~oal_consumer()
	{
		is_running_ = false;
		input_.try_push(std::make_pair(std::shared_ptr<core::read_frame>(), std::make_shared<audio_buffer_16>()));
		input_.try_push(std::make_pair(std::shared_ptr<core::read_frame>(), std::make_shared<audio_buffer_16>()));
		Stop();
		input_.try_push(std::make_pair(std::shared_ptr<core::read_frame>(), std::make_shared<audio_buffer_16>()));
		input_.try_push(std::make_pair(std::shared_ptr<core::read_frame>(), std::make_shared<audio_buffer_16>()));

		CASPAR_LOG(info) << print() << L" Successfully Uninitialized.";	
	}
Esempio n. 2
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	virtual boost::unique_future<bool> send(const safe_ptr<read_frame>& frame) override
	{
		bool pushed = frame_buffer_.try_push(frame);

		if (pushed && !first_frame_reported_)
		{
			first_frame_promise_.set_value();
			first_frame_reported_ = true;
		}

		return caspar::wrap_as_future(is_running_.load());
	}
Esempio n. 3
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	virtual void send(const safe_ptr<basic_frame>& src_frame) override
	{
		bool pushed = frame_buffer_.try_push(src_frame);
//		frame_buffer_.push(src_frame);

		if (pushed && !first_frame_reported_) //changed to fix compilation
		//if (!first_frame_reported_)
		{
			first_frame_promise_.set_value();
			first_frame_reported_ = true;
		}
	}
	virtual boost::unique_future<bool> send(const safe_ptr<core::read_frame>& frame) override
	{
		auto buffer = std::make_shared<audio_buffer_16>(
			core::audio_32_to_16(core::get_rearranged_and_mixed(frame->multichannel_view(), channel_layout_, channel_layout_.num_channels)));

		if (!input_.try_push(std::make_pair(frame, buffer)))
			graph_->set_tag("dropped-frame");

		if (Status() != Playing && !started_)
		{
			sf::SoundStream::Initialize(2, format_desc_.audio_sample_rate);
			Play();
			started_ = true;
		}

		return wrap_as_future(is_running_.load());
	}
Esempio n. 5
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    route_producer(std::shared_ptr<route> route, int buffer)
        : route_(route)
        , connection_(route_->signal.connect([this](const core::draw_frame& frame) {
            if (!buffer_.try_push(frame)) {
                graph_->set_tag(diagnostics::tag_severity::WARNING, "dropped-frame");
            }
            graph_->set_value("produce-time", produce_timer_.elapsed() * route_->format_desc.fps * 0.5);
            produce_timer_.restart();
        }))
    {
        buffer_.set_capacity(buffer > 0 ? buffer : route->format_desc.field_count);

        graph_->set_color("late-frame", diagnostics::color(0.6f, 0.3f, 0.3f));
        graph_->set_color("produce-time", caspar::diagnostics::color(0.0f, 1.0f, 0.0f));
        graph_->set_color("consume-time", caspar::diagnostics::color(1.0f, 0.4f, 0.0f, 0.8f));
        graph_->set_color("dropped-frame", diagnostics::color(0.3f, 0.6f, 0.3f));
        graph_->set_text(print());
        diagnostics::register_graph(graph_);

        CASPAR_LOG(debug) << print() << L" Initialized";
    }
Esempio n. 6
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	void stop()
	{
		is_running_ = false;
		frame_buffer_.try_push(make_safe<read_frame>());
	}
Esempio n. 7
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	virtual HRESULT STDMETHODCALLTYPE VideoInputFrameArrived(IDeckLinkVideoInputFrame* video, IDeckLinkAudioInputPacket* audio)
	{	
		if(!video)
			return S_OK;

		try
		{
			graph_->set_value("tick-time", tick_timer_.elapsed()*format_desc_.fps*0.5);
			tick_timer_.restart();

			frame_timer_.restart();

			// PUSH

			void* bytes = nullptr;
			if(FAILED(video->GetBytes(&bytes)) || !bytes)
				return S_OK;
			
			safe_ptr<AVFrame> av_frame(avcodec_alloc_frame(), av_free);	
			avcodec_get_frame_defaults(av_frame.get());
						
			av_frame->data[0]			= reinterpret_cast<uint8_t*>(bytes);
			av_frame->linesize[0]		= video->GetRowBytes();			
			av_frame->format			= PIX_FMT_UYVY422;
			av_frame->width				= video->GetWidth();
			av_frame->height			= video->GetHeight();
			av_frame->interlaced_frame	= format_desc_.field_mode != core::field_mode::progressive;
			av_frame->top_field_first	= format_desc_.field_mode == core::field_mode::upper ? 1 : 0;
				
			std::shared_ptr<core::audio_buffer> audio_buffer;

			// It is assumed that audio is always equal or ahead of video.
			if(audio && SUCCEEDED(audio->GetBytes(&bytes)) && bytes)
			{
				auto sample_frame_count = audio->GetSampleFrameCount();
				auto audio_data = reinterpret_cast<int32_t*>(bytes);
				audio_buffer = std::make_shared<core::audio_buffer>(audio_data, audio_data + sample_frame_count*format_desc_.audio_channels);
			}
			else			
				audio_buffer = std::make_shared<core::audio_buffer>(audio_cadence_.front(), 0);
			
			// Note: Uses 1 step rotated cadence for 1001 modes (1602, 1602, 1601, 1602, 1601)
			// This cadence fills the audio mixer most optimally.

			sync_buffer_.push_back(audio_buffer->size());		
			if(!boost::range::equal(sync_buffer_, audio_cadence_))
			{
				CASPAR_LOG(trace) << print() << L" Syncing audio.";
				return S_OK;
			}

			muxer_.push(audio_buffer);
			muxer_.push(av_frame, hints_);	
											
			boost::range::rotate(audio_cadence_, std::begin(audio_cadence_)+1);
			
			// POLL
			
			for(auto frame = muxer_.poll(); frame; frame = muxer_.poll())
			{
				if(!frame_buffer_.try_push(make_safe_ptr(frame)))
				{
					auto dummy = core::basic_frame::empty();
					frame_buffer_.try_pop(dummy);

					frame_buffer_.try_push(make_safe_ptr(frame));

					graph_->set_tag("dropped-frame");
				}
			}

			graph_->set_value("frame-time", frame_timer_.elapsed()*format_desc_.fps*0.5);

			graph_->set_value("output-buffer", static_cast<float>(frame_buffer_.size())/static_cast<float>(frame_buffer_.capacity()));	
		}
		catch(...)
		{
			exception_ = std::current_exception();
			return E_FAIL;
		}

		return S_OK;
	}