ref: 117a053f900e26959aee54834081902073a012a9
dir: /posix/test_h264bsd.c/
/* Small application used to test teh h264bsd library on a posix compatible syste */ #include <sys/types.h> #include <sys/stat.h> #include <unistd.h> #include <time.h> #include <stdio.h> #include <stdlib.h> #include <fcntl.h> #include "../src/h264bsd_decoder.h" #include "../src/h264bsd_util.h" static char* outputDir = NULL; static char* compareDir = NULL; static int repeatTest = 0; void createContentBuffer(char* contentPath, u8** pContentBuffer, size_t* pContentSize) { struct stat sb; if (stat(contentPath, &sb) == -1) { perror("stat failed"); exit(1); } *pContentSize = sb.st_size; *pContentBuffer = (u8*)malloc(*pContentSize); } void loadContent(char* contentPath, u8* contentBuffer, size_t contentSize) { FILE *input = fopen(contentPath, "r"); if (input == NULL) { perror("open failed"); exit(1); } off_t offset = 0; while (offset < contentSize) { offset += fread(contentBuffer + offset, sizeof(u8), contentSize - offset, input); } fclose(input); } void saveImage(u8* picData, int width, int height, int picNum) { char picPath[128]; sprintf(picPath, "%s/frame_%02d.yuv", outputDir, picNum); FILE *output = fopen(picPath, "w"); if (output == NULL) { perror("open failed"); exit(1); } size_t picSize = width * height * 3 / 2; off_t offset = 0; while (offset < picSize) { offset += fwrite(picData + offset, sizeof(u8), picSize - offset, output); } fclose(output); } static u8* expectedData = NULL; static int totalErrors = 0; int compareImage(u8* actualData, int width, int height, int picNum) { char expectedPath[128]; sprintf(expectedPath, "%s/frame_%02d.yuv", compareDir, picNum); FILE *input = fopen(expectedPath, "r"); if (input == NULL) { perror("open failed"); exit(1); } size_t picSize = width * height * 3 / 2; size_t uDataOffset = width * height; size_t vDataOffset = width * height * 5 / 4; if (!expectedData) expectedData = (u8*)malloc(picSize); off_t offset = 0; while (offset < picSize) { offset += fread(expectedData + offset, sizeof(u8), picSize - offset, input); } fclose(input); int numErrors = 0; size_t yOffset = 0; size_t uvOffset = 0; u8* yExpected = expectedData; u8* uExpected = expectedData + uDataOffset; u8* vExpected = expectedData + vDataOffset; u8* yActual = actualData; u8* uActual = actualData + uDataOffset; u8* vActual = actualData + vDataOffset; for (int y=0; y<height; ++y) { for (int x=0; x<width; ++x) { int ySame = yActual[yOffset] == yExpected[yOffset]; int uSame = uActual[uvOffset] == uExpected[uvOffset]; int vSame = vActual[uvOffset] == vExpected[uvOffset]; if(!ySame || !uSame || !vSame) { ++numErrors; if (numErrors <= 5) { printf( "Pixel (%d,%d) is different. Expected (%d,%d,%d) but saw (%d,%d,%d).\n", x, y, yExpected[yOffset], uExpected[uvOffset], vExpected[uvOffset], yActual[yOffset], uActual[uvOffset], vActual[uvOffset]); } if (numErrors == 6) printf("...\n"); } ++yOffset; if(yOffset % 1) ++ uvOffset; } } if(numErrors > 0) printf("%d pixels are different on frame %d.\n\n", numErrors, picNum); return numErrors; } void decodeContent (u8* contentBuffer, size_t contentSize) { u32 status; storage_t dec; status = h264bsdInit(&dec, HANTRO_FALSE); if (status != HANTRO_OK) { fprintf(stderr, "h264bsdInit failed\n"); exit(1); } u8* byteStrm = contentBuffer; u32 readBytes; u32 len = contentSize; int numPics = 0; u8* pic; u32 picId, isIdrPic, numErrMbs; u32 top, left, width, height, croppingFlag; int totalErrors = 0; while (len > 0) { u32 result = h264bsdDecode(&dec, byteStrm, len, 0, &readBytes); len -= readBytes; byteStrm += readBytes; switch (result) { case H264BSD_PIC_RDY: pic = h264bsdNextOutputPicture(&dec, &picId, &isIdrPic, &numErrMbs); ++numPics; if (outputDir) saveImage(pic, width, height, numPics); if (compareDir) totalErrors += compareImage(pic, width, height, numPics); break; case H264BSD_HDRS_RDY: h264bsdCroppingParams(&dec, &croppingFlag, &left, &width, &top, &height); if (!croppingFlag) { width = h264bsdPicWidth(&dec) * 16; height = h264bsdPicHeight(&dec) * 16; } char* cropped = croppingFlag ? "(cropped) " : ""; printf("Decoded headers. Image size %s%dx%d.\n", cropped, width, height); break; case H264BSD_RDY: break; case H264BSD_ERROR: printf("Error\n"); exit(1); case H264BSD_PARAM_SET_ERROR: printf("Param set error\n"); exit(1); } } h264bsdShutdown(&dec); printf("Test file complete. %d pictures decoded.\n", numPics); if (compareDir) printf("%d errors found.\n", totalErrors); } int main(int argc, char *argv[]) { int c; while ((c = getopt (argc, argv, "ro:c:")) != -1) { switch (c) { case 'o': outputDir = optarg; break; case 'c': compareDir = optarg; break; case 'r': repeatTest = 1; break; default: abort(); } } if (argc < 2) { fprintf(stderr, "Usage: %s [-r] [-c <actualDir>] [-o <outputDir>] <test_video.h264>\n", argv[0]); exit(1); } char *contentPath = argv[argc - 1]; u8* contentBuffer; size_t contentSize; createContentBuffer(contentPath, &contentBuffer, &contentSize); if (repeatTest) { while (1) { loadContent(contentPath, contentBuffer, contentSize); decodeContent(contentBuffer, contentSize); } } else { loadContent(contentPath, contentBuffer, contentSize); decodeContent(contentBuffer, contentSize); } }