2 * Copyright (c) 2011 Sveriges Television AB <info@casparcg.com>
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4 * This file is part of CasparCG (www.casparcg.com).
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6 * CasparCG is free software: you can redistribute it and/or modify
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7 * it under the terms of the GNU General Public License as published by
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8 * the Free Software Foundation, either version 3 of the License, or
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9 * (at your option) any later version.
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11 * CasparCG is distributed in the hope that it will be useful,
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12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
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13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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14 * GNU General Public License for more details.
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16 * You should have received a copy of the GNU General Public License
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17 * along with CasparCG. If not, see <http://www.gnu.org/licenses/>.
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19 * Author: Robert Nagy, ronag89@gmail.com
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22 #include "../../StdAfx.h"
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24 #include "frame_muxer.h"
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26 #include "../filter/filter.h"
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27 #include "../util/util.h"
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29 #include <core/producer/frame_producer.h>
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30 #include <core/frame/draw_frame.h>
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31 #include <core/frame/frame_transform.h>
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32 #include <core/frame/pixel_format.h>
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33 #include <core/frame/frame_factory.h>
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34 #include <core/mixer/gpu/write_frame.h>
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36 #include <common/env.h>
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37 #include <common/exception/exceptions.h>
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38 #include <common/log.h>
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40 #if defined(_MSC_VER)
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41 #pragma warning (push)
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42 #pragma warning (disable : 4244)
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46 #define __STDC_CONSTANT_MACROS
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47 #define __STDC_LIMIT_MACROS
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48 #include <libavcodec/avcodec.h>
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49 #include <libavformat/avformat.h>
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51 #if defined(_MSC_VER)
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52 #pragma warning (pop)
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55 #include <common/assert.h>
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56 #include <boost/foreach.hpp>
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57 #include <boost/range/algorithm_ext/push_back.hpp>
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58 #include <boost/algorithm/string/predicate.hpp>
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64 using namespace caspar::core;
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66 namespace caspar { namespace ffmpeg {
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68 struct frame_muxer::impl : boost::noncopyable
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70 std::queue<std::queue<safe_ptr<write_frame>>> video_streams_;
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71 std::queue<core::audio_buffer> audio_streams_;
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72 std::queue<safe_ptr<draw_frame>> frame_buffer_;
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73 display_mode display_mode_;
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74 const double in_fps_;
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75 const video_format_desc format_desc_;
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76 bool auto_transcode_;
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77 bool auto_deinterlace_;
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79 std::vector<int> audio_cadence_;
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81 safe_ptr<core::frame_factory> frame_factory_;
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84 const std::wstring filter_str_;
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85 bool force_deinterlacing_;
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87 impl(double in_fps, const safe_ptr<core::frame_factory>& frame_factory, const std::wstring& filter_str)
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88 : display_mode_(display_mode::invalid)
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90 , format_desc_(frame_factory->get_video_format_desc())
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91 , auto_transcode_(env::properties().get(L"configuration.auto-transcode", true))
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92 , auto_deinterlace_(env::properties().get(L"configuration.auto-deinterlace", true))
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93 , audio_cadence_(format_desc_.audio_cadence)
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94 , frame_factory_(frame_factory)
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95 , filter_str_(filter_str)
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96 , force_deinterlacing_(false)
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98 video_streams_.push(std::queue<safe_ptr<write_frame>>());
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99 audio_streams_.push(core::audio_buffer());
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101 // Note: Uses 1 step rotated cadence for 1001 modes (1602, 1602, 1601, 1602, 1601)
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102 // This cadence fills the audio mixer most optimally.
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103 boost::range::rotate(audio_cadence_, std::end(audio_cadence_)-1);
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106 void push(const std::shared_ptr<AVFrame>& video_frame, int flags)
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111 if(video_frame == flush_video())
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113 video_streams_.push(std::queue<safe_ptr<write_frame>>());
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115 else if(video_frame == empty_video())
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117 video_streams_.back().push(make_safe<core::write_frame>(this));
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118 display_mode_ = display_mode::simple;
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122 bool DEINTERLACE_FLAG = (flags & core::frame_producer::flags::deinterlace) != 0;
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124 if(auto_deinterlace_ && force_deinterlacing_ != DEINTERLACE_FLAG)
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126 force_deinterlacing_ = DEINTERLACE_FLAG;
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127 display_mode_ = display_mode::invalid;
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130 if(display_mode_ == display_mode::invalid)
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131 update_display_mode(video_frame, force_deinterlacing_);
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133 if(flags & core::frame_producer::flags::alpha_only)
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134 video_frame->format = make_alpha_format(video_frame->format);
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136 auto format = video_frame->format;
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137 if(video_frame->format == CASPAR_PIX_FMT_LUMA) // CASPAR_PIX_FMT_LUMA is not valid for filter, change it to GRAY8
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138 video_frame->format = PIX_FMT_GRAY8;
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140 filter_.push(video_frame);
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141 BOOST_FOREACH(auto& av_frame, filter_.poll_all())
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143 if(video_frame->format == PIX_FMT_GRAY8 && format == CASPAR_PIX_FMT_LUMA)
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144 av_frame->format = format;
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146 video_streams_.back().push(make_write_frame(this, av_frame, frame_factory_, flags));
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150 if(video_streams_.back().size() > 32)
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151 BOOST_THROW_EXCEPTION(invalid_operation() << source_info("frame_muxer") << msg_info("video-stream overflow. This can be caused by incorrect frame-rate. Check clip meta-data."));
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154 void push(const std::shared_ptr<core::audio_buffer>& audio)
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159 if(audio == flush_audio())
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161 audio_streams_.push(core::audio_buffer());
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163 else if(audio == empty_audio())
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165 boost::range::push_back(audio_streams_.back(), core::audio_buffer(audio_cadence_.front(), 0));
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169 boost::range::push_back(audio_streams_.back(), *audio);
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172 if(audio_streams_.back().size() > static_cast<size_t>(32*audio_cadence_.front()))
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173 BOOST_THROW_EXCEPTION(invalid_operation() << source_info("frame_muxer") << msg_info("audio-stream overflow. This can be caused by incorrect frame-rate. Check clip meta-data."));
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176 bool video_ready() const
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178 return video_streams_.size() > 1 || (video_streams_.size() >= audio_streams_.size() && video_ready2());
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181 bool audio_ready() const
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183 return audio_streams_.size() > 1 || (audio_streams_.size() >= video_streams_.size() && audio_ready2());
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186 bool video_ready2() const
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188 switch(display_mode_)
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190 case display_mode::deinterlace_bob_reinterlace:
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191 case display_mode::interlace:
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192 case display_mode::half:
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193 return video_streams_.front().size() >= 2;
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195 return video_streams_.front().size() >= 1;
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199 bool audio_ready2() const
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201 switch(display_mode_)
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203 case display_mode::duplicate:
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204 return audio_streams_.front().size()/2 >= static_cast<size_t>(audio_cadence_.front());
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206 return audio_streams_.front().size() >= static_cast<size_t>(audio_cadence_.front());
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210 std::shared_ptr<draw_frame> poll()
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212 if(!frame_buffer_.empty())
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214 auto frame = frame_buffer_.front();
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215 frame_buffer_.pop();
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219 if(video_streams_.size() > 1 && audio_streams_.size() > 1 && (!video_ready2() || !audio_ready2()))
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221 if(!video_streams_.front().empty() || !audio_streams_.front().empty())
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222 CASPAR_LOG(trace) << "Truncating: " << video_streams_.front().size() << L" video-frames, " << audio_streams_.front().size() << L" audio-samples.";
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224 video_streams_.pop();
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225 audio_streams_.pop();
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228 if(!video_ready2() || !audio_ready2() || display_mode_ == display_mode::invalid)
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231 auto frame1 = pop_video();
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232 frame1->audio_data() = pop_audio();
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234 switch(display_mode_)
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236 case display_mode::simple:
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237 case display_mode::deinterlace_bob:
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238 case display_mode::deinterlace:
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240 frame_buffer_.push(frame1);
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243 case display_mode::interlace:
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244 case display_mode::deinterlace_bob_reinterlace:
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246 auto frame2 = pop_video();
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248 frame_buffer_.push(core::draw_frame::interlace(frame1, frame2, format_desc_.field_mode));
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251 case display_mode::duplicate:
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253 boost::range::push_back(frame1->audio_data(), pop_audio());
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255 frame_buffer_.push(frame1);
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256 frame_buffer_.push(frame1);
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259 case display_mode::half:
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261 pop_video(); // Throw away
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263 frame_buffer_.push(frame1);
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268 return frame_buffer_.empty() ? nullptr : poll();
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271 safe_ptr<core::write_frame> pop_video()
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273 auto frame = video_streams_.front().front();
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274 video_streams_.front().pop();
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278 core::audio_buffer pop_audio()
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280 CASPAR_VERIFY(audio_streams_.front().size() >= static_cast<size_t>(audio_cadence_.front()));
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282 auto begin = audio_streams_.front().begin();
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283 auto end = begin + audio_cadence_.front();
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285 core::audio_buffer samples(begin, end);
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286 audio_streams_.front().erase(begin, end);
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288 boost::range::rotate(audio_cadence_, std::begin(audio_cadence_)+1);
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293 void update_display_mode(const std::shared_ptr<AVFrame>& frame, bool force_deinterlace)
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295 std::wstring filter_str = filter_str_;
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297 display_mode_ = display_mode::simple;
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298 if(auto_transcode_)
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300 auto mode = get_mode(*frame);
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301 auto fps = in_fps_;
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303 if(filter::is_deinterlacing(filter_str_))
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304 mode = core::field_mode::progressive;
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306 if(filter::is_double_rate(filter_str_))
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309 display_mode_ = get_display_mode(mode, fps, format_desc_.field_mode, format_desc_.fps);
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311 if((frame->height != 480 || format_desc_.height != 486) && // don't deinterlace for NTSC DV
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312 display_mode_ == display_mode::simple && mode != core::field_mode::progressive && format_desc_.field_mode != core::field_mode::progressive &&
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313 frame->height != static_cast<int>(format_desc_.height))
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315 display_mode_ = display_mode::deinterlace_bob_reinterlace; // The frame will most likely be scaled, we need to deinterlace->reinterlace
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318 if(force_deinterlace && mode != core::field_mode::progressive &&
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319 display_mode_ != display_mode::deinterlace &&
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320 display_mode_ != display_mode::deinterlace_bob &&
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321 display_mode_ != display_mode::deinterlace_bob_reinterlace)
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323 CASPAR_LOG(info) << L"[frame_muxer] Automatically started non bob-deinterlacing. Consider starting producer with bob-deinterlacing (FILTER DEINTERLACE_BOB) for smoothest playback.";
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324 display_mode_ = display_mode::deinterlace;
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327 if(display_mode_ == display_mode::deinterlace)
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328 filter_str = append_filter(filter_str, L"YADIF=0:-1");
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329 else if(display_mode_ == display_mode::deinterlace_bob || display_mode_ == display_mode::deinterlace_bob_reinterlace)
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330 filter_str = append_filter(filter_str, L"YADIF=1:-1");
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333 if(display_mode_ == display_mode::invalid)
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335 CASPAR_LOG(warning) << L"[frame_muxer] Auto-transcode: Failed to detect display-mode.";
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336 display_mode_ = display_mode::simple;
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339 if(!boost::iequals(filter_.filter_str(), filter_str))
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341 for(int n = 0; n < filter_.delay(); ++n)
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343 filter_.push(frame);
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344 auto av_frame = filter_.poll();
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346 video_streams_.back().push(make_write_frame(this, make_safe_ptr(av_frame), frame_factory_, 0));
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348 filter_ = filter(filter_str);
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349 CASPAR_LOG(info) << L"[frame_muxer] " << display_mode_ << L" " << print_mode(frame->width, frame->height, in_fps_, frame->interlaced_frame > 0);
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353 uint32_t calc_nb_frames(uint32_t nb_frames) const
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355 uint64_t nb_frames2 = nb_frames;
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357 if(filter_.is_double_rate()) // Take into account transformations in filter.
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360 switch(display_mode_) // Take into account transformation in run.
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362 case display_mode::deinterlace_bob_reinterlace:
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363 case display_mode::interlace:
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364 case display_mode::half:
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367 case display_mode::duplicate:
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372 return static_cast<uint32_t>(nb_frames2);
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376 frame_muxer::frame_muxer(double in_fps, const safe_ptr<core::frame_factory>& frame_factory, const std::wstring& filter)
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377 : impl_(new impl(in_fps, frame_factory, filter)){}
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378 void frame_muxer::push(const std::shared_ptr<AVFrame>& video_frame, int flags){impl_->push(video_frame, flags);}
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379 void frame_muxer::push(const std::shared_ptr<core::audio_buffer>& audio_samples){return impl_->push(audio_samples);}
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380 std::shared_ptr<draw_frame> frame_muxer::poll(){return impl_->poll();}
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381 uint32_t frame_muxer::calc_nb_frames(uint32_t nb_frames) const {return impl_->calc_nb_frames(nb_frames);}
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382 bool frame_muxer::video_ready() const{return impl_->video_ready();}
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383 bool frame_muxer::audio_ready() const{return impl_->audio_ready();}
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