-/*\r
-* copyright (c) 2010 Sveriges Television AB <info@casparcg.com>\r
-*\r
-* This file is part of CasparCG.\r
-*\r
-* CasparCG is free software: you can redistribute it and/or modify\r
-* it under the terms of the GNU General Public License as published by\r
-* the Free Software Foundation, either version 3 of the License, or\r
-* (at your option) any later version.\r
-*\r
-* CasparCG is distributed in the hope that it will be useful,\r
-* but WITHOUT ANY WARRANTY; without even the implied warranty of\r
-* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the\r
-* GNU General Public License for more details.\r
-\r
-* You should have received a copy of the GNU General Public License\r
-* along with CasparCG. If not, see <http://www.gnu.org/licenses/>.\r
-*\r
-*/\r
-\r
-#include "../StdAfx.h"\r
-\r
-#include "stage.h"\r
-\r
-#include "../video_channel_context.h"\r
-\r
-#include "layer.h"\r
-\r
-#include <core/producer/frame/basic_frame.h>\r
-#include <core/producer/frame/frame_factory.h>\r
-\r
-#include <common/concurrency/executor.h>\r
-\r
-#include <boost/range/algorithm.hpp>\r
-\r
-#include <tbb/parallel_for.h>\r
-\r
-#include <map>\r
-\r
-namespace caspar { namespace core {\r
- \r
-void destroy_producer(safe_ptr<frame_producer>& producer)\r
-{\r
- if(!producer.unique())\r
- CASPAR_LOG(warning) << producer->print() << L" Not destroyed on safe asynchronous destruction thread.";\r
- \r
- producer = frame_producer::empty();\r
-}\r
-\r
-class destroy_producer_proxy : public frame_producer\r
-{\r
- safe_ptr<frame_producer> producer_;\r
- executor& destroy_context_;\r
-public:\r
- destroy_producer_proxy(executor& destroy_context, const safe_ptr<frame_producer>& producer) \r
- : producer_(producer)\r
- , destroy_context_(destroy_context){}\r
-\r
- ~destroy_producer_proxy()\r
- { \r
- if(destroy_context_.size() > 4)\r
- CASPAR_LOG(error) << L" Potential destroyer deadlock.";\r
-\r
- destroy_context_.begin_invoke(std::bind(&destroy_producer, std::move(producer_)));\r
- }\r
-\r
- virtual safe_ptr<basic_frame> receive() {return core::receive(producer_);}\r
- virtual std::wstring print() const {return producer_->print();}\r
- virtual void param(const std::wstring& str) {producer_->param(str);}\r
- virtual safe_ptr<frame_producer> get_following_producer() const {return producer_->get_following_producer();}\r
- virtual void set_leading_producer(const safe_ptr<frame_producer>& producer) {producer_->set_leading_producer(producer);}\r
-};\r
-\r
-struct stage::implementation : boost::noncopyable\r
-{ \r
- std::map<int, layer> layers_; \r
- typedef std::map<int, layer>::value_type layer_t;\r
- \r
- video_channel_context& channel_;\r
-public:\r
- implementation(video_channel_context& video_channel) \r
- : channel_(video_channel)\r
- {\r
- }\r
- \r
- std::map<int, safe_ptr<basic_frame>> execute()\r
- { \r
- std::map<int, safe_ptr<basic_frame>> frames;\r
-\r
- try\r
- {\r
- // Allocate placeholders.\r
- BOOST_FOREACH(auto layer, layers_)\r
- frames[layer.first] = basic_frame::empty();\r
-\r
- // Render layers\r
- tbb::parallel_for_each(layers_.begin(), layers_.end(), [&](layer_t& layer)\r
- {\r
- frames[layer.first] = layer.second.receive();\r
- });\r
- }\r
- catch(...)\r
- {\r
- CASPAR_LOG_CURRENT_EXCEPTION();\r
- }\r
- \r
- return frames;\r
- }\r
-\r
- void load(int index, const safe_ptr<frame_producer>& producer, bool preview, int auto_play_delta)\r
- {\r
- channel_.execution().invoke([&]\r
- {\r
- layers_[index].load(make_safe<destroy_producer_proxy>(channel_.destruction(), producer), preview, auto_play_delta);\r
- });\r
- }\r
-\r
- void pause(int index)\r
- { \r
- channel_.execution().invoke([&]\r
- {\r
- layers_[index].pause();\r
- });\r
- }\r
-\r
- void play(int index)\r
- { \r
- channel_.execution().invoke([&]\r
- {\r
- layers_[index].play();\r
- });\r
- }\r
-\r
- void stop(int index)\r
- { \r
- channel_.execution().invoke([&]\r
- {\r
- layers_[index].stop();\r
- });\r
- }\r
-\r
- void clear(int index)\r
- {\r
- channel_.execution().invoke([&]\r
- {\r
- layers_.erase(index);\r
- });\r
- }\r
- \r
- void clear()\r
- {\r
- channel_.execution().invoke([&]\r
- {\r
- layers_.clear();\r
- });\r
- } \r
- \r
- void swap_layer(int index, size_t other_index)\r
- {\r
- channel_.execution().invoke([&]\r
- {\r
- layers_[index].swap(layers_[other_index]);\r
- });\r
- }\r
-\r
- void swap_layer(int index, size_t other_index, stage& other)\r
- {\r
- if(other.impl_.get() == this)\r
- swap_layer(index, other_index);\r
- else\r
- {\r
- if(channel_.get_format_desc() != other.impl_->channel_.get_format_desc() || &channel_.ogl() != &other.impl_->channel_.ogl())\r
- BOOST_THROW_EXCEPTION(not_supported() << msg_info("Cannot swap between incompatible channels."));\r
-\r
- auto func = [&]{layers_[index].swap(other.impl_->layers_[other_index]);};\r
- \r
- channel_.execution().invoke([&]{other.impl_->channel_.execution().invoke(func);});\r
- }\r
- }\r
-\r
- void swap(stage& other)\r
- {\r
- if(other.impl_.get() == this)\r
- return;\r
- \r
- if(channel_.get_format_desc() != other.impl_->channel_.get_format_desc() || &channel_.ogl() != &other.impl_->channel_.ogl())\r
- BOOST_THROW_EXCEPTION(not_supported() << msg_info("Cannot swap between incompatible channels."));\r
-\r
- auto func = [&]\r
- {\r
- auto sel_first = [](const std::pair<int, layer>& pair){return pair.first;};\r
-\r
- std::set<int> indices;\r
- auto inserter = std::inserter(indices, indices.begin());\r
-\r
- std::transform(layers_.begin(), layers_.end(), inserter, sel_first);\r
- std::transform(other.impl_->layers_.begin(), other.impl_->layers_.end(), inserter, sel_first);\r
-\r
- BOOST_FOREACH(auto index, indices)\r
- layers_[index].swap(other.impl_->layers_[index]);\r
- };\r
- \r
- channel_.execution().invoke([&]{other.impl_->channel_.execution().invoke(func);});\r
- }\r
- \r
- boost::unique_future<safe_ptr<frame_producer>> foreground(int index)\r
- {\r
- return channel_.execution().begin_invoke([=]{return layers_[index].foreground();});\r
- }\r
- \r
- boost::unique_future<safe_ptr<frame_producer>> background(int index)\r
- {\r
- return channel_.execution().begin_invoke([=]{return layers_[index].background();});\r
- }\r
-\r
- std::wstring print() const\r
- {\r
- return L"stage [" + boost::lexical_cast<std::wstring>(channel_.index()) + L"]";\r
- }\r
-\r
-};\r
-\r
-stage::stage(video_channel_context& video_channel) : impl_(new implementation(video_channel)){}\r
-void stage::swap(stage& other){impl_->swap(other);}\r
-void stage::load(int index, const safe_ptr<frame_producer>& producer, bool preview, int auto_play_delta){impl_->load(index, producer, preview, auto_play_delta);}\r
-void stage::pause(int index){impl_->pause(index);}\r
-void stage::play(int index){impl_->play(index);}\r
-void stage::stop(int index){impl_->stop(index);}\r
-void stage::clear(int index){impl_->clear(index);}\r
-void stage::clear(){impl_->clear();}\r
-void stage::swap_layer(int index, size_t other_index){impl_->swap_layer(index, other_index);}\r
-void stage::swap_layer(int index, size_t other_index, stage& other){impl_->swap_layer(index, other_index, other);}\r
-boost::unique_future<safe_ptr<frame_producer>> stage::foreground(size_t index) {return impl_->foreground(index);}\r
-boost::unique_future<safe_ptr<frame_producer>> stage::background(size_t index) {return impl_->background(index);}\r
-std::map<int, safe_ptr<basic_frame>> stage::execute(){return impl_->execute();}\r
-}}
\ No newline at end of file
+/*
+* Copyright (c) 2011 Sveriges Television AB <info@casparcg.com>
+*
+* This file is part of CasparCG (www.casparcg.com).
+*
+* CasparCG is free software: you can redistribute it and/or modify
+* it under the terms of the GNU General Public License as published by
+* the Free Software Foundation, either version 3 of the License, or
+* (at your option) any later version.
+*
+* CasparCG is distributed in the hope that it will be useful,
+* but WITHOUT ANY WARRANTY; without even the implied warranty of
+* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+* GNU General Public License for more details.
+*
+* You should have received a copy of the GNU General Public License
+* along with CasparCG. If not, see <http://www.gnu.org/licenses/>.
+*
+* Author: Robert Nagy, ronag89@gmail.com
+*/
+
+#include "../StdAfx.h"
+
+#include "stage.h"
+
+#include "layer.h"
+
+#include "../frame/draw_frame.h"
+#include "../frame/frame_factory.h"
+#include "../interaction/interaction_aggregator.h"
+#include "../consumer/write_frame_consumer.h"
+
+#include <common/executor.h>
+#include <common/future.h>
+#include <common/diagnostics/graph.h>
+#include <common/timer.h>
+
+#include <core/frame/frame_transform.h>
+
+#include <boost/property_tree/ptree.hpp>
+
+#include <tbb/parallel_for_each.h>
+
+#include <functional>
+#include <map>
+#include <vector>
+#include <future>
+
+namespace caspar { namespace core {
+
+struct stage::impl : public std::enable_shared_from_this<impl>
+{
+ int channel_index_;
+ spl::shared_ptr<diagnostics::graph> graph_;
+ spl::shared_ptr<monitor::subject> monitor_subject_ = spl::make_shared<monitor::subject>("/stage");
+ std::map<int, layer> layers_;
+ std::map<int, tweened_transform> tweens_;
+ interaction_aggregator aggregator_;
+ // map of layer -> map of tokens (src ref) -> layer_consumer
+ std::map<int, std::map<void*, spl::shared_ptr<write_frame_consumer>>> layer_consumers_;
+ executor executor_ { L"stage " + boost::lexical_cast<std::wstring>(channel_index_) };
+public:
+ impl(int channel_index, spl::shared_ptr<diagnostics::graph> graph)
+ : channel_index_(channel_index)
+ , graph_(std::move(graph))
+ , aggregator_([=] (double x, double y) { return collission_detect(x, y); })
+ {
+ graph_->set_color("produce-time", diagnostics::color(0.0f, 1.0f, 0.0f));
+ }
+
+ std::map<int, draw_frame> operator()(const video_format_desc& format_desc)
+ {
+ caspar::timer frame_timer;
+
+ auto frames = executor_.invoke([=]() -> std::map<int, draw_frame>
+ {
+
+ std::map<int, draw_frame> frames;
+
+ try
+ {
+ std::vector<int> indices;
+
+ for (auto& layer : layers_)
+ {
+ // Prevent race conditions in parallel for each later
+ frames[layer.first] = draw_frame::empty();
+ tweens_[layer.first];
+ layer_consumers_[layer.first];
+
+ indices.push_back(layer.first);
+ }
+
+ aggregator_.translate_and_send();
+
+ tbb::parallel_for_each(indices.begin(), indices.end(), [&](int index)
+ {
+ draw(index, format_desc, frames);
+ });
+ }
+ catch(...)
+ {
+ layers_.clear();
+ CASPAR_LOG_CURRENT_EXCEPTION();
+ }
+
+
+ return frames;
+ });
+
+ //frames_subject_ << frames;
+
+ graph_->set_value("produce-time", frame_timer.elapsed()*format_desc.fps*0.5);
+ *monitor_subject_ << monitor::message("/profiler/time") % frame_timer.elapsed() % (1.0/format_desc.fps);
+
+ return frames;
+ }
+
+ void draw(int index, const video_format_desc& format_desc, std::map<int, draw_frame>& frames)
+ {
+ auto& layer = layers_[index];
+ auto& tween = tweens_[index];
+ auto& consumers = layer_consumers_[index];
+
+ auto frame = layer.receive(format_desc);
+
+ if (!consumers.empty())
+ {
+ auto consumer_it = consumers | boost::adaptors::map_values;
+ tbb::parallel_for_each(consumer_it.begin(), consumer_it.end(), [&](decltype(*consumer_it.begin()) layer_consumer)
+ {
+ layer_consumer->send(frame);
+ });
+ }
+
+ auto frame1 = frame;
+
+ frame1.transform() *= tween.fetch_and_tick(1);
+
+ if(format_desc.field_mode != core::field_mode::progressive)
+ {
+ auto frame2 = frame;
+ frame2.transform() *= tween.fetch_and_tick(1);
+ frame2.transform().audio_transform.volume = 0.0;
+ frame1 = core::draw_frame::interlace(frame1, frame2, format_desc.field_mode);
+ }
+
+ frames[index] = frame1;
+ }
+
+ layer& get_layer(int index)
+ {
+ auto it = layers_.find(index);
+ if(it == std::end(layers_))
+ {
+ it = layers_.insert(std::make_pair(index, layer(index))).first;
+ it->second.monitor_output().attach_parent(monitor_subject_);
+ }
+ return it->second;
+ }
+
+ std::future<void> apply_transforms(const std::vector<std::tuple<int, stage::transform_func_t, unsigned int, tweener>>& transforms)
+ {
+ return executor_.begin_invoke([=]
+ {
+ for (auto& transform : transforms)
+ {
+ auto& tween = tweens_[std::get<0>(transform)];
+ auto src = tween.fetch();
+ auto dst = std::get<1>(transform)(tween.dest());
+ tweens_[std::get<0>(transform)] = tweened_transform(src, dst, std::get<2>(transform), std::get<3>(transform));
+ }
+ }, task_priority::high_priority);
+ }
+
+ std::future<void> apply_transform(int index, const stage::transform_func_t& transform, unsigned int mix_duration, const tweener& tween)
+ {
+ return executor_.begin_invoke([=]
+ {
+ auto src = tweens_[index].fetch();
+ auto dst = transform(src);
+ tweens_[index] = tweened_transform(src, dst, mix_duration, tween);
+ }, task_priority::high_priority);
+ }
+
+ std::future<void> clear_transforms(int index)
+ {
+ return executor_.begin_invoke([=]
+ {
+ tweens_.erase(index);
+ }, task_priority::high_priority);
+ }
+
+ std::future<void> clear_transforms()
+ {
+ return executor_.begin_invoke([=]
+ {
+ tweens_.clear();
+ }, task_priority::high_priority);
+ }
+
+ std::future<frame_transform> get_current_transform(int index)
+ {
+ return executor_.begin_invoke([=]
+ {
+ return tweens_[index].fetch();
+ }, task_priority::high_priority);
+ }
+
+ std::future<void> load(int index, const spl::shared_ptr<frame_producer>& producer, bool preview, const boost::optional<int32_t>& auto_play_delta)
+ {
+ return executor_.begin_invoke([=]
+ {
+ get_layer(index).load(producer, preview, auto_play_delta);
+ }, task_priority::high_priority);
+ }
+
+ std::future<void> pause(int index)
+ {
+ return executor_.begin_invoke([=]
+ {
+ get_layer(index).pause();
+ }, task_priority::high_priority);
+ }
+
+ std::future<void> resume(int index)
+ {
+ return executor_.begin_invoke([=]
+ {
+ get_layer(index).resume();
+ }, task_priority::high_priority);
+ }
+
+ std::future<void> play(int index)
+ {
+ return executor_.begin_invoke([=]
+ {
+ get_layer(index).play();
+ }, task_priority::high_priority);
+ }
+
+ std::future<void> stop(int index)
+ {
+ return executor_.begin_invoke([=]
+ {
+ get_layer(index).stop();
+ }, task_priority::high_priority);
+ }
+
+ std::future<void> clear(int index)
+ {
+ return executor_.begin_invoke([=]
+ {
+ layers_.erase(index);
+ }, task_priority::high_priority);
+ }
+
+ std::future<void> clear()
+ {
+ return executor_.begin_invoke([=]
+ {
+ layers_.clear();
+ }, task_priority::high_priority);
+ }
+
+ std::future<void> swap_layers(stage& other, bool swap_transforms)
+ {
+ auto other_impl = other.impl_;
+
+ if (other_impl.get() == this)
+ {
+ return make_ready_future();
+ }
+
+ auto func = [=]
+ {
+ auto layers = layers_ | boost::adaptors::map_values;
+ auto other_layers = other_impl->layers_ | boost::adaptors::map_values;
+
+ for (auto& layer : layers)
+ layer.monitor_output().detach_parent();
+
+ for (auto& layer : other_layers)
+ layer.monitor_output().detach_parent();
+
+ std::swap(layers_, other_impl->layers_);
+
+ for (auto& layer : layers)
+ layer.monitor_output().attach_parent(monitor_subject_);
+
+ for (auto& layer : other_layers)
+ layer.monitor_output().attach_parent(monitor_subject_);
+
+ if (swap_transforms)
+ std::swap(tweens_, other_impl->tweens_);
+ };
+
+ return executor_.begin_invoke([=]
+ {
+ other_impl->executor_.invoke(func, task_priority::high_priority);
+ }, task_priority::high_priority);
+ }
+
+ std::future<void> swap_layer(int index, int other_index, bool swap_transforms)
+ {
+ return executor_.begin_invoke([=]
+ {
+ std::swap(get_layer(index), get_layer(other_index));
+
+ if (swap_transforms)
+ std::swap(tweens_[index], tweens_[other_index]);
+ }, task_priority::high_priority);
+ }
+
+ std::future<void> swap_layer(int index, int other_index, stage& other, bool swap_transforms)
+ {
+ auto other_impl = other.impl_;
+
+ if(other_impl.get() == this)
+ return swap_layer(index, other_index, swap_transforms);
+ else
+ {
+ auto func = [=]
+ {
+ auto& my_layer = get_layer(index);
+ auto& other_layer = other_impl->get_layer(other_index);
+
+ my_layer.monitor_output().detach_parent();
+ other_layer.monitor_output().detach_parent();
+
+ std::swap(my_layer, other_layer);
+
+ my_layer.monitor_output().attach_parent(monitor_subject_);
+ other_layer.monitor_output().attach_parent(other_impl->monitor_subject_);
+
+ if (swap_transforms)
+ {
+ auto& my_tween = tweens_[index];
+ auto& other_tween = other_impl->tweens_[other_index];
+ std::swap(my_tween, other_tween);
+ }
+ };
+
+ return executor_.begin_invoke([=]
+ {
+ other_impl->executor_.invoke(func, task_priority::high_priority);
+ }, task_priority::high_priority);
+ }
+ }
+
+ void add_layer_consumer(void* token, int layer, const spl::shared_ptr<write_frame_consumer>& layer_consumer)
+ {
+ executor_.begin_invoke([=]
+ {
+ layer_consumers_[layer].insert(std::make_pair(token, layer_consumer));
+ }, task_priority::high_priority);
+ }
+
+ void remove_layer_consumer(void* token, int layer)
+ {
+ executor_.begin_invoke([=]
+ {
+ auto& layer_map = layer_consumers_[layer];
+ layer_map.erase(token);
+ if (layer_map.empty())
+ {
+ layer_consumers_.erase(layer);
+ }
+ }, task_priority::high_priority);
+ }
+
+ std::future<std::shared_ptr<frame_producer>> foreground(int index)
+ {
+ return executor_.begin_invoke([=]() -> std::shared_ptr<frame_producer>
+ {
+ return get_layer(index).foreground();
+ }, task_priority::high_priority);
+ }
+
+ std::future<std::shared_ptr<frame_producer>> background(int index)
+ {
+ return executor_.begin_invoke([=]() -> std::shared_ptr<frame_producer>
+ {
+ return get_layer(index).background();
+ }, task_priority::high_priority);
+ }
+
+ std::future<boost::property_tree::wptree> info()
+ {
+ return executor_.begin_invoke([this]() -> boost::property_tree::wptree
+ {
+ boost::property_tree::wptree info;
+ for (auto& layer : layers_)
+ info.add_child(L"layers.layer", layer.second.info())
+ .add(L"index", layer.first);
+ return info;
+ }, task_priority::high_priority);
+ }
+
+ std::future<boost::property_tree::wptree> info(int index)
+ {
+ return executor_.begin_invoke([=]
+ {
+ return get_layer(index).info();
+ }, task_priority::high_priority);
+ }
+
+ std::future<boost::property_tree::wptree> delay_info()
+ {
+ return std::move(executor_.begin_invoke([this]() -> boost::property_tree::wptree
+ {
+ boost::property_tree::wptree info;
+
+ for (auto& layer : layers_)
+ info.add_child(L"layer", layer.second.delay_info()).add(L"index", layer.first);
+
+ return info;
+ }, task_priority::high_priority));
+ }
+
+ std::future<boost::property_tree::wptree> delay_info(int index)
+ {
+ return std::move(executor_.begin_invoke([=]() -> boost::property_tree::wptree
+ {
+ return get_layer(index).delay_info();
+ }, task_priority::high_priority));
+ }
+
+ std::future<std::wstring> call(int index, const std::vector<std::wstring>& params)
+ {
+ return flatten(executor_.begin_invoke([=]
+ {
+ return get_layer(index).foreground()->call(params).share();
+ }, task_priority::high_priority));
+ }
+
+ void on_interaction(const interaction_event::ptr& event)
+ {
+ executor_.begin_invoke([=]
+ {
+ aggregator_.offer(event);
+ }, task_priority::high_priority);
+ }
+
+ boost::optional<interaction_target> collission_detect(double x, double y)
+ {
+ for (auto& layer : layers_ | boost::adaptors::reversed)
+ {
+ auto transform = tweens_[layer.first].fetch();
+ auto translated = translate(x, y, transform);
+
+ if (translated.first >= 0.0
+ && translated.first <= 1.0
+ && translated.second >= 0.0
+ && translated.second <= 1.0
+ && layer.second.collides(translated.first, translated.second))
+ {
+ return std::make_pair(transform, static_cast<interaction_sink*>(&layer.second));
+ }
+ }
+
+ return boost::optional<interaction_target>();
+ }
+};
+
+stage::stage(int channel_index, spl::shared_ptr<diagnostics::graph> graph) : impl_(new impl(channel_index, std::move(graph))){}
+std::future<std::wstring> stage::call(int index, const std::vector<std::wstring>& params){return impl_->call(index, params);}
+std::future<void> stage::apply_transforms(const std::vector<stage::transform_tuple_t>& transforms){ return impl_->apply_transforms(transforms); }
+std::future<void> stage::apply_transform(int index, const std::function<core::frame_transform(core::frame_transform)>& transform, unsigned int mix_duration, const tweener& tween){ return impl_->apply_transform(index, transform, mix_duration, tween); }
+std::future<void> stage::clear_transforms(int index){ return impl_->clear_transforms(index); }
+std::future<void> stage::clear_transforms(){ return impl_->clear_transforms(); }
+std::future<frame_transform> stage::get_current_transform(int index){ return impl_->get_current_transform(index); }
+std::future<void> stage::load(int index, const spl::shared_ptr<frame_producer>& producer, bool preview, const boost::optional<int32_t>& auto_play_delta){ return impl_->load(index, producer, preview, auto_play_delta); }
+std::future<void> stage::pause(int index){ return impl_->pause(index); }
+std::future<void> stage::resume(int index){ return impl_->resume(index); }
+std::future<void> stage::play(int index){ return impl_->play(index); }
+std::future<void> stage::stop(int index){ return impl_->stop(index); }
+std::future<void> stage::clear(int index){ return impl_->clear(index); }
+std::future<void> stage::clear(){ return impl_->clear(); }
+std::future<void> stage::swap_layers(stage& other, bool swap_transforms){ return impl_->swap_layers(other, swap_transforms); }
+std::future<void> stage::swap_layer(int index, int other_index, bool swap_transforms){ return impl_->swap_layer(index, other_index, swap_transforms); }
+std::future<void> stage::swap_layer(int index, int other_index, stage& other, bool swap_transforms){ return impl_->swap_layer(index, other_index, other, swap_transforms); }
+void stage::add_layer_consumer(void* token, int layer, const spl::shared_ptr<write_frame_consumer>& layer_consumer){ impl_->add_layer_consumer(token, layer, layer_consumer); }
+void stage::remove_layer_consumer(void* token, int layer){ impl_->remove_layer_consumer(token, layer); }std::future<std::shared_ptr<frame_producer>> stage::foreground(int index) { return impl_->foreground(index); }
+std::future<std::shared_ptr<frame_producer>> stage::background(int index) { return impl_->background(index); }
+std::future<boost::property_tree::wptree> stage::info() const{ return impl_->info(); }
+std::future<boost::property_tree::wptree> stage::info(int index) const{ return impl_->info(index); }
+std::future<boost::property_tree::wptree> stage::delay_info() const{ return impl_->delay_info(); }
+std::future<boost::property_tree::wptree> stage::delay_info(int index) const{ return impl_->delay_info(index); }
+std::map<int, draw_frame> stage::operator()(const video_format_desc& format_desc){ return (*impl_)(format_desc); }
+monitor::subject& stage::monitor_output(){return *impl_->monitor_subject_;}
+void stage::on_interaction(const interaction_event::ptr& event) { impl_->on_interaction(event); }
+}}