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jclossls.c
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jclossls.c
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/*
* jclossls.c
*
* This file was part of the Independent JPEG Group's software:
* Copyright (C) 1998, Thomas G. Lane.
* Lossless JPEG Modifications:
* Copyright (C) 1999, Ken Murchison.
* libjpeg-turbo Modifications:
* Copyright (C) 2022, D. R. Commander.
* For conditions of distribution and use, see the accompanying README.ijg
* file.
*
* This file contains prediction, sample differencing, and point transform
* routines for the lossless JPEG compressor.
*/
#define JPEG_INTERNALS
#include "jinclude.h"
#include "jpeglib.h"
#include "jlossls.h"
#ifdef C_LOSSLESS_SUPPORTED
/************************** Sample differencing **************************/
/*
* In order to avoid a performance penalty for checking which predictor is
* being used and which row is being processed for each call of the
* undifferencer, and to promote optimization, we have separate differencing
* functions for each predictor selection value.
*
* We are able to avoid duplicating source code by implementing the predictors
* and differencers as macros. Each of the differencing functions is simply a
* wrapper around a DIFFERENCE macro with the appropriate PREDICTOR macro
* passed as an argument.
*/
/* Forward declarations */
LOCAL(void) reset_predictor(j_compress_ptr cinfo, int ci);
/* Predictor for the first column of the first row: 2^(P-Pt-1) */
#define INITIAL_PREDICTORx (1 << (cinfo->data_precision - cinfo->Al - 1))
/* Predictor for the first column of the remaining rows: Rb */
#define INITIAL_PREDICTOR2 prev_row[0]
/*
* 1-Dimensional differencer routine.
*
* This macro implements the 1-D horizontal predictor (1). INITIAL_PREDICTOR
* is used as the special case predictor for the first column, which must be
* either INITIAL_PREDICTOR2 or INITIAL_PREDICTORx. The remaining samples
* use PREDICTOR1.
*/
#define DIFFERENCE_1D(INITIAL_PREDICTOR) \
lossless_comp_ptr losslessc = (lossless_comp_ptr)cinfo->fdct; \
boolean restart = FALSE; \
int samp, Ra; \
\
samp = *input_buf++; \
*diff_buf++ = samp - INITIAL_PREDICTOR; \
\
while (--width) { \
Ra = samp; \
samp = *input_buf++; \
*diff_buf++ = samp - PREDICTOR1; \
} \
\
/* Account for restart interval (no-op if not using restarts) */ \
if (cinfo->restart_interval) { \
if (--(losslessc->restart_rows_to_go[ci]) == 0) { \
reset_predictor(cinfo, ci); \
restart = TRUE; \
} \
}
/*
* 2-Dimensional differencer routine.
*
* This macro implements the 2-D horizontal predictors (#2-7). PREDICTOR2 is
* used as the special case predictor for the first column. The remaining
* samples use PREDICTOR, which is a function of Ra, Rb, and Rc.
*
* Because prev_row and output_buf may point to the same storage area (in an
* interleaved image with Vi=1, for example), we must take care to buffer Rb/Rc
* before writing the current reconstructed sample value into output_buf.
*/
#define DIFFERENCE_2D(PREDICTOR) \
lossless_comp_ptr losslessc = (lossless_comp_ptr)cinfo->fdct; \
int samp, Ra, Rb, Rc; \
\
Rb = *prev_row++; \
samp = *input_buf++; \
*diff_buf++ = samp - PREDICTOR2; \
\
while (--width) { \
Rc = Rb; \
Rb = *prev_row++; \
Ra = samp; \
samp = *input_buf++; \
*diff_buf++ = samp - PREDICTOR; \
} \
\
/* Account for restart interval (no-op if not using restarts) */ \
if (cinfo->restart_interval) { \
if (--losslessc->restart_rows_to_go[ci] == 0) \
reset_predictor(cinfo, ci); \
}
/*
* Differencers for the second and subsequent rows in a scan or restart
* interval. The first sample in the row is differenced using the vertical
* predictor (2). The rest of the samples are differenced using the predictor
* specified in the scan header.
*/
METHODDEF(void)
jpeg_difference1(j_compress_ptr cinfo, int ci,
_JSAMPROW input_buf, _JSAMPROW prev_row,
JDIFFROW diff_buf, JDIMENSION width)
{
DIFFERENCE_1D(INITIAL_PREDICTOR2);
(void)(restart);
}
METHODDEF(void)
jpeg_difference2(j_compress_ptr cinfo, int ci,
_JSAMPROW input_buf, _JSAMPROW prev_row,
JDIFFROW diff_buf, JDIMENSION width)
{
DIFFERENCE_2D(PREDICTOR2);
(void)(Ra);
(void)(Rc);
}
METHODDEF(void)
jpeg_difference3(j_compress_ptr cinfo, int ci,
_JSAMPROW input_buf, _JSAMPROW prev_row,
JDIFFROW diff_buf, JDIMENSION width)
{
DIFFERENCE_2D(PREDICTOR3);
(void)(Ra);
}
METHODDEF(void)
jpeg_difference4(j_compress_ptr cinfo, int ci,
_JSAMPROW input_buf, _JSAMPROW prev_row,
JDIFFROW diff_buf, JDIMENSION width)
{
DIFFERENCE_2D(PREDICTOR4);
}
METHODDEF(void)
jpeg_difference5(j_compress_ptr cinfo, int ci,
_JSAMPROW input_buf, _JSAMPROW prev_row,
JDIFFROW diff_buf, JDIMENSION width)
{
DIFFERENCE_2D(PREDICTOR5);
}
METHODDEF(void)
jpeg_difference6(j_compress_ptr cinfo, int ci,
_JSAMPROW input_buf, _JSAMPROW prev_row,
JDIFFROW diff_buf, JDIMENSION width)
{
DIFFERENCE_2D(PREDICTOR6);
}
METHODDEF(void)
jpeg_difference7(j_compress_ptr cinfo, int ci,
_JSAMPROW input_buf, _JSAMPROW prev_row,
JDIFFROW diff_buf, JDIMENSION width)
{
DIFFERENCE_2D(PREDICTOR7);
(void)(Rc);
}
/*
* Differencer for the first row in a scan or restart interval. The first
* sample in the row is differenced using the special predictor constant
* x = 2 ^ (P-Pt-1). The rest of the samples are differenced using the
* 1-D horizontal predictor (1).
*/
METHODDEF(void)
jpeg_difference_first_row(j_compress_ptr cinfo, int ci,
_JSAMPROW input_buf, _JSAMPROW prev_row,
JDIFFROW diff_buf, JDIMENSION width)
{
DIFFERENCE_1D(INITIAL_PREDICTORx);
/*
* Now that we have differenced the first row, we want to use the
* differencer that corresponds to the predictor specified in the
* scan header.
*
* Note that we don't do this if we have just reset the predictor
* for a new restart interval.
*/
if (!restart) {
switch (cinfo->Ss) {
case 1:
losslessc->predict_difference[ci] = jpeg_difference1;
break;
case 2:
losslessc->predict_difference[ci] = jpeg_difference2;
break;
case 3:
losslessc->predict_difference[ci] = jpeg_difference3;
break;
case 4:
losslessc->predict_difference[ci] = jpeg_difference4;
break;
case 5:
losslessc->predict_difference[ci] = jpeg_difference5;
break;
case 6:
losslessc->predict_difference[ci] = jpeg_difference6;
break;
case 7:
losslessc->predict_difference[ci] = jpeg_difference7;
break;
}
}
}
/*
* Reset predictor at the start of a pass or restart interval.
*/
LOCAL(void)
reset_predictor(j_compress_ptr cinfo, int ci)
{
lossless_comp_ptr losslessc = (lossless_comp_ptr)cinfo->fdct;
/* Initialize restart counter */
losslessc->restart_rows_to_go[ci] =
cinfo->restart_interval / cinfo->MCUs_per_row;
/* Set difference function to first row function */
losslessc->predict_difference[ci] = jpeg_difference_first_row;
}
/********************** Sample downscaling by 2^Pt ***********************/
METHODDEF(void)
simple_downscale(j_compress_ptr cinfo,
_JSAMPROW input_buf, _JSAMPROW output_buf, JDIMENSION width)
{
do {
*output_buf++ = (_JSAMPLE)RIGHT_SHIFT(*input_buf++, cinfo->Al);
} while (--width);
}
METHODDEF(void)
noscale(j_compress_ptr cinfo,
_JSAMPROW input_buf, _JSAMPROW output_buf, JDIMENSION width)
{
memcpy(output_buf, input_buf, width * sizeof(_JSAMPLE));
}
/*
* Initialize for a processing pass.
*/
METHODDEF(void)
start_pass_lossless(j_compress_ptr cinfo)
{
lossless_comp_ptr losslessc = (lossless_comp_ptr)cinfo->fdct;
int ci;
/* Set scaler function based on Pt */
if (cinfo->Al)
losslessc->scaler_scale = simple_downscale;
else
losslessc->scaler_scale = noscale;
/* Check that the restart interval is an integer multiple of the number
* of MCUs in an MCU row.
*/
if (cinfo->restart_interval % cinfo->MCUs_per_row != 0)
ERREXIT2(cinfo, JERR_BAD_RESTART,
cinfo->restart_interval, cinfo->MCUs_per_row);
/* Set predictors for start of pass */
for (ci = 0; ci < cinfo->num_components; ci++)
reset_predictor(cinfo, ci);
}
/*
* Initialize the lossless compressor.
*/
GLOBAL(void)
_jinit_lossless_compressor(j_compress_ptr cinfo)
{
lossless_comp_ptr losslessc;
/* Create subobject in permanent pool */
losslessc = (lossless_comp_ptr)
(*cinfo->mem->alloc_small) ((j_common_ptr)cinfo, JPOOL_PERMANENT,
sizeof(jpeg_lossless_compressor));
cinfo->fdct = (struct jpeg_forward_dct *)losslessc;
losslessc->pub.start_pass = start_pass_lossless;
}
#endif /* C_LOSSLESS_SUPPORTED */