git.sesse.net Git - casparcg/blob - modules/ffmpeg/producer/util/util.cpp

   1 /*\r
   2 * Copyright (c) 2011 Sveriges Television AB <info@casparcg.com>\r
   3 *\r
   4 * This file is part of CasparCG (www.casparcg.com).\r
   5 *\r
   6 * CasparCG is free software: you can redistribute it and/or modify\r
   7 * it under the terms of the GNU General Public License as published by\r
   8 * the Free Software Foundation, either version 3 of the License, or\r
   9 * (at your option) any later version.\r
  10 *\r
  11 * CasparCG is distributed in the hope that it will be useful,\r
  12 * but WITHOUT ANY WARRANTY; without even the implied warranty of\r
  13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the\r
  14 * GNU General Public License for more details.\r
  15 *\r
  16 * You should have received a copy of the GNU General Public License\r
  17 * along with CasparCG. If not, see <http://www.gnu.org/licenses/>.\r
  18 *\r
  19 * Author: Robert Nagy, ronag89@gmail.com\r
  20 */\r
  21 \r
  22 #include "../../stdafx.h"\r
  23 \r
  24 #include "util.h"\r
  25 \r
  26 #include "flv.h"\r
  27 \r
  28 #include "../tbb_avcodec.h"\r
  29 #include "../../ffmpeg_error.h"\r
  30 \r
  31 #include <tbb/concurrent_unordered_map.h>\r
  32 #include <tbb/concurrent_queue.h>\r
  33 \r
  34 #include <core/producer/frame/frame_transform.h>\r
  35 #include <core/producer/frame/frame_factory.h>\r
  36 #include <core/producer/frame_producer.h>\r
  37 #include <core/mixer/write_frame.h>\r
  38 \r
  39 #include <common/exception/exceptions.h>\r
  40 #include <common/utility/assert.h>\r
  41 #include <common/memory/memcpy.h>\r
  42 \r
  43 #include <tbb/parallel_for.h>\r
  44 \r
  45 #include <boost/filesystem.hpp>\r
  46 #include <boost/lexical_cast.hpp>\r
  47 \r
  48 #if defined(_MSC_VER)\r
  49 #pragma warning (push)\r
  50 #pragma warning (disable : 4244)\r
  51 #endif\r
  52 extern "C" \r
  53 {\r
  54         #include <libswscale/swscale.h>\r
  55         #include <libavcodec/avcodec.h>\r
  56         #include <libavformat/avformat.h>\r
  57 }\r
  58 #if defined(_MSC_VER)\r
  59 #pragma warning (pop)\r
  60 #endif\r
  61 \r
  62 namespace caspar { namespace ffmpeg {\r
  63                 \r
  64 std::shared_ptr<core::audio_buffer> flush_audio()\r
  65 {\r
  66         static std::shared_ptr<core::audio_buffer> audio(new core::audio_buffer());\r
  67         return audio;\r
  68 }\r
  69 \r
  70 std::shared_ptr<core::audio_buffer> empty_audio()\r
  71 {\r
  72         static std::shared_ptr<core::audio_buffer> audio(new core::audio_buffer());\r
  73         return audio;\r
  74 }\r
  75 \r
  76 std::shared_ptr<AVFrame>                        flush_video()\r
  77 {\r
  78         static std::shared_ptr<AVFrame> video(avcodec_alloc_frame(), av_free);\r
  79         return video;\r
  80 }\r
  81 \r
  82 std::shared_ptr<AVFrame>                        empty_video()\r
  83 {\r
  84         static std::shared_ptr<AVFrame> video(avcodec_alloc_frame(), av_free);\r
  85         return video;\r
  86 }\r
  87 \r
  88 core::field_mode::type get_mode(const AVFrame& frame)\r
  89 {\r
  90         if(!frame.interlaced_frame)\r
  91                 return core::field_mode::progressive;\r
  92 \r
  93         return frame.top_field_first ? core::field_mode::upper : core::field_mode::lower;\r
  94 }\r
  95 \r
  96 core::pixel_format::type get_pixel_format(PixelFormat pix_fmt)\r
  97 {\r
  98         switch(pix_fmt)\r
  99         {\r
 100         case CASPAR_PIX_FMT_LUMA:       return core::pixel_format::luma;\r
 101         case PIX_FMT_GRAY8:                     return core::pixel_format::gray;\r
 102         case PIX_FMT_BGRA:                      return core::pixel_format::bgra;\r
 103         case PIX_FMT_ARGB:                      return core::pixel_format::argb;\r
 104         case PIX_FMT_RGBA:                      return core::pixel_format::rgba;\r
 105         case PIX_FMT_ABGR:                      return core::pixel_format::abgr;\r
 106         case PIX_FMT_YUV444P:           return core::pixel_format::ycbcr;\r
 107         case PIX_FMT_YUV422P:           return core::pixel_format::ycbcr;\r
 108         case PIX_FMT_YUV420P:           return core::pixel_format::ycbcr;\r
 109         case PIX_FMT_YUV411P:           return core::pixel_format::ycbcr;\r
 110         case PIX_FMT_YUV410P:           return core::pixel_format::ycbcr;\r
 111         case PIX_FMT_YUVA420P:          return core::pixel_format::ycbcra;\r
 112         default:                                        return core::pixel_format::invalid;\r
 113         }\r
 114 }\r
 115 \r
 116 core::pixel_format_desc get_pixel_format_desc(PixelFormat pix_fmt, size_t width, size_t height)\r
 117 {\r
 118         // Get linesizes\r
 119         AVPicture dummy_pict;   \r
 120         avpicture_fill(&dummy_pict, nullptr, pix_fmt == CASPAR_PIX_FMT_LUMA ? PIX_FMT_GRAY8 : pix_fmt, width, height);\r
 121 \r
 122         core::pixel_format_desc desc;\r
 123         desc.pix_fmt = get_pixel_format(pix_fmt);\r
 124                 \r
 125         switch(desc.pix_fmt)\r
 126         {\r
 127         case core::pixel_format::gray:\r
 128         case core::pixel_format::luma:\r
 129                 {\r
 130                         desc.planes.push_back(core::pixel_format_desc::plane(dummy_pict.linesize[0], height, 1));                                               \r
 131                         return desc;\r
 132                 }\r
 133         case core::pixel_format::bgra:\r
 134         case core::pixel_format::argb:\r
 135         case core::pixel_format::rgba:\r
 136         case core::pixel_format::abgr:\r
 137                 {\r
 138                         desc.planes.push_back(core::pixel_format_desc::plane(dummy_pict.linesize[0]/4, height, 4));                                             \r
 139                         return desc;\r
 140                 }\r
 141         case core::pixel_format::ycbcr:\r
 142         case core::pixel_format::ycbcra:\r
 143                 {               \r
 144                         // Find chroma height\r
 145                         size_t size2 = dummy_pict.data[2] - dummy_pict.data[1];\r
 146                         size_t h2 = size2/dummy_pict.linesize[1];                       \r
 147 \r
 148                         desc.planes.push_back(core::pixel_format_desc::plane(dummy_pict.linesize[0], height, 1));\r
 149                         desc.planes.push_back(core::pixel_format_desc::plane(dummy_pict.linesize[1], h2, 1));\r
 150                         desc.planes.push_back(core::pixel_format_desc::plane(dummy_pict.linesize[2], h2, 1));\r
 151 \r
 152                         if(desc.pix_fmt == core::pixel_format::ycbcra)                                          \r
 153                                 desc.planes.push_back(core::pixel_format_desc::plane(dummy_pict.linesize[3], height, 1));       \r
 154                         return desc;\r
 155                 }               \r
 156         default:                \r
 157                 desc.pix_fmt = core::pixel_format::invalid;\r
 158                 return desc;\r
 159         }\r
 160 }\r
 161 \r
 162 int make_alpha_format(int format)\r
 163 {\r
 164         switch(get_pixel_format(static_cast<PixelFormat>(format)))\r
 165         {\r
 166         case core::pixel_format::ycbcr:\r
 167         case core::pixel_format::ycbcra:\r
 168                 return CASPAR_PIX_FMT_LUMA;\r
 169         default:\r
 170                 return format;\r
 171         }\r
 172 }\r
 173 \r
 174 safe_ptr<core::write_frame> make_write_frame(const void* tag, const safe_ptr<AVFrame>& decoded_frame, const safe_ptr<core::frame_factory>& frame_factory, int hints)\r
 175 {                       \r
 176         static tbb::concurrent_unordered_map<size_t, tbb::concurrent_queue<std::shared_ptr<SwsContext>>> sws_contexts_;\r
 177         \r
 178         if(decoded_frame->width < 1 || decoded_frame->height < 1)\r
 179                 return make_safe<core::write_frame>(tag);\r
 180 \r
 181         const auto width  = decoded_frame->width;\r
 182         const auto height = decoded_frame->height;\r
 183         auto desc                 = get_pixel_format_desc(static_cast<PixelFormat>(decoded_frame->format), width, height);\r
 184         \r
 185         if(hints & core::frame_producer::ALPHA_HINT)\r
 186                 desc = get_pixel_format_desc(static_cast<PixelFormat>(make_alpha_format(decoded_frame->format)), width, height);\r
 187 \r
 188         std::shared_ptr<core::write_frame> write;\r
 189 \r
 190         if(desc.pix_fmt == core::pixel_format::invalid)\r
 191         {\r
 192                 auto pix_fmt = static_cast<PixelFormat>(decoded_frame->format);\r
 193                 auto target_pix_fmt = PIX_FMT_BGRA;\r
 194 \r
 195                 if(pix_fmt == PIX_FMT_UYVY422)\r
 196                         target_pix_fmt = PIX_FMT_YUV422P;\r
 197                 else if(pix_fmt == PIX_FMT_YUYV422)\r
 198                         target_pix_fmt = PIX_FMT_YUV422P;\r
 199                 else if(pix_fmt == PIX_FMT_UYYVYY411)\r
 200                         target_pix_fmt = PIX_FMT_YUV411P;\r
 201                 else if(pix_fmt == PIX_FMT_YUV420P10)\r
 202                         target_pix_fmt = PIX_FMT_YUV420P;\r
 203                 else if(pix_fmt == PIX_FMT_YUV422P10)\r
 204                         target_pix_fmt = PIX_FMT_YUV422P;\r
 205                 else if(pix_fmt == PIX_FMT_YUV444P10)\r
 206                         target_pix_fmt = PIX_FMT_YUV444P;\r
 207                 \r
 208                 auto target_desc = get_pixel_format_desc(target_pix_fmt, width, height);\r
 209 \r
 210                 write = frame_factory->create_frame(tag, target_desc);\r
 211                 write->set_type(get_mode(*decoded_frame));\r
 212 \r
 213                 std::shared_ptr<SwsContext> sws_context;\r
 214 \r
 215                 //CASPAR_LOG(warning) << "Hardware accelerated color transform not supported.";\r
 216 \r
 217                 size_t key = ((width << 22) & 0xFFC00000) | ((height << 6) & 0x003FC000) | ((pix_fmt << 7) & 0x00007F00) | ((target_pix_fmt << 0) & 0x0000007F);\r
 218                         \r
 219                 auto& pool = sws_contexts_[key];\r
 220                                                 \r
 221                 if(!pool.try_pop(sws_context))\r
 222                 {\r
 223                         double param;\r
 224                         sws_context.reset(sws_getContext(width, height, pix_fmt, width, height, target_pix_fmt, SWS_BILINEAR, nullptr, nullptr, &param), sws_freeContext);\r
 225                 }\r
 226                         \r
 227                 if(!sws_context)\r
 228                 {\r
 229                         BOOST_THROW_EXCEPTION(operation_failed() << msg_info("Could not create software scaling context.") << \r
 230                                                                         boost::errinfo_api_function("sws_getContext"));\r
 231                 }       \r
 232                 \r
 233                 safe_ptr<AVFrame> av_frame(avcodec_alloc_frame(), av_free);     \r
 234                 avcodec_get_frame_defaults(av_frame.get());                     \r
 235                 if(target_pix_fmt == PIX_FMT_BGRA)\r
 236                 {\r
 237                         auto size = avpicture_fill(reinterpret_cast<AVPicture*>(av_frame.get()), write->image_data().begin(), PIX_FMT_BGRA, width, height);\r
 238                         CASPAR_VERIFY(size == write->image_data().size()); \r
 239                 }\r
 240                 else\r
 241                 {\r
 242                         av_frame->width  = width;\r
 243                         av_frame->height = height;\r
 244                         for(size_t n = 0; n < target_desc.planes.size(); ++n)\r
 245                         {\r
 246                                 av_frame->data[n]               = write->image_data(n).begin();\r
 247                                 av_frame->linesize[n]   = target_desc.planes[n].linesize;\r
 248                         }\r
 249                 }\r
 250 \r
 251                 sws_scale(sws_context.get(), decoded_frame->data, decoded_frame->linesize, 0, height, av_frame->data, av_frame->linesize);      \r
 252                 pool.push(sws_context);\r
 253 \r
 254                 write->commit();                \r
 255         }\r
 256         else\r
 257         {\r
 258                 write = frame_factory->create_frame(tag, desc);\r
 259                 write->set_type(get_mode(*decoded_frame));\r
 260 \r
 261                 for(int n = 0; n < static_cast<int>(desc.planes.size()); ++n)\r
 262                 {\r
 263                         auto plane            = desc.planes[n];\r
 264                         auto result           = write->image_data(n).begin();\r
 265                         auto decoded          = decoded_frame->data[n];\r
 266                         auto decoded_linesize = decoded_frame->linesize[n];\r
 267                         \r
 268                         CASPAR_ASSERT(decoded);\r
 269                         CASPAR_ASSERT(write->image_data(n).begin());\r
 270 \r
 271                         if(decoded_linesize != static_cast<int>(plane.width))\r
 272                         {\r
 273                                 // Copy line by line since ffmpeg sometimes pads each line.\r
 274                                 tbb::parallel_for<size_t>(0, desc.planes[n].height, [&](size_t y)\r
 275                                 {\r
 276                                         fast_memcpy(result + y*plane.linesize, decoded + y*decoded_linesize, plane.linesize);\r
 277                                 });\r
 278                         }\r
 279                         else\r
 280                         {\r
 281                                 fast_memcpy(result, decoded, plane.size);\r
 282                         }\r
 283 \r
 284                         write->commit(n);\r
 285                 }\r
 286         }\r
 287 \r
 288         if(decoded_frame->height == 480) // NTSC DV\r
 289         {\r
 290                 write->get_frame_transform().fill_translation[1] += 2.0/static_cast<double>(frame_factory->get_video_format_desc().height);\r
 291                 write->get_frame_transform().fill_scale[1] = 1.0 - 6.0*1.0/static_cast<double>(frame_factory->get_video_format_desc().height);\r
 292         }\r
 293         \r
 294         // Fix field-order if needed\r
 295         if(write->get_type() == core::field_mode::lower && frame_factory->get_video_format_desc().field_mode == core::field_mode::upper)\r
 296                 write->get_frame_transform().fill_translation[1] += 1.0/static_cast<double>(frame_factory->get_video_format_desc().height);\r
 297         else if(write->get_type() == core::field_mode::upper && frame_factory->get_video_format_desc().field_mode == core::field_mode::lower)\r
 298                 write->get_frame_transform().fill_translation[1] -= 1.0/static_cast<double>(frame_factory->get_video_format_desc().height);\r
 299 \r
 300         return make_safe_ptr(write);\r
 301 }\r
 302 \r
 303 bool is_sane_fps(AVRational time_base)\r
 304 {\r
 305         double fps = static_cast<double>(time_base.den) / static_cast<double>(time_base.num);\r
 306         return fps > 20.0 && fps < 65.0;\r
 307 }\r
 308 \r
 309 AVRational fix_time_base(AVRational time_base)\r
 310 {\r
 311         if(time_base.num == 1)\r
 312                 time_base.num = static_cast<int>(std::pow(10.0, static_cast<int>(std::log10(static_cast<float>(time_base.den)))-1));    \r
 313                         \r
 314         if(!is_sane_fps(time_base))\r
 315         {\r
 316                 auto tmp = time_base;\r
 317                 tmp.den /= 2;\r
 318                 if(is_sane_fps(tmp))\r
 319                         time_base = tmp;\r
 320         }\r
 321 \r
 322         return time_base;\r
 323 }\r
 324 \r
 325 double read_fps(AVFormatContext& context, double fail_value)\r
 326 {                                               \r
 327         auto video_index = av_find_best_stream(&context, AVMEDIA_TYPE_VIDEO, -1, -1, 0, 0);\r
 328         auto audio_index = av_find_best_stream(&context, AVMEDIA_TYPE_AUDIO, -1, -1, 0, 0);\r
 329         \r
 330         if(video_index > -1)\r
 331         {\r
 332                 const auto video_context = context.streams[video_index]->codec;\r
 333                 const auto video_stream  = context.streams[video_index];\r
 334                                                 \r
 335                 AVRational time_base = video_context->time_base;\r
 336 \r
 337                 if(boost::filesystem2::path(context.filename).extension() == ".flv")\r
 338                 {\r
 339                         try\r
 340                         {\r
 341                                 auto meta = read_flv_meta_info(context.filename);\r
 342                                 return boost::lexical_cast<double>(meta["framerate"]);\r
 343                         }\r
 344                         catch(...)\r
 345                         {\r
 346                                 return 0.0;\r
 347                         }\r
 348                 }\r
 349                 else\r
 350                 {\r
 351                         time_base.num *= video_context->ticks_per_frame;\r
 352 \r
 353                         if(!is_sane_fps(time_base))\r
 354                         {                       \r
 355                                 time_base = fix_time_base(time_base);\r
 356 \r
 357                                 if(!is_sane_fps(time_base) && audio_index > -1)\r
 358                                 {\r
 359                                         auto& audio_context = *context.streams[audio_index]->codec;\r
 360                                         auto& audio_stream  = *context.streams[audio_index];\r
 361 \r
 362                                         double duration_sec = audio_stream.duration / static_cast<double>(audio_context.sample_rate);\r
 363                                                                 \r
 364                                         time_base.num = static_cast<int>(duration_sec*100000.0);\r
 365                                         time_base.den = static_cast<int>(video_stream->nb_frames*100000);\r
 366                                 }\r
 367                         }\r
 368                 }\r
 369                 \r
 370                 double fps = static_cast<double>(time_base.den) / static_cast<double>(time_base.num);\r
 371 \r
 372                 double closest_fps = 0.0;\r
 373                 for(int n = 0; n < core::video_format::count; ++n)\r
 374                 {\r
 375                         auto format = core::video_format_desc::get(static_cast<core::video_format::type>(n));\r
 376 \r
 377                         double diff1 = std::abs(format.fps - fps);\r
 378                         double diff2 = std::abs(closest_fps - fps);\r
 379 \r
 380                         if(diff1 < diff2)\r
 381                                 closest_fps = format.fps;\r
 382                 }\r
 383         \r
 384                 return closest_fps;\r
 385         }\r
 386 \r
 387         return fail_value;      \r
 388 }\r
 389 \r
 390 void fix_meta_data(AVFormatContext& context)\r
 391 {\r
 392         auto video_index = av_find_best_stream(&context, AVMEDIA_TYPE_VIDEO, -1, -1, 0, 0);\r
 393 \r
 394         if(video_index > -1)\r
 395         {\r
 396                 auto video_stream   = context.streams[video_index];\r
 397                 auto video_context  = context.streams[video_index]->codec;\r
 398                                                 \r
 399                 if(boost::filesystem2::path(context.filename).extension() == ".flv")\r
 400                 {\r
 401                         try\r
 402                         {\r
 403                                 auto meta = read_flv_meta_info(context.filename);\r
 404                                 double fps = boost::lexical_cast<double>(meta["framerate"]);\r
 405                                 video_stream->nb_frames = static_cast<int64_t>(boost::lexical_cast<double>(meta["duration"])*fps);\r
 406                         }\r
 407                         catch(...){}\r
 408                 }\r
 409                 else\r
 410                 {\r
 411                         auto stream_time = video_stream->time_base;\r
 412                         auto duration    = video_stream->duration;\r
 413                         auto codec_time  = video_context->time_base;\r
 414                         auto ticks               = video_context->ticks_per_frame;\r
 415 \r
 416                         if(video_stream->nb_frames == 0)\r
 417                                 video_stream->nb_frames = (duration*stream_time.num*codec_time.den)/(stream_time.den*codec_time.num*ticks);     \r
 418                 }\r
 419         }\r
 420 }\r
 421 \r
 422 safe_ptr<AVPacket> create_packet()\r
 423 {\r
 424         safe_ptr<AVPacket> packet(new AVPacket, [](AVPacket* p)\r
 425         {\r
 426                 av_free_packet(p);\r
 427                 delete p;\r
 428         });\r
 429         \r
 430         av_init_packet(packet.get());\r
 431         return packet;\r
 432 }\r
 433 \r
 434 safe_ptr<AVCodecContext> open_codec(AVFormatContext& context, enum AVMediaType type, int& index)\r
 435 {       \r
 436         AVCodec* decoder;\r
 437         index = THROW_ON_ERROR2(av_find_best_stream(&context, type, -1, -1, &decoder, 0), "");\r
 438         //if(strcmp(decoder->name, "prores") == 0 && decoder->next && strcmp(decoder->next->name, "prores_lgpl") == 0)\r
 439         //      decoder = decoder->next;\r
 440 \r
 441         THROW_ON_ERROR2(tbb_avcodec_open(context.streams[index]->codec, decoder), "");\r
 442         return safe_ptr<AVCodecContext>(context.streams[index]->codec, tbb_avcodec_close);\r
 443 }\r
 444 \r
 445 safe_ptr<AVFormatContext> open_input(const std::wstring& filename)\r
 446 {\r
 447         AVFormatContext* weak_context = nullptr;\r
 448         THROW_ON_ERROR2(avformat_open_input(&weak_context, narrow(filename).c_str(), nullptr, nullptr), filename);\r
 449         safe_ptr<AVFormatContext> context(weak_context, av_close_input_file);                   \r
 450         THROW_ON_ERROR2(avformat_find_stream_info(weak_context, nullptr), filename);\r
 451         fix_meta_data(*context);\r
 452         return context;\r
 453 }\r
 454 \r
 455 std::wstring print_mode(size_t width, size_t height, double fps, bool interlaced)\r
 456 {\r
 457         std::wostringstream fps_ss;\r
 458         fps_ss << std::fixed << std::setprecision(2) << (!interlaced ? fps : 2.0 * fps);\r
 459 \r
 460         return boost::lexical_cast<std::wstring>(width) + L"x" + boost::lexical_cast<std::wstring>(height) + (!interlaced ? L"p" : L"i") + fps_ss.str();\r
 461 }\r
 462 //\r
 463 //void av_dup_frame(AVFrame* frame)\r
 464 //{\r
 465 //      AVFrame* new_frame = avcodec_alloc_frame();\r
 466 //\r
 467 //\r
 468 //      const uint8_t *src_data[4] = {0};\r
 469 //      memcpy(const_cast<uint8_t**>(&src_data[0]), frame->data, 4);\r
 470 //      const int src_linesizes[4] = {0};\r
 471 //      memcpy(const_cast<int*>(&src_linesizes[0]), frame->linesize, 4);\r
 472 //\r
 473 //      av_image_alloc(new_frame->data, new_frame->linesize, new_frame->width, new_frame->height, frame->format, 16);\r
 474 //\r
 475 //      av_image_copy(new_frame->data, new_frame->linesize, src_data, src_linesizes, frame->format, new_frame->width, new_frame->height);\r
 476 //\r
 477 //      frame =\r
 478 //}\r
 479 \r
 480 }}