#ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include "prim_test.h" #include #include #include #include #define TAG __FILE__ /* YUV to RGB conversion is lossy, so consider every value only * differing by less than 2 abs equal. */ static BOOL similar(const BYTE* src, const BYTE* dst, size_t size) { size_t x; for (x = 0; x < size; x++) { int diff = src[x] - dst[x]; if (abs(diff) > 4) { fprintf(stderr, "%"PRIuz" %02"PRIX8" : %02"PRIX8" diff=%d\n", x, src[x], dst[x], abs(diff)); return FALSE; } } return TRUE; } static BOOL similarRGB(const BYTE* src, const BYTE* dst, size_t size, UINT32 format) { size_t x; const UINT32 bpp = GetBytesPerPixel(format); for (x = 0; x < size; x++) { const double maxDiff = 4.0; UINT32 sColor, dColor; BYTE sR, sG, sB, sA; BYTE dR, dG, dB, dA; sColor = ReadColor(src, format); dColor = ReadColor(dst, format); src += bpp; dst += bpp; SplitColor(sColor, format, &sR, &sG, &sB, &sA, NULL); SplitColor(dColor, format, &dR, &dG, &dB, &dA, NULL); if ((abs(sR - dR) > maxDiff) || (abs(sG - dG) > maxDiff) || (abs(sB - dB) > maxDiff)) { fprintf(stderr, "Color value mismatch R[%02X %02X], G[%02X %02X], B[%02X %02X] at position %lu", sR, dR, sG, dG, sA, dA, x); return FALSE; } if (dA != 0xFF) { fprintf(stderr, "Invalid destination alpha value %02X at position %lu", dA, x); return FALSE; } } return TRUE; } static void get_size(BOOL large, UINT32* width, UINT32* height) { UINT32 shift = large ? 8 : 1; winpr_RAND((BYTE*)width, sizeof(*width)); winpr_RAND((BYTE*)height, sizeof(*height)); // TODO: Algorithm only works on even resolutions... *width = (*width % 64 + 1) << shift; *height = (*height % 64 + 1) << shift; } static BOOL check_padding(const BYTE* psrc, size_t size, size_t padding, const char* buffer) { size_t x; BOOL rc = TRUE; const BYTE* src; const BYTE* esrc; size_t halfPad = (padding + 1) / 2; if (!psrc) return FALSE; src = psrc - halfPad; esrc = src + size + halfPad; for (x = 0; x < halfPad; x++) { const BYTE s = *src++; const BYTE d = *esrc++; if (s != 'A') { size_t start = x; while ((x < halfPad) && (*esrc++ != 'A')) x++; fprintf(stderr, "Buffer underflow detected %02"PRIx8" != %02X %s [%"PRIuz"-%"PRIuz"]\n", d, 'A', buffer, start, x); return FALSE; } if (d != 'A') { size_t start = x; while ((x < halfPad) && (*esrc++ != 'A')) x++; fprintf(stderr, "Buffer overflow detected %02"PRIx8" != %02X %s [%"PRIuz"-%"PRIuz"]\n", d, 'A', buffer, start, x); return FALSE; } } return rc; } static void* set_padding(size_t size, size_t padding) { size_t halfPad = (padding + 1) / 2; BYTE* psrc; BYTE* src = _aligned_malloc(size + 2 * halfPad, 16); if (!src) return NULL; memset(&src[0], 'A', halfPad); memset(&src[halfPad], 0, size); memset(&src[halfPad + size], 'A', halfPad); psrc = &src[halfPad]; if (!check_padding(psrc, size, padding, "init")) { _aligned_free(src); return NULL; } return psrc; } static void free_padding(void* src, size_t padding) { BYTE* ptr; if (!src) return; ptr = ((BYTE*)src) - (padding + 1) / 2; _aligned_free(ptr); } /* Create 2 pseudo YUV420 frames of same size. * Combine them and check, if the data is at the expected position. */ static BOOL TestPrimitiveYUVCombine(primitives_t* prims, prim_size_t roi) { UINT32 x, y, i; UINT32 awidth, aheight; BOOL rc = FALSE; BYTE* luma[3] = { 0 }; BYTE* chroma[3] = { 0 }; BYTE* yuv[3] = { 0 }; BYTE* pmain[3] = { 0 }; BYTE* paux[3] = { 0 }; UINT32 lumaStride[3]; UINT32 chromaStride[3]; UINT32 yuvStride[3]; const size_t padding = 10000; RECTANGLE_16 rect; PROFILER_DEFINE(yuvCombine) PROFILER_DEFINE(yuvSplit) awidth = roi.width + 16 - roi.width % 16; aheight = roi.height + 16 - roi.height % 16; fprintf(stderr, "Running YUVCombine on frame size %"PRIu32"x%"PRIu32" [%"PRIu32"x%"PRIu32"]\n", roi.width, roi.height, awidth, aheight); PROFILER_CREATE(yuvCombine, "YUV420CombineToYUV444") PROFILER_CREATE(yuvSplit, "YUV444SplitToYUV420") rect.left = 0; rect.top = 0; rect.right = roi.width; rect.bottom = roi.height; if (!prims || !prims->YUV420CombineToYUV444) goto fail; for (x = 0; x < 3; x++) { size_t halfStride = ((x > 0) ? awidth / 2 : awidth); size_t size = aheight * awidth; size_t halfSize = ((x > 0) ? halfStride * aheight / 2 : awidth * aheight); yuvStride[x] = awidth; if (!(yuv[x] = set_padding(size, padding))) goto fail; lumaStride[x] = halfStride; if (!(luma[x] = set_padding(halfSize, padding))) goto fail; if (!(pmain[x] = set_padding(halfSize, padding))) goto fail; chromaStride[x] = halfStride; if (!(chroma[x] = set_padding(halfSize, padding))) goto fail; if (!(paux[x] = set_padding(halfSize, padding))) goto fail; memset(luma[x], 0xAB + 3 * x, halfSize); memset(chroma[x], 0x80 + 2 * x, halfSize); if (!check_padding(luma[x], halfSize, padding, "luma")) goto fail; if (!check_padding(chroma[x], halfSize, padding, "chroma")) goto fail; if (!check_padding(pmain[x], halfSize, padding, "main")) goto fail; if (!check_padding(paux[x], halfSize, padding, "aux")) goto fail; if (!check_padding(yuv[x], size, padding, "yuv")) goto fail; } PROFILER_ENTER(yuvCombine) if (prims->YUV420CombineToYUV444(AVC444_LUMA, (const BYTE**)luma, lumaStride, roi.width, roi.height, yuv, yuvStride, &rect) != PRIMITIVES_SUCCESS) { PROFILER_EXIT(yuvCombine) goto fail; } if (prims->YUV420CombineToYUV444(AVC444_CHROMAv1, (const BYTE**)chroma, chromaStride, roi.width, roi.height, yuv, yuvStride, &rect) != PRIMITIVES_SUCCESS) { PROFILER_EXIT(yuvCombine) goto fail; } PROFILER_EXIT(yuvCombine) for (x = 0; x < 3; x++) { size_t halfStride = ((x > 0) ? awidth / 2 : awidth); size_t size = aheight * awidth; size_t halfSize = ((x > 0) ? halfStride * aheight / 2 : awidth * aheight); if (!check_padding(luma[x], halfSize, padding, "luma")) goto fail; if (!check_padding(chroma[x], halfSize, padding, "chroma")) goto fail; if (!check_padding(yuv[x], size, padding, "yuv")) goto fail; } PROFILER_ENTER(yuvSplit) if (prims->YUV444SplitToYUV420((const BYTE**)yuv, yuvStride, pmain, lumaStride, paux, chromaStride, &roi) != PRIMITIVES_SUCCESS) { PROFILER_EXIT(yuvSplit) goto fail; } PROFILER_EXIT(yuvSplit) for (x = 0; x < 3; x++) { size_t halfStride = ((x > 0) ? awidth / 2 : awidth); size_t size = aheight * awidth; size_t halfSize = ((x > 0) ? halfStride * aheight / 2 : awidth * aheight); if (!check_padding(pmain[x], halfSize, padding, "main")) goto fail; if (!check_padding(paux[x], halfSize, padding, "aux")) goto fail; if (!check_padding(yuv[x], size, padding, "yuv")) goto fail; } for (i = 0; i < 3; i++) { for (y = 0; y < roi.height; y++) { UINT32 w = roi.width; UINT32 lstride = lumaStride[i]; UINT32 cstride = chromaStride[i]; if (i > 0) { w = (roi.width + 3) / 4; if (roi.height > (roi.height + 1) / 2) continue; } if (!similar(luma[i] + y * lstride, pmain[i] + y * lstride, w)) goto fail; /* Need to ignore lines of destination Y plane, * if the lines are not a multiple of 16 * as the UV planes are packed in 8 line stripes. */ if (i == 0) { /* TODO: This check is not perfect, it does not * include the last V lines packed to the Y * frame. */ UINT32 rem = roi.height % 16; if (y > roi.height - rem) continue; } if (!similar(chroma[i] + y * cstride, paux[i] + y * cstride, w)) goto fail; } } PROFILER_PRINT_HEADER PROFILER_PRINT(yuvSplit) PROFILER_PRINT(yuvCombine) PROFILER_PRINT_FOOTER rc = TRUE; fail: PROFILER_FREE(yuvCombine) PROFILER_FREE(yuvSplit) for (x = 0; x < 3; x++) { free_padding(yuv[x], padding); free_padding(luma[x], padding); free_padding(chroma[x], padding); free_padding(pmain[x], padding); free_padding(paux[x], padding); } return rc; } static BOOL TestPrimitiveYUV(primitives_t* prims, prim_size_t roi, BOOL use444) { BOOL rc = FALSE; UINT32 x, y; UINT32 awidth, aheight; BYTE* yuv[3] = {0}; UINT32 yuv_step[3]; BYTE* rgb = NULL; BYTE* rgb_dst = NULL; size_t size; size_t uvsize, uvwidth; size_t padding = 100 * 16; UINT32 stride; const UINT32 formats[] = { PIXEL_FORMAT_XRGB32, PIXEL_FORMAT_XBGR32, PIXEL_FORMAT_ARGB32, PIXEL_FORMAT_ABGR32, PIXEL_FORMAT_RGBA32, PIXEL_FORMAT_RGBX32, PIXEL_FORMAT_BGRA32, PIXEL_FORMAT_BGRX32 }; PROFILER_DEFINE(rgbToYUV420) PROFILER_DEFINE(rgbToYUV444) PROFILER_DEFINE(yuv420ToRGB) PROFILER_DEFINE(yuv444ToRGB) /* Buffers need to be 16x16 aligned. */ awidth = roi.width + 16 - roi.width % 16; aheight = roi.height + 16 - roi.height % 16; stride = awidth * sizeof(UINT32); size = awidth * aheight; if (use444) { uvwidth = awidth; uvsize = size; if (!prims || !prims->RGBToYUV444_8u_P3AC4R || !prims->YUV444ToRGB_8u_P3AC4R) return FALSE; } else { uvwidth = (awidth + 1) / 2; uvsize = (aheight + 1) / 2 * uvwidth; if (!prims || !prims->RGBToYUV420_8u_P3AC4R || !prims->YUV420ToRGB_8u_P3AC4R) return FALSE; } fprintf(stderr, "Running AVC%s on frame size %"PRIu32"x%"PRIu32"\n", use444 ? "444" : "420", roi.width, roi.height); /* Test RGB to YUV444 conversion and vice versa */ if (!(rgb = set_padding(size * sizeof(UINT32), padding))) goto fail; if (!(rgb_dst = set_padding(size * sizeof(UINT32), padding))) goto fail; if (!(yuv[0] = set_padding(size, padding))) goto fail; if (!(yuv[1] = set_padding(uvsize, padding))) goto fail; if (!(yuv[2] = set_padding(uvsize, padding))) goto fail; for (y = 0; y < roi.height; y++) { BYTE* line = &rgb[y * stride]; for (x = 0; x < roi.width; x++) { line[x * 4 + 0] = 0x81; line[x * 4 + 1] = 0x33; line[x * 4 + 2] = 0xAB; line[x * 4 + 3] = 0xFF; } } yuv_step[0] = awidth; yuv_step[1] = uvwidth; yuv_step[2] = uvwidth; for (x = 0; x < sizeof(formats) / sizeof(formats[0]); x++) { pstatus_t rc; const UINT32 DstFormat = formats[x]; printf("Testing destination color format %s\n", FreeRDPGetColorFormatName(DstFormat)); PROFILER_CREATE(rgbToYUV420, "RGBToYUV420") PROFILER_CREATE(rgbToYUV444, "RGBToYUV444") PROFILER_CREATE(yuv420ToRGB, "YUV420ToRGB") PROFILER_CREATE(yuv444ToRGB, "YUV444ToRGB") if (use444) { PROFILER_ENTER(rgbToYUV444) rc = prims->RGBToYUV444_8u_P3AC4R(rgb, DstFormat, stride, yuv, yuv_step, &roi); PROFILER_EXIT(rgbToYUV444) if (rc != PRIMITIVES_SUCCESS) goto loop_fail; PROFILER_PRINT_HEADER PROFILER_PRINT(rgbToYUV444) PROFILER_PRINT_FOOTER } else { PROFILER_ENTER(rgbToYUV420) rc = prims->RGBToYUV420_8u_P3AC4R(rgb, DstFormat, stride, yuv, yuv_step, &roi); PROFILER_EXIT(rgbToYUV420) if (rc != PRIMITIVES_SUCCESS) goto loop_fail; PROFILER_PRINT_HEADER PROFILER_PRINT(rgbToYUV420) PROFILER_PRINT_FOOTER } if (!check_padding(rgb, size * sizeof(UINT32), padding, "rgb")) { rc = -1; goto loop_fail; } if ((!check_padding(yuv[0], size, padding, "Y")) || (!check_padding(yuv[1], uvsize, padding, "U")) || (!check_padding(yuv[2], uvsize, padding, "V"))) { rc = -1; goto loop_fail; } if (use444) { PROFILER_ENTER(yuv444ToRGB) rc = prims->YUV444ToRGB_8u_P3AC4R((const BYTE**)yuv, yuv_step, rgb_dst, stride, DstFormat, &roi); PROFILER_EXIT(yuv444ToRGB) if (rc != PRIMITIVES_SUCCESS) goto loop_fail; loop_fail: PROFILER_EXIT(yuv444ToRGB) PROFILER_PRINT_HEADER PROFILER_PRINT(yuv444ToRGB) PROFILER_PRINT_FOOTER if (rc != PRIMITIVES_SUCCESS) goto fail; } else { PROFILER_ENTER(yuv420ToRGB) if (prims->YUV420ToRGB_8u_P3AC4R((const BYTE**)yuv, yuv_step, rgb_dst, stride, DstFormat, &roi) != PRIMITIVES_SUCCESS) { PROFILER_EXIT(yuv420ToRGB) goto fail; } PROFILER_EXIT(yuv420ToRGB) PROFILER_PRINT_HEADER PROFILER_PRINT(yuv420ToRGB) PROFILER_PRINT_FOOTER } if (!check_padding(rgb_dst, size * sizeof(UINT32), padding, "rgb dst")) goto fail; if ((!check_padding(yuv[0], size, padding, "Y")) || (!check_padding(yuv[1], uvsize, padding, "U")) || (!check_padding(yuv[2], uvsize, padding, "V"))) goto fail; for (y = 0; y < roi.height; y++) { BYTE* srgb = &rgb[y * stride]; BYTE* drgb = &rgb_dst[y * stride]; if (!similarRGB(srgb, drgb, roi.width, DstFormat)) goto fail; } PROFILER_FREE(rgbToYUV420) PROFILER_FREE(rgbToYUV444) PROFILER_FREE(yuv420ToRGB) PROFILER_FREE(yuv444ToRGB) } rc = TRUE; fail: free_padding(rgb, padding); free_padding(rgb_dst, padding); free_padding(yuv[0], padding); free_padding(yuv[1], padding); free_padding(yuv[2], padding); return rc; } static BOOL allocate_yuv420(BYTE** planes, UINT32 width, UINT32 height, UINT32 padding) { const size_t size = width * height; const size_t uvwidth = (width + 1) / 2; const size_t uvsize = (height + 1) / 2 * uvwidth; if (!(planes[0] = set_padding(size, padding))) goto fail; if (!(planes[1] = set_padding(uvsize, padding))) goto fail; if (!(planes[2] = set_padding(uvsize, padding))) goto fail; return TRUE; fail: free_padding(planes[0], padding); free_padding(planes[1], padding); free_padding(planes[2], padding); return FALSE; } static void free_yuv420(BYTE** planes, UINT32 padding) { if (!planes) return; free_padding(planes[0], padding); free_padding(planes[1], padding); free_padding(planes[2], padding); planes[0] = NULL; planes[1] = NULL; planes[2] = NULL; } static BOOL check_yuv420(BYTE** planes, UINT32 width, UINT32 height, UINT32 padding) { const size_t size = width * height; const size_t uvwidth = (width + 1) / 2; const size_t uvsize = (height + 1) / 2 * uvwidth; const BOOL yOk = check_padding(planes[0], size, padding, "Y"); const BOOL uOk = check_padding(planes[1], uvsize, padding, "U"); const BOOL vOk = check_padding(planes[2], uvsize, padding, "V"); return (yOk && uOk && vOk); } static BOOL check_for_mismatches(const BYTE* planeA, const BYTE* planeB, UINT32 size) { BOOL rc = FALSE; UINT32 x; for (x = 0; x < size; x++) { const BYTE a = planeA[x]; const BYTE b = planeB[x]; if (fabsf((float)a - (float)b) > 2.0f) { rc = TRUE; fprintf(stderr, "[%08x] %02x != %02x\n", x, a, b); } } return rc; } static BOOL compare_yuv420(BYTE** planesA, BYTE** planesB, UINT32 width, UINT32 height, UINT32 padding) { BOOL rc = TRUE; const size_t size = width * height; const size_t uvwidth = (width + 1) / 2; const size_t uvsize = (height + 1) / 2 * uvwidth; if (check_for_mismatches(planesA[0], planesB[0], size)) { fprintf(stderr, "Mismatch in Y planes!"); rc = FALSE; } if (check_for_mismatches(planesA[1], planesB[1], uvsize)) { fprintf(stderr, "Mismatch in U planes!"); rc = FALSE; } if (check_for_mismatches(planesA[2], planesB[2], uvsize)) { fprintf(stderr, "Mismatch in V planes!"); rc = FALSE; } return rc; } static BOOL TestPrimitiveRgbToLumaChroma(primitives_t* prims, prim_size_t roi, UINT32 version) { BOOL rc = FALSE; UINT32 x, y, cnt; UINT32 awidth, aheight; BYTE* luma[3] = {0}; BYTE* chroma[3] = {0}; BYTE* lumaGeneric[3] = {0}; BYTE* chromaGeneric[3] = {0}; UINT32 yuv_step[3]; BYTE* rgb = NULL; size_t size; size_t uvsize, uvwidth; const size_t padding = 0x1000; UINT32 stride; __RGBToAVC444YUV_t fkt, gen; const UINT32 formats[] = { PIXEL_FORMAT_XRGB32, PIXEL_FORMAT_XBGR32, PIXEL_FORMAT_ARGB32, PIXEL_FORMAT_ABGR32, PIXEL_FORMAT_RGBA32, PIXEL_FORMAT_RGBX32, PIXEL_FORMAT_BGRA32, PIXEL_FORMAT_BGRX32 }; PROFILER_DEFINE(rgbToYUV444) PROFILER_DEFINE(rgbToYUV444opt) /* Buffers need to be 16x16 aligned. */ awidth = roi.width; if (awidth % 16 != 0) awidth += 16 - roi.width % 16; aheight = roi.height; if (aheight % 16 != 0) aheight += 16 - roi.height % 16; stride = awidth * sizeof(UINT32); size = awidth * aheight; uvwidth = (awidth + 1) / 2; uvsize = (aheight + 1) / 2 * uvwidth; if (!prims || !generic) return FALSE; switch (version) { case 1: fkt = prims->RGBToAVC444YUV; gen = generic->RGBToAVC444YUV; break; case 2: fkt = prims->RGBToAVC444YUVv2; gen = generic->RGBToAVC444YUVv2; break; default: return FALSE; } if (!fkt || !gen) return FALSE; fprintf(stderr, "Running AVC444 on frame size %"PRIu32"x%"PRIu32"\n", roi.width, roi.height); /* Test RGB to YUV444 conversion and vice versa */ if (!(rgb = set_padding(size * sizeof(UINT32), padding))) goto fail; if (!allocate_yuv420(luma, awidth, aheight, padding)) goto fail; if (!allocate_yuv420(chroma, awidth, aheight, padding)) goto fail; if (!allocate_yuv420(lumaGeneric, awidth, aheight, padding)) goto fail; if (!allocate_yuv420(chromaGeneric, awidth, aheight, padding)) goto fail; for (y = 0; y < roi.height; y++) { BYTE* line = &rgb[y * stride]; for (x = 0; x < roi.width; x++) { #if 1 line[x * 4 + 0] = rand(); line[x * 4 + 1] = rand(); line[x * 4 + 2] = rand(); line[x * 4 + 3] = rand(); #else line[x * 4 + 0] = (y * roi.width + x) * 16 + 5; line[x * 4 + 1] = (y * roi.width + x) * 16 + 7; line[x * 4 + 2] = (y * roi.width + x) * 16 + 11; line[x * 4 + 3] = (y * roi.width + x) * 16 + 0; #endif } } yuv_step[0] = awidth; yuv_step[1] = uvwidth; yuv_step[2] = uvwidth; for (x = 0; x < sizeof(formats) / sizeof(formats[0]); x++) { pstatus_t rc; const UINT32 DstFormat = formats[x]; printf("Testing destination color format %s\n", FreeRDPGetColorFormatName(DstFormat)); PROFILER_CREATE(rgbToYUV444, "RGBToYUV444-generic") PROFILER_CREATE(rgbToYUV444opt, "RGBToYUV444-optimized") for (cnt = 0; cnt < 10; cnt++) { PROFILER_ENTER(rgbToYUV444opt) rc = fkt(rgb, DstFormat, stride, luma, yuv_step, chroma, yuv_step, &roi); PROFILER_EXIT(rgbToYUV444opt) if (rc != PRIMITIVES_SUCCESS) goto loop_fail; } PROFILER_PRINT_HEADER PROFILER_PRINT(rgbToYUV444opt) PROFILER_PRINT_FOOTER if (!check_padding(rgb, size * sizeof(UINT32), padding, "rgb")) { rc = -1; goto loop_fail; } if (!check_yuv420(luma, awidth, aheight, padding) || !check_yuv420(chroma, awidth, aheight, padding)) { rc = -1; goto loop_fail; } for (cnt = 0; cnt < 10; cnt++) { PROFILER_ENTER(rgbToYUV444) rc = gen(rgb, DstFormat, stride, lumaGeneric, yuv_step, chromaGeneric, yuv_step, &roi); PROFILER_EXIT(rgbToYUV444) if (rc != PRIMITIVES_SUCCESS) goto loop_fail; } PROFILER_PRINT_HEADER PROFILER_PRINT(rgbToYUV444) PROFILER_PRINT_FOOTER if (!check_padding(rgb, size * sizeof(UINT32), padding, "rgb")) { rc = -1; goto loop_fail; } if (!check_yuv420(lumaGeneric, awidth, aheight, padding) || !check_yuv420(chromaGeneric, awidth, aheight, padding)) { rc = -1; goto loop_fail; } if (!compare_yuv420(luma, lumaGeneric, awidth, aheight, padding) || !compare_yuv420(chroma, chromaGeneric, awidth, aheight, padding)) { rc = -1; goto loop_fail; } loop_fail: PROFILER_FREE(rgbToYUV444) PROFILER_FREE(rgbToYUV444opt) if (rc != PRIMITIVES_SUCCESS) goto fail; } rc = TRUE; fail: free_padding(rgb, padding); free_yuv420(luma, padding); free_yuv420(chroma, padding); free_yuv420(lumaGeneric, padding); free_yuv420(chromaGeneric, padding); return rc; } int TestPrimitivesYUV(int argc, char* argv[]) { BOOL large = (argc > 1); UINT32 x; int rc = -1; prim_test_setup(FALSE); primitives_t* prims = primitives_get(); for (x = 0; x < 10; x++) { prim_size_t roi; if (argc > 1) { int rc = sscanf(argv[1], "%"PRIu32"x%"PRIu32, &roi.width, &roi.height); if (rc != 2) { roi.width = 1920; roi.height = 1080; } } else get_size(large, &roi.width, &roi.height); printf("-------------------- GENERIC ------------------------\n"); if (!TestPrimitiveYUV(generic, roi, TRUE)) { printf("TestPrimitiveYUV (444) failed.\n"); goto end; } printf("---------------------- END --------------------------\n"); printf("------------------- OPTIMIZED -----------------------\n"); if (!TestPrimitiveYUV(prims, roi, TRUE)) { printf("TestPrimitiveYUV (444) failed.\n"); goto end; } printf("---------------------- END --------------------------\n"); printf("-------------------- GENERIC ------------------------\n"); if (!TestPrimitiveYUV(generic, roi, FALSE)) { printf("TestPrimitiveYUV (420) failed.\n"); goto end; } printf("---------------------- END --------------------------\n"); printf("------------------- OPTIMIZED -----------------------\n"); if (!TestPrimitiveYUV(prims, roi, FALSE)) { printf("TestPrimitiveYUV (420) failed.\n"); goto end; } printf("---------------------- END --------------------------\n"); printf("-------------------- GENERIC ------------------------\n"); if (!TestPrimitiveYUVCombine(generic, roi)) { printf("TestPrimitiveYUVCombine failed.\n"); goto end; } printf("---------------------- END --------------------------\n"); printf("------------------- OPTIMIZED -----------------------\n"); if (!TestPrimitiveYUVCombine(prims, roi)) { printf("TestPrimitiveYUVCombine failed.\n"); goto end; } printf("---------------------- END --------------------------\n"); printf("------------------- OPTIMIZED -----------------------\n"); if (!TestPrimitiveRgbToLumaChroma(prims, roi, 1)) { printf("TestPrimitiveRgbToLumaChroma failed.\n"); goto end; } printf("---------------------- END --------------------------\n"); printf("-------------------- GENERIC ------------------------\n"); if (!TestPrimitiveRgbToLumaChroma(prims, roi, 2)) { printf("TestPrimitiveYUVCombine failed.\n"); goto end; } printf("---------------------- END --------------------------\n"); } rc = 0; end: return rc; }