211 lines
6.1 KiB
C
211 lines
6.1 KiB
C
/*
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* jdmcu.c
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*
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* Copyright (C) 1991, 1992, 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 MCU disassembly and IDCT control routines.
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* These routines are invoked via the disassemble_MCU, reverse_DCT, and
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* disassemble_init/term methods.
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*/
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#include "jinclude.h"
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/*
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* Fetch one MCU row from entropy_decode, build coefficient array.
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* This version is used for noninterleaved (single-component) scans.
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*/
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METHODDEF void
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disassemble_noninterleaved_MCU (decompress_info_ptr cinfo,
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JBLOCKIMAGE image_data)
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{
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JBLOCKROW MCU_data[1];
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long mcuindex;
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/* this is pretty easy since there is one component and one block per MCU */
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/* Pre-zero the target area to speed up entropy decoder */
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/* (we assume wholesale zeroing is faster than retail) */
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jzero_far((void FAR *) image_data[0][0],
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(size_t) (cinfo->MCUs_per_row * SIZEOF(JBLOCK)));
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for (mcuindex = 0; mcuindex < cinfo->MCUs_per_row; mcuindex++) {
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/* Point to the proper spot in the image array for this MCU */
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MCU_data[0] = image_data[0][0] + mcuindex;
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/* Fetch the coefficient data */
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(*cinfo->methods->entropy_decode) (cinfo, MCU_data);
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}
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}
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/*
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* Fetch one MCU row from entropy_decode, build coefficient array.
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* This version is used for interleaved (multi-component) scans.
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*/
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METHODDEF void
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disassemble_interleaved_MCU (decompress_info_ptr cinfo,
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JBLOCKIMAGE image_data)
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{
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JBLOCKROW MCU_data[MAX_BLOCKS_IN_MCU];
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long mcuindex;
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short blkn, ci, xpos, ypos;
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jpeg_component_info * compptr;
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JBLOCKROW image_ptr;
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/* Pre-zero the target area to speed up entropy decoder */
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/* (we assume wholesale zeroing is faster than retail) */
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for (ci = 0; ci < cinfo->comps_in_scan; ci++) {
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compptr = cinfo->cur_comp_info[ci];
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for (ypos = 0; ypos < compptr->MCU_height; ypos++) {
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jzero_far((void FAR *) image_data[ci][ypos],
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(size_t) (cinfo->MCUs_per_row * compptr->MCU_width * SIZEOF(JBLOCK)));
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}
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}
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for (mcuindex = 0; mcuindex < cinfo->MCUs_per_row; mcuindex++) {
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/* Point to the proper spots in the image array for this MCU */
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blkn = 0;
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for (ci = 0; ci < cinfo->comps_in_scan; ci++) {
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compptr = cinfo->cur_comp_info[ci];
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for (ypos = 0; ypos < compptr->MCU_height; ypos++) {
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image_ptr = image_data[ci][ypos] + (mcuindex * compptr->MCU_width);
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for (xpos = 0; xpos < compptr->MCU_width; xpos++) {
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MCU_data[blkn] = image_ptr;
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image_ptr++;
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blkn++;
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}
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}
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}
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/* Fetch the coefficient data */
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(*cinfo->methods->entropy_decode) (cinfo, MCU_data);
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}
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}
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/*
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* Perform inverse DCT on each block in an MCU row's worth of data;
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* output the results into a sample array starting at row start_row.
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* NB: start_row can only be nonzero when dealing with a single-component
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* scan; otherwise we'd have to pass different offsets for different
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* components, since the heights of interleaved MCU rows can vary.
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* But the pipeline controller logic is such that this is not necessary.
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*/
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METHODDEF void
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reverse_DCT (decompress_info_ptr cinfo,
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JBLOCKIMAGE coeff_data, JSAMPIMAGE output_data, int start_row)
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{
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DCTBLOCK block;
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JBLOCKROW browptr;
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JSAMPARRAY srowptr;
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long blocksperrow, bi;
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short numrows, ri;
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short ci;
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for (ci = 0; ci < cinfo->comps_in_scan; ci++) {
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/* calculate size of an MCU row in this component */
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blocksperrow = cinfo->cur_comp_info[ci]->downsampled_width / DCTSIZE;
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numrows = cinfo->cur_comp_info[ci]->MCU_height;
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/* iterate through all blocks in MCU row */
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for (ri = 0; ri < numrows; ri++) {
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browptr = coeff_data[ci][ri];
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srowptr = output_data[ci] + (ri * DCTSIZE + start_row);
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for (bi = 0; bi < blocksperrow; bi++) {
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/* copy the data into a local DCTBLOCK. This allows for change of
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* representation (if DCTELEM != JCOEF). On 80x86 machines it also
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* brings the data back from FAR storage to NEAR storage.
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*/
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{ register JCOEFPTR elemptr = browptr[bi];
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register DCTELEM *localblkptr = block;
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register int elem = DCTSIZE2;
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while (--elem >= 0)
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*localblkptr++ = (DCTELEM) *elemptr++;
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}
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j_rev_dct(block); /* perform inverse DCT */
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/* Output the data into the sample array.
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* Note change from signed to unsigned representation:
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* DCT calculation works with values +-CENTERJSAMPLE,
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* but sample arrays always hold 0..MAXJSAMPLE.
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* We have to do range-limiting because of quantization errors in the
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* DCT/IDCT phase. We use the sample_range_limit[] table to do this
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* quickly; the CENTERJSAMPLE offset is folded into table indexing.
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*/
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{ register JSAMPROW elemptr;
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register DCTELEM *localblkptr = block;
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register JSAMPLE *range_limit = cinfo->sample_range_limit +
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CENTERJSAMPLE;
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#if DCTSIZE != 8
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register int elemc;
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#endif
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register int elemr;
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for (elemr = 0; elemr < DCTSIZE; elemr++) {
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elemptr = srowptr[elemr] + (bi * DCTSIZE);
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#if DCTSIZE == 8 /* unroll the inner loop */
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*elemptr++ = range_limit[*localblkptr++];
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*elemptr++ = range_limit[*localblkptr++];
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*elemptr++ = range_limit[*localblkptr++];
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*elemptr++ = range_limit[*localblkptr++];
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*elemptr++ = range_limit[*localblkptr++];
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*elemptr++ = range_limit[*localblkptr++];
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*elemptr++ = range_limit[*localblkptr++];
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*elemptr++ = range_limit[*localblkptr++];
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#else
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for (elemc = DCTSIZE; elemc > 0; elemc--) {
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*elemptr++ = range_limit[*localblkptr++];
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}
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#endif
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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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* Initialize for processing a scan.
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*/
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METHODDEF void
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disassemble_init (decompress_info_ptr cinfo)
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{
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/* no work for now */
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}
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/*
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* Clean up after a scan.
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*/
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METHODDEF void
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disassemble_term (decompress_info_ptr cinfo)
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{
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/* no work for now */
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}
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/*
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* The method selection routine for MCU disassembly.
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*/
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GLOBAL void
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jseldmcu (decompress_info_ptr cinfo)
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{
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if (cinfo->comps_in_scan == 1)
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cinfo->methods->disassemble_MCU = disassemble_noninterleaved_MCU;
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else
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cinfo->methods->disassemble_MCU = disassemble_interleaved_MCU;
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cinfo->methods->reverse_DCT = reverse_DCT;
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cinfo->methods->disassemble_init = disassemble_init;
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cinfo->methods->disassemble_term = disassemble_term;
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}
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