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Side by Side Diff: src/codec/SkJpegCodec.cpp

Issue 1775493002: Revert of Update Skia's YUV API (Closed) Base URL: https://skia.googlesource.com/skia.git@master
Patch Set: Created 4 years, 9 months ago
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1 /* 1 /*
2 * Copyright 2015 Google Inc. 2 * Copyright 2015 Google Inc.
3 * 3 *
4 * Use of this source code is governed by a BSD-style license that can be 4 * Use of this source code is governed by a BSD-style license that can be
5 * found in the LICENSE file. 5 * found in the LICENSE file.
6 */ 6 */
7 7
8 #include "SkCodec.h" 8 #include "SkCodec.h"
9 #include "SkMSAN.h" 9 #include "SkMSAN.h"
10 #include "SkJpegCodec.h" 10 #include "SkJpegCodec.h"
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587 int hSampY = dinfo->comp_info[0].h_samp_factor; 587 int hSampY = dinfo->comp_info[0].h_samp_factor;
588 int vSampY = dinfo->comp_info[0].v_samp_factor; 588 int vSampY = dinfo->comp_info[0].v_samp_factor;
589 return (1 == hSampY && 1 == vSampY) || 589 return (1 == hSampY && 1 == vSampY) ||
590 (2 == hSampY && 1 == vSampY) || 590 (2 == hSampY && 1 == vSampY) ||
591 (2 == hSampY && 2 == vSampY) || 591 (2 == hSampY && 2 == vSampY) ||
592 (1 == hSampY && 2 == vSampY) || 592 (1 == hSampY && 2 == vSampY) ||
593 (4 == hSampY && 1 == vSampY) || 593 (4 == hSampY && 1 == vSampY) ||
594 (4 == hSampY && 2 == vSampY); 594 (4 == hSampY && 2 == vSampY);
595 } 595 }
596 596
597 bool SkJpegCodec::onQueryYUV8(SkYUVSizeInfo* sizeInfo, SkYUVColorSpace* colorSpa ce) const { 597 bool SkJpegCodec::onQueryYUV8(YUVSizeInfo* sizeInfo, SkYUVColorSpace* colorSpace ) const {
598 jpeg_decompress_struct* dinfo = fDecoderMgr->dinfo(); 598 jpeg_decompress_struct* dinfo = fDecoderMgr->dinfo();
599 if (!is_yuv_supported(dinfo)) { 599 if (!is_yuv_supported(dinfo)) {
600 return false; 600 return false;
601 } 601 }
602 602
603 sizeInfo->fSizes[SkYUVSizeInfo::kY].set(dinfo->comp_info[0].downsampled_widt h, 603 sizeInfo->fYSize.set(dinfo->comp_info[0].downsampled_width,
604 dinfo->comp_info[0].downsampled_heigh t); 604 dinfo->comp_info[0].downsampled_height);
605 sizeInfo->fSizes[SkYUVSizeInfo::kU].set(dinfo->comp_info[1].downsampled_widt h, 605 sizeInfo->fUSize.set(dinfo->comp_info[1].downsampled_width,
606 dinfo->comp_info[1].downsampled_heigh t); 606 dinfo->comp_info[1].downsampled_height);
607 sizeInfo->fSizes[SkYUVSizeInfo::kV].set(dinfo->comp_info[2].downsampled_widt h, 607 sizeInfo->fVSize.set(dinfo->comp_info[2].downsampled_width,
608 dinfo->comp_info[2].downsampled_heigh t); 608 dinfo->comp_info[2].downsampled_height);
609 sizeInfo->fWidthBytes[SkYUVSizeInfo::kY] = dinfo->comp_info[0].width_in_bloc ks * DCTSIZE; 609 sizeInfo->fYWidthBytes = dinfo->comp_info[0].width_in_blocks * DCTSIZE;
610 sizeInfo->fWidthBytes[SkYUVSizeInfo::kU] = dinfo->comp_info[1].width_in_bloc ks * DCTSIZE; 610 sizeInfo->fUWidthBytes = dinfo->comp_info[1].width_in_blocks * DCTSIZE;
611 sizeInfo->fWidthBytes[SkYUVSizeInfo::kV] = dinfo->comp_info[2].width_in_bloc ks * DCTSIZE; 611 sizeInfo->fVWidthBytes = dinfo->comp_info[2].width_in_blocks * DCTSIZE;
612 612
613 if (colorSpace) { 613 if (colorSpace) {
614 *colorSpace = kJPEG_SkYUVColorSpace; 614 *colorSpace = kJPEG_SkYUVColorSpace;
615 } 615 }
616 616
617 return true; 617 return true;
618 } 618 }
619 619
620 SkCodec::Result SkJpegCodec::onGetYUV8Planes(const SkYUVSizeInfo& sizeInfo, void * planes[3]) { 620 SkCodec::Result SkJpegCodec::onGetYUV8Planes(const YUVSizeInfo& sizeInfo, void* pixels[3]) {
621 SkYUVSizeInfo defaultInfo; 621 YUVSizeInfo defaultInfo;
622 622
623 // This will check is_yuv_supported(), so we don't need to here. 623 // This will check is_yuv_supported(), so we don't need to here.
624 bool supportsYUV = this->onQueryYUV8(&defaultInfo, nullptr); 624 bool supportsYUV = this->onQueryYUV8(&defaultInfo, nullptr);
625 if (!supportsYUV || 625 if (!supportsYUV || sizeInfo.fYSize != defaultInfo.fYSize ||
626 sizeInfo.fSizes[SkYUVSizeInfo::kY] != defaultInfo.fSizes[SkYUVSizeIn fo::kY] || 626 sizeInfo.fUSize != defaultInfo.fUSize ||
627 sizeInfo.fSizes[SkYUVSizeInfo::kU] != defaultInfo.fSizes[SkYUVSizeIn fo::kU] || 627 sizeInfo.fVSize != defaultInfo.fVSize ||
628 sizeInfo.fSizes[SkYUVSizeInfo::kV] != defaultInfo.fSizes[SkYUVSizeIn fo::kV] || 628 sizeInfo.fYWidthBytes < defaultInfo.fYWidthBytes ||
629 sizeInfo.fWidthBytes[SkYUVSizeInfo::kY] < defaultInfo.fWidthBytes[Sk YUVSizeInfo::kY] || 629 sizeInfo.fUWidthBytes < defaultInfo.fUWidthBytes ||
630 sizeInfo.fWidthBytes[SkYUVSizeInfo::kU] < defaultInfo.fWidthBytes[Sk YUVSizeInfo::kU] || 630 sizeInfo.fVWidthBytes < defaultInfo.fVWidthBytes) {
631 sizeInfo.fWidthBytes[SkYUVSizeInfo::kV] < defaultInfo.fWidthBytes[Sk YUVSizeInfo::kV]) {
632 return fDecoderMgr->returnFailure("onGetYUV8Planes", kInvalidInput); 631 return fDecoderMgr->returnFailure("onGetYUV8Planes", kInvalidInput);
633 } 632 }
634 633
635 // Set the jump location for libjpeg errors 634 // Set the jump location for libjpeg errors
636 if (setjmp(fDecoderMgr->getJmpBuf())) { 635 if (setjmp(fDecoderMgr->getJmpBuf())) {
637 return fDecoderMgr->returnFailure("setjmp", kInvalidInput); 636 return fDecoderMgr->returnFailure("setjmp", kInvalidInput);
638 } 637 }
639 638
640 // Get a pointer to the decompress info since we will use it quite frequentl y 639 // Get a pointer to the decompress info since we will use it quite frequentl y
641 jpeg_decompress_struct* dinfo = fDecoderMgr->dinfo(); 640 jpeg_decompress_struct* dinfo = fDecoderMgr->dinfo();
642 641
643 dinfo->raw_data_out = TRUE; 642 dinfo->raw_data_out = TRUE;
644 if (!jpeg_start_decompress(dinfo)) { 643 if (!jpeg_start_decompress(dinfo)) {
645 return fDecoderMgr->returnFailure("startDecompress", kInvalidInput); 644 return fDecoderMgr->returnFailure("startDecompress", kInvalidInput);
646 } 645 }
647 646
648 // A previous implementation claims that the return value of is_yuv_supporte d() 647 // A previous implementation claims that the return value of is_yuv_supporte d()
649 // may change after calling jpeg_start_decompress(). It looks to me like th is 648 // may change after calling jpeg_start_decompress(). It looks to me like th is
650 // was caused by a bug in the old code, but we'll be safe and check here. 649 // was caused by a bug in the old code, but we'll be safe and check here.
651 SkASSERT(is_yuv_supported(dinfo)); 650 SkASSERT(is_yuv_supported(dinfo));
652 651
653 // Currently, we require that the Y plane dimensions match the image dimensi ons 652 // Currently, we require that the Y plane dimensions match the image dimensi ons
654 // and that the U and V planes are the same dimensions. 653 // and that the U and V planes are the same dimensions.
655 SkASSERT(sizeInfo.fSizes[SkYUVSizeInfo::kU] == sizeInfo.fSizes[SkYUVSizeInfo ::kV]); 654 SkASSERT(sizeInfo.fUSize == sizeInfo.fVSize);
656 SkASSERT((uint32_t) sizeInfo.fSizes[SkYUVSizeInfo::kY].width() == dinfo->out put_width && 655 SkASSERT((uint32_t) sizeInfo.fYSize.width() == dinfo->output_width &&
657 (uint32_t) sizeInfo.fSizes[SkYUVSizeInfo::kY].height() == dinfo->out put_height); 656 (uint32_t) sizeInfo.fYSize.height() == dinfo->output_height);
658 657
659 // Build a JSAMPIMAGE to handle output from libjpeg-turbo. A JSAMPIMAGE has 658 // Build a JSAMPIMAGE to handle output from libjpeg-turbo. A JSAMPIMAGE has
660 // a 2-D array of pixels for each of the components (Y, U, V) in the image. 659 // a 2-D array of pixels for each of the components (Y, U, V) in the image.
661 // Cheat Sheet: 660 // Cheat Sheet:
662 // JSAMPIMAGE == JSAMPLEARRAY* == JSAMPROW** == JSAMPLE*** 661 // JSAMPIMAGE == JSAMPLEARRAY* == JSAMPROW** == JSAMPLE***
663 JSAMPARRAY yuv[3]; 662 JSAMPARRAY yuv[3];
664 663
665 // Set aside enough space for pointers to rows of Y, U, and V. 664 // Set aside enough space for pointers to rows of Y, U, and V.
666 JSAMPROW rowptrs[2 * DCTSIZE + DCTSIZE + DCTSIZE]; 665 JSAMPROW rowptrs[2 * DCTSIZE + DCTSIZE + DCTSIZE];
667 yuv[0] = &rowptrs[0]; // Y rows (DCTSIZE or 2 * DCTSIZE) 666 yuv[0] = &rowptrs[0]; // Y rows (DCTSIZE or 2 * DCTSIZE)
668 yuv[1] = &rowptrs[2 * DCTSIZE]; // U rows (DCTSIZE) 667 yuv[1] = &rowptrs[2 * DCTSIZE]; // U rows (DCTSIZE)
669 yuv[2] = &rowptrs[3 * DCTSIZE]; // V rows (DCTSIZE) 668 yuv[2] = &rowptrs[3 * DCTSIZE]; // V rows (DCTSIZE)
670 669
671 // Initialize rowptrs. 670 // Initialize rowptrs.
672 int numYRowsPerBlock = DCTSIZE * dinfo->comp_info[0].v_samp_factor; 671 int numYRowsPerBlock = DCTSIZE * dinfo->comp_info[0].v_samp_factor;
673 for (int i = 0; i < numYRowsPerBlock; i++) { 672 for (int i = 0; i < numYRowsPerBlock; i++) {
674 rowptrs[i] = SkTAddOffset<JSAMPLE>(planes[SkYUVSizeInfo::kY], 673 rowptrs[i] = SkTAddOffset<JSAMPLE>(pixels[0], i * sizeInfo.fYWidthBytes) ;
675 i * sizeInfo.fWidthBytes[SkYUVSizeInfo::kY]);
676 } 674 }
677 for (int i = 0; i < DCTSIZE; i++) { 675 for (int i = 0; i < DCTSIZE; i++) {
678 rowptrs[i + 2 * DCTSIZE] = SkTAddOffset<JSAMPLE>(planes[SkYUVSizeInfo::k U], 676 rowptrs[i + 2 * DCTSIZE] = SkTAddOffset<JSAMPLE>(pixels[1], i * sizeInfo .fUWidthBytes);
679 i * sizeInfo.fWidthBytes[SkYUVSizeInfo::kU]); 677 rowptrs[i + 3 * DCTSIZE] = SkTAddOffset<JSAMPLE>(pixels[2], i * sizeInfo .fVWidthBytes);
680 rowptrs[i + 3 * DCTSIZE] = SkTAddOffset<JSAMPLE>(planes[SkYUVSizeInfo::k V],
681 i * sizeInfo.fWidthBytes[SkYUVSizeInfo::kV]);
682 } 678 }
683 679
684 // After each loop iteration, we will increment pointers to Y, U, and V. 680 // After each loop iteration, we will increment pointers to Y, U, and V.
685 size_t blockIncrementY = numYRowsPerBlock * sizeInfo.fWidthBytes[SkYUVSizeIn fo::kY]; 681 size_t blockIncrementY = numYRowsPerBlock * sizeInfo.fYWidthBytes;
686 size_t blockIncrementU = DCTSIZE * sizeInfo.fWidthBytes[SkYUVSizeInfo::kU]; 682 size_t blockIncrementU = DCTSIZE * sizeInfo.fUWidthBytes;
687 size_t blockIncrementV = DCTSIZE * sizeInfo.fWidthBytes[SkYUVSizeInfo::kV]; 683 size_t blockIncrementV = DCTSIZE * sizeInfo.fVWidthBytes;
688 684
689 uint32_t numRowsPerBlock = numYRowsPerBlock; 685 uint32_t numRowsPerBlock = numYRowsPerBlock;
690 686
691 // We intentionally round down here, as this first loop will only handle 687 // We intentionally round down here, as this first loop will only handle
692 // full block rows. As a special case at the end, we will handle any 688 // full block rows. As a special case at the end, we will handle any
693 // remaining rows that do not make up a full block. 689 // remaining rows that do not make up a full block.
694 const int numIters = dinfo->output_height / numRowsPerBlock; 690 const int numIters = dinfo->output_height / numRowsPerBlock;
695 for (int i = 0; i < numIters; i++) { 691 for (int i = 0; i < numIters; i++) {
696 JDIMENSION linesRead = jpeg_read_raw_data(dinfo, yuv, numRowsPerBlock); 692 JDIMENSION linesRead = jpeg_read_raw_data(dinfo, yuv, numRowsPerBlock);
697 if (linesRead < numRowsPerBlock) { 693 if (linesRead < numRowsPerBlock) {
(...skipping 12 matching lines...) Expand all
710 } 706 }
711 707
712 uint32_t remainingRows = dinfo->output_height - dinfo->output_scanline; 708 uint32_t remainingRows = dinfo->output_height - dinfo->output_scanline;
713 SkASSERT(remainingRows == dinfo->output_height % numRowsPerBlock); 709 SkASSERT(remainingRows == dinfo->output_height % numRowsPerBlock);
714 SkASSERT(dinfo->output_scanline == numIters * numRowsPerBlock); 710 SkASSERT(dinfo->output_scanline == numIters * numRowsPerBlock);
715 if (remainingRows > 0) { 711 if (remainingRows > 0) {
716 // libjpeg-turbo needs memory to be padded by the block sizes. We will fulfill 712 // libjpeg-turbo needs memory to be padded by the block sizes. We will fulfill
717 // this requirement using a dummy row buffer. 713 // this requirement using a dummy row buffer.
718 // FIXME: Should SkCodec have an extra memory buffer that can be shared among 714 // FIXME: Should SkCodec have an extra memory buffer that can be shared among
719 // all of the implementations that use temporary/garbage memory? 715 // all of the implementations that use temporary/garbage memory?
720 SkAutoTMalloc<JSAMPLE> dummyRow(sizeInfo.fWidthBytes[SkYUVSizeInfo::kY]) ; 716 SkAutoTMalloc<JSAMPLE> dummyRow(sizeInfo.fYWidthBytes);
721 for (int i = remainingRows; i < numYRowsPerBlock; i++) { 717 for (int i = remainingRows; i < numYRowsPerBlock; i++) {
722 rowptrs[i] = dummyRow.get(); 718 rowptrs[i] = dummyRow.get();
723 } 719 }
724 int remainingUVRows = dinfo->comp_info[1].downsampled_height - DCTSIZE * numIters; 720 int remainingUVRows = dinfo->comp_info[1].downsampled_height - DCTSIZE * numIters;
725 for (int i = remainingUVRows; i < DCTSIZE; i++) { 721 for (int i = remainingUVRows; i < DCTSIZE; i++) {
726 rowptrs[i + 2 * DCTSIZE] = dummyRow.get(); 722 rowptrs[i + 2 * DCTSIZE] = dummyRow.get();
727 rowptrs[i + 3 * DCTSIZE] = dummyRow.get(); 723 rowptrs[i + 3 * DCTSIZE] = dummyRow.get();
728 } 724 }
729 725
730 JDIMENSION linesRead = jpeg_read_raw_data(dinfo, yuv, numRowsPerBlock); 726 JDIMENSION linesRead = jpeg_read_raw_data(dinfo, yuv, numRowsPerBlock);
731 if (linesRead < remainingRows) { 727 if (linesRead < remainingRows) {
732 // FIXME: Handle incomplete YUV decodes without signalling an error. 728 // FIXME: Handle incomplete YUV decodes without signalling an error.
733 return kInvalidInput; 729 return kInvalidInput;
734 } 730 }
735 } 731 }
736 732
737 return kSuccess; 733 return kSuccess;
738 } 734 }
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