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feature08b_assistants feature08f_assistants feature08g_assistants feature08h_assistants feature08j_assistants feature08k_assistants improve_tool_selection master
  1.   b1543838e25e9d61d9bce855ff2be2aad1cfca82
  2.   thirdparty
  3.   libjpeg-turbo
  4.   libjpeg-turbo-2.0.6
  5.   jdcoefct.c
Blob History Raw
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/*
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 * jdcoefct.c
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 *
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 * This file was part of the Independent JPEG Group's software:
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 * Copyright (C) 1994-1997, Thomas G. Lane.
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 * libjpeg-turbo Modifications:
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 * Copyright 2009 Pierre Ossman <ossman@cendio.se> for Cendio AB
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 * Copyright (C) 2010, 2015-2016, D. R. Commander.
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 * Copyright (C) 2015, 2020, Google, Inc.
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 * For conditions of distribution and use, see the accompanying README.ijg
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 * file.
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 *
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 * This file contains the coefficient buffer controller for decompression.
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 * This controller is the top level of the JPEG decompressor proper.
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 * The coefficient buffer lies between entropy decoding and inverse-DCT steps.
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 *
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 * In buffered-image mode, this controller is the interface between
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 * input-oriented processing and output-oriented processing.
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 * Also, the input side (only) is used when reading a file for transcoding.
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 */
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#include "jinclude.h"
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#include "jdcoefct.h"
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#include "jpegcomp.h"
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/* Forward declarations */
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METHODDEF(int) decompress_onepass(j_decompress_ptr cinfo,
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                                  JSAMPIMAGE output_buf);
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#ifdef D_MULTISCAN_FILES_SUPPORTED
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METHODDEF(int) decompress_data(j_decompress_ptr cinfo, JSAMPIMAGE output_buf);
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#endif
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#ifdef BLOCK_SMOOTHING_SUPPORTED
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LOCAL(boolean) smoothing_ok(j_decompress_ptr cinfo);
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METHODDEF(int) decompress_smooth_data(j_decompress_ptr cinfo,
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                                      JSAMPIMAGE output_buf);
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#endif
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/*
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 * Initialize for an input processing pass.
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 */
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METHODDEF(void)
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start_input_pass(j_decompress_ptr cinfo)
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{
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  cinfo->input_iMCU_row = 0;
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  start_iMCU_row(cinfo);
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}
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/*
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 * Initialize for an output processing pass.
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 */
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METHODDEF(void)
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start_output_pass(j_decompress_ptr cinfo)
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{
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#ifdef BLOCK_SMOOTHING_SUPPORTED
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  my_coef_ptr coef = (my_coef_ptr)cinfo->coef;
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  /* If multipass, check to see whether to use block smoothing on this pass */
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  if (coef->pub.coef_arrays != NULL) {
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    if (cinfo->do_block_smoothing && smoothing_ok(cinfo))
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      coef->pub.decompress_data = decompress_smooth_data;
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    else
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      coef->pub.decompress_data = decompress_data;
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  }
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#endif
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  cinfo->output_iMCU_row = 0;
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}
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/*
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 * Decompress and return some data in the single-pass case.
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 * Always attempts to emit one fully interleaved MCU row ("iMCU" row).
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 * Input and output must run in lockstep since we have only a one-MCU buffer.
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 * Return value is JPEG_ROW_COMPLETED, JPEG_SCAN_COMPLETED, or JPEG_SUSPENDED.
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 *
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 * NB: output_buf contains a plane for each component in image,
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 * which we index according to the component's SOF position.
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 */
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METHODDEF(int)
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decompress_onepass(j_decompress_ptr cinfo, JSAMPIMAGE output_buf)
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{
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  my_coef_ptr coef = (my_coef_ptr)cinfo->coef;
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  JDIMENSION MCU_col_num;       /* index of current MCU within row */
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  JDIMENSION last_MCU_col = cinfo->MCUs_per_row - 1;
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  JDIMENSION last_iMCU_row = cinfo->total_iMCU_rows - 1;
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  int blkn, ci, xindex, yindex, yoffset, useful_width;
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  JSAMPARRAY output_ptr;
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  JDIMENSION start_col, output_col;
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  jpeg_component_info *compptr;
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  inverse_DCT_method_ptr inverse_DCT;
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  /* Loop to process as much as one whole iMCU row */
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  for (yoffset = coef->MCU_vert_offset; yoffset < coef->MCU_rows_per_iMCU_row;
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       yoffset++) {
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    for (MCU_col_num = coef->MCU_ctr; MCU_col_num <= last_MCU_col;
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         MCU_col_num++) {
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      /* Try to fetch an MCU.  Entropy decoder expects buffer to be zeroed. */
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      jzero_far((void *)coef->MCU_buffer[0],
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                (size_t)(cinfo->blocks_in_MCU * sizeof(JBLOCK)));
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      if (!(*cinfo->entropy->decode_mcu) (cinfo, coef->MCU_buffer)) {
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        /* Suspension forced; update state counters and exit */
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        coef->MCU_vert_offset = yoffset;
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        coef->MCU_ctr = MCU_col_num;
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        return JPEG_SUSPENDED;
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      }
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      /* Only perform the IDCT on blocks that are contained within the desired
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       * cropping region.
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       */
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      if (MCU_col_num >= cinfo->master->first_iMCU_col &&
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          MCU_col_num <= cinfo->master->last_iMCU_col) {
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        /* Determine where data should go in output_buf and do the IDCT thing.
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         * We skip dummy blocks at the right and bottom edges (but blkn gets
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         * incremented past them!).  Note the inner loop relies on having
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         * allocated the MCU_buffer[] blocks sequentially.
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         */
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        blkn = 0;               /* index of current DCT block within MCU */
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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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          /* Don't bother to IDCT an uninteresting component. */
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          if (!compptr->component_needed) {
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            blkn += compptr->MCU_blocks;
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            continue;
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          }
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          inverse_DCT = cinfo->idct->inverse_DCT[compptr->component_index];
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          useful_width = (MCU_col_num < last_MCU_col) ?
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                         compptr->MCU_width : compptr->last_col_width;
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          output_ptr = output_buf[compptr->component_index] +
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                       yoffset * compptr->_DCT_scaled_size;
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          start_col = (MCU_col_num - cinfo->master->first_iMCU_col) *
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                      compptr->MCU_sample_width;
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          for (yindex = 0; yindex < compptr->MCU_height; yindex++) {
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            if (cinfo->input_iMCU_row < last_iMCU_row ||
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                yoffset + yindex < compptr->last_row_height) {
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              output_col = start_col;
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              for (xindex = 0; xindex < useful_width; xindex++) {
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                (*inverse_DCT) (cinfo, compptr,
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                                (JCOEFPTR)coef->MCU_buffer[blkn + xindex],
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                                output_ptr, output_col);
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                output_col += compptr->_DCT_scaled_size;
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              }
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            }
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            blkn += compptr->MCU_width;
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            output_ptr += compptr->_DCT_scaled_size;
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          }
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        }
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      }
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    }
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    /* Completed an MCU row, but perhaps not an iMCU row */
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    coef->MCU_ctr = 0;
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  }
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  /* Completed the iMCU row, advance counters for next one */
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  cinfo->output_iMCU_row++;
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  if (++(cinfo->input_iMCU_row) < cinfo->total_iMCU_rows) {
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    start_iMCU_row(cinfo);
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    return JPEG_ROW_COMPLETED;
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  }
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  /* Completed the scan */
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  (*cinfo->inputctl->finish_input_pass) (cinfo);
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  return JPEG_SCAN_COMPLETED;
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}
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/*
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 * Dummy consume-input routine for single-pass operation.
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 */
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METHODDEF(int)
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dummy_consume_data(j_decompress_ptr cinfo)
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{
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  return JPEG_SUSPENDED;        /* Always indicate nothing was done */
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}
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#ifdef D_MULTISCAN_FILES_SUPPORTED
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/*
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 * Consume input data and store it in the full-image coefficient buffer.
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 * We read as much as one fully interleaved MCU row ("iMCU" row) per call,
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 * ie, v_samp_factor block rows for each component in the scan.
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 * Return value is JPEG_ROW_COMPLETED, JPEG_SCAN_COMPLETED, or JPEG_SUSPENDED.
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 */
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METHODDEF(int)
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consume_data(j_decompress_ptr cinfo)
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{
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  my_coef_ptr coef = (my_coef_ptr)cinfo->coef;
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  JDIMENSION MCU_col_num;       /* index of current MCU within row */
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  int blkn, ci, xindex, yindex, yoffset;
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  JDIMENSION start_col;
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  JBLOCKARRAY buffer[MAX_COMPS_IN_SCAN];
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  JBLOCKROW buffer_ptr;
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  jpeg_component_info *compptr;
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  /* Align the virtual buffers for the components used in this scan. */
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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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    buffer[ci] = (*cinfo->mem->access_virt_barray)
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      ((j_common_ptr)cinfo, coef->whole_image[compptr->component_index],
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       cinfo->input_iMCU_row * compptr->v_samp_factor,
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       (JDIMENSION)compptr->v_samp_factor, TRUE);
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    /* Note: entropy decoder expects buffer to be zeroed,
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     * but this is handled automatically by the memory manager
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     * because we requested a pre-zeroed array.
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     */
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  }
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  /* Loop to process one whole iMCU row */
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  for (yoffset = coef->MCU_vert_offset; yoffset < coef->MCU_rows_per_iMCU_row;
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       yoffset++) {
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    for (MCU_col_num = coef->MCU_ctr; MCU_col_num < cinfo->MCUs_per_row;
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         MCU_col_num++) {
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      /* Construct list of pointers to DCT blocks belonging to this MCU */
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      blkn = 0;                 /* index of current DCT block within MCU */
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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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        start_col = MCU_col_num * compptr->MCU_width;
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        for (yindex = 0; yindex < compptr->MCU_height; yindex++) {
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          buffer_ptr = buffer[ci][yindex + yoffset] + start_col;
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          for (xindex = 0; xindex < compptr->MCU_width; xindex++) {
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            coef->MCU_buffer[blkn++] = buffer_ptr++;
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          }
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        }
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      }
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      /* Try to fetch the MCU. */
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      if (!(*cinfo->entropy->decode_mcu) (cinfo, coef->MCU_buffer)) {
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        /* Suspension forced; update state counters and exit */
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        coef->MCU_vert_offset = yoffset;
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        coef->MCU_ctr = MCU_col_num;
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        return JPEG_SUSPENDED;
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      }
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    }
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    /* Completed an MCU row, but perhaps not an iMCU row */
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    coef->MCU_ctr = 0;
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  }
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  /* Completed the iMCU row, advance counters for next one */
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  if (++(cinfo->input_iMCU_row) < cinfo->total_iMCU_rows) {
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    start_iMCU_row(cinfo);
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    return JPEG_ROW_COMPLETED;
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  }
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  /* Completed the scan */
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  (*cinfo->inputctl->finish_input_pass) (cinfo);
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  return JPEG_SCAN_COMPLETED;
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}
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/*
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 * Decompress and return some data in the multi-pass case.
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 * Always attempts to emit one fully interleaved MCU row ("iMCU" row).
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 * Return value is JPEG_ROW_COMPLETED, JPEG_SCAN_COMPLETED, or JPEG_SUSPENDED.
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 *
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 * NB: output_buf contains a plane for each component in image.
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 */
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METHODDEF(int)
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decompress_data(j_decompress_ptr cinfo, JSAMPIMAGE output_buf)
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{
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  my_coef_ptr coef = (my_coef_ptr)cinfo->coef;
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  JDIMENSION last_iMCU_row = cinfo->total_iMCU_rows - 1;
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  JDIMENSION block_num;
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  int ci, block_row, block_rows;
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  JBLOCKARRAY buffer;
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  JBLOCKROW buffer_ptr;
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  JSAMPARRAY output_ptr;
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  JDIMENSION output_col;
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  jpeg_component_info *compptr;
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  inverse_DCT_method_ptr inverse_DCT;
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  /* Force some input to be done if we are getting ahead of the input. */
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  while (cinfo->input_scan_number < cinfo->output_scan_number ||
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         (cinfo->input_scan_number == cinfo->output_scan_number &&
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          cinfo->input_iMCU_row <= cinfo->output_iMCU_row)) {
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    if ((*cinfo->inputctl->consume_input) (cinfo) == JPEG_SUSPENDED)
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      return JPEG_SUSPENDED;
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  }
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  /* OK, output from the virtual arrays. */
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  for (ci = 0, compptr = cinfo->comp_info; ci < cinfo->num_components;
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       ci++, compptr++) {
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    /* Don't bother to IDCT an uninteresting component. */
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    if (!compptr->component_needed)
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      continue;
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    /* Align the virtual buffer for this component. */
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    buffer = (*cinfo->mem->access_virt_barray)
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      ((j_common_ptr)cinfo, coef->whole_image[ci],
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       cinfo->output_iMCU_row * compptr->v_samp_factor,
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       (JDIMENSION)compptr->v_samp_factor, FALSE);
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    /* Count non-dummy DCT block rows in this iMCU row. */
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    if (cinfo->output_iMCU_row < last_iMCU_row)
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      block_rows = compptr->v_samp_factor;
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    else {
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      /* NB: can't use last_row_height here; it is input-side-dependent! */
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      block_rows = (int)(compptr->height_in_blocks % compptr->v_samp_factor);
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      if (block_rows == 0) block_rows = compptr->v_samp_factor;
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    }
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    inverse_DCT = cinfo->idct->inverse_DCT[ci];
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    output_ptr = output_buf[ci];
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    /* Loop over all DCT blocks to be processed. */
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    for (block_row = 0; block_row < block_rows; block_row++) {
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      buffer_ptr = buffer[block_row] + cinfo->master->first_MCU_col[ci];
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      output_col = 0;
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      for (block_num = cinfo->master->first_MCU_col[ci];
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           block_num <= cinfo->master->last_MCU_col[ci]; block_num++) {
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        (*inverse_DCT) (cinfo, compptr, (JCOEFPTR)buffer_ptr, output_ptr,
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                        output_col);
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        buffer_ptr++;
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        output_col += compptr->_DCT_scaled_size;
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      }
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      output_ptr += compptr->_DCT_scaled_size;
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    }
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  }
kusano 7d535a
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  if (++(cinfo->output_iMCU_row) < cinfo->total_iMCU_rows)
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    return JPEG_ROW_COMPLETED;
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  return JPEG_SCAN_COMPLETED;
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}
kusano 7d535a
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#endif /* D_MULTISCAN_FILES_SUPPORTED */
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#ifdef BLOCK_SMOOTHING_SUPPORTED
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/*
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 * This code applies interblock smoothing as described by section K.8
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 * of the JPEG standard: the first 5 AC coefficients are estimated from
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 * the DC values of a DCT block and its 8 neighboring blocks.
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 * We apply smoothing only for progressive JPEG decoding, and only if
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 * the coefficients it can estimate are not yet known to full precision.
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 */
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/* Natural-order array positions of the first 5 zigzag-order coefficients */
kusano 7d535a 
#define Q01_POS  1
kusano 7d535a 
#define Q10_POS  8
kusano 7d535a 
#define Q20_POS  16
kusano 7d535a 
#define Q11_POS  9
kusano 7d535a 
#define Q02_POS  2
kusano 7d535a
kusano 7d535a 
/*
kusano 7d535a 
 * Determine whether block smoothing is applicable and safe.
kusano 7d535a 
 * We also latch the current states of the coef_bits[] entries for the
kusano 7d535a 
 * AC coefficients; otherwise, if the input side of the decompressor
kusano 7d535a 
 * advances into a new scan, we might think the coefficients are known
kusano 7d535a 
 * more accurately than they really are.
kusano 7d535a 
 */
kusano 7d535a
kusano 7d535a 
LOCAL(boolean)
shun-iwasawa 82a8f5 
smoothing_ok(j_decompress_ptr cinfo)
kusano 7d535a 
{
shun-iwasawa 82a8f5 
  my_coef_ptr coef = (my_coef_ptr)cinfo->coef;
kusano 7d535a 
  boolean smoothing_useful = FALSE;
kusano 7d535a 
  int ci, coefi;
kusano 7d535a 
  jpeg_component_info *compptr;
shun-iwasawa 82a8f5 
  JQUANT_TBL *qtable;
shun-iwasawa 82a8f5 
  int *coef_bits;
shun-iwasawa 82a8f5 
  int *coef_bits_latch;
kusano 7d535a
shun-iwasawa 82a8f5 
  if (!cinfo->progressive_mode || cinfo->coef_bits == NULL)
kusano 7d535a 
    return FALSE;
kusano 7d535a
kusano 7d535a 
  /* Allocate latch area if not already done */
kusano 7d535a 
  if (coef->coef_bits_latch == NULL)
kusano 7d535a 
    coef->coef_bits_latch = (int *)
shun-iwasawa 82a8f5 
      (*cinfo->mem->alloc_small) ((j_common_ptr)cinfo, JPOOL_IMAGE,
shun-iwasawa 82a8f5 
                                  cinfo->num_components *
shun-iwasawa 82a8f5 
                                  (SAVED_COEFS * sizeof(int)));
kusano 7d535a 
  coef_bits_latch = coef->coef_bits_latch;
kusano 7d535a
kusano 7d535a 
  for (ci = 0, compptr = cinfo->comp_info; ci < cinfo->num_components;
kusano 7d535a 
       ci++, compptr++) {
kusano 7d535a 
    /* All components' quantization values must already be latched. */
kusano 7d535a 
    if ((qtable = compptr->quant_table) == NULL)
kusano 7d535a 
      return FALSE;
kusano 7d535a 
    /* Verify DC & first 5 AC quantizers are nonzero to avoid zero-divide. */
kusano 7d535a 
    if (qtable->quantval[0] == 0 ||
shun-iwasawa 82a8f5 
        qtable->quantval[Q01_POS] == 0 ||
shun-iwasawa 82a8f5 
        qtable->quantval[Q10_POS] == 0 ||
shun-iwasawa 82a8f5 
        qtable->quantval[Q20_POS] == 0 ||
shun-iwasawa 82a8f5 
        qtable->quantval[Q11_POS] == 0 ||
shun-iwasawa 82a8f5 
        qtable->quantval[Q02_POS] == 0)
kusano 7d535a 
      return FALSE;
kusano 7d535a 
    /* DC values must be at least partly known for all components. */
kusano 7d535a 
    coef_bits = cinfo->coef_bits[ci];
kusano 7d535a 
    if (coef_bits[0] < 0)
kusano 7d535a 
      return FALSE;
kusano 7d535a 
    /* Block smoothing is helpful if some AC coefficients remain inaccurate. */
kusano 7d535a 
    for (coefi = 1; coefi <= 5; coefi++) {
kusano 7d535a 
      coef_bits_latch[coefi] = coef_bits[coefi];
kusano 7d535a 
      if (coef_bits[coefi] != 0)
shun-iwasawa 82a8f5 
        smoothing_useful = TRUE;
kusano 7d535a 
    }
kusano 7d535a 
    coef_bits_latch += SAVED_COEFS;
kusano 7d535a 
  }
kusano 7d535a
kusano 7d535a 
  return smoothing_useful;
kusano 7d535a 
}
kusano 7d535a
kusano 7d535a
kusano 7d535a 
/*
kusano 7d535a 
 * Variant of decompress_data for use when doing block smoothing.
kusano 7d535a 
 */
kusano 7d535a
kusano 7d535a 
METHODDEF(int)
shun-iwasawa 82a8f5 
decompress_smooth_data(j_decompress_ptr cinfo, JSAMPIMAGE output_buf)
kusano 7d535a 
{
shun-iwasawa 82a8f5 
  my_coef_ptr coef = (my_coef_ptr)cinfo->coef;
kusano 7d535a 
  JDIMENSION last_iMCU_row = cinfo->total_iMCU_rows - 1;
kusano 7d535a 
  JDIMENSION block_num, last_block_column;
kusano 7d535a 
  int ci, block_row, block_rows, access_rows;
kusano 7d535a 
  JBLOCKARRAY buffer;
kusano 7d535a 
  JBLOCKROW buffer_ptr, prev_block_row, next_block_row;
kusano 7d535a 
  JSAMPARRAY output_ptr;
kusano 7d535a 
  JDIMENSION output_col;
kusano 7d535a 
  jpeg_component_info *compptr;
kusano 7d535a 
  inverse_DCT_method_ptr inverse_DCT;
kusano 7d535a 
  boolean first_row, last_row;
shun-iwasawa 82a8f5 
  JCOEF *workspace;
kusano 7d535a 
  int *coef_bits;
kusano 7d535a 
  JQUANT_TBL *quanttbl;
shun-iwasawa 82a8f5 
  JLONG Q00, Q01, Q02, Q10, Q11, Q20, num;
shun-iwasawa 82a8f5 
  int DC1, DC2, DC3, DC4, DC5, DC6, DC7, DC8, DC9;
kusano 7d535a 
  int Al, pred;
kusano 7d535a
shun-iwasawa 82a8f5 
  /* Keep a local variable to avoid looking it up more than once */
shun-iwasawa 82a8f5 
  workspace = coef->workspace;
shun-iwasawa 82a8f5
kusano 7d535a 
  /* Force some input to be done if we are getting ahead of the input. */
kusano 7d535a 
  while (cinfo->input_scan_number <= cinfo->output_scan_number &&
shun-iwasawa 82a8f5 
         !cinfo->inputctl->eoi_reached) {
kusano 7d535a 
    if (cinfo->input_scan_number == cinfo->output_scan_number) {
kusano 7d535a 
      /* If input is working on current scan, we ordinarily want it to
kusano 7d535a 
       * have completed the current row.  But if input scan is DC,
kusano 7d535a 
       * we want it to keep one row ahead so that next block row's DC
kusano 7d535a 
       * values are up to date.
kusano 7d535a 
       */
kusano 7d535a 
      JDIMENSION delta = (cinfo->Ss == 0) ? 1 : 0;
shun-iwasawa 82a8f5 
      if (cinfo->input_iMCU_row > cinfo->output_iMCU_row + delta)
shun-iwasawa 82a8f5 
        break;
kusano 7d535a 
    }
shun-iwasawa 82a8f5 
    if ((*cinfo->inputctl->consume_input) (cinfo) == JPEG_SUSPENDED)
kusano 7d535a 
      return JPEG_SUSPENDED;
kusano 7d535a 
  }
kusano 7d535a
kusano 7d535a 
  /* OK, output from the virtual arrays. */
kusano 7d535a 
  for (ci = 0, compptr = cinfo->comp_info; ci < cinfo->num_components;
kusano 7d535a 
       ci++, compptr++) {
kusano 7d535a 
    /* Don't bother to IDCT an uninteresting component. */
shun-iwasawa 82a8f5 
    if (!compptr->component_needed)
kusano 7d535a 
      continue;
kusano 7d535a 
    /* Count non-dummy DCT block rows in this iMCU row. */
kusano 7d535a 
    if (cinfo->output_iMCU_row < last_iMCU_row) {
kusano 7d535a 
      block_rows = compptr->v_samp_factor;
kusano 7d535a 
      access_rows = block_rows * 2; /* this and next iMCU row */
kusano 7d535a 
      last_row = FALSE;
kusano 7d535a 
    } else {
kusano 7d535a 
      /* NB: can't use last_row_height here; it is input-side-dependent! */
shun-iwasawa 82a8f5 
      block_rows = (int)(compptr->height_in_blocks % compptr->v_samp_factor);
kusano 7d535a 
      if (block_rows == 0) block_rows = compptr->v_samp_factor;
kusano 7d535a 
      access_rows = block_rows; /* this iMCU row only */
kusano 7d535a 
      last_row = TRUE;
kusano 7d535a 
    }
kusano 7d535a 
    /* Align the virtual buffer for this component. */
kusano 7d535a 
    if (cinfo->output_iMCU_row > 0) {
kusano 7d535a 
      access_rows += compptr->v_samp_factor; /* prior iMCU row too */
kusano 7d535a 
      buffer = (*cinfo->mem->access_virt_barray)
shun-iwasawa 82a8f5 
        ((j_common_ptr)cinfo, coef->whole_image[ci],
shun-iwasawa 82a8f5 
         (cinfo->output_iMCU_row - 1) * compptr->v_samp_factor,
shun-iwasawa 82a8f5 
         (JDIMENSION)access_rows, FALSE);
shun-iwasawa 82a8f5 
      buffer += compptr->v_samp_factor; /* point to current iMCU row */
kusano 7d535a 
      first_row = FALSE;
kusano 7d535a 
    } else {
kusano 7d535a 
      buffer = (*cinfo->mem->access_virt_barray)
shun-iwasawa 82a8f5 
        ((j_common_ptr)cinfo, coef->whole_image[ci],
shun-iwasawa 82a8f5 
         (JDIMENSION)0, (JDIMENSION)access_rows, FALSE);
kusano 7d535a 
      first_row = TRUE;
kusano 7d535a 
    }
kusano 7d535a 
    /* Fetch component-dependent info */
kusano 7d535a 
    coef_bits = coef->coef_bits_latch + (ci * SAVED_COEFS);
kusano 7d535a 
    quanttbl = compptr->quant_table;
kusano 7d535a 
    Q00 = quanttbl->quantval[0];
kusano 7d535a 
    Q01 = quanttbl->quantval[Q01_POS];
kusano 7d535a 
    Q10 = quanttbl->quantval[Q10_POS];
kusano 7d535a 
    Q20 = quanttbl->quantval[Q20_POS];
kusano 7d535a 
    Q11 = quanttbl->quantval[Q11_POS];
kusano 7d535a 
    Q02 = quanttbl->quantval[Q02_POS];
kusano 7d535a 
    inverse_DCT = cinfo->idct->inverse_DCT[ci];
kusano 7d535a 
    output_ptr = output_buf[ci];
kusano 7d535a 
    /* Loop over all DCT blocks to be processed. */
kusano 7d535a 
    for (block_row = 0; block_row < block_rows; block_row++) {
shun-iwasawa 82a8f5 
      buffer_ptr = buffer[block_row] + cinfo->master->first_MCU_col[ci];
kusano 7d535a 
      if (first_row && block_row == 0)
shun-iwasawa 82a8f5 
        prev_block_row = buffer_ptr;
kusano 7d535a 
      else
shun-iwasawa 82a8f5 
        prev_block_row = buffer[block_row - 1] +
shun-iwasawa 82a8f5 
                         cinfo->master->first_MCU_col[ci];
shun-iwasawa 82a8f5 
      if (last_row && block_row == block_rows - 1)
shun-iwasawa 82a8f5 
        next_block_row = buffer_ptr;
kusano 7d535a 
      else
shun-iwasawa 82a8f5 
        next_block_row = buffer[block_row + 1] +
shun-iwasawa 82a8f5 
                         cinfo->master->first_MCU_col[ci];
kusano 7d535a 
      /* We fetch the surrounding DC values using a sliding-register approach.
kusano 7d535a 
       * Initialize all nine here so as to do the right thing on narrow pics.
kusano 7d535a 
       */
shun-iwasawa 82a8f5 
      DC1 = DC2 = DC3 = (int)prev_block_row[0][0];
shun-iwasawa 82a8f5 
      DC4 = DC5 = DC6 = (int)buffer_ptr[0][0];
shun-iwasawa 82a8f5 
      DC7 = DC8 = DC9 = (int)next_block_row[0][0];
kusano 7d535a 
      output_col = 0;
kusano 7d535a 
      last_block_column = compptr->width_in_blocks - 1;
shun-iwasawa 82a8f5 
      for (block_num = cinfo->master->first_MCU_col[ci];
shun-iwasawa 82a8f5 
           block_num <= cinfo->master->last_MCU_col[ci]; block_num++) {
shun-iwasawa 82a8f5 
        /* Fetch current DCT block into workspace so we can modify it. */
shun-iwasawa 82a8f5 
        jcopy_block_row(buffer_ptr, (JBLOCKROW)workspace, (JDIMENSION)1);
shun-iwasawa 82a8f5 
        /* Update DC values */
shun-iwasawa 82a8f5 
        if (block_num < last_block_column) {
shun-iwasawa 82a8f5 
          DC3 = (int)prev_block_row[1][0];
shun-iwasawa 82a8f5 
          DC6 = (int)buffer_ptr[1][0];
shun-iwasawa 82a8f5 
          DC9 = (int)next_block_row[1][0];
shun-iwasawa 82a8f5 
        }
shun-iwasawa 82a8f5 
        /* Compute coefficient estimates per K.8.
shun-iwasawa 82a8f5 
         * An estimate is applied only if coefficient is still zero,
shun-iwasawa 82a8f5 
         * and is not known to be fully accurate.
shun-iwasawa 82a8f5 
         */
shun-iwasawa 82a8f5 
        /* AC01 */
shun-iwasawa 82a8f5 
        if ((Al = coef_bits[1]) != 0 && workspace[1] == 0) {
shun-iwasawa 82a8f5 
          num = 36 * Q00 * (DC4 - DC6);
shun-iwasawa 82a8f5 
          if (num >= 0) {
shun-iwasawa 82a8f5 
            pred = (int)(((Q01 << 7) + num) / (Q01 << 8));
shun-iwasawa 82a8f5 
            if (Al > 0 && pred >= (1 << Al))
shun-iwasawa 82a8f5 
              pred = (1 << Al) - 1;
shun-iwasawa 82a8f5 
          } else {
shun-iwasawa 82a8f5 
            pred = (int)(((Q01 << 7) - num) / (Q01 << 8));
shun-iwasawa 82a8f5 
            if (Al > 0 && pred >= (1 << Al))
shun-iwasawa 82a8f5 
              pred = (1 << Al) - 1;
shun-iwasawa 82a8f5 
            pred = -pred;
shun-iwasawa 82a8f5 
          }
shun-iwasawa 82a8f5 
          workspace[1] = (JCOEF)pred;
shun-iwasawa 82a8f5 
        }
shun-iwasawa 82a8f5 
        /* AC10 */
shun-iwasawa 82a8f5 
        if ((Al = coef_bits[2]) != 0 && workspace[8] == 0) {
shun-iwasawa 82a8f5 
          num = 36 * Q00 * (DC2 - DC8);
shun-iwasawa 82a8f5 
          if (num >= 0) {
shun-iwasawa 82a8f5 
            pred = (int)(((Q10 << 7) + num) / (Q10 << 8));
shun-iwasawa 82a8f5 
            if (Al > 0 && pred >= (1 << Al))
shun-iwasawa 82a8f5 
              pred = (1 << Al) - 1;
shun-iwasawa 82a8f5 
          } else {
shun-iwasawa 82a8f5 
            pred = (int)(((Q10 << 7) - num) / (Q10 << 8));
shun-iwasawa 82a8f5 
            if (Al > 0 && pred >= (1 << Al))
shun-iwasawa 82a8f5 
              pred = (1 << Al) - 1;
shun-iwasawa 82a8f5 
            pred = -pred;
shun-iwasawa 82a8f5 
          }
shun-iwasawa 82a8f5 
          workspace[8] = (JCOEF)pred;
shun-iwasawa 82a8f5 
        }
shun-iwasawa 82a8f5 
        /* AC20 */
shun-iwasawa 82a8f5 
        if ((Al = coef_bits[3]) != 0 && workspace[16] == 0) {
shun-iwasawa 82a8f5 
          num = 9 * Q00 * (DC2 + DC8 - 2 * DC5);
shun-iwasawa 82a8f5 
          if (num >= 0) {
shun-iwasawa 82a8f5 
            pred = (int)(((Q20 << 7) + num) / (Q20 << 8));
shun-iwasawa 82a8f5 
            if (Al > 0 && pred >= (1 << Al))
shun-iwasawa 82a8f5 
              pred = (1 << Al) - 1;
shun-iwasawa 82a8f5 
          } else {
shun-iwasawa 82a8f5 
            pred = (int)(((Q20 << 7) - num) / (Q20 << 8));
shun-iwasawa 82a8f5 
            if (Al > 0 && pred >= (1 << Al))
shun-iwasawa 82a8f5 
              pred = (1 << Al) - 1;
shun-iwasawa 82a8f5 
            pred = -pred;
shun-iwasawa 82a8f5 
          }
shun-iwasawa 82a8f5 
          workspace[16] = (JCOEF)pred;
shun-iwasawa 82a8f5 
        }
shun-iwasawa 82a8f5 
        /* AC11 */
shun-iwasawa 82a8f5 
        if ((Al = coef_bits[4]) != 0 && workspace[9] == 0) {
shun-iwasawa 82a8f5 
          num = 5 * Q00 * (DC1 - DC3 - DC7 + DC9);
shun-iwasawa 82a8f5 
          if (num >= 0) {
shun-iwasawa 82a8f5 
            pred = (int)(((Q11 << 7) + num) / (Q11 << 8));
shun-iwasawa 82a8f5 
            if (Al > 0 && pred >= (1 << Al))
shun-iwasawa 82a8f5 
              pred = (1 << Al) - 1;
shun-iwasawa 82a8f5 
          } else {
shun-iwasawa 82a8f5 
            pred = (int)(((Q11 << 7) - num) / (Q11 << 8));
shun-iwasawa 82a8f5 
            if (Al > 0 && pred >= (1 << Al))
shun-iwasawa 82a8f5 
              pred = (1 << Al) - 1;
shun-iwasawa 82a8f5 
            pred = -pred;
shun-iwasawa 82a8f5 
          }
shun-iwasawa 82a8f5 
          workspace[9] = (JCOEF)pred;
shun-iwasawa 82a8f5 
        }
shun-iwasawa 82a8f5 
        /* AC02 */
shun-iwasawa 82a8f5 
        if ((Al = coef_bits[5]) != 0 && workspace[2] == 0) {
shun-iwasawa 82a8f5 
          num = 9 * Q00 * (DC4 + DC6 - 2 * DC5);
shun-iwasawa 82a8f5 
          if (num >= 0) {
shun-iwasawa 82a8f5 
            pred = (int)(((Q02 << 7) + num) / (Q02 << 8));
shun-iwasawa 82a8f5 
            if (Al > 0 && pred >= (1 << Al))
shun-iwasawa 82a8f5 
              pred = (1 << Al) - 1;
shun-iwasawa 82a8f5 
          } else {
shun-iwasawa 82a8f5 
            pred = (int)(((Q02 << 7) - num) / (Q02 << 8));
shun-iwasawa 82a8f5 
            if (Al > 0 && pred >= (1 << Al))
shun-iwasawa 82a8f5 
              pred = (1 << Al) - 1;
shun-iwasawa 82a8f5 
            pred = -pred;
shun-iwasawa 82a8f5 
          }
shun-iwasawa 82a8f5 
          workspace[2] = (JCOEF)pred;
shun-iwasawa 82a8f5 
        }
shun-iwasawa 82a8f5 
        /* OK, do the IDCT */
shun-iwasawa 82a8f5 
        (*inverse_DCT) (cinfo, compptr, (JCOEFPTR)workspace, output_ptr,
shun-iwasawa 82a8f5 
                        output_col);
shun-iwasawa 82a8f5 
        /* Advance for next column */
shun-iwasawa 82a8f5 
        DC1 = DC2;  DC2 = DC3;
shun-iwasawa 82a8f5 
        DC4 = DC5;  DC5 = DC6;
shun-iwasawa 82a8f5 
        DC7 = DC8;  DC8 = DC9;
shun-iwasawa 82a8f5 
        buffer_ptr++, prev_block_row++, next_block_row++;
shun-iwasawa 82a8f5 
        output_col += compptr->_DCT_scaled_size;
kusano 7d535a 
      }
shun-iwasawa 82a8f5 
      output_ptr += compptr->_DCT_scaled_size;
kusano 7d535a 
    }
kusano 7d535a 
  }
kusano 7d535a
kusano 7d535a 
  if (++(cinfo->output_iMCU_row) < cinfo->total_iMCU_rows)
kusano 7d535a 
    return JPEG_ROW_COMPLETED;
kusano 7d535a 
  return JPEG_SCAN_COMPLETED;
kusano 7d535a 
}
kusano 7d535a
kusano 7d535a 
#endif /* BLOCK_SMOOTHING_SUPPORTED */
kusano 7d535a
kusano 7d535a
kusano 7d535a 
/*
kusano 7d535a 
 * Initialize coefficient buffer controller.
kusano 7d535a 
 */
kusano 7d535a
kusano 7d535a 
GLOBAL(void)
shun-iwasawa 82a8f5 
jinit_d_coef_controller(j_decompress_ptr cinfo, boolean need_full_buffer)
kusano 7d535a 
{
kusano 7d535a 
  my_coef_ptr coef;
kusano 7d535a
kusano 7d535a 
  coef = (my_coef_ptr)
shun-iwasawa 82a8f5 
    (*cinfo->mem->alloc_small) ((j_common_ptr)cinfo, JPOOL_IMAGE,
shun-iwasawa 82a8f5 
                                sizeof(my_coef_controller));
shun-iwasawa 82a8f5 
  cinfo->coef = (struct jpeg_d_coef_controller *)coef;
kusano 7d535a 
  coef->pub.start_input_pass = start_input_pass;
kusano 7d535a 
  coef->pub.start_output_pass = start_output_pass;
kusano 7d535a 
#ifdef BLOCK_SMOOTHING_SUPPORTED
kusano 7d535a 
  coef->coef_bits_latch = NULL;
kusano 7d535a 
#endif
kusano 7d535a
kusano 7d535a 
  /* Create the coefficient buffer. */
kusano 7d535a 
  if (need_full_buffer) {
kusano 7d535a 
#ifdef D_MULTISCAN_FILES_SUPPORTED
kusano 7d535a 
    /* Allocate a full-image virtual array for each component, */
kusano 7d535a 
    /* padded to a multiple of samp_factor DCT blocks in each direction. */
kusano 7d535a 
    /* Note we ask for a pre-zeroed array. */
kusano 7d535a 
    int ci, access_rows;
kusano 7d535a 
    jpeg_component_info *compptr;
kusano 7d535a
kusano 7d535a 
    for (ci = 0, compptr = cinfo->comp_info; ci < cinfo->num_components;
shun-iwasawa 82a8f5 
         ci++, compptr++) {
kusano 7d535a 
      access_rows = compptr->v_samp_factor;
kusano 7d535a 
#ifdef BLOCK_SMOOTHING_SUPPORTED
kusano 7d535a 
      /* If block smoothing could be used, need a bigger window */
kusano 7d535a 
      if (cinfo->progressive_mode)
shun-iwasawa 82a8f5 
        access_rows *= 3;
kusano 7d535a 
#endif
kusano 7d535a 
      coef->whole_image[ci] = (*cinfo->mem->request_virt_barray)
shun-iwasawa 82a8f5 
        ((j_common_ptr)cinfo, JPOOL_IMAGE, TRUE,
shun-iwasawa 82a8f5 
         (JDIMENSION)jround_up((long)compptr->width_in_blocks,
shun-iwasawa 82a8f5 
                               (long)compptr->h_samp_factor),
shun-iwasawa 82a8f5 
         (JDIMENSION)jround_up((long)compptr->height_in_blocks,
shun-iwasawa 82a8f5 
                               (long)compptr->v_samp_factor),
shun-iwasawa 82a8f5 
         (JDIMENSION)access_rows);
kusano 7d535a 
    }
kusano 7d535a 
    coef->pub.consume_data = consume_data;
kusano 7d535a 
    coef->pub.decompress_data = decompress_data;
kusano 7d535a 
    coef->pub.coef_arrays = coef->whole_image; /* link to virtual arrays */
kusano 7d535a 
#else
kusano 7d535a 
    ERREXIT(cinfo, JERR_NOT_COMPILED);
kusano 7d535a 
#endif
kusano 7d535a 
  } else {
kusano 7d535a 
    /* We only need a single-MCU buffer. */
kusano 7d535a 
    JBLOCKROW buffer;
kusano 7d535a 
    int i;
kusano 7d535a
kusano 7d535a 
    buffer = (JBLOCKROW)
shun-iwasawa 82a8f5 
      (*cinfo->mem->alloc_large) ((j_common_ptr)cinfo, JPOOL_IMAGE,
shun-iwasawa 82a8f5 
                                  D_MAX_BLOCKS_IN_MCU * sizeof(JBLOCK));
kusano 7d535a 
    for (i = 0; i < D_MAX_BLOCKS_IN_MCU; i++) {
kusano 7d535a 
      coef->MCU_buffer[i] = buffer + i;
kusano 7d535a 
    }
kusano 7d535a 
    coef->pub.consume_data = dummy_consume_data;
kusano 7d535a 
    coef->pub.decompress_data = decompress_onepass;
kusano 7d535a 
    coef->pub.coef_arrays = NULL; /* flag for no virtual arrays */
kusano 7d535a 
  }
shun-iwasawa 82a8f5
shun-iwasawa 82a8f5 
  /* Allocate the workspace buffer */
shun-iwasawa 82a8f5 
  coef->workspace = (JCOEF *)
shun-iwasawa 82a8f5 
    (*cinfo->mem->alloc_small) ((j_common_ptr)cinfo, JPOOL_IMAGE,
shun-iwasawa 82a8f5 
                                sizeof(JCOEF) * DCTSIZE2);
kusano 7d535a 
}

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