| 1 | /*
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| 2 | * jdmaster.c
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| 3 | *
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| 4 | * Copyright (C) 1991-1997, Thomas G. Lane.
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| 5 | * This file is part of the Independent JPEG Group's software.
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| 6 | * For conditions of distribution and use, see the accompanying README file.
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| 7 | *
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| 8 | * This file contains master control logic for the JPEG decompressor.
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| 9 | * These routines are concerned with selecting the modules to be executed
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| 10 | * and with determining the number of passes and the work to be done in each
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| 11 | * pass.
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| 12 | */
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| 13 |
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| 14 | #define JPEG_INTERNALS
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| 15 | #include "jinclude.h"
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| 16 | #include "jpeglib.h"
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| 17 |
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| 18 |
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| 19 | /* Private state */
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| 20 |
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| 21 | typedef struct {
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| 22 | struct jpeg_decomp_master pub; /* public fields */
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| 23 |
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| 24 | int pass_number; /* # of passes completed */
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| 25 |
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| 26 | boolean using_merged_upsample; /* TRUE if using merged upsample/cconvert */
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| 27 |
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| 28 | /* Saved references to initialized quantizer modules,
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| 29 | * in case we need to switch modes.
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| 30 | */
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| 31 | struct jpeg_color_quantizer * quantizer_1pass;
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| 32 | struct jpeg_color_quantizer * quantizer_2pass;
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| 33 | } my_decomp_master;
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| 34 |
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| 35 | typedef my_decomp_master * my_master_ptr;
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| 36 |
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| 37 |
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| 38 | /*
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| 39 | * Determine whether merged upsample/color conversion should be used.
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| 40 | * CRUCIAL: this must match the actual capabilities of jdmerge.c!
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| 41 | */
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| 42 |
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| 43 | LOCAL(boolean)
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| 44 | use_merged_upsample (j_decompress_ptr cinfo)
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| 45 | {
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| 46 | #ifdef UPSAMPLE_MERGING_SUPPORTED
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| 47 | /* Merging is the equivalent of plain box-filter upsampling */
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| 48 | if (cinfo->do_fancy_upsampling || cinfo->CCIR601_sampling)
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| 49 | return FALSE;
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| 50 | /* jdmerge.c only supports YCC=>RGB color conversion */
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| 51 | if (cinfo->jpeg_color_space != JCS_YCbCr || cinfo->num_components != 3 ||
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| 52 | cinfo->out_color_space != JCS_RGB ||
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| 53 | cinfo->out_color_components != RGB_PIXELSIZE)
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| 54 | return FALSE;
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| 55 | /* and it only handles 2h1v or 2h2v sampling ratios */
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| 56 | if (cinfo->comp_info[0].h_samp_factor != 2 ||
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| 57 | cinfo->comp_info[1].h_samp_factor != 1 ||
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| 58 | cinfo->comp_info[2].h_samp_factor != 1 ||
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| 59 | cinfo->comp_info[0].v_samp_factor > 2 ||
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| 60 | cinfo->comp_info[1].v_samp_factor != 1 ||
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| 61 | cinfo->comp_info[2].v_samp_factor != 1)
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| 62 | return FALSE;
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| 63 | /* furthermore, it doesn't work if we've scaled the IDCTs differently */
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| 64 | if (cinfo->comp_info[0].DCT_scaled_size != cinfo->min_DCT_scaled_size ||
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| 65 | cinfo->comp_info[1].DCT_scaled_size != cinfo->min_DCT_scaled_size ||
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| 66 | cinfo->comp_info[2].DCT_scaled_size != cinfo->min_DCT_scaled_size)
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| 67 | return FALSE;
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| 68 | /* ??? also need to test for upsample-time rescaling, when & if supported */
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| 69 | return TRUE; /* by golly, it'll work... */
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| 70 | #else
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| 71 | return FALSE;
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| 72 | #endif
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| 73 | }
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| 74 |
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| 75 |
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| 76 | /*
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| 77 | * Compute output image dimensions and related values.
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| 78 | * NOTE: this is exported for possible use by application.
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| 79 | * Hence it mustn't do anything that can't be done twice.
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| 80 | * Also note that it may be called before the master module is initialized!
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| 81 | */
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| 82 |
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| 83 | GLOBAL(void)
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| 84 | jpeg_calc_output_dimensions (j_decompress_ptr cinfo)
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| 85 | /* Do computations that are needed before master selection phase */
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| 86 | {
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| 87 | #ifdef IDCT_SCALING_SUPPORTED
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| 88 | int ci;
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| 89 | jpeg_component_info *compptr;
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| 90 | #endif
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| 91 |
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| 92 | /* Prevent application from calling me at wrong times */
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| 93 | if (cinfo->global_state != DSTATE_READY)
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| 94 | ERREXIT1(cinfo, JERR_BAD_STATE, cinfo->global_state);
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| 95 |
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| 96 | #ifdef IDCT_SCALING_SUPPORTED
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| 97 |
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| 98 | /* Compute actual output image dimensions and DCT scaling choices. */
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| 99 | if (cinfo->scale_num * 8 <= cinfo->scale_denom) {
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| 100 | /* Provide 1/8 scaling */
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| 101 | cinfo->output_width = (JDIMENSION)
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| 102 | jdiv_round_up((long) cinfo->image_width, 8L);
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| 103 | cinfo->output_height = (JDIMENSION)
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| 104 | jdiv_round_up((long) cinfo->image_height, 8L);
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| 105 | cinfo->min_DCT_scaled_size = 1;
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| 106 | } else if (cinfo->scale_num * 4 <= cinfo->scale_denom) {
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| 107 | /* Provide 1/4 scaling */
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| 108 | cinfo->output_width = (JDIMENSION)
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| 109 | jdiv_round_up((long) cinfo->image_width, 4L);
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| 110 | cinfo->output_height = (JDIMENSION)
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| 111 | jdiv_round_up((long) cinfo->image_height, 4L);
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| 112 | cinfo->min_DCT_scaled_size = 2;
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| 113 | } else if (cinfo->scale_num * 2 <= cinfo->scale_denom) {
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| 114 | /* Provide 1/2 scaling */
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| 115 | cinfo->output_width = (JDIMENSION)
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| 116 | jdiv_round_up((long) cinfo->image_width, 2L);
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| 117 | cinfo->output_height = (JDIMENSION)
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| 118 | jdiv_round_up((long) cinfo->image_height, 2L);
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| 119 | cinfo->min_DCT_scaled_size = 4;
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| 120 | } else {
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| 121 | /* Provide 1/1 scaling */
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| 122 | cinfo->output_width = cinfo->image_width;
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| 123 | cinfo->output_height = cinfo->image_height;
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| 124 | cinfo->min_DCT_scaled_size = DCTSIZE;
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| 125 | }
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| 126 | /* In selecting the actual DCT scaling for each component, we try to
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| 127 | * scale up the chroma components via IDCT scaling rather than upsampling.
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| 128 | * This saves time if the upsampler gets to use 1:1 scaling.
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| 129 | * Note this code assumes that the supported DCT scalings are powers of 2.
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| 130 | */
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| 131 | for (ci = 0, compptr = cinfo->comp_info; ci < cinfo->num_components;
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| 132 | ci++, compptr++) {
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| 133 | int ssize = cinfo->min_DCT_scaled_size;
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| 134 | while (ssize < DCTSIZE &&
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| 135 | (compptr->h_samp_factor * ssize * 2 <=
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| 136 | cinfo->max_h_samp_factor * cinfo->min_DCT_scaled_size) &&
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| 137 | (compptr->v_samp_factor * ssize * 2 <=
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| 138 | cinfo->max_v_samp_factor * cinfo->min_DCT_scaled_size)) {
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| 139 | ssize = ssize * 2;
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| 140 | }
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| 141 | compptr->DCT_scaled_size = ssize;
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| 142 | }
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| 143 |
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| 144 | /* Recompute downsampled dimensions of components;
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| 145 | * application needs to know these if using raw downsampled data.
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| 146 | */
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| 147 | for (ci = 0, compptr = cinfo->comp_info; ci < cinfo->num_components;
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| 148 | ci++, compptr++) {
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| 149 | /* Size in samples, after IDCT scaling */
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| 150 | compptr->downsampled_width = (JDIMENSION)
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| 151 | jdiv_round_up((long) cinfo->image_width *
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| 152 | (long) (compptr->h_samp_factor * compptr->DCT_scaled_size),
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| 153 | (long) (cinfo->max_h_samp_factor * DCTSIZE));
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| 154 | compptr->downsampled_height = (JDIMENSION)
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| 155 | jdiv_round_up((long) cinfo->image_height *
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| 156 | (long) (compptr->v_samp_factor * compptr->DCT_scaled_size),
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| 157 | (long) (cinfo->max_v_samp_factor * DCTSIZE));
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| 158 | }
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| 159 |
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| 160 | #else /* !IDCT_SCALING_SUPPORTED */
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| 161 |
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| 162 | /* Hardwire it to "no scaling" */
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| 163 | cinfo->output_width = cinfo->image_width;
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| 164 | cinfo->output_height = cinfo->image_height;
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| 165 | /* jdinput.c has already initialized DCT_scaled_size to DCTSIZE,
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| 166 | * and has computed unscaled downsampled_width and downsampled_height.
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| 167 | */
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| 168 |
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| 169 | #endif /* IDCT_SCALING_SUPPORTED */
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| 170 |
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| 171 | /* Report number of components in selected colorspace. */
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| 172 | /* Probably this should be in the color conversion module... */
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| 173 | switch (cinfo->out_color_space) {
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| 174 | case JCS_GRAYSCALE:
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| 175 | cinfo->out_color_components = 1;
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| 176 | break;
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| 177 | case JCS_RGB:
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| 178 | #if RGB_PIXELSIZE != 3
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| 179 | cinfo->out_color_components = RGB_PIXELSIZE;
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| 180 | break;
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| 181 | #endif /* else share code with YCbCr */
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| 182 | case JCS_YCbCr:
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| 183 | cinfo->out_color_components = 3;
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| 184 | break;
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| 185 | case JCS_CMYK:
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| 186 | case JCS_YCCK:
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| 187 | cinfo->out_color_components = 4;
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| 188 | break;
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| 189 | default: /* else must be same colorspace as in file */
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| 190 | cinfo->out_color_components = cinfo->num_components;
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| 191 | break;
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| 192 | }
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| 193 | cinfo->output_components = (cinfo->quantize_colors ? 1 :
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| 194 | cinfo->out_color_components);
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| 195 |
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| 196 | /* See if upsampler will want to emit more than one row at a time */
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| 197 | if (use_merged_upsample(cinfo))
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| 198 | cinfo->rec_outbuf_height = cinfo->max_v_samp_factor;
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| 199 | else
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| 200 | cinfo->rec_outbuf_height = 1;
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| 201 | }
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| 202 |
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| 203 |
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| 204 | /*
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| 205 | * Several decompression processes need to range-limit values to the range
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| 206 | * 0..MAXJSAMPLE; the input value may fall somewhat outside this range
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| 207 | * due to noise introduced by quantization, roundoff error, etc. These
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| 208 | * processes are inner loops and need to be as fast as possible. On most
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| 209 | * machines, particularly CPUs with pipelines or instruction prefetch,
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| 210 | * a (subscript-check-less) C table lookup
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| 211 | * x = sample_range_limit[x];
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| 212 | * is faster than explicit tests
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| 213 | * if (x < 0) x = 0;
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| 214 | * else if (x > MAXJSAMPLE) x = MAXJSAMPLE;
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| 215 | * These processes all use a common table prepared by the routine below.
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| 216 | *
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| 217 | * For most steps we can mathematically guarantee that the initial value
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| 218 | * of x is within MAXJSAMPLE+1 of the legal range, so a table running from
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| 219 | * -(MAXJSAMPLE+1) to 2*MAXJSAMPLE+1 is sufficient. But for the initial
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| 220 | * limiting step (just after the IDCT), a wildly out-of-range value is
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| 221 | * possible if the input data is corrupt. To avoid any chance of indexing
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| 222 | * off the end of memory and getting a bad-pointer trap, we perform the
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| 223 | * post-IDCT limiting thus:
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| 224 | * x = range_limit[x & MASK];
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| 225 | * where MASK is 2 bits wider than legal sample data, ie 10 bits for 8-bit
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| 226 | * samples. Under normal circumstances this is more than enough range and
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| 227 | * a correct output will be generated; with bogus input data the mask will
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| 228 | * cause wraparound, and we will safely generate a bogus-but-in-range output.
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| 229 | * For the post-IDCT step, we want to convert the data from signed to unsigned
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| 230 | * representation by adding CENTERJSAMPLE at the same time that we limit it.
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| 231 | * So the post-IDCT limiting table ends up looking like this:
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| 232 | * CENTERJSAMPLE,CENTERJSAMPLE+1,...,MAXJSAMPLE,
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| 233 | * MAXJSAMPLE (repeat 2*(MAXJSAMPLE+1)-CENTERJSAMPLE times),
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| 234 | * 0 (repeat 2*(MAXJSAMPLE+1)-CENTERJSAMPLE times),
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| 235 | * 0,1,...,CENTERJSAMPLE-1
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| 236 | * Negative inputs select values from the upper half of the table after
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| 237 | * masking.
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| 238 | *
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| 239 | * We can save some space by overlapping the start of the post-IDCT table
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| 240 | * with the simpler range limiting table. The post-IDCT table begins at
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| 241 | * sample_range_limit + CENTERJSAMPLE.
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| 242 | *
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| 243 | * Note that the table is allocated in near data space on PCs; it's small
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| 244 | * enough and used often enough to justify this.
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| 245 | */
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| 246 |
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| 247 | LOCAL(void)
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| 248 | prepare_range_limit_table (j_decompress_ptr cinfo)
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| 249 | /* Allocate and fill in the sample_range_limit table */
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| 250 | {
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| 251 | JSAMPLE * table;
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| 252 | int i;
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| 253 |
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| 254 | table = (JSAMPLE *)
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| 255 | (*cinfo->mem->alloc_small) ((j_common_ptr) cinfo, JPOOL_IMAGE,
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| 256 | (5 * (MAXJSAMPLE+1) + CENTERJSAMPLE) * SIZEOF(JSAMPLE));
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| 257 | table += (MAXJSAMPLE+1); /* allow negative subscripts of simple table */
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| 258 | cinfo->sample_range_limit = table;
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| 259 | /* First segment of "simple" table: limit[x] = 0 for x < 0 */
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| 260 | MEMZERO(table - (MAXJSAMPLE+1), (MAXJSAMPLE+1) * SIZEOF(JSAMPLE));
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| 261 | /* Main part of "simple" table: limit[x] = x */
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| 262 | for (i = 0; i <= MAXJSAMPLE; i++)
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| 263 | table[i] = (JSAMPLE) i;
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| 264 | table += CENTERJSAMPLE; /* Point to where post-IDCT table starts */
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| 265 | /* End of simple table, rest of first half of post-IDCT table */
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| 266 | for (i = CENTERJSAMPLE; i < 2*(MAXJSAMPLE+1); i++)
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| 267 | table[i] = MAXJSAMPLE;
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| 268 | /* Second half of post-IDCT table */
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| 269 | MEMZERO(table + (2 * (MAXJSAMPLE+1)),
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| 270 | (2 * (MAXJSAMPLE+1) - CENTERJSAMPLE) * SIZEOF(JSAMPLE));
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| 271 | MEMCOPY(table + (4 * (MAXJSAMPLE+1) - CENTERJSAMPLE),
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| 272 | cinfo->sample_range_limit, CENTERJSAMPLE * SIZEOF(JSAMPLE));
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| 273 | }
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| 274 |
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| 275 |
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| 276 | /*
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| 277 | * Master selection of decompression modules.
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| 278 | * This is done once at jpeg_start_decompress time. We determine
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| 279 | * which modules will be used and give them appropriate initialization calls.
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| 280 | * We also initialize the decompressor input side to begin consuming data.
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| 281 | *
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| 282 | * Since jpeg_read_header has finished, we know what is in the SOF
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| 283 | * and (first) SOS markers. We also have all the application parameter
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| 284 | * settings.
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| 285 | */
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| 286 |
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| 287 | LOCAL(void)
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| 288 | master_selection (j_decompress_ptr cinfo)
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| 289 | {
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| 290 | my_master_ptr master = (my_master_ptr) cinfo->master;
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| 291 | boolean use_c_buffer;
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| 292 | long samplesperrow;
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| 293 | JDIMENSION jd_samplesperrow;
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| 294 |
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| 295 | /* Initialize dimensions and other stuff */
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| 296 | jpeg_calc_output_dimensions(cinfo);
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| 297 | prepare_range_limit_table(cinfo);
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| 298 |
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| 299 | /* Width of an output scanline must be representable as JDIMENSION. */
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| 300 | samplesperrow = (long) cinfo->output_width * (long) cinfo->out_color_components;
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| 301 | jd_samplesperrow = (JDIMENSION) samplesperrow;
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| 302 | if ((long) jd_samplesperrow != samplesperrow)
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| 303 | ERREXIT(cinfo, JERR_WIDTH_OVERFLOW);
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| 304 |
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| 305 | /* Initialize my private state */
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| 306 | master->pass_number = 0;
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| 307 | master->using_merged_upsample = use_merged_upsample(cinfo);
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| 308 |
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| 309 | /* Color quantizer selection */
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| 310 | master->quantizer_1pass = NULL;
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| 311 | master->quantizer_2pass = NULL;
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| 312 | /* No mode changes if not using buffered-image mode. */
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| 313 | if (! cinfo->quantize_colors || ! cinfo->buffered_image) {
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| 314 | cinfo->enable_1pass_quant = FALSE;
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| 315 | cinfo->enable_external_quant = FALSE;
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| 316 | cinfo->enable_2pass_quant = FALSE;
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| 317 | }
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| 318 | if (cinfo->quantize_colors) {
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| 319 | if (cinfo->raw_data_out)
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| 320 | ERREXIT(cinfo, JERR_NOTIMPL);
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| 321 | /* 2-pass quantizer only works in 3-component color space. */
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| 322 | if (cinfo->out_color_components != 3) {
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| 323 | cinfo->enable_1pass_quant = TRUE;
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| 324 | cinfo->enable_external_quant = FALSE;
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| 325 | cinfo->enable_2pass_quant = FALSE;
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| 326 | cinfo->colormap = NULL;
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| 327 | } else if (cinfo->colormap != NULL) {
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| 328 | cinfo->enable_external_quant = TRUE;
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| 329 | } else if (cinfo->two_pass_quantize) {
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| 330 | cinfo->enable_2pass_quant = TRUE;
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| 331 | } else {
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| 332 | cinfo->enable_1pass_quant = TRUE;
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| 333 | }
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| 334 |
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| 335 | if (cinfo->enable_1pass_quant) {
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| 336 | #ifdef QUANT_1PASS_SUPPORTED
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| 337 | jinit_1pass_quantizer(cinfo);
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| 338 | master->quantizer_1pass = cinfo->cquantize;
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| 339 | #else
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| 340 | ERREXIT(cinfo, JERR_NOT_COMPILED);
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| 341 | #endif
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| 342 | }
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| 343 |
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| 344 | /* We use the 2-pass code to map to external colormaps. */
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| 345 | if (cinfo->enable_2pass_quant || cinfo->enable_external_quant) {
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| 346 | #ifdef QUANT_2PASS_SUPPORTED
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| 347 | jinit_2pass_quantizer(cinfo);
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| 348 | master->quantizer_2pass = cinfo->cquantize;
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| 349 | #else
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| 350 | ERREXIT(cinfo, JERR_NOT_COMPILED);
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| 351 | #endif
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| 352 | }
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| 353 | /* If both quantizers are initialized, the 2-pass one is left active;
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| 354 | * this is necessary for starting with quantization to an external map.
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| 355 | */
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| 356 | }
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| 357 |
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| 358 | /* Post-processing: in particular, color conversion first */
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| 359 | if (! cinfo->raw_data_out) {
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| 360 | if (master->using_merged_upsample) {
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| 361 | #ifdef UPSAMPLE_MERGING_SUPPORTED
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| 362 | jinit_merged_upsampler(cinfo); /* does color conversion too */
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| 363 | #else
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| 364 | ERREXIT(cinfo, JERR_NOT_COMPILED);
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| 365 | #endif
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| 366 | } else {
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| 367 | jinit_color_deconverter(cinfo);
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| 368 | jinit_upsampler(cinfo);
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| 369 | }
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| 370 | jinit_d_post_controller(cinfo, cinfo->enable_2pass_quant);
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| 371 | }
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| 372 | /* Inverse DCT */
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| 373 | jinit_inverse_dct(cinfo);
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| 374 | /* Entropy decoding: either Huffman or arithmetic coding. */
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| 375 | if (cinfo->arith_code) {
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| 376 | ERREXIT(cinfo, JERR_ARITH_NOTIMPL);
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| 377 | } else {
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| 378 | if (cinfo->progressive_mode) {
|
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| 379 | #ifdef D_PROGRESSIVE_SUPPORTED
|
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| 380 | jinit_phuff_decoder(cinfo);
|
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| 381 | #else
|
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| 382 | ERREXIT(cinfo, JERR_NOT_COMPILED);
|
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| 383 | #endif
|
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| 384 | } else
|
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| 385 | jinit_huff_decoder(cinfo);
|
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| 386 | }
|
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| 387 |
|
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| 388 | /* Initialize principal buffer controllers. */
|
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| 389 | use_c_buffer = cinfo->inputctl->has_multiple_scans || cinfo->buffered_image;
|
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| 390 | jinit_d_coef_controller(cinfo, use_c_buffer);
|
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| 391 |
|
---|
| 392 | if (! cinfo->raw_data_out)
|
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| 393 | jinit_d_main_controller(cinfo, FALSE /* never need full buffer here */);
|
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| 394 |
|
---|
| 395 | /* We can now tell the memory manager to allocate virtual arrays. */
|
---|
| 396 | (*cinfo->mem->realize_virt_arrays) ((j_common_ptr) cinfo);
|
---|
| 397 |
|
---|
| 398 | /* Initialize input side of decompressor to consume first scan. */
|
---|
| 399 | (*cinfo->inputctl->start_input_pass) (cinfo);
|
---|
| 400 |
|
---|
| 401 | #ifdef D_MULTISCAN_FILES_SUPPORTED
|
---|
| 402 | /* If jpeg_start_decompress will read the whole file, initialize
|
---|
| 403 | * progress monitoring appropriately. The input step is counted
|
---|
| 404 | * as one pass.
|
---|
| 405 | */
|
---|
| 406 | if (cinfo->progress != NULL && ! cinfo->buffered_image &&
|
---|
| 407 | cinfo->inputctl->has_multiple_scans) {
|
---|
| 408 | int nscans;
|
---|
| 409 | /* Estimate number of scans to set pass_limit. */
|
---|
| 410 | if (cinfo->progressive_mode) {
|
---|
| 411 | /* Arbitrarily estimate 2 interleaved DC scans + 3 AC scans/component. */
|
---|
| 412 | nscans = 2 + 3 * cinfo->num_components;
|
---|
| 413 | } else {
|
---|
| 414 | /* For a nonprogressive multiscan file, estimate 1 scan per component. */
|
---|
| 415 | nscans = cinfo->num_components;
|
---|
| 416 | }
|
---|
| 417 | cinfo->progress->pass_counter = 0L;
|
---|
| 418 | cinfo->progress->pass_limit = (long) cinfo->total_iMCU_rows * nscans;
|
---|
| 419 | cinfo->progress->completed_passes = 0;
|
---|
| 420 | cinfo->progress->total_passes = (cinfo->enable_2pass_quant ? 3 : 2);
|
---|
| 421 | /* Count the input pass as done */
|
---|
| 422 | master->pass_number++;
|
---|
| 423 | }
|
---|
| 424 | #endif /* D_MULTISCAN_FILES_SUPPORTED */
|
---|
| 425 | }
|
---|
| 426 |
|
---|
| 427 |
|
---|
| 428 | /*
|
---|
| 429 | * Per-pass setup.
|
---|
| 430 | * This is called at the beginning of each output pass. We determine which
|
---|
| 431 | * modules will be active during this pass and give them appropriate
|
---|
| 432 | * start_pass calls. We also set is_dummy_pass to indicate whether this
|
---|
| 433 | * is a "real" output pass or a dummy pass for color quantization.
|
---|
| 434 | * (In the latter case, jdapistd.c will crank the pass to completion.)
|
---|
| 435 | */
|
---|
| 436 |
|
---|
| 437 | METHODDEF(void)
|
---|
| 438 | prepare_for_output_pass (j_decompress_ptr cinfo)
|
---|
| 439 | {
|
---|
| 440 | my_master_ptr master = (my_master_ptr) cinfo->master;
|
---|
| 441 |
|
---|
| 442 | if (master->pub.is_dummy_pass) {
|
---|
| 443 | #ifdef QUANT_2PASS_SUPPORTED
|
---|
| 444 | /* Final pass of 2-pass quantization */
|
---|
| 445 | master->pub.is_dummy_pass = FALSE;
|
---|
| 446 | (*cinfo->cquantize->start_pass) (cinfo, FALSE);
|
---|
| 447 | (*cinfo->post->start_pass) (cinfo, JBUF_CRANK_DEST);
|
---|
| 448 | (*cinfo->main->start_pass) (cinfo, JBUF_CRANK_DEST);
|
---|
| 449 | #else
|
---|
| 450 | ERREXIT(cinfo, JERR_NOT_COMPILED);
|
---|
| 451 | #endif /* QUANT_2PASS_SUPPORTED */
|
---|
| 452 | } else {
|
---|
| 453 | if (cinfo->quantize_colors && cinfo->colormap == NULL) {
|
---|
| 454 | /* Select new quantization method */
|
---|
| 455 | if (cinfo->two_pass_quantize && cinfo->enable_2pass_quant) {
|
---|
| 456 | cinfo->cquantize = master->quantizer_2pass;
|
---|
| 457 | master->pub.is_dummy_pass = TRUE;
|
---|
| 458 | } else if (cinfo->enable_1pass_quant) {
|
---|
| 459 | cinfo->cquantize = master->quantizer_1pass;
|
---|
| 460 | } else {
|
---|
| 461 | ERREXIT(cinfo, JERR_MODE_CHANGE);
|
---|
| 462 | }
|
---|
| 463 | }
|
---|
| 464 | (*cinfo->idct->start_pass) (cinfo);
|
---|
| 465 | (*cinfo->coef->start_output_pass) (cinfo);
|
---|
| 466 | if (! cinfo->raw_data_out) {
|
---|
| 467 | if (! master->using_merged_upsample)
|
---|
| 468 | (*cinfo->cconvert->start_pass) (cinfo);
|
---|
| 469 | (*cinfo->upsample->start_pass) (cinfo);
|
---|
| 470 | if (cinfo->quantize_colors)
|
---|
| 471 | (*cinfo->cquantize->start_pass) (cinfo, master->pub.is_dummy_pass);
|
---|
| 472 | (*cinfo->post->start_pass) (cinfo,
|
---|
| 473 | (master->pub.is_dummy_pass ? JBUF_SAVE_AND_PASS : JBUF_PASS_THRU));
|
---|
| 474 | (*cinfo->main->start_pass) (cinfo, JBUF_PASS_THRU);
|
---|
| 475 | }
|
---|
| 476 | }
|
---|
| 477 |
|
---|
| 478 | /* Set up progress monitor's pass info if present */
|
---|
| 479 | if (cinfo->progress != NULL) {
|
---|
| 480 | cinfo->progress->completed_passes = master->pass_number;
|
---|
| 481 | cinfo->progress->total_passes = master->pass_number +
|
---|
| 482 | (master->pub.is_dummy_pass ? 2 : 1);
|
---|
| 483 | /* In buffered-image mode, we assume one more output pass if EOI not
|
---|
| 484 | * yet reached, but no more passes if EOI has been reached.
|
---|
| 485 | */
|
---|
| 486 | if (cinfo->buffered_image && ! cinfo->inputctl->eoi_reached) {
|
---|
| 487 | cinfo->progress->total_passes += (cinfo->enable_2pass_quant ? 2 : 1);
|
---|
| 488 | }
|
---|
| 489 | }
|
---|
| 490 | }
|
---|
| 491 |
|
---|
| 492 |
|
---|
| 493 | /*
|
---|
| 494 | * Finish up at end of an output pass.
|
---|
| 495 | */
|
---|
| 496 |
|
---|
| 497 | METHODDEF(void)
|
---|
| 498 | finish_output_pass (j_decompress_ptr cinfo)
|
---|
| 499 | {
|
---|
| 500 | my_master_ptr master = (my_master_ptr) cinfo->master;
|
---|
| 501 |
|
---|
| 502 | if (cinfo->quantize_colors)
|
---|
| 503 | (*cinfo->cquantize->finish_pass) (cinfo);
|
---|
| 504 | master->pass_number++;
|
---|
| 505 | }
|
---|
| 506 |
|
---|
| 507 |
|
---|
| 508 | #ifdef D_MULTISCAN_FILES_SUPPORTED
|
---|
| 509 |
|
---|
| 510 | /*
|
---|
| 511 | * Switch to a new external colormap between output passes.
|
---|
| 512 | */
|
---|
| 513 |
|
---|
| 514 | GLOBAL(void)
|
---|
| 515 | jpeg_new_colormap (j_decompress_ptr cinfo)
|
---|
| 516 | {
|
---|
| 517 | my_master_ptr master = (my_master_ptr) cinfo->master;
|
---|
| 518 |
|
---|
| 519 | /* Prevent application from calling me at wrong times */
|
---|
| 520 | if (cinfo->global_state != DSTATE_BUFIMAGE)
|
---|
| 521 | ERREXIT1(cinfo, JERR_BAD_STATE, cinfo->global_state);
|
---|
| 522 |
|
---|
| 523 | if (cinfo->quantize_colors && cinfo->enable_external_quant &&
|
---|
| 524 | cinfo->colormap != NULL) {
|
---|
| 525 | /* Select 2-pass quantizer for external colormap use */
|
---|
| 526 | cinfo->cquantize = master->quantizer_2pass;
|
---|
| 527 | /* Notify quantizer of colormap change */
|
---|
| 528 | (*cinfo->cquantize->new_color_map) (cinfo);
|
---|
| 529 | master->pub.is_dummy_pass = FALSE; /* just in case */
|
---|
| 530 | } else
|
---|
| 531 | ERREXIT(cinfo, JERR_MODE_CHANGE);
|
---|
| 532 | }
|
---|
| 533 |
|
---|
| 534 | #endif /* D_MULTISCAN_FILES_SUPPORTED */
|
---|
| 535 |
|
---|
| 536 |
|
---|
| 537 | /*
|
---|
| 538 | * Initialize master decompression control and select active modules.
|
---|
| 539 | * This is performed at the start of jpeg_start_decompress.
|
---|
| 540 | */
|
---|
| 541 |
|
---|
| 542 | GLOBAL(void)
|
---|
| 543 | jinit_master_decompress (j_decompress_ptr cinfo)
|
---|
| 544 | {
|
---|
| 545 | my_master_ptr master;
|
---|
| 546 |
|
---|
| 547 | master = (my_master_ptr)
|
---|
| 548 | (*cinfo->mem->alloc_small) ((j_common_ptr) cinfo, JPOOL_IMAGE,
|
---|
| 549 | SIZEOF(my_decomp_master));
|
---|
| 550 | cinfo->master = (struct jpeg_decomp_master *) master;
|
---|
| 551 | master->pub.prepare_for_output_pass = prepare_for_output_pass;
|
---|
| 552 | master->pub.finish_output_pass = finish_output_pass;
|
---|
| 553 |
|
---|
| 554 | master->pub.is_dummy_pass = FALSE;
|
---|
| 555 |
|
---|
| 556 | master_selection(cinfo);
|
---|
| 557 | }
|
---|