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  • ffmpeg源码分析一:概述 (转1)

    原帖地址:http://blog.csdn.net/austinblog/article/details/24800381

    首先先看ffmpeg.c文件,有类似于如下的一些变量:

    InputStream **input_streams = NULL;
    int        nb_input_streams = 0;
    InputFile   **input_files   = NULL;
    int        nb_input_files   = 0;
    
    OutputStream **output_streams = NULL;
    int         nb_output_streams = 0;
    OutputFile   **output_files   = NULL;
    int         nb_output_files   = 0;

    其中: input_streams是输入流的数组,nb_input_streams是输入流的个数。 input_files是输入文件(也可能是设备)的数组,nb_input_files是输入文件的个数。 下面的输出相关的变量们就不用解释了。

    可以看出,文件和流是分别保存的。于是,可以想象,结构InputStream中应有其所属的文件在InputFile中的序号(file_index)。输入流数组应是这样填充的:每当在输入文件中找到一个流时,就把它添加到input_streams中,所以一个输入文件对应的输入流在input_streams中是紧靠着的,于是InputFile结构中应有其第一个流在input_streams中的开始序号(ist_index)和被放在input_streams中的流的总个数(nb_streams)。

    InputStream和InputFile结构体如下:

    typedef struct InputStream {
        int file_index;
        AVStream *st;
        int discard;             /* true if stream data should be discarded */
        int decoding_needed;     /* true if the packets must be decoded in 'raw_fifo' */
        AVCodec *dec;
        AVFrame *decoded_frame;
        AVFrame *filter_frame; /* a ref of decoded_frame, to be sent to filters */
    
        int64_t       start;     /* time when read started */
        /* predicted dts of the next packet read for this stream or (when there are
         * several frames in a packet) of the next frame in current packet (in AV_TIME_BASE units) */
        int64_t       next_dts;
        int64_t       dts;       ///< dts of the last packet read for this stream (in AV_TIME_BASE units)
    
        int64_t       next_pts;  ///< synthetic pts for the next decode frame (in AV_TIME_BASE units)
        int64_t       pts;       ///< current pts of the decoded frame  (in AV_TIME_BASE units)
        int           wrap_correction_done;
    
        int64_t filter_in_rescale_delta_last;
    
        double ts_scale;
        int saw_first_ts;
        int showed_multi_packet_warning;
        AVDictionary *opts;
        AVRational framerate;               /* framerate forced with -r */
        int top_field_first;
        int guess_layout_max;
    
        int resample_height;
        int resample_width;
        int resample_pix_fmt;
    
        int      resample_sample_fmt;
        int      resample_sample_rate;
        int      resample_channels;
        uint64_t resample_channel_layout;
    
        int fix_sub_duration;
        struct { /* previous decoded subtitle and related variables */
            int got_output;
            int ret;
            AVSubtitle subtitle;
        } prev_sub;
    
        struct sub2video {
            int64_t last_pts;
            int64_t end_pts;
            AVFrame *frame;
            int w, h;
        } sub2video;
    
        int dr1;
    
        /* decoded data from this stream goes into all those filters
         * currently video and audio only */
        InputFilter **filters;
        int        nb_filters;
    
        int reinit_filters;
    
        /* hwaccel options */
        enum HWAccelID hwaccel_id;
        char  *hwaccel_device;
    
        /* hwaccel context */
        enum HWAccelID active_hwaccel_id;
        void  *hwaccel_ctx;
        void (*hwaccel_uninit)(AVCodecContext *s);
        int  (*hwaccel_get_buffer)(AVCodecContext *s, AVFrame *frame, int flags);
        int  (*hwaccel_retrieve_data)(AVCodecContext *s, AVFrame *frame);
        enum AVPixelFormat hwaccel_pix_fmt;
        enum AVPixelFormat hwaccel_retrieved_pix_fmt;
    } InputStream;
    
    typedef struct InputFile {
        AVFormatContext *ctx;
        int eof_reached;      /* true if eof reached */
        int eagain;           /* true if last read attempt returned EAGAIN */
        int ist_index;        /* index of first stream in input_streams */
        int64_t input_ts_offset;
        int64_t ts_offset;
        int64_t last_ts;
        int64_t start_time;   /* user-specified start time in AV_TIME_BASE or AV_NOPTS_VALUE */
        int64_t recording_time;
        int nb_streams;       /* number of stream that ffmpeg is aware of; may be different
                                 from ctx.nb_streams if new streams appear during av_read_frame() */
        int nb_streams_warn;  /* number of streams that the user was warned of */
        int rate_emu;
        int accurate_seek;
    
        int shared_encoding;
    #if HAVE_PTHREADS
        pthread_t thread;           /* thread reading from this file */
        int non_blocking;           /* reading packets from the thread should not block */
        int finished;               /* the thread has exited */
        int joined;                 /* the thread has been joined */
        pthread_mutex_t fifo_lock;  /* lock for access to fifo */
        pthread_cond_t  fifo_cond;  /* the main thread will signal on this cond after reading from fifo */
        AVFifoBuffer *fifo;         /* demuxed packets are stored here; freed by the main thread */
    #endif
    } InputFile;

    在输出流output_streams中,除了要保存其所在的输出文件在output_files中的序号(index),还应保存其对应的输入流在input_streams中的序号( source_index),也应保存其在所属输出文件中的流序号(file_index)。而输出文件中呢,只需保存它的第一个流在output_streams中的序号(ost_index),但是为啥不保存输出文件中流的个数呢?我也不道,但我知道肯定不用保存也不影响实现功能(嘿嘿,相当于没说).

    OutputStream和OutputFile结构体如下:

    typedef struct OutputStream {
        int file_index;          /* file index */
        int index;               /* stream index in the output file */
        int source_index;        /* InputStream index */
        AVStream *st;            /* stream in the output file */
        int encoding_needed;     /* true if encoding needed for this stream */
        int frame_number;
        int encoded_frame_number;
        /* input pts and corresponding output pts
           for A/V sync */
        struct InputStream *sync_ist; /* input stream to sync against */
        int64_t sync_opts;       /* output frame counter, could be changed to some true timestamp */ // FIXME look at frame_number
        /* pts of the first frame encoded for this stream, used for limiting
         * recording time */
        int64_t first_pts;
        /* dts of the last packet sent to the muxer */
        int64_t last_mux_dts;
        AVBitStreamFilterContext *bitstream_filters;
        AVCodec *enc;
        int64_t max_frames;
        AVFrame *filtered_frame;
    
        /* video only */
        AVRational frame_rate;
        int force_fps;
        int top_field_first;
    
        AVRational frame_aspect_ratio;
    
        /* forced key frames */
        int64_t *forced_kf_pts;
        int forced_kf_count;
        int forced_kf_index;
        char *forced_keyframes;
        AVExpr *forced_keyframes_pexpr;
        double forced_keyframes_expr_const_values[FKF_NB];
    
        /* audio only */
        int audio_channels_map[SWR_CH_MAX];  /* list of the channels id to pick from the source stream */
        int audio_channels_mapped;           /* number of channels in audio_channels_map */
    
        char *logfile_prefix;
        FILE *logfile;
    
        OutputFilter *filter;
        char *avfilter;
        char *filters;         ///< filtergraph associated to the -filter option
        char *filters_script;  ///< filtergraph script associated to the -filter_script option
    
        int64_t sws_flags;
        AVDictionary *opts;
        AVDictionary *swr_opts;
        AVDictionary *resample_opts;
        char *apad;
        OSTFinished finished;        /* no more packets should be written for this stream */
        int unavailable;                     /* true if the steram is unavailable (possibly temporarily) */
        int stream_copy;
        const char *attachment_filename;
        int copy_initial_nonkeyframes;
        int copy_prior_start;
    
        int keep_pix_fmt;
    
        AVCodecParserContext *parser;
    } OutputStream;
    
    typedef struct OutputFile {
        AVFormatContext *ctx;
        AVDictionary *opts;
        int ost_index;       /* index of the first stream in output_streams */
        int64_t recording_time;  ///< desired length of the resulting file in microseconds == AV_TIME_BASE units
        int64_t start_time;      ///< start time in microseconds == AV_TIME_BASE units
        uint64_t limit_filesize; /* filesize limit expressed in bytes */
    
        int shortest;
    } OutputFile;

    流和文件都准备好了,下面就是转换,那么转换过程是怎样的呢?还是我来猜一猜吧:
    首先打开输入文件们,然后跟据输入流们准备并打开解码器们,然后跟据输出流们准备并打开编码器们,然后创建输出文件们,然后为所有输出文件们写好头部,然后就在循环中把输入流转换到输出流并写入输出文件中,转换完后跳出循环,然后写入文件尾,最后关闭所有的输出文件.

    概述就先到这里吧,后面会对几个重要函数做详细分析。

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  • 原文地址:https://www.cnblogs.com/wainiwann/p/4074416.html
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