support_(dynamic_type_builder->get_shared_dynamic_serialization_support()),
+  rosidl_dynamic_type_(rosidl_dynamic_typesupport_get_zero_initialized_dynamic_type())
+{
+  if (!serialization_support_) {
+    throw std::runtime_error("dynamic type could not bind serialization support!");
+  }
+
+  rosidl_dynamic_typesupport_dynamic_type_builder_t rosidl_dynamic_type_builder =
+    dynamic_type_builder->get_rosidl_dynamic_type_builder();
+
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_type_init_from_dynamic_type_builder(
+    &rosidl_dynamic_type_builder, &allocator, &get_rosidl_dynamic_type());
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error("could not init new dynamic type object");
+  }
+}
+
+
+DynamicMessageType::DynamicMessageType(
+  DynamicSerializationSupport::SharedPtr serialization_support,
+  rosidl_dynamic_typesupport_dynamic_type_t && rosidl_dynamic_type)
+: serialization_support_(serialization_support),
+  rosidl_dynamic_type_(std::move(rosidl_dynamic_type))
+{
+  if (serialization_support) {
+    if (!match_serialization_support_(*serialization_support, rosidl_dynamic_type)) {
+      throw std::runtime_error(
+              "serialization support library identifier does not match dynamic type's!");
+    }
+  }
+}
+
+
+DynamicMessageType::DynamicMessageType(
+  DynamicSerializationSupport::SharedPtr serialization_support,
+  const rosidl_runtime_c__type_description__TypeDescription & description,
+  rcl_allocator_t allocator)
+: serialization_support_(serialization_support),
+  rosidl_dynamic_type_(rosidl_dynamic_typesupport_get_zero_initialized_dynamic_type())
+{
+  init_from_description(description, allocator, serialization_support);
+}
+
+
+DynamicMessageType::DynamicMessageType(DynamicMessageType && other) noexcept
+: serialization_support_(std::exchange(other.serialization_support_, nullptr)),
+  rosidl_dynamic_type_(std::exchange(
+      other.rosidl_dynamic_type_, rosidl_dynamic_typesupport_get_zero_initialized_dynamic_type()))
+{}
+
+
+DynamicMessageType &
+DynamicMessageType::operator=(DynamicMessageType && other) noexcept
+{
+  std::swap(serialization_support_, other.serialization_support_);
+  std::swap(rosidl_dynamic_type_, other.rosidl_dynamic_type_);
+  return *this;
+}
+
+
 DynamicMessageType::~DynamicMessageType()
-{}  // STUBBED
+{
+  if (rosidl_dynamic_typesupport_dynamic_type_fini(&get_rosidl_dynamic_type()) != RCUTILS_RET_OK) {
+    RCUTILS_LOG_ERROR("could not fini rosidl dynamic type");
+  }
+}
+
+
+void
+DynamicMessageType::init_from_description(
+  const rosidl_runtime_c__type_description__TypeDescription & description,
+  rcl_allocator_t allocator,
+  DynamicSerializationSupport::SharedPtr serialization_support)
+{
+  if (serialization_support) {
+    // Swap serialization support if serialization support is given
+    serialization_support_ = serialization_support;
+  }
+
+  rosidl_dynamic_typesupport_dynamic_type_t rosidl_dynamic_type =
+    rosidl_dynamic_typesupport_get_zero_initialized_dynamic_type();
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_type_init_from_description(
+    &serialization_support_->get_rosidl_serialization_support(),
+    &description,
+    &allocator,
+    &rosidl_dynamic_type);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error("could not init new dynamic type object");
+  }
+
+  rosidl_dynamic_type_ = std::move(rosidl_dynamic_type);
+}
+
+
+bool
+DynamicMessageType::match_serialization_support_(
+  const DynamicSerializationSupport & serialization_support,
+  const rosidl_dynamic_typesupport_dynamic_type_t & rosidl_dynamic_type)
+{
+  if (serialization_support.get_serialization_library_identifier() != std::string(
+      rosidl_dynamic_type.serialization_support->serialization_library_identifier))
+  {
+    RCUTILS_LOG_ERROR(
+      "serialization support library identifier does not match dynamic type's (%s vs %s)",
+      serialization_support.get_serialization_library_identifier().c_str(),
+      rosidl_dynamic_type.serialization_support->serialization_library_identifier);
+    return false;
+  }
+  return true;
+}
+
+
+// GETTERS =========================================================================================
+const std::string
+DynamicMessageType::get_serialization_library_identifier() const
+{
+  return std::string(
+    get_rosidl_dynamic_type().serialization_support->serialization_library_identifier);
+}
+
+
+const std::string
+DynamicMessageType::get_name() const
+{
+  size_t buf_length;
+  const char * buf;
+  rosidl_dynamic_typesupport_dynamic_type_get_name(&get_rosidl_dynamic_type(), &buf, &buf_length);
+  return std::string(buf, buf_length);
+}
+
+
+size_t
+DynamicMessageType::get_member_count() const
+{
+  size_t out;
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_type_get_member_count(
+    &get_rosidl_dynamic_type(), &out);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error(
+            std::string("could not get member count: ") + rcl_get_error_string().str);
+  }
+  return out;
+}
+
+
+rosidl_dynamic_typesupport_dynamic_type_t &
+DynamicMessageType::get_rosidl_dynamic_type()
+{
+  return rosidl_dynamic_type_;
+}
+
+
+const rosidl_dynamic_typesupport_dynamic_type_t &
+DynamicMessageType::get_rosidl_dynamic_type() const
+{
+  return rosidl_dynamic_type_;
+}
+
+
+DynamicSerializationSupport::SharedPtr
+DynamicMessageType::get_shared_dynamic_serialization_support()
+{
+  return serialization_support_;
+}
+
+
+DynamicSerializationSupport::ConstSharedPtr
+DynamicMessageType::get_shared_dynamic_serialization_support() const
+{
+  return serialization_support_;
+}
+
+
+// METHODS =========================================================================================
+DynamicMessageType
+DynamicMessageType::clone(rcl_allocator_t allocator)
+{
+  rosidl_dynamic_typesupport_dynamic_type_t rosidl_dynamic_type =
+    rosidl_dynamic_typesupport_get_zero_initialized_dynamic_type();
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_type_clone(
+    &get_rosidl_dynamic_type(), &allocator, &rosidl_dynamic_type);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error(
+            std::string("could not clone dynamic type: ") + rcl_get_error_string().str);
+  }
+  return DynamicMessageType(
+    get_shared_dynamic_serialization_support(), std::move(rosidl_dynamic_type));
+}
+
+
+DynamicMessageType::SharedPtr
+DynamicMessageType::clone_shared(rcl_allocator_t allocator)
+{
+  rosidl_dynamic_typesupport_dynamic_type_t rosidl_dynamic_type =
+    rosidl_dynamic_typesupport_get_zero_initialized_dynamic_type();
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_type_clone(
+    &get_rosidl_dynamic_type(), &allocator, &rosidl_dynamic_type);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error(
+            std::string("could not clone dynamic type: ") + rcl_get_error_string().str);
+  }
+  return DynamicMessageType::make_shared(
+    get_shared_dynamic_serialization_support(), std::move(rosidl_dynamic_type));
+}
+
+
+bool
+DynamicMessageType::equals(const DynamicMessageType & other) const
+{
+  if (get_serialization_library_identifier() != other.get_serialization_library_identifier()) {
+    throw std::runtime_error("library identifiers don't match");
+  }
+  bool out;
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_type_equals(
+    &get_rosidl_dynamic_type(), &other.get_rosidl_dynamic_type(), &out);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error(
+            std::string("could not equate dynamic message types: ") + rcl_get_error_string().str);
+  }
+  return out;
+}
+
+
+DynamicMessage
+DynamicMessageType::build_dynamic_message(rcl_allocator_t allocator)
+{
+  return DynamicMessage(shared_from_this(), allocator);
+}
+
+
+DynamicMessage::SharedPtr
+DynamicMessageType::build_dynamic_message_shared(rcl_allocator_t allocator)
+{
+  return DynamicMessage::make_shared(shared_from_this(), allocator);
+}

rclcpp/src/rclcpp/dynamic_typesupport/dynamic_message_type_builder.cpp

@@ -33,5 +33,582 @@ using rclcpp::dynamic_typesupport::DynamicMessageType;
 using rclcpp::dynamic_typesupport::DynamicMessageTypeBuilder;
 using rclcpp::dynamic_typesupport::DynamicSerializationSupport;
 
+#ifndef RCLCPP__DYNAMIC_TYPESUPPORT__DETAIL__DYNAMIC_MESSAGE_TYPE_BUILDER_IMPL_HPP_
+// Template specialization implementations
+#include "rclcpp/dynamic_typesupport/detail/dynamic_message_type_builder_impl.hpp"
+#endif
+
+// CONSTRUCTION ====================================================================================
+DynamicMessageTypeBuilder::DynamicMessageTypeBuilder(
+  DynamicSerializationSupport::SharedPtr serialization_support, const std::string & name)
+: DynamicMessageTypeBuilder::DynamicMessageTypeBuilder(
+    serialization_support,
+    name,
+    serialization_support->get_rosidl_serialization_support().allocator) {}
+
+
+DynamicMessageTypeBuilder::DynamicMessageTypeBuilder(
+  DynamicSerializationSupport::SharedPtr serialization_support,
+  const std::string & name,
+  rcl_allocator_t allocator)
+: serialization_support_(serialization_support),
+  rosidl_dynamic_type_builder_(
+    rosidl_dynamic_typesupport_get_zero_initialized_dynamic_type_builder())
+{
+  init_from_serialization_support_(serialization_support, name, allocator);
+}
+
+
+DynamicMessageTypeBuilder::DynamicMessageTypeBuilder(
+  DynamicSerializationSupport::SharedPtr serialization_support,
+  rosidl_dynamic_typesupport_dynamic_type_builder_t && rosidl_dynamic_type_builder)
+: serialization_support_(serialization_support),
+  rosidl_dynamic_type_builder_(
+    rosidl_dynamic_typesupport_get_zero_initialized_dynamic_type_builder())
+{
+  if (!serialization_support) {
+    throw std::runtime_error("serialization support cannot be nullptr!");
+  }
+  if (!match_serialization_support_(*serialization_support, rosidl_dynamic_type_builder)) {
+    throw std::runtime_error(
+            "serialization support library does not match dynamic type builder's!");
+  }
+}
+
+
+DynamicMessageTypeBuilder::DynamicMessageTypeBuilder(
+  DynamicSerializationSupport::SharedPtr serialization_support,
+  const rosidl_runtime_c__type_description__TypeDescription & description,
+  rcl_allocator_t allocator)
+: serialization_support_(serialization_support),
+  rosidl_dynamic_type_builder_(
+    rosidl_dynamic_typesupport_get_zero_initialized_dynamic_type_builder())
+{
+  if (!serialization_support) {
+    throw std::runtime_error("serialization support cannot be nullptr!");
+  }
+  init_from_description(description, allocator, serialization_support);
+}
+
+
+DynamicMessageTypeBuilder::DynamicMessageTypeBuilder(DynamicMessageTypeBuilder && other) noexcept
+: serialization_support_(std::exchange(other.serialization_support_, nullptr)),
+  rosidl_dynamic_type_builder_(std::exchange(
+      other.rosidl_dynamic_type_builder_,
+      rosidl_dynamic_typesupport_get_zero_initialized_dynamic_type_builder())) {}
+
+
+DynamicMessageTypeBuilder &
+DynamicMessageTypeBuilder::operator=(DynamicMessageTypeBuilder && other) noexcept
+{
+  std::swap(serialization_support_, other.serialization_support_);
+  std::swap(rosidl_dynamic_type_builder_, other.rosidl_dynamic_type_builder_);
+  return *this;
+}
+
+
 DynamicMessageTypeBuilder::~DynamicMessageTypeBuilder()
-{}  // STUBBED
+{
+  if (rosidl_dynamic_typesupport_dynamic_type_builder_fini(&get_rosidl_dynamic_type_builder()) !=
+    RCUTILS_RET_OK)
+  {
+    RCUTILS_LOG_ERROR("could not fini rosidl dynamic type builder");
+  }
+}
+
+
+void
+DynamicMessageTypeBuilder::init_from_description(
+  const rosidl_runtime_c__type_description__TypeDescription & description,
+  rcl_allocator_t allocator,
+  DynamicSerializationSupport::SharedPtr serialization_support)
+{
+  if (serialization_support) {
+    // Swap serialization support if serialization support is given
+    serialization_support_ = serialization_support;
+  }
+
+  rosidl_dynamic_typesupport_dynamic_type_builder_t rosidl_dynamic_type_builder =
+    rosidl_dynamic_typesupport_get_zero_initialized_dynamic_type_builder();
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_type_builder_init_from_description(
+    &serialization_support_->get_rosidl_serialization_support(),
+    &description,
+    &allocator,
+    &rosidl_dynamic_type_builder);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error("could not init new dynamic type builder object");
+  }
+
+  rosidl_dynamic_type_builder_ = std::move(rosidl_dynamic_type_builder);
+}
+
+
+void
+DynamicMessageTypeBuilder::init_from_serialization_support_(
+  DynamicSerializationSupport::SharedPtr serialization_support,
+  const std::string & name,
+  rcl_allocator_t allocator)
+{
+  if (!serialization_support) {
+    throw std::runtime_error("serialization support cannot be nullptr!");
+  }
+  if (!&serialization_support->get_rosidl_serialization_support()) {
+    throw std::runtime_error("serialization support raw pointer cannot be nullptr!");
+  }
+
+  rosidl_dynamic_typesupport_dynamic_type_builder_t rosidl_dynamic_type_builder =
+    rosidl_dynamic_typesupport_get_zero_initialized_dynamic_type_builder();
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_type_builder_init(
+    &serialization_support->get_rosidl_serialization_support(),
+    name.c_str(), name.size(),
+    &allocator,
+    &rosidl_dynamic_type_builder);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error(
+            std::string("could not init dynamic type builder: ") + rcl_get_error_string().str);
+  }
+}
+
+
+bool
+DynamicMessageTypeBuilder::match_serialization_support_(
+  const DynamicSerializationSupport & serialization_support,
+  const rosidl_dynamic_typesupport_dynamic_type_builder_t & rosidl_dynamic_type_builder)
+{
+  if (serialization_support.get_serialization_library_identifier() != std::string(
+      rosidl_dynamic_type_builder.serialization_support->serialization_library_identifier))
+  {
+    RCUTILS_LOG_ERROR(
+      "serialization support library identifier does not match dynamic type builder's");
+    return false;
+  }
+  return true;
+}
+
+
+// GETTERS =======================================================================================
+const std::string
+DynamicMessageTypeBuilder::get_serialization_library_identifier() const
+{
+  return std::string(
+    get_rosidl_dynamic_type_builder().serialization_support->serialization_library_identifier);
+}
+
+
+const std::string
+DynamicMessageTypeBuilder::get_name() const
+{
+  size_t buf_length;
+  const char * buf;
+  rosidl_dynamic_typesupport_dynamic_type_builder_get_name(
+    &get_rosidl_dynamic_type_builder(), &buf, &buf_length);
+  return std::string(buf, buf_length);
+}
+
+
+rosidl_dynamic_typesupport_dynamic_type_builder_t &
+DynamicMessageTypeBuilder::get_rosidl_dynamic_type_builder()
+{
+  return rosidl_dynamic_type_builder_;
+}
+
+
+const rosidl_dynamic_typesupport_dynamic_type_builder_t &
+DynamicMessageTypeBuilder::get_rosidl_dynamic_type_builder() const
+{
+  return rosidl_dynamic_type_builder_;
+}
+
+
+DynamicSerializationSupport::SharedPtr
+DynamicMessageTypeBuilder::get_shared_dynamic_serialization_support()
+{
+  return serialization_support_;
+}
+
+
+DynamicSerializationSupport::ConstSharedPtr
+DynamicMessageTypeBuilder::get_shared_dynamic_serialization_support() const
+{
+  return serialization_support_;
+}
+
+
+// METHODS =======================================================================================
+void
+DynamicMessageTypeBuilder::set_name(const std::string & name)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_set_name(
+    &get_rosidl_dynamic_type_builder(), name.c_str(), name.size());
+}
+
+
+DynamicMessageTypeBuilder
+DynamicMessageTypeBuilder::clone(rcl_allocator_t allocator)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_t rosidl_dynamic_type_builder =
+    rosidl_dynamic_typesupport_get_zero_initialized_dynamic_type_builder();
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_type_builder_clone(
+    &get_rosidl_dynamic_type_builder(), &allocator, &rosidl_dynamic_type_builder);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error(
+            std::string("could not clone dynamic type builder: ") + rcl_get_error_string().str);
+  }
+  return DynamicMessageTypeBuilder(
+    get_shared_dynamic_serialization_support(), std::move(rosidl_dynamic_type_builder));
+}
+
+
+DynamicMessageTypeBuilder::SharedPtr
+DynamicMessageTypeBuilder::clone_shared(rcl_allocator_t allocator)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_t rosidl_dynamic_type_builder =
+    rosidl_dynamic_typesupport_get_zero_initialized_dynamic_type_builder();
+  rcutils_ret_t ret = rosidl_dynamic_typesupport_dynamic_type_builder_clone(
+    &get_rosidl_dynamic_type_builder(), &allocator, &rosidl_dynamic_type_builder);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error(
+            std::string("could not clone dynamic type builder: ") + rcl_get_error_string().str);
+  }
+  return DynamicMessageTypeBuilder::make_shared(
+    get_shared_dynamic_serialization_support(), std::move(rosidl_dynamic_type_builder));
+}
+
+
+void
+DynamicMessageTypeBuilder::clear(rcl_allocator_t allocator)
+{
+  if (!serialization_support_) {
+    throw std::runtime_error(
+            "cannot call clear() on a dynamic type builder with uninitialized serialization support"
+    );
+  }
+
+  const std::string & name = get_name();
+  init_from_serialization_support_(serialization_support_, name, allocator);
+}
+
+
+DynamicMessage
+DynamicMessageTypeBuilder::build_dynamic_message(rcl_allocator_t allocator)
+{
+  return DynamicMessage(shared_from_this(), allocator);
+}
+
+
+DynamicMessage::SharedPtr
+DynamicMessageTypeBuilder::build_dynamic_message_shared(rcl_allocator_t allocator)
+{
+  return DynamicMessage::make_shared(shared_from_this(), allocator);
+}
+
+
+DynamicMessageType
+DynamicMessageTypeBuilder::build_dynamic_message_type(rcl_allocator_t allocator)
+{
+  return DynamicMessageType(shared_from_this(), allocator);
+}
+
+
+DynamicMessageType::SharedPtr
+DynamicMessageTypeBuilder::build_dynamic_message_type_shared(rcl_allocator_t allocator)
+{
+  return DynamicMessageType::make_shared(shared_from_this(), allocator);
+}
+
+
+// ADD MEMBERS =====================================================================================
+// Defined in "detail/dynamic_message_type_builder_impl.hpp"
+
+
+// ADD FIXED STRING MEMBERS ========================================================================
+void
+DynamicMessageTypeBuilder::add_fixed_string_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name, size_t string_length,
+  const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_fixed_string_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    string_length);
+}
+
+
+void
+DynamicMessageTypeBuilder::add_fixed_wstring_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name, size_t wstring_length,
+  const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_fixed_wstring_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    wstring_length);
+}
+
+
+void
+DynamicMessageTypeBuilder::add_fixed_string_array_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+  size_t string_length, size_t array_length, const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_fixed_string_array_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    string_length, array_length);
+}
+
+
+void
+DynamicMessageTypeBuilder::add_fixed_wstring_array_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+  size_t wstring_length, size_t array_length, const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_fixed_wstring_array_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    wstring_length, array_length);
+}
+
+
+void
+DynamicMessageTypeBuilder::add_fixed_string_unbounded_sequence_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name, size_t string_length,
+  const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_fixed_string_unbounded_sequence_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    string_length);
+}
+
+
+void
+DynamicMessageTypeBuilder::add_fixed_wstring_unbounded_sequence_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name, size_t wstring_length,
+  const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_fixed_wstring_unbounded_sequence_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    wstring_length);
+}
+
+
+void
+DynamicMessageTypeBuilder::add_fixed_string_bounded_sequence_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+  size_t string_length, size_t sequence_bound, const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_fixed_string_bounded_sequence_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    string_length, sequence_bound);
+}
+
+
+void
+DynamicMessageTypeBuilder::add_fixed_wstring_bounded_sequence_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+  size_t wstring_length, size_t sequence_bound, const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_fixed_wstring_bounded_sequence_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    wstring_length, sequence_bound);
+}
+
+
+// ADD BOUNDED STRING MEMBERS ======================================================================
+void
+DynamicMessageTypeBuilder::add_bounded_string_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name, size_t string_bound,
+  const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_bounded_string_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    string_bound);
+}
+
+
+void
+DynamicMessageTypeBuilder::add_bounded_wstring_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name, size_t wstring_bound,
+  const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_bounded_wstring_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    wstring_bound);
+}
+
+
+void
+DynamicMessageTypeBuilder::add_bounded_string_array_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+  size_t string_bound, size_t array_length, const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_bounded_string_array_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    string_bound, array_length);
+}
+
+
+void
+DynamicMessageTypeBuilder::add_bounded_wstring_array_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+  size_t wstring_bound, size_t array_length, const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_bounded_wstring_array_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    wstring_bound, array_length);
+}
+
+
+void
+DynamicMessageTypeBuilder::add_bounded_string_unbounded_sequence_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name, size_t string_bound,
+  const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_bounded_string_unbounded_sequence_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    string_bound);
+}
+
+
+void
+DynamicMessageTypeBuilder::add_bounded_wstring_unbounded_sequence_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name, size_t wstring_bound,
+  const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_bounded_wstring_unbounded_sequence_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    wstring_bound);
+}
+
+
+void
+DynamicMessageTypeBuilder::add_bounded_string_bounded_sequence_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+  size_t string_bound, size_t sequence_bound, const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_bounded_string_bounded_sequence_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    string_bound, sequence_bound);
+}
+
+
+void
+DynamicMessageTypeBuilder::add_bounded_wstring_bounded_sequence_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+  size_t wstring_bound, size_t sequence_bound, const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_bounded_wstring_bounded_sequence_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    wstring_bound, sequence_bound);
+}
+
+
+// ADD NESTED MEMBERS ==============================================================================
+void
+DynamicMessageTypeBuilder::add_complex_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+  DynamicMessageType & nested_type, const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_complex_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    &nested_type.get_rosidl_dynamic_type());
+}
+
+
+void
+DynamicMessageTypeBuilder::add_complex_array_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+  DynamicMessageType & nested_type, size_t array_length, const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_complex_array_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    &nested_type.get_rosidl_dynamic_type(), array_length);
+}
+
+
+void
+DynamicMessageTypeBuilder::add_complex_unbounded_sequence_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+  DynamicMessageType & nested_type, const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_complex_unbounded_sequence_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    &nested_type.get_rosidl_dynamic_type());
+}
+
+
+void
+DynamicMessageTypeBuilder::add_complex_bounded_sequence_member(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+  DynamicMessageType & nested_type, size_t sequence_bound, const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_complex_bounded_sequence_member(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    &nested_type.get_rosidl_dynamic_type(), sequence_bound);
+}
+
+
+void
+DynamicMessageTypeBuilder::add_complex_member_builder(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+  DynamicMessageTypeBuilder & nested_type_builder, const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_complex_member_builder(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    &nested_type_builder.get_rosidl_dynamic_type_builder());
+}
+
+
+void
+DynamicMessageTypeBuilder::add_complex_array_member_builder(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+  DynamicMessageTypeBuilder & nested_type_builder, size_t array_length,
+  const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_complex_array_member_builder(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    &nested_type_builder.get_rosidl_dynamic_type_builder(), array_length);
+}
+
+
+void
+DynamicMessageTypeBuilder::add_complex_unbounded_sequence_member_builder(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+  DynamicMessageTypeBuilder & nested_type_builder, const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_complex_unbounded_sequence_member_builder(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    &nested_type_builder.get_rosidl_dynamic_type_builder());
+}
+
+
+void
+DynamicMessageTypeBuilder::add_complex_bounded_sequence_member_builder(
+  rosidl_dynamic_typesupport_member_id_t id, const std::string & name,
+  DynamicMessageTypeBuilder & nested_type_builder, size_t sequence_bound,
+  const std::string & default_value)
+{
+  rosidl_dynamic_typesupport_dynamic_type_builder_add_complex_bounded_sequence_member_builder(
+    &get_rosidl_dynamic_type_builder(),
+    id, name.c_str(), name.size(), default_value.c_str(), default_value.size(),
+    &nested_type_builder.get_rosidl_dynamic_type_builder(), sequence_bound);
+}

rclcpp/src/rclcpp/dynamic_typesupport/dynamic_message_type_support.cpp

@@ -45,5 +45,273 @@ using rclcpp::dynamic_typesupport::DynamicMessageType;
 using rclcpp::dynamic_typesupport::DynamicMessageTypeSupport;
 using rclcpp::dynamic_typesupport::DynamicSerializationSupport;
 
+// CONSTRUCTION ====================================================================================
+DynamicMessageTypeSupport::DynamicMessageTypeSupport(
+  const rosidl_runtime_c__type_description__TypeDescription & description,
+  const std::string & serialization_library_name,
+  rcl_allocator_t allocator)
+: serialization_support_(nullptr),
+  dynamic_message_type_(nullptr),
+  dynamic_message_(nullptr),
+  rosidl_message_type_support_(rosidl_get_zero_initialized_message_type_support_handle())
+{
+  rcl_ret_t ret;
+  if (serialization_library_name.empty()) {
+    ret = rcl_dynamic_message_type_support_handle_init(
+      nullptr, &description, &allocator, &rosidl_message_type_support_);
+  } else {
+    ret = rcl_dynamic_message_type_support_handle_init(
+      serialization_library_name.c_str(), &description, &allocator, &rosidl_message_type_support_);
+  }
+  if (ret != RCL_RET_OK) {
+    std::string error_msg =
+      std::string("error initializing rosidl message type support: ") + rcl_get_error_string().str;
+    rcl_reset_error();
+    throw std::runtime_error(error_msg);
+  }
+  if (rosidl_message_type_support_.typesupport_identifier !=
+    rosidl_get_dynamic_typesupport_identifier())
+  {
+    throw std::runtime_error("rosidl message type support is of the wrong type");
+  }
+
+  auto ts_impl = static_cast<rosidl_dynamic_message_type_support_impl_t *>(const_cast<void *>(
+      rosidl_message_type_support_.data));
+
+  serialization_support_ = DynamicSerializationSupport::make_shared(
+    std::move(ts_impl->serialization_support));
+
+  dynamic_message_type_ = DynamicMessageType::make_shared(
+    get_shared_dynamic_serialization_support(), std::move(*ts_impl->dynamic_message_type));
+
+  dynamic_message_ = DynamicMessage::make_shared(
+    get_shared_dynamic_serialization_support(), std::move(*ts_impl->dynamic_message));
+}
+
+DynamicMessageTypeSupport::DynamicMessageTypeSupport(
+  DynamicSerializationSupport::SharedPtr serialization_support,
+  const rosidl_runtime_c__type_description__TypeDescription & description,
+  rcl_allocator_t allocator)
+: serialization_support_(serialization_support),
+  dynamic_message_type_(nullptr),
+  dynamic_message_(nullptr),
+  rosidl_message_type_support_(rosidl_get_zero_initialized_message_type_support_handle())
+{
+  // Check null
+  if (!serialization_support) {
+    throw std::runtime_error("serialization_support cannot be nullptr.");
+  }
+
+  rosidl_type_hash_t type_hash;
+  rcutils_ret_t hash_ret = rcl_calculate_type_hash(
+    // TODO(methylDragon): Swap this out with the conversion function when it is ready
+    reinterpret_cast<const type_description_interfaces__msg__TypeDescription *>(&description),
+    &type_hash);
+  if (hash_ret != RCL_RET_OK) {
+    throw std::runtime_error("failed to get type hash");
+  }
+
+  rcutils_ret_t ret = rosidl_dynamic_message_type_support_handle_init(
+    &serialization_support->get_rosidl_serialization_support(),
+    &type_hash,       // type_hash
+    &description,     // type_description
+    nullptr,          // type_description_sources (not implemented for dynamic types)
+    &allocator,
+    &rosidl_message_type_support_);
+  if (ret != RCUTILS_RET_OK) {
+    throw std::runtime_error("could not init rosidl message type support");
+  }
+  if (rosidl_message_type_support_.typesupport_identifier !=
+    rosidl_get_dynamic_typesupport_identifier())
+  {
+    throw std::runtime_error("rosidl message type support is of the wrong type");
+  }
+
+  auto ts_impl = static_cast<const rosidl_dynamic_message_type_support_impl_t *>(
+    rosidl_message_type_support_.data);
+
+  dynamic_message_type_ = DynamicMessageType::make_shared(
+    get_shared_dynamic_serialization_support(), std::move(*ts_impl->dynamic_message_type));
+
+  dynamic_message_ = DynamicMessage::make_shared(
+    get_shared_dynamic_serialization_support(), std::move(*ts_impl->dynamic_message));
+}
+
+DynamicMessageTypeSupport::DynamicMessageTypeSupport(
+  DynamicSerializationSupport::SharedPtr serialization_support,
+  DynamicMessageType::SharedPtr dynamic_message_type,
+  DynamicMessage::SharedPtr dynamic_message,
+  const rosidl_runtime_c__type_description__TypeDescription & description,
+  rcl_allocator_t allocator)
+: serialization_support_(serialization_support),
+  dynamic_message_type_(dynamic_message_type),
+  dynamic_message_(dynamic_message),
+  rosidl_message_type_support_(rosidl_get_zero_initialized_message_type_support_handle())
+{
+  // Check null
+  if (!serialization_support) {
+    throw std::runtime_error("serialization_support cannot be nullptr.");
+  }
+  if (!dynamic_message_type) {
+    throw std::runtime_error("dynamic_message_type cannot be nullptr.");
+  }
+  if (!dynamic_message) {
+    throw std::runtime_error("dynamic_message cannot be nullptr.");
+  }
+
+  // Check identifiers
+  if (serialization_support->get_serialization_library_identifier() !=
+    dynamic_message_type->get_serialization_library_identifier())
+  {
+    throw std::runtime_error(
+            "serialization support library identifier does not match "
+            "dynamic message type library identifier.");
+  }
+  if (dynamic_message_type->get_serialization_library_identifier() !=
+    dynamic_message->get_serialization_library_identifier())
+  {
+    throw std::runtime_error(
+            "dynamic message type library identifier does not match "
+            "dynamic message library identifier.");
+  }
+
+  rosidl_type_hash_t type_hash;
+  rcutils_ret_t hash_ret = rcl_calculate_type_hash(
+    // TODO(methylDragon): Swap this out with the conversion function when it is ready
+    //   from https://github.com/ros2/rcl/pull/1052
+    reinterpret_cast<const type_description_interfaces__msg__TypeDescription *>(&description),
+    &type_hash);
+  if (hash_ret != RCL_RET_OK) {
+    std::string error_msg = std::string("failed to get type hash: ") + rcl_get_error_string().str;
+    rcl_reset_error();
+    throw std::runtime_error(error_msg);
+  }
+
+  auto ts_impl = static_cast<rosidl_dynamic_message_type_support_impl_t *>(
+    allocator.zero_allocate(1, sizeof(rosidl_dynamic_message_type_support_impl_t), allocator.state)
+  );
+  if (!ts_impl) {
+    throw std::runtime_error("could not allocate rosidl_message_type_support_t");
+  }
+
+  ts_impl->allocator = allocator;
+  ts_impl->type_hash = type_hash;
+  if (!rosidl_runtime_c__type_description__TypeDescription__copy(
+      &description, &ts_impl->type_description))
+  {
+    throw std::runtime_error("could not copy type description");
+  }
+  // ts_impl->type_description_sources  = // Not used
+
+  ts_impl->serialization_support = serialization_support->get_rosidl_serialization_support();
+  ts_impl->dynamic_message_type = &dynamic_message_type->get_rosidl_dynamic_type();
+  ts_impl->dynamic_message = &dynamic_message->get_rosidl_dynamic_data();
+
+  rosidl_message_type_support_ = {
+    rosidl_get_dynamic_typesupport_identifier(),            // typesupport_identifier
+    ts_impl,                                                // data
+    get_message_typesupport_handle_function,                // func
+    // get_type_hash_func
+    rosidl_get_dynamic_message_type_support_type_hash_function,
+    // get_type_description_func
+    rosidl_get_dynamic_message_type_support_type_description_function,
+    // get_type_description_sources_func
+    rosidl_get_dynamic_message_type_support_type_description_sources_function
+  };
+}
+
 DynamicMessageTypeSupport::~DynamicMessageTypeSupport()
-{}  // STUBBED
+{
+  // These must go first
+  serialization_support_.reset();
+  dynamic_message_type_.reset();
+  dynamic_message_.reset();
+
+  // Early return if type support isn't populated to avoid segfaults
+  if (!rosidl_message_type_support_.data) {
+    return;
+  }
+
+  // We only partially finalize the rosidl_message_type_support->data since its pointer members are
+  // managed by their respective SharedPtr wrapper classes.
+  auto ts_impl = static_cast<rosidl_dynamic_message_type_support_impl_t *>(
+    const_cast<void *>(rosidl_message_type_support_.data)
+  );
+  rcutils_allocator_t allocator = ts_impl->allocator;
+
+  rosidl_runtime_c__type_description__TypeDescription__fini(&ts_impl->type_description);
+  rosidl_runtime_c__type_description__TypeSource__Sequence__fini(
+    &ts_impl->type_description_sources);
+  allocator.deallocate(static_cast<void *>(ts_impl), allocator.state);  // Always C allocated
+}
+
+
+// GETTERS =========================================================================================
+const std::string
+DynamicMessageTypeSupport::get_serialization_library_identifier() const
+{
+  return serialization_support_->get_serialization_library_identifier();
+}
+
+rosidl_message_type_support_t &
+DynamicMessageTypeSupport::get_rosidl_message_type_support()
+{
+  return rosidl_message_type_support_;
+}
+
+const rosidl_message_type_support_t &
+DynamicMessageTypeSupport::get_const_rosidl_message_type_support()
+{
+  return rosidl_message_type_support_;
+}
+
+const rosidl_message_type_support_t &
+DynamicMessageTypeSupport::get_const_rosidl_message_type_support() const
+{
+  return rosidl_message_type_support_;
+}
+
+const rosidl_runtime_c__type_description__TypeDescription &
+DynamicMessageTypeSupport::get_rosidl_runtime_c_type_description() const
+{
+  auto ts_impl = static_cast<const rosidl_dynamic_message_type_support_impl_t *>(
+    get_const_rosidl_message_type_support().data
+  );
+  return ts_impl->type_description;
+}
+
+DynamicSerializationSupport::SharedPtr
+DynamicMessageTypeSupport::get_shared_dynamic_serialization_support()
+{
+  return serialization_support_;
+}
+
+DynamicSerializationSupport::ConstSharedPtr
+DynamicMessageTypeSupport::get_shared_dynamic_serialization_support() const
+{
+  return serialization_support_;
+}
+
+DynamicMessageType::SharedPtr
+DynamicMessageTypeSupport::get_shared_dynamic_message_type()
+{
+  return dynamic_message_type_;
+}
+
+DynamicMessageType::ConstSharedPtr
+DynamicMessageTypeSupport::get_shared_dynamic_message_type() const
+{
+  return dynamic_message_type_;
+}
+
+DynamicMessage::SharedPtr
+DynamicMessageTypeSupport::get_shared_dynamic_message()
+{
+  return dynamic_message_;
+}
+
+DynamicMessage::ConstSharedPtr
+DynamicMessageTypeSupport::get_shared_dynamic_message() const
+{
+  return dynamic_message_;
+}

rclcpp/src/rclcpp/dynamic_typesupport/dynamic_serialization_support.cpp

@@ -28,19 +28,71 @@ using rclcpp::dynamic_typesupport::DynamicSerializationSupport;
 
 // CONSTRUCTION ====================================================================================
 DynamicSerializationSupport::DynamicSerializationSupport(rcl_allocator_t allocator)
-: DynamicSerializationSupport::DynamicSerializationSupport("", allocator)
-{
-  throw std::runtime_error("Unimplemented");
-}
+: DynamicSerializationSupport::DynamicSerializationSupport("", allocator) {}
 
 DynamicSerializationSupport::DynamicSerializationSupport(
-  const std::string & /*serialization_library_name*/,
-  rcl_allocator_t /*allocator*/)
+  const std::string & serialization_library_name,
+  rcl_allocator_t allocator)
 : rosidl_serialization_support_(
     rosidl_dynamic_typesupport_get_zero_initialized_serialization_support())
 {
-  throw std::runtime_error("Unimplemented");
+  rmw_ret_t ret = RMW_RET_ERROR;
+
+  if (serialization_library_name.empty()) {
+    ret = rmw_serialization_support_init(NULL, &allocator, &rosidl_serialization_support_);
+  } else {
+    ret = rmw_serialization_support_init(
+      serialization_library_name.c_str(), &allocator, &rosidl_serialization_support_);
+  }
+  if (ret != RCL_RET_OK) {
+    std::string error_msg =
+      std::string("could not initialize new serialization support object: ") +
+      rcl_get_error_string().str;
+    rcl_reset_error();
+    throw std::runtime_error(error_msg);
+  }
+}
+
+DynamicSerializationSupport::DynamicSerializationSupport(
+  rosidl_dynamic_typesupport_serialization_support_t && rosidl_serialization_support)
+: rosidl_serialization_support_(std::move(rosidl_serialization_support)) {}
+
+DynamicSerializationSupport::DynamicSerializationSupport(
+  DynamicSerializationSupport && other) noexcept
+: rosidl_serialization_support_(std::exchange(
+      other.rosidl_serialization_support_,
+      rosidl_dynamic_typesupport_get_zero_initialized_serialization_support())) {}
+
+DynamicSerializationSupport &
+DynamicSerializationSupport::operator=(DynamicSerializationSupport && other) noexcept
+{
+  std::swap(rosidl_serialization_support_, other.rosidl_serialization_support_);
+  return *this;
 }
 
 DynamicSerializationSupport::~DynamicSerializationSupport()
-{}  // STUBBED
+{
+  rosidl_dynamic_typesupport_serialization_support_fini(&rosidl_serialization_support_);
+}
+
+
+// GETTERS =========================================================================================
+const std::string
+DynamicSerializationSupport::get_serialization_library_identifier() const
+{
+  return std::string(
+    rosidl_dynamic_typesupport_serialization_support_get_library_identifier(
+      &rosidl_serialization_support_));
+}
+
+rosidl_dynamic_typesupport_serialization_support_t &
+DynamicSerializationSupport::get_rosidl_serialization_support()
+{
+  return rosidl_serialization_support_;
+}
+
+const rosidl_dynamic_typesupport_serialization_support_t &
+DynamicSerializationSupport::get_rosidl_serialization_support() const
+{
+  return rosidl_serialization_support_;
+}

rclcpp/src/rclcpp/executor.cpp

@@ -39,16 +39,16 @@
 using namespace std::chrono_literals;
 
 using rclcpp::exceptions::throw_from_rcl_error;
+using rclcpp::AnyExecutable;
 using rclcpp::Executor;
-
-class rclcpp::ExecutorImplementation {};
+using rclcpp::ExecutorOptions;
+using rclcpp::FutureReturnCode;
 
 Executor::Executor(const rclcpp::ExecutorOptions & options)
 : spinning(false),
-  interrupt_guard_condition_(std::make_shared<rclcpp::GuardCondition>(options.context)),
+  interrupt_guard_condition_(options.context),
   shutdown_guard_condition_(std::make_shared<rclcpp::GuardCondition>(options.context)),
-  memory_strategy_(options.memory_strategy),
-  impl_(std::make_unique<rclcpp::ExecutorImplementation>())
+  memory_strategy_(options.memory_strategy)
 {
   // Store the context for later use.
   context_ = options.context;
@@ -66,7 +66,7 @@ Executor::Executor(const rclcpp::ExecutorOptions & options)
   memory_strategy_->add_guard_condition(*shutdown_guard_condition_.get());
 
   // Put the executor's guard condition in
-  memory_strategy_->add_guard_condition(*interrupt_guard_condition_.get());
+  memory_strategy_->add_guard_condition(interrupt_guard_condition_);
   rcl_allocator_t allocator = memory_strategy_->get_allocator();
 
   rcl_ret_t ret = rcl_wait_set_init(
@@ -128,7 +128,7 @@ Executor::~Executor()
   }
   // Remove and release the sigint guard condition
   memory_strategy_->remove_guard_condition(shutdown_guard_condition_.get());
-  memory_strategy_->remove_guard_condition(interrupt_guard_condition_.get());
+  memory_strategy_->remove_guard_condition(&interrupt_guard_condition_);
 
   // Remove shutdown callback handle registered to Context
   if (!context_->remove_on_shutdown_callback(shutdown_callback_handle_)) {
@@ -223,7 +223,8 @@ Executor::add_callback_group_to_map(
   weak_groups_to_nodes_.insert(std::make_pair(weak_group_ptr, node_ptr));
 
   if (node_ptr->get_context()->is_valid()) {
-    auto callback_group_guard_condition = group_ptr->get_notify_guard_condition();
+    auto callback_group_guard_condition =
+      group_ptr->get_notify_guard_condition(node_ptr->get_context());
     weak_groups_to_guard_conditions_[weak_group_ptr] = callback_group_guard_condition.get();
     // Add the callback_group's notify condition to the guard condition handles
     memory_strategy_->add_guard_condition(*callback_group_guard_condition);
@@ -232,7 +233,7 @@ Executor::add_callback_group_to_map(
   if (notify) {
     // Interrupt waiting to handle new node
     try {
-      interrupt_guard_condition_->trigger();
+      interrupt_guard_condition_.trigger();
     } catch (const rclcpp::exceptions::RCLError & ex) {
       throw std::runtime_error(
               std::string(
@@ -280,10 +281,10 @@ Executor::add_node(rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_pt
       }
     });
 
-  const auto gc = node_ptr->get_shared_notify_guard_condition();
-  weak_nodes_to_guard_conditions_[node_ptr] = gc.get();
+  const auto & gc = node_ptr->get_notify_guard_condition();
+  weak_nodes_to_guard_conditions_[node_ptr] = &gc;
   // Add the node's notify condition to the guard condition handles
-  memory_strategy_->add_guard_condition(*gc);
+  memory_strategy_->add_guard_condition(gc);
   weak_nodes_.push_back(node_ptr);
 }
 
@@ -320,7 +321,7 @@ Executor::remove_callback_group_from_map(
 
     if (notify) {
       try {
-        interrupt_guard_condition_->trigger();
+        interrupt_guard_condition_.trigger();
       } catch (const rclcpp::exceptions::RCLError & ex) {
         throw std::runtime_error(
                 std::string(
@@ -388,7 +389,7 @@ Executor::remove_node(rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node
     }
   }
 
-  memory_strategy_->remove_guard_condition(node_ptr->get_shared_notify_guard_condition().get());
+  memory_strategy_->remove_guard_condition(&node_ptr->get_notify_guard_condition());
   weak_nodes_to_guard_conditions_.erase(node_ptr);
 
   std::atomic_bool & has_executor = node_ptr->get_associated_with_executor_atomic();
@@ -501,7 +502,7 @@ Executor::cancel()
 {
   spinning.store(false);
   try {
-    interrupt_guard_condition_->trigger();
+    interrupt_guard_condition_.trigger();
   } catch (const rclcpp::exceptions::RCLError & ex) {
     throw std::runtime_error(
             std::string("Failed to trigger guard condition in cancel: ") + ex.what());
@@ -550,7 +551,7 @@ Executor::execute_any_executable(AnyExecutable & any_exec)
   // Wake the wait, because it may need to be recalculated or work that
   // was previously blocked is now available.
   try {
-    interrupt_guard_condition_->trigger();
+    interrupt_guard_condition_.trigger();
   } catch (const rclcpp::exceptions::RCLError & ex) {
     throw std::runtime_error(
             std::string(
@@ -604,8 +605,8 @@ Executor::execute_subscription(rclcpp::SubscriptionBase::SharedPtr subscription)
   message_info.get_rmw_message_info().from_intra_process = false;
 
   switch (subscription->get_subscription_type()) {
-    // Deliver ROS message
-    case rclcpp::DeliveredMessageKind::ROS_MESSAGE:
+    // Take ROS message
+    case rclcpp::SubscriptionType::ROS_MESSAGE:
       {
         if (subscription->can_loan_messages()) {
           // This is the case where a loaned message is taken from the middleware via
@@ -658,8 +659,8 @@ Executor::execute_subscription(rclcpp::SubscriptionBase::SharedPtr subscription)
         break;
       }
 
-    // Deliver serialized message
-    case rclcpp::DeliveredMessageKind::SERIALIZED_MESSAGE:
+    // Take serialized message
+    case rclcpp::SubscriptionType::SERIALIZED_MESSAGE:
       {
         // This is the case where a copy of the serialized message is taken from
         // the middleware via inter-process communication.
@@ -678,15 +679,53 @@ Executor::execute_subscription(rclcpp::SubscriptionBase::SharedPtr subscription)
       }
 
     // DYNAMIC SUBSCRIPTION ========================================================================
-    // Deliver dynamic message
-    case rclcpp::DeliveredMessageKind::DYNAMIC_MESSAGE:
+    // If a subscription is dynamic, then it will use its serialization-specific dynamic data.
+    //
+    // Two cases:
+    // - Dynamic type subscription using dynamic type stored in its own internal type support struct
+    // - Non-dynamic type subscription with no stored dynamic type
+    //   - Subscriptions of this type must be able to lookup the local message description to
+    //     generate a dynamic type at runtime!
+    //   - TODO(methylDragon): I won't be handling this case yet
+
+    // Take dynamic message directly from the middleware
+    case rclcpp::SubscriptionType::DYNAMIC_MESSAGE_DIRECT:
       {
-        throw std::runtime_error("Unimplemented");
+        DynamicMessage::SharedPtr dynamic_message = subscription->create_dynamic_message();
+        take_and_do_error_handling(
+          "taking a dynamic message from topic",
+          subscription->get_topic_name(),
+          // This modifies the stored dynamic data in the DynamicMessage in-place
+          [&]() {return subscription->take_dynamic_message(*dynamic_message, message_info);},
+          [&]() {subscription->handle_dynamic_message(dynamic_message, message_info);});
+        subscription->return_dynamic_message(dynamic_message);
+        break;
       }
 
-    default:
+    // Take serialized and then convert to dynamic message
+    case rclcpp::SubscriptionType::DYNAMIC_MESSAGE_FROM_SERIALIZED:
       {
-        throw std::runtime_error("Delivered message kind is not supported");
+        std::shared_ptr<SerializedMessage> serialized_msg =
+          subscription->create_serialized_message();
+
+        // NOTE(methylDragon): Is this clone necessary? If I'm following the pattern, it seems so.
+        DynamicMessage::SharedPtr dynamic_message = subscription->create_dynamic_message();
+        take_and_do_error_handling(
+          "taking a serialized message from topic",
+          subscription->get_topic_name(),
+          [&]() {return subscription->take_serialized(*serialized_msg.get(), message_info);},
+          [&]()
+          {
+            bool ret = dynamic_message->deserialize(serialized_msg->get_rcl_serialized_message());
+            if (!ret) {
+              throw_from_rcl_error(ret, "Couldn't convert serialized message to dynamic data!");
+            }
+            subscription->handle_dynamic_message(dynamic_message, message_info);
+          }
+        );
+        subscription->return_serialized_message(serialized_msg);
+        subscription->return_dynamic_message(dynamic_message);
+        break;
       }
   }
   return;

rclcpp/src/rclcpp/executors/executor_entities_collection.cpp

@@ -1,230 +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.
-
-#include "rclcpp/executors/executor_entities_collection.hpp"
-
-namespace rclcpp
-{
-namespace executors
-{
-bool ExecutorEntitiesCollection::empty() const
-{
-  return
-    subscriptions.empty() &&
-    timers.empty() &&
-    guard_conditions.empty() &&
-    clients.empty() &&
-    services.empty() &&
-    waitables.empty();
-}
-
-void ExecutorEntitiesCollection::clear()
-{
-  subscriptions.clear();
-  timers.clear();
-  guard_conditions.clear();
-  clients.clear();
-  services.clear();
-  waitables.clear();
-}
-
-void
-build_entities_collection(
-  const std::vector<rclcpp::CallbackGroup::WeakPtr> & callback_groups,
-  ExecutorEntitiesCollection & collection)
-{
-  collection.clear();
-
-  for (auto weak_group_ptr : callback_groups) {
-    auto group_ptr = weak_group_ptr.lock();
-    if (!group_ptr) {
-      continue;
-    }
-
-    if (group_ptr->can_be_taken_from().load()) {
-      group_ptr->collect_all_ptrs(
-        [&collection, weak_group_ptr](const rclcpp::SubscriptionBase::SharedPtr & subscription) {
-          collection.subscriptions.insert(
-            {
-              subscription->get_subscription_handle().get(),
-              {subscription, weak_group_ptr}
-            });
-        },
-        [&collection, weak_group_ptr](const rclcpp::ServiceBase::SharedPtr & service) {
-          collection.services.insert(
-            {
-              service->get_service_handle().get(),
-              {service, weak_group_ptr}
-            });
-        },
-        [&collection, weak_group_ptr](const rclcpp::ClientBase::SharedPtr & client) {
-          collection.clients.insert(
-            {
-              client->get_client_handle().get(),
-              {client, weak_group_ptr}
-            });
-        },
-        [&collection, weak_group_ptr](const rclcpp::TimerBase::SharedPtr & timer) {
-          collection.timers.insert(
-            {
-              timer->get_timer_handle().get(),
-              {timer, weak_group_ptr}
-            });
-        },
-        [&collection, weak_group_ptr](const rclcpp::Waitable::SharedPtr & waitable) {
-          collection.waitables.insert(
-            {
-              waitable.get(),
-              {waitable, weak_group_ptr}
-            });
-        }
-      );
-    }
-  }
-}
-
-size_t
-ready_executables(
-  const ExecutorEntitiesCollection & collection,
-  rclcpp::WaitResult<rclcpp::WaitSet> & wait_result,
-  std::deque<rclcpp::AnyExecutable> & executables
-)
-{
-  size_t added = 0;
-  if (wait_result.kind() != rclcpp::WaitResultKind::Ready) {
-    return added;
-  }
-  auto rcl_wait_set = wait_result.get_wait_set().get_rcl_wait_set();
-
-  // Cache shared pointers to groups to avoid extra work re-locking them
-  std::map<rclcpp::CallbackGroup::WeakPtr,
-    rclcpp::CallbackGroup::SharedPtr,
-    std::owner_less<rclcpp::CallbackGroup::WeakPtr>> group_map;
-
-  auto group_cache = [&group_map](const rclcpp::CallbackGroup::WeakPtr & weak_cbg_ptr)
-    {
-      if (group_map.count(weak_cbg_ptr) == 0) {
-        group_map.insert({weak_cbg_ptr, weak_cbg_ptr.lock()});
-      }
-      return group_map.find(weak_cbg_ptr)->second;
-    };
-
-  for (size_t ii = 0; ii < rcl_wait_set.size_of_timers; ++ii) {
-    if (nullptr == rcl_wait_set.timers[ii]) {continue;}
-    auto entity_iter = collection.timers.find(rcl_wait_set.timers[ii]);
-    if (entity_iter != collection.timers.end()) {
-      auto entity = entity_iter->second.entity.lock();
-      if (!entity) {
-        continue;
-      }
-      auto group_info = group_cache(entity_iter->second.callback_group);
-      if (group_info && !group_info->can_be_taken_from().load()) {
-        continue;
-      }
-      if (!entity->call()) {
-        continue;
-      }
-      rclcpp::AnyExecutable exec;
-      exec.timer = entity;
-      exec.callback_group = group_info;
-      executables.push_back(exec);
-      added++;
-    }
-  }
-
-  for (size_t ii = 0; ii < rcl_wait_set.size_of_subscriptions; ++ii) {
-    if (nullptr == rcl_wait_set.subscriptions[ii]) {continue;}
-    auto entity_iter = collection.subscriptions.find(rcl_wait_set.subscriptions[ii]);
-    if (entity_iter != collection.subscriptions.end()) {
-      auto entity = entity_iter->second.entity.lock();
-      if (!entity) {
-        continue;
-      }
-      auto group_info = group_cache(entity_iter->second.callback_group);
-      if (group_info && !group_info->can_be_taken_from().load()) {
-        continue;
-      }
-      rclcpp::AnyExecutable exec;
-      exec.subscription = entity;
-      exec.callback_group = group_info;
-      executables.push_back(exec);
-      added++;
-    }
-  }
-
-  for (size_t ii = 0; ii < rcl_wait_set.size_of_services; ++ii) {
-    if (nullptr == rcl_wait_set.services[ii]) {continue;}
-    auto entity_iter = collection.services.find(rcl_wait_set.services[ii]);
-    if (entity_iter != collection.services.end()) {
-      auto entity = entity_iter->second.entity.lock();
-      if (!entity) {
-        continue;
-      }
-      auto group_info = group_cache(entity_iter->second.callback_group);
-      if (group_info && !group_info->can_be_taken_from().load()) {
-        continue;
-      }
-      rclcpp::AnyExecutable exec;
-      exec.service = entity;
-      exec.callback_group = group_info;
-      executables.push_back(exec);
-      added++;
-    }
-  }
-
-  for (size_t ii = 0; ii < rcl_wait_set.size_of_clients; ++ii) {
-    if (nullptr == rcl_wait_set.clients[ii]) {continue;}
-    auto entity_iter = collection.clients.find(rcl_wait_set.clients[ii]);
-    if (entity_iter != collection.clients.end()) {
-      auto entity = entity_iter->second.entity.lock();
-      if (!entity) {
-        continue;
-      }
-      auto group_info = group_cache(entity_iter->second.callback_group);
-      if (group_info && !group_info->can_be_taken_from().load()) {
-        continue;
-      }
-      rclcpp::AnyExecutable exec;
-      exec.client = entity;
-      exec.callback_group = group_info;
-      executables.push_back(exec);
-      added++;
-    }
-  }
-
-  for (auto & [handle, entry] : collection.waitables) {
-    auto waitable = entry.entity.lock();
-    if (!waitable) {
-      continue;
-    }
-    if (!waitable->is_ready(&rcl_wait_set)) {
-      continue;
-    }
-    auto group_info = group_cache(entry.callback_group);
-    if (group_info && !group_info->can_be_taken_from().load()) {
-      continue;
-    }
-    rclcpp::AnyExecutable exec;
-    exec.waitable = waitable;
-    exec.callback_group = group_info;
-    exec.data = waitable->take_data();
-    executables.push_back(exec);
-    added++;
-  }
-
-  return added;
-}
-
-}  // namespace executors
-}  // namespace rclcpp

rclcpp/src/rclcpp/executors/executor_entities_collector.cpp

@@ -1,416 +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.
-
-#include <set>
-
-#include "rclcpp/executors/executor_entities_collector.hpp"
-#include "rclcpp/executors/executor_notify_waitable.hpp"
-#include "rclcpp/node_interfaces/node_base_interface.hpp"
-
-namespace rclcpp
-{
-namespace executors
-{
-
-ExecutorEntitiesCollector::ExecutorEntitiesCollector(
-  std::shared_ptr<ExecutorNotifyWaitable> notify_waitable)
-: notify_waitable_(notify_waitable)
-{
-}
-
-ExecutorEntitiesCollector::~ExecutorEntitiesCollector()
-{
-  for (auto weak_node_it = weak_nodes_.begin(); weak_node_it != weak_nodes_.end(); ) {
-    weak_node_it = remove_weak_node(weak_node_it);
-  }
-
-  for (auto weak_group_it = automatically_added_groups_.begin();
-    weak_group_it != automatically_added_groups_.end(); )
-  {
-    weak_group_it = remove_weak_callback_group(weak_group_it, automatically_added_groups_);
-  }
-
-  for (auto weak_group_it = manually_added_groups_.begin();
-    weak_group_it != manually_added_groups_.end(); )
-  {
-    weak_group_it = remove_weak_callback_group(weak_group_it, manually_added_groups_);
-  }
-
-  for (auto weak_node_ptr : pending_added_nodes_) {
-    auto node_ptr = weak_node_ptr.lock();
-    if (node_ptr) {
-      node_ptr->get_associated_with_executor_atomic().store(false);
-    }
-  }
-  pending_added_nodes_.clear();
-  pending_removed_nodes_.clear();
-
-  for (auto weak_group_ptr : pending_manually_added_groups_) {
-    auto group_ptr = weak_group_ptr.lock();
-    if (group_ptr) {
-      group_ptr->get_associated_with_executor_atomic().store(false);
-    }
-  }
-  pending_manually_added_groups_.clear();
-  pending_manually_removed_groups_.clear();
-}
-
-bool
-ExecutorEntitiesCollector::has_pending() const
-{
-  std::lock_guard<std::mutex> lock(mutex_);
-  return pending_manually_added_groups_.size() != 0 ||
-         pending_manually_removed_groups_.size() != 0 ||
-         pending_added_nodes_.size() != 0 ||
-         pending_removed_nodes_.size() != 0;
-}
-
-void
-ExecutorEntitiesCollector::add_node(rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_ptr)
-{
-  // If the node already has an executor
-  std::atomic_bool & has_executor = node_ptr->get_associated_with_executor_atomic();
-  if (has_executor.exchange(true)) {
-    throw std::runtime_error(
-            std::string("Node '") + node_ptr->get_fully_qualified_name() +
-            "' has already been added to an executor.");
-  }
-
-  std::lock_guard<std::mutex> lock(mutex_);
-  bool associated = weak_nodes_.count(node_ptr) != 0;
-  bool add_queued = pending_added_nodes_.count(node_ptr) != 0;
-  bool remove_queued = pending_removed_nodes_.count(node_ptr) != 0;
-
-  if ((associated || add_queued) && !remove_queued) {
-    throw std::runtime_error(
-            std::string("Node '") + node_ptr->get_fully_qualified_name() +
-            "' has already been added to this executor.");
-  }
-
-  this->pending_added_nodes_.insert(node_ptr);
-}
-
-void
-ExecutorEntitiesCollector::remove_node(
-  rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_ptr)
-{
-  if (!node_ptr->get_associated_with_executor_atomic().load()) {
-    throw std::runtime_error(
-            std::string("Node '") + node_ptr->get_fully_qualified_name() +
-            "' needs to be associated with an executor.");
-  }
-
-  std::lock_guard<std::mutex> lock(mutex_);
-  bool associated = weak_nodes_.count(node_ptr) != 0;
-  bool add_queued = pending_added_nodes_.count(node_ptr) != 0;
-  bool remove_queued = pending_removed_nodes_.count(node_ptr) != 0;
-
-  if (!(associated || add_queued) || remove_queued) {
-    throw std::runtime_error(
-            std::string("Node '") + node_ptr->get_fully_qualified_name() +
-            "' needs to be associated with this executor.");
-  }
-
-  this->pending_removed_nodes_.insert(node_ptr);
-}
-
-void
-ExecutorEntitiesCollector::add_callback_group(rclcpp::CallbackGroup::SharedPtr group_ptr)
-{
-  std::atomic_bool & has_executor = group_ptr->get_associated_with_executor_atomic();
-  if (has_executor.exchange(true)) {
-    throw std::runtime_error("Callback group has already been added to an executor.");
-  }
-
-  std::lock_guard<std::mutex> lock(mutex_);
-  bool associated = manually_added_groups_.count(group_ptr) != 0;
-  bool add_queued = pending_manually_added_groups_.count(group_ptr) != 0;
-  bool remove_queued = pending_manually_removed_groups_.count(group_ptr) != 0;
-
-  if ((associated || add_queued) && !remove_queued) {
-    throw std::runtime_error("Callback group has already been added to this executor.");
-  }
-
-  this->pending_manually_added_groups_.insert(group_ptr);
-}
-
-void
-ExecutorEntitiesCollector::remove_callback_group(rclcpp::CallbackGroup::SharedPtr group_ptr)
-{
-  if (!group_ptr->get_associated_with_executor_atomic().load()) {
-    throw std::runtime_error("Callback group needs to be associated with an executor.");
-  }
-  /**
-   * TODO(mjcarroll): The callback groups, being created by a node, should never outlive
-   * the node. Since we haven't historically enforced this, turning this on may cause
-   * previously-functional code to fail.
-   * Consider re-enablng this check (along with corresponding CallbackGroup::has_valid_node),
-   * when we can guarantee node/group lifetimes.
-  if (!group_ptr->has_valid_node()) {
-    throw std::runtime_error("Node must not be deleted before its callback group(s).");
-  }
-  */
-
-  auto weak_group_ptr = rclcpp::CallbackGroup::WeakPtr(group_ptr);
-  std::lock_guard<std::mutex> lock(mutex_);
-  bool associated = manually_added_groups_.count(group_ptr) != 0;
-  bool add_queued = pending_manually_added_groups_.count(group_ptr) != 0;
-  bool remove_queued = pending_manually_removed_groups_.count(group_ptr) != 0;
-
-  if (!(associated || add_queued) || remove_queued) {
-    throw std::runtime_error("Callback group needs to be associated with this executor.");
-  }
-
-  this->pending_manually_removed_groups_.insert(group_ptr);
-}
-
-std::vector<rclcpp::CallbackGroup::WeakPtr>
-ExecutorEntitiesCollector::get_all_callback_groups() const
-{
-  std::vector<rclcpp::CallbackGroup::WeakPtr> groups;
-  std::lock_guard<std::mutex> lock(mutex_);
-  for (const auto & group_ptr : manually_added_groups_) {
-    groups.push_back(group_ptr);
-  }
-  for (auto const & group_ptr : automatically_added_groups_) {
-    groups.push_back(group_ptr);
-  }
-  return groups;
-}
-
-std::vector<rclcpp::CallbackGroup::WeakPtr>
-ExecutorEntitiesCollector::get_manually_added_callback_groups() const
-{
-  std::vector<rclcpp::CallbackGroup::WeakPtr> groups;
-  std::lock_guard<std::mutex> lock(mutex_);
-  for (const auto & group_ptr : manually_added_groups_) {
-    groups.push_back(group_ptr);
-  }
-  return groups;
-}
-
-std::vector<rclcpp::CallbackGroup::WeakPtr>
-ExecutorEntitiesCollector::get_automatically_added_callback_groups() const
-{
-  std::vector<rclcpp::CallbackGroup::WeakPtr> groups;
-  std::lock_guard<std::mutex> lock(mutex_);
-  for (auto const & group_ptr : automatically_added_groups_) {
-    groups.push_back(group_ptr);
-  }
-  return groups;
-}
-
-void
-ExecutorEntitiesCollector::update_collections()
-{
-  std::lock_guard<std::mutex> lock(mutex_);
-  this->process_queues();
-  this->add_automatically_associated_callback_groups(this->weak_nodes_);
-  this->prune_invalid_nodes_and_groups();
-}
-
-ExecutorEntitiesCollector::NodeCollection::iterator
-ExecutorEntitiesCollector::remove_weak_node(NodeCollection::iterator weak_node)
-{
-  // Disassociate the guard condition from the executor notify waitable
-  auto guard_condition_it = weak_nodes_to_guard_conditions_.find(*weak_node);
-  if (guard_condition_it != weak_nodes_to_guard_conditions_.end()) {
-    this->notify_waitable_->remove_guard_condition(guard_condition_it->second);
-    weak_nodes_to_guard_conditions_.erase(guard_condition_it);
-  }
-
-  // Mark the node as disassociated (if the node is still valid)
-  auto node_ptr = weak_node->lock();
-  if (node_ptr) {
-    std::atomic_bool & has_executor = node_ptr->get_associated_with_executor_atomic();
-    has_executor.store(false);
-  }
-
-  // Remove the node from tracked nodes
-  return weak_nodes_.erase(weak_node);
-}
-
-ExecutorEntitiesCollector::CallbackGroupCollection::iterator
-ExecutorEntitiesCollector::remove_weak_callback_group(
-  CallbackGroupCollection::iterator weak_group_it,
-  CallbackGroupCollection & collection
-)
-{
-  // Disassociate the guard condition from the executor notify waitable
-  auto guard_condition_it = weak_groups_to_guard_conditions_.find(*weak_group_it);
-  if (guard_condition_it != weak_groups_to_guard_conditions_.end()) {
-    this->notify_waitable_->remove_guard_condition(guard_condition_it->second);
-    weak_groups_to_guard_conditions_.erase(guard_condition_it);
-  }
-
-  // Mark the node as disassociated (if the group is still valid)
-  auto group_ptr = weak_group_it->lock();
-  if (group_ptr) {
-    /**
-     * TODO(mjcarroll): The callback groups, being created by a node, should never outlive
-     * the node. Since we haven't historically enforced this, turning this on may cause
-     * previously-functional code to fail.
-     * Consider re-enablng this check (along with corresponding CallbackGroup::has_valid_node),
-     * when we can guarantee node/group lifetimes.
-    if (!group_ptr->has_valid_node()) {
-      throw std::runtime_error("Node must not be deleted before its callback group(s).");
-    }
-    */
-    std::atomic_bool & has_executor = group_ptr->get_associated_with_executor_atomic();
-    has_executor.store(false);
-  }
-
-  // Remove the node from tracked nodes
-  return collection.erase(weak_group_it);
-}
-
-void
-ExecutorEntitiesCollector::add_callback_group_to_collection(
-  rclcpp::CallbackGroup::SharedPtr group_ptr,
-  CallbackGroupCollection & collection)
-{
-  auto iter = collection.insert(group_ptr);
-  if (iter.second == false) {
-    throw std::runtime_error("Callback group has already been added to this executor.");
-  }
-
-  // Store node guard condition in map and add it to the notify waitable
-  auto group_guard_condition = group_ptr->get_notify_guard_condition();
-  weak_groups_to_guard_conditions_.insert({group_ptr, group_guard_condition});
-  this->notify_waitable_->add_guard_condition(group_guard_condition);
-}
-
-void
-ExecutorEntitiesCollector::process_queues()
-{
-  for (auto weak_node_ptr : pending_added_nodes_) {
-    auto node_ptr = weak_node_ptr.lock();
-    if (!node_ptr) {
-      continue;
-    }
-    weak_nodes_.insert(weak_node_ptr);
-    this->add_automatically_associated_callback_groups({weak_node_ptr});
-
-    // Store node guard condition in map and add it to the notify waitable
-    auto node_guard_condition = node_ptr->get_shared_notify_guard_condition();
-    weak_nodes_to_guard_conditions_.insert({weak_node_ptr, node_guard_condition});
-    this->notify_waitable_->add_guard_condition(node_guard_condition);
-  }
-  pending_added_nodes_.clear();
-
-  for (auto weak_node_ptr : pending_removed_nodes_) {
-    auto node_it = weak_nodes_.find(weak_node_ptr);
-    if (node_it != weak_nodes_.end()) {
-      remove_weak_node(node_it);
-    } else {
-      throw std::runtime_error("Node needs to be associated with this executor.");
-    }
-
-    auto node_ptr = weak_node_ptr.lock();
-    if (node_ptr) {
-      for (auto group_it = automatically_added_groups_.begin();
-        group_it != automatically_added_groups_.end(); )
-      {
-        auto group_ptr = group_it->lock();
-        if (node_ptr->callback_group_in_node(group_ptr)) {
-          group_it = remove_weak_callback_group(group_it, automatically_added_groups_);
-        } else {
-          ++group_it;
-        }
-      }
-    }
-  }
-  pending_removed_nodes_.clear();
-
-  for (auto weak_group_ptr : pending_manually_added_groups_) {
-    auto group_ptr = weak_group_ptr.lock();
-    if (group_ptr) {
-      this->add_callback_group_to_collection(group_ptr, manually_added_groups_);
-    }
-  }
-  pending_manually_added_groups_.clear();
-
-  for (auto weak_group_ptr : pending_manually_removed_groups_) {
-    auto group_ptr = weak_group_ptr.lock();
-    if (group_ptr) {
-      auto group_it = manually_added_groups_.find(group_ptr);
-      if (group_it != manually_added_groups_.end()) {
-        remove_weak_callback_group(group_it, manually_added_groups_);
-      } else {
-        throw std::runtime_error(
-                "Attempting to remove a callback group not added to this executor.");
-      }
-    }
-  }
-  pending_manually_removed_groups_.clear();
-}
-
-void
-ExecutorEntitiesCollector::add_automatically_associated_callback_groups(
-  const NodeCollection & nodes_to_check)
-{
-  for (auto & weak_node : nodes_to_check) {
-    auto node = weak_node.lock();
-    if (node) {
-      node->for_each_callback_group(
-        [this, node](rclcpp::CallbackGroup::SharedPtr group_ptr)
-        {
-          if (!group_ptr->get_associated_with_executor_atomic().load() &&
-          group_ptr->automatically_add_to_executor_with_node())
-          {
-            std::atomic_bool & has_executor = group_ptr->get_associated_with_executor_atomic();
-            if (has_executor.exchange(true)) {
-              throw std::runtime_error("Callback group has already been added to an executor.");
-            }
-            this->add_callback_group_to_collection(group_ptr, this->automatically_added_groups_);
-          }
-        });
-    }
-  }
-}
-
-void
-ExecutorEntitiesCollector::prune_invalid_nodes_and_groups()
-{
-  for (auto node_it = weak_nodes_.begin();
-    node_it != weak_nodes_.end(); )
-  {
-    if (node_it->expired()) {
-      node_it = remove_weak_node(node_it);
-    } else {
-      node_it++;
-    }
-  }
-  for (auto group_it = automatically_added_groups_.begin();
-    group_it != automatically_added_groups_.end(); )
-  {
-    if (group_it->expired()) {
-      group_it = remove_weak_callback_group(group_it, automatically_added_groups_);
-    } else {
-      group_it++;
-    }
-  }
-  for (auto group_it = manually_added_groups_.begin();
-    group_it != manually_added_groups_.end(); )
-  {
-    if (group_it->expired()) {
-      group_it = remove_weak_callback_group(group_it, manually_added_groups_);
-    } else {
-      group_it++;
-    }
-  }
-}
-
-}  // namespace executors
-}  // namespace rclcpp

rclcpp/src/rclcpp/executors/executor_notify_waitable.cpp

@@ -1,183 +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.
-
-#include <iostream>
-
-#include "rclcpp/exceptions.hpp"
-#include "rclcpp/executors/executor_notify_waitable.hpp"
-
-namespace rclcpp
-{
-namespace executors
-{
-
-ExecutorNotifyWaitable::ExecutorNotifyWaitable(std::function<void(void)> on_execute_callback)
-: execute_callback_(on_execute_callback)
-{
-}
-
-ExecutorNotifyWaitable::ExecutorNotifyWaitable(const ExecutorNotifyWaitable & other)
-: ExecutorNotifyWaitable(other.execute_callback_)
-{
-  this->notify_guard_conditions_ = other.notify_guard_conditions_;
-}
-
-ExecutorNotifyWaitable & ExecutorNotifyWaitable::operator=(const ExecutorNotifyWaitable & other)
-{
-  if (this != &other) {
-    this->execute_callback_ = other.execute_callback_;
-    this->notify_guard_conditions_ = other.notify_guard_conditions_;
-  }
-  return *this;
-}
-
-void
-ExecutorNotifyWaitable::add_to_wait_set(rcl_wait_set_t * wait_set)
-{
-  std::lock_guard<std::mutex> lock(guard_condition_mutex_);
-
-  for (auto weak_guard_condition : this->notify_guard_conditions_) {
-    auto guard_condition = weak_guard_condition.lock();
-    if (guard_condition) {
-      auto rcl_guard_condition = &guard_condition->get_rcl_guard_condition();
-
-      rcl_ret_t ret = rcl_wait_set_add_guard_condition(
-        wait_set,
-        rcl_guard_condition, NULL);
-
-      if (RCL_RET_OK != ret) {
-        rclcpp::exceptions::throw_from_rcl_error(
-          ret, "failed to add guard condition to wait set");
-      }
-    }
-  }
-}
-
-bool
-ExecutorNotifyWaitable::is_ready(rcl_wait_set_t * wait_set)
-{
-  std::lock_guard<std::mutex> lock(guard_condition_mutex_);
-
-  bool any_ready = false;
-  for (size_t ii = 0; ii < wait_set->size_of_guard_conditions; ++ii) {
-    auto rcl_guard_condition = wait_set->guard_conditions[ii];
-
-    if (nullptr == rcl_guard_condition) {
-      continue;
-    }
-    for (auto weak_guard_condition : this->notify_guard_conditions_) {
-      auto guard_condition = weak_guard_condition.lock();
-      if (guard_condition && &guard_condition->get_rcl_guard_condition() == rcl_guard_condition) {
-        any_ready = true;
-      }
-    }
-  }
-  return any_ready;
-}
-
-void
-ExecutorNotifyWaitable::execute(std::shared_ptr<void> & data)
-{
-  (void) data;
-  this->execute_callback_();
-}
-
-std::shared_ptr<void>
-ExecutorNotifyWaitable::take_data()
-{
-  return nullptr;
-}
-
-std::shared_ptr<void>
-ExecutorNotifyWaitable::take_data_by_entity_id(size_t id)
-{
-  (void) id;
-  return nullptr;
-}
-
-void
-ExecutorNotifyWaitable::set_on_ready_callback(std::function<void(size_t, int)> callback)
-{
-  // The second argument of the callback could be used to identify which guard condition
-  // triggered the event.
-  // We could indicate which of the guard conditions was triggered, but the executor
-  // is already going to check that.
-  auto gc_callback = [callback](size_t count) {
-      callback(count, 0);
-    };
-
-  std::lock_guard<std::mutex> lock(guard_condition_mutex_);
-
-  on_ready_callback_ = gc_callback;
-  for (auto weak_gc : notify_guard_conditions_) {
-    auto gc = weak_gc.lock();
-    if (!gc) {
-      continue;
-    }
-    gc->set_on_trigger_callback(on_ready_callback_);
-  }
-}
-
-RCLCPP_PUBLIC
-void
-ExecutorNotifyWaitable::clear_on_ready_callback()
-{
-  std::lock_guard<std::mutex> lock(guard_condition_mutex_);
-
-  on_ready_callback_ = nullptr;
-  for (auto weak_gc : notify_guard_conditions_) {
-    auto gc = weak_gc.lock();
-    if (!gc) {
-      continue;
-    }
-    gc->set_on_trigger_callback(nullptr);
-  }
-}
-
-void
-ExecutorNotifyWaitable::add_guard_condition(rclcpp::GuardCondition::WeakPtr weak_guard_condition)
-{
-  std::lock_guard<std::mutex> lock(guard_condition_mutex_);
-  auto guard_condition = weak_guard_condition.lock();
-  if (guard_condition && notify_guard_conditions_.count(weak_guard_condition) == 0) {
-    notify_guard_conditions_.insert(weak_guard_condition);
-    if (on_ready_callback_) {
-      guard_condition->set_on_trigger_callback(on_ready_callback_);
-    }
-  }
-}
-
-void
-ExecutorNotifyWaitable::remove_guard_condition(rclcpp::GuardCondition::WeakPtr weak_guard_condition)
-{
-  std::lock_guard<std::mutex> lock(guard_condition_mutex_);
-  if (notify_guard_conditions_.count(weak_guard_condition) != 0) {
-    notify_guard_conditions_.erase(weak_guard_condition);
-    auto guard_condition = weak_guard_condition.lock();
-    // If this notify waitable doesn't have an on_ready_callback, then there's nothing to unset
-    if (guard_condition && on_ready_callback_) {
-      guard_condition->set_on_trigger_callback(nullptr);
-    }
-  }
-}
-
-size_t
-ExecutorNotifyWaitable::get_number_of_ready_guard_conditions()
-{
-  std::lock_guard<std::mutex> lock(guard_condition_mutex_);
-  return notify_guard_conditions_.size();
-}
-
-}  // namespace executors
-}  // namespace rclcpp

rclcpp/src/rclcpp/executors/static_executor_entities_collector.cpp

@@ -109,8 +109,8 @@ StaticExecutorEntitiesCollector::execute(std::shared_ptr<void> & data)
   std::lock_guard<std::mutex> guard{new_nodes_mutex_};
   for (const auto & weak_node : new_nodes_) {
     if (auto node_ptr = weak_node.lock()) {
-      weak_nodes_to_guard_conditions_[node_ptr] =
-        node_ptr->get_shared_notify_guard_condition().get();
+      const auto & gc = node_ptr->get_notify_guard_condition();
+      weak_nodes_to_guard_conditions_[node_ptr] = &gc;
     }
   }
   new_nodes_.clear();

rclcpp/src/rclcpp/executors/static_single_threaded_executor.cpp

@@ -139,7 +139,7 @@ StaticSingleThreadedExecutor::add_callback_group(
   bool is_new_node = entities_collector_->add_callback_group(group_ptr, node_ptr);
   if (is_new_node && notify) {
     // Interrupt waiting to handle new node
-    interrupt_guard_condition_->trigger();
+    interrupt_guard_condition_.trigger();
   }
 }
 
@@ -150,7 +150,7 @@ StaticSingleThreadedExecutor::add_node(
   bool is_new_node = entities_collector_->add_node(node_ptr);
   if (is_new_node && notify) {
     // Interrupt waiting to handle new node
-    interrupt_guard_condition_->trigger();
+    interrupt_guard_condition_.trigger();
   }
 }
 
@@ -167,7 +167,7 @@ StaticSingleThreadedExecutor::remove_callback_group(
   bool node_removed = entities_collector_->remove_callback_group(group_ptr);
   // If the node was matched and removed, interrupt waiting
   if (node_removed && notify) {
-    interrupt_guard_condition_->trigger();
+    interrupt_guard_condition_.trigger();
   }
 }
 
@@ -181,7 +181,7 @@ StaticSingleThreadedExecutor::remove_node(
   }
   // If the node was matched and removed, interrupt waiting
   if (notify) {
-    interrupt_guard_condition_->trigger();
+    interrupt_guard_condition_.trigger();
   }
 }
 

rclcpp/src/rclcpp/experimental/executors/events_executor/events_executor.cpp

@@ -1,488 +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.
-
-#include "rclcpp/experimental/executors/events_executor/events_executor.hpp"
-
-#include <memory>
-#include <utility>
-#include <vector>
-
-#include "rcpputils/scope_exit.hpp"
-
-using namespace std::chrono_literals;
-
-using rclcpp::experimental::executors::EventsExecutor;
-
-EventsExecutor::EventsExecutor(
-  rclcpp::experimental::executors::EventsQueue::UniquePtr events_queue,
-  bool execute_timers_separate_thread,
-  const rclcpp::ExecutorOptions & options)
-: rclcpp::Executor(options)
-{
-  // Get ownership of the queue used to store events.
-  if (!events_queue) {
-    throw std::invalid_argument("events_queue can't be a null pointer");
-  }
-  events_queue_ = std::move(events_queue);
-
-  // Create timers manager
-  // The timers manager can be used either to only track timers (in this case an expired
-  // timer will generate an executor event and then it will be executed by the executor thread)
-  // or it can also take care of executing expired timers in its dedicated thread.
-  std::function<void(const rclcpp::TimerBase *)> timer_on_ready_cb = nullptr;
-  if (!execute_timers_separate_thread) {
-    timer_on_ready_cb = [this](const rclcpp::TimerBase * timer_id) {
-        ExecutorEvent event = {timer_id, -1, ExecutorEventType::TIMER_EVENT, 1};
-        this->events_queue_->enqueue(event);
-      };
-  }
-  timers_manager_ =
-    std::make_shared<rclcpp::experimental::TimersManager>(context_, timer_on_ready_cb);
-
-  notify_waitable_ = std::make_shared<rclcpp::executors::ExecutorNotifyWaitable>(
-    [this]() {
-      // This callback is invoked when:
-      // - the interrupt or shutdown guard condition is triggered:
-      //    ---> we need to wake up the executor so that it can terminate
-      // - a node or callback group guard condition is triggered:
-      //    ---> the entities collection is changed, we need to update callbacks
-      notify_waitable_event_pushed_ = false;
-      this->refresh_current_collection_from_callback_groups();
-    });
-
-  notify_waitable_->add_guard_condition(interrupt_guard_condition_);
-  notify_waitable_->add_guard_condition(shutdown_guard_condition_);
-
-  notify_waitable_->set_on_ready_callback(
-    this->create_waitable_callback(notify_waitable_.get()));
-
-  auto notify_waitable_entity_id = notify_waitable_.get();
-  notify_waitable_->set_on_ready_callback(
-    [this, notify_waitable_entity_id](size_t num_events, int waitable_data) {
-      // The notify waitable has a special callback.
-      // We don't care about how many events as when we wake up the executor we are going to
-      // process everything regardless.
-      // For the same reason, if an event of this type has already been pushed but it has not been
-      // processed yet, we avoid pushing additional events.
-      (void)num_events;
-      if (notify_waitable_event_pushed_.exchange(true)) {
-        return;
-      }
-
-      ExecutorEvent event =
-      {notify_waitable_entity_id, waitable_data, ExecutorEventType::WAITABLE_EVENT, 1};
-      this->events_queue_->enqueue(event);
-    });
-
-  this->entities_collector_ =
-    std::make_shared<rclcpp::executors::ExecutorEntitiesCollector>(notify_waitable_);
-
-  this->current_entities_collection_ =
-    std::make_shared<rclcpp::executors::ExecutorEntitiesCollection>();
-}
-
-EventsExecutor::~EventsExecutor()
-{
-  spinning.store(false);
-  notify_waitable_->clear_on_ready_callback();
-  this->refresh_current_collection({});
-}
-
-void
-EventsExecutor::spin()
-{
-  if (spinning.exchange(true)) {
-    throw std::runtime_error("spin() called while already spinning");
-  }
-  RCPPUTILS_SCOPE_EXIT(this->spinning.store(false); );
-
-  timers_manager_->start();
-  RCPPUTILS_SCOPE_EXIT(timers_manager_->stop(); );
-
-  while (rclcpp::ok(context_) && spinning.load()) {
-    // Wait until we get an event
-    ExecutorEvent event;
-    bool has_event = events_queue_->dequeue(event);
-    if (has_event) {
-      this->execute_event(event);
-    }
-  }
-}
-
-void
-EventsExecutor::spin_some(std::chrono::nanoseconds max_duration)
-{
-  return this->spin_some_impl(max_duration, false);
-}
-
-void
-EventsExecutor::spin_all(std::chrono::nanoseconds max_duration)
-{
-  if (max_duration <= 0ns) {
-    throw std::invalid_argument("max_duration must be positive");
-  }
-  return this->spin_some_impl(max_duration, true);
-}
-
-void
-EventsExecutor::spin_some_impl(std::chrono::nanoseconds max_duration, bool exhaustive)
-{
-  if (spinning.exchange(true)) {
-    throw std::runtime_error("spin_some() called while already spinning");
-  }
-
-  RCPPUTILS_SCOPE_EXIT(this->spinning.store(false); );
-
-  auto start = std::chrono::steady_clock::now();
-
-  auto max_duration_not_elapsed = [max_duration, start]() {
-      if (std::chrono::nanoseconds(0) == max_duration) {
-        // told to spin forever if need be
-        return true;
-      } else if (std::chrono::steady_clock::now() - start < max_duration) {
-        // told to spin only for some maximum amount of time
-        return true;
-      }
-      // spun too long
-      return false;
-    };
-
-  // Get the number of events and timers ready at start
-  const size_t ready_events_at_start = events_queue_->size();
-  size_t executed_events = 0;
-  const size_t ready_timers_at_start = timers_manager_->get_number_ready_timers();
-  size_t executed_timers = 0;
-
-  while (rclcpp::ok(context_) && spinning.load() && max_duration_not_elapsed()) {
-    // Execute first ready event from queue if exists
-    if (exhaustive || (executed_events < ready_events_at_start)) {
-      bool has_event = !events_queue_->empty();
-
-      if (has_event) {
-        ExecutorEvent event;
-        bool ret = events_queue_->dequeue(event, std::chrono::nanoseconds(0));
-        if (ret) {
-          this->execute_event(event);
-          executed_events++;
-          continue;
-        }
-      }
-    }
-
-    // Execute first timer if it is ready
-    if (exhaustive || (executed_timers < ready_timers_at_start)) {
-      bool timer_executed = timers_manager_->execute_head_timer();
-      if (timer_executed) {
-        executed_timers++;
-        continue;
-      }
-    }
-
-    // If there's no more work available, exit
-    break;
-  }
-}
-
-void
-EventsExecutor::spin_once_impl(std::chrono::nanoseconds timeout)
-{
-  // In this context a negative input timeout means no timeout
-  if (timeout < 0ns) {
-    timeout = std::chrono::nanoseconds::max();
-  }
-
-  // Select the smallest between input timeout and timer timeout
-  bool is_timer_timeout = false;
-  auto next_timer_timeout = timers_manager_->get_head_timeout();
-  if (next_timer_timeout < timeout) {
-    timeout = next_timer_timeout;
-    is_timer_timeout = true;
-  }
-
-  ExecutorEvent event;
-  bool has_event = events_queue_->dequeue(event, timeout);
-
-  // If we wake up from the wait with an event, it means that it
-  // arrived before any of the timers expired.
-  if (has_event) {
-    this->execute_event(event);
-  } else if (is_timer_timeout) {
-    timers_manager_->execute_head_timer();
-  }
-}
-
-void
-EventsExecutor::add_node(
-  rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_ptr, bool notify)
-{
-  // This field is unused because we don't have to wake up the executor when a node is added.
-  (void) notify;
-
-  // Add node to entities collector
-  this->entities_collector_->add_node(node_ptr);
-
-  this->refresh_current_collection_from_callback_groups();
-}
-
-void
-EventsExecutor::add_node(std::shared_ptr<rclcpp::Node> node_ptr, bool notify)
-{
-  this->add_node(node_ptr->get_node_base_interface(), notify);
-}
-
-void
-EventsExecutor::remove_node(
-  rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_ptr, bool notify)
-{
-  // This field is unused because we don't have to wake up the executor when a node is removed.
-  (void)notify;
-
-  // Remove node from entities collector.
-  // This will result in un-setting all the event callbacks from its entities.
-  // After this function returns, this executor will not receive any more events associated
-  // to these entities.
-  this->entities_collector_->remove_node(node_ptr);
-
-  this->refresh_current_collection_from_callback_groups();
-}
-
-void
-EventsExecutor::remove_node(std::shared_ptr<rclcpp::Node> node_ptr, bool notify)
-{
-  this->remove_node(node_ptr->get_node_base_interface(), notify);
-}
-
-void
-EventsExecutor::execute_event(const ExecutorEvent & event)
-{
-  switch (event.type) {
-    case ExecutorEventType::CLIENT_EVENT:
-      {
-        auto client = this->retrieve_entity(
-          static_cast<const rcl_client_t *>(event.entity_key),
-          current_entities_collection_->clients);
-
-        if (client) {
-          for (size_t i = 0; i < event.num_events; i++) {
-            execute_client(client);
-          }
-        }
-
-        break;
-      }
-    case ExecutorEventType::SUBSCRIPTION_EVENT:
-      {
-        auto subscription = this->retrieve_entity(
-          static_cast<const rcl_subscription_t *>(event.entity_key),
-          current_entities_collection_->subscriptions);
-        if (subscription) {
-          for (size_t i = 0; i < event.num_events; i++) {
-            execute_subscription(subscription);
-          }
-        }
-        break;
-      }
-    case ExecutorEventType::SERVICE_EVENT:
-      {
-        auto service = this->retrieve_entity(
-          static_cast<const rcl_service_t *>(event.entity_key),
-          current_entities_collection_->services);
-
-        if (service) {
-          for (size_t i = 0; i < event.num_events; i++) {
-            execute_service(service);
-          }
-        }
-
-        break;
-      }
-    case ExecutorEventType::TIMER_EVENT:
-      {
-        timers_manager_->execute_ready_timer(
-          static_cast<const rclcpp::TimerBase *>(event.entity_key));
-        break;
-      }
-    case ExecutorEventType::WAITABLE_EVENT:
-      {
-        auto waitable = this->retrieve_entity(
-          static_cast<const rclcpp::Waitable *>(event.entity_key),
-          current_entities_collection_->waitables);
-        if (waitable) {
-          for (size_t i = 0; i < event.num_events; i++) {
-            auto data = waitable->take_data_by_entity_id(event.waitable_data);
-            waitable->execute(data);
-          }
-        }
-        break;
-      }
-  }
-}
-
-void
-EventsExecutor::add_callback_group(
-  rclcpp::CallbackGroup::SharedPtr group_ptr,
-  rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_ptr,
-  bool notify)
-{
-  // This field is unused because we don't have to wake up
-  // the executor when a callback group is added.
-  (void)notify;
-  (void)node_ptr;
-
-  this->entities_collector_->add_callback_group(group_ptr);
-
-  this->refresh_current_collection_from_callback_groups();
-}
-
-void
-EventsExecutor::remove_callback_group(
-  rclcpp::CallbackGroup::SharedPtr group_ptr, bool notify)
-{
-  // This field is unused because we don't have to wake up
-  // the executor when a callback group is removed.
-  (void)notify;
-
-  this->entities_collector_->remove_callback_group(group_ptr);
-
-  this->refresh_current_collection_from_callback_groups();
-}
-
-std::vector<rclcpp::CallbackGroup::WeakPtr>
-EventsExecutor::get_all_callback_groups()
-{
-  this->entities_collector_->update_collections();
-  return this->entities_collector_->get_all_callback_groups();
-}
-
-std::vector<rclcpp::CallbackGroup::WeakPtr>
-EventsExecutor::get_manually_added_callback_groups()
-{
-  this->entities_collector_->update_collections();
-  return this->entities_collector_->get_manually_added_callback_groups();
-}
-
-std::vector<rclcpp::CallbackGroup::WeakPtr>
-EventsExecutor::get_automatically_added_callback_groups_from_nodes()
-{
-  this->entities_collector_->update_collections();
-  return this->entities_collector_->get_automatically_added_callback_groups();
-}
-
-void
-EventsExecutor::refresh_current_collection_from_callback_groups()
-{
-  this->entities_collector_->update_collections();
-  auto callback_groups = this->entities_collector_->get_all_callback_groups();
-  rclcpp::executors::ExecutorEntitiesCollection new_collection;
-  rclcpp::executors::build_entities_collection(callback_groups, new_collection);
-
-  // TODO(alsora): this may be implemented in a better way.
-  // We need the notify waitable to be included in the executor "current_collection"
-  // because we need to be able to retrieve events for it.
-  // We could explicitly check for the notify waitable ID when we receive a waitable event
-  // but I think that it's better if the waitable was in the collection and it could be
-  // retrieved in the "standard" way.
-  // To do it, we need to add the notify waitable as an entry in both the new and
-  // current collections such that it's neither added or removed.
-  rclcpp::CallbackGroup::WeakPtr weak_group_ptr;
-  new_collection.waitables.insert(
-  {
-    this->notify_waitable_.get(),
-    {this->notify_waitable_, weak_group_ptr}
-  });
-
-  this->current_entities_collection_->waitables.insert(
-  {
-    this->notify_waitable_.get(),
-    {this->notify_waitable_, weak_group_ptr}
-  });
-
-  this->refresh_current_collection(new_collection);
-}
-
-void
-EventsExecutor::refresh_current_collection(
-  const rclcpp::executors::ExecutorEntitiesCollection & new_collection)
-{
-  current_entities_collection_->timers.update(
-    new_collection.timers,
-    [this](rclcpp::TimerBase::SharedPtr timer) {timers_manager_->add_timer(timer);},
-    [this](rclcpp::TimerBase::SharedPtr timer) {timers_manager_->remove_timer(timer);});
-
-  current_entities_collection_->subscriptions.update(
-    new_collection.subscriptions,
-    [this](auto subscription) {
-      subscription->set_on_new_message_callback(
-        this->create_entity_callback(
-          subscription->get_subscription_handle().get(), ExecutorEventType::SUBSCRIPTION_EVENT));
-    },
-    [](auto subscription) {subscription->clear_on_new_message_callback();});
-
-  current_entities_collection_->clients.update(
-    new_collection.clients,
-    [this](auto client) {
-      client->set_on_new_response_callback(
-        this->create_entity_callback(
-          client->get_client_handle().get(), ExecutorEventType::CLIENT_EVENT));
-    },
-    [](auto client) {client->clear_on_new_response_callback();});
-
-  current_entities_collection_->services.update(
-    new_collection.services,
-    [this](auto service) {
-      service->set_on_new_request_callback(
-        this->create_entity_callback(
-          service->get_service_handle().get(), ExecutorEventType::SERVICE_EVENT));
-    },
-    [](auto service) {service->clear_on_new_request_callback();});
-
-  // DO WE NEED THIS? WE ARE NOT DOING ANYTHING WITH GUARD CONDITIONS
-  /*
-  current_entities_collection_->guard_conditions.update(new_collection.guard_conditions,
-    [](auto guard_condition) {(void)guard_condition;},
-    [](auto guard_condition) {guard_condition->set_on_trigger_callback(nullptr);});
-  */
-
-  current_entities_collection_->waitables.update(
-    new_collection.waitables,
-    [this](auto waitable) {
-      waitable->set_on_ready_callback(
-        this->create_waitable_callback(waitable.get()));
-    },
-    [](auto waitable) {waitable->clear_on_ready_callback();});
-}
-
-std::function<void(size_t)>
-EventsExecutor::create_entity_callback(
-  void * entity_key, ExecutorEventType event_type)
-{
-  std::function<void(size_t)>
-  callback = [this, entity_key, event_type](size_t num_events) {
-      ExecutorEvent event = {entity_key, -1, event_type, num_events};
-      this->events_queue_->enqueue(event);
-    };
-  return callback;
-}
-
-std::function<void(size_t, int)>
-EventsExecutor::create_waitable_callback(const rclcpp::Waitable * entity_key)
-{
-  std::function<void(size_t, int)>
-  callback = [this, entity_key](size_t num_events, int waitable_data) {
-      ExecutorEvent event =
-      {entity_key, waitable_data, ExecutorEventType::WAITABLE_EVENT, num_events};
-      this->events_queue_->enqueue(event);
-    };
-  return callback;
-}

rclcpp/src/rclcpp/experimental/timers_manager.cpp

@@ -1,299 +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.
-
-#include "rclcpp/experimental/timers_manager.hpp"
-
-#include <inttypes.h>
-
-#include <ctime>
-#include <iostream>
-#include <memory>
-#include <stdexcept>
-
-#include "rcpputils/scope_exit.hpp"
-
-using rclcpp::experimental::TimersManager;
-
-TimersManager::TimersManager(
-  std::shared_ptr<rclcpp::Context> context,
-  std::function<void(const rclcpp::TimerBase *)> on_ready_callback)
-{
-  context_ = context;
-  on_ready_callback_ = on_ready_callback;
-}
-
-TimersManager::~TimersManager()
-{
-  // Remove all timers
-  this->clear();
-
-  // Make sure timers thread is stopped before destroying this object
-  this->stop();
-}
-
-void TimersManager::add_timer(rclcpp::TimerBase::SharedPtr timer)
-{
-  if (!timer) {
-    throw std::invalid_argument("TimersManager::add_timer() trying to add nullptr timer");
-  }
-
-  bool added = false;
-  {
-    std::unique_lock<std::mutex> lock(timers_mutex_);
-    added = weak_timers_heap_.add_timer(timer);
-    timers_updated_ = timers_updated_ || added;
-  }
-
-  timer->set_on_reset_callback(
-    [this](size_t arg) {
-      {
-        (void)arg;
-        std::unique_lock<std::mutex> lock(timers_mutex_);
-        timers_updated_ = true;
-      }
-      timers_cv_.notify_one();
-    });
-
-  if (added) {
-    // Notify that a timer has been added
-    timers_cv_.notify_one();
-  }
-}
-
-void TimersManager::start()
-{
-  // Make sure that the thread is not already running
-  if (running_.exchange(true)) {
-    throw std::runtime_error("TimersManager::start() can't start timers thread as already running");
-  }
-
-  timers_thread_ = std::thread(&TimersManager::run_timers, this);
-}
-
-void TimersManager::stop()
-{
-  // Lock stop() function to prevent race condition in destructor
-  std::unique_lock<std::mutex> lock(stop_mutex_);
-  running_ = false;
-
-  // Notify the timers manager thread to wake up
-  {
-    std::unique_lock<std::mutex> lock(timers_mutex_);
-    timers_updated_ = true;
-  }
-  timers_cv_.notify_one();
-
-  // Join timers thread if it's running
-  if (timers_thread_.joinable()) {
-    timers_thread_.join();
-  }
-}
-
-std::chrono::nanoseconds TimersManager::get_head_timeout()
-{
-  // Do not allow to interfere with the thread running
-  if (running_) {
-    throw std::runtime_error(
-            "get_head_timeout() can't be used while timers thread is running");
-  }
-
-  std::unique_lock<std::mutex> lock(timers_mutex_);
-  return this->get_head_timeout_unsafe();
-}
-
-size_t TimersManager::get_number_ready_timers()
-{
-  // Do not allow to interfere with the thread running
-  if (running_) {
-    throw std::runtime_error(
-            "get_number_ready_timers() can't be used while timers thread is running");
-  }
-
-  std::unique_lock<std::mutex> lock(timers_mutex_);
-  TimersHeap locked_heap = weak_timers_heap_.validate_and_lock();
-  return locked_heap.get_number_ready_timers();
-}
-
-bool TimersManager::execute_head_timer()
-{
-  // Do not allow to interfere with the thread running
-  if (running_) {
-    throw std::runtime_error(
-            "execute_head_timer() can't be used while timers thread is running");
-  }
-
-  std::unique_lock<std::mutex> lock(timers_mutex_);
-
-  TimersHeap timers_heap = weak_timers_heap_.validate_and_lock();
-
-  // Nothing to do if we don't have any timer
-  if (timers_heap.empty()) {
-    return false;
-  }
-
-  TimerPtr head_timer = timers_heap.front();
-
-  const bool timer_ready = head_timer->is_ready();
-  if (timer_ready) {
-    // NOTE: here we always execute the timer, regardless of whether the
-    // on_ready_callback is set or not.
-    head_timer->call();
-    head_timer->execute_callback();
-    timers_heap.heapify_root();
-    weak_timers_heap_.store(timers_heap);
-  }
-
-  return timer_ready;
-}
-
-void TimersManager::execute_ready_timer(const rclcpp::TimerBase * timer_id)
-{
-  TimerPtr ready_timer;
-  {
-    std::unique_lock<std::mutex> lock(timers_mutex_);
-    ready_timer = weak_timers_heap_.get_timer(timer_id);
-  }
-  if (ready_timer) {
-    ready_timer->execute_callback();
-  }
-}
-
-std::chrono::nanoseconds TimersManager::get_head_timeout_unsafe()
-{
-  // If we don't have any weak pointer, then we just return maximum timeout
-  if (weak_timers_heap_.empty()) {
-    return std::chrono::nanoseconds::max();
-  }
-  // Weak heap is not empty, so try to lock the first element.
-  // If it is still a valid pointer, it is guaranteed to be the correct head
-  TimerPtr head_timer = weak_timers_heap_.front().lock();
-
-  if (!head_timer) {
-    // The first element has expired, we can't make other assumptions on the heap
-    // and we need to entirely validate it.
-    TimersHeap locked_heap = weak_timers_heap_.validate_and_lock();
-    // NOTE: the following operations will not modify any element in the heap, so we
-    // don't have to call `weak_timers_heap_.store(locked_heap)` at the end.
-
-    if (locked_heap.empty()) {
-      return std::chrono::nanoseconds::max();
-    }
-    head_timer = locked_heap.front();
-  }
-
-  return head_timer->time_until_trigger();
-}
-
-void TimersManager::execute_ready_timers_unsafe()
-{
-  // We start by locking the timers
-  TimersHeap locked_heap = weak_timers_heap_.validate_and_lock();
-
-  // Nothing to do if we don't have any timer
-  if (locked_heap.empty()) {
-    return;
-  }
-
-  // Keep executing timers until they are ready and they were already ready when we started.
-  // The two checks prevent this function from blocking indefinitely if the
-  // time required for executing the timers is longer than their period.
-
-  TimerPtr head_timer = locked_heap.front();
-  const size_t number_ready_timers = locked_heap.get_number_ready_timers();
-  size_t executed_timers = 0;
-  while (executed_timers < number_ready_timers && head_timer->is_ready()) {
-    head_timer->call();
-    if (on_ready_callback_) {
-      on_ready_callback_(head_timer.get());
-    } else {
-      head_timer->execute_callback();
-    }
-
-    executed_timers++;
-    // Executing a timer will result in updating its time_until_trigger, so re-heapify
-    locked_heap.heapify_root();
-    // Get new head timer
-    head_timer = locked_heap.front();
-  }
-
-  // After having performed work on the locked heap we reflect the changes to weak one.
-  // Timers will be already sorted the next time we need them if none went out of scope.
-  weak_timers_heap_.store(locked_heap);
-}
-
-void TimersManager::run_timers()
-{
-  // Make sure the running flag is set to false when we exit from this function
-  // to allow restarting the timers thread.
-  RCPPUTILS_SCOPE_EXIT(this->running_.store(false); );
-
-  while (rclcpp::ok(context_) && running_) {
-    // Lock mutex
-    std::unique_lock<std::mutex> lock(timers_mutex_);
-
-    std::chrono::nanoseconds time_to_sleep = get_head_timeout_unsafe();
-
-    // No need to wait if a timer is already available
-    if (time_to_sleep > std::chrono::nanoseconds::zero()) {
-      if (time_to_sleep != std::chrono::nanoseconds::max()) {
-        // Wait until timeout or notification that timers have been updated
-        timers_cv_.wait_for(lock, time_to_sleep, [this]() {return timers_updated_;});
-      } else {
-        // Wait until notification that timers have been updated
-        timers_cv_.wait(lock, [this]() {return timers_updated_;});
-      }
-    }
-
-    // Reset timers updated flag
-    timers_updated_ = false;
-
-    // Execute timers
-    this->execute_ready_timers_unsafe();
-  }
-}
-
-void TimersManager::clear()
-{
-  {
-    // Lock mutex and then clear all data structures
-    std::unique_lock<std::mutex> lock(timers_mutex_);
-
-    TimersHeap locked_heap = weak_timers_heap_.validate_and_lock();
-    locked_heap.clear_timers_on_reset_callbacks();
-
-    weak_timers_heap_.clear();
-
-    timers_updated_ = true;
-  }
-
-  // Notify timers thread such that it can re-compute its timeout
-  timers_cv_.notify_one();
-}
-
-void TimersManager::remove_timer(TimerPtr timer)
-{
-  bool removed = false;
-  {
-    std::unique_lock<std::mutex> lock(timers_mutex_);
-    removed = weak_timers_heap_.remove_timer(timer);
-
-    timers_updated_ = timers_updated_ || removed;
-  }
-
-  if (removed) {
-    // Notify timers thread such that it can re-compute its timeout
-    timers_cv_.notify_one();
-    timer->clear_on_reset_callback();
-  }
-}

rclcpp/src/rclcpp/generic_subscription.cpp

@@ -25,20 +25,17 @@
 namespace rclcpp
 {
 
-std::shared_ptr<void>
-GenericSubscription::create_message()
+std::shared_ptr<void> GenericSubscription::create_message()
 {
   return create_serialized_message();
 }
 
-std::shared_ptr<rclcpp::SerializedMessage>
-GenericSubscription::create_serialized_message()
+std::shared_ptr<rclcpp::SerializedMessage> GenericSubscription::create_serialized_message()
 {
   return std::make_shared<rclcpp::SerializedMessage>(0);
 }
 
-void
-GenericSubscription::handle_message(
+void GenericSubscription::handle_message(
   std::shared_ptr<void> &,
   const rclcpp::MessageInfo &)
 {
@@ -46,16 +43,14 @@ GenericSubscription::handle_message(
           "handle_message is not implemented for GenericSubscription");
 }
 
-void
-GenericSubscription::handle_serialized_message(
+void GenericSubscription::handle_serialized_message(
   const std::shared_ptr<rclcpp::SerializedMessage> & message,
   const rclcpp::MessageInfo &)
 {
   callback_(message);
 }
 
-void
-GenericSubscription::handle_loaned_message(
+void GenericSubscription::handle_loaned_message(
   void * message, const rclcpp::MessageInfo & message_info)
 {
   (void) message;
@@ -64,15 +59,13 @@ GenericSubscription::handle_loaned_message(
           "handle_loaned_message is not implemented for GenericSubscription");
 }
 
-void
-GenericSubscription::return_message(std::shared_ptr<void> & message)
+void GenericSubscription::return_message(std::shared_ptr<void> & message)
 {
   auto typed_message = std::static_pointer_cast<rclcpp::SerializedMessage>(message);
   return_serialized_message(typed_message);
 }
 
-void
-GenericSubscription::return_serialized_message(
+void GenericSubscription::return_serialized_message(
   std::shared_ptr<rclcpp::SerializedMessage> & message)
 {
   message.reset();

rclcpp/src/rclcpp/node.cpp

@@ -167,7 +167,7 @@ Node::Node(
       options.use_intra_process_comms(),
       options.enable_topic_statistics())),
   node_graph_(new rclcpp::node_interfaces::NodeGraph(node_base_.get())),
-  node_logging_(new rclcpp::node_interfaces::NodeLogging(node_base_)),
+  node_logging_(new rclcpp::node_interfaces::NodeLogging(node_base_.get())),
   node_timers_(new rclcpp::node_interfaces::NodeTimers(node_base_.get())),
   node_topics_(new rclcpp::node_interfaces::NodeTopics(node_base_.get(), node_timers_.get())),
   node_services_(new rclcpp::node_interfaces::NodeServices(node_base_.get())),
@@ -225,10 +225,6 @@ Node::Node(
     node_topics_->resolve_topic_name("/parameter_events"),
     options.parameter_event_qos(),
     rclcpp::detail::PublisherQosParametersTraits{});
-
-  if (options.enable_logger_service()) {
-    node_logging_->create_logger_services(node_services_);
-  }
 }
 
 Node::Node(

rclcpp/src/rclcpp/node_interfaces/node_base.cpp

@@ -45,7 +45,7 @@ NodeBase::NodeBase(
   node_handle_(nullptr),
   default_callback_group_(default_callback_group),
   associated_with_executor_(false),
-  notify_guard_condition_(std::make_shared<rclcpp::GuardCondition>(context)),
+  notify_guard_condition_(context),
   notify_guard_condition_is_valid_(false)
 {
   // Create the rcl node and store it in a shared_ptr with a custom destructor.
@@ -132,10 +132,8 @@ NodeBase::NodeBase(
   // Create the default callback group, if needed.
   if (nullptr == default_callback_group_) {
     using rclcpp::CallbackGroupType;
-    // Default callback group is mutually exclusive and automatically associated with
-    // any executors that this node is added to.
     default_callback_group_ =
-      NodeBase::create_callback_group(CallbackGroupType::MutuallyExclusive, true);
+      NodeBase::create_callback_group(CallbackGroupType::MutuallyExclusive);
   }
 
   // Indicate the notify_guard_condition is now valid.
@@ -204,27 +202,11 @@ NodeBase::create_callback_group(
   rclcpp::CallbackGroupType group_type,
   bool automatically_add_to_executor_with_node)
 {
-  auto weak_context = this->get_context()->weak_from_this();
-  auto get_node_context = [weak_context]() -> rclcpp::Context::SharedPtr {
-      return weak_context.lock();
-    };
-
   auto group = std::make_shared<rclcpp::CallbackGroup>(
     group_type,
-    get_node_context,
     automatically_add_to_executor_with_node);
   std::lock_guard<std::mutex> lock(callback_groups_mutex_);
   callback_groups_.push_back(group);
-
-  // This guard condition is generally used to signal to this node's executor that a callback
-  // group has been added that should be considered for new entities.
-  // If this is creating the default callback group, then the notify guard condition won't be
-  // ready or needed yet, as the node is not done being constructed and therefore cannot be added.
-  // If the callback group is not automatically associated with this node's executors, then
-  // triggering the guard condition is also unnecessary, it will be manually added to an exector.
-  if (notify_guard_condition_is_valid_ && automatically_add_to_executor_with_node) {
-    this->trigger_notify_guard_condition();
-  }
   return group;
 }
 
@@ -271,29 +253,9 @@ NodeBase::get_notify_guard_condition()
   if (!notify_guard_condition_is_valid_) {
     throw std::runtime_error("failed to get notify guard condition because it is invalid");
   }
-  return *notify_guard_condition_;
-}
-
-rclcpp::GuardCondition::SharedPtr
-NodeBase::get_shared_notify_guard_condition()
-{
-  std::lock_guard<std::recursive_mutex> notify_condition_lock(notify_guard_condition_mutex_);
-  if (!notify_guard_condition_is_valid_) {
-    return nullptr;
-  }
   return notify_guard_condition_;
 }
 
-void
-NodeBase::trigger_notify_guard_condition()
-{
-  std::lock_guard<std::recursive_mutex> notify_condition_lock(notify_guard_condition_mutex_);
-  if (!notify_guard_condition_is_valid_) {
-    throw std::runtime_error("failed to trigger notify guard condition because it is invalid");
-  }
-  notify_guard_condition_->trigger();
-}
-
 bool
 NodeBase::get_use_intra_process_default() const
 {

rclcpp/src/rclcpp/node_interfaces/node_graph.cpp

@@ -533,8 +533,9 @@ NodeGraph::notify_graph_change()
     }
   }
   graph_cv_.notify_all();
+  auto & node_gc = node_base_->get_notify_guard_condition();
   try {
-    node_base_->trigger_notify_guard_condition();
+    node_gc.trigger();
   } catch (const rclcpp::exceptions::RCLError & ex) {
     throw std::runtime_error(
             std::string("failed to notify wait set on graph change: ") + ex.what());
@@ -788,15 +789,3 @@ rclcpp::TopicEndpointInfo::qos_profile() const
 {
   return qos_profile_;
 }
-
-rosidl_type_hash_t &
-rclcpp::TopicEndpointInfo::topic_type_hash()
-{
-  return topic_type_hash_;
-}
-
-const rosidl_type_hash_t &
-rclcpp::TopicEndpointInfo::topic_type_hash() const
-{
-  return topic_type_hash_;
-}

rclcpp/src/rclcpp/node_interfaces/node_logging.cpp

@@ -12,13 +12,11 @@
 // See the License for the specific language governing permissions and
 // limitations under the License.
 
-#include "rclcpp/node_impl.hpp"
 #include "rclcpp/node_interfaces/node_logging.hpp"
-#include "rclcpp/node_interfaces/node_services_interface.hpp"
 
 using rclcpp::node_interfaces::NodeLogging;
 
-NodeLogging::NodeLogging(rclcpp::node_interfaces::NodeBaseInterface::SharedPtr node_base)
+NodeLogging::NodeLogging(rclcpp::node_interfaces::NodeBaseInterface * node_base)
 : node_base_(node_base)
 {
   logger_ = rclcpp::get_logger(NodeLogging::get_logger_name());
@@ -39,55 +37,3 @@ NodeLogging::get_logger_name() const
 {
   return rcl_node_get_logger_name(node_base_->get_rcl_node_handle());
 }
-
-void NodeLogging::create_logger_services(
-  node_interfaces::NodeServicesInterface::SharedPtr node_services)
-{
-  rclcpp::ServicesQoS qos_profile;
-  const std::string node_name = node_base_->get_name();
-  auto callback_group = node_base_->get_default_callback_group();
-
-  get_loggers_service_ = rclcpp::create_service<rcl_interfaces::srv::GetLoggerLevels>(
-    node_base_, node_services,
-    node_name + "/get_logger_levels",
-    [](
-      const std::shared_ptr<rmw_request_id_t>,
-      const std::shared_ptr<rcl_interfaces::srv::GetLoggerLevels::Request> request,
-      std::shared_ptr<rcl_interfaces::srv::GetLoggerLevels::Response> response)
-    {
-      for (auto & name : request->names) {
-        rcl_interfaces::msg::LoggerLevel logger_level;
-        logger_level.name = name;
-        auto ret = rcutils_logging_get_logger_level(name.c_str());
-        if (ret < 0) {
-          logger_level.level = 0;
-        } else {
-          logger_level.level = static_cast<uint8_t>(ret);
-        }
-        response->levels.push_back(std::move(logger_level));
-      }
-    },
-    qos_profile, callback_group);
-
-  set_loggers_service_ = rclcpp::create_service<rcl_interfaces::srv::SetLoggerLevels>(
-    node_base_, node_services,
-    node_name + "/set_logger_levels",
-    [](
-      const std::shared_ptr<rmw_request_id_t>,
-      const std::shared_ptr<rcl_interfaces::srv::SetLoggerLevels::Request> request,
-      std::shared_ptr<rcl_interfaces::srv::SetLoggerLevels::Response> response)
-    {
-      rcl_interfaces::msg::SetLoggerLevelsResult result;
-      for (auto & level : request->levels) {
-        auto ret = rcutils_logging_set_logger_level(level.name.c_str(), level.level);
-        if (ret != RCUTILS_RET_OK) {
-          result.successful = false;
-          result.reason = rcutils_get_error_string().str;
-        } else {
-          result.successful = true;
-        }
-        response->results.push_back(std::move(result));
-      }
-    },
-    qos_profile, callback_group);
-}

rclcpp/src/rclcpp/node_interfaces/node_services.cpp

@@ -42,8 +42,9 @@ NodeServices::add_service(
   group->add_service(service_base_ptr);
 
   // Notify the executor that a new service was created using the parent Node.
+  auto & node_gc = node_base_->get_notify_guard_condition();
   try {
-    node_base_->trigger_notify_guard_condition();
+    node_gc.trigger();
     group->trigger_notify_guard_condition();
   } catch (const rclcpp::exceptions::RCLError & ex) {
     throw std::runtime_error(
@@ -68,8 +69,9 @@ NodeServices::add_client(
   group->add_client(client_base_ptr);
 
   // Notify the executor that a new client was created using the parent Node.
+  auto & node_gc = node_base_->get_notify_guard_condition();
   try {
-    node_base_->trigger_notify_guard_condition();
+    node_gc.trigger();
     group->trigger_notify_guard_condition();
   } catch (const rclcpp::exceptions::RCLError & ex) {
     throw std::runtime_error(

rclcpp/src/rclcpp/node_interfaces/node_timers.cpp

@@ -42,8 +42,9 @@ NodeTimers::add_timer(
   }
   callback_group->add_timer(timer);
 
+  auto & node_gc = node_base_->get_notify_guard_condition();
   try {
-    node_base_->trigger_notify_guard_condition();
+    node_gc.trigger();
     callback_group->trigger_notify_guard_condition();
   } catch (const rclcpp::exceptions::RCLError & ex) {
     throw std::runtime_error(

rclcpp/src/rclcpp/node_interfaces/node_topics.cpp

@@ -70,8 +70,9 @@ NodeTopics::add_publisher(
   }
 
   // Notify the executor that a new publisher was created using the parent Node.
+  auto & node_gc = node_base_->get_notify_guard_condition();
   try {
-    node_base_->trigger_notify_guard_condition();
+    node_gc.trigger();
     callback_group->trigger_notify_guard_condition();
   } catch (const rclcpp::exceptions::RCLError & ex) {
     throw std::runtime_error(
@@ -118,8 +119,9 @@ NodeTopics::add_subscription(
   }
 
   // Notify the executor that a new subscription was created using the parent Node.
+  auto & node_gc = node_base_->get_notify_guard_condition();
   try {
-    node_base_->trigger_notify_guard_condition();
+    node_gc.trigger();
     callback_group->trigger_notify_guard_condition();
   } catch (const rclcpp::exceptions::RCLError & ex) {
     throw std::runtime_error(

rclcpp/src/rclcpp/node_interfaces/node_waitables.cpp

@@ -42,8 +42,9 @@ NodeWaitables::add_waitable(
   group->add_waitable(waitable_ptr);
 
   // Notify the executor that a new waitable was created using the parent Node.
+  auto & node_gc = node_base_->get_notify_guard_condition();
   try {
-    node_base_->trigger_notify_guard_condition();
+    node_gc.trigger();
     group->trigger_notify_guard_condition();
   } catch (const rclcpp::exceptions::RCLError & ex) {
     throw std::runtime_error(

rclcpp/src/rclcpp/node_options.cpp

@@ -248,19 +248,6 @@ NodeOptions::start_parameter_services(bool start_parameter_services)
   return *this;
 }
 
-bool
-NodeOptions::enable_logger_service() const
-{
-  return this->enable_logger_service_;
-}
-
-NodeOptions &
-NodeOptions::enable_logger_service(bool enable_logger_service)
-{
-  this->enable_logger_service_ = enable_logger_service;
-  return *this;
-}
-
 bool
 NodeOptions::start_parameter_event_publisher() const
 {

rclcpp/src/rclcpp/subscription_base.cpp

@@ -44,7 +44,7 @@ SubscriptionBase::SubscriptionBase(
   const rcl_subscription_options_t & subscription_options,
   const SubscriptionEventCallbacks & event_callbacks,
   bool use_default_callbacks,
-  DeliveredMessageKind delivered_message_kind)
+  SubscriptionType subscription_type)
 : node_base_(node_base),
   node_handle_(node_base_->get_shared_rcl_node_handle()),
   node_logger_(rclcpp::get_node_logger(node_handle_.get())),
@@ -52,8 +52,16 @@ SubscriptionBase::SubscriptionBase(
   intra_process_subscription_id_(0),
   event_callbacks_(event_callbacks),
   type_support_(type_support_handle),
-  delivered_message_type_(delivered_message_kind)
+  subscription_type_(subscription_type)
 {
+  if (!rmw_feature_supported(RMW_MIDDLEWARE_CAN_TAKE_DYNAMIC_MESSAGE) &&
+    subscription_type == rclcpp::SubscriptionType::DYNAMIC_MESSAGE_DIRECT)
+  {
+    throw std::runtime_error(
+            "Cannot set subscription to take dynamic message directly, feature not supported in rmw"
+    );
+  }
+
   auto custom_deletor = [node_handle = this->node_handle_](rcl_subscription_t * rcl_subs)
     {
       if (rcl_subscription_fini(rcl_subs, node_handle.get()) != RCL_RET_OK) {
@@ -258,16 +266,10 @@ SubscriptionBase::get_message_type_support_handle() const
   return type_support_;
 }
 
-bool
-SubscriptionBase::is_serialized() const
-{
-  return delivered_message_type_ == rclcpp::DeliveredMessageKind::SERIALIZED_MESSAGE;
-}
-
-rclcpp::DeliveredMessageKind
+rclcpp::SubscriptionType
 SubscriptionBase::get_subscription_type() const
 {
-  return delivered_message_type_;
+  return subscription_type_;
 }
 
 size_t
@@ -526,11 +528,21 @@ SubscriptionBase::get_content_filter() const
 
 
 // DYNAMIC TYPE ==================================================================================
+// TODO(methylDragon): Reorder later
 bool
 SubscriptionBase::take_dynamic_message(
-  rclcpp::dynamic_typesupport::DynamicMessage & /*message_out*/,
-  rclcpp::MessageInfo & /*message_info_out*/)
+  rclcpp::dynamic_typesupport::DynamicMessage & message_out,
+  rclcpp::MessageInfo & message_info_out)
 {
-  throw std::runtime_error("Unimplemented");
-  return false;
+  rcl_ret_t ret = rcl_take_dynamic_message(
+    this->get_subscription_handle().get(),
+    &message_out.get_rosidl_dynamic_data(),
+    &message_info_out.get_rmw_message_info(),
+    nullptr);
+  if (RCL_RET_SUBSCRIPTION_TAKE_FAILED == ret) {
+    return false;
+  } else if (RCL_RET_OK != ret) {
+    rclcpp::exceptions::throw_from_rcl_error(ret);
+  }
+  return true;
 }

rclcpp/test/rclcpp/CMakeLists.txt

@@ -618,14 +618,6 @@ if(TARGET test_timer)
   target_link_libraries(test_timer ${PROJECT_NAME} mimick)
 endif()
 
-ament_add_gtest(test_timers_manager test_timers_manager.cpp
-  APPEND_LIBRARY_DIRS "${append_library_dirs}")
-if(TARGET test_timers_manager)
-  ament_target_dependencies(test_timers_manager
-    "rcl")
-  target_link_libraries(test_timers_manager ${PROJECT_NAME} mimick)
-endif()
-
 ament_add_gtest(test_time_source test_time_source.cpp
   APPEND_LIBRARY_DIRS "${append_library_dirs}")
 if(TARGET test_time_source)
@@ -649,13 +641,6 @@ if(TARGET test_wait_for_message)
   target_link_libraries(test_wait_for_message ${PROJECT_NAME})
 endif()
 
-ament_add_gtest(test_logger_service test_logger_service.cpp)
-if(TARGET test_logger_service)
-  ament_target_dependencies(test_logger_service
-    "rcl_interfaces")
-  target_link_libraries(test_logger_service ${PROJECT_NAME})
-endif()
-
 ament_add_gtest(test_interface_traits test_interface_traits.cpp
   APPEND_LIBRARY_DIRS "${append_library_dirs}")
 if(TARGET test_interface_traits)
@@ -703,39 +688,6 @@ if(TARGET test_static_executor_entities_collector)
   target_link_libraries(test_static_executor_entities_collector ${PROJECT_NAME} mimick)
 endif()
 
-ament_add_gtest(test_entities_collector executors/test_entities_collector.cpp
-  APPEND_LIBRARY_DIRS "${append_library_dirs}" TIMEOUT 120)
-if(TARGET test_entities_collector)
-  ament_target_dependencies(test_entities_collector
-    "rcl"
-    "test_msgs")
-  target_link_libraries(test_entities_collector ${PROJECT_NAME} mimick)
-endif()
-
-ament_add_gtest(test_executor_notify_waitable executors/test_executor_notify_waitable.cpp
-  APPEND_LIBRARY_DIRS "${append_library_dirs}" TIMEOUT 120)
-if(TARGET test_executor_notify_waitable)
-  ament_target_dependencies(test_executor_notify_waitable
-    "rcl"
-    "test_msgs")
-  target_link_libraries(test_executor_notify_waitable ${PROJECT_NAME} mimick)
-endif()
-
-ament_add_gtest(test_events_executor executors/test_events_executor.cpp TIMEOUT 5)
-if(TARGET test_events_executor)
-  ament_target_dependencies(test_events_executor
-    "test_msgs")
-  target_link_libraries(test_events_executor ${PROJECT_NAME})
-endif()
-
-ament_add_gtest(test_events_queue executors/test_events_queue.cpp
-  APPEND_LIBRARY_DIRS "${append_library_dirs}")
-if(TARGET test_events_queue)
-  ament_target_dependencies(test_events_queue
-    "test_msgs")
-  target_link_libraries(test_events_queue ${PROJECT_NAME})
-endif()
-
 ament_add_gtest(test_guard_condition test_guard_condition.cpp
   APPEND_LIBRARY_DIRS "${append_library_dirs}")
 if(TARGET test_guard_condition)

rclcpp/test/rclcpp/executors/test_entities_collector.cpp

@@ -1,320 +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.
-
-#include <gtest/gtest.h>
-
-#include "rclcpp/executors/executor_notify_waitable.hpp"
-#include "rclcpp/rclcpp.hpp"
-#include "rclcpp/executors/executor_entities_collector.hpp"
-
-#include "../../utils/rclcpp_gtest_macros.hpp"
-
-class TestExecutorEntitiesCollector : public ::testing::Test
-{
-public:
-  void SetUp()
-  {
-    rclcpp::init(0, nullptr);
-
-    notify_waitable = std::make_shared<rclcpp::executors::ExecutorNotifyWaitable>();
-    entities_collector = std::make_shared<rclcpp::executors::ExecutorEntitiesCollector>(
-      notify_waitable);
-  }
-
-  void TearDown()
-  {
-    rclcpp::shutdown();
-  }
-
-  std::shared_ptr<rclcpp::executors::ExecutorNotifyWaitable> notify_waitable;
-  std::shared_ptr<rclcpp::executors::ExecutorEntitiesCollector> entities_collector;
-};
-
-TEST_F(TestExecutorEntitiesCollector, add_remove_node) {
-  auto node1 = std::make_shared<rclcpp::Node>("node1", "ns");
-
-  // Add a node
-  EXPECT_NO_THROW(entities_collector->add_node(node1->get_node_base_interface()));
-  EXPECT_NO_THROW(entities_collector->update_collections());
-
-  // Remove a node
-  EXPECT_NO_THROW(entities_collector->remove_node(node1->get_node_base_interface()));
-  EXPECT_NO_THROW(entities_collector->update_collections());
-}
-
-TEST_F(TestExecutorEntitiesCollector, add_node_twice) {
-  auto node1 = std::make_shared<rclcpp::Node>("node1", "ns");
-
-  EXPECT_NO_THROW(entities_collector->add_node(node1->get_node_base_interface()));
-
-  RCLCPP_EXPECT_THROW_EQ(
-    entities_collector->add_node(node1->get_node_base_interface()),
-    std::runtime_error("Node '/ns/node1' has already been added to an executor."));
-
-  EXPECT_NO_THROW(entities_collector->update_collections());
-}
-
-TEST_F(TestExecutorEntitiesCollector, add_associated_node) {
-  auto node1 = std::make_shared<rclcpp::Node>("node1", "ns");
-
-  // Simulate node being associated somewhere else
-  auto & has_executor = node1->get_node_base_interface()->get_associated_with_executor_atomic();
-  has_executor.store(true);
-
-  // Add an already-associated node
-  RCLCPP_EXPECT_THROW_EQ(
-    entities_collector->remove_node(node1->get_node_base_interface()),
-    std::runtime_error("Node '/ns/node1' needs to be associated with this executor."));
-
-  has_executor.store(false);
-}
-
-TEST_F(TestExecutorEntitiesCollector, remove_unassociated_node) {
-  auto node1 = std::make_shared<rclcpp::Node>("node1", "ns");
-
-  // Add an already-associated node
-  RCLCPP_EXPECT_THROW_EQ(
-    entities_collector->remove_node(node1->get_node_base_interface()),
-    std::runtime_error("Node '/ns/node1' needs to be associated with an executor."));
-
-  // Simulate node being associated somewhere else
-  auto & has_executor = node1->get_node_base_interface()->get_associated_with_executor_atomic();
-  has_executor.store(true);
-
-  // Add an already-associated node
-  RCLCPP_EXPECT_THROW_EQ(
-    entities_collector->remove_node(node1->get_node_base_interface()),
-    std::runtime_error("Node '/ns/node1' needs to be associated with this executor."));
-}
-
-TEST_F(TestExecutorEntitiesCollector, add_remove_node_before_update) {
-  auto notify_waitable = std::make_shared<rclcpp::executors::ExecutorNotifyWaitable>();
-  auto entities_collector = rclcpp::executors::ExecutorEntitiesCollector(notify_waitable);
-
-  auto node1 = std::make_shared<rclcpp::Node>("node1", "ns");
-  auto node2 = std::make_shared<rclcpp::Node>("node2", "ns");
-
-  // Add and remove nodes without running updatenode
-  EXPECT_NO_THROW(entities_collector.add_node(node1->get_node_base_interface()));
-  EXPECT_NO_THROW(entities_collector.add_node(node2->get_node_base_interface()));
-  EXPECT_NO_THROW(entities_collector.remove_node(node1->get_node_base_interface()));
-  EXPECT_NO_THROW(entities_collector.remove_node(node2->get_node_base_interface()));
-  EXPECT_NO_THROW(entities_collector.update_collections());
-}
-
-TEST_F(TestExecutorEntitiesCollector, add_callback_group) {
-  auto notify_waitable = std::make_shared<rclcpp::executors::ExecutorNotifyWaitable>();
-  auto entities_collector = rclcpp::executors::ExecutorEntitiesCollector(notify_waitable);
-
-  auto node = std::make_shared<rclcpp::Node>("node1", "ns");
-  rclcpp::CallbackGroup::SharedPtr cb_group = node->create_callback_group(
-    rclcpp::CallbackGroupType::MutuallyExclusive);
-
-  // Add a callback group and update
-  entities_collector.add_callback_group(cb_group);
-
-  ASSERT_EQ(entities_collector.get_all_callback_groups().size(), 0u);
-  ASSERT_EQ(entities_collector.get_manually_added_callback_groups().size(), 0u);
-  ASSERT_EQ(entities_collector.get_automatically_added_callback_groups().size(), 0u);
-
-  entities_collector.update_collections();
-
-  ASSERT_EQ(entities_collector.get_all_callback_groups().size(), 1u);
-  ASSERT_EQ(entities_collector.get_manually_added_callback_groups().size(), 1u);
-  ASSERT_EQ(entities_collector.get_automatically_added_callback_groups().size(), 0u);
-
-  // Remove callback group and update
-  entities_collector.remove_callback_group(cb_group);
-
-  ASSERT_EQ(entities_collector.get_all_callback_groups().size(), 1u);
-  ASSERT_EQ(entities_collector.get_manually_added_callback_groups().size(), 1u);
-  ASSERT_EQ(entities_collector.get_automatically_added_callback_groups().size(), 0u);
-
-  entities_collector.update_collections();
-
-  ASSERT_EQ(entities_collector.get_all_callback_groups().size(), 0u);
-  ASSERT_EQ(entities_collector.get_manually_added_callback_groups().size(), 0u);
-  ASSERT_EQ(entities_collector.get_automatically_added_callback_groups().size(), 0u);
-}
-
-TEST_F(TestExecutorEntitiesCollector, add_node_default_callback_group) {
-  auto notify_waitable = std::make_shared<rclcpp::executors::ExecutorNotifyWaitable>();
-  auto entities_collector = rclcpp::executors::ExecutorEntitiesCollector(notify_waitable);
-
-  auto node = std::make_shared<rclcpp::Node>("node1", "ns");
-  entities_collector.add_node(node->get_node_base_interface());
-
-  ASSERT_EQ(entities_collector.get_all_callback_groups().size(), 0u);
-  ASSERT_EQ(entities_collector.get_manually_added_callback_groups().size(), 0u);
-  ASSERT_EQ(entities_collector.get_automatically_added_callback_groups().size(), 0u);
-
-  entities_collector.update_collections();
-
-  ASSERT_EQ(entities_collector.get_all_callback_groups().size(), 1u);
-  ASSERT_EQ(entities_collector.get_manually_added_callback_groups().size(), 0u);
-  ASSERT_EQ(entities_collector.get_automatically_added_callback_groups().size(), 1u);
-}
-
-TEST_F(TestExecutorEntitiesCollector, add_callback_group_after_add_node) {
-  auto notify_waitable = std::make_shared<rclcpp::executors::ExecutorNotifyWaitable>();
-  auto entities_collector = rclcpp::executors::ExecutorEntitiesCollector(notify_waitable);
-
-  auto node = std::make_shared<rclcpp::Node>("node1", "ns");
-  rclcpp::CallbackGroup::SharedPtr cb_group = node->create_callback_group(
-    rclcpp::CallbackGroupType::MutuallyExclusive);
-
-  entities_collector.add_node(node->get_node_base_interface());
-
-  ASSERT_EQ(entities_collector.get_all_callback_groups().size(), 0u);
-  ASSERT_EQ(entities_collector.get_manually_added_callback_groups().size(), 0u);
-  ASSERT_EQ(entities_collector.get_automatically_added_callback_groups().size(), 0u);
-
-  entities_collector.update_collections();
-
-  ASSERT_EQ(entities_collector.get_all_callback_groups().size(), 2u);
-  ASSERT_EQ(entities_collector.get_manually_added_callback_groups().size(), 0u);
-  ASSERT_EQ(entities_collector.get_automatically_added_callback_groups().size(), 2u);
-
-  RCLCPP_EXPECT_THROW_EQ(
-    entities_collector.add_callback_group(cb_group),
-    std::runtime_error("Callback group has already been added to an executor."));
-}
-
-TEST_F(TestExecutorEntitiesCollector, add_callback_group_twice) {
-  auto notify_waitable = std::make_shared<rclcpp::executors::ExecutorNotifyWaitable>();
-  auto entities_collector = rclcpp::executors::ExecutorEntitiesCollector(notify_waitable);
-
-  auto node = std::make_shared<rclcpp::Node>("node1", "ns");
-  rclcpp::CallbackGroup::SharedPtr cb_group = node->create_callback_group(
-    rclcpp::CallbackGroupType::MutuallyExclusive);
-
-  entities_collector.add_callback_group(cb_group);
-
-  ASSERT_EQ(entities_collector.get_all_callback_groups().size(), 0u);
-  ASSERT_EQ(entities_collector.get_manually_added_callback_groups().size(), 0u);
-  ASSERT_EQ(entities_collector.get_automatically_added_callback_groups().size(), 0u);
-
-  entities_collector.update_collections();
-
-  ASSERT_EQ(entities_collector.get_all_callback_groups().size(), 1u);
-  ASSERT_EQ(entities_collector.get_manually_added_callback_groups().size(), 1u);
-  ASSERT_EQ(entities_collector.get_automatically_added_callback_groups().size(), 0u);
-
-  cb_group->get_associated_with_executor_atomic().exchange(false);
-  RCLCPP_EXPECT_THROW_EQ(
-    entities_collector.add_callback_group(cb_group),
-    std::runtime_error("Callback group has already been added to this executor."));
-}
-
-TEST_F(TestExecutorEntitiesCollector, remove_callback_group_after_node) {
-  auto notify_waitable = std::make_shared<rclcpp::executors::ExecutorNotifyWaitable>();
-  auto entities_collector = rclcpp::executors::ExecutorEntitiesCollector(notify_waitable);
-
-  auto node = std::make_shared<rclcpp::Node>("node1", "ns");
-  rclcpp::CallbackGroup::SharedPtr cb_group = node->create_callback_group(
-    rclcpp::CallbackGroupType::MutuallyExclusive);
-
-  entities_collector.add_callback_group(cb_group);
-
-  ASSERT_EQ(entities_collector.get_all_callback_groups().size(), 0u);
-  ASSERT_EQ(entities_collector.get_manually_added_callback_groups().size(), 0u);
-  ASSERT_EQ(entities_collector.get_automatically_added_callback_groups().size(), 0u);
-
-  entities_collector.update_collections();
-
-  ASSERT_EQ(entities_collector.get_all_callback_groups().size(), 1u);
-  ASSERT_EQ(entities_collector.get_manually_added_callback_groups().size(), 1u);
-  ASSERT_EQ(entities_collector.get_automatically_added_callback_groups().size(), 0u);
-
-  node.reset();
-
-  /**
-   * TODO(mjcarroll): Assert this when we are enforcing that nodes must be destroyed
-   * after their created callback groups.
-  RCLCPP_EXPECT_THROW_EQ(
-    entities_collector.remove_callback_group(cb_group),
-    std::runtime_error("Node must not be deleted before its callback group(s)."));
-  */
-  EXPECT_NO_THROW(entities_collector.update_collections());
-}
-
-TEST_F(TestExecutorEntitiesCollector, remove_callback_group_after_node2) {
-  auto notify_waitable = std::make_shared<rclcpp::executors::ExecutorNotifyWaitable>();
-  auto entities_collector = rclcpp::executors::ExecutorEntitiesCollector(notify_waitable);
-
-  auto node = std::make_shared<rclcpp::Node>("node1", "ns");
-  rclcpp::CallbackGroup::SharedPtr cb_group = node->create_callback_group(
-    rclcpp::CallbackGroupType::MutuallyExclusive);
-
-  entities_collector.add_callback_group(cb_group);
-
-  ASSERT_EQ(entities_collector.get_all_callback_groups().size(), 0u);
-  ASSERT_EQ(entities_collector.get_manually_added_callback_groups().size(), 0u);
-  ASSERT_EQ(entities_collector.get_automatically_added_callback_groups().size(), 0u);
-
-  entities_collector.update_collections();
-
-  ASSERT_EQ(entities_collector.get_all_callback_groups().size(), 1u);
-  ASSERT_EQ(entities_collector.get_manually_added_callback_groups().size(), 1u);
-  ASSERT_EQ(entities_collector.get_automatically_added_callback_groups().size(), 0u);
-
-  EXPECT_NO_THROW(entities_collector.remove_callback_group(cb_group));
-
-  node.reset();
-
-  /**
-   * TODO(mjcarroll): Assert this when we are enforcing that nodes must be destroyed
-   * after their created callback groups.
-  RCLCPP_EXPECT_THROW_EQ(
-    entities_collector.remove_callback_group(cb_group),
-    std::runtime_error("Node must not be deleted before its callback group(s)."));
-  */
-  EXPECT_NO_THROW(entities_collector.update_collections());
-}
-
-TEST_F(TestExecutorEntitiesCollector, remove_callback_group_twice) {
-  auto notify_waitable = std::make_shared<rclcpp::executors::ExecutorNotifyWaitable>();
-  auto entities_collector = rclcpp::executors::ExecutorEntitiesCollector(notify_waitable);
-
-  auto node = std::make_shared<rclcpp::Node>("node1", "ns");
-  rclcpp::CallbackGroup::SharedPtr cb_group = node->create_callback_group(
-    rclcpp::CallbackGroupType::MutuallyExclusive);
-
-  entities_collector.add_callback_group(cb_group);
-  entities_collector.update_collections();
-
-  ASSERT_EQ(entities_collector.get_all_callback_groups().size(), 1u);
-  ASSERT_EQ(entities_collector.get_manually_added_callback_groups().size(), 1u);
-  ASSERT_EQ(entities_collector.get_automatically_added_callback_groups().size(), 0u);
-
-  entities_collector.remove_callback_group(cb_group);
-  entities_collector.update_collections();
-
-  RCLCPP_EXPECT_THROW_EQ(
-    entities_collector.remove_callback_group(cb_group),
-    std::runtime_error("Callback group needs to be associated with an executor."));
-}
-
-TEST_F(TestExecutorEntitiesCollector, remove_node_opposite_order) {
-  auto notify_waitable = std::make_shared<rclcpp::executors::ExecutorNotifyWaitable>();
-  auto entities_collector = rclcpp::executors::ExecutorEntitiesCollector(notify_waitable);
-
-  auto node1 = std::make_shared<rclcpp::Node>("node1", "ns");
-  EXPECT_NO_THROW(entities_collector.add_node(node1->get_node_base_interface()));
-
-  auto node2 = std::make_shared<rclcpp::Node>("node2", "ns");
-  EXPECT_NO_THROW(entities_collector.add_node(node2->get_node_base_interface()));
-
-  EXPECT_NO_THROW(entities_collector.remove_node(node2->get_node_base_interface()));
-}

rclcpp/test/rclcpp/executors/test_events_executor.cpp

@@ -1,549 +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.
-
-#include <gtest/gtest.h>
-
-#include <chrono>
-#include <memory>
-#include <string>
-
-#include "rclcpp/experimental/executors/events_executor/events_executor.hpp"
-
-#include "test_msgs/srv/empty.hpp"
-#include "test_msgs/msg/empty.hpp"
-
-using namespace std::chrono_literals;
-
-using rclcpp::experimental::executors::EventsExecutor;
-
-class TestEventsExecutor : public ::testing::Test
-{
-public:
-  void SetUp()
-  {
-    rclcpp::init(0, nullptr);
-  }
-
-  void TearDown()
-  {
-    rclcpp::shutdown();
-  }
-};
-
-TEST_F(TestEventsExecutor, run_pub_sub)
-{
-  // rmw_connextdds doesn't support events-executor
-  if (std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0) {
-    GTEST_SKIP();
-  }
-
-  auto node = std::make_shared<rclcpp::Node>("node");
-
-  bool msg_received = false;
-  auto subscription = node->create_subscription<test_msgs::msg::Empty>(
-    "topic", rclcpp::SensorDataQoS(),
-    [&msg_received](test_msgs::msg::Empty::ConstSharedPtr msg)
-    {
-      (void)msg;
-      msg_received = true;
-    });
-
-  auto publisher = node->create_publisher<test_msgs::msg::Empty>("topic", rclcpp::SensorDataQoS());
-
-  EventsExecutor executor;
-  executor.add_node(node);
-
-  bool spin_exited = false;
-  std::thread spinner([&spin_exited, &executor, this]() {
-      executor.spin();
-      spin_exited = true;
-    });
-
-  auto msg = std::make_unique<test_msgs::msg::Empty>();
-  publisher->publish(std::move(msg));
-
-  // Wait some time for the subscription to receive the message
-  auto start = std::chrono::high_resolution_clock::now();
-  while (
-    !msg_received &&
-    !spin_exited &&
-    (std::chrono::high_resolution_clock::now() - start < 1s))
-  {
-    auto time = std::chrono::high_resolution_clock::now() - start;
-    auto time_msec = std::chrono::duration_cast<std::chrono::milliseconds>(time);
-    std::this_thread::sleep_for(25ms);
-  }
-
-  executor.cancel();
-  spinner.join();
-  executor.remove_node(node);
-
-  EXPECT_TRUE(msg_received);
-  EXPECT_TRUE(spin_exited);
-}
-
-TEST_F(TestEventsExecutor, run_clients_servers)
-{
-  // rmw_connextdds doesn't support events-executor
-  if (std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0) {
-    GTEST_SKIP();
-  }
-
-  auto node = std::make_shared<rclcpp::Node>("node");
-
-  bool request_received = false;
-  bool response_received = false;
-  auto service =
-    node->create_service<test_msgs::srv::Empty>(
-    "service",
-    [&request_received](
-      const test_msgs::srv::Empty::Request::SharedPtr,
-      test_msgs::srv::Empty::Response::SharedPtr)
-    {
-      request_received = true;
-    });
-  auto client = node->create_client<test_msgs::srv::Empty>("service");
-
-  EventsExecutor executor;
-  executor.add_node(node);
-
-  bool spin_exited = false;
-  std::thread spinner([&spin_exited, &executor, this]() {
-      executor.spin();
-      spin_exited = true;
-    });
-
-  auto request = std::make_shared<test_msgs::srv::Empty::Request>();
-  client->async_send_request(
-    request,
-    [&response_received](rclcpp::Client<test_msgs::srv::Empty>::SharedFuture result_future) {
-      (void)result_future;
-      response_received = true;
-    });
-
-  // Wait some time for the client-server to be invoked
-  auto start = std::chrono::steady_clock::now();
-  while (
-    !response_received &&
-    !spin_exited &&
-    (std::chrono::steady_clock::now() - start < 1s))
-  {
-    std::this_thread::sleep_for(5ms);
-  }
-
-  executor.cancel();
-  spinner.join();
-  executor.remove_node(node);
-
-  EXPECT_TRUE(request_received);
-  EXPECT_TRUE(response_received);
-  EXPECT_TRUE(spin_exited);
-}
-
-TEST_F(TestEventsExecutor, spin_once_max_duration_timeout)
-{
-  // rmw_connextdds doesn't support events-executor
-  if (std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0) {
-    GTEST_SKIP();
-  }
-
-  auto node = std::make_shared<rclcpp::Node>("node");
-
-  EventsExecutor executor;
-  executor.add_node(node);
-
-  // Consume previous events so we have a fresh start
-  executor.spin_all(1s);
-
-  size_t t_runs = 0;
-  auto t = node->create_wall_timer(
-    10s,
-    [&]() {
-      t_runs++;
-    });
-
-  // This first spin_once takes care of the waitable event
-  // generated by the addition of the timer to the node
-  executor.spin_once(1s);
-  EXPECT_EQ(0u, t_runs);
-
-  auto start = std::chrono::steady_clock::now();
-
-  // This second spin_once should take care of the timer,
-  executor.spin_once(10ms);
-
-  // but doesn't spin the time enough to call the timer callback.
-  EXPECT_EQ(0u, t_runs);
-  EXPECT_TRUE(std::chrono::steady_clock::now() - start < 200ms);
-}
-
-TEST_F(TestEventsExecutor, spin_once_max_duration_timer)
-{
-  // rmw_connextdds doesn't support events-executor
-  if (std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0) {
-    GTEST_SKIP();
-  }
-
-  auto node = std::make_shared<rclcpp::Node>("node");
-
-  EventsExecutor executor;
-  executor.add_node(node);
-
-  // Consume previous events so we have a fresh start
-  executor.spin_all(1s);
-
-  size_t t_runs = 0;
-  auto t = node->create_wall_timer(
-    10ms,
-    [&]() {
-      t_runs++;
-    });
-
-  // This first spin_once takes care of the waitable event
-  // generated by the addition of the timer to the node
-  executor.spin_once(1s);
-  EXPECT_EQ(0u, t_runs);
-
-  auto start = std::chrono::steady_clock::now();
-
-  // This second spin_once should take care of the timer
-  executor.spin_once(11ms);
-
-  EXPECT_EQ(1u, t_runs);
-  EXPECT_TRUE(std::chrono::steady_clock::now() - start < 200ms);
-}
-
-TEST_F(TestEventsExecutor, spin_some_max_duration)
-{
-  // rmw_connextdds doesn't support events-executor
-  if (std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0) {
-    GTEST_SKIP();
-  }
-
-  {
-    auto node = std::make_shared<rclcpp::Node>("node");
-
-    size_t t_runs = 0;
-    auto t = node->create_wall_timer(
-      10s,
-      [&]() {
-        t_runs++;
-      });
-
-    EventsExecutor executor;
-    executor.add_node(node);
-
-    auto start = std::chrono::steady_clock::now();
-    executor.spin_some(10ms);
-
-    EXPECT_EQ(0u, t_runs);
-    EXPECT_TRUE(std::chrono::steady_clock::now() - start < 200ms);
-  }
-
-  {
-    auto node = std::make_shared<rclcpp::Node>("node");
-
-    size_t t_runs = 0;
-    auto t = node->create_wall_timer(
-      10ms,
-      [&]() {
-        t_runs++;
-      });
-
-    // Sleep some time for the timer to be ready when spin
-    std::this_thread::sleep_for(10ms);
-
-    EventsExecutor executor;
-    executor.add_node(node);
-
-    auto start = std::chrono::steady_clock::now();
-    executor.spin_some(10s);
-
-    EXPECT_EQ(1u, t_runs);
-    EXPECT_TRUE(std::chrono::steady_clock::now() - start < 200ms);
-  }
-}
-
-TEST_F(TestEventsExecutor, spin_some_zero_duration)
-{
-  // rmw_connextdds doesn't support events-executor
-  if (std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0) {
-    GTEST_SKIP();
-  }
-
-  auto node = std::make_shared<rclcpp::Node>("node");
-
-  size_t t_runs = 0;
-  auto t = node->create_wall_timer(
-    20ms,
-    [&]() {
-      t_runs++;
-    });
-
-  // Sleep some time for the timer to be ready when spin
-  std::this_thread::sleep_for(20ms);
-
-  EventsExecutor executor;
-  executor.add_node(node);
-  executor.spin_some(0ms);
-
-  EXPECT_EQ(1u, t_runs);
-}
-
-TEST_F(TestEventsExecutor, spin_all_max_duration)
-{
-  // rmw_connextdds doesn't support events-executor
-  if (std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0) {
-    GTEST_SKIP();
-  }
-
-  {
-    auto node = std::make_shared<rclcpp::Node>("node");
-
-    size_t t_runs = 0;
-    auto t = node->create_wall_timer(
-      10s,
-      [&]() {
-        t_runs++;
-      });
-
-    EventsExecutor executor;
-    executor.add_node(node);
-
-    auto start = std::chrono::steady_clock::now();
-    executor.spin_all(10ms);
-
-    EXPECT_EQ(0u, t_runs);
-    EXPECT_TRUE(std::chrono::steady_clock::now() - start < 200ms);
-  }
-
-  {
-    auto node = std::make_shared<rclcpp::Node>("node");
-
-    size_t t_runs = 0;
-    auto t = node->create_wall_timer(
-      10ms,
-      [&]() {
-        t_runs++;
-      });
-
-    // Sleep some time for the timer to be ready when spin
-    std::this_thread::sleep_for(10ms);
-
-    EventsExecutor executor;
-    executor.add_node(node);
-
-    auto start = std::chrono::steady_clock::now();
-    executor.spin_all(10s);
-
-    EXPECT_EQ(1u, t_runs);
-    EXPECT_TRUE(std::chrono::steady_clock::now() - start < 200ms);
-  }
-
-  EventsExecutor executor;
-  EXPECT_THROW(executor.spin_all(0ms), std::invalid_argument);
-  EXPECT_THROW(executor.spin_all(-5ms), std::invalid_argument);
-}
-
-TEST_F(TestEventsExecutor, cancel_while_timers_running)
-{
-  // rmw_connextdds doesn't support events-executor
-  if (std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0) {
-    GTEST_SKIP();
-  }
-
-  auto node = std::make_shared<rclcpp::Node>("node");
-
-  EventsExecutor executor;
-  executor.add_node(node);
-
-  // Take care of previous events for a fresh start
-  executor.spin_all(1s);
-
-  size_t t1_runs = 0;
-  auto t1 = node->create_wall_timer(
-    1ms,
-    [&]() {
-      t1_runs++;
-      std::this_thread::sleep_for(50ms);
-    });
-
-  size_t t2_runs = 0;
-  auto t2 = node->create_wall_timer(
-    1ms,
-    [&]() {
-      t2_runs++;
-      std::this_thread::sleep_for(50ms);
-    });
-
-
-  std::thread spinner([&executor, this]() {executor.spin();});
-
-  std::this_thread::sleep_for(10ms);
-  // Call cancel while t1 callback is still being executed
-  executor.cancel();
-  spinner.join();
-
-  // Depending on the latency on the system, t2 may start to execute before cancel is signaled
-  EXPECT_GE(1u, t1_runs);
-  EXPECT_GE(1u, t2_runs);
-}
-
-TEST_F(TestEventsExecutor, cancel_while_timers_waiting)
-{
-  // rmw_connextdds doesn't support events-executor
-  if (std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0) {
-    GTEST_SKIP();
-  }
-
-  auto node = std::make_shared<rclcpp::Node>("node");
-
-  size_t t1_runs = 0;
-  auto t1 = node->create_wall_timer(
-    100s,
-    [&]() {
-      t1_runs++;
-    });
-
-  EventsExecutor executor;
-  executor.add_node(node);
-
-  auto start = std::chrono::steady_clock::now();
-  std::thread spinner([&executor, this]() {executor.spin();});
-
-  std::this_thread::sleep_for(10ms);
-  executor.cancel();
-  spinner.join();
-
-  EXPECT_EQ(0u, t1_runs);
-  EXPECT_TRUE(std::chrono::steady_clock::now() - start < 1s);
-}
-
-TEST_F(TestEventsExecutor, destroy_entities)
-{
-  // This test fails on Windows! We skip it for now
-  GTEST_SKIP();
-
-  // rmw_connextdds doesn't support events-executor
-  if (std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0) {
-    GTEST_SKIP();
-  }
-
-  // Create a publisher node and start publishing messages
-  auto node_pub = std::make_shared<rclcpp::Node>("node_pub");
-  auto publisher = node_pub->create_publisher<test_msgs::msg::Empty>("topic", rclcpp::QoS(10));
-  auto timer = node_pub->create_wall_timer(
-    2ms, [&]() {publisher->publish(std::make_unique<test_msgs::msg::Empty>());});
-  EventsExecutor executor_pub;
-  executor_pub.add_node(node_pub);
-  std::thread spinner([&executor_pub, this]() {executor_pub.spin();});
-
-  // Create a node with two different subscriptions to the topic
-  auto node_sub = std::make_shared<rclcpp::Node>("node_sub");
-  size_t callback_count_1 = 0;
-  auto subscription_1 =
-    node_sub->create_subscription<test_msgs::msg::Empty>(
-    "topic", rclcpp::QoS(10), [&](test_msgs::msg::Empty::ConstSharedPtr) {callback_count_1++;});
-  size_t callback_count_2 = 0;
-  auto subscription_2 =
-    node_sub->create_subscription<test_msgs::msg::Empty>(
-    "topic", rclcpp::QoS(10), [&](test_msgs::msg::Empty::ConstSharedPtr) {callback_count_2++;});
-  EventsExecutor executor_sub;
-  executor_sub.add_node(node_sub);
-
-  // Wait some time while messages are published
-  std::this_thread::sleep_for(10ms);
-
-  // Destroy one of the two subscriptions
-  subscription_1.reset();
-
-  // Let subscriptions executor spin
-  executor_sub.spin_some(10ms);
-
-  // The callback count of the destroyed subscription remained at 0
-  EXPECT_EQ(0u, callback_count_1);
-  EXPECT_LT(0u, callback_count_2);
-
-  executor_pub.cancel();
-  spinner.join();
-}
-
-// Testing construction of a subscriptions with QoS event callback functions.
-std::string * g_pub_log_msg;
-std::string * g_sub_log_msg;
-std::promise<void> * g_log_msgs_promise;
-TEST_F(TestEventsExecutor, test_default_incompatible_qos_callbacks)
-{
-  // rmw_connextdds doesn't support events-executor
-  if (std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0) {
-    GTEST_SKIP();
-  }
-
-  auto node = std::make_shared<rclcpp::Node>("node");
-  rcutils_logging_output_handler_t original_output_handler = rcutils_logging_get_output_handler();
-
-  std::string pub_log_msg;
-  std::string sub_log_msg;
-  std::promise<void> log_msgs_promise;
-  g_pub_log_msg = &pub_log_msg;
-  g_sub_log_msg = &sub_log_msg;
-  g_log_msgs_promise = &log_msgs_promise;
-  auto logger_callback = [](
-    const rcutils_log_location_t * /*location*/,
-    int /*level*/, const char * /*name*/, rcutils_time_point_value_t /*timestamp*/,
-    const char * format, va_list * args) -> void {
-      char buffer[1024];
-      vsnprintf(buffer, sizeof(buffer), format, *args);
-      const std::string msg = buffer;
-      if (msg.rfind("New subscription discovered on topic '/test_topic'", 0) == 0) {
-        *g_pub_log_msg = buffer;
-      } else if (msg.rfind("New publisher discovered on topic '/test_topic'", 0) == 0) {
-        *g_sub_log_msg = buffer;
-      }
-
-      if (!g_pub_log_msg->empty() && !g_sub_log_msg->empty()) {
-        g_log_msgs_promise->set_value();
-      }
-    };
-  rcutils_logging_set_output_handler(logger_callback);
-
-  std::shared_future<void> log_msgs_future = log_msgs_promise.get_future();
-
-  rclcpp::QoS qos_profile_publisher(10);
-  qos_profile_publisher.durability(RMW_QOS_POLICY_DURABILITY_VOLATILE);
-  auto publisher = node->create_publisher<test_msgs::msg::Empty>(
-    "test_topic", qos_profile_publisher);
-
-  rclcpp::QoS qos_profile_subscription(10);
-  qos_profile_subscription.durability(RMW_QOS_POLICY_DURABILITY_TRANSIENT_LOCAL);
-  auto subscription = node->create_subscription<test_msgs::msg::Empty>(
-    "test_topic", qos_profile_subscription, [&](test_msgs::msg::Empty::ConstSharedPtr) {});
-
-  EventsExecutor ex;
-  ex.add_node(node->get_node_base_interface());
-
-  const auto timeout = std::chrono::seconds(10);
-  ex.spin_until_future_complete(log_msgs_future, timeout);
-
-  EXPECT_EQ(
-    "New subscription discovered on topic '/test_topic', requesting incompatible QoS. "
-    "No messages will be sent to it. Last incompatible policy: DURABILITY_QOS_POLICY",
-    pub_log_msg);
-  EXPECT_EQ(
-    "New publisher discovered on topic '/test_topic', offering incompatible QoS. "
-    "No messages will be sent to it. Last incompatible policy: DURABILITY_QOS_POLICY",
-    sub_log_msg);
-
-  rcutils_logging_set_output_handler(original_output_handler);
-}

rclcpp/test/rclcpp/executors/test_events_queue.cpp

@@ -1,82 +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.
-
-#include <gtest/gtest.h>
-
-#include <memory>
-
-#include "rclcpp/experimental/executors/events_executor/events_executor_event_types.hpp"
-#include "rclcpp/experimental/executors/events_executor/simple_events_queue.hpp"
-
-using namespace std::chrono_literals;
-
-TEST(TestEventsQueue, SimpleQueueTest)
-{
-  // Create a SimpleEventsQueue and a local queue
-  auto simple_queue = std::make_unique<rclcpp::experimental::executors::SimpleEventsQueue>();
-  rclcpp::experimental::executors::ExecutorEvent event {};
-  bool ret = false;
-
-  // Make sure the queue is empty at startup
-  EXPECT_TRUE(simple_queue->empty());
-  EXPECT_EQ(simple_queue->size(), 0u);
-
-  // Push 11 messages
-  for (uint32_t i = 1; i < 11; i++) {
-    rclcpp::experimental::executors::ExecutorEvent stub_event {};
-    stub_event.num_events = 1;
-    simple_queue->enqueue(stub_event);
-
-    EXPECT_FALSE(simple_queue->empty());
-    EXPECT_EQ(simple_queue->size(), i);
-  }
-
-  // Pop one message
-  ret = simple_queue->dequeue(event);
-  EXPECT_TRUE(ret);
-  EXPECT_FALSE(simple_queue->empty());
-  EXPECT_EQ(simple_queue->size(), 9u);
-
-  // Pop one message
-  ret = simple_queue->dequeue(event, std::chrono::nanoseconds(0));
-  EXPECT_TRUE(ret);
-  EXPECT_FALSE(simple_queue->empty());
-  EXPECT_EQ(simple_queue->size(), 8u);
-
-  while (!simple_queue->empty()) {
-    ret = simple_queue->dequeue(event);
-    EXPECT_TRUE(ret);
-  }
-
-  EXPECT_TRUE(simple_queue->empty());
-  EXPECT_EQ(simple_queue->size(), 0u);
-
-  ret = simple_queue->dequeue(event, std::chrono::nanoseconds(0));
-  EXPECT_FALSE(ret);
-
-  // Lets push an event into the queue and get it back
-  rclcpp::experimental::executors::ExecutorEvent push_event = {
-    simple_queue.get(),
-    99,
-    rclcpp::experimental::executors::ExecutorEventType::SUBSCRIPTION_EVENT,
-    1};
-
-  simple_queue->enqueue(push_event);
-  ret = simple_queue->dequeue(event);
-  EXPECT_TRUE(ret);
-  EXPECT_EQ(push_event.entity_key, event.entity_key);
-  EXPECT_EQ(push_event.waitable_data, event.waitable_data);
-  EXPECT_EQ(push_event.type, event.type);
-  EXPECT_EQ(push_event.num_events, event.num_events);
-}

rclcpp/test/rclcpp/executors/test_executor_notify_waitable.cpp

@@ -1,97 +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.
-
-#include <gtest/gtest.h>
-
-#include <chrono>
-#include <memory>
-#include <stdexcept>
-
-#include "rclcpp/executors/single_threaded_executor.hpp"
-#include "rclcpp/rclcpp.hpp"
-
-#include "rcpputils/scope_exit.hpp"
-
-#include "rclcpp/executors/executor_notify_waitable.hpp"
-
-#include "../../utils/rclcpp_gtest_macros.hpp"
-
-
-class TestExecutorNotifyWaitable : public ::testing::Test
-{
-public:
-  void SetUp()
-  {
-    rclcpp::init(0, nullptr);
-  }
-
-  void TearDown()
-  {
-    rclcpp::shutdown();
-  }
-};
-
-TEST_F(TestExecutorNotifyWaitable, construct_destruct) {
-  {
-    auto waitable = std::make_shared<rclcpp::executors::ExecutorNotifyWaitable>();
-    waitable.reset();
-  }
-  {
-    auto on_execute_callback = []() {};
-    auto waitable =
-      std::make_shared<rclcpp::executors::ExecutorNotifyWaitable>(on_execute_callback);
-    waitable.reset();
-  }
-}
-
-TEST_F(TestExecutorNotifyWaitable, add_remove_guard_conditions) {
-  auto on_execute_callback = []() {};
-  auto waitable =
-    std::make_shared<rclcpp::executors::ExecutorNotifyWaitable>(on_execute_callback);
-
-  auto node = std::make_shared<rclcpp::Node>("my_node", "/ns");
-  auto notify_guard_condition =
-
-    node->get_node_base_interface()->get_shared_notify_guard_condition();
-  EXPECT_NO_THROW(waitable->add_guard_condition(notify_guard_condition));
-  EXPECT_NO_THROW(waitable->remove_guard_condition(notify_guard_condition));
-}
-
-TEST_F(TestExecutorNotifyWaitable, wait) {
-  int on_execute_calls = 0;
-  auto on_execute_callback = [&on_execute_calls]() {on_execute_calls++;};
-
-  auto waitable =
-    std::make_shared<rclcpp::executors::ExecutorNotifyWaitable>(on_execute_callback);
-
-  auto node = std::make_shared<rclcpp::Node>("my_node", "/ns");
-  auto notify_guard_condition =
-    node->get_node_base_interface()->get_shared_notify_guard_condition();
-  EXPECT_NO_THROW(waitable->add_guard_condition(notify_guard_condition));
-
-  auto default_cbg = node->get_node_base_interface()->get_default_callback_group();
-  ASSERT_NE(nullptr, default_cbg->get_notify_guard_condition());
-
-  auto waitables = node->get_node_waitables_interface();
-  waitables->add_waitable(std::static_pointer_cast<rclcpp::Waitable>(waitable), default_cbg);
-
-  rclcpp::executors::SingleThreadedExecutor executor;
-  executor.add_node(node);
-  executor.spin_all(std::chrono::seconds(1));
-  EXPECT_EQ(1u, on_execute_calls);
-
-  // on_execute_callback doesn't change if the topology doesn't change
-  executor.spin_all(std::chrono::seconds(1));
-  EXPECT_EQ(1u, on_execute_calls);
-}

rclcpp/test/rclcpp/executors/test_executors.cpp

@@ -92,8 +92,7 @@ using ExecutorTypes =
   ::testing::Types<
   rclcpp::executors::SingleThreadedExecutor,
   rclcpp::executors::MultiThreadedExecutor,
-  rclcpp::executors::StaticSingleThreadedExecutor,
-  rclcpp::experimental::executors::EventsExecutor>;
+  rclcpp::executors::StaticSingleThreadedExecutor>;
 
 class ExecutorTypeNames
 {
@@ -114,10 +113,6 @@ public:
       return "StaticSingleThreadedExecutor";
     }
 
-    if (std::is_same<T, rclcpp::experimental::executors::EventsExecutor>()) {
-      return "EventsExecutor";
-    }
-
     return "";
   }
 };
@@ -131,22 +126,12 @@ TYPED_TEST_SUITE(TestExecutors, ExecutorTypes, ExecutorTypeNames);
 using StandardExecutors =
   ::testing::Types<
   rclcpp::executors::SingleThreadedExecutor,
-  rclcpp::executors::MultiThreadedExecutor,
-  rclcpp::experimental::executors::EventsExecutor>;
+  rclcpp::executors::MultiThreadedExecutor>;
 TYPED_TEST_SUITE(TestExecutorsStable, StandardExecutors, ExecutorTypeNames);
 
 // Make sure that executors detach from nodes when destructing
-TYPED_TEST(TestExecutors, detachOnDestruction)
-{
+TYPED_TEST(TestExecutors, detachOnDestruction) {
   using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
   {
     ExecutorType executor;
     executor.add_node(this->node);
@@ -160,17 +145,8 @@ TYPED_TEST(TestExecutors, detachOnDestruction)
 // Make sure that the executor can automatically remove expired nodes correctly
 // Currently fails for StaticSingleThreadedExecutor so it is being skipped, see:
 // https://github.com/ros2/rclcpp/issues/1231
-TYPED_TEST(TestExecutorsStable, addTemporaryNode)
-{
+TYPED_TEST(TestExecutorsStable, addTemporaryNode) {
   using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
   ExecutorType executor;
 
   {
@@ -187,37 +163,9 @@ TYPED_TEST(TestExecutorsStable, addTemporaryNode)
   spinner.join();
 }
 
-// Make sure that a spinning empty executor can be cancelled
-TYPED_TEST(TestExecutors, emptyExecutor)
-{
-  using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
-  ExecutorType executor;
-  std::thread spinner([&]() {EXPECT_NO_THROW(executor.spin());});
-  std::this_thread::sleep_for(50ms);
-  executor.cancel();
-  spinner.join();
-}
-
 // Check executor throws properly if the same node is added a second time
-TYPED_TEST(TestExecutors, addNodeTwoExecutors)
-{
+TYPED_TEST(TestExecutors, addNodeTwoExecutors) {
   using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
   ExecutorType executor1;
   ExecutorType executor2;
   EXPECT_NO_THROW(executor1.add_node(this->node));
@@ -226,17 +174,8 @@ TYPED_TEST(TestExecutors, addNodeTwoExecutors)
 }
 
 // Check simple spin example
-TYPED_TEST(TestExecutors, spinWithTimer)
-{
+TYPED_TEST(TestExecutors, spinWithTimer) {
   using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
   ExecutorType executor;
 
   bool timer_completed = false;
@@ -257,17 +196,8 @@ TYPED_TEST(TestExecutors, spinWithTimer)
   executor.remove_node(this->node, true);
 }
 
-TYPED_TEST(TestExecutors, spinWhileAlreadySpinning)
-{
+TYPED_TEST(TestExecutors, spinWhileAlreadySpinning) {
   using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
   ExecutorType executor;
   executor.add_node(this->node);
 
@@ -292,17 +222,8 @@ TYPED_TEST(TestExecutors, spinWhileAlreadySpinning)
 }
 
 // Check executor exits immediately if future is complete.
-TYPED_TEST(TestExecutors, testSpinUntilFutureComplete)
-{
+TYPED_TEST(TestExecutors, testSpinUntilFutureComplete) {
   using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
   ExecutorType executor;
   executor.add_node(this->node);
 
@@ -323,17 +244,8 @@ TYPED_TEST(TestExecutors, testSpinUntilFutureComplete)
 }
 
 // Same test, but uses a shared future.
-TYPED_TEST(TestExecutors, testSpinUntilSharedFutureComplete)
-{
+TYPED_TEST(TestExecutors, testSpinUntilSharedFutureComplete) {
   using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
   ExecutorType executor;
   executor.add_node(this->node);
 
@@ -355,17 +267,8 @@ TYPED_TEST(TestExecutors, testSpinUntilSharedFutureComplete)
 }
 
 // For a longer running future that should require several iterations of spin_once
-TYPED_TEST(TestExecutors, testSpinUntilFutureCompleteNoTimeout)
-{
+TYPED_TEST(TestExecutors, testSpinUntilFutureCompleteNoTimeout) {
   using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
   ExecutorType executor;
   executor.add_node(this->node);
 
@@ -410,17 +313,8 @@ TYPED_TEST(TestExecutors, testSpinUntilFutureCompleteNoTimeout)
 }
 
 // Check spin_until_future_complete timeout works as expected
-TYPED_TEST(TestExecutors, testSpinUntilFutureCompleteWithTimeout)
-{
+TYPED_TEST(TestExecutors, testSpinUntilFutureCompleteWithTimeout) {
   using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
   ExecutorType executor;
   executor.add_node(this->node);
 
@@ -486,13 +380,6 @@ public:
     return nullptr;
   }
 
-  std::shared_ptr<void>
-  take_data_by_entity_id(size_t id) override
-  {
-    (void) id;
-    return nullptr;
-  }
-
   void
   execute(std::shared_ptr<void> & data) override
   {
@@ -501,21 +388,6 @@ public:
     std::this_thread::sleep_for(3ms);
   }
 
-  void
-  set_on_ready_callback(std::function<void(size_t, int)> callback) override
-  {
-    auto gc_callback = [callback](size_t count) {
-        callback(count, 0);
-      };
-    gc_.set_on_trigger_callback(gc_callback);
-  }
-
-  void
-  clear_on_ready_callback() override
-  {
-    gc_.set_on_trigger_callback(nullptr);
-  }
-
   size_t
   get_number_of_ready_guard_conditions() override {return 1;}
 
@@ -530,17 +402,8 @@ private:
   rclcpp::GuardCondition gc_;
 };
 
-TYPED_TEST(TestExecutors, spinAll)
-{
+TYPED_TEST(TestExecutors, spinAll) {
   using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
   ExecutorType executor;
   auto waitable_interfaces = this->node->get_node_waitables_interface();
   auto my_waitable = std::make_shared<TestWaitable>();
@@ -580,17 +443,8 @@ TYPED_TEST(TestExecutors, spinAll)
   spinner.join();
 }
 
-TYPED_TEST(TestExecutors, spinSome)
-{
+TYPED_TEST(TestExecutors, spinSome) {
   using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
   ExecutorType executor;
   auto waitable_interfaces = this->node->get_node_waitables_interface();
   auto my_waitable = std::make_shared<TestWaitable>();
@@ -618,9 +472,8 @@ TYPED_TEST(TestExecutors, spinSome)
     this->publisher->publish(test_msgs::msg::Empty());
     std::this_thread::sleep_for(1ms);
   }
-  // The count of "execute" depends on whether the executor starts spinning before (1) or after (0)
-  // the first iteration of the while loop
-  EXPECT_LE(1u, my_waitable->get_count());
+
+  EXPECT_EQ(1u, my_waitable->get_count());
   waitable_interfaces->remove_waitable(my_waitable, nullptr);
   EXPECT_TRUE(spin_exited);
   // Cancel if it hasn't exited already.
@@ -630,17 +483,8 @@ TYPED_TEST(TestExecutors, spinSome)
 }
 
 // Check spin_node_until_future_complete with node base pointer
-TYPED_TEST(TestExecutors, testSpinNodeUntilFutureCompleteNodeBasePtr)
-{
+TYPED_TEST(TestExecutors, testSpinNodeUntilFutureCompleteNodeBasePtr) {
   using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
   ExecutorType executor;
 
   std::promise<bool> promise;
@@ -654,17 +498,8 @@ TYPED_TEST(TestExecutors, testSpinNodeUntilFutureCompleteNodeBasePtr)
 }
 
 // Check spin_node_until_future_complete with node pointer
-TYPED_TEST(TestExecutors, testSpinNodeUntilFutureCompleteNodePtr)
-{
+TYPED_TEST(TestExecutors, testSpinNodeUntilFutureCompleteNodePtr) {
   using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
   ExecutorType executor;
 
   std::promise<bool> promise;
@@ -678,17 +513,8 @@ TYPED_TEST(TestExecutors, testSpinNodeUntilFutureCompleteNodePtr)
 }
 
 // Check spin_until_future_complete can be properly interrupted.
-TYPED_TEST(TestExecutors, testSpinUntilFutureCompleteInterrupted)
-{
+TYPED_TEST(TestExecutors, testSpinUntilFutureCompleteInterrupted) {
   using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
   ExecutorType executor;
   executor.add_node(this->node);
 
@@ -730,8 +556,7 @@ TYPED_TEST(TestExecutors, testSpinUntilFutureCompleteInterrupted)
 }
 
 // Check spin_until_future_complete with node base pointer (instantiates its own executor)
-TEST(TestExecutors, testSpinUntilFutureCompleteNodeBasePtr)
-{
+TEST(TestExecutors, testSpinUntilFutureCompleteNodeBasePtr) {
   rclcpp::init(0, nullptr);
 
   {
@@ -751,8 +576,7 @@ TEST(TestExecutors, testSpinUntilFutureCompleteNodeBasePtr)
 }
 
 // Check spin_until_future_complete with node pointer (instantiates its own executor)
-TEST(TestExecutors, testSpinUntilFutureCompleteNodePtr)
-{
+TEST(TestExecutors, testSpinUntilFutureCompleteNodePtr) {
   rclcpp::init(0, nullptr);
 
   {
@@ -769,106 +593,3 @@ TEST(TestExecutors, testSpinUntilFutureCompleteNodePtr)
 
   rclcpp::shutdown();
 }
-
-template<typename T>
-class TestIntraprocessExecutors : public ::testing::Test
-{
-public:
-  static void SetUpTestCase()
-  {
-    rclcpp::init(0, nullptr);
-  }
-
-  static void TearDownTestCase()
-  {
-    rclcpp::shutdown();
-  }
-
-  void SetUp()
-  {
-    const auto test_info = ::testing::UnitTest::GetInstance()->current_test_info();
-    std::stringstream test_name;
-    test_name << test_info->test_case_name() << "_" << test_info->name();
-    node = std::make_shared<rclcpp::Node>("node", test_name.str());
-
-    callback_count = 0;
-
-    const std::string topic_name = std::string("topic_") + test_name.str();
-
-    rclcpp::PublisherOptions po;
-    po.use_intra_process_comm = rclcpp::IntraProcessSetting::Enable;
-    publisher = node->create_publisher<test_msgs::msg::Empty>(topic_name, rclcpp::QoS(1), po);
-
-    auto callback = [this](test_msgs::msg::Empty::ConstSharedPtr) {
-        this->callback_count.fetch_add(1);
-      };
-
-    rclcpp::SubscriptionOptions so;
-    so.use_intra_process_comm = rclcpp::IntraProcessSetting::Enable;
-    subscription =
-      node->create_subscription<test_msgs::msg::Empty>(
-      topic_name, rclcpp::QoS(kNumMessages), std::move(callback), so);
-  }
-
-  void TearDown()
-  {
-    publisher.reset();
-    subscription.reset();
-    node.reset();
-  }
-
-  const size_t kNumMessages = 100;
-
-  rclcpp::Node::SharedPtr node;
-  rclcpp::Publisher<test_msgs::msg::Empty>::SharedPtr publisher;
-  rclcpp::Subscription<test_msgs::msg::Empty>::SharedPtr subscription;
-  std::atomic_int callback_count;
-};
-
-TYPED_TEST_SUITE(TestIntraprocessExecutors, ExecutorTypes, ExecutorTypeNames);
-
-TYPED_TEST(TestIntraprocessExecutors, testIntraprocessRetrigger) {
-  // This tests that executors will continue to service intraprocess subscriptions in the case
-  // that publishers aren't continuing to publish.
-  // This was previously broken in that intraprocess guard conditions were only triggered on
-  // publish and the test was added to prevent future regressions.
-  const size_t kNumMessages = 100;
-
-  using ExecutorType = TypeParam;
-  ExecutorType executor;
-  executor.add_node(this->node);
-
-  EXPECT_EQ(0, this->callback_count.load());
-  this->publisher->publish(test_msgs::msg::Empty());
-
-  // Wait for up to 5 seconds for the first message to come available.
-  const std::chrono::milliseconds sleep_per_loop(10);
-  int loops = 0;
-  while (1u != this->callback_count.load() && loops < 500) {
-    rclcpp::sleep_for(sleep_per_loop);
-    executor.spin_some();
-    loops++;
-  }
-  EXPECT_EQ(1u, this->callback_count.load());
-
-  // reset counter
-  this->callback_count.store(0);
-
-  for (size_t ii = 0; ii < kNumMessages; ++ii) {
-    this->publisher->publish(test_msgs::msg::Empty());
-  }
-
-  // Fire a timer every 10ms up to 5 seconds waiting for subscriptions to be read.
-  loops = 0;
-  auto timer = this->node->create_wall_timer(
-    std::chrono::milliseconds(10), [this, &executor, &loops, &kNumMessages]() {
-      loops++;
-      if (kNumMessages == this->callback_count.load() ||
-      loops == 500)
-      {
-        executor.cancel();
-      }
-    });
-  executor.spin();
-  EXPECT_EQ(kNumMessages, this->callback_count.load());
-}

rclcpp/test/rclcpp/node_interfaces/test_node_graph.cpp

@@ -28,7 +28,6 @@
 #include "rclcpp/node_interfaces/node_graph.hpp"
 #include "rclcpp/rclcpp.hpp"
 #include "rcutils/strdup.h"
-#include "test_msgs/msg/empty.h"
 #include "test_msgs/msg/empty.hpp"
 #include "test_msgs/srv/empty.hpp"
 
@@ -600,18 +599,6 @@ TEST_F(TestNodeGraph, get_info_by_topic)
   rclcpp::QoS const_actual_qos = const_publisher_endpoint_info.qos_profile();
   EXPECT_EQ(const_actual_qos.reliability(), rclcpp::ReliabilityPolicy::Reliable);
 
-  const rosidl_type_hash_t expected_type_hash = *test_msgs__msg__Empty__get_type_hash(nullptr);
-  EXPECT_EQ(
-    0, memcmp(
-      &publisher_endpoint_info.topic_type_hash(),
-      &expected_type_hash,
-      sizeof(rosidl_type_hash_t)));
-  EXPECT_EQ(
-    0, memcmp(
-      &const_publisher_endpoint_info.topic_type_hash(),
-      &expected_type_hash,
-      sizeof(rosidl_type_hash_t)));
-
   auto endpoint_gid = publisher_endpoint_info.endpoint_gid();
   auto const_endpoint_gid = const_publisher_endpoint_info.endpoint_gid();
   bool endpoint_gid_is_all_zeros = true;

rclcpp/test/rclcpp/test_add_callback_groups_to_executor.cpp

@@ -46,15 +46,11 @@ public:
   }
 };
 
-template<typename T>
-class TestAddCallbackGroupsToExecutorStable : public TestAddCallbackGroupsToExecutor<T> {};
-
 using ExecutorTypes =
   ::testing::Types<
   rclcpp::executors::SingleThreadedExecutor,
   rclcpp::executors::MultiThreadedExecutor,
-  rclcpp::executors::StaticSingleThreadedExecutor,
-  rclcpp::experimental::executors::EventsExecutor>;
+  rclcpp::executors::StaticSingleThreadedExecutor>;
 
 class ExecutorTypeNames
 {
@@ -75,38 +71,17 @@ public:
       return "StaticSingleThreadedExecutor";
     }
 
-    if (std::is_same<T, rclcpp::experimental::executors::EventsExecutor>()) {
-      return "EventsExecutor";
-    }
-
     return "";
   }
 };
 
 TYPED_TEST_SUITE(TestAddCallbackGroupsToExecutor, ExecutorTypes, ExecutorTypeNames);
 
-// StaticSingleThreadedExecutor is not included in these tests for now
-using StandardExecutors =
-  ::testing::Types<
-  rclcpp::executors::SingleThreadedExecutor,
-  rclcpp::executors::MultiThreadedExecutor,
-  rclcpp::experimental::executors::EventsExecutor>;
-TYPED_TEST_SUITE(TestAddCallbackGroupsToExecutorStable, StandardExecutors, ExecutorTypeNames);
-
 /*
  * Test adding callback groups.
  */
-TYPED_TEST(TestAddCallbackGroupsToExecutor, add_callback_groups)
-{
+TYPED_TEST(TestAddCallbackGroupsToExecutor, add_callback_groups) {
   using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
   auto node = std::make_shared<rclcpp::Node>("my_node", "/ns");
   auto timer_callback = []() {};
   rclcpp::CallbackGroup::SharedPtr cb_grp = node->create_callback_group(
@@ -152,17 +127,8 @@ TYPED_TEST(TestAddCallbackGroupsToExecutor, add_callback_groups)
 /*
  * Test removing callback groups.
  */
-TYPED_TEST(TestAddCallbackGroupsToExecutor, remove_callback_groups)
-{
+TYPED_TEST(TestAddCallbackGroupsToExecutor, remove_callback_groups) {
   using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
   auto node = std::make_shared<rclcpp::Node>("my_node", "/ns");
   auto timer_callback = []() {};
   rclcpp::CallbackGroup::SharedPtr cb_grp = node->create_callback_group(
@@ -192,16 +158,7 @@ TYPED_TEST(TestAddCallbackGroupsToExecutor, remove_callback_groups)
  */
 TYPED_TEST(TestAddCallbackGroupsToExecutor, add_duplicate_callback_groups)
 {
-  using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
-  ExecutorType executor;
+  rclcpp::executors::MultiThreadedExecutor executor;
   auto node = std::make_shared<rclcpp::Node>("my_node", "/ns");
   auto timer_callback = []() {};
   rclcpp::CallbackGroup::SharedPtr cb_grp = node->create_callback_group(
@@ -219,16 +176,7 @@ TYPED_TEST(TestAddCallbackGroupsToExecutor, add_duplicate_callback_groups)
  */
 TYPED_TEST(TestAddCallbackGroupsToExecutor, add_callback_groups_after_add_node_to_executor)
 {
-  using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
-  ExecutorType executor;
+  rclcpp::executors::MultiThreadedExecutor executor;
   auto node = std::make_shared<rclcpp::Node>("my_node", "/ns");
   executor.add_node(node->get_node_base_interface());
   ASSERT_EQ(executor.get_all_callback_groups().size(), 1u);
@@ -262,22 +210,13 @@ TYPED_TEST(TestAddCallbackGroupsToExecutor, add_callback_groups_after_add_node_t
  */
 TYPED_TEST(TestAddCallbackGroupsToExecutor, add_unallowable_callback_groups)
 {
-  using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
-  ExecutorType executor;
   auto node = std::make_shared<rclcpp::Node>("my_node", "/ns");
   auto timer_callback = []() {};
   rclcpp::CallbackGroup::SharedPtr cb_grp = node->create_callback_group(
     rclcpp::CallbackGroupType::MutuallyExclusive, false);
   rclcpp::TimerBase::SharedPtr timer_ = node->create_wall_timer(
     2s, timer_callback, cb_grp);
+  rclcpp::executors::MultiThreadedExecutor executor;
   executor.add_callback_group(cb_grp, node->get_node_base_interface());
   ASSERT_EQ(executor.get_all_callback_groups().size(), 1u);
 
@@ -306,23 +245,14 @@ TYPED_TEST(TestAddCallbackGroupsToExecutor, add_unallowable_callback_groups)
  */
 TYPED_TEST(TestAddCallbackGroupsToExecutor, one_node_many_callback_groups_many_executors)
 {
-  using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
-  ExecutorType timer_executor;
-  ExecutorType sub_executor;
   auto node = std::make_shared<rclcpp::Node>("my_node", "/ns");
   auto timer_callback = []() {};
   rclcpp::CallbackGroup::SharedPtr cb_grp = node->create_callback_group(
     rclcpp::CallbackGroupType::MutuallyExclusive, false);
   rclcpp::TimerBase::SharedPtr timer_ = node->create_wall_timer(
     2s, timer_callback, cb_grp);
+  rclcpp::executors::MultiThreadedExecutor timer_executor;
+  rclcpp::executors::MultiThreadedExecutor sub_executor;
   timer_executor.add_callback_group(cb_grp, node->get_node_base_interface());
   const rclcpp::QoS qos(10);
   auto options = rclcpp::SubscriptionOptions();
@@ -352,23 +282,14 @@ TYPED_TEST(TestAddCallbackGroupsToExecutor, one_node_many_callback_groups_many_e
  * because the executor can't be triggered while a subscriber created, see
  * https://github.com/ros2/rclcpp/issues/1611
 */
-TYPED_TEST(TestAddCallbackGroupsToExecutorStable, subscriber_triggered_to_receive_message)
+TYPED_TEST(TestAddCallbackGroupsToExecutor, subscriber_triggered_to_receive_message)
 {
-  using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
   auto node = std::make_shared<rclcpp::Node>("my_node", "/ns");
 
   // create a thread running an executor with a new callback group for a coming subscriber
   rclcpp::CallbackGroup::SharedPtr cb_grp = node->create_callback_group(
     rclcpp::CallbackGroupType::MutuallyExclusive, false);
-  ExecutorType cb_grp_executor;
+  rclcpp::executors::SingleThreadedExecutor cb_grp_executor;
 
   std::promise<bool> received_message_promise;
   auto received_message_future = received_message_promise.get_future();
@@ -408,7 +329,7 @@ TYPED_TEST(TestAddCallbackGroupsToExecutorStable, subscriber_triggered_to_receiv
       timer_promise.set_value();
     };
 
-  ExecutorType timer_executor;
+  rclcpp::executors::SingleThreadedExecutor timer_executor;
   timer = node->create_wall_timer(100ms, timer_callback);
   timer_executor.add_node(node);
   auto future = timer_promise.get_future();
@@ -425,17 +346,8 @@ TYPED_TEST(TestAddCallbackGroupsToExecutorStable, subscriber_triggered_to_receiv
  * because the executor can't be triggered while a subscriber created, see
  * https://github.com/ros2/rclcpp/issues/2067
 */
-TYPED_TEST(TestAddCallbackGroupsToExecutorStable, callback_group_create_after_spin)
+TYPED_TEST(TestAddCallbackGroupsToExecutor, callback_group_create_after_spin)
 {
-  using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
   auto node = std::make_shared<rclcpp::Node>("my_node", "/ns");
 
   // create a publisher to send data
@@ -445,7 +357,7 @@ TYPED_TEST(TestAddCallbackGroupsToExecutorStable, callback_group_create_after_sp
   publisher->publish(test_msgs::msg::Empty());
 
   // create a thread running an executor
-  ExecutorType executor;
+  rclcpp::executors::SingleThreadedExecutor executor;
   executor.add_node(node);
   std::promise<bool> received_message_promise;
   auto received_message_future = received_message_promise.get_future();
@@ -480,16 +392,7 @@ TYPED_TEST(TestAddCallbackGroupsToExecutorStable, callback_group_create_after_sp
  */
 TYPED_TEST(TestAddCallbackGroupsToExecutor, remove_callback_group)
 {
-  using ExecutorType = TypeParam;
-  // rmw_connextdds doesn't support events-executor
-  if (
-    std::is_same<ExecutorType, rclcpp::experimental::executors::EventsExecutor>() &&
-    std::string(rmw_get_implementation_identifier()).find("rmw_connextdds") == 0)
-  {
-    GTEST_SKIP();
-  }
-
-  ExecutorType executor;
+  rclcpp::executors::MultiThreadedExecutor executor;
   auto node = std::make_shared<rclcpp::Node>("my_node", "/ns");
   auto timer_callback = []() {};
   rclcpp::CallbackGroup::SharedPtr cb_grp = node->create_callback_group(

rclcpp/test/rclcpp/test_generic_pubsub.cpp

@@ -89,9 +89,9 @@ public:
     T2 message;
     write_message(data, message);
 
-    rclcpp::Serialization<T2> ser;
+    rclcpp::Serialization<T2> serialization_support;
     SerializedMessage result;
-    ser.serialize_message(&message, &result);
+    serialization_support.serialize_message(&message, &result);
     return result;
   }
 

rclcpp/test/rclcpp/test_logger_service.cpp

@@ -1,214 +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.
-
-#include <gtest/gtest.h>
-
-#include <memory>
-#include <string>
-#include <vector>
-
-#include "rclcpp/rclcpp.hpp"
-#include "rclcpp/node.hpp"
-#include "rcl_interfaces/srv/get_logger_levels.hpp"
-#include "rcl_interfaces/srv/set_logger_levels.hpp"
-
-using namespace std::chrono_literals;
-
-class TestLoggerService : public ::testing::Test
-{
-protected:
-  void SetUp()
-  {
-    rclcpp::init(0, nullptr);
-    rclcpp::NodeOptions options = rclcpp::NodeOptions();
-    options.enable_logger_service(true);
-    node_ = std::make_shared<rclcpp::Node>("test_logger_service", "/test", options);
-  }
-
-  void TearDown()
-  {
-    rclcpp::shutdown();
-  }
-
-  rclcpp::Node::SharedPtr node_;
-  std::thread thread_;
-};
-
-TEST_F(TestLoggerService, check_connect_get_logger_service) {
-  auto client = node_->create_client<rcl_interfaces::srv::GetLoggerLevels>(
-    "/test/test_logger_service/get_logger_levels");
-  ASSERT_TRUE(client->wait_for_service(2s));
-}
-
-TEST_F(TestLoggerService, check_connect_set_logger_service) {
-  auto client = node_->create_client<rcl_interfaces::srv::SetLoggerLevels>(
-    "/test/test_logger_service/set_logger_levels");
-  ASSERT_TRUE(client->wait_for_service(2s));
-}
-
-TEST_F(TestLoggerService, test_set_and_get_one_logging_level) {
-  std::string test_logger_name = "rcl";
-  uint8_t test_logger_level = 20;
-  {
-    auto client = node_->create_client<rcl_interfaces::srv::SetLoggerLevels>(
-      "/test/test_logger_service/set_logger_levels");
-    ASSERT_TRUE(client->wait_for_service(1s));
-    auto request = std::make_shared<rcl_interfaces::srv::SetLoggerLevels::Request>();
-    auto level = rcl_interfaces::msg::LoggerLevel();
-    level.name = test_logger_name;
-    level.level = test_logger_level;
-    request->levels.push_back(level);
-    auto result = client->async_send_request(request);
-    ASSERT_EQ(
-      rclcpp::spin_until_future_complete(node_, result),
-      rclcpp::FutureReturnCode::SUCCESS);
-    auto result_get = result.get();
-    ASSERT_EQ(result_get->results.size(), 1u);
-    ASSERT_TRUE(result_get->results[0].successful);
-    ASSERT_STREQ(result_get->results[0].reason.c_str(), "");
-  }
-
-  {
-    auto client = node_->create_client<rcl_interfaces::srv::GetLoggerLevels>(
-      "/test/test_logger_service/get_logger_levels");
-    ASSERT_TRUE(client->wait_for_service(1s));
-    auto request = std::make_shared<rcl_interfaces::srv::GetLoggerLevels::Request>();
-    request->names.emplace_back(test_logger_name);
-    auto result = client->async_send_request(request);
-    ASSERT_EQ(
-      rclcpp::spin_until_future_complete(node_, result),
-      rclcpp::FutureReturnCode::SUCCESS);
-    auto result_get = result.get();
-    ASSERT_EQ(result_get->levels.size(), 1u);
-    ASSERT_STREQ(result_get->levels[0].name.c_str(), test_logger_name.c_str());
-    ASSERT_EQ(result_get->levels[0].level, test_logger_level);
-  }
-}
-
-TEST_F(TestLoggerService, test_set_and_get_multi_logging_level) {
-  std::vector<std::pair<std::string, uint8_t>> test_data {
-    {"rcl", 30},
-    {"rclcpp", 40},
-    {"/test/test_logger_service", 50}
-  };
-
-  // Set multi log levels
-  {
-    auto client = node_->create_client<rcl_interfaces::srv::SetLoggerLevels>(
-      "/test/test_logger_service/set_logger_levels");
-    ASSERT_TRUE(client->wait_for_service(1s));
-    auto request = std::make_shared<rcl_interfaces::srv::SetLoggerLevels::Request>();
-    for (auto & set_level : test_data) {
-      auto level = rcl_interfaces::msg::LoggerLevel();
-      level.name = std::get<0>(set_level);
-      level.level = std::get<1>(set_level);
-      request->levels.push_back(level);
-    }
-    auto result = client->async_send_request(request);
-    ASSERT_EQ(
-      rclcpp::spin_until_future_complete(node_, result),
-      rclcpp::FutureReturnCode::SUCCESS);
-    auto result_get = result.get();
-    ASSERT_EQ(result_get->results.size(), test_data.size());
-    for (uint32_t i = 0; i < test_data.size(); i++) {
-      ASSERT_TRUE(result_get->results[0].successful);
-    }
-  }
-
-  // Get multi log levels
-  {
-    auto client = node_->create_client<rcl_interfaces::srv::GetLoggerLevels>(
-      "/test/test_logger_service/get_logger_levels");
-    ASSERT_TRUE(client->wait_for_service(1s));
-    auto request = std::make_shared<rcl_interfaces::srv::GetLoggerLevels::Request>();
-    for (auto & set_level : test_data) {
-      request->names.emplace_back(std::get<0>(set_level));
-    }
-    auto result = client->async_send_request(request);
-    ASSERT_EQ(
-      rclcpp::spin_until_future_complete(node_, result),
-      rclcpp::FutureReturnCode::SUCCESS);
-    auto result_get = result.get();
-    ASSERT_EQ(result_get->levels.size(), test_data.size());
-    for (uint32_t i = 0; i < test_data.size(); i++) {
-      ASSERT_STREQ(result_get->levels[i].name.c_str(), std::get<0>(test_data[i]).c_str());
-      ASSERT_EQ(result_get->levels[i].level, std::get<1>(test_data[i]));
-    }
-  }
-}
-
-TEST_F(TestLoggerService, test_set_logging_level_with_invalid_param) {
-  std::vector<std::pair<std::string, uint8_t>> test_data {
-    {"rcl", 12},
-    {"/test/test_logger_service", 22}
-  };
-
-  // Set multi log levels
-  {
-    auto client = node_->create_client<rcl_interfaces::srv::SetLoggerLevels>(
-      "/test/test_logger_service/set_logger_levels");
-    ASSERT_TRUE(client->wait_for_service(1s));
-    auto request = std::make_shared<rcl_interfaces::srv::SetLoggerLevels::Request>();
-    for (auto & set_level : test_data) {
-      auto level = rcl_interfaces::msg::LoggerLevel();
-      level.name = std::get<0>(set_level);
-      level.level = std::get<1>(set_level);
-      request->levels.push_back(level);
-    }
-    auto result = client->async_send_request(request);
-    ASSERT_EQ(
-      rclcpp::spin_until_future_complete(node_, result),
-      rclcpp::FutureReturnCode::SUCCESS);
-    auto result_get = result.get();
-    ASSERT_EQ(result_get->results.size(), test_data.size());
-    for (uint32_t i = 0; i < test_data.size(); i++) {
-      ASSERT_FALSE(result_get->results[i].successful);
-      // Check string starts with prefix
-      ASSERT_EQ(
-        result_get->results[i].reason.rfind("Unable to determine severity_string for severity", 0),
-        0);
-    }
-  }
-}
-
-TEST_F(TestLoggerService, test_set_logging_level_with_partial_invalid_param) {
-  std::vector<std::pair<std::string, uint8_t>> test_data {
-    {"rcl", 20},
-    {"rclcpp", 22},
-    {"/test/test_logger_service", 30}
-  };
-
-  // Set multi log levels
-  {
-    auto client = node_->create_client<rcl_interfaces::srv::SetLoggerLevels>(
-      "/test/test_logger_service/set_logger_levels");
-    ASSERT_TRUE(client->wait_for_service(1s));
-    auto request = std::make_shared<rcl_interfaces::srv::SetLoggerLevels::Request>();
-    for (auto & set_level : test_data) {
-      auto level = rcl_interfaces::msg::LoggerLevel();
-      level.name = std::get<0>(set_level);
-      level.level = std::get<1>(set_level);
-      request->levels.push_back(level);
-    }
-    auto result = client->async_send_request(request);
-    ASSERT_EQ(
-      rclcpp::spin_until_future_complete(node_, result),
-      rclcpp::FutureReturnCode::SUCCESS);
-    auto result_get = result.get();
-    ASSERT_EQ(result_get->results.size(), test_data.size());
-    ASSERT_TRUE(result_get->results[0].successful);
-    ASSERT_FALSE(result_get->results[1].successful);
-    ASSERT_TRUE(result_get->results[2].successful);
-  }
-}

rclcpp/test/rclcpp/test_node_options.cpp

@@ -266,11 +266,6 @@ TEST(TestNodeOptions, bool_setters_and_getters) {
   EXPECT_FALSE(options.automatically_declare_parameters_from_overrides());
   options.automatically_declare_parameters_from_overrides(true);
   EXPECT_TRUE(options.automatically_declare_parameters_from_overrides());
-
-  options.enable_logger_service(false);
-  EXPECT_FALSE(options.enable_logger_service());
-  options.enable_logger_service(true);
-  EXPECT_TRUE(options.enable_logger_service());
 }
 
 TEST(TestNodeOptions, parameter_event_qos) {

rclcpp/test/rclcpp/test_timers_manager.cpp

@@ -1,419 +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.
-
-#include <gtest/gtest.h>
-
-#include <chrono>
-#include <memory>
-#include <utility>
-
-#include "rclcpp/contexts/default_context.hpp"
-#include "rclcpp/experimental/timers_manager.hpp"
-
-using namespace std::chrono_literals;
-
-using rclcpp::experimental::TimersManager;
-
-using CallbackT = std::function<void ()>;
-using TimerT = rclcpp::WallTimer<CallbackT>;
-
-class TestTimersManager : public ::testing::Test
-{
-public:
-  void SetUp()
-  {
-    rclcpp::init(0, nullptr);
-  }
-
-  void TearDown()
-  {
-    rclcpp::shutdown();
-  }
-};
-
-static void execute_all_ready_timers(std::shared_ptr<TimersManager> timers_manager)
-{
-  bool head_was_ready = false;
-  do {
-    head_was_ready = timers_manager->execute_head_timer();
-  } while (head_was_ready);
-}
-
-TEST_F(TestTimersManager, empty_manager)
-{
-  auto timers_manager = std::make_shared<TimersManager>(
-    rclcpp::contexts::get_global_default_context());
-
-  EXPECT_EQ(std::chrono::nanoseconds::max(), timers_manager->get_head_timeout());
-  EXPECT_FALSE(timers_manager->execute_head_timer());
-  EXPECT_NO_THROW(timers_manager->clear());
-  EXPECT_NO_THROW(timers_manager->start());
-  EXPECT_NO_THROW(timers_manager->stop());
-}
-
-TEST_F(TestTimersManager, add_run_remove_timer)
-{
-  size_t t_runs = 0;
-  auto t = TimerT::make_shared(
-    10ms,
-    [&t_runs]() {
-      t_runs++;
-    },
-    rclcpp::contexts::get_global_default_context());
-  std::weak_ptr<TimerT> t_weak = t;
-
-  // Add the timer to the timers manager
-  auto timers_manager = std::make_shared<TimersManager>(
-    rclcpp::contexts::get_global_default_context());
-  timers_manager->add_timer(t);
-
-  // Sleep for more 3 times the timer period
-  std::this_thread::sleep_for(30ms);
-
-  // The timer is executed only once, even if we slept 3 times the period
-  execute_all_ready_timers(timers_manager);
-  EXPECT_EQ(1u, t_runs);
-
-  // Remove the timer from the manager
-  timers_manager->remove_timer(t);
-
-  t.reset();
-  // The timer is now not valid anymore
-  EXPECT_FALSE(t_weak.lock() != nullptr);
-}
-
-TEST_F(TestTimersManager, clear)
-{
-  auto timers_manager = std::make_shared<TimersManager>(
-    rclcpp::contexts::get_global_default_context());
-
-  auto t1 = TimerT::make_shared(1ms, CallbackT(), rclcpp::contexts::get_global_default_context());
-  std::weak_ptr<TimerT> t1_weak = t1;
-  auto t2 = TimerT::make_shared(1ms, CallbackT(), rclcpp::contexts::get_global_default_context());
-  std::weak_ptr<TimerT> t2_weak = t2;
-
-  timers_manager->add_timer(t1);
-  timers_manager->add_timer(t2);
-
-  EXPECT_TRUE(t1_weak.lock() != nullptr);
-  EXPECT_TRUE(t2_weak.lock() != nullptr);
-
-  timers_manager->clear();
-
-  t1.reset();
-  t2.reset();
-
-  EXPECT_FALSE(t1_weak.lock() != nullptr);
-  EXPECT_FALSE(t2_weak.lock() != nullptr);
-}
-
-TEST_F(TestTimersManager, remove_not_existing_timer)
-{
-  auto timers_manager = std::make_shared<TimersManager>(
-    rclcpp::contexts::get_global_default_context());
-
-  // Try to remove a nullptr timer
-  EXPECT_NO_THROW(timers_manager->remove_timer(nullptr));
-
-  auto t = TimerT::make_shared(1ms, CallbackT(), rclcpp::contexts::get_global_default_context());
-  timers_manager->add_timer(t);
-
-  // Remove twice the same timer
-  timers_manager->remove_timer(t);
-  EXPECT_NO_THROW(timers_manager->remove_timer(t));
-}
-
-TEST_F(TestTimersManager, timers_thread_exclusive_usage)
-{
-  auto timers_manager = std::make_shared<TimersManager>(
-    rclcpp::contexts::get_global_default_context());
-
-  timers_manager->start();
-
-  EXPECT_THROW(timers_manager->start(), std::exception);
-  EXPECT_THROW(timers_manager->get_head_timeout(), std::exception);
-  EXPECT_THROW(timers_manager->execute_head_timer(), std::exception);
-
-  timers_manager->stop();
-
-  EXPECT_NO_THROW(timers_manager->get_head_timeout());
-  EXPECT_NO_THROW(timers_manager->execute_head_timer());
-}
-
-TEST_F(TestTimersManager, add_timer_twice)
-{
-  auto timers_manager = std::make_shared<TimersManager>(
-    rclcpp::contexts::get_global_default_context());
-
-  auto t = TimerT::make_shared(1ms, CallbackT(), rclcpp::contexts::get_global_default_context());
-
-  timers_manager->add_timer(t);
-  EXPECT_NO_THROW(timers_manager->add_timer(t));
-}
-
-TEST_F(TestTimersManager, add_nullptr)
-{
-  auto timers_manager = std::make_shared<TimersManager>(
-    rclcpp::contexts::get_global_default_context());
-
-  EXPECT_THROW(timers_manager->add_timer(nullptr), std::exception);
-}
-
-TEST_F(TestTimersManager, head_not_ready)
-{
-  auto timers_manager = std::make_shared<TimersManager>(
-    rclcpp::contexts::get_global_default_context());
-
-  size_t t_runs = 0;
-  auto t = TimerT::make_shared(
-    10s,
-    [&t_runs]() {
-      t_runs++;
-    },
-    rclcpp::contexts::get_global_default_context());
-
-  timers_manager->add_timer(t);
-
-  // Timer will take 10s to get ready, so nothing to execute here
-  bool ret = timers_manager->execute_head_timer();
-  EXPECT_FALSE(ret);
-  EXPECT_EQ(0u, t_runs);
-}
-
-TEST_F(TestTimersManager, timers_order)
-{
-  auto timers_manager = std::make_shared<TimersManager>(
-    rclcpp::contexts::get_global_default_context());
-
-  size_t t1_runs = 0;
-  auto t1 = TimerT::make_shared(
-    10ms,
-    [&t1_runs]() {
-      t1_runs++;
-    },
-    rclcpp::contexts::get_global_default_context());
-
-  size_t t2_runs = 0;
-  auto t2 = TimerT::make_shared(
-    30ms,
-    [&t2_runs]() {
-      t2_runs++;
-    },
-    rclcpp::contexts::get_global_default_context());
-
-  size_t t3_runs = 0;
-  auto t3 = TimerT::make_shared(
-    100ms,
-    [&t3_runs]() {
-      t3_runs++;
-    },
-    rclcpp::contexts::get_global_default_context());
-
-  // Add timers in a random order
-  timers_manager->add_timer(t2);
-  timers_manager->add_timer(t3);
-  timers_manager->add_timer(t1);
-
-  std::this_thread::sleep_for(10ms);
-  execute_all_ready_timers(timers_manager);
-  EXPECT_EQ(1u, t1_runs);
-  EXPECT_EQ(0u, t2_runs);
-  EXPECT_EQ(0u, t3_runs);
-
-  std::this_thread::sleep_for(30ms);
-  execute_all_ready_timers(timers_manager);
-  EXPECT_EQ(2u, t1_runs);
-  EXPECT_EQ(1u, t2_runs);
-  EXPECT_EQ(0u, t3_runs);
-
-  std::this_thread::sleep_for(100ms);
-  execute_all_ready_timers(timers_manager);
-  EXPECT_EQ(3u, t1_runs);
-  EXPECT_EQ(2u, t2_runs);
-  EXPECT_EQ(1u, t3_runs);
-
-  timers_manager->remove_timer(t1);
-
-  std::this_thread::sleep_for(30ms);
-  execute_all_ready_timers(timers_manager);
-  EXPECT_EQ(3u, t1_runs);
-  EXPECT_EQ(3u, t2_runs);
-  EXPECT_EQ(1u, t3_runs);
-}
-
-TEST_F(TestTimersManager, start_stop_timers_thread)
-{
-  auto timers_manager = std::make_shared<TimersManager>(
-    rclcpp::contexts::get_global_default_context());
-
-  auto t = TimerT::make_shared(1ms, []() {}, rclcpp::contexts::get_global_default_context());
-  timers_manager->add_timer(t);
-
-  // Calling start multiple times will throw an error
-  EXPECT_NO_THROW(timers_manager->start());
-  EXPECT_THROW(timers_manager->start(), std::exception);
-
-  // Calling stop multiple times does not throw an error
-  EXPECT_NO_THROW(timers_manager->stop());
-  EXPECT_NO_THROW(timers_manager->stop());
-}
-
-TEST_F(TestTimersManager, timers_thread)
-{
-  auto timers_manager = std::make_shared<TimersManager>(
-    rclcpp::contexts::get_global_default_context());
-
-  size_t t1_runs = 0;
-  auto t1 = TimerT::make_shared(
-    1ms,
-    [&t1_runs]() {
-      t1_runs++;
-    },
-    rclcpp::contexts::get_global_default_context());
-
-  size_t t2_runs = 0;
-  auto t2 = TimerT::make_shared(
-    1ms,
-    [&t2_runs]() {
-      t2_runs++;
-    },
-    rclcpp::contexts::get_global_default_context());
-
-  // Add timers
-  timers_manager->add_timer(t1);
-  timers_manager->add_timer(t2);
-
-  // Run timers thread for a while
-  timers_manager->start();
-  std::this_thread::sleep_for(5ms);
-  timers_manager->stop();
-
-  EXPECT_LT(1u, t1_runs);
-  EXPECT_LT(1u, t2_runs);
-  EXPECT_EQ(t1_runs, t2_runs);
-}
-
-TEST_F(TestTimersManager, destructor)
-{
-  size_t t_runs = 0;
-  auto t = TimerT::make_shared(
-    1ms,
-    [&t_runs]() {
-      t_runs++;
-    },
-    rclcpp::contexts::get_global_default_context());
-  std::weak_ptr<TimerT> t_weak = t;
-
-  // When the timers manager is destroyed, it will stop the thread
-  // and clear the timers
-  {
-    auto timers_manager = std::make_shared<TimersManager>(
-      rclcpp::contexts::get_global_default_context());
-
-    timers_manager->add_timer(t);
-
-    timers_manager->start();
-    std::this_thread::sleep_for(100ms);
-
-    EXPECT_LT(1u, t_runs);
-  }
-
-  // The thread is not running anymore, so this value does not increase
-  size_t runs = t_runs;
-  std::this_thread::sleep_for(100ms);
-  EXPECT_EQ(runs, t_runs);
-  t.reset();
-  EXPECT_FALSE(t_weak.lock() != nullptr);
-}
-
-TEST_F(TestTimersManager, add_remove_while_thread_running)
-{
-  auto timers_manager = std::make_shared<TimersManager>(
-    rclcpp::contexts::get_global_default_context());
-
-  size_t t1_runs = 0;
-  auto t1 = TimerT::make_shared(
-    1ms,
-    [&t1_runs]() {
-      t1_runs++;
-    },
-    rclcpp::contexts::get_global_default_context());
-
-  size_t t2_runs = 0;
-  auto t2 = TimerT::make_shared(
-    1ms,
-    [&t2_runs]() {
-      t2_runs++;
-    },
-    rclcpp::contexts::get_global_default_context());
-
-  // Add timers
-  timers_manager->add_timer(t1);
-
-  // Start timers thread
-  timers_manager->start();
-
-  // After a while remove t1 and add t2
-  std::this_thread::sleep_for(5ms);
-  timers_manager->remove_timer(t1);
-  size_t tmp_t1 = t1_runs;
-  timers_manager->add_timer(t2);
-
-  // Wait some more time and then stop
-  std::this_thread::sleep_for(5ms);
-  timers_manager->stop();
-
-  // t1 has stopped running
-  EXPECT_EQ(tmp_t1, t1_runs);
-  // t2 is correctly running
-  EXPECT_LT(1u, t2_runs);
-}
-
-TEST_F(TestTimersManager, infinite_loop)
-{
-  // This test makes sure that even if timers have a period shorter than the duration
-  // of their callback the functions never block indefinitely.
-
-  auto timers_manager = std::make_shared<TimersManager>(
-    rclcpp::contexts::get_global_default_context());
-
-  size_t t1_runs = 0;
-  auto t1 = TimerT::make_shared(
-    1ms,
-    [&t1_runs]() {
-      t1_runs++;
-      std::this_thread::sleep_for(5ms);
-    },
-    rclcpp::contexts::get_global_default_context());
-
-  size_t t2_runs = 0;
-  auto t2 = TimerT::make_shared(
-    1ms,
-    [&t2_runs]() {
-      t2_runs++;
-      std::this_thread::sleep_for(5ms);
-    },
-    rclcpp::contexts::get_global_default_context());
-
-  timers_manager->add_timer(t1);
-  timers_manager->add_timer(t2);
-
-  // Start a timers thread and make sure that we can stop it later
-  timers_manager->start();
-  std::this_thread::sleep_for(50ms);
-  timers_manager->stop();
-
-  EXPECT_LT(0u, t1_runs);
-  EXPECT_LT(0u, t2_runs);
-}

rclcpp_action/CHANGELOG.rst

@@ -3,19 +3,6 @@ Changelog for package rclcpp_action
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
 
 
-21.1.0 (2023-04-27)
--------------------
-
-21.0.0 (2023-04-18)
--------------------
-
-20.0.0 (2023-04-13)
--------------------
-* extract the result response before the callback is issued. (`#2132 <https://github.com/ros2/rclcpp/issues/2132>`_)
-* Update all rclcpp packages to C++17. (`#2121 <https://github.com/ros2/rclcpp/issues/2121>`_)
-* Fix the GoalUUID to_string representation (`#1999 <https://github.com/ros2/rclcpp/issues/1999>`_)
-* Contributors: Chris Lalancette, Nathan Wiebe Neufeldt, Tomoya Fujita
-
 19.3.0 (2023-03-01)
 -------------------
 

rclcpp_action/package.xml

@@ -2,7 +2,7 @@
 <?xml-model href="http://download.ros.org/schema/package_format2.xsd" schematypens="http://www.w3.org/2001/XMLSchema"?>
 <package format="2">
   <name>rclcpp_action</name>
-  <version>21.1.0</version>
+  <version>19.3.0</version>
   <description>Adds action APIs for C++.</description>
 
   <maintainer email="ivanpauno@ekumenlabs.com">Ivan Paunovic</maintainer>

rclcpp_components/CHANGELOG.rst

@@ -2,17 +2,6 @@
 Changelog for package rclcpp_components
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
 
-21.1.0 (2023-04-27)
--------------------
-
-21.0.0 (2023-04-18)
--------------------
-
-20.0.0 (2023-04-13)
--------------------
-* Update all rclcpp packages to C++17. (`#2121 <https://github.com/ros2/rclcpp/issues/2121>`_)
-* Contributors: Chris Lalancette
-
 19.3.0 (2023-03-01)
 -------------------
 

rclcpp_components/package.xml

@@ -2,7 +2,7 @@
 <?xml-model href="http://download.ros.org/schema/package_format2.xsd" schematypens="http://www.w3.org/2001/XMLSchema"?>
 <package format="2">
   <name>rclcpp_components</name>
-  <version>21.1.0</version>
+  <version>19.3.0</version>
   <description>Package containing tools for dynamically loadable components</description>
 
   <maintainer email="ivanpauno@ekumenlabs.com">Ivan Paunovic</maintainer>

rclcpp_lifecycle/CHANGELOG.rst

@@ -3,23 +3,6 @@ Changelog for package rclcpp_lifecycle
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
 
 
-21.1.0 (2023-04-27)
--------------------
-
-21.0.0 (2023-04-18)
--------------------
-* Add support for logging service. (`#2122 <https://github.com/ros2/rclcpp/issues/2122>`_)
-* Support publishing loaned messages in LifecyclePublisher (`#2159 <https://github.com/ros2/rclcpp/issues/2159>`_)
-* Contributors: Lei Liu, Michael Babenko
-
-20.0.0 (2023-04-13)
--------------------
-* Fixes to silence some clang warnings. (`#2127 <https://github.com/ros2/rclcpp/issues/2127>`_)
-* Update all rclcpp packages to C++17. (`#2121 <https://github.com/ros2/rclcpp/issues/2121>`_)
-* Use the correct macro for LifecycleNode::get_fully_qualified_name (`#2117 <https://github.com/ros2/rclcpp/issues/2117>`_)
-* add get_fully_qualified_name to rclcpp_lifecycle (`#2115 <https://github.com/ros2/rclcpp/issues/2115>`_)
-* Contributors: Chris Lalancette, Steve Macenski
-
 19.3.0 (2023-03-01)
 -------------------
 

rclcpp_lifecycle/include/rclcpp_lifecycle/lifecycle_publisher.hpp

@@ -91,24 +91,6 @@ public:
     rclcpp::Publisher<MessageT, Alloc>::publish(msg);
   }
 
-  /// LifecyclePublisher publish function
-  /**
-   * The publish function checks whether the communication
-   * was enabled or disabled and forwards the message
-   * to the actual rclcpp Publisher base class
-   */
-  virtual void
-  publish(
-    rclcpp::LoanedMessage<typename rclcpp::Publisher<MessageT,
-    Alloc>::ROSMessageType, Alloc> && loaned_msg)
-  {
-    if (!this->is_activated()) {
-      log_publisher_not_enabled();
-      return;
-    }
-    rclcpp::Publisher<MessageT, Alloc>::publish(std::move(loaned_msg));
-  }
-
   void
   on_activate() override
   {

rclcpp_lifecycle/package.xml

@@ -2,7 +2,7 @@
 <?xml-model href="http://download.ros.org/schema/package_format2.xsd" schematypens="http://www.w3.org/2001/XMLSchema"?>
 <package format="2">
   <name>rclcpp_lifecycle</name>
-  <version>21.1.0</version>
+  <version>19.3.0</version>
   <description>Package containing a prototype for lifecycle implementation</description>
 
   <maintainer email="ivanpauno@ekumenlabs.com">Ivan Paunovic</maintainer>

rclcpp_lifecycle/src/lifecycle_node.cpp

@@ -76,7 +76,7 @@ LifecycleNode::LifecycleNode(
       options.use_intra_process_comms(),
       options.enable_topic_statistics())),
   node_graph_(new rclcpp::node_interfaces::NodeGraph(node_base_.get())),
-  node_logging_(new rclcpp::node_interfaces::NodeLogging(node_base_)),
+  node_logging_(new rclcpp::node_interfaces::NodeLogging(node_base_.get())),
   node_timers_(new rclcpp::node_interfaces::NodeTimers(node_base_.get())),
   node_topics_(new rclcpp::node_interfaces::NodeTopics(node_base_.get(), node_timers_.get())),
   node_services_(new rclcpp::node_interfaces::NodeServices(node_base_.get())),

rclcpp_lifecycle/test/test_lifecycle_publisher.cpp

@@ -129,10 +129,6 @@ TEST_P(TestLifecyclePublisher, publish_managed_by_node) {
     auto msg_ptr = std::make_unique<test_msgs::msg::Empty>();
     EXPECT_NO_THROW(node_->publisher()->publish(std::move(msg_ptr)));
   }
-  {
-    auto loaned_msg = node_->publisher()->borrow_loaned_message();
-    EXPECT_NO_THROW(node_->publisher()->publish(std::move(loaned_msg)));
-  }
   node_->trigger_transition(
     rclcpp_lifecycle::Transition(Transition::TRANSITION_DEACTIVATE), ret);
   ASSERT_EQ(success, ret);
@@ -147,10 +143,6 @@ TEST_P(TestLifecyclePublisher, publish_managed_by_node) {
     auto msg_ptr = std::make_unique<test_msgs::msg::Empty>();
     EXPECT_NO_THROW(node_->publisher()->publish(std::move(msg_ptr)));
   }
-  {
-    auto loaned_msg = node_->publisher()->borrow_loaned_message();
-    EXPECT_NO_THROW(node_->publisher()->publish(std::move(loaned_msg)));
-  }
 }
 
 TEST_P(TestLifecyclePublisher, publish) {
@@ -165,10 +157,6 @@ TEST_P(TestLifecyclePublisher, publish) {
     auto msg_ptr = std::make_unique<test_msgs::msg::Empty>();
     EXPECT_NO_THROW(node_->publisher()->publish(std::move(msg_ptr)));
   }
-  {
-    auto loaned_msg = node_->publisher()->borrow_loaned_message();
-    EXPECT_NO_THROW(node_->publisher()->publish(std::move(loaned_msg)));
-  }
   node_->publisher()->on_activate();
   EXPECT_TRUE(node_->publisher()->is_activated());
   {
@@ -179,10 +167,6 @@ TEST_P(TestLifecyclePublisher, publish) {
     auto msg_ptr = std::make_unique<test_msgs::msg::Empty>();
     EXPECT_NO_THROW(node_->publisher()->publish(std::move(msg_ptr)));
   }
-  {
-    auto loaned_msg = node_->publisher()->borrow_loaned_message();
-    EXPECT_NO_THROW(node_->publisher()->publish(std::move(loaned_msg)));
-  }
 }
 
 INSTANTIATE_TEST_SUITE_P(