diff options
author | Campbell Barton <ideasman42@gmail.com> | 2019-04-23 04:01:30 +0300 |
---|---|---|
committer | Campbell Barton <ideasman42@gmail.com> | 2019-04-23 04:22:22 +0300 |
commit | 64b4b719ebd5201d27aa25d7fa2d765eabded9b0 (patch) | |
tree | c6e1147f3b81b90193d3acaa0df3f8c5c93db328 /source/blender/imbuf/intern/cineon/logImageCore.c | |
parent | ac53291e1ff79144ca41d63b0787bfe04da21677 (diff) |
Cleanup: style, use braces for imbuf
Diffstat (limited to 'source/blender/imbuf/intern/cineon/logImageCore.c')
-rw-r--r-- | source/blender/imbuf/intern/cineon/logImageCore.c | 348 |
1 files changed, 232 insertions, 116 deletions
diff --git a/source/blender/imbuf/intern/cineon/logImageCore.c b/source/blender/imbuf/intern/cineon/logImageCore.c index 2169665cf78..5d1623374d4 100644 --- a/source/blender/imbuf/intern/cineon/logImageCore.c +++ b/source/blender/imbuf/intern/cineon/logImageCore.c @@ -105,8 +105,9 @@ LogImageFile *logImageOpenFromFile(const char *filename, int cineon) (void)cineon; - if (f == NULL) + if (f == NULL) { return NULL; + } if (fread(&magicNum, sizeof(unsigned int), 1, f) != 1) { fclose(f); @@ -115,20 +116,24 @@ LogImageFile *logImageOpenFromFile(const char *filename, int cineon) fclose(f); - if (logImageIsDpx(&magicNum)) + if (logImageIsDpx(&magicNum)) { return dpxOpen((const unsigned char *)filename, 0, 0); - else if (logImageIsCineon(&magicNum)) + } + else if (logImageIsCineon(&magicNum)) { return cineonOpen((const unsigned char *)filename, 0, 0); + } return NULL; } LogImageFile *logImageOpenFromMemory(const unsigned char *buffer, unsigned int size) { - if (logImageIsDpx(buffer)) + if (logImageIsDpx(buffer)) { return dpxOpen(buffer, 1, size); - else if (logImageIsCineon(buffer)) + } + else if (logImageIsCineon(buffer)) { return cineonOpen(buffer, 1, size); + } return NULL; } @@ -146,9 +151,10 @@ LogImageFile *logImageCreate(const char *filename, const char *creator) { /* referenceWhite, referenceBlack and gamma values are only supported for DPX file */ - if (cineon) + if (cineon) { return cineonCreate(filename, width, height, bitsPerSample, creator); - else + } + else { return dpxCreate(filename, width, height, @@ -159,6 +165,7 @@ LogImageFile *logImageCreate(const char *filename, referenceBlack, gamma, creator); + } return NULL; } @@ -196,16 +203,20 @@ size_t getRowLength(size_t width, LogImageElement logElement) return ((width * logElement.depth - 1) / 4 + 1) * 4; case 10: - if (logElement.packing == 0) + if (logElement.packing == 0) { return ((width * logElement.depth * 10 - 1) / 32 + 1) * 4; - else if (logElement.packing == 1 || logElement.packing == 2) + } + else if (logElement.packing == 1 || logElement.packing == 2) { return ((width * logElement.depth - 1) / 3 + 1) * 4; + } break; case 12: - if (logElement.packing == 0) + if (logElement.packing == 0) { return ((width * logElement.depth * 12 - 1) / 32 + 1) * 4; - else if (logElement.packing == 1 || logElement.packing == 2) + } + else if (logElement.packing == 1 || logElement.packing == 2) { return width * logElement.depth * 2; + } break; case 16: return width * logElement.depth * 2; @@ -224,8 +235,9 @@ int logImageSetDataRGBA(LogImageFile *logImage, float *data, int dataIsLinearRGB elementData = (float *)imb_alloc_pixels( logImage->width, logImage->height, logImage->depth, sizeof(float), __func__); - if (elementData == NULL) + if (elementData == NULL) { return 1; + } if (convertRGBAToLogElement( data, elementData, logImage, logImage->element[0], dataIsLinearRGB) != 0) { @@ -266,19 +278,22 @@ static int logImageSetData8(LogImageFile *logImage, LogImageElement logElement, row = (unsigned char *)MEM_mallocN(rowLength, __func__); if (row == NULL) { - if (verbose) + if (verbose) { printf("DPX/Cineon: Cannot allocate row.\n"); + } return 1; } memset(row, 0, rowLength); for (size_t y = 0; y < logImage->height; y++) { - for (size_t x = 0; x < logImage->width * logImage->depth; x++) + for (size_t x = 0; x < logImage->width * logImage->depth; x++) { row[x] = (unsigned char)float_uint(data[y * logImage->width * logImage->depth + x], 255); + } if (logimage_fwrite(row, rowLength, 1, logImage) == 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: Error while writing file.\n"); + } MEM_freeN(row); return 1; } @@ -295,8 +310,9 @@ static int logImageSetData10(LogImageFile *logImage, LogImageElement logElement, row = (unsigned int *)MEM_mallocN(rowLength, __func__); if (row == NULL) { - if (verbose) + if (verbose) { printf("DPX/Cineon: Cannot allocate row.\n"); + } return 1; } @@ -316,8 +332,9 @@ static int logImageSetData10(LogImageFile *logImage, LogImageElement logElement, offset = 22; } } - if (pixel != 0) + if (pixel != 0) { row[index] = swap_uint(pixel, logImage->isMSB); + } if (logimage_fwrite(row, rowLength, 1, logImage) == 0) { if (verbose) { @@ -338,20 +355,23 @@ static int logImageSetData12(LogImageFile *logImage, LogImageElement logElement, row = (unsigned short *)MEM_mallocN(rowLength, __func__); if (row == NULL) { - if (verbose) + if (verbose) { printf("DPX/Cineon: Cannot allocate row.\n"); + } return 1; } for (size_t y = 0; y < logImage->height; y++) { - for (size_t x = 0; x < logImage->width * logImage->depth; x++) + for (size_t x = 0; x < logImage->width * logImage->depth; x++) { row[x] = swap_ushort( ((unsigned short)float_uint(data[y * logImage->width * logImage->depth + x], 4095)) << 4, logImage->isMSB); + } if (logimage_fwrite(row, rowLength, 1, logImage) == 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: Error while writing file.\n"); + } MEM_freeN(row); return 1; } @@ -367,20 +387,23 @@ static int logImageSetData16(LogImageFile *logImage, LogImageElement logElement, row = (unsigned short *)MEM_mallocN(rowLength, __func__); if (row == NULL) { - if (verbose) + if (verbose) { printf("DPX/Cineon: Cannot allocate row.\n"); + } return 1; } for (size_t y = 0; y < logImage->height; y++) { - for (size_t x = 0; x < logImage->width * logImage->depth; x++) + for (size_t x = 0; x < logImage->width * logImage->depth; x++) { row[x] = swap_ushort( (unsigned short)float_uint(data[y * logImage->width * logImage->depth + x], 65535), logImage->isMSB); + } if (logimage_fwrite(row, rowLength, 1, logImage) == 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: Error while writing file.\n"); + } MEM_freeN(row); return 1; } @@ -416,28 +439,35 @@ int logImageGetDataRGBA(LogImageFile *logImage, float *data, int dataIsLinearRGB elementData[i] = imb_alloc_pixels( logImage->width, logImage->height, logImage->element[i].depth, sizeof(float), __func__); if (elementData[i] == NULL) { - if (verbose) + if (verbose) { printf("DPX/Cineon: Cannot allocate memory for elementData[%d]\n.", i); - for (j = 0; j < i; j++) - if (elementData[j] != NULL) + } + for (j = 0; j < i; j++) { + if (elementData[j] != NULL) { MEM_freeN(elementData[j]); + } + } return 1; } elementData_ptr[i] = elementData[i]; /* Load data */ if (logImageElementGetData(logImage, logImage->element[i], elementData[i]) != 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: Cannot read elementData[%d]\n.", i); - for (j = 0; j < i; j++) - if (elementData[j] != NULL) + } + for (j = 0; j < i; j++) { + if (elementData[j] != NULL) { MEM_freeN(elementData[j]); + } + } return 1; } } - if (logImage->element[i].descriptor == descriptor_Alpha) + if (logImage->element[i].descriptor == descriptor_Alpha) { hasAlpha = 1; + } } /* only one element, easy case, no need to do anything */ @@ -461,28 +491,34 @@ int logImageGetDataRGBA(LogImageFile *logImage, float *data, int dataIsLinearRGB switch (logImage->element[i].descriptor) { case descriptor_Red: case descriptor_RGB: - if (hasAlpha == 0) + if (hasAlpha == 0) { mergedElement.descriptor = descriptor_RGB; - else + } + else { mergedElement.descriptor = descriptor_RGBA; + } sortedElementData[0] = i; break; case descriptor_Green: - if (hasAlpha == 0) + if (hasAlpha == 0) { mergedElement.descriptor = descriptor_RGB; - else + } + else { mergedElement.descriptor = descriptor_RGBA; + } sortedElementData[1] = i; break; case descriptor_Blue: - if (hasAlpha == 0) + if (hasAlpha == 0) { mergedElement.descriptor = descriptor_RGB; - else + } + else { mergedElement.descriptor = descriptor_RGBA; + } sortedElementData[2] = i; break; @@ -493,57 +529,77 @@ int logImageGetDataRGBA(LogImageFile *logImage, float *data, int dataIsLinearRGB break; case descriptor_Luminance: - if (mergedElement.descriptor == -1) - if (hasAlpha == 0) + if (mergedElement.descriptor == -1) { + if (hasAlpha == 0) { mergedElement.descriptor = descriptor_Luminance; - else + } + else { mergedElement.descriptor = descriptor_YA; + } + } else if (mergedElement.descriptor == descriptor_Chrominance) { - if (mergedElement.depth == 2) + if (mergedElement.depth == 2) { mergedElement.descriptor = descriptor_CbYCrY; - else if (mergedElement.depth == 3) - if (hasAlpha == 0) + } + else if (mergedElement.depth == 3) { + if (hasAlpha == 0) { mergedElement.descriptor = descriptor_CbYCr; - else + } + else { mergedElement.descriptor = descriptor_CbYACrYA; - else if (mergedElement.depth == 4) + } + } + else if (mergedElement.depth == 4) { mergedElement.descriptor = descriptor_CbYCrA; + } } /* Y component always in 1 except if it's alone or with alpha */ - if (mergedElement.depth == 1 || (mergedElement.depth == 2 && hasAlpha == 1)) + if (mergedElement.depth == 1 || (mergedElement.depth == 2 && hasAlpha == 1)) { sortedElementData[0] = i; - else + } + else { sortedElementData[1] = i; + } break; case descriptor_Chrominance: - if (mergedElement.descriptor == -1) + if (mergedElement.descriptor == -1) { mergedElement.descriptor = descriptor_Chrominance; + } else if (mergedElement.descriptor == descriptor_Luminance) { - if (mergedElement.depth == 2) + if (mergedElement.depth == 2) { mergedElement.descriptor = descriptor_CbYCrY; - else if (mergedElement.depth == 3) - if (hasAlpha == 0) + } + else if (mergedElement.depth == 3) { + if (hasAlpha == 0) { mergedElement.descriptor = descriptor_CbYCr; - else + } + else { mergedElement.descriptor = descriptor_CbYACrYA; - else if (mergedElement.depth == 4) + } + } + else if (mergedElement.depth == 4) { mergedElement.descriptor = descriptor_CbYCrA; + } } /* Cb and Cr always in 0 or 2 */ - if (sortedElementData[0] == -1) + if (sortedElementData[0] == -1) { sortedElementData[0] = i; - else + } + else { sortedElementData[2] = i; + } break; case descriptor_CbYCr: - if (hasAlpha == 0) + if (hasAlpha == 0) { mergedElement.descriptor = descriptor_CbYCr; - else + } + else { mergedElement.descriptor = descriptor_CbYCrA; + } sortedElementData[0] = i; break; @@ -568,25 +624,32 @@ int logImageGetDataRGBA(LogImageFile *logImage, float *data, int dataIsLinearRGB mergedData = (float *)imb_alloc_pixels( logImage->width, logImage->height, mergedElement.depth, sizeof(float), __func__); if (mergedData == NULL) { - if (verbose) + if (verbose) { printf("DPX/Cineon: Cannot allocate mergedData.\n"); - for (i = 0; i < logImage->numElements; i++) - if (elementData[i] != NULL) + } + for (i = 0; i < logImage->numElements; i++) { + if (elementData[i] != NULL) { MEM_freeN(elementData[i]); + } + } return 1; } sampleIndex = 0; while (sampleIndex < logImage->width * logImage->height * mergedElement.depth) { - for (i = 0; i < logImage->numElements; i++) - for (j = 0; j < logImage->element[sortedElementData[i]].depth; j++) + for (i = 0; i < logImage->numElements; i++) { + for (j = 0; j < logImage->element[sortedElementData[i]].depth; j++) { mergedData[sampleIndex++] = *(elementData_ptr[sortedElementData[i]]++); + } + } } /* Done with elements data, clean-up */ - for (i = 0; i < logImage->numElements; i++) - if (elementData[i] != NULL) + for (i = 0; i < logImage->numElements; i++) { + if (elementData[i] != NULL) { MEM_freeN(elementData[i]); + } + } returnValue = convertLogElementToRGBA( mergedData, data, logImage, mergedElement, dataIsLinearRGB); @@ -605,17 +668,21 @@ static int logImageElementGetData(LogImageFile *logImage, LogImageElement logEle return logImageElementGetData8(logImage, logElement, data); case 10: - if (logElement.packing == 0) + if (logElement.packing == 0) { return logImageElementGetData10Packed(logImage, logElement, data); - else if (logElement.packing == 1 || logElement.packing == 2) + } + else if (logElement.packing == 1 || logElement.packing == 2) { return logImageElementGetData10(logImage, logElement, data); + } break; case 12: - if (logElement.packing == 0) + if (logElement.packing == 0) { return logImageElementGetData12Packed(logImage, logElement, data); - else if (logElement.packing == 1 || logElement.packing == 2) + } + else if (logElement.packing == 1 || logElement.packing == 2) { return logImageElementGetData12(logImage, logElement, data); + } break; case 16: @@ -631,8 +698,9 @@ static int logImageElementGetData1(LogImageFile *logImage, LogImageElement logEl /* seek at the right place */ if (logimage_fseek(logImage, logElement.dataOffset, SEEK_SET) != 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: Couldn't seek at %d\n", logElement.dataOffset); + } return 1; } @@ -640,14 +708,16 @@ static int logImageElementGetData1(LogImageFile *logImage, LogImageElement logEl for (size_t y = 0; y < logImage->height; y++) { for (size_t x = 0; x < logImage->width * logElement.depth; x += 32) { if (logimage_read_uint(&pixel, logImage) != 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: EOF reached\n"); + } return 1; } pixel = swap_uint(pixel, logImage->isMSB); - for (int offset = 0; offset < 32 && x + offset < logImage->width; offset++) + for (int offset = 0; offset < 32 && x + offset < logImage->width; offset++) { data[y * logImage->width * logElement.depth + x + offset] = (float)((pixel >> offset) & 0x01); + } } } return 0; @@ -662,15 +732,17 @@ static int logImageElementGetData8(LogImageFile *logImage, LogImageElement logEl for (size_t y = 0; y < logImage->height; y++) { /* 8 bits are 32-bits padded so we need to seek at each row */ if (logimage_fseek(logImage, logElement.dataOffset + y * rowLength, SEEK_SET) != 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: Couldn't seek at %d\n", (int)(logElement.dataOffset + y * rowLength)); + } return 1; } for (size_t x = 0; x < logImage->width * logElement.depth; x++) { if (logimage_read_uchar(&pixel, logImage) != 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: EOF reached\n"); + } return 1; } data[y * logImage->width * logElement.depth + x] = (float)pixel / 255.0f; @@ -687,8 +759,9 @@ static int logImageElementGetData10(LogImageFile *logImage, /* seek to data */ if (logimage_fseek(logImage, logElement.dataOffset, SEEK_SET) != 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: Couldn't seek at %d\n", logElement.dataOffset); + } return 1; } @@ -698,14 +771,17 @@ static int logImageElementGetData10(LogImageFile *logImage, for (size_t x = 0; x < logImage->width * logElement.depth; x++) { /* we need to read the next long */ if (offset >= 30) { - if (logElement.packing == 1) + if (logElement.packing == 1) { offset = 2; - else if (logElement.packing == 2) + } + else if (logElement.packing == 2) { offset = 0; + } if (logimage_read_uint(&pixel, logImage) != 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: EOF reached\n"); + } return 1; } pixel = swap_uint(pixel, logImage->isMSB); @@ -722,14 +798,17 @@ static int logImageElementGetData10(LogImageFile *logImage, for (size_t x = 0; x < logImage->width * logElement.depth; x++) { /* we need to read the next long */ if (offset < 0) { - if (logElement.packing == 1) + if (logElement.packing == 1) { offset = 22; - else if (logElement.packing == 2) + } + else if (logElement.packing == 2) { offset = 20; + } if (logimage_read_uint(&pixel, logImage) != 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: EOF reached\n"); + } return 1; } pixel = swap_uint(pixel, logImage->isMSB); @@ -755,9 +834,10 @@ static int logImageElementGetData10Packed(LogImageFile *logImage, for (size_t y = 0; y < logImage->height; y++) { /* seek to data */ if (logimage_fseek(logImage, y * rowLength + logElement.dataOffset, SEEK_SET) != 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: Couldn't seek at %u\n", (unsigned int)(y * rowLength + logElement.dataOffset)); + } return 1; } @@ -784,8 +864,9 @@ static int logImageElementGetData10Packed(LogImageFile *logImage, if (offset == 0) { /* we need to read the next long */ if (logimage_read_uint(&pixel, logImage) != 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: EOF reached\n"); + } return 1; } pixel = swap_uint(pixel, logImage->isMSB); @@ -808,8 +889,9 @@ static int logImageElementGetData12(LogImageFile *logImage, /* seek to data */ if (logimage_fseek(logImage, logElement.dataOffset, SEEK_SET) != 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: Couldn't seek at %d\n", logElement.dataOffset); + } return 1; } @@ -818,16 +900,19 @@ static int logImageElementGetData12(LogImageFile *logImage, for (sampleIndex = 0; sampleIndex < numSamples; sampleIndex++) { if (logimage_read_ushort(&pixel, logImage) != 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: EOF reached\n"); + } return 1; } pixel = swap_ushort(pixel, logImage->isMSB); - if (logElement.packing == 1) /* padded to the right */ + if (logElement.packing == 1) { /* padded to the right */ data[sampleIndex] = (float)(pixel >> 4) / 4095.0f; - else if (logElement.packing == 2) /* padded to the left */ + } + else if (logElement.packing == 2) { /* padded to the left */ data[sampleIndex] = (float)pixel / 4095.0f; + } } return 0; } @@ -843,9 +928,10 @@ static int logImageElementGetData12Packed(LogImageFile *logImage, for (size_t y = 0; y < logImage->height; y++) { /* seek to data */ if (logimage_fseek(logImage, y * rowLength + logElement.dataOffset, SEEK_SET) != 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: Couldn't seek at %u\n", (unsigned int)(y * rowLength + logElement.dataOffset)); + } return 1; } @@ -872,8 +958,9 @@ static int logImageElementGetData12Packed(LogImageFile *logImage, if (offset == 0) { /* we need to read the next long */ if (logimage_read_uint(&pixel, logImage) != 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: EOF reached\n"); + } return 1; } pixel = swap_uint(pixel, logImage->isMSB); @@ -896,15 +983,17 @@ static int logImageElementGetData16(LogImageFile *logImage, /* seek to data */ if (logimage_fseek(logImage, logElement.dataOffset, SEEK_SET) != 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: Couldn't seek at %d\n", logElement.dataOffset); + } return 1; } for (sampleIndex = 0; sampleIndex < numSamples; sampleIndex++) { if (logimage_read_ushort(&pixel, logImage) != 0) { - if (verbose) + if (verbose) { printf("DPX/Cineon: EOF reached\n"); + } return 1; } pixel = swap_ushort(pixel, logImage->isMSB); @@ -999,11 +1088,12 @@ static float *getLinToLogLut(LogImageFile *logImage, LogImageElement logElement) negativeFilmGamma * logImage->gamma / 1.7f)); offset = gain - logElement.maxValue; - for (i = 0; i < lutsize; i++) + for (i = 0; i < lutsize; i++) { lut[i] = (logImage->referenceWhite + log10f(powf((i + offset) / gain, 1.7f / logImage->gamma)) / (step / negativeFilmGamma)) / logElement.maxValue; + } return lut; } @@ -1040,18 +1130,21 @@ static float *getLogToLinLut(LogImageFile *logImage, LogImageElement logElement) kneeGain = (logElement.maxValue - kneeOffset) / powf(5 * softClip, softClip / 100); for (i = 0; i < lutsize; i++) { - if (i < logImage->referenceBlack) + if (i < logImage->referenceBlack) { lut[i] = 0.0f; - else if (i > breakPoint) + } + else if (i > breakPoint) { lut[i] = (powf(i - breakPoint, softClip / 100) * kneeGain + kneeOffset) / logElement.maxValue; - else + } + else { lut[i] = (powf(10, ((float)i - logImage->referenceWhite) * step / negativeFilmGamma * logImage->gamma / 1.7f) * gain - offset) / logElement.maxValue; + } } return lut; @@ -1067,10 +1160,12 @@ static float *getLinToSrgbLut(LogImageElement logElement) for (i = 0; i < lutsize; i++) { col = (float)i / logElement.maxValue; - if (col < 0.0031308f) + if (col < 0.0031308f) { lut[i] = (col < 0.0f) ? 0.0f : col * 12.92f; - else + } + else { lut[i] = 1.055f * powf(col, 1.0f / 2.4f) - 0.055f; + } } return lut; @@ -1086,10 +1181,12 @@ static float *getSrgbToLinLut(LogImageElement logElement) for (i = 0; i < lutsize; i++) { col = (float)i / logElement.maxValue; - if (col < 0.04045f) + if (col < 0.04045f) { lut[i] = (col < 0.0f) ? 0.0f : col * (1.0f / 12.92f); - else + } + else { lut[i] = powf((col + 0.055f) * (1.0f / 1.055f), 2.4f); + } } return lut; @@ -1123,10 +1220,12 @@ static int convertRGBA_RGB(float *src, case transfer_PrintingDensity: { float *lut; - if (elementIsSource == 1) + if (elementIsSource == 1) { lut = getLogToLinLut(logImage, logElement); - else + } + else { lut = getLinToLogLut(logImage, logElement); + } for (i = 0; i < logImage->width * logImage->height; i++) { *(dst_ptr++) = lut[float_uint(*(src_ptr++), logElement.maxValue)]; @@ -1141,8 +1240,9 @@ static int convertRGBA_RGB(float *src, } default: - if (verbose) + if (verbose) { printf("DPX/Cineon: Unknown transfer %d.\n", logElement.transfer); + } return 1; } } @@ -1175,10 +1275,12 @@ static int convertRGB_RGBA(float *src, case transfer_PrintingDensity: { float *lut; - if (elementIsSource == 1) + if (elementIsSource == 1) { lut = getLogToLinLut(logImage, logElement); - else + } + else { lut = getLinToLogLut(logImage, logElement); + } for (i = 0; i < logImage->width * logImage->height; i++) { *(dst_ptr++) = lut[float_uint(*(src_ptr++), logElement.maxValue)]; @@ -1193,8 +1295,9 @@ static int convertRGB_RGBA(float *src, } default: - if (verbose) + if (verbose) { printf("DPX/Cineon: Unknown transfer %d.\n", logElement.transfer); + } return 1; } } @@ -1220,10 +1323,12 @@ static int convertRGBA_RGBA(float *src, case transfer_PrintingDensity: { float *lut; - if (elementIsSource == 1) + if (elementIsSource == 1) { lut = getLogToLinLut(logImage, logElement); - else + } + else { lut = getLinToLogLut(logImage, logElement); + } for (i = 0; i < logImage->width * logImage->height; i++) { *(dst_ptr++) = lut[float_uint(*(src_ptr++), logElement.maxValue)]; @@ -1270,10 +1375,12 @@ static int convertABGR_RGBA(float *src, case transfer_PrintingDensity: { float *lut; - if (elementIsSource == 1) + if (elementIsSource == 1) { lut = getLogToLinLut(logImage, logElement); - else + } + else { lut = getLinToLogLut(logImage, logElement); + } for (i = 0; i < logImage->width * logImage->height; i++) { src_ptr += 4; @@ -1304,8 +1411,9 @@ static int convertCbYCr_RGBA(float *src, float *src_ptr = src; float *dst_ptr = dst; - if (getYUVtoRGBMatrix((float *)&conversionMatrix, logElement) != 0) + if (getYUVtoRGBMatrix((float *)&conversionMatrix, logElement) != 0) { return 1; + } refLowData = (float)logElement.refLowData / logElement.maxValue; @@ -1335,8 +1443,9 @@ static int convertCbYCrA_RGBA(float *src, float *src_ptr = src; float *dst_ptr = dst; - if (getYUVtoRGBMatrix((float *)&conversionMatrix, logElement) != 0) + if (getYUVtoRGBMatrix((float *)&conversionMatrix, logElement) != 0) { return 1; + } refLowData = (float)logElement.refLowData / logElement.maxValue; @@ -1367,8 +1476,9 @@ static int convertCbYCrY_RGBA(float *src, float *src_ptr = src; float *dst_ptr = dst; - if (getYUVtoRGBMatrix((float *)&conversionMatrix, logElement) != 0) + if (getYUVtoRGBMatrix((float *)&conversionMatrix, logElement) != 0) { return 1; + } refLowData = (float)logElement.refLowData / logElement.maxValue; @@ -1418,8 +1528,9 @@ static int convertCbYACrYA_RGBA(float *src, float *src_ptr = src; float *dst_ptr = dst; - if (getYUVtoRGBMatrix((float *)&conversionMatrix, logElement) != 0) + if (getYUVtoRGBMatrix((float *)&conversionMatrix, logElement) != 0) { return 1; + } refLowData = (float)logElement.refLowData / logElement.maxValue; @@ -1471,8 +1582,9 @@ static int convertLuminance_RGBA(float *src, float *src_ptr = src; float *dst_ptr = dst; - if (getYUVtoRGBMatrix((float *)&conversionMatrix, logElement) != 0) + if (getYUVtoRGBMatrix((float *)&conversionMatrix, logElement) != 0) { return 1; + } refLowData = (float)logElement.refLowData / logElement.maxValue; @@ -1496,8 +1608,9 @@ static int convertYA_RGBA(float *src, float *src_ptr = src; float *dst_ptr = dst; - if (getYUVtoRGBMatrix((float *)&conversionMatrix, logElement) != 0) + if (getYUVtoRGBMatrix((float *)&conversionMatrix, logElement) != 0) { return 1; + } refLowData = (float)logElement.refLowData / logElement.maxValue; @@ -1561,8 +1674,9 @@ static int convertLogElementToRGBA( return 1; } - if (rvalue == 1) + if (rvalue == 1) { return 1; + } else if (dstIsLinearRGB) { /* convert data from sRGB to Linear RGB via lut */ float *lut = getSrgbToLinLut(logElement); @@ -1594,8 +1708,9 @@ static int convertRGBAToLogElement( /* we need to convert src to sRGB */ srgbSrc = (float *)imb_alloc_pixels( logImage->width, logImage->height, 4, sizeof(float), __func__); - if (srgbSrc == NULL) + if (srgbSrc == NULL) { return 1; + } memcpy(srgbSrc, src, 4 * (size_t)logImage->width * (size_t)logImage->height * sizeof(float)); srgbSrc_ptr = srgbSrc; @@ -1611,8 +1726,9 @@ static int convertRGBAToLogElement( } MEM_freeN(lut); } - else + else { srgbSrc = src; + } /* Convert linear RGBA data in src to format described by logElement in dst */ switch (logElement.descriptor) { |