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  1.   93f25328c15a3e7d17f9f7ae94f09f58657ee636
  2.   gtkmm-osx
  3.   jpeg-6b
  4.   transupp.c
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/*
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 * transupp.c
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 *
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 * Copyright (C) 1997, Thomas G. Lane.
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 * This file is part of the Independent JPEG Group's software.
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 * For conditions of distribution and use, see the accompanying README file.
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 *
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 * This file contains image transformation routines and other utility code
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 * used by the jpegtran sample application.  These are NOT part of the core
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 * JPEG library.  But we keep these routines separate from jpegtran.c to
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 * ease the task of maintaining jpegtran-like programs that have other user
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 * interfaces.
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 */
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/* Although this file really shouldn't have access to the library internals,
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 * it's helpful to let it call jround_up() and jcopy_block_row().
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 */
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#define JPEG_INTERNALS
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#include "jinclude.h"
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#include "jpeglib.h"
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#include "transupp.h"		/* My own external interface */
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#if TRANSFORMS_SUPPORTED
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/*
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 * Lossless image transformation routines.  These routines work on DCT
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 * coefficient arrays and thus do not require any lossy decompression
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 * or recompression of the image.
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 * Thanks to Guido Vollbeding for the initial design and code of this feature.
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 *
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 * Horizontal flipping is done in-place, using a single top-to-bottom
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 * pass through the virtual source array.  It will thus be much the
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 * fastest option for images larger than main memory.
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 *
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 * The other routines require a set of destination virtual arrays, so they
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 * need twice as much memory as jpegtran normally does.  The destination
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 * arrays are always written in normal scan order (top to bottom) because
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 * the virtual array manager expects this.  The source arrays will be scanned
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 * in the corresponding order, which means multiple passes through the source
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 * arrays for most of the transforms.  That could result in much thrashing
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 * if the image is larger than main memory.
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 *
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 * Some notes about the operating environment of the individual transform
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 * routines:
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 * 1. Both the source and destination virtual arrays are allocated from the
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 *    source JPEG object, and therefore should be manipulated by calling the
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 *    source's memory manager.
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 * 2. The destination's component count should be used.  It may be smaller
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 *    than the source's when forcing to grayscale.
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 * 3. Likewise the destination's sampling factors should be used.  When
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 *    forcing to grayscale the destination's sampling factors will be all 1,
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 *    and we may as well take that as the effective iMCU size.
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 * 4. When "trim" is in effect, the destination's dimensions will be the
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 *    trimmed values but the source's will be untrimmed.
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 * 5. All the routines assume that the source and destination buffers are
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 *    padded out to a full iMCU boundary.  This is true, although for the
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 *    source buffer it is an undocumented property of jdcoefct.c.
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 * Notes 2,3,4 boil down to this: generally we should use the destination's
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 * dimensions and ignore the source's.
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 */
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LOCAL(void)
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do_flip_h (j_decompress_ptr srcinfo, j_compress_ptr dstinfo,
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	   jvirt_barray_ptr *src_coef_arrays)
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/* Horizontal flip; done in-place, so no separate dest array is required */
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{
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  JDIMENSION MCU_cols, comp_width, blk_x, blk_y;
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  int ci, k, offset_y;
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  JBLOCKARRAY buffer;
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  JCOEFPTR ptr1, ptr2;
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  JCOEF temp1, temp2;
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  jpeg_component_info *compptr;
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  /* Horizontal mirroring of DCT blocks is accomplished by swapping
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   * pairs of blocks in-place.  Within a DCT block, we perform horizontal
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   * mirroring by changing the signs of odd-numbered columns.
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   * Partial iMCUs at the right edge are left untouched.
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   */
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  MCU_cols = dstinfo->image_width / (dstinfo->max_h_samp_factor * DCTSIZE);
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  for (ci = 0; ci < dstinfo->num_components; ci++) {
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    compptr = dstinfo->comp_info + ci;
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    comp_width = MCU_cols * compptr->h_samp_factor;
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    for (blk_y = 0; blk_y < compptr->height_in_blocks;
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	 blk_y += compptr->v_samp_factor) {
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      buffer = (*srcinfo->mem->access_virt_barray)
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	((j_common_ptr) srcinfo, src_coef_arrays[ci], blk_y,
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	 (JDIMENSION) compptr->v_samp_factor, TRUE);
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      for (offset_y = 0; offset_y < compptr->v_samp_factor; offset_y++) {
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	for (blk_x = 0; blk_x * 2 < comp_width; blk_x++) {
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	  ptr1 = buffer[offset_y][blk_x];
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	  ptr2 = buffer[offset_y][comp_width - blk_x - 1];
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	  /* this unrolled loop doesn't need to know which row it's on... */
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	  for (k = 0; k < DCTSIZE2; k += 2) {
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	    temp1 = *ptr1;	/* swap even column */
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	    temp2 = *ptr2;
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	    *ptr1++ = temp2;
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	    *ptr2++ = temp1;
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	    temp1 = *ptr1;	/* swap odd column with sign change */
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	    temp2 = *ptr2;
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	    *ptr1++ = -temp2;
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	    *ptr2++ = -temp1;
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	  }
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	}
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      }
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    }
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  }
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}
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LOCAL(void)
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do_flip_v (j_decompress_ptr srcinfo, j_compress_ptr dstinfo,
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	   jvirt_barray_ptr *src_coef_arrays,
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	   jvirt_barray_ptr *dst_coef_arrays)
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/* Vertical flip */
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{
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  JDIMENSION MCU_rows, comp_height, dst_blk_x, dst_blk_y;
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  int ci, i, j, offset_y;
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  JBLOCKARRAY src_buffer, dst_buffer;
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  JBLOCKROW src_row_ptr, dst_row_ptr;
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  JCOEFPTR src_ptr, dst_ptr;
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  jpeg_component_info *compptr;
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  /* We output into a separate array because we can't touch different
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   * rows of the source virtual array simultaneously.  Otherwise, this
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   * is a pretty straightforward analog of horizontal flip.
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   * Within a DCT block, vertical mirroring is done by changing the signs
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   * of odd-numbered rows.
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   * Partial iMCUs at the bottom edge are copied verbatim.
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   */
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  MCU_rows = dstinfo->image_height / (dstinfo->max_v_samp_factor * DCTSIZE);
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  for (ci = 0; ci < dstinfo->num_components; ci++) {
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    compptr = dstinfo->comp_info + ci;
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    comp_height = MCU_rows * compptr->v_samp_factor;
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    for (dst_blk_y = 0; dst_blk_y < compptr->height_in_blocks;
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	 dst_blk_y += compptr->v_samp_factor) {
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      dst_buffer = (*srcinfo->mem->access_virt_barray)
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	((j_common_ptr) srcinfo, dst_coef_arrays[ci], dst_blk_y,
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	 (JDIMENSION) compptr->v_samp_factor, TRUE);
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      if (dst_blk_y < comp_height) {
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	/* Row is within the mirrorable area. */
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	src_buffer = (*srcinfo->mem->access_virt_barray)
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	  ((j_common_ptr) srcinfo, src_coef_arrays[ci],
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	   comp_height - dst_blk_y - (JDIMENSION) compptr->v_samp_factor,
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	   (JDIMENSION) compptr->v_samp_factor, FALSE);
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      } else {
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	/* Bottom-edge blocks will be copied verbatim. */
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	src_buffer = (*srcinfo->mem->access_virt_barray)
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	  ((j_common_ptr) srcinfo, src_coef_arrays[ci], dst_blk_y,
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	   (JDIMENSION) compptr->v_samp_factor, FALSE);
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      }
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      for (offset_y = 0; offset_y < compptr->v_samp_factor; offset_y++) {
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	if (dst_blk_y < comp_height) {
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	  /* Row is within the mirrorable area. */
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	  dst_row_ptr = dst_buffer[offset_y];
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	  src_row_ptr = src_buffer[compptr->v_samp_factor - offset_y - 1];
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	  for (dst_blk_x = 0; dst_blk_x < compptr->width_in_blocks;
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	       dst_blk_x++) {
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	    dst_ptr = dst_row_ptr[dst_blk_x];
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	    src_ptr = src_row_ptr[dst_blk_x];
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	    for (i = 0; i < DCTSIZE; i += 2) {
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	      /* copy even row */
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	      for (j = 0; j < DCTSIZE; j++)
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		*dst_ptr++ = *src_ptr++;
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	      /* copy odd row with sign change */
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	      for (j = 0; j < DCTSIZE; j++)
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		*dst_ptr++ = - *src_ptr++;
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	    }
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	  }
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	} else {
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	  /* Just copy row verbatim. */
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	  jcopy_block_row(src_buffer[offset_y], dst_buffer[offset_y],
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			  compptr->width_in_blocks);
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	}
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      }
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    }
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  }
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}
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LOCAL(void)
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do_transpose (j_decompress_ptr srcinfo, j_compress_ptr dstinfo,
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	      jvirt_barray_ptr *src_coef_arrays,
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	      jvirt_barray_ptr *dst_coef_arrays)
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/* Transpose source into destination */
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{
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  JDIMENSION dst_blk_x, dst_blk_y;
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  int ci, i, j, offset_x, offset_y;
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  JBLOCKARRAY src_buffer, dst_buffer;
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  JCOEFPTR src_ptr, dst_ptr;
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  jpeg_component_info *compptr;
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  /* Transposing pixels within a block just requires transposing the
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   * DCT coefficients.
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   * Partial iMCUs at the edges require no special treatment; we simply
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   * process all the available DCT blocks for every component.
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   */
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  for (ci = 0; ci < dstinfo->num_components; ci++) {
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    compptr = dstinfo->comp_info + ci;
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    for (dst_blk_y = 0; dst_blk_y < compptr->height_in_blocks;
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	 dst_blk_y += compptr->v_samp_factor) {
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      dst_buffer = (*srcinfo->mem->access_virt_barray)
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	((j_common_ptr) srcinfo, dst_coef_arrays[ci], dst_blk_y,
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	 (JDIMENSION) compptr->v_samp_factor, TRUE);
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      for (offset_y = 0; offset_y < compptr->v_samp_factor; offset_y++) {
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	for (dst_blk_x = 0; dst_blk_x < compptr->width_in_blocks;
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	     dst_blk_x += compptr->h_samp_factor) {
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	  src_buffer = (*srcinfo->mem->access_virt_barray)
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	    ((j_common_ptr) srcinfo, src_coef_arrays[ci], dst_blk_x,
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	     (JDIMENSION) compptr->h_samp_factor, FALSE);
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	  for (offset_x = 0; offset_x < compptr->h_samp_factor; offset_x++) {
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	    src_ptr = src_buffer[offset_x][dst_blk_y + offset_y];
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	    dst_ptr = dst_buffer[offset_y][dst_blk_x + offset_x];
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	    for (i = 0; i < DCTSIZE; i++)
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	      for (j = 0; j < DCTSIZE; j++)
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		dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j];
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	  }
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	}
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      }
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    }
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  }
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}
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LOCAL(void)
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do_rot_90 (j_decompress_ptr srcinfo, j_compress_ptr dstinfo,
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	   jvirt_barray_ptr *src_coef_arrays,
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	   jvirt_barray_ptr *dst_coef_arrays)
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/* 90 degree rotation is equivalent to
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 *   1. Transposing the image;
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 *   2. Horizontal mirroring.
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 * These two steps are merged into a single processing routine.
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 */
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{
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  JDIMENSION MCU_cols, comp_width, dst_blk_x, dst_blk_y;
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  int ci, i, j, offset_x, offset_y;
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  JBLOCKARRAY src_buffer, dst_buffer;
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  JCOEFPTR src_ptr, dst_ptr;
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  jpeg_component_info *compptr;
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  /* Because of the horizontal mirror step, we can't process partial iMCUs
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   * at the (output) right edge properly.  They just get transposed and
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   * not mirrored.
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   */
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  MCU_cols = dstinfo->image_width / (dstinfo->max_h_samp_factor * DCTSIZE);
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  for (ci = 0; ci < dstinfo->num_components; ci++) {
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    compptr = dstinfo->comp_info + ci;
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    comp_width = MCU_cols * compptr->h_samp_factor;
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    for (dst_blk_y = 0; dst_blk_y < compptr->height_in_blocks;
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	 dst_blk_y += compptr->v_samp_factor) {
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      dst_buffer = (*srcinfo->mem->access_virt_barray)
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	((j_common_ptr) srcinfo, dst_coef_arrays[ci], dst_blk_y,
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	 (JDIMENSION) compptr->v_samp_factor, TRUE);
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      for (offset_y = 0; offset_y < compptr->v_samp_factor; offset_y++) {
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	for (dst_blk_x = 0; dst_blk_x < compptr->width_in_blocks;
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	     dst_blk_x += compptr->h_samp_factor) {
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	  src_buffer = (*srcinfo->mem->access_virt_barray)
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	    ((j_common_ptr) srcinfo, src_coef_arrays[ci], dst_blk_x,
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	     (JDIMENSION) compptr->h_samp_factor, FALSE);
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	  for (offset_x = 0; offset_x < compptr->h_samp_factor; offset_x++) {
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	    src_ptr = src_buffer[offset_x][dst_blk_y + offset_y];
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	    if (dst_blk_x < comp_width) {
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	      /* Block is within the mirrorable area. */
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	      dst_ptr = dst_buffer[offset_y]
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		[comp_width - dst_blk_x - offset_x - 1];
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	      for (i = 0; i < DCTSIZE; i++) {
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		for (j = 0; j < DCTSIZE; j++)
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		  dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j];
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		i++;
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		for (j = 0; j < DCTSIZE; j++)
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		  dst_ptr[j*DCTSIZE+i] = -src_ptr[i*DCTSIZE+j];
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	      }
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	    } else {
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	      /* Edge blocks are transposed but not mirrored. */
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	      dst_ptr = dst_buffer[offset_y][dst_blk_x + offset_x];
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	      for (i = 0; i < DCTSIZE; i++)
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		for (j = 0; j < DCTSIZE; j++)
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		  dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j];
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	    }
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	  }
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	}
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      }
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    }
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  }
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}
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LOCAL(void)
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do_rot_270 (j_decompress_ptr srcinfo, j_compress_ptr dstinfo,
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	    jvirt_barray_ptr *src_coef_arrays,
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	    jvirt_barray_ptr *dst_coef_arrays)
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/* 270 degree rotation is equivalent to
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 *   1. Horizontal mirroring;
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 *   2. Transposing the image.
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 * These two steps are merged into a single processing routine.
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 */
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{
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  JDIMENSION MCU_rows, comp_height, dst_blk_x, dst_blk_y;
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  int ci, i, j, offset_x, offset_y;
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  JBLOCKARRAY src_buffer, dst_buffer;
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  JCOEFPTR src_ptr, dst_ptr;
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  jpeg_component_info *compptr;
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  /* Because of the horizontal mirror step, we can't process partial iMCUs
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   * at the (output) bottom edge properly.  They just get transposed and
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   * not mirrored.
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   */
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  MCU_rows = dstinfo->image_height / (dstinfo->max_v_samp_factor * DCTSIZE);
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  for (ci = 0; ci < dstinfo->num_components; ci++) {
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    compptr = dstinfo->comp_info + ci;
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    comp_height = MCU_rows * compptr->v_samp_factor;
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    for (dst_blk_y = 0; dst_blk_y < compptr->height_in_blocks;
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	 dst_blk_y += compptr->v_samp_factor) {
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      dst_buffer = (*srcinfo->mem->access_virt_barray)
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	((j_common_ptr) srcinfo, dst_coef_arrays[ci], dst_blk_y,
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	 (JDIMENSION) compptr->v_samp_factor, TRUE);
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      for (offset_y = 0; offset_y < compptr->v_samp_factor; offset_y++) {
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	for (dst_blk_x = 0; dst_blk_x < compptr->width_in_blocks;
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	     dst_blk_x += compptr->h_samp_factor) {
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	  src_buffer = (*srcinfo->mem->access_virt_barray)
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	    ((j_common_ptr) srcinfo, src_coef_arrays[ci], dst_blk_x,
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	     (JDIMENSION) compptr->h_samp_factor, FALSE);
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	  for (offset_x = 0; offset_x < compptr->h_samp_factor; offset_x++) {
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	    dst_ptr = dst_buffer[offset_y][dst_blk_x + offset_x];
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	    if (dst_blk_y < comp_height) {
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	      /* Block is within the mirrorable area. */
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	      src_ptr = src_buffer[offset_x]
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		[comp_height - dst_blk_y - offset_y - 1];
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	      for (i = 0; i < DCTSIZE; i++) {
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		for (j = 0; j < DCTSIZE; j++) {
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		  dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j];
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		  j++;
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		  dst_ptr[j*DCTSIZE+i] = -src_ptr[i*DCTSIZE+j];
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		}
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	      }
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	    } else {
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	      /* Edge blocks are transposed but not mirrored. */
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	      src_ptr = src_buffer[offset_x][dst_blk_y + offset_y];
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	      for (i = 0; i < DCTSIZE; i++)
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		for (j = 0; j < DCTSIZE; j++)
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		  dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j];
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	    }
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	  }
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	}
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      }
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    }
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  }
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}
darco 56a656
darco 56a656
darco 56a656 
LOCAL(void)
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do_rot_180 (j_decompress_ptr srcinfo, j_compress_ptr dstinfo,
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	    jvirt_barray_ptr *src_coef_arrays,
darco 56a656 
	    jvirt_barray_ptr *dst_coef_arrays)
darco 56a656 
/* 180 degree rotation is equivalent to
darco 56a656 
 *   1. Vertical mirroring;
darco 56a656 
 *   2. Horizontal mirroring.
darco 56a656 
 * These two steps are merged into a single processing routine.
darco 56a656 
 */
darco 56a656 
{
darco 56a656 
  JDIMENSION MCU_cols, MCU_rows, comp_width, comp_height, dst_blk_x, dst_blk_y;
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  int ci, i, j, offset_y;
darco 56a656 
  JBLOCKARRAY src_buffer, dst_buffer;
darco 56a656 
  JBLOCKROW src_row_ptr, dst_row_ptr;
darco 56a656 
  JCOEFPTR src_ptr, dst_ptr;
darco 56a656 
  jpeg_component_info *compptr;
darco 56a656
darco 56a656 
  MCU_cols = dstinfo->image_width / (dstinfo->max_h_samp_factor * DCTSIZE);
darco 56a656 
  MCU_rows = dstinfo->image_height / (dstinfo->max_v_samp_factor * DCTSIZE);
darco 56a656
darco 56a656 
  for (ci = 0; ci < dstinfo->num_components; ci++) {
darco 56a656 
    compptr = dstinfo->comp_info + ci;
darco 56a656 
    comp_width = MCU_cols * compptr->h_samp_factor;
darco 56a656 
    comp_height = MCU_rows * compptr->v_samp_factor;
darco 56a656 
    for (dst_blk_y = 0; dst_blk_y < compptr->height_in_blocks;
darco 56a656 
	 dst_blk_y += compptr->v_samp_factor) {
darco 56a656 
      dst_buffer = (*srcinfo->mem->access_virt_barray)
darco 56a656 
	((j_common_ptr) srcinfo, dst_coef_arrays[ci], dst_blk_y,
darco 56a656 
	 (JDIMENSION) compptr->v_samp_factor, TRUE);
darco 56a656 
      if (dst_blk_y < comp_height) {
darco 56a656 
	/* Row is within the vertically mirrorable area. */
darco 56a656 
	src_buffer = (*srcinfo->mem->access_virt_barray)
darco 56a656 
	  ((j_common_ptr) srcinfo, src_coef_arrays[ci],
darco 56a656 
	   comp_height - dst_blk_y - (JDIMENSION) compptr->v_samp_factor,
darco 56a656 
	   (JDIMENSION) compptr->v_samp_factor, FALSE);
darco 56a656 
      } else {
darco 56a656 
	/* Bottom-edge rows are only mirrored horizontally. */
darco 56a656 
	src_buffer = (*srcinfo->mem->access_virt_barray)
darco 56a656 
	  ((j_common_ptr) srcinfo, src_coef_arrays[ci], dst_blk_y,
darco 56a656 
	   (JDIMENSION) compptr->v_samp_factor, FALSE);
darco 56a656 
      }
darco 56a656 
      for (offset_y = 0; offset_y < compptr->v_samp_factor; offset_y++) {
darco 56a656 
	if (dst_blk_y < comp_height) {
darco 56a656 
	  /* Row is within the mirrorable area. */
darco 56a656 
	  dst_row_ptr = dst_buffer[offset_y];
darco 56a656 
	  src_row_ptr = src_buffer[compptr->v_samp_factor - offset_y - 1];
darco 56a656 
	  /* Process the blocks that can be mirrored both ways. */
darco 56a656 
	  for (dst_blk_x = 0; dst_blk_x < comp_width; dst_blk_x++) {
darco 56a656 
	    dst_ptr = dst_row_ptr[dst_blk_x];
darco 56a656 
	    src_ptr = src_row_ptr[comp_width - dst_blk_x - 1];
darco 56a656 
	    for (i = 0; i < DCTSIZE; i += 2) {
darco 56a656 
	      /* For even row, negate every odd column. */
darco 56a656 
	      for (j = 0; j < DCTSIZE; j += 2) {
darco 56a656 
		*dst_ptr++ = *src_ptr++;
darco 56a656 
		*dst_ptr++ = - *src_ptr++;
darco 56a656 
	      }
darco 56a656 
	      /* For odd row, negate every even column. */
darco 56a656 
	      for (j = 0; j < DCTSIZE; j += 2) {
darco 56a656 
		*dst_ptr++ = - *src_ptr++;
darco 56a656 
		*dst_ptr++ = *src_ptr++;
darco 56a656 
	      }
darco 56a656 
	    }
darco 56a656 
	  }
darco 56a656 
	  /* Any remaining right-edge blocks are only mirrored vertically. */
darco 56a656 
	  for (; dst_blk_x < compptr->width_in_blocks; dst_blk_x++) {
darco 56a656 
	    dst_ptr = dst_row_ptr[dst_blk_x];
darco 56a656 
	    src_ptr = src_row_ptr[dst_blk_x];
darco 56a656 
	    for (i = 0; i < DCTSIZE; i += 2) {
darco 56a656 
	      for (j = 0; j < DCTSIZE; j++)
darco 56a656 
		*dst_ptr++ = *src_ptr++;
darco 56a656 
	      for (j = 0; j < DCTSIZE; j++)
darco 56a656 
		*dst_ptr++ = - *src_ptr++;
darco 56a656 
	    }
darco 56a656 
	  }
darco 56a656 
	} else {
darco 56a656 
	  /* Remaining rows are just mirrored horizontally. */
darco 56a656 
	  dst_row_ptr = dst_buffer[offset_y];
darco 56a656 
	  src_row_ptr = src_buffer[offset_y];
darco 56a656 
	  /* Process the blocks that can be mirrored. */
darco 56a656 
	  for (dst_blk_x = 0; dst_blk_x < comp_width; dst_blk_x++) {
darco 56a656 
	    dst_ptr = dst_row_ptr[dst_blk_x];
darco 56a656 
	    src_ptr = src_row_ptr[comp_width - dst_blk_x - 1];
darco 56a656 
	    for (i = 0; i < DCTSIZE2; i += 2) {
darco 56a656 
	      *dst_ptr++ = *src_ptr++;
darco 56a656 
	      *dst_ptr++ = - *src_ptr++;
darco 56a656 
	    }
darco 56a656 
	  }
darco 56a656 
	  /* Any remaining right-edge blocks are only copied. */
darco 56a656 
	  for (; dst_blk_x < compptr->width_in_blocks; dst_blk_x++) {
darco 56a656 
	    dst_ptr = dst_row_ptr[dst_blk_x];
darco 56a656 
	    src_ptr = src_row_ptr[dst_blk_x];
darco 56a656 
	    for (i = 0; i < DCTSIZE2; i++)
darco 56a656 
	      *dst_ptr++ = *src_ptr++;
darco 56a656 
	  }
darco 56a656 
	}
darco 56a656 
      }
darco 56a656 
    }
darco 56a656 
  }
darco 56a656 
}
darco 56a656
darco 56a656
darco 56a656 
LOCAL(void)
darco 56a656 
do_transverse (j_decompress_ptr srcinfo, j_compress_ptr dstinfo,
darco 56a656 
	       jvirt_barray_ptr *src_coef_arrays,
darco 56a656 
	       jvirt_barray_ptr *dst_coef_arrays)
darco 56a656 
/* Transverse transpose is equivalent to
darco 56a656 
 *   1. 180 degree rotation;
darco 56a656 
 *   2. Transposition;
darco 56a656 
 * or
darco 56a656 
 *   1. Horizontal mirroring;
darco 56a656 
 *   2. Transposition;
darco 56a656 
 *   3. Horizontal mirroring.
darco 56a656 
 * These steps are merged into a single processing routine.
darco 56a656 
 */
darco 56a656 
{
darco 56a656 
  JDIMENSION MCU_cols, MCU_rows, comp_width, comp_height, dst_blk_x, dst_blk_y;
darco 56a656 
  int ci, i, j, offset_x, offset_y;
darco 56a656 
  JBLOCKARRAY src_buffer, dst_buffer;
darco 56a656 
  JCOEFPTR src_ptr, dst_ptr;
darco 56a656 
  jpeg_component_info *compptr;
darco 56a656
darco 56a656 
  MCU_cols = dstinfo->image_width / (dstinfo->max_h_samp_factor * DCTSIZE);
darco 56a656 
  MCU_rows = dstinfo->image_height / (dstinfo->max_v_samp_factor * DCTSIZE);
darco 56a656
darco 56a656 
  for (ci = 0; ci < dstinfo->num_components; ci++) {
darco 56a656 
    compptr = dstinfo->comp_info + ci;
darco 56a656 
    comp_width = MCU_cols * compptr->h_samp_factor;
darco 56a656 
    comp_height = MCU_rows * compptr->v_samp_factor;
darco 56a656 
    for (dst_blk_y = 0; dst_blk_y < compptr->height_in_blocks;
darco 56a656 
	 dst_blk_y += compptr->v_samp_factor) {
darco 56a656 
      dst_buffer = (*srcinfo->mem->access_virt_barray)
darco 56a656 
	((j_common_ptr) srcinfo, dst_coef_arrays[ci], dst_blk_y,
darco 56a656 
	 (JDIMENSION) compptr->v_samp_factor, TRUE);
darco 56a656 
      for (offset_y = 0; offset_y < compptr->v_samp_factor; offset_y++) {
darco 56a656 
	for (dst_blk_x = 0; dst_blk_x < compptr->width_in_blocks;
darco 56a656 
	     dst_blk_x += compptr->h_samp_factor) {
darco 56a656 
	  src_buffer = (*srcinfo->mem->access_virt_barray)
darco 56a656 
	    ((j_common_ptr) srcinfo, src_coef_arrays[ci], dst_blk_x,
darco 56a656 
	     (JDIMENSION) compptr->h_samp_factor, FALSE);
darco 56a656 
	  for (offset_x = 0; offset_x < compptr->h_samp_factor; offset_x++) {
darco 56a656 
	    if (dst_blk_y < comp_height) {
darco 56a656 
	      src_ptr = src_buffer[offset_x]
darco 56a656 
		[comp_height - dst_blk_y - offset_y - 1];
darco 56a656 
	      if (dst_blk_x < comp_width) {
darco 56a656 
		/* Block is within the mirrorable area. */
darco 56a656 
		dst_ptr = dst_buffer[offset_y]
darco 56a656 
		  [comp_width - dst_blk_x - offset_x - 1];
darco 56a656 
		for (i = 0; i < DCTSIZE; i++) {
darco 56a656 
		  for (j = 0; j < DCTSIZE; j++) {
darco 56a656 
		    dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j];
darco 56a656 
		    j++;
darco 56a656 
		    dst_ptr[j*DCTSIZE+i] = -src_ptr[i*DCTSIZE+j];
darco 56a656 
		  }
darco 56a656 
		  i++;
darco 56a656 
		  for (j = 0; j < DCTSIZE; j++) {
darco 56a656 
		    dst_ptr[j*DCTSIZE+i] = -src_ptr[i*DCTSIZE+j];
darco 56a656 
		    j++;
darco 56a656 
		    dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j];
darco 56a656 
		  }
darco 56a656 
		}
darco 56a656 
	      } else {
darco 56a656 
		/* Right-edge blocks are mirrored in y only */
darco 56a656 
		dst_ptr = dst_buffer[offset_y][dst_blk_x + offset_x];
darco 56a656 
		for (i = 0; i < DCTSIZE; i++) {
darco 56a656 
		  for (j = 0; j < DCTSIZE; j++) {
darco 56a656 
		    dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j];
darco 56a656 
		    j++;
darco 56a656 
		    dst_ptr[j*DCTSIZE+i] = -src_ptr[i*DCTSIZE+j];
darco 56a656 
		  }
darco 56a656 
		}
darco 56a656 
	      }
darco 56a656 
	    } else {
darco 56a656 
	      src_ptr = src_buffer[offset_x][dst_blk_y + offset_y];
darco 56a656 
	      if (dst_blk_x < comp_width) {
darco 56a656 
		/* Bottom-edge blocks are mirrored in x only */
darco 56a656 
		dst_ptr = dst_buffer[offset_y]
darco 56a656 
		  [comp_width - dst_blk_x - offset_x - 1];
darco 56a656 
		for (i = 0; i < DCTSIZE; i++) {
darco 56a656 
		  for (j = 0; j < DCTSIZE; j++)
darco 56a656 
		    dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j];
darco 56a656 
		  i++;
darco 56a656 
		  for (j = 0; j < DCTSIZE; j++)
darco 56a656 
		    dst_ptr[j*DCTSIZE+i] = -src_ptr[i*DCTSIZE+j];
darco 56a656 
		}
darco 56a656 
	      } else {
darco 56a656 
		/* At lower right corner, just transpose, no mirroring */
darco 56a656 
		dst_ptr = dst_buffer[offset_y][dst_blk_x + offset_x];
darco 56a656 
		for (i = 0; i < DCTSIZE; i++)
darco 56a656 
		  for (j = 0; j < DCTSIZE; j++)
darco 56a656 
		    dst_ptr[j*DCTSIZE+i] = src_ptr[i*DCTSIZE+j];
darco 56a656 
	      }
darco 56a656 
	    }
darco 56a656 
	  }
darco 56a656 
	}
darco 56a656 
      }
darco 56a656 
    }
darco 56a656 
  }
darco 56a656 
}
darco 56a656
darco 56a656
darco 56a656 
/* Request any required workspace.
darco 56a656 
 *
darco 56a656 
 * We allocate the workspace virtual arrays from the source decompression
darco 56a656 
 * object, so that all the arrays (both the original data and the workspace)
darco 56a656 
 * will be taken into account while making memory management decisions.
darco 56a656 
 * Hence, this routine must be called after jpeg_read_header (which reads
darco 56a656 
 * the image dimensions) and before jpeg_read_coefficients (which realizes
darco 56a656 
 * the source's virtual arrays).
darco 56a656 
 */
darco 56a656
darco 56a656 
GLOBAL(void)
darco 56a656 
jtransform_request_workspace (j_decompress_ptr srcinfo,
darco 56a656 
			      jpeg_transform_info *info)
darco 56a656 
{
darco 56a656 
  jvirt_barray_ptr *coef_arrays = NULL;
darco 56a656 
  jpeg_component_info *compptr;
darco 56a656 
  int ci;
darco 56a656
darco 56a656 
  if (info->force_grayscale &&
darco 56a656 
      srcinfo->jpeg_color_space == JCS_YCbCr &&
darco 56a656 
      srcinfo->num_components == 3) {
darco 56a656 
    /* We'll only process the first component */
darco 56a656 
    info->num_components = 1;
darco 56a656 
  } else {
darco 56a656 
    /* Process all the components */
darco 56a656 
    info->num_components = srcinfo->num_components;
darco 56a656 
  }
darco 56a656
darco 56a656 
  switch (info->transform) {
darco 56a656 
  case JXFORM_NONE:
darco 56a656 
  case JXFORM_FLIP_H:
darco 56a656 
    /* Don't need a workspace array */
darco 56a656 
    break;
darco 56a656 
  case JXFORM_FLIP_V:
darco 56a656 
  case JXFORM_ROT_180:
darco 56a656 
    /* Need workspace arrays having same dimensions as source image.
darco 56a656 
     * Note that we allocate arrays padded out to the next iMCU boundary,
darco 56a656 
     * so that transform routines need not worry about missing edge blocks.
darco 56a656 
     */
darco 56a656 
    coef_arrays = (jvirt_barray_ptr *)
darco 56a656 
      (*srcinfo->mem->alloc_small) ((j_common_ptr) srcinfo, JPOOL_IMAGE,
darco 56a656 
	SIZEOF(jvirt_barray_ptr) * info->num_components);
darco 56a656 
    for (ci = 0; ci < info->num_components; ci++) {
darco 56a656 
      compptr = srcinfo->comp_info + ci;
darco 56a656 
      coef_arrays[ci] = (*srcinfo->mem->request_virt_barray)
darco 56a656 
	((j_common_ptr) srcinfo, JPOOL_IMAGE, FALSE,
darco 56a656 
	 (JDIMENSION) jround_up((long) compptr->width_in_blocks,
darco 56a656 
				(long) compptr->h_samp_factor),
darco 56a656 
	 (JDIMENSION) jround_up((long) compptr->height_in_blocks,
darco 56a656 
				(long) compptr->v_samp_factor),
darco 56a656 
	 (JDIMENSION) compptr->v_samp_factor);
darco 56a656 
    }
darco 56a656 
    break;
darco 56a656 
  case JXFORM_TRANSPOSE:
darco 56a656 
  case JXFORM_TRANSVERSE:
darco 56a656 
  case JXFORM_ROT_90:
darco 56a656 
  case JXFORM_ROT_270:
darco 56a656 
    /* Need workspace arrays having transposed dimensions.
darco 56a656 
     * Note that we allocate arrays padded out to the next iMCU boundary,
darco 56a656 
     * so that transform routines need not worry about missing edge blocks.
darco 56a656 
     */
darco 56a656 
    coef_arrays = (jvirt_barray_ptr *)
darco 56a656 
      (*srcinfo->mem->alloc_small) ((j_common_ptr) srcinfo, JPOOL_IMAGE,
darco 56a656 
	SIZEOF(jvirt_barray_ptr) * info->num_components);
darco 56a656 
    for (ci = 0; ci < info->num_components; ci++) {
darco 56a656 
      compptr = srcinfo->comp_info + ci;
darco 56a656 
      coef_arrays[ci] = (*srcinfo->mem->request_virt_barray)
darco 56a656 
	((j_common_ptr) srcinfo, JPOOL_IMAGE, FALSE,
darco 56a656 
	 (JDIMENSION) jround_up((long) compptr->height_in_blocks,
darco 56a656 
				(long) compptr->v_samp_factor),
darco 56a656 
	 (JDIMENSION) jround_up((long) compptr->width_in_blocks,
darco 56a656 
				(long) compptr->h_samp_factor),
darco 56a656 
	 (JDIMENSION) compptr->h_samp_factor);
darco 56a656 
    }
darco 56a656 
    break;
darco 56a656 
  }
darco 56a656 
  info->workspace_coef_arrays = coef_arrays;
darco 56a656 
}
darco 56a656
darco 56a656
darco 56a656 
/* Transpose destination image parameters */
darco 56a656
darco 56a656 
LOCAL(void)
darco 56a656 
transpose_critical_parameters (j_compress_ptr dstinfo)
darco 56a656 
{
darco 56a656 
  int tblno, i, j, ci, itemp;
darco 56a656 
  jpeg_component_info *compptr;
darco 56a656 
  JQUANT_TBL *qtblptr;
darco 56a656 
  JDIMENSION dtemp;
darco 56a656 
  UINT16 qtemp;
darco 56a656
darco 56a656 
  /* Transpose basic image dimensions */
darco 56a656 
  dtemp = dstinfo->image_width;
darco 56a656 
  dstinfo->image_width = dstinfo->image_height;
darco 56a656 
  dstinfo->image_height = dtemp;
darco 56a656
darco 56a656 
  /* Transpose sampling factors */
darco 56a656 
  for (ci = 0; ci < dstinfo->num_components; ci++) {
darco 56a656 
    compptr = dstinfo->comp_info + ci;
darco 56a656 
    itemp = compptr->h_samp_factor;
darco 56a656 
    compptr->h_samp_factor = compptr->v_samp_factor;
darco 56a656 
    compptr->v_samp_factor = itemp;
darco 56a656 
  }
darco 56a656
darco 56a656 
  /* Transpose quantization tables */
darco 56a656 
  for (tblno = 0; tblno < NUM_QUANT_TBLS; tblno++) {
darco 56a656 
    qtblptr = dstinfo->quant_tbl_ptrs[tblno];
darco 56a656 
    if (qtblptr != NULL) {
darco 56a656 
      for (i = 0; i < DCTSIZE; i++) {
darco 56a656 
	for (j = 0; j < i; j++) {
darco 56a656 
	  qtemp = qtblptr->quantval[i*DCTSIZE+j];
darco 56a656 
	  qtblptr->quantval[i*DCTSIZE+j] = qtblptr->quantval[j*DCTSIZE+i];
darco 56a656 
	  qtblptr->quantval[j*DCTSIZE+i] = qtemp;
darco 56a656 
	}
darco 56a656 
      }
darco 56a656 
    }
darco 56a656 
  }
darco 56a656 
}
darco 56a656
darco 56a656
darco 56a656 
/* Trim off any partial iMCUs on the indicated destination edge */
darco 56a656
darco 56a656 
LOCAL(void)
darco 56a656 
trim_right_edge (j_compress_ptr dstinfo)
darco 56a656 
{
darco 56a656 
  int ci, max_h_samp_factor;
darco 56a656 
  JDIMENSION MCU_cols;
darco 56a656
darco 56a656 
  /* We have to compute max_h_samp_factor ourselves,
darco 56a656 
   * because it hasn't been set yet in the destination
darco 56a656 
   * (and we don't want to use the source's value).
darco 56a656 
   */
darco 56a656 
  max_h_samp_factor = 1;
darco 56a656 
  for (ci = 0; ci < dstinfo->num_components; ci++) {
darco 56a656 
    int h_samp_factor = dstinfo->comp_info[ci].h_samp_factor;
darco 56a656 
    max_h_samp_factor = MAX(max_h_samp_factor, h_samp_factor);
darco 56a656 
  }
darco 56a656 
  MCU_cols = dstinfo->image_width / (max_h_samp_factor * DCTSIZE);
darco 56a656 
  if (MCU_cols > 0)		/* can't trim to 0 pixels */
darco 56a656 
    dstinfo->image_width = MCU_cols * (max_h_samp_factor * DCTSIZE);
darco 56a656 
}
darco 56a656
darco 56a656 
LOCAL(void)
darco 56a656 
trim_bottom_edge (j_compress_ptr dstinfo)
darco 56a656 
{
darco 56a656 
  int ci, max_v_samp_factor;
darco 56a656 
  JDIMENSION MCU_rows;
darco 56a656
darco 56a656 
  /* We have to compute max_v_samp_factor ourselves,
darco 56a656 
   * because it hasn't been set yet in the destination
darco 56a656 
   * (and we don't want to use the source's value).
darco 56a656 
   */
darco 56a656 
  max_v_samp_factor = 1;
darco 56a656 
  for (ci = 0; ci < dstinfo->num_components; ci++) {
darco 56a656 
    int v_samp_factor = dstinfo->comp_info[ci].v_samp_factor;
darco 56a656 
    max_v_samp_factor = MAX(max_v_samp_factor, v_samp_factor);
darco 56a656 
  }
darco 56a656 
  MCU_rows = dstinfo->image_height / (max_v_samp_factor * DCTSIZE);
darco 56a656 
  if (MCU_rows > 0)		/* can't trim to 0 pixels */
darco 56a656 
    dstinfo->image_height = MCU_rows * (max_v_samp_factor * DCTSIZE);
darco 56a656 
}
darco 56a656
darco 56a656
darco 56a656 
/* Adjust output image parameters as needed.
darco 56a656 
 *
darco 56a656 
 * This must be called after jpeg_copy_critical_parameters()
darco 56a656 
 * and before jpeg_write_coefficients().
darco 56a656 
 *
darco 56a656 
 * The return value is the set of virtual coefficient arrays to be written
darco 56a656 
 * (either the ones allocated by jtransform_request_workspace, or the
darco 56a656 
 * original source data arrays).  The caller will need to pass this value
darco 56a656 
 * to jpeg_write_coefficients().
darco 56a656 
 */
darco 56a656
darco 56a656 
GLOBAL(jvirt_barray_ptr *)
darco 56a656 
jtransform_adjust_parameters (j_decompress_ptr srcinfo,
darco 56a656 
			      j_compress_ptr dstinfo,
darco 56a656 
			      jvirt_barray_ptr *src_coef_arrays,
darco 56a656 
			      jpeg_transform_info *info)
darco 56a656 
{
darco 56a656 
  /* If force-to-grayscale is requested, adjust destination parameters */
darco 56a656 
  if (info->force_grayscale) {
darco 56a656 
    /* We use jpeg_set_colorspace to make sure subsidiary settings get fixed
darco 56a656 
     * properly.  Among other things, the target h_samp_factor & v_samp_factor
darco 56a656 
     * will get set to 1, which typically won't match the source.
darco 56a656 
     * In fact we do this even if the source is already grayscale; that
darco 56a656 
     * provides an easy way of coercing a grayscale JPEG with funny sampling
darco 56a656 
     * factors to the customary 1,1.  (Some decoders fail on other factors.)
darco 56a656 
     */
darco 56a656 
    if ((dstinfo->jpeg_color_space == JCS_YCbCr &&
darco 56a656 
	 dstinfo->num_components == 3) ||
darco 56a656 
	(dstinfo->jpeg_color_space == JCS_GRAYSCALE &&
darco 56a656 
	 dstinfo->num_components == 1)) {
darco 56a656 
      /* We have to preserve the source's quantization table number. */
darco 56a656 
      int sv_quant_tbl_no = dstinfo->comp_info[0].quant_tbl_no;
darco 56a656 
      jpeg_set_colorspace(dstinfo, JCS_GRAYSCALE);
darco 56a656 
      dstinfo->comp_info[0].quant_tbl_no = sv_quant_tbl_no;
darco 56a656 
    } else {
darco 56a656 
      /* Sorry, can't do it */
darco 56a656 
      ERREXIT(dstinfo, JERR_CONVERSION_NOTIMPL);
darco 56a656 
    }
darco 56a656 
  }
darco 56a656
darco 56a656 
  /* Correct the destination's image dimensions etc if necessary */
darco 56a656 
  switch (info->transform) {
darco 56a656 
  case JXFORM_NONE:
darco 56a656 
    /* Nothing to do */
darco 56a656 
    break;
darco 56a656 
  case JXFORM_FLIP_H:
darco 56a656 
    if (info->trim)
darco 56a656 
      trim_right_edge(dstinfo);
darco 56a656 
    break;
darco 56a656 
  case JXFORM_FLIP_V:
darco 56a656 
    if (info->trim)
darco 56a656 
      trim_bottom_edge(dstinfo);
darco 56a656 
    break;
darco 56a656 
  case JXFORM_TRANSPOSE:
darco 56a656 
    transpose_critical_parameters(dstinfo);
darco 56a656 
    /* transpose does NOT have to trim anything */
darco 56a656 
    break;
darco 56a656 
  case JXFORM_TRANSVERSE:
darco 56a656 
    transpose_critical_parameters(dstinfo);
darco 56a656 
    if (info->trim) {
darco 56a656 
      trim_right_edge(dstinfo);
darco 56a656 
      trim_bottom_edge(dstinfo);
darco 56a656 
    }
darco 56a656 
    break;
darco 56a656 
  case JXFORM_ROT_90:
darco 56a656 
    transpose_critical_parameters(dstinfo);
darco 56a656 
    if (info->trim)
darco 56a656 
      trim_right_edge(dstinfo);
darco 56a656 
    break;
darco 56a656 
  case JXFORM_ROT_180:
darco 56a656 
    if (info->trim) {
darco 56a656 
      trim_right_edge(dstinfo);
darco 56a656 
      trim_bottom_edge(dstinfo);
darco 56a656 
    }
darco 56a656 
    break;
darco 56a656 
  case JXFORM_ROT_270:
darco 56a656 
    transpose_critical_parameters(dstinfo);
darco 56a656 
    if (info->trim)
darco 56a656 
      trim_bottom_edge(dstinfo);
darco 56a656 
    break;
darco 56a656 
  }
darco 56a656
darco 56a656 
  /* Return the appropriate output data set */
darco 56a656 
  if (info->workspace_coef_arrays != NULL)
darco 56a656 
    return info->workspace_coef_arrays;
darco 56a656 
  return src_coef_arrays;
darco 56a656 
}
darco 56a656
darco 56a656
darco 56a656 
/* Execute the actual transformation, if any.
darco 56a656 
 *
darco 56a656 
 * This must be called *after* jpeg_write_coefficients, because it depends
darco 56a656 
 * on jpeg_write_coefficients to have computed subsidiary values such as
darco 56a656 
 * the per-component width and height fields in the destination object.
darco 56a656 
 *
darco 56a656 
 * Note that some transformations will modify the source data arrays!
darco 56a656 
 */
darco 56a656
darco 56a656 
GLOBAL(void)
darco 56a656 
jtransform_execute_transformation (j_decompress_ptr srcinfo,
darco 56a656 
				   j_compress_ptr dstinfo,
darco 56a656 
				   jvirt_barray_ptr *src_coef_arrays,
darco 56a656 
				   jpeg_transform_info *info)
darco 56a656 
{
darco 56a656 
  jvirt_barray_ptr *dst_coef_arrays = info->workspace_coef_arrays;
darco 56a656
darco 56a656 
  switch (info->transform) {
darco 56a656 
  case JXFORM_NONE:
darco 56a656 
    break;
darco 56a656 
  case JXFORM_FLIP_H:
darco 56a656 
    do_flip_h(srcinfo, dstinfo, src_coef_arrays);
darco 56a656 
    break;
darco 56a656 
  case JXFORM_FLIP_V:
darco 56a656 
    do_flip_v(srcinfo, dstinfo, src_coef_arrays, dst_coef_arrays);
darco 56a656 
    break;
darco 56a656 
  case JXFORM_TRANSPOSE:
darco 56a656 
    do_transpose(srcinfo, dstinfo, src_coef_arrays, dst_coef_arrays);
darco 56a656 
    break;
darco 56a656 
  case JXFORM_TRANSVERSE:
darco 56a656 
    do_transverse(srcinfo, dstinfo, src_coef_arrays, dst_coef_arrays);
darco 56a656 
    break;
darco 56a656 
  case JXFORM_ROT_90:
darco 56a656 
    do_rot_90(srcinfo, dstinfo, src_coef_arrays, dst_coef_arrays);
darco 56a656 
    break;
darco 56a656 
  case JXFORM_ROT_180:
darco 56a656 
    do_rot_180(srcinfo, dstinfo, src_coef_arrays, dst_coef_arrays);
darco 56a656 
    break;
darco 56a656 
  case JXFORM_ROT_270:
darco 56a656 
    do_rot_270(srcinfo, dstinfo, src_coef_arrays, dst_coef_arrays);
darco 56a656 
    break;
darco 56a656 
  }
darco 56a656 
}
darco 56a656
darco 56a656 
#endif /* TRANSFORMS_SUPPORTED */
darco 56a656
darco 56a656
darco 56a656 
/* Setup decompression object to save desired markers in memory.
darco 56a656 
 * This must be called before jpeg_read_header() to have the desired effect.
darco 56a656 
 */
darco 56a656
darco 56a656 
GLOBAL(void)
darco 56a656 
jcopy_markers_setup (j_decompress_ptr srcinfo, JCOPY_OPTION option)
darco 56a656 
{
darco 56a656 
#ifdef SAVE_MARKERS_SUPPORTED
darco 56a656 
  int m;
darco 56a656
darco 56a656 
  /* Save comments except under NONE option */
darco 56a656 
  if (option != JCOPYOPT_NONE) {
darco 56a656 
    jpeg_save_markers(srcinfo, JPEG_COM, 0xFFFF);
darco 56a656 
  }
darco 56a656 
  /* Save all types of APPn markers iff ALL option */
darco 56a656 
  if (option == JCOPYOPT_ALL) {
darco 56a656 
    for (m = 0; m < 16; m++)
darco 56a656 
      jpeg_save_markers(srcinfo, JPEG_APP0 + m, 0xFFFF);
darco 56a656 
  }
darco 56a656 
#endif /* SAVE_MARKERS_SUPPORTED */
darco 56a656 
}
darco 56a656
darco 56a656 
/* Copy markers saved in the given source object to the destination object.
darco 56a656 
 * This should be called just after jpeg_start_compress() or
darco 56a656 
 * jpeg_write_coefficients().
darco 56a656 
 * Note that those routines will have written the SOI, and also the
darco 56a656 
 * JFIF APP0 or Adobe APP14 markers if selected.
darco 56a656 
 */
darco 56a656
darco 56a656 
GLOBAL(void)
darco 56a656 
jcopy_markers_execute (j_decompress_ptr srcinfo, j_compress_ptr dstinfo,
darco 56a656 
		       JCOPY_OPTION option)
darco 56a656 
{
darco 56a656 
  jpeg_saved_marker_ptr marker;
darco 56a656
darco 56a656 
  /* In the current implementation, we don't actually need to examine the
darco 56a656 
   * option flag here; we just copy everything that got saved.
darco 56a656 
   * But to avoid confusion, we do not output JFIF and Adobe APP14 markers
darco 56a656 
   * if the encoder library already wrote one.
darco 56a656 
   */
darco 56a656 
  for (marker = srcinfo->marker_list; marker != NULL; marker = marker->next) {
darco 56a656 
    if (dstinfo->write_JFIF_header &&
darco 56a656 
	marker->marker == JPEG_APP0 &&
darco 56a656 
	marker->data_length >= 5 &&
darco 56a656 
	GETJOCTET(marker->data[0]) == 0x4A &&
darco 56a656 
	GETJOCTET(marker->data[1]) == 0x46 &&
darco 56a656 
	GETJOCTET(marker->data[2]) == 0x49 &&
darco 56a656 
	GETJOCTET(marker->data[3]) == 0x46 &&
darco 56a656 
	GETJOCTET(marker->data[4]) == 0)
darco 56a656 
      continue;			/* reject duplicate JFIF */
darco 56a656 
    if (dstinfo->write_Adobe_marker &&
darco 56a656 
	marker->marker == JPEG_APP0+14 &&
darco 56a656 
	marker->data_length >= 5 &&
darco 56a656 
	GETJOCTET(marker->data[0]) == 0x41 &&
darco 56a656 
	GETJOCTET(marker->data[1]) == 0x64 &&
darco 56a656 
	GETJOCTET(marker->data[2]) == 0x6F &&
darco 56a656 
	GETJOCTET(marker->data[3]) == 0x62 &&
darco 56a656 
	GETJOCTET(marker->data[4]) == 0x65)
darco 56a656 
      continue;			/* reject duplicate Adobe */
darco 56a656 
#ifdef NEED_FAR_POINTERS
darco 56a656 
    /* We could use jpeg_write_marker if the data weren't FAR... */
darco 56a656 
    {
darco 56a656 
      unsigned int i;
darco 56a656 
      jpeg_write_m_header(dstinfo, marker->marker, marker->data_length);
darco 56a656 
      for (i = 0; i < marker->data_length; i++)
darco 56a656 
	jpeg_write_m_byte(dstinfo, marker->data[i]);
darco 56a656 
    }
darco 56a656 
#else
darco 56a656 
    jpeg_write_marker(dstinfo, marker->marker,
darco 56a656 
		      marker->data, marker->data_length);
darco 56a656 
#endif
darco 56a656 
  }
darco 56a656 
}

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