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Tue, 08 Aug 2017 14:48:23 -0700 (PDT) Received: from localhost.localdomain ([2601:646:8882:b8c::f213]) by smtp.gmail.com with ESMTPSA id d135sm2768713pga.6.2017.08.08.14.48.22 (version=TLS1_2 cipher=ECDHE-RSA-AES128-GCM-SHA256 bits=128/128); Tue, 08 Aug 2017 14:48:23 -0700 (PDT) From: Khem Raj To: openembedded-devel@lists.openembedded.org Date: Tue, 8 Aug 2017 14:48:00 -0700 Message-Id: <20170808214800.39621-9-raj.khem@gmail.com> X-Mailer: git-send-email 2.14.0 In-Reply-To: <20170808214800.39621-1-raj.khem@gmail.com> References: <20170808214800.39621-1-raj.khem@gmail.com> Subject: [oe] [meta-oe][PATCH 9/9] fbida: Fix build with libjpeg-turbo X-BeenThere: openembedded-devel@lists.openembedded.org X-Mailman-Version: 2.1.12 Precedence: list List-Id: Using the OpenEmbedded metadata to build Distributions List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , MIME-Version: 1.0 Sender: openembedded-devel-bounces@lists.openembedded.org Errors-To: openembedded-devel-bounces@lists.openembedded.org Dont hardcode cpp to point to gcc collection, helps compiling with clang Signed-off-by: Khem Raj --- meta-oe/recipes-graphics/fbida/fbida_2.10.bb | 5 +- .../fbida/files/fix-preprocessor.patch | 14 + .../fbida/files/support-jpeg-turbo.patch | 1854 ++++++++++++++++++++ .../fbida/files/use-jpeg-turbo.patch | 13 + 4 files changed, 1885 insertions(+), 1 deletion(-) create mode 100644 meta-oe/recipes-graphics/fbida/files/fix-preprocessor.patch create mode 100644 meta-oe/recipes-graphics/fbida/files/support-jpeg-turbo.patch create mode 100644 meta-oe/recipes-graphics/fbida/files/use-jpeg-turbo.patch -- 2.14.0 -- _______________________________________________ Openembedded-devel mailing list Openembedded-devel@lists.openembedded.org http://lists.openembedded.org/mailman/listinfo/openembedded-devel diff --git a/meta-oe/recipes-graphics/fbida/fbida_2.10.bb b/meta-oe/recipes-graphics/fbida/fbida_2.10.bb index 1febac8e9..0bf48ace6 100644 --- a/meta-oe/recipes-graphics/fbida/fbida_2.10.bb +++ b/meta-oe/recipes-graphics/fbida/fbida_2.10.bb @@ -12,6 +12,9 @@ DEPENDS = "virtual/libiconv jpeg fontconfig freetype libexif" SRC_URI = "https://www.kraxel.org/releases/fbida/fbida-${PV}.tar.gz \ file://0001-Avoid-using-host-path.patch \ + file://fix-preprocessor.patch \ + file://support-jpeg-turbo.patch \ + file://use-jpeg-turbo.patch \ " SRC_URI[md5sum] = "09460b964b58c2e39b665498eca29018" SRC_URI[sha256sum] = "7a5a3aac61b40a6a2bbf716d270a46e2f8e8d5c97e314e927d41398a4d0b6cb6" @@ -34,7 +37,7 @@ PACKAGECONFIG[lirc] = ",,lirc" do_compile() { sed -i -e 's# fbgs# \$(srcdir)/fbgs#; s#-Ijpeg#-I\$(srcdir)/jpeg#; s# jpeg/# \$(srcdir)/jpeg/#' ${S}/GNUmakefile sed -i -e 's:/sbin/ldconfig:echo x:' ${S}/mk/Autoconf.mk - sed -i -e 's: cpp: ${TARGET_PREFIX}cpp -I${STAGING_INCDIR}:' ${S}/GNUmakefile + sed -i -e 's: cpp: ${CPP}:' ${S}/GNUmakefile # Be sure to respect preferences (force to "no") # Also avoid issues when ${BUILD_ARCH} == ${HOST_ARCH} diff --git a/meta-oe/recipes-graphics/fbida/files/fix-preprocessor.patch b/meta-oe/recipes-graphics/fbida/files/fix-preprocessor.patch new file mode 100644 index 000000000..909a0a6c0 --- /dev/null +++ b/meta-oe/recipes-graphics/fbida/files/fix-preprocessor.patch @@ -0,0 +1,14 @@ +Index: fbida-2.13/GNUmakefile +=================================================================== +--- fbida-2.13.orig/GNUmakefile ++++ fbida-2.13/GNUmakefile +@@ -53,8 +53,7 @@ include $(srcdir)/mk/Autoconf.mk + + ac_jpeg_ver = $(shell \ + $(call ac_init,for libjpeg version);\ +- $(call ac_s_cmd,echo JPEG_LIB_VERSION \ +- | cpp -include jpeglib.h | tail -n 1);\ ++ $(call ac_s_cmd,cpp -include jpeglib.h -dM -E -x c /dev/null | grep 'define JPEG_LIB_VERSION' | cut -f 3 -d' ');\ + $(call ac_fini)) + + define make-config diff --git a/meta-oe/recipes-graphics/fbida/files/support-jpeg-turbo.patch b/meta-oe/recipes-graphics/fbida/files/support-jpeg-turbo.patch new file mode 100644 index 000000000..05cd74da9 --- /dev/null +++ b/meta-oe/recipes-graphics/fbida/files/support-jpeg-turbo.patch @@ -0,0 +1,1854 @@ +Add patch by Ondrej Sury to migrate to libjpeg-turbo (Closes: #763263) + +Index: fbida-2.10/jpeg/62/jpegcomp.h +=================================================================== +--- /dev/null ++++ fbida-2.10/jpeg/62/jpegcomp.h +@@ -0,0 +1,30 @@ ++/* ++ * jpegcomp.h ++ * ++ * Copyright (C) 2010, D. R. Commander ++ * For conditions of distribution and use, see the accompanying README file. ++ * ++ * JPEG compatibility macros ++ * These declarations are considered internal to the JPEG library; most ++ * applications using the library shouldn't need to include this file. ++ */ ++ ++#if JPEG_LIB_VERSION >= 70 ++#define _DCT_scaled_size DCT_h_scaled_size ++#define _DCT_h_scaled_size DCT_h_scaled_size ++#define _DCT_v_scaled_size DCT_v_scaled_size ++#define _min_DCT_scaled_size min_DCT_h_scaled_size ++#define _min_DCT_h_scaled_size min_DCT_h_scaled_size ++#define _min_DCT_v_scaled_size min_DCT_v_scaled_size ++#define _jpeg_width jpeg_width ++#define _jpeg_height jpeg_height ++#else ++#define _DCT_scaled_size DCT_scaled_size ++#define _DCT_h_scaled_size DCT_scaled_size ++#define _DCT_v_scaled_size DCT_scaled_size ++#define _min_DCT_scaled_size min_DCT_scaled_size ++#define _min_DCT_h_scaled_size min_DCT_scaled_size ++#define _min_DCT_v_scaled_size min_DCT_scaled_size ++#define _jpeg_width image_width ++#define _jpeg_height image_height ++#endif +Index: fbida-2.10/jpeg/62/transupp.c +=================================================================== +--- fbida-2.10.orig/jpeg/62/transupp.c ++++ fbida-2.10/jpeg/62/transupp.c +@@ -1,8 +1,10 @@ + /* + * transupp.c + * +- * Copyright (C) 1997, Thomas G. Lane. +- * This file is part of the Independent JPEG Group's software. ++ * This file was part of the Independent JPEG Group's software: ++ * Copyright (C) 1997-2011, Thomas G. Lane, Guido Vollbeding. ++ * libjpeg-turbo Modifications: ++ * Copyright (C) 2010, D. R. Commander. + * For conditions of distribution and use, see the accompanying README file. + * + * This file contains image transformation routines and other utility code +@@ -20,6 +22,17 @@ + #include "jinclude.h" + #include "jpeglib.h" + #include "transupp.h" /* My own external interface */ ++#include "jpegcomp.h" ++#include /* to declare isdigit() */ ++ ++ ++#if JPEG_LIB_VERSION >= 70 ++#define dstinfo_min_DCT_h_scaled_size dstinfo->min_DCT_h_scaled_size ++#define dstinfo_min_DCT_v_scaled_size dstinfo->min_DCT_v_scaled_size ++#else ++#define dstinfo_min_DCT_h_scaled_size DCTSIZE ++#define dstinfo_min_DCT_v_scaled_size DCTSIZE ++#endif + + + #if TRANSFORMS_SUPPORTED +@@ -28,7 +41,8 @@ + * Lossless image transformation routines. These routines work on DCT + * coefficient arrays and thus do not require any lossy decompression + * or recompression of the image. +- * Thanks to Guido Vollbeding for the initial design and code of this feature. ++ * Thanks to Guido Vollbeding for the initial design and code of this feature, ++ * and to Ben Jackson for introducing the cropping feature. + * + * Horizontal flipping is done in-place, using a single top-to-bottom + * pass through the virtual source array. It will thus be much the +@@ -42,6 +56,13 @@ + * arrays for most of the transforms. That could result in much thrashing + * if the image is larger than main memory. + * ++ * If cropping or trimming is involved, the destination arrays may be smaller ++ * than the source arrays. Note it is not possible to do horizontal flip ++ * in-place when a nonzero Y crop offset is specified, since we'd have to move ++ * data from one block row to another but the virtual array manager doesn't ++ * guarantee we can touch more than one row at a time. So in that case, ++ * we have to use a separate destination array. ++ * + * Some notes about the operating environment of the individual transform + * routines: + * 1. Both the source and destination virtual arrays are allocated from the +@@ -54,20 +75,65 @@ + * and we may as well take that as the effective iMCU size. + * 4. When "trim" is in effect, the destination's dimensions will be the + * trimmed values but the source's will be untrimmed. +- * 5. All the routines assume that the source and destination buffers are ++ * 5. When "crop" is in effect, the destination's dimensions will be the ++ * cropped values but the source's will be uncropped. Each transform ++ * routine is responsible for picking up source data starting at the ++ * correct X and Y offset for the crop region. (The X and Y offsets ++ * passed to the transform routines are measured in iMCU blocks of the ++ * destination.) ++ * 6. All the routines assume that the source and destination buffers are + * padded out to a full iMCU boundary. This is true, although for the + * source buffer it is an undocumented property of jdcoefct.c. +- * Notes 2,3,4 boil down to this: generally we should use the destination's +- * dimensions and ignore the source's. + */ + + + LOCAL(void) +-do_flip_h (j_decompress_ptr srcinfo, j_compress_ptr dstinfo, +- jvirt_barray_ptr *src_coef_arrays) +-/* Horizontal flip; done in-place, so no separate dest array is required */ ++do_crop (j_decompress_ptr srcinfo, j_compress_ptr dstinfo, ++ JDIMENSION x_crop_offset, JDIMENSION y_crop_offset, ++ jvirt_barray_ptr *src_coef_arrays, ++ jvirt_barray_ptr *dst_coef_arrays) ++/* Crop. This is only used when no rotate/flip is requested with the crop. */ ++{ ++ JDIMENSION dst_blk_y, x_crop_blocks, y_crop_blocks; ++ int ci, offset_y; ++ JBLOCKARRAY src_buffer, dst_buffer; ++ jpeg_component_info *compptr; ++ ++ /* We simply have to copy the right amount of data (the destination's ++ * image size) starting at the given X and Y offsets in the source. ++ */ ++ for (ci = 0; ci < dstinfo->num_components; ci++) { ++ compptr = dstinfo->comp_info + ci; ++ x_crop_blocks = x_crop_offset * compptr->h_samp_factor; ++ y_crop_blocks = y_crop_offset * compptr->v_samp_factor; ++ for (dst_blk_y = 0; dst_blk_y < compptr->height_in_blocks; ++ dst_blk_y += compptr->v_samp_factor) { ++ dst_buffer = (*srcinfo->mem->access_virt_barray) ++ ((j_common_ptr) srcinfo, dst_coef_arrays[ci], dst_blk_y, ++ (JDIMENSION) compptr->v_samp_factor, TRUE); ++ src_buffer = (*srcinfo->mem->access_virt_barray) ++ ((j_common_ptr) srcinfo, src_coef_arrays[ci], ++ dst_blk_y + y_crop_blocks, ++ (JDIMENSION) compptr->v_samp_factor, FALSE); ++ for (offset_y = 0; offset_y < compptr->v_samp_factor; offset_y++) { ++ jcopy_block_row(src_buffer[offset_y] + x_crop_blocks, ++ dst_buffer[offset_y], ++ compptr->width_in_blocks); ++ } ++ } ++ } ++} ++ ++ ++LOCAL(void) ++do_flip_h_no_crop (j_decompress_ptr srcinfo, j_compress_ptr dstinfo, ++ JDIMENSION x_crop_offset, ++ jvirt_barray_ptr *src_coef_arrays) ++/* Horizontal flip; done in-place, so no separate dest array is required. ++ * NB: this only works when y_crop_offset is zero. ++ */ + { +- JDIMENSION MCU_cols, comp_width, blk_x, blk_y; ++ JDIMENSION MCU_cols, comp_width, blk_x, blk_y, x_crop_blocks; + int ci, k, offset_y; + JBLOCKARRAY buffer; + JCOEFPTR ptr1, ptr2; +@@ -79,17 +145,20 @@ do_flip_h (j_decompress_ptr srcinfo, j_c + * mirroring by changing the signs of odd-numbered columns. + * Partial iMCUs at the right edge are left untouched. + */ +- MCU_cols = dstinfo->image_width / (dstinfo->max_h_samp_factor * DCTSIZE); ++ MCU_cols = srcinfo->output_width / ++ (dstinfo->max_h_samp_factor * dstinfo_min_DCT_h_scaled_size); + + for (ci = 0; ci < dstinfo->num_components; ci++) { + compptr = dstinfo->comp_info + ci; + comp_width = MCU_cols * compptr->h_samp_factor; ++ x_crop_blocks = x_crop_offset * compptr->h_samp_factor; + for (blk_y = 0; blk_y < compptr->height_in_blocks; + blk_y += compptr->v_samp_factor) { + buffer = (*srcinfo->mem->access_virt_barray) + ((j_common_ptr) srcinfo, src_coef_arrays[ci], blk_y, + (JDIMENSION) compptr->v_samp_factor, TRUE); + for (offset_y = 0; offset_y < compptr->v_samp_factor; offset_y++) { ++ /* Do the mirroring */ + for (blk_x = 0; blk_x * 2 < comp_width; blk_x++) { + ptr1 = buffer[offset_y][blk_x]; + ptr2 = buffer[offset_y][comp_width - blk_x - 1]; +@@ -105,6 +174,80 @@ do_flip_h (j_decompress_ptr srcinfo, j_c + *ptr2++ = -temp1; + } + } ++ if (x_crop_blocks > 0) { ++ /* Now left-justify the portion of the data to be kept. ++ * We can't use a single jcopy_block_row() call because that routine ++ * depends on memcpy(), whose behavior is unspecified for overlapping ++ * source and destination areas. Sigh. ++ */ ++ for (blk_x = 0; blk_x < compptr->width_in_blocks; blk_x++) { ++ jcopy_block_row(buffer[offset_y] + blk_x + x_crop_blocks, ++ buffer[offset_y] + blk_x, ++ (JDIMENSION) 1); ++ } ++ } ++ } ++ } ++ } ++} ++ ++ ++LOCAL(void) ++do_flip_h (j_decompress_ptr srcinfo, j_compress_ptr dstinfo, ++ JDIMENSION x_crop_offset, JDIMENSION y_crop_offset, ++ jvirt_barray_ptr *src_coef_arrays, ++ jvirt_barray_ptr *dst_coef_arrays) ++/* Horizontal flip in general cropping case */ ++{ ++ JDIMENSION MCU_cols, comp_width, dst_blk_x, dst_blk_y; ++ JDIMENSION x_crop_blocks, y_crop_blocks; ++ int ci, k, offset_y; ++ JBLOCKARRAY src_buffer, dst_buffer; ++ JBLOCKROW src_row_ptr, dst_row_ptr; ++ JCOEFPTR src_ptr, dst_ptr; ++ jpeg_component_info *compptr; ++ ++ /* Here we must output into a separate array because we can't touch ++ * different rows of a single virtual array simultaneously. Otherwise, ++ * this is essentially the same as the routine above. ++ */ ++ MCU_cols = srcinfo->output_width / ++ (dstinfo->max_h_samp_factor * dstinfo_min_DCT_h_scaled_size); ++ ++ for (ci = 0; ci < dstinfo->num_components; ci++) { ++ compptr = dstinfo->comp_info + ci; ++ comp_width = MCU_cols * compptr->h_samp_factor; ++ x_crop_blocks = x_crop_offset * compptr->h_samp_factor; ++ y_crop_blocks = y_crop_offset * compptr->v_samp_factor; ++ for (dst_blk_y = 0; dst_blk_y < compptr->height_in_blocks; ++ dst_blk_y += compptr->v_samp_factor) { ++ dst_buffer = (*srcinfo->mem->access_virt_barray) ++ ((j_common_ptr) srcinfo, dst_coef_arrays[ci], dst_blk_y, ++ (JDIMENSION) compptr->v_samp_factor, TRUE); ++ src_buffer = (*srcinfo->mem->access_virt_barray) ++ ((j_common_ptr) srcinfo, src_coef_arrays[ci], ++ dst_blk_y + y_crop_blocks, ++ (JDIMENSION) compptr->v_samp_factor, FALSE); ++ for (offset_y = 0; offset_y < compptr->v_samp_factor; offset_y++) { ++ dst_row_ptr = dst_buffer[offset_y]; ++ src_row_ptr = src_buffer[offset_y]; ++ for (dst_blk_x = 0; dst_blk_x < compptr->width_in_blocks; dst_blk_x++) { ++ if (x_crop_blocks + dst_blk_x < comp_width) { ++ /* Do the mirrorable blocks */ ++ dst_ptr = dst_row_ptr[dst_blk_x]; ++ src_ptr = src_row_ptr[comp_width - x_crop_blocks - dst_blk_x - 1]; ++ /* this unrolled loop doesn't need to know which row it's on... */ ++ for (k = 0; k < DCTSIZE2; k += 2) { ++ *dst_ptr++ = *src_ptr++; /* copy even column */ ++ *dst_ptr++ = - *src_ptr++; /* copy odd column with sign change */ ++ } ++ } else { ++ /* Copy last partial block(s) verbatim */ ++ jcopy_block_row(src_row_ptr + dst_blk_x + x_crop_blocks, ++ dst_row_ptr + dst_blk_x, ++ (JDIMENSION) 1); ++ } ++ } + } + } + } +@@ -113,11 +256,13 @@ do_flip_h (j_decompress_ptr srcinfo, j_c + + LOCAL(void) + do_flip_v (j_decompress_ptr srcinfo, j_compress_ptr dstinfo, ++ JDIMENSION x_crop_offset, JDIMENSION y_crop_offset, + jvirt_barray_ptr *src_coef_arrays, + jvirt_barray_ptr *dst_coef_arrays) + /* Vertical flip */ + { + JDIMENSION MCU_rows, comp_height, dst_blk_x, dst_blk_y; ++ JDIMENSION x_crop_blocks, y_crop_blocks; + int ci, i, j, offset_y; + JBLOCKARRAY src_buffer, dst_buffer; + JBLOCKROW src_row_ptr, dst_row_ptr; +@@ -131,33 +276,39 @@ do_flip_v (j_decompress_ptr srcinfo, j_c + * of odd-numbered rows. + * Partial iMCUs at the bottom edge are copied verbatim. + */ +- MCU_rows = dstinfo->image_height / (dstinfo->max_v_samp_factor * DCTSIZE); ++ MCU_rows = srcinfo->output_height / ++ (dstinfo->max_v_samp_factor * dstinfo_min_DCT_v_scaled_size); + + for (ci = 0; ci < dstinfo->num_components; ci++) { + compptr = dstinfo->comp_info + ci; + comp_height = MCU_rows * compptr->v_samp_factor; ++ x_crop_blocks = x_crop_offset * compptr->h_samp_factor; ++ y_crop_blocks = y_crop_offset * compptr->v_samp_factor; + for (dst_blk_y = 0; dst_blk_y < compptr->height_in_blocks; + dst_blk_y += compptr->v_samp_factor) { + dst_buffer = (*srcinfo->mem->access_virt_barray) + ((j_common_ptr) srcinfo, dst_coef_arrays[ci], dst_blk_y, + (JDIMENSION) compptr->v_samp_factor, TRUE); +- if (dst_blk_y < comp_height) { ++ if (y_crop_blocks + dst_blk_y < comp_height) { + /* Row is within the mirrorable area. */ + src_buffer = (*srcinfo->mem->access_virt_barray) + ((j_common_ptr) srcinfo, src_coef_arrays[ci], +- comp_height - dst_blk_y - (JDIMENSION) compptr->v_samp_factor, ++ comp_height - y_crop_blocks - dst_blk_y - ++ (JDIMENSION) compptr->v_samp_factor, + (JDIMENSION) compptr->v_samp_factor, FALSE); + } else { + /* Bottom-edge blocks will be copied verbatim. */ + src_buffer = (*srcinfo->mem->access_virt_barray) +- ((j_common_ptr) srcinfo, src_coef_arrays[ci], dst_blk_y, ++ ((j_common_ptr) srcinfo, src_coef_arrays[ci], ++ dst_blk_y + y_crop_blocks, + (JDIMENSION) compptr->v_samp_factor, FALSE); + } + for (offset_y = 0; offset_y < compptr->v_samp_factor; offset_y++) { +- if (dst_blk_y < comp_height) { ++ if (y_crop_blocks + dst_blk_y < comp_height) { + /* Row is within the mirrorable area. */ + dst_row_ptr = dst_buffer[offset_y]; + src_row_ptr = src_buffer[compptr->v_samp_factor - offset_y - 1]; ++ src_row_ptr += x_crop_blocks; + for (dst_blk_x = 0; dst_blk_x < compptr->width_in_blocks; + dst_blk_x++) { + dst_ptr = dst_row_ptr[dst_blk_x]; +@@ -173,7 +324,8 @@ do_flip_v (j_decompress_ptr srcinfo, j_c + } + } else { + /* Just copy row verbatim. */ +- jcopy_block_row(src_buffer[offset_y], dst_buffer[offset_y], ++ jcopy_block_row(src_buffer[offset_y] + x_crop_blocks, ++ dst_buffer[offset_y], + compptr->width_in_blocks); + } + } +@@ -184,11 +336,12 @@ do_flip_v (j_decompress_ptr srcinfo, j_c + + LOCAL(void) + do_transpose (j_decompress_ptr srcinfo, j_compress_ptr dstinfo, ++ JDIMENSION x_crop_offset, JDIMENSION y_crop_offset, + jvirt_barray_ptr *src_coef_arrays, + jvirt_barray_ptr *dst_coef_arrays) + /* Transpose source into destination */ + { +- JDIMENSION dst_blk_x, dst_blk_y; ++ JDIMENSION dst_blk_x, dst_blk_y, x_crop_blocks, y_crop_blocks; + int ci, i, j, offset_x, offset_y; + JBLOCKARRAY src_buffer, dst_buffer; + JCOEFPTR src_ptr, dst_ptr; +@@ -201,6 +354,8 @@ do_transpose (j_decompress_ptr srcinfo, + */ + for (ci = 0; ci < dstinfo->num_components; ci++) { + compptr = dstinfo->comp_info + ci; ++ x_crop_blocks = x_crop_offset * compptr->h_samp_factor; ++ y_crop_blocks = y_crop_offset * compptr->v_samp_factor; + for (dst_blk_y = 0; dst_blk_y < compptr->height_in_blocks; + dst_blk_y += compptr->v_samp_factor) { + dst_buffer = (*srcinfo->mem->access_virt_barray) +@@ -210,11 +365,12 @@ do_transpose (j_decompress_ptr srcinfo, + for (dst_blk_x = 0; dst_blk_x < compptr->width_in_blocks; + dst_blk_x += compptr->h_samp_factor) { + src_buffer = (*srcinfo->mem->access_virt_barray) +- ((j_common_ptr) srcinfo, src_coef_arrays[ci], dst_blk_x, ++ ((j_common_ptr) srcinfo, src_coef_arrays[ci], ++ dst_blk_x + x_crop_blocks, + (JDIMENSION) compptr->h_samp_factor, FALSE); + for (offset_x = 0; offset_x < compptr->h_samp_factor; offset_x++) { +- src_ptr = src_buffer[offset_x][dst_blk_y + offset_y]; + dst_ptr = dst_buffer[offset_y][dst_blk_x + offset_x]; ++ src_ptr = src_buffer[offset_x][dst_blk_y + offset_y + y_crop_blocks]; + for (i = 0; i < DCTSIZE; i++) + for (j = 0; j < DCTSIZE; j++) + dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j]; +@@ -228,6 +384,7 @@ do_transpose (j_decompress_ptr srcinfo, + + LOCAL(void) + do_rot_90 (j_decompress_ptr srcinfo, j_compress_ptr dstinfo, ++ JDIMENSION x_crop_offset, JDIMENSION y_crop_offset, + jvirt_barray_ptr *src_coef_arrays, + jvirt_barray_ptr *dst_coef_arrays) + /* 90 degree rotation is equivalent to +@@ -237,6 +394,7 @@ do_rot_90 (j_decompress_ptr srcinfo, j_c + */ + { + JDIMENSION MCU_cols, comp_width, dst_blk_x, dst_blk_y; ++ JDIMENSION x_crop_blocks, y_crop_blocks; + int ci, i, j, offset_x, offset_y; + JBLOCKARRAY src_buffer, dst_buffer; + JCOEFPTR src_ptr, dst_ptr; +@@ -246,11 +404,14 @@ do_rot_90 (j_decompress_ptr srcinfo, j_c + * at the (output) right edge properly. They just get transposed and + * not mirrored. + */ +- MCU_cols = dstinfo->image_width / (dstinfo->max_h_samp_factor * DCTSIZE); ++ MCU_cols = srcinfo->output_height / ++ (dstinfo->max_h_samp_factor * dstinfo_min_DCT_h_scaled_size); + + for (ci = 0; ci < dstinfo->num_components; ci++) { + compptr = dstinfo->comp_info + ci; + comp_width = MCU_cols * compptr->h_samp_factor; ++ x_crop_blocks = x_crop_offset * compptr->h_samp_factor; ++ y_crop_blocks = y_crop_offset * compptr->v_samp_factor; + for (dst_blk_y = 0; dst_blk_y < compptr->height_in_blocks; + dst_blk_y += compptr->v_samp_factor) { + dst_buffer = (*srcinfo->mem->access_virt_barray) +@@ -259,15 +420,26 @@ do_rot_90 (j_decompress_ptr srcinfo, j_c + for (offset_y = 0; offset_y < compptr->v_samp_factor; offset_y++) { + for (dst_blk_x = 0; dst_blk_x < compptr->width_in_blocks; + dst_blk_x += compptr->h_samp_factor) { +- src_buffer = (*srcinfo->mem->access_virt_barray) +- ((j_common_ptr) srcinfo, src_coef_arrays[ci], dst_blk_x, +- (JDIMENSION) compptr->h_samp_factor, FALSE); ++ if (x_crop_blocks + dst_blk_x < comp_width) { ++ /* Block is within the mirrorable area. */ ++ src_buffer = (*srcinfo->mem->access_virt_barray) ++ ((j_common_ptr) srcinfo, src_coef_arrays[ci], ++ comp_width - x_crop_blocks - dst_blk_x - ++ (JDIMENSION) compptr->h_samp_factor, ++ (JDIMENSION) compptr->h_samp_factor, FALSE); ++ } else { ++ /* Edge blocks are transposed but not mirrored. */ ++ src_buffer = (*srcinfo->mem->access_virt_barray) ++ ((j_common_ptr) srcinfo, src_coef_arrays[ci], ++ dst_blk_x + x_crop_blocks, ++ (JDIMENSION) compptr->h_samp_factor, FALSE); ++ } + for (offset_x = 0; offset_x < compptr->h_samp_factor; offset_x++) { +- src_ptr = src_buffer[offset_x][dst_blk_y + offset_y]; +- if (dst_blk_x < comp_width) { ++ dst_ptr = dst_buffer[offset_y][dst_blk_x + offset_x]; ++ if (x_crop_blocks + dst_blk_x < comp_width) { + /* Block is within the mirrorable area. */ +- dst_ptr = dst_buffer[offset_y] +- [comp_width - dst_blk_x - offset_x - 1]; ++ src_ptr = src_buffer[compptr->h_samp_factor - offset_x - 1] ++ [dst_blk_y + offset_y + y_crop_blocks]; + for (i = 0; i < DCTSIZE; i++) { + for (j = 0; j < DCTSIZE; j++) + dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j]; +@@ -277,7 +449,8 @@ do_rot_90 (j_decompress_ptr srcinfo, j_c + } + } else { + /* Edge blocks are transposed but not mirrored. */ +- dst_ptr = dst_buffer[offset_y][dst_blk_x + offset_x]; ++ src_ptr = src_buffer[offset_x] ++ [dst_blk_y + offset_y + y_crop_blocks]; + for (i = 0; i < DCTSIZE; i++) + for (j = 0; j < DCTSIZE; j++) + dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j]; +@@ -292,6 +465,7 @@ do_rot_90 (j_decompress_ptr srcinfo, j_c + + LOCAL(void) + do_rot_270 (j_decompress_ptr srcinfo, j_compress_ptr dstinfo, ++ JDIMENSION x_crop_offset, JDIMENSION y_crop_offset, + jvirt_barray_ptr *src_coef_arrays, + jvirt_barray_ptr *dst_coef_arrays) + /* 270 degree rotation is equivalent to +@@ -301,6 +475,7 @@ do_rot_270 (j_decompress_ptr srcinfo, j_ + */ + { + JDIMENSION MCU_rows, comp_height, dst_blk_x, dst_blk_y; ++ JDIMENSION x_crop_blocks, y_crop_blocks; + int ci, i, j, offset_x, offset_y; + JBLOCKARRAY src_buffer, dst_buffer; + JCOEFPTR src_ptr, dst_ptr; +@@ -310,11 +485,14 @@ do_rot_270 (j_decompress_ptr srcinfo, j_ + * at the (output) bottom edge properly. They just get transposed and + * not mirrored. + */ +- MCU_rows = dstinfo->image_height / (dstinfo->max_v_samp_factor * DCTSIZE); ++ MCU_rows = srcinfo->output_width / ++ (dstinfo->max_v_samp_factor * dstinfo_min_DCT_v_scaled_size); + + for (ci = 0; ci < dstinfo->num_components; ci++) { + compptr = dstinfo->comp_info + ci; + comp_height = MCU_rows * compptr->v_samp_factor; ++ x_crop_blocks = x_crop_offset * compptr->h_samp_factor; ++ y_crop_blocks = y_crop_offset * compptr->v_samp_factor; + for (dst_blk_y = 0; dst_blk_y < compptr->height_in_blocks; + dst_blk_y += compptr->v_samp_factor) { + dst_buffer = (*srcinfo->mem->access_virt_barray) +@@ -324,14 +502,15 @@ do_rot_270 (j_decompress_ptr srcinfo, j_ + for (dst_blk_x = 0; dst_blk_x < compptr->width_in_blocks; + dst_blk_x += compptr->h_samp_factor) { + src_buffer = (*srcinfo->mem->access_virt_barray) +- ((j_common_ptr) srcinfo, src_coef_arrays[ci], dst_blk_x, ++ ((j_common_ptr) srcinfo, src_coef_arrays[ci], ++ dst_blk_x + x_crop_blocks, + (JDIMENSION) compptr->h_samp_factor, FALSE); + for (offset_x = 0; offset_x < compptr->h_samp_factor; offset_x++) { + dst_ptr = dst_buffer[offset_y][dst_blk_x + offset_x]; +- if (dst_blk_y < comp_height) { ++ if (y_crop_blocks + dst_blk_y < comp_height) { + /* Block is within the mirrorable area. */ + src_ptr = src_buffer[offset_x] +- [comp_height - dst_blk_y - offset_y - 1]; ++ [comp_height - y_crop_blocks - dst_blk_y - offset_y - 1]; + for (i = 0; i < DCTSIZE; i++) { + for (j = 0; j < DCTSIZE; j++) { + dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j]; +@@ -341,7 +520,8 @@ do_rot_270 (j_decompress_ptr srcinfo, j_ + } + } else { + /* Edge blocks are transposed but not mirrored. */ +- src_ptr = src_buffer[offset_x][dst_blk_y + offset_y]; ++ src_ptr = src_buffer[offset_x] ++ [dst_blk_y + offset_y + y_crop_blocks]; + for (i = 0; i < DCTSIZE; i++) + for (j = 0; j < DCTSIZE; j++) + dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j]; +@@ -356,6 +536,7 @@ do_rot_270 (j_decompress_ptr srcinfo, j_ + + LOCAL(void) + do_rot_180 (j_decompress_ptr srcinfo, j_compress_ptr dstinfo, ++ JDIMENSION x_crop_offset, JDIMENSION y_crop_offset, + jvirt_barray_ptr *src_coef_arrays, + jvirt_barray_ptr *dst_coef_arrays) + /* 180 degree rotation is equivalent to +@@ -365,89 +546,95 @@ do_rot_180 (j_decompress_ptr srcinfo, j_ + */ + { + JDIMENSION MCU_cols, MCU_rows, comp_width, comp_height, dst_blk_x, dst_blk_y; ++ JDIMENSION x_crop_blocks, y_crop_blocks; + int ci, i, j, offset_y; + JBLOCKARRAY src_buffer, dst_buffer; + JBLOCKROW src_row_ptr, dst_row_ptr; + JCOEFPTR src_ptr, dst_ptr; + jpeg_component_info *compptr; + +- MCU_cols = dstinfo->image_width / (dstinfo->max_h_samp_factor * DCTSIZE); +- MCU_rows = dstinfo->image_height / (dstinfo->max_v_samp_factor * DCTSIZE); ++ MCU_cols = srcinfo->output_width / ++ (dstinfo->max_h_samp_factor * dstinfo_min_DCT_h_scaled_size); ++ MCU_rows = srcinfo->output_height / ++ (dstinfo->max_v_samp_factor * dstinfo_min_DCT_v_scaled_size); + + for (ci = 0; ci < dstinfo->num_components; ci++) { + compptr = dstinfo->comp_info + ci; + comp_width = MCU_cols * compptr->h_samp_factor; + comp_height = MCU_rows * compptr->v_samp_factor; ++ x_crop_blocks = x_crop_offset * compptr->h_samp_factor; ++ y_crop_blocks = y_crop_offset * compptr->v_samp_factor; + for (dst_blk_y = 0; dst_blk_y < compptr->height_in_blocks; + dst_blk_y += compptr->v_samp_factor) { + dst_buffer = (*srcinfo->mem->access_virt_barray) + ((j_common_ptr) srcinfo, dst_coef_arrays[ci], dst_blk_y, + (JDIMENSION) compptr->v_samp_factor, TRUE); +- if (dst_blk_y < comp_height) { ++ if (y_crop_blocks + dst_blk_y < comp_height) { + /* Row is within the vertically mirrorable area. */ + src_buffer = (*srcinfo->mem->access_virt_barray) + ((j_common_ptr) srcinfo, src_coef_arrays[ci], +- comp_height - dst_blk_y - (JDIMENSION) compptr->v_samp_factor, ++ comp_height - y_crop_blocks - dst_blk_y - ++ (JDIMENSION) compptr->v_samp_factor, + (JDIMENSION) compptr->v_samp_factor, FALSE); + } else { + /* Bottom-edge rows are only mirrored horizontally. */ + src_buffer = (*srcinfo->mem->access_virt_barray) +- ((j_common_ptr) srcinfo, src_coef_arrays[ci], dst_blk_y, ++ ((j_common_ptr) srcinfo, src_coef_arrays[ci], ++ dst_blk_y + y_crop_blocks, + (JDIMENSION) compptr->v_samp_factor, FALSE); + } + for (offset_y = 0; offset_y < compptr->v_samp_factor; offset_y++) { +- if (dst_blk_y < comp_height) { ++ dst_row_ptr = dst_buffer[offset_y]; ++ if (y_crop_blocks + dst_blk_y < comp_height) { + /* Row is within the mirrorable area. */ +- dst_row_ptr = dst_buffer[offset_y]; + src_row_ptr = src_buffer[compptr->v_samp_factor - offset_y - 1]; +- /* Process the blocks that can be mirrored both ways. */ +- for (dst_blk_x = 0; dst_blk_x < comp_width; dst_blk_x++) { ++ for (dst_blk_x = 0; dst_blk_x < compptr->width_in_blocks; dst_blk_x++) { + dst_ptr = dst_row_ptr[dst_blk_x]; +- src_ptr = src_row_ptr[comp_width - dst_blk_x - 1]; +- for (i = 0; i < DCTSIZE; i += 2) { +- /* For even row, negate every odd column. */ +- for (j = 0; j < DCTSIZE; j += 2) { +- *dst_ptr++ = *src_ptr++; +- *dst_ptr++ = - *src_ptr++; ++ if (x_crop_blocks + dst_blk_x < comp_width) { ++ /* Process the blocks that can be mirrored both ways. */ ++ src_ptr = src_row_ptr[comp_width - x_crop_blocks - dst_blk_x - 1]; ++ for (i = 0; i < DCTSIZE; i += 2) { ++ /* For even row, negate every odd column. */ ++ for (j = 0; j < DCTSIZE; j += 2) { ++ *dst_ptr++ = *src_ptr++; ++ *dst_ptr++ = - *src_ptr++; ++ } ++ /* For odd row, negate every even column. */ ++ for (j = 0; j < DCTSIZE; j += 2) { ++ *dst_ptr++ = - *src_ptr++; ++ *dst_ptr++ = *src_ptr++; ++ } + } +- /* For odd row, negate every even column. */ +- for (j = 0; j < DCTSIZE; j += 2) { +- *dst_ptr++ = - *src_ptr++; +- *dst_ptr++ = *src_ptr++; ++ } else { ++ /* Any remaining right-edge blocks are only mirrored vertically. */ ++ src_ptr = src_row_ptr[x_crop_blocks + dst_blk_x]; ++ for (i = 0; i < DCTSIZE; i += 2) { ++ for (j = 0; j < DCTSIZE; j++) ++ *dst_ptr++ = *src_ptr++; ++ for (j = 0; j < DCTSIZE; j++) ++ *dst_ptr++ = - *src_ptr++; + } + } + } +- /* Any remaining right-edge blocks are only mirrored vertically. */ +- for (; dst_blk_x < compptr->width_in_blocks; dst_blk_x++) { +- dst_ptr = dst_row_ptr[dst_blk_x]; +- src_ptr = src_row_ptr[dst_blk_x]; +- for (i = 0; i < DCTSIZE; i += 2) { +- for (j = 0; j < DCTSIZE; j++) +- *dst_ptr++ = *src_ptr++; +- for (j = 0; j < DCTSIZE; j++) +- *dst_ptr++ = - *src_ptr++; +- } +- } + } else { + /* Remaining rows are just mirrored horizontally. */ +- dst_row_ptr = dst_buffer[offset_y]; + src_row_ptr = src_buffer[offset_y]; +- /* Process the blocks that can be mirrored. */ +- for (dst_blk_x = 0; dst_blk_x < comp_width; dst_blk_x++) { +- dst_ptr = dst_row_ptr[dst_blk_x]; +- src_ptr = src_row_ptr[comp_width - dst_blk_x - 1]; +- for (i = 0; i < DCTSIZE2; i += 2) { +- *dst_ptr++ = *src_ptr++; +- *dst_ptr++ = - *src_ptr++; ++ for (dst_blk_x = 0; dst_blk_x < compptr->width_in_blocks; dst_blk_x++) { ++ if (x_crop_blocks + dst_blk_x < comp_width) { ++ /* Process the blocks that can be mirrored. */ ++ dst_ptr = dst_row_ptr[dst_blk_x]; ++ src_ptr = src_row_ptr[comp_width - x_crop_blocks - dst_blk_x - 1]; ++ for (i = 0; i < DCTSIZE2; i += 2) { ++ *dst_ptr++ = *src_ptr++; ++ *dst_ptr++ = - *src_ptr++; ++ } ++ } else { ++ /* Any remaining right-edge blocks are only copied. */ ++ jcopy_block_row(src_row_ptr + dst_blk_x + x_crop_blocks, ++ dst_row_ptr + dst_blk_x, ++ (JDIMENSION) 1); + } + } +- /* Any remaining right-edge blocks are only copied. */ +- for (; dst_blk_x < compptr->width_in_blocks; dst_blk_x++) { +- dst_ptr = dst_row_ptr[dst_blk_x]; +- src_ptr = src_row_ptr[dst_blk_x]; +- for (i = 0; i < DCTSIZE2; i++) +- *dst_ptr++ = *src_ptr++; +- } + } + } + } +@@ -457,6 +644,7 @@ do_rot_180 (j_decompress_ptr srcinfo, j_ + + LOCAL(void) + do_transverse (j_decompress_ptr srcinfo, j_compress_ptr dstinfo, ++ JDIMENSION x_crop_offset, JDIMENSION y_crop_offset, + jvirt_barray_ptr *src_coef_arrays, + jvirt_barray_ptr *dst_coef_arrays) + /* Transverse transpose is equivalent to +@@ -470,18 +658,23 @@ do_transverse (j_decompress_ptr srcinfo, + */ + { + JDIMENSION MCU_cols, MCU_rows, comp_width, comp_height, dst_blk_x, dst_blk_y; ++ JDIMENSION x_crop_blocks, y_crop_blocks; + int ci, i, j, offset_x, offset_y; + JBLOCKARRAY src_buffer, dst_buffer; + JCOEFPTR src_ptr, dst_ptr; + jpeg_component_info *compptr; + +- MCU_cols = dstinfo->image_width / (dstinfo->max_h_samp_factor * DCTSIZE); +- MCU_rows = dstinfo->image_height / (dstinfo->max_v_samp_factor * DCTSIZE); ++ MCU_cols = srcinfo->output_height / ++ (dstinfo->max_h_samp_factor * dstinfo_min_DCT_h_scaled_size); ++ MCU_rows = srcinfo->output_width / ++ (dstinfo->max_v_samp_factor * dstinfo_min_DCT_v_scaled_size); + + for (ci = 0; ci < dstinfo->num_components; ci++) { + compptr = dstinfo->comp_info + ci; + comp_width = MCU_cols * compptr->h_samp_factor; + comp_height = MCU_rows * compptr->v_samp_factor; ++ x_crop_blocks = x_crop_offset * compptr->h_samp_factor; ++ y_crop_blocks = y_crop_offset * compptr->v_samp_factor; + for (dst_blk_y = 0; dst_blk_y < compptr->height_in_blocks; + dst_blk_y += compptr->v_samp_factor) { + dst_buffer = (*srcinfo->mem->access_virt_barray) +@@ -490,17 +683,26 @@ do_transverse (j_decompress_ptr srcinfo, + for (offset_y = 0; offset_y < compptr->v_samp_factor; offset_y++) { + for (dst_blk_x = 0; dst_blk_x < compptr->width_in_blocks; + dst_blk_x += compptr->h_samp_factor) { +- src_buffer = (*srcinfo->mem->access_virt_barray) +- ((j_common_ptr) srcinfo, src_coef_arrays[ci], dst_blk_x, +- (JDIMENSION) compptr->h_samp_factor, FALSE); ++ if (x_crop_blocks + dst_blk_x < comp_width) { ++ /* Block is within the mirrorable area. */ ++ src_buffer = (*srcinfo->mem->access_virt_barray) ++ ((j_common_ptr) srcinfo, src_coef_arrays[ci], ++ comp_width - x_crop_blocks - dst_blk_x - ++ (JDIMENSION) compptr->h_samp_factor, ++ (JDIMENSION) compptr->h_samp_factor, FALSE); ++ } else { ++ src_buffer = (*srcinfo->mem->access_virt_barray) ++ ((j_common_ptr) srcinfo, src_coef_arrays[ci], ++ dst_blk_x + x_crop_blocks, ++ (JDIMENSION) compptr->h_samp_factor, FALSE); ++ } + for (offset_x = 0; offset_x < compptr->h_samp_factor; offset_x++) { +- if (dst_blk_y < comp_height) { +- src_ptr = src_buffer[offset_x] +- [comp_height - dst_blk_y - offset_y - 1]; +- if (dst_blk_x < comp_width) { ++ dst_ptr = dst_buffer[offset_y][dst_blk_x + offset_x]; ++ if (y_crop_blocks + dst_blk_y < comp_height) { ++ if (x_crop_blocks + dst_blk_x < comp_width) { + /* Block is within the mirrorable area. */ +- dst_ptr = dst_buffer[offset_y] +- [comp_width - dst_blk_x - offset_x - 1]; ++ src_ptr = src_buffer[compptr->h_samp_factor - offset_x - 1] ++ [comp_height - y_crop_blocks - dst_blk_y - offset_y - 1]; + for (i = 0; i < DCTSIZE; i++) { + for (j = 0; j < DCTSIZE; j++) { + dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j]; +@@ -516,7 +718,8 @@ do_transverse (j_decompress_ptr srcinfo, + } + } else { + /* Right-edge blocks are mirrored in y only */ +- dst_ptr = dst_buffer[offset_y][dst_blk_x + offset_x]; ++ src_ptr = src_buffer[offset_x] ++ [comp_height - y_crop_blocks - dst_blk_y - offset_y - 1]; + for (i = 0; i < DCTSIZE; i++) { + for (j = 0; j < DCTSIZE; j++) { + dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j]; +@@ -526,11 +729,10 @@ do_transverse (j_decompress_ptr srcinfo, + } + } + } else { +- src_ptr = src_buffer[offset_x][dst_blk_y + offset_y]; +- if (dst_blk_x < comp_width) { ++ if (x_crop_blocks + dst_blk_x < comp_width) { + /* Bottom-edge blocks are mirrored in x only */ +- dst_ptr = dst_buffer[offset_y] +- [comp_width - dst_blk_x - offset_x - 1]; ++ src_ptr = src_buffer[compptr->h_samp_factor - offset_x - 1] ++ [dst_blk_y + offset_y + y_crop_blocks]; + for (i = 0; i < DCTSIZE; i++) { + for (j = 0; j < DCTSIZE; j++) + dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j]; +@@ -540,7 +742,8 @@ do_transverse (j_decompress_ptr srcinfo, + } + } else { + /* At lower right corner, just transpose, no mirroring */ +- dst_ptr = dst_buffer[offset_y][dst_blk_x + offset_x]; ++ src_ptr = src_buffer[offset_x] ++ [dst_blk_y + offset_y + y_crop_blocks]; + for (i = 0; i < DCTSIZE; i++) + for (j = 0; j < DCTSIZE; j++) + dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j]; +@@ -554,83 +757,372 @@ do_transverse (j_decompress_ptr srcinfo, + } + + ++/* Parse an unsigned integer: subroutine for jtransform_parse_crop_spec. ++ * Returns TRUE if valid integer found, FALSE if not. ++ * *strptr is advanced over the digit string, and *result is set to its value. ++ */ ++ ++LOCAL(boolean) ++jt_read_integer (const char ** strptr, JDIMENSION * result) ++{ ++ const char * ptr = *strptr; ++ JDIMENSION val = 0; ++ ++ for (; isdigit(*ptr); ptr++) { ++ val = val * 10 + (JDIMENSION) (*ptr - '0'); ++ } ++ *result = val; ++ if (ptr == *strptr) ++ return FALSE; /* oops, no digits */ ++ *strptr = ptr; ++ return TRUE; ++} ++ ++ ++/* Parse a crop specification (written in X11 geometry style). ++ * The routine returns TRUE if the spec string is valid, FALSE if not. ++ * ++ * The crop spec string should have the format ++ * [f]x[f]{+-}{+-} ++ * where width, height, xoffset, and yoffset are unsigned integers. ++ * Each of the elements can be omitted to indicate a default value. ++ * (A weakness of this style is that it is not possible to omit xoffset ++ * while specifying yoffset, since they look alike.) ++ * ++ * This code is loosely based on XParseGeometry from the X11 distribution. ++ */ ++ ++GLOBAL(boolean) ++jtransform_parse_crop_spec (jpeg_transform_info *info, const char *spec) ++{ ++ info->crop = FALSE; ++ info->crop_width_set = JCROP_UNSET; ++ info->crop_height_set = JCROP_UNSET; ++ info->crop_xoffset_set = JCROP_UNSET; ++ info->crop_yoffset_set = JCROP_UNSET; ++ ++ if (isdigit(*spec)) { ++ /* fetch width */ ++ if (! jt_read_integer(&spec, &info->crop_width)) ++ return FALSE; ++ if (*spec == 'f' || *spec == 'F') { ++ spec++; ++ info->crop_width_set = JCROP_FORCE; ++ } else ++ info->crop_width_set = JCROP_POS; ++ } ++ if (*spec == 'x' || *spec == 'X') { ++ /* fetch height */ ++ spec++; ++ if (! jt_read_integer(&spec, &info->crop_height)) ++ return FALSE; ++ if (*spec == 'f' || *spec == 'F') { ++ spec++; ++ info->crop_height_set = JCROP_FORCE; ++ } else ++ info->crop_height_set = JCROP_POS; ++ } ++ if (*spec == '+' || *spec == '-') { ++ /* fetch xoffset */ ++ info->crop_xoffset_set = (*spec == '-') ? JCROP_NEG : JCROP_POS; ++ spec++; ++ if (! jt_read_integer(&spec, &info->crop_xoffset)) ++ return FALSE; ++ } ++ if (*spec == '+' || *spec == '-') { ++ /* fetch yoffset */ ++ info->crop_yoffset_set = (*spec == '-') ? JCROP_NEG : JCROP_POS; ++ spec++; ++ if (! jt_read_integer(&spec, &info->crop_yoffset)) ++ return FALSE; ++ } ++ /* We had better have gotten to the end of the string. */ ++ if (*spec != '\0') ++ return FALSE; ++ info->crop = TRUE; ++ return TRUE; ++} ++ ++ ++/* Trim off any partial iMCUs on the indicated destination edge */ ++ ++LOCAL(void) ++trim_right_edge (jpeg_transform_info *info, JDIMENSION full_width) ++{ ++ JDIMENSION MCU_cols; ++ ++ MCU_cols = info->output_width / info->iMCU_sample_width; ++ if (MCU_cols > 0 && info->x_crop_offset + MCU_cols == ++ full_width / info->iMCU_sample_width) ++ info->output_width = MCU_cols * info->iMCU_sample_width; ++} ++ ++LOCAL(void) ++trim_bottom_edge (jpeg_transform_info *info, JDIMENSION full_height) ++{ ++ JDIMENSION MCU_rows; ++ ++ MCU_rows = info->output_height / info->iMCU_sample_height; ++ if (MCU_rows > 0 && info->y_crop_offset + MCU_rows == ++ full_height / info->iMCU_sample_height) ++ info->output_height = MCU_rows * info->iMCU_sample_height; ++} ++ ++ + /* Request any required workspace. + * ++ * This routine figures out the size that the output image will be ++ * (which implies that all the transform parameters must be set before ++ * it is called). ++ * + * We allocate the workspace virtual arrays from the source decompression + * object, so that all the arrays (both the original data and the workspace) + * will be taken into account while making memory management decisions. + * Hence, this routine must be called after jpeg_read_header (which reads + * the image dimensions) and before jpeg_read_coefficients (which realizes + * the source's virtual arrays). ++ * ++ * This function returns FALSE right away if -perfect is given ++ * and transformation is not perfect. Otherwise returns TRUE. + */ + +-GLOBAL(void) ++GLOBAL(boolean) + jtransform_request_workspace (j_decompress_ptr srcinfo, + jpeg_transform_info *info) + { +- jvirt_barray_ptr *coef_arrays = NULL; ++ jvirt_barray_ptr *coef_arrays; ++ boolean need_workspace, transpose_it; + jpeg_component_info *compptr; +- int ci; ++ JDIMENSION xoffset, yoffset; ++ JDIMENSION width_in_iMCUs, height_in_iMCUs; ++ JDIMENSION width_in_blocks, height_in_blocks; ++ int ci, h_samp_factor, v_samp_factor; + ++ /* Determine number of components in output image */ + if (info->force_grayscale && + srcinfo->jpeg_color_space == JCS_YCbCr && +- srcinfo->num_components == 3) { ++ srcinfo->num_components == 3) + /* We'll only process the first component */ + info->num_components = 1; +- } else { ++ else + /* Process all the components */ + info->num_components = srcinfo->num_components; ++ ++ /* Compute output image dimensions and related values. */ ++#if JPEG_LIB_VERSION >= 80 ++ jpeg_core_output_dimensions(srcinfo); ++#else ++ srcinfo->output_width = srcinfo->image_width; ++ srcinfo->output_height = srcinfo->image_height; ++#endif ++ ++ /* Return right away if -perfect is given and transformation is not perfect. ++ */ ++ if (info->perfect) { ++ if (info->num_components == 1) { ++ if (!jtransform_perfect_transform(srcinfo->output_width, ++ srcinfo->output_height, ++ srcinfo->_min_DCT_h_scaled_size, ++ srcinfo->_min_DCT_v_scaled_size, ++ info->transform)) ++ return FALSE; ++ } else { ++ if (!jtransform_perfect_transform(srcinfo->output_width, ++ srcinfo->output_height, ++ srcinfo->max_h_samp_factor * srcinfo->_min_DCT_h_scaled_size, ++ srcinfo->max_v_samp_factor * srcinfo->_min_DCT_v_scaled_size, ++ info->transform)) ++ return FALSE; ++ } ++ } ++ ++ /* If there is only one output component, force the iMCU size to be 1; ++ * else use the source iMCU size. (This allows us to do the right thing ++ * when reducing color to grayscale, and also provides a handy way of ++ * cleaning up "funny" grayscale images whose sampling factors are not 1x1.) ++ */ ++ switch (info->transform) { ++ case JXFORM_TRANSPOSE: ++ case JXFORM_TRANSVERSE: ++ case JXFORM_ROT_90: ++ case JXFORM_ROT_270: ++ info->output_width = srcinfo->output_height; ++ info->output_height = srcinfo->output_width; ++ if (info->num_components == 1) { ++ info->iMCU_sample_width = srcinfo->_min_DCT_v_scaled_size; ++ info->iMCU_sample_height = srcinfo->_min_DCT_h_scaled_size; ++ } else { ++ info->iMCU_sample_width = ++ srcinfo->max_v_samp_factor * srcinfo->_min_DCT_v_scaled_size; ++ info->iMCU_sample_height = ++ srcinfo->max_h_samp_factor * srcinfo->_min_DCT_h_scaled_size; ++ } ++ break; ++ default: ++ info->output_width = srcinfo->output_width; ++ info->output_height = srcinfo->output_height; ++ if (info->num_components == 1) { ++ info->iMCU_sample_width = srcinfo->_min_DCT_h_scaled_size; ++ info->iMCU_sample_height = srcinfo->_min_DCT_v_scaled_size; ++ } else { ++ info->iMCU_sample_width = ++ srcinfo->max_h_samp_factor * srcinfo->_min_DCT_h_scaled_size; ++ info->iMCU_sample_height = ++ srcinfo->max_v_samp_factor * srcinfo->_min_DCT_v_scaled_size; ++ } ++ break; + } + ++ /* If cropping has been requested, compute the crop area's position and ++ * dimensions, ensuring that its upper left corner falls at an iMCU boundary. ++ */ ++ if (info->crop) { ++ /* Insert default values for unset crop parameters */ ++ if (info->crop_xoffset_set == JCROP_UNSET) ++ info->crop_xoffset = 0; /* default to +0 */ ++ if (info->crop_yoffset_set == JCROP_UNSET) ++ info->crop_yoffset = 0; /* default to +0 */ ++ if (info->crop_xoffset >= info->output_width || ++ info->crop_yoffset >= info->output_height) ++ ERREXIT(srcinfo, JERR_BAD_CROP_SPEC); ++ if (info->crop_width_set == JCROP_UNSET) ++ info->crop_width = info->output_width - info->crop_xoffset; ++ if (info->crop_height_set == JCROP_UNSET) ++ info->crop_height = info->output_height - info->crop_yoffset; ++ /* Ensure parameters are valid */ ++ if (info->crop_width <= 0 || info->crop_width > info->output_width || ++ info->crop_height <= 0 || info->crop_height > info->output_height || ++ info->crop_xoffset > info->output_width - info->crop_width || ++ info->crop_yoffset > info->output_height - info->crop_height) ++ ERREXIT(srcinfo, JERR_BAD_CROP_SPEC); ++ /* Convert negative crop offsets into regular offsets */ ++ if (info->crop_xoffset_set == JCROP_NEG) ++ xoffset = info->output_width - info->crop_width - info->crop_xoffset; ++ else ++ xoffset = info->crop_xoffset; ++ if (info->crop_yoffset_set == JCROP_NEG) ++ yoffset = info->output_height - info->crop_height - info->crop_yoffset; ++ else ++ yoffset = info->crop_yoffset; ++ /* Now adjust so that upper left corner falls at an iMCU boundary */ ++ if (info->crop_width_set == JCROP_FORCE) ++ info->output_width = info->crop_width; ++ else ++ info->output_width = ++ info->crop_width + (xoffset % info->iMCU_sample_width); ++ if (info->crop_height_set == JCROP_FORCE) ++ info->output_height = info->crop_height; ++ else ++ info->output_height = ++ info->crop_height + (yoffset % info->iMCU_sample_height); ++ /* Save x/y offsets measured in iMCUs */ ++ info->x_crop_offset = xoffset / info->iMCU_sample_width; ++ info->y_crop_offset = yoffset / info->iMCU_sample_height; ++ } else { ++ info->x_crop_offset = 0; ++ info->y_crop_offset = 0; ++ } ++ ++ /* Figure out whether we need workspace arrays, ++ * and if so whether they are transposed relative to the source. ++ */ ++ need_workspace = FALSE; ++ transpose_it = FALSE; + switch (info->transform) { + case JXFORM_NONE: ++ if (info->x_crop_offset != 0 || info->y_crop_offset != 0) ++ need_workspace = TRUE; ++ /* No workspace needed if neither cropping nor transforming */ ++ break; + case JXFORM_FLIP_H: +- /* Don't need a workspace array */ ++ if (info->trim) ++ trim_right_edge(info, srcinfo->output_width); ++ if (info->y_crop_offset != 0 || info->slow_hflip) ++ need_workspace = TRUE; ++ /* do_flip_h_no_crop doesn't need a workspace array */ + break; + case JXFORM_FLIP_V: +- case JXFORM_ROT_180: +- /* Need workspace arrays having same dimensions as source image. +- * Note that we allocate arrays padded out to the next iMCU boundary, +- * so that transform routines need not worry about missing edge blocks. +- */ +- coef_arrays = (jvirt_barray_ptr *) +- (*srcinfo->mem->alloc_small) ((j_common_ptr) srcinfo, JPOOL_IMAGE, +- SIZEOF(jvirt_barray_ptr) * info->num_components); +- for (ci = 0; ci < info->num_components; ci++) { +- compptr = srcinfo->comp_info + ci; +- coef_arrays[ci] = (*srcinfo->mem->request_virt_barray) +- ((j_common_ptr) srcinfo, JPOOL_IMAGE, FALSE, +- (JDIMENSION) jround_up((long) compptr->width_in_blocks, +- (long) compptr->h_samp_factor), +- (JDIMENSION) jround_up((long) compptr->height_in_blocks, +- (long) compptr->v_samp_factor), +- (JDIMENSION) compptr->v_samp_factor); +- } ++ if (info->trim) ++ trim_bottom_edge(info, srcinfo->output_height); ++ /* Need workspace arrays having same dimensions as source image. */ ++ need_workspace = TRUE; + break; + case JXFORM_TRANSPOSE: ++ /* transpose does NOT have to trim anything */ ++ /* Need workspace arrays having transposed dimensions. */ ++ need_workspace = TRUE; ++ transpose_it = TRUE; ++ break; + case JXFORM_TRANSVERSE: ++ if (info->trim) { ++ trim_right_edge(info, srcinfo->output_height); ++ trim_bottom_edge(info, srcinfo->output_width); ++ } ++ /* Need workspace arrays having transposed dimensions. */ ++ need_workspace = TRUE; ++ transpose_it = TRUE; ++ break; + case JXFORM_ROT_90: ++ if (info->trim) ++ trim_right_edge(info, srcinfo->output_height); ++ /* Need workspace arrays having transposed dimensions. */ ++ need_workspace = TRUE; ++ transpose_it = TRUE; ++ break; ++ case JXFORM_ROT_180: ++ if (info->trim) { ++ trim_right_edge(info, srcinfo->output_width); ++ trim_bottom_edge(info, srcinfo->output_height); ++ } ++ /* Need workspace arrays having same dimensions as source image. */ ++ need_workspace = TRUE; ++ break; + case JXFORM_ROT_270: +- /* Need workspace arrays having transposed dimensions. +- * Note that we allocate arrays padded out to the next iMCU boundary, +- * so that transform routines need not worry about missing edge blocks. +- */ ++ if (info->trim) ++ trim_bottom_edge(info, srcinfo->output_width); ++ /* Need workspace arrays having transposed dimensions. */ ++ need_workspace = TRUE; ++ transpose_it = TRUE; ++ break; ++ } ++ ++ /* Allocate workspace if needed. ++ * Note that we allocate arrays padded out to the next iMCU boundary, ++ * so that transform routines need not worry about missing edge blocks. ++ */ ++ if (need_workspace) { + coef_arrays = (jvirt_barray_ptr *) + (*srcinfo->mem->alloc_small) ((j_common_ptr) srcinfo, JPOOL_IMAGE, +- SIZEOF(jvirt_barray_ptr) * info->num_components); ++ SIZEOF(jvirt_barray_ptr) * info->num_components); ++ width_in_iMCUs = (JDIMENSION) ++ jdiv_round_up((long) info->output_width, ++ (long) info->iMCU_sample_width); ++ height_in_iMCUs = (JDIMENSION) ++ jdiv_round_up((long) info->output_height, ++ (long) info->iMCU_sample_height); + for (ci = 0; ci < info->num_components; ci++) { + compptr = srcinfo->comp_info + ci; ++ if (info->num_components == 1) { ++ /* we're going to force samp factors to 1x1 in this case */ ++ h_samp_factor = v_samp_factor = 1; ++ } else if (transpose_it) { ++ h_samp_factor = compptr->v_samp_factor; ++ v_samp_factor = compptr->h_samp_factor; ++ } else { ++ h_samp_factor = compptr->h_samp_factor; ++ v_samp_factor = compptr->v_samp_factor; ++ } ++ width_in_blocks = width_in_iMCUs * h_samp_factor; ++ height_in_blocks = height_in_iMCUs * v_samp_factor; + coef_arrays[ci] = (*srcinfo->mem->request_virt_barray) + ((j_common_ptr) srcinfo, JPOOL_IMAGE, FALSE, +- (JDIMENSION) jround_up((long) compptr->height_in_blocks, +- (long) compptr->v_samp_factor), +- (JDIMENSION) jround_up((long) compptr->width_in_blocks, +- (long) compptr->h_samp_factor), +- (JDIMENSION) compptr->h_samp_factor); ++ width_in_blocks, height_in_blocks, (JDIMENSION) v_samp_factor); + } +- break; +- } +- info->workspace_coef_arrays = coef_arrays; ++ info->workspace_coef_arrays = coef_arrays; ++ } else ++ info->workspace_coef_arrays = NULL; ++ ++ return TRUE; + } + + +@@ -642,13 +1134,18 @@ transpose_critical_parameters (j_compres + int tblno, i, j, ci, itemp; + jpeg_component_info *compptr; + JQUANT_TBL *qtblptr; +- JDIMENSION dtemp; ++ JDIMENSION jtemp; + UINT16 qtemp; + +- /* Transpose basic image dimensions */ +- dtemp = dstinfo->image_width; ++ /* Transpose image dimensions */ ++ jtemp = dstinfo->image_width; + dstinfo->image_width = dstinfo->image_height; +- dstinfo->image_height = dtemp; ++ dstinfo->image_height = jtemp; ++#if JPEG_LIB_VERSION >= 70 ++ itemp = dstinfo->min_DCT_h_scaled_size; ++ dstinfo->min_DCT_h_scaled_size = dstinfo->min_DCT_v_scaled_size; ++ dstinfo->min_DCT_v_scaled_size = itemp; ++#endif + + /* Transpose sampling factors */ + for (ci = 0; ci < dstinfo->num_components; ci++) { +@@ -674,47 +1171,162 @@ transpose_critical_parameters (j_compres + } + + +-/* Trim off any partial iMCUs on the indicated destination edge */ ++/* Adjust Exif image parameters. ++ * ++ * We try to adjust the Tags ExifImageWidth and ExifImageHeight if possible. ++ */ + ++#if JPEG_LIB_VERSION >= 70 + LOCAL(void) +-trim_right_edge (j_compress_ptr dstinfo) ++adjust_exif_parameters (JOCTET FAR * data, unsigned int length, ++ JDIMENSION new_width, JDIMENSION new_height) + { +- int ci, max_h_samp_factor; +- JDIMENSION MCU_cols; ++ boolean is_motorola; /* Flag for byte order */ ++ unsigned int number_of_tags, tagnum; ++ unsigned int firstoffset, offset; ++ JDIMENSION new_value; ++ ++ if (length < 12) return; /* Length of an IFD entry */ ++ ++ /* Discover byte order */ ++ if (GETJOCTET(data[0]) == 0x49 && GETJOCTET(data[1]) == 0x49) ++ is_motorola = FALSE; ++ else if (GETJOCTET(data[0]) == 0x4D && GETJOCTET(data[1]) == 0x4D) ++ is_motorola = TRUE; ++ else ++ return; ++ ++ /* Check Tag Mark */ ++ if (is_motorola) { ++ if (GETJOCTET(data[2]) != 0) return; ++ if (GETJOCTET(data[3]) != 0x2A) return; ++ } else { ++ if (GETJOCTET(data[3]) != 0) return; ++ if (GETJOCTET(data[2]) != 0x2A) return; ++ } + +- /* We have to compute max_h_samp_factor ourselves, +- * because it hasn't been set yet in the destination +- * (and we don't want to use the source's value). +- */ +- max_h_samp_factor = 1; +- for (ci = 0; ci < dstinfo->num_components; ci++) { +- int h_samp_factor = dstinfo->comp_info[ci].h_samp_factor; +- max_h_samp_factor = MAX(max_h_samp_factor, h_samp_factor); ++ /* Get first IFD offset (offset to IFD0) */ ++ if (is_motorola) { ++ if (GETJOCTET(data[4]) != 0) return; ++ if (GETJOCTET(data[5]) != 0) return; ++ firstoffset = GETJOCTET(data[6]); ++ firstoffset <<= 8; ++ firstoffset += GETJOCTET(data[7]); ++ } else { ++ if (GETJOCTET(data[7]) != 0) return; ++ if (GETJOCTET(data[6]) != 0) return; ++ firstoffset = GETJOCTET(data[5]); ++ firstoffset <<= 8; ++ firstoffset += GETJOCTET(data[4]); + } +- MCU_cols = dstinfo->image_width / (max_h_samp_factor * DCTSIZE); +- if (MCU_cols > 0) /* can't trim to 0 pixels */ +- dstinfo->image_width = MCU_cols * (max_h_samp_factor * DCTSIZE); +-} ++ if (firstoffset > length - 2) return; /* check end of data segment */ + +-LOCAL(void) +-trim_bottom_edge (j_compress_ptr dstinfo) +-{ +- int ci, max_v_samp_factor; +- JDIMENSION MCU_rows; ++ /* Get the number of directory entries contained in this IFD */ ++ if (is_motorola) { ++ number_of_tags = GETJOCTET(data[firstoffset]); ++ number_of_tags <<= 8; ++ number_of_tags += GETJOCTET(data[firstoffset+1]); ++ } else { ++ number_of_tags = GETJOCTET(data[firstoffset+1]); ++ number_of_tags <<= 8; ++ number_of_tags += GETJOCTET(data[firstoffset]); ++ } ++ if (number_of_tags == 0) return; ++ firstoffset += 2; + +- /* We have to compute max_v_samp_factor ourselves, +- * because it hasn't been set yet in the destination +- * (and we don't want to use the source's value). +- */ +- max_v_samp_factor = 1; +- for (ci = 0; ci < dstinfo->num_components; ci++) { +- int v_samp_factor = dstinfo->comp_info[ci].v_samp_factor; +- max_v_samp_factor = MAX(max_v_samp_factor, v_samp_factor); ++ /* Search for ExifSubIFD offset Tag in IFD0 */ ++ for (;;) { ++ if (firstoffset > length - 12) return; /* check end of data segment */ ++ /* Get Tag number */ ++ if (is_motorola) { ++ tagnum = GETJOCTET(data[firstoffset]); ++ tagnum <<= 8; ++ tagnum += GETJOCTET(data[firstoffset+1]); ++ } else { ++ tagnum = GETJOCTET(data[firstoffset+1]); ++ tagnum <<= 8; ++ tagnum += GETJOCTET(data[firstoffset]); ++ } ++ if (tagnum == 0x8769) break; /* found ExifSubIFD offset Tag */ ++ if (--number_of_tags == 0) return; ++ firstoffset += 12; ++ } ++ ++ /* Get the ExifSubIFD offset */ ++ if (is_motorola) { ++ if (GETJOCTET(data[firstoffset+8]) != 0) return; ++ if (GETJOCTET(data[firstoffset+9]) != 0) return; ++ offset = GETJOCTET(data[firstoffset+10]); ++ offset <<= 8; ++ offset += GETJOCTET(data[firstoffset+11]); ++ } else { ++ if (GETJOCTET(data[firstoffset+11]) != 0) return; ++ if (GETJOCTET(data[firstoffset+10]) != 0) return; ++ offset = GETJOCTET(data[firstoffset+9]); ++ offset <<= 8; ++ offset += GETJOCTET(data[firstoffset+8]); ++ } ++ if (offset > length - 2) return; /* check end of data segment */ ++ ++ /* Get the number of directory entries contained in this SubIFD */ ++ if (is_motorola) { ++ number_of_tags = GETJOCTET(data[offset]); ++ number_of_tags <<= 8; ++ number_of_tags += GETJOCTET(data[offset+1]); ++ } else { ++ number_of_tags = GETJOCTET(data[offset+1]); ++ number_of_tags <<= 8; ++ number_of_tags += GETJOCTET(data[offset]); + } +- MCU_rows = dstinfo->image_height / (max_v_samp_factor * DCTSIZE); +- if (MCU_rows > 0) /* can't trim to 0 pixels */ +- dstinfo->image_height = MCU_rows * (max_v_samp_factor * DCTSIZE); ++ if (number_of_tags < 2) return; ++ offset += 2; ++ ++ /* Search for ExifImageWidth and ExifImageHeight Tags in this SubIFD */ ++ do { ++ if (offset > length - 12) return; /* check end of data segment */ ++ /* Get Tag number */ ++ if (is_motorola) { ++ tagnum = GETJOCTET(data[offset]); ++ tagnum <<= 8; ++ tagnum += GETJOCTET(data[offset+1]); ++ } else { ++ tagnum = GETJOCTET(data[offset+1]); ++ tagnum <<= 8; ++ tagnum += GETJOCTET(data[offset]); ++ } ++ if (tagnum == 0xA002 || tagnum == 0xA003) { ++ if (tagnum == 0xA002) ++ new_value = new_width; /* ExifImageWidth Tag */ ++ else ++ new_value = new_height; /* ExifImageHeight Tag */ ++ if (is_motorola) { ++ data[offset+2] = 0; /* Format = unsigned long (4 octets) */ ++ data[offset+3] = 4; ++ data[offset+4] = 0; /* Number Of Components = 1 */ ++ data[offset+5] = 0; ++ data[offset+6] = 0; ++ data[offset+7] = 1; ++ data[offset+8] = 0; ++ data[offset+9] = 0; ++ data[offset+10] = (JOCTET)((new_value >> 8) & 0xFF); ++ data[offset+11] = (JOCTET)(new_value & 0xFF); ++ } else { ++ data[offset+2] = 4; /* Format = unsigned long (4 octets) */ ++ data[offset+3] = 0; ++ data[offset+4] = 1; /* Number Of Components = 1 */ ++ data[offset+5] = 0; ++ data[offset+6] = 0; ++ data[offset+7] = 0; ++ data[offset+8] = (JOCTET)(new_value & 0xFF); ++ data[offset+9] = (JOCTET)((new_value >> 8) & 0xFF); ++ data[offset+10] = 0; ++ data[offset+11] = 0; ++ } ++ } ++ offset += 12; ++ } while (--number_of_tags); + } ++#endif + + + /* Adjust output image parameters as needed. +@@ -736,18 +1348,22 @@ jtransform_adjust_parameters (j_decompre + { + /* If force-to-grayscale is requested, adjust destination parameters */ + if (info->force_grayscale) { +- /* We use jpeg_set_colorspace to make sure subsidiary settings get fixed +- * properly. Among other things, the target h_samp_factor & v_samp_factor +- * will get set to 1, which typically won't match the source. +- * In fact we do this even if the source is already grayscale; that +- * provides an easy way of coercing a grayscale JPEG with funny sampling +- * factors to the customary 1,1. (Some decoders fail on other factors.) ++ /* First, ensure we have YCbCr or grayscale data, and that the source's ++ * Y channel is full resolution. (No reasonable person would make Y ++ * be less than full resolution, so actually coping with that case ++ * isn't worth extra code space. But we check it to avoid crashing.) + */ +- if ((dstinfo->jpeg_color_space == JCS_YCbCr && +- dstinfo->num_components == 3) || +- (dstinfo->jpeg_color_space == JCS_GRAYSCALE && +- dstinfo->num_components == 1)) { +- /* We have to preserve the source's quantization table number. */ ++ if (((dstinfo->jpeg_color_space == JCS_YCbCr && ++ dstinfo->num_components == 3) || ++ (dstinfo->jpeg_color_space == JCS_GRAYSCALE && ++ dstinfo->num_components == 1)) && ++ srcinfo->comp_info[0].h_samp_factor == srcinfo->max_h_samp_factor && ++ srcinfo->comp_info[0].v_samp_factor == srcinfo->max_v_samp_factor) { ++ /* We use jpeg_set_colorspace to make sure subsidiary settings get fixed ++ * properly. Among other things, it sets the target h_samp_factor & ++ * v_samp_factor to 1, which typically won't match the source. ++ * We have to preserve the source's quantization table number, however. ++ */ + int sv_quant_tbl_no = dstinfo->comp_info[0].quant_tbl_no; + jpeg_set_colorspace(dstinfo, JCS_GRAYSCALE); + dstinfo->comp_info[0].quant_tbl_no = sv_quant_tbl_no; +@@ -755,50 +1371,66 @@ jtransform_adjust_parameters (j_decompre + /* Sorry, can't do it */ + ERREXIT(dstinfo, JERR_CONVERSION_NOTIMPL); + } ++ } else if (info->num_components == 1) { ++ /* For a single-component source, we force the destination sampling factors ++ * to 1x1, with or without force_grayscale. This is useful because some ++ * decoders choke on grayscale images with other sampling factors. ++ */ ++ dstinfo->comp_info[0].h_samp_factor = 1; ++ dstinfo->comp_info[0].v_samp_factor = 1; + } + +- /* Correct the destination's image dimensions etc if necessary */ ++ /* Correct the destination's image dimensions as necessary ++ * for rotate/flip, resize, and crop operations. ++ */ ++#if JPEG_LIB_VERSION >= 70 ++ dstinfo->jpeg_width = info->output_width; ++ dstinfo->jpeg_height = info->output_height; ++#endif ++ ++ /* Transpose destination image parameters */ + switch (info->transform) { +- case JXFORM_NONE: +- /* Nothing to do */ +- break; +- case JXFORM_FLIP_H: +- if (info->trim) +- trim_right_edge(dstinfo); +- break; +- case JXFORM_FLIP_V: +- if (info->trim) +- trim_bottom_edge(dstinfo); +- break; + case JXFORM_TRANSPOSE: +- transpose_critical_parameters(dstinfo); +- /* transpose does NOT have to trim anything */ +- break; + case JXFORM_TRANSVERSE: +- transpose_critical_parameters(dstinfo); +- if (info->trim) { +- trim_right_edge(dstinfo); +- trim_bottom_edge(dstinfo); +- } +- break; + case JXFORM_ROT_90: +- transpose_critical_parameters(dstinfo); +- if (info->trim) +- trim_right_edge(dstinfo); +- break; +- case JXFORM_ROT_180: +- if (info->trim) { +- trim_right_edge(dstinfo); +- trim_bottom_edge(dstinfo); +- } +- break; + case JXFORM_ROT_270: ++#if JPEG_LIB_VERSION < 70 ++ dstinfo->image_width = info->output_height; ++ dstinfo->image_height = info->output_width; ++#endif + transpose_critical_parameters(dstinfo); +- if (info->trim) +- trim_bottom_edge(dstinfo); ++ break; ++ default: ++#if JPEG_LIB_VERSION < 70 ++ dstinfo->image_width = info->output_width; ++ dstinfo->image_height = info->output_height; ++#endif + break; + } + ++ /* Adjust Exif properties */ ++ if (srcinfo->marker_list != NULL && ++ srcinfo->marker_list->marker == JPEG_APP0+1 && ++ srcinfo->marker_list->data_length >= 6 && ++ GETJOCTET(srcinfo->marker_list->data[0]) == 0x45 && ++ GETJOCTET(srcinfo->marker_list->data[1]) == 0x78 && ++ GETJOCTET(srcinfo->marker_list->data[2]) == 0x69 && ++ GETJOCTET(srcinfo->marker_list->data[3]) == 0x66 && ++ GETJOCTET(srcinfo->marker_list->data[4]) == 0 && ++ GETJOCTET(srcinfo->marker_list->data[5]) == 0) { ++ /* Suppress output of JFIF marker */ ++ dstinfo->write_JFIF_header = FALSE; ++#if JPEG_LIB_VERSION >= 70 ++ /* Adjust Exif image parameters */ ++ if (dstinfo->jpeg_width != srcinfo->image_width || ++ dstinfo->jpeg_height != srcinfo->image_height) ++ /* Align data segment to start of TIFF structure for parsing */ ++ adjust_exif_parameters(srcinfo->marker_list->data + 6, ++ srcinfo->marker_list->data_length - 6, ++ dstinfo->jpeg_width, dstinfo->jpeg_height); ++#endif ++ } ++ + /* Return the appropriate output data set */ + if (info->workspace_coef_arrays != NULL) + return info->workspace_coef_arrays; +@@ -816,40 +1448,110 @@ jtransform_adjust_parameters (j_decompre + */ + + GLOBAL(void) +-jtransform_execute_transformation (j_decompress_ptr srcinfo, +- j_compress_ptr dstinfo, +- jvirt_barray_ptr *src_coef_arrays, +- jpeg_transform_info *info) ++jtransform_execute_transform (j_decompress_ptr srcinfo, ++ j_compress_ptr dstinfo, ++ jvirt_barray_ptr *src_coef_arrays, ++ jpeg_transform_info *info) + { + jvirt_barray_ptr *dst_coef_arrays = info->workspace_coef_arrays; + ++ /* Note: conditions tested here should match those in switch statement ++ * in jtransform_request_workspace() ++ */ + switch (info->transform) { + case JXFORM_NONE: ++ if (info->x_crop_offset != 0 || info->y_crop_offset != 0) ++ do_crop(srcinfo, dstinfo, info->x_crop_offset, info->y_crop_offset, ++ src_coef_arrays, dst_coef_arrays); + break; + case JXFORM_FLIP_H: +- do_flip_h(srcinfo, dstinfo, src_coef_arrays); ++ if (info->y_crop_offset != 0 || info->slow_hflip) ++ do_flip_h(srcinfo, dstinfo, info->x_crop_offset, info->y_crop_offset, ++ src_coef_arrays, dst_coef_arrays); ++ else ++ do_flip_h_no_crop(srcinfo, dstinfo, info->x_crop_offset, ++ src_coef_arrays); + break; + case JXFORM_FLIP_V: +- do_flip_v(srcinfo, dstinfo, src_coef_arrays, dst_coef_arrays); ++ do_flip_v(srcinfo, dstinfo, info->x_crop_offset, info->y_crop_offset, ++ src_coef_arrays, dst_coef_arrays); + break; + case JXFORM_TRANSPOSE: +- do_transpose(srcinfo, dstinfo, src_coef_arrays, dst_coef_arrays); ++ do_transpose(srcinfo, dstinfo, info->x_crop_offset, info->y_crop_offset, ++ src_coef_arrays, dst_coef_arrays); + break; + case JXFORM_TRANSVERSE: +- do_transverse(srcinfo, dstinfo, src_coef_arrays, dst_coef_arrays); ++ do_transverse(srcinfo, dstinfo, info->x_crop_offset, info->y_crop_offset, ++ src_coef_arrays, dst_coef_arrays); + break; + case JXFORM_ROT_90: +- do_rot_90(srcinfo, dstinfo, src_coef_arrays, dst_coef_arrays); ++ do_rot_90(srcinfo, dstinfo, info->x_crop_offset, info->y_crop_offset, ++ src_coef_arrays, dst_coef_arrays); + break; + case JXFORM_ROT_180: +- do_rot_180(srcinfo, dstinfo, src_coef_arrays, dst_coef_arrays); ++ do_rot_180(srcinfo, dstinfo, info->x_crop_offset, info->y_crop_offset, ++ src_coef_arrays, dst_coef_arrays); + break; + case JXFORM_ROT_270: +- do_rot_270(srcinfo, dstinfo, src_coef_arrays, dst_coef_arrays); ++ do_rot_270(srcinfo, dstinfo, info->x_crop_offset, info->y_crop_offset, ++ src_coef_arrays, dst_coef_arrays); + break; + } + } + ++/* jtransform_perfect_transform ++ * ++ * Determine whether lossless transformation is perfectly ++ * possible for a specified image and transformation. ++ * ++ * Inputs: ++ * image_width, image_height: source image dimensions. ++ * MCU_width, MCU_height: pixel dimensions of MCU. ++ * transform: transformation identifier. ++ * Parameter sources from initialized jpeg_struct ++ * (after reading source header): ++ * image_width = cinfo.image_width ++ * image_height = cinfo.image_height ++ * MCU_width = cinfo.max_h_samp_factor * cinfo.block_size ++ * MCU_height = cinfo.max_v_samp_factor * cinfo.block_size ++ * Result: ++ * TRUE = perfect transformation possible ++ * FALSE = perfect transformation not possible ++ * (may use custom action then) ++ */ ++ ++GLOBAL(boolean) ++jtransform_perfect_transform(JDIMENSION image_width, JDIMENSION image_height, ++ int MCU_width, int MCU_height, ++ JXFORM_CODE transform) ++{ ++ boolean result = TRUE; /* initialize TRUE */ ++ ++ switch (transform) { ++ case JXFORM_FLIP_H: ++ case JXFORM_ROT_270: ++ if (image_width % (JDIMENSION) MCU_width) ++ result = FALSE; ++ break; ++ case JXFORM_FLIP_V: ++ case JXFORM_ROT_90: ++ if (image_height % (JDIMENSION) MCU_height) ++ result = FALSE; ++ break; ++ case JXFORM_TRANSVERSE: ++ case JXFORM_ROT_180: ++ if (image_width % (JDIMENSION) MCU_width) ++ result = FALSE; ++ if (image_height % (JDIMENSION) MCU_height) ++ result = FALSE; ++ break; ++ default: ++ break; ++ } ++ ++ return result; ++} ++ + #endif /* TRANSFORMS_SUPPORTED */ + + +Index: fbida-2.10/jpeg/62/transupp.h +=================================================================== +--- fbida-2.10.orig/jpeg/62/transupp.h ++++ fbida-2.10/jpeg/62/transupp.h +@@ -1,7 +1,7 @@ + /* + * transupp.h + * +- * Copyright (C) 1997, Thomas G. Lane. ++ * Copyright (C) 1997-2011, Thomas G. Lane, Guido Vollbeding. + * This file is part of the Independent JPEG Group's software. + * For conditions of distribution and use, see the accompanying README file. + * +@@ -22,32 +22,6 @@ + #define TRANSFORMS_SUPPORTED 1 /* 0 disables transform code */ + #endif + +-/* Short forms of external names for systems with brain-damaged linkers. */ +- +-#ifdef NEED_SHORT_EXTERNAL_NAMES +-#define jtransform_request_workspace jTrRequest +-#define jtransform_adjust_parameters jTrAdjust +-#define jtransform_execute_transformation jTrExec +-#define jcopy_markers_setup jCMrkSetup +-#define jcopy_markers_execute jCMrkExec +-#endif /* NEED_SHORT_EXTERNAL_NAMES */ +- +- +-/* +- * Codes for supported types of image transformations. +- */ +- +-typedef enum { +- JXFORM_NONE, /* no transformation */ +- JXFORM_FLIP_H, /* horizontal flip */ +- JXFORM_FLIP_V, /* vertical flip */ +- JXFORM_TRANSPOSE, /* transpose across UL-to-LR axis */ +- JXFORM_TRANSVERSE, /* transpose across UR-to-LL axis */ +- JXFORM_ROT_90, /* 90-degree clockwise rotation */ +- JXFORM_ROT_180, /* 180-degree rotation */ +- JXFORM_ROT_270 /* 270-degree clockwise (or 90 ccw) */ +-} JXFORM_CODE; +- + /* + * Although rotating and flipping data expressed as DCT coefficients is not + * hard, there is an asymmetry in the JPEG format specification for images +@@ -75,6 +49,25 @@ typedef enum { + * (For example, -rot 270 -trim trims only the bottom edge, but -rot 90 -trim + * followed by -rot 180 -trim trims both edges.) + * ++ * We also offer a lossless-crop option, which discards data outside a given ++ * image region but losslessly preserves what is inside. Like the rotate and ++ * flip transforms, lossless crop is restricted by the JPEG format: the upper ++ * left corner of the selected region must fall on an iMCU boundary. If this ++ * does not hold for the given crop parameters, we silently move the upper left ++ * corner up and/or left to make it so, simultaneously increasing the region ++ * dimensions to keep the lower right crop corner unchanged. (Thus, the ++ * output image covers at least the requested region, but may cover more.) ++ * The adjustment of the region dimensions may be optionally disabled. ++ * ++ * We also provide a lossless-resize option, which is kind of a lossless-crop ++ * operation in the DCT coefficient block domain - it discards higher-order ++ * coefficients and losslessly preserves lower-order coefficients of a ++ * sub-block. ++ * ++ * Rotate/flip transform, resize, and crop can be requested together in a ++ * single invocation. The crop is applied last --- that is, the crop region ++ * is specified in terms of the destination image after transform/resize. ++ * + * We also offer a "force to grayscale" option, which simply discards the + * chrominance channels of a YCbCr image. This is lossless in the sense that + * the luminance channel is preserved exactly. It's not the same kind of +@@ -83,22 +76,100 @@ typedef enum { + * be aware of the option to know how many components to work on. + */ + ++ ++/* Short forms of external names for systems with brain-damaged linkers. */ ++ ++#ifdef NEED_SHORT_EXTERNAL_NAMES ++#define jtransform_parse_crop_spec jTrParCrop ++#define jtransform_request_workspace jTrRequest ++#define jtransform_adjust_parameters jTrAdjust ++#define jtransform_execute_transform jTrExec ++#define jtransform_perfect_transform jTrPerfect ++#define jcopy_markers_setup jCMrkSetup ++#define jcopy_markers_execute jCMrkExec ++#endif /* NEED_SHORT_EXTERNAL_NAMES */ ++ ++ ++/* ++ * Codes for supported types of image transformations. ++ */ ++ ++typedef enum { ++ JXFORM_NONE, /* no transformation */ ++ JXFORM_FLIP_H, /* horizontal flip */ ++ JXFORM_FLIP_V, /* vertical flip */ ++ JXFORM_TRANSPOSE, /* transpose across UL-to-LR axis */ ++ JXFORM_TRANSVERSE, /* transpose across UR-to-LL axis */ ++ JXFORM_ROT_90, /* 90-degree clockwise rotation */ ++ JXFORM_ROT_180, /* 180-degree rotation */ ++ JXFORM_ROT_270 /* 270-degree clockwise (or 90 ccw) */ ++} JXFORM_CODE; ++ ++/* ++ * Codes for crop parameters, which can individually be unspecified, ++ * positive or negative for xoffset or yoffset, ++ * positive or forced for width or height. ++ */ ++ ++typedef enum { ++ JCROP_UNSET, ++ JCROP_POS, ++ JCROP_NEG, ++ JCROP_FORCE ++} JCROP_CODE; ++ ++/* ++ * Transform parameters struct. ++ * NB: application must not change any elements of this struct after ++ * calling jtransform_request_workspace. ++ */ ++ + typedef struct { + /* Options: set by caller */ + JXFORM_CODE transform; /* image transform operator */ ++ boolean perfect; /* if TRUE, fail if partial MCUs are requested */ + boolean trim; /* if TRUE, trim partial MCUs as needed */ + boolean force_grayscale; /* if TRUE, convert color image to grayscale */ ++ boolean crop; /* if TRUE, crop source image */ ++ boolean slow_hflip; /* For best performance, the JXFORM_FLIP_H transform ++ normally modifies the source coefficients in place. ++ Setting this to TRUE will instead use a slower, ++ double-buffered algorithm, which leaves the source ++ coefficients in tact (necessary if other transformed ++ images must be generated from the same set of ++ coefficients. */ ++ ++ /* Crop parameters: application need not set these unless crop is TRUE. ++ * These can be filled in by jtransform_parse_crop_spec(). ++ */ ++ JDIMENSION crop_width; /* Width of selected region */ ++ JCROP_CODE crop_width_set; /* (forced disables adjustment) */ ++ JDIMENSION crop_height; /* Height of selected region */ ++ JCROP_CODE crop_height_set; /* (forced disables adjustment) */ ++ JDIMENSION crop_xoffset; /* X offset of selected region */ ++ JCROP_CODE crop_xoffset_set; /* (negative measures from right edge) */ ++ JDIMENSION crop_yoffset; /* Y offset of selected region */ ++ JCROP_CODE crop_yoffset_set; /* (negative measures from bottom edge) */ + + /* Internal workspace: caller should not touch these */ + int num_components; /* # of components in workspace */ + jvirt_barray_ptr * workspace_coef_arrays; /* workspace for transformations */ ++ JDIMENSION output_width; /* cropped destination dimensions */ ++ JDIMENSION output_height; ++ JDIMENSION x_crop_offset; /* destination crop offsets measured in iMCUs */ ++ JDIMENSION y_crop_offset; ++ int iMCU_sample_width; /* destination iMCU size */ ++ int iMCU_sample_height; + } jpeg_transform_info; + + + #if TRANSFORMS_SUPPORTED + ++/* Parse a crop specification (written in X11 geometry style) */ ++EXTERN(boolean) jtransform_parse_crop_spec ++ JPP((jpeg_transform_info *info, const char *spec)); + /* Request any required workspace */ +-EXTERN(void) jtransform_request_workspace ++EXTERN(boolean) jtransform_request_workspace + JPP((j_decompress_ptr srcinfo, jpeg_transform_info *info)); + /* Adjust output image parameters */ + EXTERN(jvirt_barray_ptr *) jtransform_adjust_parameters +@@ -106,10 +177,24 @@ EXTERN(jvirt_barray_ptr *) jtransform_ad + jvirt_barray_ptr *src_coef_arrays, + jpeg_transform_info *info)); + /* Execute the actual transformation, if any */ +-EXTERN(void) jtransform_execute_transformation ++EXTERN(void) jtransform_execute_transform + JPP((j_decompress_ptr srcinfo, j_compress_ptr dstinfo, + jvirt_barray_ptr *src_coef_arrays, + jpeg_transform_info *info)); ++/* Determine whether lossless transformation is perfectly ++ * possible for a specified image and transformation. ++ */ ++EXTERN(boolean) jtransform_perfect_transform ++ JPP((JDIMENSION image_width, JDIMENSION image_height, ++ int MCU_width, int MCU_height, ++ JXFORM_CODE transform)); ++ ++/* jtransform_execute_transform used to be called ++ * jtransform_execute_transformation, but some compilers complain about ++ * routine names that long. This macro is here to avoid breaking any ++ * old source code that uses the original name... ++ */ ++#define jtransform_execute_transformation jtransform_execute_transform + + #endif /* TRANSFORMS_SUPPORTED */ + diff --git a/meta-oe/recipes-graphics/fbida/files/use-jpeg-turbo.patch b/meta-oe/recipes-graphics/fbida/files/use-jpeg-turbo.patch new file mode 100644 index 000000000..99639554c --- /dev/null +++ b/meta-oe/recipes-graphics/fbida/files/use-jpeg-turbo.patch @@ -0,0 +1,13 @@ +Index: fbida-2.10/GNUmakefile +=================================================================== +--- fbida-2.10.orig/GNUmakefile ++++ fbida-2.10/GNUmakefile +@@ -51,7 +51,7 @@ HAVE_LIBSANE := $(call ac_lib,sane_init, + HAVE_LIBCURL := $(call ac_lib,curl_easy_init,curl) + HAVE_LIBLIRC := $(call ac_lib,lirc_init,lirc_client) + HAVE_MOTIF := $(call ac_lib,XmStringGenerate,Xm,-L/usr/X11R6/$(LIB) -lXpm -lXt -lXext -lX11) +-JPEG_VER := $(call ac_jpeg_ver) ++JPEG_VER := 62 + endef + + # transposing