File output_stream_handler.h
File List > framework > output_stream_handler.h
Go to the documentation of this file
// Copyright 2019 The MediaPipe Authors.
//
// 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 MEDIAPIPE_FRAMEWORK_OUTPUT_STREAM_HANDLER_H_
#define MEDIAPIPE_FRAMEWORK_OUTPUT_STREAM_HANDLER_H_
#include <functional>
#include <memory>
#include <set>
#include <string>
#include <unordered_map>
#include <unordered_set>
#include <utility>
// TODO: Move protos in another CL after the C++ code migration.
#include "absl/base/thread_annotations.h"
#include "absl/log/absl_check.h"
#include "absl/synchronization/mutex.h"
#include "mediapipe/framework/calculator_context_manager.h"
#include "mediapipe/framework/collection.h"
#include "mediapipe/framework/deps/registration.h"
#include "mediapipe/framework/mediapipe_options.pb.h"
#include "mediapipe/framework/output_stream_manager.h"
#include "mediapipe/framework/packet_set.h"
#include "mediapipe/framework/port/logging.h"
#include "mediapipe/framework/port/status.h"
#include "mediapipe/framework/timestamp.h"
#include "mediapipe/framework/tool/tag_map.h"
namespace mediapipe {
// Abstract base class for output stream handlers.
class OutputStreamHandler {
public:
// Handy typedef for a map from the name of an output stream to the set of
// ids of upstream sources that affect it.
typedef std::unordered_map<std::string, std::unordered_set<int>>
OutputStreamToSourcesMap;
typedef internal::Collection<OutputStreamManager*> OutputStreamManagerSet;
// The constructor of the OutputStreamHandler takes four arguments.
// The tag_map argument holds the information needed for tag/index retrieval
// for the output streams; the calculator_context_manager for managing the
// calculator context objects; the options argument varies for different
// output stream handler subclasses; the calculator_run_in_parallel argument
// indicates the execution mode (sequential executions vs parallel executions)
// of the calcualtor;
OutputStreamHandler(std::shared_ptr<tool::TagMap> tag_map,
CalculatorContextManager* calculator_context_manager,
const MediaPipeOptions& options,
bool calculator_run_in_parallel)
: output_stream_managers_(std::move(tag_map)),
calculator_context_manager_(calculator_context_manager),
options_(options),
calculator_run_in_parallel_(calculator_run_in_parallel) {
ABSL_CHECK(calculator_context_manager_);
}
virtual ~OutputStreamHandler() = default;
const MediaPipeOptions& Options() const { return options_; }
// Initializes the OutputStreamManagerSet object.
// flat_output_stream_managers is expected to point to a contiguous
// flat array with OutputStreamManagers corresponding to the id's in
// OutputStreamHandler::output_stream_managers_ (meaning it should
// point to somewhere in the middle of the main flat array of all
// output stream managers).
absl::Status InitializeOutputStreamManagers(
OutputStreamManager* flat_output_stream_managers);
// Sets up output shards by connecting to the managers.
absl::Status SetupOutputShards(OutputStreamShardSet* output_shards);
int NumOutputStreams() const { return output_stream_managers_.NumEntries(); }
// Returns the tag map of the output streams.
const std::shared_ptr<tool::TagMap>& OutputTagMap() const {
return output_stream_managers_.TagMap();
}
// Calls OutputStreamManager::PrepareForRun(error_callback) per stream, and
// resets data memebers.
void PrepareForRun(const std::function<void(absl::Status)>& error_callback)
ABSL_LOCKS_EXCLUDED(timestamp_mutex_);
// Marks the output streams as started and propagates any changes made in
// Calculator::Open().
void Open(OutputStreamShardSet* output_shards);
// Prepares the OutputStreamShardSet before a call to Calculator's Open(),
// Process(), or Close().
void PrepareOutputs(Timestamp input_timestamp,
OutputStreamShardSet* output_shards);
// Propagates timestamp directly if there is no ongoing parallel invocation.
// Otherwise, updates task_timestamp_bound_.
void UpdateTaskTimestampBound(Timestamp timestamp)
ABSL_LOCKS_EXCLUDED(timestamp_mutex_);
// Invoked after a call to Calculator::Process() function.
void PostProcess(Timestamp input_timestamp)
ABSL_LOCKS_EXCLUDED(timestamp_mutex_);
// Propagates the output shards and closes all managed output streams.
void Close(OutputStreamShardSet* output_shards);
// Returns the name of the first stream in the output stream manager
// collection for debugging purpose.
std::string FirstStreamName() const;
const OutputStreamManagerSet& OutputStreams() {
return output_stream_managers_;
}
protected:
// Checks if the given input bound should be propagated or not. If any output
// streams with OffsetEnabled() need to have the timestamp bounds updated,
// then propagates the timestamp bounds of all output streams with
// OffsetEnabled() by adding their offsets to the given input bound.
void TryPropagateTimestampBound(Timestamp input_bound);
// Computes the output timestamp bound and propagates output packets to
// downstream nodes.
void PropagateOutputPackets(Timestamp input_timestamp,
OutputStreamShardSet* output_shards);
// The packets and timestamp propagation logic for parallel execution.
virtual void PropagationLoop()
ABSL_EXCLUSIVE_LOCKS_REQUIRED(timestamp_mutex_) = 0;
// Collection of all OutputStreamManager objects.
OutputStreamManagerSet output_stream_managers_;
// A pointer to the calculator context manager of the calculator node.
CalculatorContextManager* const calculator_context_manager_;
MediaPipeOptions options_;
const bool calculator_run_in_parallel_;
absl::Mutex timestamp_mutex_;
// A set of the completed input timestamps in ascending order.
std::set<Timestamp> completed_input_timestamps_
ABSL_GUARDED_BY(timestamp_mutex_);
// The current minimum timestamp for which a new packet could possibly arrive.
// TODO: Rename the variable to be more descriptive.
Timestamp task_timestamp_bound_ ABSL_GUARDED_BY(timestamp_mutex_);
// PropagationState indicates the current state of the propagation process.
// There are eight possible transitions:
// (a) From kIdle to kPropagatingPackets.
// Any thread that makes this transition becomes the propagation thread, and
// will be responsible for propagating all available packets and the timestamp
// bound.
// (b) From kIdle to kPropagatingBound.
// Any thread that makes this transition becomes the propagation thread, and
// will be responsible for propagating all available packets and timestamp
// bound.
// (c) From kPropagatingPackets to kIdle.
// Made by the propagation thread after all available packets have been
// propagated. If timestamp bound propagation isn't necessary, the propagation
// process is considered to be completed.
// (d) From kPropagatingPackets to kPropagatingBound.
// Made by the propagation thread to indicate that packets propagation is
// completed, and it is going to do timestamp propagation without holding the
// timestamp_mutex_.
// (e) From kPropagatingBound to kPropagationPending.
// Any thread, except the propagation thread, can make this transition.
// kPropagationPending indicates that some recent changes require the
// propagation thread to recheck if any new packets or new timestamp bound can
// be propagated.
// (f) From kPropagationPending to kPropagatingPackets.
// Made by the propagation thread to mark that there are some new packets that
// need to be propagated.
// (g) From kPropagatingBound to kIdle.
// Made by the propagation thread when there is no more propagation work to
// be done.
// (h) From kPropagationPending to kIdle.
// Made by the propagation thread when the newly arrived packets and timestamp
// bound are still not ready to be propagated.
enum PropagationState {
kIdle = 0, //
kPropagatingPackets = 1, //
kPropagatingBound = 2, //
kPropagationPending = 3
};
PropagationState propagation_state_ ABSL_GUARDED_BY(timestamp_mutex_) = kIdle;
};
using OutputStreamHandlerRegistry = GlobalFactoryRegistry<
std::unique_ptr<OutputStreamHandler>, std::shared_ptr<tool::TagMap>,
CalculatorContextManager*, const MediaPipeOptions&, bool>;
} // namespace mediapipe
// Macro for registering the output stream handler.
#define REGISTER_OUTPUT_STREAM_HANDLER(name) \
REGISTER_FACTORY_FUNCTION_QUALIFIED( \
mediapipe::OutputStreamHandlerRegistry, output_handler_registration, \
name, \
absl::make_unique<name, std::shared_ptr<tool::TagMap>, \
CalculatorContextManager*, const MediaPipeOptions&, \
bool>)
#endif // MEDIAPIPE_FRAMEWORK_OUTPUT_STREAM_HANDLER_H_