从文件中读取yuv和h264数据

时间:2023-03-09 06:27:55
从文件中读取yuv和h264数据

1.从文件中读取h264数据

参考ffmpeg avc.c写的从文件中一帧帧读取h.264数据的demo

#include <stdio.h>

#include <stdlib.h>

#include <stddef.h>

#include <string.h>

char* filebuf_;

const char* pbuf_;

int filesize_;

unsigned char is_stop_;

const char* AVCFindStartCodeInternal(const char *p, const char *end)

{

    const char *a = p +  - ((ptrdiff_t)p & );

    for (end -= ; p < a && p < end; p++) {

        if (p[] ==  && p[] ==  && p[] == )

            return p;

    }

    for (end -= ; p < end; p += ) {

        unsigned int x = *(const unsigned int*)p;

        //      if ((x - 0x01000100) & (~x) & 0x80008000) // little endian

        //      if ((x - 0x00010001) & (~x) & 0x00800080) // big endian

        if ((x - 0x01010101) & (~x) & 0x80808080) { // generic

            if (p[] == ) {

                if (p[] ==  && p[] == )

                    return p;

                if (p[] ==  && p[] == )

                    return p + ;

            }

            if (p[] == ) {

                if (p[] ==  && p[] == )

                    return p + ;

                if (p[] ==  && p[] == )

                    return p + ;

            }

        }

    }

    for (end += ; p < end; p++) {

        if (p[] ==  && p[] ==  && p[] == )

            return p;

    }

    return end + ;

}

const char* AVCFindStartCode(const char *p, const char *end)

{

    const char *out = AVCFindStartCodeInternal(p, end);

    if (p<out && out<end && !out[-]) out--;

    return out;

}

H264FrameReader_Init(const char* filename)

{

    FILE* fp = fopen(filename, "rb");

    filebuf_ = ;

    filesize_ = ;

    if (fp)

    {

        int retval = ;

        fseek(fp, , SEEK_END);

        filesize_ = ftell(fp);

        fseek(fp, , SEEK_SET);

        filebuf_ = (char*)malloc(filesize_);

        retval = fread(filebuf_, , filesize_, fp);

        fclose(fp);

    }

    pbuf_ = filebuf_;

}

H264FrameReader_Free()

{

    free(filebuf_);

}

H264FrameReader_ReadFrame(char* outBuf, int* outBufSize)

{

    char* pbufout = ;

    const char *p = ;

    const char *end = ;

    const char *nal_start, *nal_end;

    char startcodebuf[] = { 0x00, 0x00, 0x00, 0x01 };

    if (pbuf_ >= filebuf_ + filesize_)

    {

        return ;

    }

    pbufout = outBuf;

    p = pbuf_;

    end = filebuf_ + filesize_;

    nal_start = AVCFindStartCode(p, end);

    while (nal_start < end)

    {

        unsigned int nal_size = ;

        unsigned char nal_type = ;

        while (!*(nal_start++));

        nal_end = AVCFindStartCode(nal_start, end);

        nal_size = nal_end - nal_start;

        nal_type = nal_start[] & 0x1f;

        memcpy(pbufout, startcodebuf, );

        pbufout += ;

        memcpy(pbufout, nal_start, nal_size);

        pbufout += nal_size;

        nal_start = nal_end;

        break;

    }

    *outBufSize = pbufout - outBuf;

    pbuf_ = nal_start;

    return ;

}

int main(int argc, char **argv)

{

    unsigned long max_size =  * ;

    int tmpbuf_len = ;

    int current_read_len = ;

    char* tmpbuf = (char*)malloc(max_size * );

    FILE *fp = fopen("out.h264", "wb+");

    if (!fp)

    {

        printf("open file error\n");

        return -;

    }

    H264FrameReader_Init("test.h264");

    printf("file size = %d\n", filesize_);

    while (current_read_len < filesize_)

    {

        if (H264FrameReader_ReadFrame(tmpbuf, &tmpbuf_len))

        {

            printf("tmpbuf_len = %d\n", tmpbuf_len);

            fwrite(tmpbuf, tmpbuf_len, , fp);

            current_read_len += tmpbuf_len;

        }

    }

    fclose(fp);

    H264FrameReader_Free();

    return ;

}

2.从文件中读取yuv数据

从planar yuv420 文件中读取每一帧数据,从nvenc demo中参考来的,原理如下

1.通过fseek和ftell计算出文件的大小

2.通过yuv的分辨率可以计算出每一帧yuv数据的大小

3.通过上面两步可以计算出文件中包含多少帧的yuv数据,然后通过每一帧数据在文件中的偏移,就可以读出该帧数据

int loadframe(uint8_t *yuvInput[], FILE *hInputYUVFile, uint32_t frmIdx, uint32_t width, uint32_t height)

{

    uint64_t fileOffset;

    uint32_t result;

    uint32_t dwInFrameSize = ;

    int anFrameSize[] = {};

    dwInFrameSize = width * height *  / ;

    anFrameSize[] = width * height;

    anFrameSize[] = anFrameSize[] = width * height / ;

    //当前帧在文件中的偏移量:当前index * 每一帧的大小

    fileOffset = (uint64_t)dwInFrameSize * frmIdx;

    //seek到偏移处

    result = _fseeki64(hInputYUVFile, fileOffset, SEEK_SET);

    if (result == -)

    {

        return -;

    }

    //把当前帧的Y、U、V数据分别读取到对应的数组中

    fread(yuvInput[], anFrameSize[], , hInputYUVFile);

    fread(yuvInput[], anFrameSize[], , hInputYUVFile);

    fread(yuvInput[], anFrameSize[], , hInputYUVFile);

    return ;

}

int main()

{

    infp = fopen("yb.yuv", "rb");

    if (!infp)

    {

        printf("open in file failed\n");

        return -;

    }

    uint8_t *yuv[];

    int lumaPlaneSize, chromaPlaneSize;

    lumaPlaneSize =  * ;

    chromaPlaneSize = lumaPlaneSize >> ;

    yuv[] = new uint8_t[lumaPlaneSize];

    yuv[] = new uint8_t[chromaPlaneSize];

    yuv[] = new uint8_t[chromaPlaneSize];

    memset(yuv[], , lumaPlaneSize);

    memset(yuv[], , chromaPlaneSize);

    memset(yuv[], , chromaPlaneSize);

    uint64_t file_size = ;

    _fseeki64(infp, , SEEK_END);

    file_size = _ftelli64(infp);

    _fseeki64(infp, , SEEK_SET);

    int totalFrames = file_size / (lumaPlaneSize + chromaPlaneSize + chromaPlaneSize);

    //遍历每一帧YUV数据

    for (int frm = ; frm < totalFrames; frm++)

    {

        loadframe(yuv, infp, frm, , );

        //处理yuv数据

        //....

    }

    return ;

}

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