/* License: Apache 2.0. See LICENSE file in root directory.
Copyright(c) 2017 Intel Corporation. All Rights Reserved. */
/** \file rs_pipeline.h
* \brief
* Exposes RealSense processing-block functionality for C compilers
*/
#ifndef LIBREALSENSE_RS2_PIPELINE_H
#define LIBREALSENSE_RS2_PIPELINE_H
#ifdef __cplusplus
extern "C" {
#endif
#include "rs_types.h"
#include "rs_sensor.h"
#include "rs_config.h"
/**
* Create a pipeline instance
* The pipeline simplifies the user interaction with the device and computer vision processing modules.
* The class abstracts the camera configuration and streaming, and the vision modules triggering and threading.
* It lets the application focus on the computer vision output of the modules, or the device output data.
* The pipeline can manage computer vision modules, which are implemented as a processing blocks.
* The pipeline is the consumer of the processing block interface, while the application consumes the
* computer vision interface.
* \param[in] ctx context
* \param[out] error if non-null, receives any error that occurs during this call, otherwise, errors are ignored
*/
rs2_pipeline* rs2_create_pipeline(rs2_context* ctx, rs2_error ** error);
/**
* Stop the pipeline streaming.
* The pipeline stops delivering samples to the attached computer vision modules and processing blocks, stops the device streaming
* and releases the device resources used by the pipeline. It is the application's responsibility to release any frame reference it owns.
* The method takes effect only after \c start() was called, otherwise an exception is raised.
* \param[in] pipe pipeline
* \param[out] error if non-null, receives any error that occurs during this call, otherwise, errors are ignored
*/
void rs2_pipeline_stop(rs2_pipeline* pipe, rs2_error ** error);
/**
* Wait until a new set of frames becomes available.
* The frames set includes time-synchronized frames of each enabled stream in the pipeline.
* The method blocks the calling thread, and fetches the latest unread frames set.
* Device frames, which were produced while the function wasn't called, are dropped. To avoid frame drops, this method should be called
* as fast as the device frame rate.
* The application can maintain the frames handles to defer processing. However, if the application maintains too long history, the device
* may lack memory resources to produce new frames, and the following call to this method shall fail to retrieve new frames, until resources
* are retained.
* \param[in] pipe the pipeline
* \param[in] timeout_ms Max time in milliseconds to wait until an exception will be thrown
* \param[out] error if non-null, receives any error that occurs during this call, otherwise, errors are ignored
* \return Set of coherent frames
*/
rs2_frame* rs2_pipeline_wait_for_frames(rs2_pipeline* pipe, unsigned int timeout_ms, rs2_error ** error);
/**
* Check if a new set of frames is available and retrieve the latest undelivered set.
* The frames set includes time-synchronized frames of each enabled stream in the pipeline.
* The method returns without blocking the calling thread, with status of new frames available or not. If available, it fetches the
* latest frames set.
* Device frames, which were produced while the function wasn't called, are dropped. To avoid frame drops, this method should be called
* as fast as the device frame rate.
* The application can maintain the frames handles to defer processing. However, if the application maintains too long history, the device
* may lack memory resources to produce new frames, and the following calls to this method shall return no new frames, until resources are
* retained.
* \param[in] pipe the pipeline
* \param[out] output_frame frame handle to be released using rs2_release_frame
* \param[out] error if non-null, receives any error that occurs during this call, otherwise, errors are ignored
* \return true if new frame was stored to output_frame
*/
int rs2_pipeline_poll_for_frames(rs2_pipeline* pipe, rs2_frame** output_frame, rs2_error ** error);
/**
* Wait until a new set of frames becomes available.
* The frames set includes time-synchronized frames of each enabled stream in the pipeline.
* The method blocks the calling thread, and fetches the latest unread frames set.
* Device frames, which were produced while the function wasn't called, are dropped. To avoid frame drops, this method should be called
* as fast as the device frame rate.
* The application can maintain the frames handles to defer processing. However, if the application maintains too long history, the device
* may lack memory resources to produce new frames, and the following call to this method shall fail to retrieve new frames, until resources
* are retained.
* \param[in] pipe the pipeline
* \param[in] timeout_ms max time in milliseconds to wait until a frame becomes available
* \param[out] output_frame frame handle to be released using rs2_release_frame
* \param[out] error if non-null, receives any error that occurs during this call, otherwise, errors are ignored
* \return true if new frame was stored to output_frame
*/
int rs2_pipeline_try_wait_for_frames(rs2_pipeline* pipe, rs2_frame** output_frame, unsigned int timeout_ms, rs2_error ** error);
/**
* Delete a pipeline instance.
* Upon destruction, the pipeline will implicitly stop itself
* \param[in] pipe to delete
*/
void rs2_delete_pipeline(rs2_pipeline* pipe);
/**
* Start the pipeline streaming with its default configuration.
* The pipeline streaming loop captures samples from the device, and delivers them to the attached computer vision modules
* and processing blocks, according to each module requirements and threading model.
* During the loop execution, the application can access the camera streams by calling \c wait_for_frames() or \c poll_for_frames().
* The streaming loop runs until the pipeline is stopped.
* Starting the pipeline is possible only when it is not started. If the pipeline was started, an exception is raised.
*
* \param[in] pipe a pointer to an instance of the pipeline
* \param[out] error if non-null, receives any error that occurs during this call, otherwise, errors are ignored
* \return The actual pipeline device and streams profile, which was successfully configured to the streaming device.
*/
rs2_pipeline_profile* rs2_pipeline_start(rs2_pipeline* pipe, rs2_error ** error);
/**
* Start the pipeline streaming according to the configuraion.
* The pipeline streaming loop captures samples from the device, and delivers them to the attached computer vision modules
* and processing blocks, according to each module requirements and threading model.
* During the loop execution, the application can access the camera streams by calling \c wait_for_frames() or \c poll_for_frames().
* The streaming loop runs until the pipeline is stopped.
* Starting the pipeline is possible only when it is not started. If the pipeline was started, an exception is raised.
* The pipeline selects and activates the device upon start, according to configuration or a default configuration.
* When the rs2::config is provided to the method, the pipeline tries to activate the config \c resolve() result. If the application
* requests are conflicting with pipeline computer vision modules or no matching device is available on the platform, the method fails.
* Available configurations and devices may change between config \c resolve() call and pipeline start, in case devices are connected
* or disconnected, or another application acquires ownership of a device.
*
* \param[in] pipe a pointer to an instance of the pipeline
* \param[in] config A rs2::config with requested filters on the pipeline configuration. By default no filters are applied.
* \param[out] error if non-null, receives any error that occurs during this call, otherwise, errors are ignored
* \return The actual pipeline device and streams profile, which was successfully configured to the streaming device.
*/
rs2_pipeline_profile* rs2_pipeline_start_with_config(rs2_pipeline* pipe, rs2_config* config, rs2_error ** error);
/**
* Start the pipeline streaming with its default configuration.
* The pipeline captures samples from the device, and delivers them to the through the provided frame callback.
* Starting the pipeline is possible only when it is not started. If the pipeline was started, an exception is raised.
* When starting the pipeline with a callback both \c wait_for_frames() or \c poll_for_frames() will throw exception.
*
* \param[in] pipe A pointer to an instance of the pipeline
* \param[in] on_frame function pointer to register as per-frame callback
* \param[in] user auxiliary data the user wishes to receive together with every frame callback
* \param[out] error If non-null, receives any error that occurs during this call, otherwise, errors are ignored
* \return The actual pipeline device and streams profile, which was successfully configured to the streaming device.
*/
rs2_pipeline_profile* rs2_pipeline_start_with_callback(rs2_pipeline* pipe, rs2_frame_callback_ptr on_frame, void* user, rs2_error ** error);
/**
* Start the pipeline streaming with its default configuration.
* The pipeline captures samples from the device, and delivers them to the through the provided frame callback.
* Starting the pipeline is possible only when it is not started. If the pipeline was started, an exception is raised.
* When starting the pipeline with a callback both \c wait_for_frames() or \c poll_for_frames() will throw exception.
*
* \param[in] pipe A pointer to an instance of the pipeline
* \param[in] callback callback object created from c++ application. ownership over the callback object is moved into the relevant streaming lock
* \param[out] error If non-null, receives any error that occurs during this call, otherwise, errors are ignored
* \return The actual pipeline device and streams profile, which was successfully configured to the streaming device.
*/
rs2_pipeline_profile* rs2_pipeline_start_with_callback_cpp(rs2_pipeline* pipe, rs2_frame_callback* callback, rs2_error ** error);
/**
* Start the pipeline streaming according to the configuraion.
* The pipeline captures samples from the device, and delivers them to the through the provided frame callback.
* Starting the pipeline is possible only when it is not started. If the pipeline was started, an exception is raised.
* When starting the pipeline with a callback both \c wait_for_frames() or \c poll_for_frames() will throw exception.
* The pipeline selects and activates the device upon start, according to configuration or a default configuration.
* When the rs2::config is provided to the method, the pipeline tries to activate the config \c resolve() result. If the application
* requests are conflicting with pipeline computer vision modules or no matching device is available on the platform, the method fails.
* Available configurations and devices may change between config \c resolve() call and pipeline start, in case devices are connected
* or disconnected, or another application acquires ownership of a device.
*
* \param[in] pipe A pointer to an instance of the pipeline
* \param[in] config A rs2::config with requested filters on the pipeline configuration. By default no filters are applied.
* \param[in] on_frame function pointer to register as per-frame callback
* \param[in] user auxiliary data the user wishes to receive together with every frame callback
* \param[out] error If non-null, receives any error that occurs during this call, otherwise, errors are ignored
* \return The actual pipeline device and streams profile, which was successfully configured to the streaming device.
*/
rs2_pipeline_profile* rs2_pipeline_start_with_config_and_callback(rs2_pipeline* pipe, rs2_config* config, rs2_frame_callback_ptr on_frame, void* user, rs2_error ** error);
/**
* Start the pipeline streaming according to the configuraion.
* The pipeline captures samples from the device, and delivers them to the through the provided frame callback.
* Starting the pipeline is possible only when it is not started. If the pipeline was started, an exception is raised.
* When starting the pipeline with a callback both \c wait_for_frames() or \c poll_for_frames() will throw exception.
* The pipeline selects and activates the device upon start, according to configuration or a default configuration.
* When the rs2::config is provided to the method, the pipeline tries to activate the config \c resolve() result. If the application
* requests are conflicting with pipeline computer vision modules or no matching device is available on the platform, the method fails.
* Available configurations and devices may change between config \c resolve() call and pipeline start, in case devices are connected
* or disconnected, or another application acquires ownership of a device.
*
* \param[in] pipe A pointer to an instance of the pipeline
* \param[in] config A rs2::config with requested filters on the pipeline configuration. By default no filters are applied.
* \param[in] callback callback object created from c++ application. ownership over the callback object is moved into the relevant streaming lock
* \param[out] error If non-null, receives any error that occurs during this call, otherwise, errors are ignored
* \return The actual pipeline device and streams profile, which was successfully configured to the streaming device.
*/
rs2_pipeline_profile* rs2_pipeline_start_with_config_and_callback_cpp(rs2_pipeline* pipe, rs2_config* config, rs2_frame_callback* callback, rs2_error ** error);
/**
* Return the active device and streams profiles, used by the pipeline.
* The pipeline streams profiles are selected during \c start(). The method returns a valid result only when the pipeline is active -
* between calls to \c start() and \c stop().
* After \c stop() is called, the pipeline doesn't own the device, thus, the pipeline selected device may change in subsequent activations.
*
* \param[in] pipe a pointer to an instance of the pipeline
* \param[out] error if non-null, receives any error that occurs during this call, otherwise, errors are ignored
* \return The actual pipeline device and streams profile, which was successfully configured to the streaming device on start.
*/
rs2_pipeline_profile* rs2_pipeline_get_active_profile(rs2_pipeline* pipe, rs2_error ** error);
/**
* Retrieve the device used by the pipeline.
* The device class provides the application access to control camera additional settings -
* get device information, sensor options information, options value query and set, sensor specific extensions.
* Since the pipeline controls the device streams configuration, activation state and frames reading, calling
* the device API functions, which execute those operations, results in unexpected behavior.
* The pipeline streaming device is selected during pipeline \c start(). Devices of profiles, which are not returned by
* pipeline \c start() or \c get_active_profile(), are not guaranteed to be used by the pipeline.
*
* \param[in] profile A pointer to an instance of a pipeline profile
* \param[out] error if non-null, receives any error that occurs during this call, otherwise, errors are ignored
* \return rs2_device* The pipeline selected device
*/
rs2_device* rs2_pipeline_profile_get_device(rs2_pipeline_profile* profile, rs2_error ** error);
/**
* Return the selected streams profiles, which are enabled in this profile.
*
* \param[in] profile A pointer to an instance of a pipeline profile
* \param[out] error if non-null, receives any error that occurs during this call, otherwise, errors are ignored
* \return list of stream profiles
*/
rs2_stream_profile_list* rs2_pipeline_profile_get_streams(rs2_pipeline_profile* profile, rs2_error** error);
/**
* Deletes an instance of a pipeline profile
*
* \param[in] profile A pointer to an instance of a pipeline profile
*/
void rs2_delete_pipeline_profile(rs2_pipeline_profile* profile);
#ifdef __cplusplus
}
#endif
#endif