Index: src/codec/SkJpegCodec.cpp |
diff --git a/src/codec/SkJpegCodec.cpp b/src/codec/SkJpegCodec.cpp |
index 5e24b17848339fedfb90b3a0d3c1198bc391849b..9c9bd77c13515ff17f32e2cf33bede895e7463f7 100644 |
--- a/src/codec/SkJpegCodec.cpp |
+++ b/src/codec/SkJpegCodec.cpp |
@@ -15,23 +15,53 @@ |
#include "SkTemplates.h" |
#include "SkTypes.h" |
-// stdio is needed for libjpeg-turbo |
+// stdio is needed for jpeglib |
#include <stdio.h> |
extern "C" { |
- #include "jpeglibmangler.h" |
#include "jerror.h" |
+ #include "jmorecfg.h" |
#include "jpegint.h" |
#include "jpeglib.h" |
} |
-/* |
- * Convert a row of CMYK samples to RGBA in place. |
+// ANDROID_RGB |
+// If this is defined in the jpeg headers it indicates that jpeg offers |
+// support for two additional formats: JCS_RGBA_8888 and JCS_RGB_565. |
+ |
+/* |
+ * Get the source configuarion for the swizzler |
+ */ |
+SkSwizzler::SrcConfig get_src_config(const jpeg_decompress_struct& dinfo) { |
+ if (JCS_CMYK == dinfo.out_color_space) { |
+ // We will need to perform a manual conversion |
+ return SkSwizzler::kRGBX; |
+ } |
+ if (3 == dinfo.out_color_components && JCS_RGB == dinfo.out_color_space) { |
+ return SkSwizzler::kRGB; |
+ } |
+#ifdef ANDROID_RGB |
+ if (JCS_RGBA_8888 == dinfo.out_color_space) { |
+ return SkSwizzler::kRGBX; |
+ } |
+ |
+ if (JCS_RGB_565 == dinfo.out_color_space) { |
+ return SkSwizzler::kRGB_565; |
+ } |
+#endif |
+ if (1 == dinfo.out_color_components && JCS_GRAYSCALE == dinfo.out_color_space) { |
+ return SkSwizzler::kGray; |
+ } |
+ return SkSwizzler::kUnknown; |
+} |
+ |
+/* |
+ * Convert a row of CMYK samples to RGBX in place. |
* Note that this method moves the row pointer. |
* @param width the number of pixels in the row that is being converted |
* CMYK is stored as four bytes per pixel |
*/ |
-static void convert_CMYK_to_RGBA(uint8_t* row, uint32_t width) { |
+static void convert_CMYK_to_RGB(uint8_t* row, uint32_t width) { |
// We will implement a crude conversion from CMYK -> RGB using formulas |
// from easyrgb.com. |
// |
@@ -74,16 +104,9 @@ |
// G = M * K / 255 |
// B = Y * K / 255 |
for (uint32_t x = 0; x < width; x++, row += 4) { |
-#if defined(SK_PMCOLOR_IS_RGBA) |
row[0] = SkMulDiv255Round(row[0], row[3]); |
row[1] = SkMulDiv255Round(row[1], row[3]); |
row[2] = SkMulDiv255Round(row[2], row[3]); |
-#else |
- uint8_t tmp = row[0]; |
- row[0] = SkMulDiv255Round(row[2], row[3]); |
- row[1] = SkMulDiv255Round(row[1], row[3]); |
- row[2] = SkMulDiv255Round(tmp, row[3]); |
-#endif |
row[3] = 0xFF; |
} |
} |
@@ -110,7 +133,7 @@ |
decoderMgr->init(); |
// Read the jpeg header |
- if (JPEG_HEADER_OK != turbo_jpeg_read_header(decoderMgr->dinfo(), true)) { |
+ if (JPEG_HEADER_OK != jpeg_read_header(decoderMgr->dinfo(), true)) { |
return decoderMgr->returnFalse("read_header"); |
} |
@@ -145,32 +168,24 @@ |
JpegDecoderMgr* decoderMgr) |
: INHERITED(srcInfo, stream) |
, fDecoderMgr(decoderMgr) |
+ , fSwizzler(NULL) |
+ , fSrcRowBytes(0) |
{} |
/* |
* Return a valid set of output dimensions for this decoder, given an input scale |
*/ |
SkISize SkJpegCodec::onGetScaledDimensions(float desiredScale) const { |
- // libjpeg-turbo supports scaling by 1/8, 1/4, 3/8, 1/2, 5/8, 3/4, 7/8, and 1/1, so we will |
- // support these as well |
- long num; |
- long denom = 8; |
- if (desiredScale > 0.875f) { |
- num = 8; |
- } else if (desiredScale > 0.75f) { |
- num = 7; |
- } else if (desiredScale > 0.625f) { |
- num = 6; |
- } else if (desiredScale > 0.5f) { |
- num = 5; |
+ // libjpeg supports scaling by 1/1, 1/2, 1/4, and 1/8, so we will support these as well |
+ long scale; |
+ if (desiredScale > 0.75f) { |
+ scale = 1; |
} else if (desiredScale > 0.375f) { |
- num = 4; |
- } else if (desiredScale > 0.25f) { |
- num = 3; |
- } else if (desiredScale > 0.125f) { |
- num = 2; |
+ scale = 2; |
+ } else if (desiredScale > 0.1875f) { |
+ scale = 4; |
} else { |
- num = 1; |
+ scale = 8; |
} |
// Set up a fake decompress struct in order to use libjpeg to calculate output dimensions |
@@ -180,12 +195,37 @@ |
dinfo.image_height = this->getInfo().height(); |
dinfo.global_state = DSTATE_READY; |
dinfo.num_components = 0; |
- dinfo.scale_num = num; |
- dinfo.scale_denom = denom; |
- turbo_jpeg_calc_output_dimensions(&dinfo); |
+ dinfo.scale_num = 1; |
+ dinfo.scale_denom = scale; |
+ jpeg_calc_output_dimensions(&dinfo); |
// Return the calculated output dimensions for the given scale |
return SkISize::Make(dinfo.output_width, dinfo.output_height); |
+} |
+ |
+/* |
+ * Checks if the conversion between the input image and the requested output |
+ * image has been implemented |
+ */ |
+static bool conversion_possible(const SkImageInfo& dst, |
+ const SkImageInfo& src) { |
+ // Ensure that the profile type is unchanged |
+ if (dst.profileType() != src.profileType()) { |
+ return false; |
+ } |
+ |
+ // Ensure that the alpha type is opaque |
+ if (kOpaque_SkAlphaType != dst.alphaType()) { |
+ return false; |
+ } |
+ |
+ // Always allow kN32 as the color type |
+ if (kN32_SkColorType == dst.colorType()) { |
+ return true; |
+ } |
+ |
+ // Otherwise require that the destination color type match our recommendation |
+ return dst.colorType() == src.colorType(); |
} |
/* |
@@ -213,87 +253,41 @@ |
} |
/* |
- * Checks if the conversion between the input image and the requested output |
- * image has been implemented |
- * Sets the output color space |
- */ |
-bool SkJpegCodec::setOutputColorSpace(const SkImageInfo& dst) { |
- const SkImageInfo& src = this->getInfo(); |
- |
- // Ensure that the profile type is unchanged |
- if (dst.profileType() != src.profileType()) { |
- return false; |
- } |
- |
- // Ensure that the alpha type is opaque |
- if (kOpaque_SkAlphaType != dst.alphaType()) { |
- return false; |
- } |
- |
- // Check if we will decode to CMYK because a conversion to RGBA is not supported |
- J_COLOR_SPACE colorSpace = fDecoderMgr->dinfo()->jpeg_color_space; |
- bool isCMYK = JCS_CMYK == colorSpace || JCS_YCCK == colorSpace; |
- |
- // Check for valid color types and set the output color space |
- switch (dst.colorType()) { |
- case kN32_SkColorType: |
- if (isCMYK) { |
- fDecoderMgr->dinfo()->out_color_space = JCS_CMYK; |
- } else { |
- // Check the byte ordering of the RGBA color space for the |
- // current platform |
-#if defined(SK_PMCOLOR_IS_RGBA) |
- fDecoderMgr->dinfo()->out_color_space = JCS_EXT_RGBA; |
-#else |
- fDecoderMgr->dinfo()->out_color_space = JCS_EXT_BGRA; |
-#endif |
- } |
- return true; |
- case kRGB_565_SkColorType: |
- if (isCMYK) { |
- return false; |
- } else { |
- fDecoderMgr->dinfo()->out_color_space = JCS_RGB565; |
- } |
- return true; |
- case kGray_8_SkColorType: |
- if (isCMYK) { |
- return false; |
- } else { |
- // We will enable decodes to gray even if the image is color because this is |
- // much faster than decoding to color and then converting |
- fDecoderMgr->dinfo()->out_color_space = JCS_GRAYSCALE; |
- } |
- return true; |
- default: |
- return false; |
- } |
-} |
- |
-/* |
* Checks if we can scale to the requested dimensions and scales the dimensions |
* if possible |
*/ |
bool SkJpegCodec::scaleToDimensions(uint32_t dstWidth, uint32_t dstHeight) { |
- // libjpeg-turbo can scale to 1/8, 1/4, 3/8, 1/2, 5/8, 3/4, 7/8, and 1/1 |
- fDecoderMgr->dinfo()->scale_denom = 8; |
- fDecoderMgr->dinfo()->scale_num = 8; |
- turbo_jpeg_calc_output_dimensions(fDecoderMgr->dinfo()); |
+ // libjpeg can scale to 1/1, 1/2, 1/4, and 1/8 |
+ SkASSERT(1 == fDecoderMgr->dinfo()->scale_num); |
+ SkASSERT(1 == fDecoderMgr->dinfo()->scale_denom); |
+ jpeg_calc_output_dimensions(fDecoderMgr->dinfo()); |
while (fDecoderMgr->dinfo()->output_width != dstWidth || |
fDecoderMgr->dinfo()->output_height != dstHeight) { |
// Return a failure if we have tried all of the possible scales |
- if (1 == fDecoderMgr->dinfo()->scale_num || |
+ if (8 == fDecoderMgr->dinfo()->scale_denom || |
dstWidth > fDecoderMgr->dinfo()->output_width || |
dstHeight > fDecoderMgr->dinfo()->output_height) { |
return fDecoderMgr->returnFalse("could not scale to requested dimensions"); |
} |
// Try the next scale |
- fDecoderMgr->dinfo()->scale_num -= 1; |
- turbo_jpeg_calc_output_dimensions(fDecoderMgr->dinfo()); |
+ fDecoderMgr->dinfo()->scale_denom *= 2; |
+ jpeg_calc_output_dimensions(fDecoderMgr->dinfo()); |
} |
return true; |
+} |
+ |
+/* |
+ * Create the swizzler based on the encoded format |
+ */ |
+void SkJpegCodec::initializeSwizzler(const SkImageInfo& dstInfo, |
+ void* dst, size_t dstRowBytes, |
+ const Options& options) { |
+ SkSwizzler::SrcConfig srcConfig = get_src_config(*fDecoderMgr->dinfo()); |
+ fSwizzler.reset(SkSwizzler::CreateSwizzler(srcConfig, NULL, dstInfo, dst, dstRowBytes, |
+ options.fZeroInitialized)); |
+ fSrcRowBytes = SkSwizzler::BytesPerPixel(srcConfig) * dstInfo.width(); |
} |
/* |
@@ -322,58 +316,79 @@ |
return fDecoderMgr->returnFailure("setjmp", kInvalidInput); |
} |
- // Check if we can decode to the requested destination and set the output color space |
- if (!this->setOutputColorSpace(dstInfo)) { |
+ // Check if we can decode to the requested destination |
+ if (!conversion_possible(dstInfo, this->getInfo())) { |
return fDecoderMgr->returnFailure("conversion_possible", kInvalidConversion); |
} |
// Perform the necessary scaling |
if (!this->scaleToDimensions(dstInfo.width(), dstInfo.height())) { |
- return fDecoderMgr->returnFailure("cannot scale to requested dims", kInvalidScale); |
+ fDecoderMgr->returnFailure("cannot scale to requested dims", kInvalidScale); |
} |
// Now, given valid output dimensions, we can start the decompress |
- if (!turbo_jpeg_start_decompress(dinfo)) { |
+ if (!jpeg_start_decompress(dinfo)) { |
return fDecoderMgr->returnFailure("startDecompress", kInvalidInput); |
} |
- // The recommended output buffer height should always be 1 in high quality modes. |
- // If it's not, we want to know because it means our strategy is not optimal. |
- SkASSERT(1 == dinfo->rec_outbuf_height); |
- |
- // Perform the decode a single row at a time |
+ // Create the swizzler |
+ this->initializeSwizzler(dstInfo, dst, dstRowBytes, options); |
+ if (NULL == fSwizzler) { |
+ return fDecoderMgr->returnFailure("getSwizzler", kUnimplemented); |
+ } |
+ |
+ // This is usually 1, but can also be 2 or 4. |
+ // If we wanted to always read one row at a time, we could, but we will save space and time |
+ // by using the recommendation from libjpeg. |
+ const uint32_t rowsPerDecode = dinfo->rec_outbuf_height; |
+ SkASSERT(rowsPerDecode <= 4); |
+ |
+ // Create a buffer to contain decoded rows (libjpeg requires a 2D array) |
+ SkASSERT(0 != fSrcRowBytes); |
+ SkAutoTDeleteArray<uint8_t> srcBuffer(SkNEW_ARRAY(uint8_t, fSrcRowBytes * rowsPerDecode)); |
+ JSAMPLE* srcRows[4]; |
+ uint8_t* srcPtr = srcBuffer.get(); |
+ for (uint8_t i = 0; i < rowsPerDecode; i++) { |
+ srcRows[i] = (JSAMPLE*) srcPtr; |
+ srcPtr += fSrcRowBytes; |
+ } |
+ |
+ // Ensure that we loop enough times to decode all of the rows |
+ // libjpeg will prevent us from reading past the bottom of the image |
uint32_t dstHeight = dstInfo.height(); |
- JSAMPLE* dstRow = (JSAMPLE*) dst; |
- for (uint32_t y = 0; y < dstHeight; y++) { |
+ for (uint32_t y = 0; y < dstHeight + rowsPerDecode - 1; y += rowsPerDecode) { |
// Read rows of the image |
- uint32_t rowsDecoded = turbo_jpeg_read_scanlines(dinfo, &dstRow, 1); |
+ uint32_t rowsDecoded = jpeg_read_scanlines(dinfo, srcRows, rowsPerDecode); |
+ |
+ // Convert to RGB if necessary |
+ if (JCS_CMYK == dinfo->out_color_space) { |
+ convert_CMYK_to_RGB(srcRows[0], dstInfo.width() * rowsDecoded); |
+ } |
+ |
+ // Swizzle to output destination |
+ for (uint32_t i = 0; i < rowsDecoded; i++) { |
+ fSwizzler->next(srcRows[i]); |
+ } |
// If we cannot read enough rows, assume the input is incomplete |
- if (rowsDecoded != 1) { |
+ if (rowsDecoded < rowsPerDecode && y + rowsDecoded < dstHeight) { |
// Fill the remainder of the image with black. This error handling |
// behavior is unspecified but SkCodec consistently uses black as |
// the fill color for opaque images. If the destination is kGray, |
// the low 8 bits of SK_ColorBLACK will be used. Conveniently, |
// these are zeros, which is the representation for black in kGray. |
- SkSwizzler::Fill(dstRow, dstInfo, dstRowBytes, dstHeight - y, SK_ColorBLACK, NULL); |
+ SkSwizzler::Fill(fSwizzler->getDstRow(), dstInfo, dstRowBytes, |
+ dstHeight - y - rowsDecoded, SK_ColorBLACK, NULL); |
// Prevent libjpeg from failing on incomplete decode |
dinfo->output_scanline = dstHeight; |
// Finish the decode and indicate that the input was incomplete. |
- turbo_jpeg_finish_decompress(dinfo); |
+ jpeg_finish_decompress(dinfo); |
return fDecoderMgr->returnFailure("Incomplete image data", kIncompleteInput); |
} |
- |
- // Convert to RGBA if necessary |
- if (JCS_CMYK == dinfo->out_color_space) { |
- convert_CMYK_to_RGBA(dstRow, dstInfo.width()); |
- } |
- |
- // Move to the next row |
- dstRow = SkTAddOffset<JSAMPLE>(dstRow, dstRowBytes); |
- } |
- turbo_jpeg_finish_decompress(dinfo); |
+ } |
+ jpeg_finish_decompress(dinfo); |
return kSuccess; |
} |
@@ -393,7 +408,7 @@ |
// We may not have decoded the entire image. Prevent libjpeg-turbo from failing on a |
// partial decode. |
fDecoderMgr->dinfo()->output_scanline = this->getInfo().height(); |
- turbo_jpeg_finish_decompress(fDecoderMgr->dinfo()); |
+ jpeg_finish_decompress(fDecoderMgr->dinfo()); |
} |
} |
@@ -405,7 +420,10 @@ |
SkJpegScanlineDecoder(const SkImageInfo& dstInfo, SkJpegCodec* codec) |
: INHERITED(dstInfo) |
, fCodec(codec) |
- {} |
+ { |
+ fStorage.reset(fCodec->fSrcRowBytes); |
+ fSrcRow = static_cast<uint8_t*>(fStorage.get()); |
+ } |
SkImageGenerator::Result onGetScanlines(void* dst, int count, size_t rowBytes) override { |
// Set the jump location for libjpeg errors |
@@ -414,38 +432,27 @@ |
} |
// Read rows one at a time |
- JSAMPLE* dstRow = (JSAMPLE*) dst; |
for (int y = 0; y < count; y++) { |
// Read row of the image |
- uint32_t rowsDecoded = |
- turbo_jpeg_read_scanlines(fCodec->fDecoderMgr->dinfo(), &dstRow, 1); |
+ uint32_t rowsDecoded = jpeg_read_scanlines(fCodec->fDecoderMgr->dinfo(), &fSrcRow, 1); |
if (rowsDecoded != 1) { |
- SkSwizzler::Fill( |
- dstRow, this->dstInfo(), rowBytes, count - y, SK_ColorBLACK, NULL); |
- fCodec->fDecoderMgr->dinfo()->output_scanline = this->dstInfo().height(); |
+ SkSwizzler::Fill(dst, this->dstInfo(), rowBytes, count - y, SK_ColorBLACK, NULL); |
return SkImageGenerator::kIncompleteInput; |
} |
- // Convert to RGBA if necessary |
+ // Convert to RGB if necessary |
if (JCS_CMYK == fCodec->fDecoderMgr->dinfo()->out_color_space) { |
- convert_CMYK_to_RGBA(dstRow, this->dstInfo().width()); |
+ convert_CMYK_to_RGB(fSrcRow, dstInfo().width()); |
} |
- // Move to the next row |
- dstRow = SkTAddOffset<JSAMPLE>(dstRow, rowBytes); |
+ // Swizzle to output destination |
+ fCodec->fSwizzler->setDstRow(dst); |
+ fCodec->fSwizzler->next(fSrcRow); |
+ dst = SkTAddOffset<void>(dst, rowBytes); |
} |
return SkImageGenerator::kSuccess; |
} |
- |
-#ifndef TURBO_HAS_SKIP |
-#define turbo_jpeg_skip_scanlines(dinfo, count) \ |
- SkAutoMalloc storage(dinfo->output_width * dinfo->out_color_components); \ |
- uint8_t* storagePtr = static_cast<uint8_t*>(storage.get()); \ |
- for (int y = 0; y < count; y++) { \ |
- turbo_jpeg_read_scanlines(dinfo, &storagePtr, 1); \ |
- } |
-#endif |
SkImageGenerator::Result onSkipScanlines(int count) override { |
// Set the jump location for libjpeg errors |
@@ -453,13 +460,18 @@ |
return fCodec->fDecoderMgr->returnFailure("setjmp", SkImageGenerator::kInvalidInput); |
} |
- turbo_jpeg_skip_scanlines(fCodec->fDecoderMgr->dinfo(), count); |
+ // Read rows but ignore the output |
+ for (int y = 0; y < count; y++) { |
+ jpeg_read_scanlines(fCodec->fDecoderMgr->dinfo(), &fSrcRow, 1); |
+ } |
return SkImageGenerator::kSuccess; |
} |
private: |
- SkJpegCodec* fCodec; // unowned |
+ SkJpegCodec* fCodec; // unowned |
+ SkAutoMalloc fStorage; |
+ uint8_t* fSrcRow; // ptr into fStorage |
typedef SkScanlineDecoder INHERITED; |
}; |
@@ -479,24 +491,31 @@ |
return NULL; |
} |
- // Check if we can decode to the requested destination and set the output color space |
- if (!this->setOutputColorSpace(dstInfo)) { |
+ // Check if we can decode to the requested destination |
+ if (!conversion_possible(dstInfo, this->getInfo())) { |
SkCodecPrintf("Cannot convert to output type\n"); |
return NULL; |
} |
// Perform the necessary scaling |
if (!this->scaleToDimensions(dstInfo.width(), dstInfo.height())) { |
- SkCodecPrintf("Cannot scale to output dimensions\n"); |
+ SkCodecPrintf("Cannot scale ot output dimensions\n"); |
return NULL; |
} |
// Now, given valid output dimensions, we can start the decompress |
- if (!turbo_jpeg_start_decompress(fDecoderMgr->dinfo())) { |
+ if (!jpeg_start_decompress(fDecoderMgr->dinfo())) { |
SkCodecPrintf("start decompress failed\n"); |
return NULL; |
} |
+ // Create the swizzler |
+ this->initializeSwizzler(dstInfo, NULL, dstInfo.minRowBytes(), options); |
+ if (NULL == fSwizzler) { |
+ SkCodecPrintf("Could not create swizzler\n"); |
+ return NULL; |
+ } |
+ |
// Return the new scanline decoder |
return SkNEW_ARGS(SkJpegScanlineDecoder, (dstInfo, this)); |
} |