// Copyright (c) 2007-2009 Fredrik Mellbin // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN // THE SOFTWARE. #include "videosource.h" void FFLAVFVideo::Free(bool CloseCodec) { if (CloseCodec) avcodec_close(CodecContext); av_close_input_file(FormatContext); } FFLAVFVideo::FFLAVFVideo(const char *SourceFile, int Track, FFMS_Index *Index, int Threads, int SeekMode) : Res(FFSourceResources(this)), FFMS_VideoSource(SourceFile, Index, Track) { FormatContext = NULL; AVCodec *Codec = NULL; this->SeekMode = SeekMode; VideoTrack = Track; Frames = (*Index)[VideoTrack]; LAVFOpenFile(SourceFile, FormatContext); if (SeekMode >= 0 && av_seek_frame(FormatContext, VideoTrack, Frames[0].DTS, AVSEEK_FLAG_BACKWARD) < 0) throw FFMS_Exception(FFMS_ERROR_DECODING, FFMS_ERROR_CODEC, "Video track is unseekable"); CodecContext = FormatContext->streams[VideoTrack]->codec; CodecContext->thread_count = Threads; Codec = avcodec_find_decoder(CodecContext->codec_id); if (Codec == NULL) throw FFMS_Exception(FFMS_ERROR_DECODING, FFMS_ERROR_CODEC, "Video codec not found"); if (avcodec_open(CodecContext, Codec) < 0) throw FFMS_Exception(FFMS_ERROR_DECODING, FFMS_ERROR_CODEC, "Could not open video codec"); Res.CloseCodec(true); // Always try to decode a frame to make sure all required parameters are known int64_t Dummy; DecodeNextFrame(&Dummy); //VP.image_type = VideoInfo::IT_TFF; VP.FPSDenominator = FormatContext->streams[VideoTrack]->time_base.num; VP.FPSNumerator = FormatContext->streams[VideoTrack]->time_base.den; VP.RFFDenominator = CodecContext->time_base.num; VP.RFFNumerator = CodecContext->time_base.den; VP.NumFrames = Frames.size(); VP.TopFieldFirst = DecodeFrame->top_field_first; // VP.ColorSpace = CodecContext->colorspace; // VP.ColorRange = CodecContext->color_range; VP.FirstTime = ((Frames.front().DTS * Frames.TB.Num) / (double)Frames.TB.Den) / 1000; VP.LastTime = ((Frames.back().DTS * Frames.TB.Num) / (double)Frames.TB.Den) / 1000; if (CodecContext->width <= 0 || CodecContext->height <= 0) throw FFMS_Exception(FFMS_ERROR_DECODING, FFMS_ERROR_CODEC, "Codec returned zero size video"); // sanity check framerate if (VP.FPSDenominator > VP.FPSNumerator || VP.FPSDenominator <= 0 || VP.FPSNumerator <= 0) { VP.FPSDenominator = 1; VP.FPSNumerator = 30; } // Adjust framerate to match the duration of the first frame if (Frames.size() >= 2) { unsigned int DTSDiff = (unsigned int)FFMAX(Frames[1].DTS - Frames[0].DTS, 1); VP.FPSDenominator *= DTSDiff; } // Cannot "output" to PPFrame without doing all other initialization // This is the additional mess required for seekmode=-1 to work in a reasonable way OutputFrame(DecodeFrame); // Set AR variables VP.SARNum = CodecContext->sample_aspect_ratio.num; VP.SARDen = CodecContext->sample_aspect_ratio.den; } void FFLAVFVideo::DecodeNextFrame(int64_t *AStartTime) { AVPacket Packet; InitNullPacket(Packet); int FrameFinished = 0; *AStartTime = -1; while (av_read_frame(FormatContext, &Packet) >= 0) { if (Packet.stream_index == VideoTrack) { if (*AStartTime < 0) *AStartTime = Packet.dts; if (CodecContext->codec_id == CODEC_ID_MPEG4 && IsNVOP(Packet)) { av_free_packet(&Packet); goto Done; } avcodec_decode_video2(CodecContext, DecodeFrame, &FrameFinished, &Packet); } av_free_packet(&Packet); if (FrameFinished) goto Done; } // Flush the last frames if (CodecContext->has_b_frames) { AVPacket NullPacket; InitNullPacket(NullPacket); avcodec_decode_video2(CodecContext, DecodeFrame, &FrameFinished, &NullPacket); } if (!FrameFinished) goto Error; Error: Done:; } FFMS_Frame *FFLAVFVideo::GetFrame(int n) { GetFrameCheck(n); if (LastFrameNum == n) return &LocalFrame; bool HasSeeked = false; int SeekOffset = 0; int ClosestKF = 0; if (SeekMode >= 0) { ClosestKF = Frames.FindClosestVideoKeyFrame(n); if (SeekMode == 0) { if (n < CurrentFrame) { av_seek_frame(FormatContext, VideoTrack, Frames[0].DTS, AVSEEK_FLAG_BACKWARD); avcodec_flush_buffers(CodecContext); CurrentFrame = 0; } } else { // 10 frames is used as a margin to prevent excessive seeking since the predicted best keyframe isn't always selected by avformat if (n < CurrentFrame || ClosestKF > CurrentFrame + 10 || (SeekMode == 3 && n > CurrentFrame + 10)) { ReSeek: av_seek_frame(FormatContext, VideoTrack, (SeekMode == 3) ? Frames[n].DTS : Frames[ClosestKF + SeekOffset].DTS, AVSEEK_FLAG_BACKWARD); avcodec_flush_buffers(CodecContext); HasSeeked = true; } } } else if (n < CurrentFrame) { throw FFMS_Exception(FFMS_ERROR_SEEKING, FFMS_ERROR_INVALID_ARGUMENT, "Non-linear access attempted"); } do { int64_t StartTime; DecodeNextFrame(&StartTime); if (HasSeeked) { HasSeeked = false; // Is the seek destination time known? Does it belong to a frame? if (StartTime < 0 || (CurrentFrame = Frames.FrameFromDTS(StartTime)) < 0) { switch (SeekMode) { case 1: // No idea where we are so go back a bit further if (ClosestKF + SeekOffset == 0) throw FFMS_Exception(FFMS_ERROR_DECODING, FFMS_ERROR_CODEC, "Frame accurate seeking is not possible in this file"); SeekOffset -= FFMIN(10, ClosestKF + SeekOffset); goto ReSeek; case 2: case 3: CurrentFrame = Frames.ClosestFrameFromDTS(StartTime); break; default: throw FFMS_Exception(FFMS_ERROR_SEEKING, FFMS_ERROR_UNKNOWN, "Failed assertion"); } } } CurrentFrame++; } while (CurrentFrame <= n); LastFrameNum = n; return OutputFrame(DecodeFrame); }