Aegisub/aegisub/src/video_provider_yuv4mpeg.h
Thomas Goyne bc74dfc33b Update the video matrix tagging scheme
Write the color range and color space used to convert video to RGB to
the YCbCr Matrix field, or None if no non-RGB video was opened. See
http://code.google.com/p/xy-vsfilter/issues/detail?id=91 for related
discussion.

Originally committed to SVN as r6762.
2012-05-11 14:38:44 +00:00

155 lines
5.8 KiB
C++

// Copyright (c) 2009, Karl Blomster
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are met:
//
// * Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation
// and/or other materials provided with the distribution.
// * Neither the name of the Aegisub Group nor the names of its contributors
// may be used to endorse or promote products derived from this software
// without specific prior written permission.
//
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// Aegisub Project http://www.aegisub.org/
//
// $Id$
/// @file video_provider_yuv4mpeg.h
/// @see video_provider_yuv4mpeg.cpp
/// @ingroup video_input
///
#include "include/aegisub/video_provider.h"
#ifndef AGI_PRE
#include <stdio.h>
#include <vector>
#include <wx/filename.h>
#include <wx/log.h>
#endif
/// the maximum allowed header length, in bytes
#define YUV4MPEG_HEADER_MAXLEN 128
/// @class YUV4MPEGVideoProvider
/// @brief Implements reading of YUV4MPEG uncompressed video files
class YUV4MPEGVideoProvider : public VideoProvider {
/// Pixel formats
enum Y4M_PixelFormat {
Y4M_PIXFMT_NONE = -1, /// not set/unknown
/// 4:2:0 sampling variants.
/// afaict the only difference between these three
/// is the chroma sample location, and nobody cares about that.
Y4M_PIXFMT_420JPEG, /// 4:2:0, H/V centered, for JPEG/MPEG-1
Y4M_PIXFMT_420MPEG2, /// 4:2:0, H cosited, for MPEG-2
Y4M_PIXFMT_420PALDV, /// 4:2:0, alternating Cb/Cr, for PAL-DV
Y4M_PIXFMT_411, /// 4:1:1, H cosited
Y4M_PIXFMT_422, /// 4:2:2, H cosited
Y4M_PIXFMT_444, /// 4:4:4, i.e. no chroma subsampling
Y4M_PIXFMT_444ALPHA, /// 4:4:4 plus alpha channel
Y4M_PIXFMT_MONO /// luma only (grayscale)
};
/// Interlacing mode for an entire stream
enum Y4M_InterlacingMode {
Y4M_ILACE_NOTSET = -1, /// undefined
Y4M_ILACE_PROGRESSIVE, /// progressive (no interlacing)
Y4M_ILACE_TFF, /// interlaced, top field first
Y4M_ILACE_BFF, /// interlaced, bottom field first
Y4M_ILACE_MIXED, /// mixed interlaced/progressive, possibly with RFF flags
Y4M_ILACE_UNKNOWN /// unknown interlacing mode (not the same as undefined)
};
/// Frame information flags
enum Y4M_FrameFlags {
Y4M_FFLAG_NOTSET = -1, /// undefined
Y4M_FFLAG_NONE = 0x0000, /// no flags set
/// field order/repeat field flags
Y4M_FFLAG_R_TFF = 0x0001, /// top field first
Y4M_FFLAG_R_TFF_R = 0x0002, /// top field first, and repeat that field
Y4M_FFLAG_R_BFF = 0x0004, /// bottom field first
Y4M_FFLAG_R_BFF_R = 0x0008, /// bottom field first, and repeat that field
Y4M_FFLAG_R_P = 0x0010, /// progressive
Y4M_FFLAG_R_P_R = 0x0020, /// progressive, and repeat frame once
Y4M_FFLAG_R_P_RR = 0x0040, /// progressive, and repeat frame twice
/// temporal sampling flags
Y4M_FFLAG_T_P = 0x0080, /// progressive (fields sampled at the same time)
Y4M_FFLAG_T_I = 0x0100, /// interlaced (fields sampled at different times)
/// chroma subsampling flags
Y4M_FFLAG_C_P = 0x0200, /// progressive (whole frame subsampled)
Y4M_FFLAG_C_I = 0x0400, /// interlaced (fields subsampled independently)
Y4M_FFLAG_C_UNKNOWN = 0x0800 /// unknown (only allowed for non-4:2:0 sampling)
};
FILE *sf; /// source file
bool inited; /// initialization state
int w, h; /// frame width/height
int num_frames; /// length of file in frames
int frame_sz; /// size of each frame in bytes
int luma_sz; /// size of the luma plane of each frame, in bytes
int chroma_sz; /// size of one of the two chroma planes of each frame, in bytes
int cur_fn; /// current frame number
Y4M_PixelFormat pixfmt; /// colorspace/pixel format
Y4M_InterlacingMode imode; /// interlacing mode (for the entire stream)
struct {
int num; /// numerator
int den; /// denominator
} fps_rat; /// framerate
agi::vfr::Framerate fps;
/// a list of byte positions detailing where in the file
/// each frame header can be found
std::vector<int64_t> seek_table;
void CheckFileFormat();
void ParseFileHeader(const std::vector<wxString>& tags);
Y4M_FrameFlags ParseFrameHeader(const std::vector<wxString>& tags);
std::vector<wxString> ReadHeader(int64_t startpos, bool reset_pos=false);
int IndexFile();
public:
YUV4MPEGVideoProvider(wxString filename);
~YUV4MPEGVideoProvider();
const AegiVideoFrame GetFrame(int n);
int GetFrameCount() const { return num_frames; }
int GetWidth() const { return w; }
int GetHeight() const { return h; }
double GetDAR() const { return 0; }
agi::vfr::Framerate GetFPS() const { return fps; }
std::vector<int> GetKeyFrames() const { return std::vector<int>(); }
wxString GetColorSpace() const { return "TV.601"; }
wxString GetDecoderName() const { return "YU4MPEG"; }
bool WantsCaching() const { return true; }
};