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  1.   b218c019070e39afab50f244039575d1f88fac98
  2.   gtkmm-osx
  3.   jpeg-6b
  4.   jcphuff.c
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/*
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 * jcphuff.c
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 *
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 * Copyright (C) 1995-1997, Thomas G. Lane.
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 * This file is part of the Independent JPEG Group's software.
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 * For conditions of distribution and use, see the accompanying README file.
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 *
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 * This file contains Huffman entropy encoding routines for progressive JPEG.
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 *
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 * We do not support output suspension in this module, since the library
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 * currently does not allow multiple-scan files to be written with output
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 * suspension.
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 */
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#define JPEG_INTERNALS
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#include "jinclude.h"
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#include "jpeglib.h"
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#include "jchuff.h"		/* Declarations shared with jchuff.c */
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#ifdef C_PROGRESSIVE_SUPPORTED
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/* Expanded entropy encoder object for progressive Huffman encoding. */
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typedef struct {
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  struct jpeg_entropy_encoder pub; /* public fields */
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  /* Mode flag: TRUE for optimization, FALSE for actual data output */
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  boolean gather_statistics;
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  /* Bit-level coding status.
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   * next_output_byte/free_in_buffer are local copies of cinfo->dest fields.
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   */
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  JOCTET * next_output_byte;	/* => next byte to write in buffer */
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  size_t free_in_buffer;	/* # of byte spaces remaining in buffer */
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  INT32 put_buffer;		/* current bit-accumulation buffer */
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  int put_bits;			/* # of bits now in it */
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  j_compress_ptr cinfo;		/* link to cinfo (needed for dump_buffer) */
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  /* Coding status for DC components */
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  int last_dc_val[MAX_COMPS_IN_SCAN]; /* last DC coef for each component */
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  /* Coding status for AC components */
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  int ac_tbl_no;		/* the table number of the single component */
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  unsigned int EOBRUN;		/* run length of EOBs */
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  unsigned int BE;		/* # of buffered correction bits before MCU */
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  char * bit_buffer;		/* buffer for correction bits (1 per char) */
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  /* packing correction bits tightly would save some space but cost time... */
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  unsigned int restarts_to_go;	/* MCUs left in this restart interval */
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  int next_restart_num;		/* next restart number to write (0-7) */
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  /* Pointers to derived tables (these workspaces have image lifespan).
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   * Since any one scan codes only DC or only AC, we only need one set
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   * of tables, not one for DC and one for AC.
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   */
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  c_derived_tbl * derived_tbls[NUM_HUFF_TBLS];
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  /* Statistics tables for optimization; again, one set is enough */
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  long * count_ptrs[NUM_HUFF_TBLS];
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} phuff_entropy_encoder;
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typedef phuff_entropy_encoder * phuff_entropy_ptr;
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/* MAX_CORR_BITS is the number of bits the AC refinement correction-bit
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 * buffer can hold.  Larger sizes may slightly improve compression, but
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 * 1000 is already well into the realm of overkill.
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 * The minimum safe size is 64 bits.
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 */
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#define MAX_CORR_BITS  1000	/* Max # of correction bits I can buffer */
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/* IRIGHT_SHIFT is like RIGHT_SHIFT, but works on int rather than INT32.
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 * We assume that int right shift is unsigned if INT32 right shift is,
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 * which should be safe.
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 */
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#ifdef RIGHT_SHIFT_IS_UNSIGNED
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#define ISHIFT_TEMPS	int ishift_temp;
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#define IRIGHT_SHIFT(x,shft)  \
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	((ishift_temp = (x)) < 0 ? \
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	 (ishift_temp >> (shft)) | ((~0) << (16-(shft))) : \
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	 (ishift_temp >> (shft)))
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#else
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#define ISHIFT_TEMPS
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#define IRIGHT_SHIFT(x,shft)	((x) >> (shft))
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#endif
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/* Forward declarations */
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METHODDEF(boolean) encode_mcu_DC_first JPP((j_compress_ptr cinfo,
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					    JBLOCKROW *MCU_data));
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METHODDEF(boolean) encode_mcu_AC_first JPP((j_compress_ptr cinfo,
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					    JBLOCKROW *MCU_data));
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METHODDEF(boolean) encode_mcu_DC_refine JPP((j_compress_ptr cinfo,
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					     JBLOCKROW *MCU_data));
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METHODDEF(boolean) encode_mcu_AC_refine JPP((j_compress_ptr cinfo,
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					     JBLOCKROW *MCU_data));
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METHODDEF(void) finish_pass_phuff JPP((j_compress_ptr cinfo));
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METHODDEF(void) finish_pass_gather_phuff JPP((j_compress_ptr cinfo));
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/*
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 * Initialize for a Huffman-compressed scan using progressive JPEG.
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 */
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METHODDEF(void)
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start_pass_phuff (j_compress_ptr cinfo, boolean gather_statistics)
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{
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  phuff_entropy_ptr entropy = (phuff_entropy_ptr) cinfo->entropy;
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  boolean is_DC_band;
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  int ci, tbl;
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  jpeg_component_info * compptr;
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  entropy->cinfo = cinfo;
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  entropy->gather_statistics = gather_statistics;
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  is_DC_band = (cinfo->Ss == 0);
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  /* We assume jcmaster.c already validated the scan parameters. */
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  /* Select execution routines */
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  if (cinfo->Ah == 0) {
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    if (is_DC_band)
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      entropy->pub.encode_mcu = encode_mcu_DC_first;
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    else
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      entropy->pub.encode_mcu = encode_mcu_AC_first;
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  } else {
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    if (is_DC_band)
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      entropy->pub.encode_mcu = encode_mcu_DC_refine;
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    else {
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      entropy->pub.encode_mcu = encode_mcu_AC_refine;
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      /* AC refinement needs a correction bit buffer */
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      if (entropy->bit_buffer == NULL)
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	entropy->bit_buffer = (char *)
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	  (*cinfo->mem->alloc_small) ((j_common_ptr) cinfo, JPOOL_IMAGE,
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				      MAX_CORR_BITS * SIZEOF(char));
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    }
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  }
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  if (gather_statistics)
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    entropy->pub.finish_pass = finish_pass_gather_phuff;
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  else
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    entropy->pub.finish_pass = finish_pass_phuff;
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  /* Only DC coefficients may be interleaved, so cinfo->comps_in_scan = 1
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   * for AC coefficients.
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   */
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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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    /* Initialize DC predictions to 0 */
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    entropy->last_dc_val[ci] = 0;
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    /* Get table index */
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    if (is_DC_band) {
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      if (cinfo->Ah != 0)	/* DC refinement needs no table */
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	continue;
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      tbl = compptr->dc_tbl_no;
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    } else {
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      entropy->ac_tbl_no = tbl = compptr->ac_tbl_no;
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    }
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    if (gather_statistics) {
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      /* Check for invalid table index */
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      /* (make_c_derived_tbl does this in the other path) */
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      if (tbl < 0 || tbl >= NUM_HUFF_TBLS)
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        ERREXIT1(cinfo, JERR_NO_HUFF_TABLE, tbl);
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      /* Allocate and zero the statistics tables */
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      /* Note that jpeg_gen_optimal_table expects 257 entries in each table! */
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      if (entropy->count_ptrs[tbl] == NULL)
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	entropy->count_ptrs[tbl] = (long *)
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	  (*cinfo->mem->alloc_small) ((j_common_ptr) cinfo, JPOOL_IMAGE,
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				      257 * SIZEOF(long));
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      MEMZERO(entropy->count_ptrs[tbl], 257 * SIZEOF(long));
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    } else {
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      /* Compute derived values for Huffman table */
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      /* We may do this more than once for a table, but it's not expensive */
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      jpeg_make_c_derived_tbl(cinfo, is_DC_band, tbl,
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			      & entropy->derived_tbls[tbl]);
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    }
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  }
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  /* Initialize AC stuff */
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  entropy->EOBRUN = 0;
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  entropy->BE = 0;
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  /* Initialize bit buffer to empty */
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  entropy->put_buffer = 0;
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  entropy->put_bits = 0;
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  /* Initialize restart stuff */
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  entropy->restarts_to_go = cinfo->restart_interval;
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  entropy->next_restart_num = 0;
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}
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/* Outputting bytes to the file.
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 * NB: these must be called only when actually outputting,
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 * that is, entropy->gather_statistics == FALSE.
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 */
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/* Emit a byte */
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#define emit_byte(entropy,val)  \
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	{ *(entropy)->next_output_byte++ = (JOCTET) (val);  \
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	  if (--(entropy)->free_in_buffer == 0)  \
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	    dump_buffer(entropy); }
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LOCAL(void)
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dump_buffer (phuff_entropy_ptr entropy)
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/* Empty the output buffer; we do not support suspension in this module. */
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{
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  struct jpeg_destination_mgr * dest = entropy->cinfo->dest;
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  if (! (*dest->empty_output_buffer) (entropy->cinfo))
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    ERREXIT(entropy->cinfo, JERR_CANT_SUSPEND);
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  /* After a successful buffer dump, must reset buffer pointers */
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  entropy->next_output_byte = dest->next_output_byte;
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  entropy->free_in_buffer = dest->free_in_buffer;
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}
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/* Outputting bits to the file */
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/* Only the right 24 bits of put_buffer are used; the valid bits are
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 * left-justified in this part.  At most 16 bits can be passed to emit_bits
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 * in one call, and we never retain more than 7 bits in put_buffer
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 * between calls, so 24 bits are sufficient.
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 */
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INLINE
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LOCAL(void)
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emit_bits (phuff_entropy_ptr entropy, unsigned int code, int size)
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/* Emit some bits, unless we are in gather mode */
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{
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  /* This routine is heavily used, so it's worth coding tightly. */
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  register INT32 put_buffer = (INT32) code;
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  register int put_bits = entropy->put_bits;
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  /* if size is 0, caller used an invalid Huffman table entry */
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  if (size == 0)
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    ERREXIT(entropy->cinfo, JERR_HUFF_MISSING_CODE);
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  if (entropy->gather_statistics)
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    return;			/* do nothing if we're only getting stats */
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  put_buffer &= (((INT32) 1)<
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  put_bits += size;		/* new number of bits in buffer */
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  put_buffer <<= 24 - put_bits; /* align incoming bits */
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  put_buffer |= entropy->put_buffer; /* and merge with old buffer contents */
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  while (put_bits >= 8) {
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    int c = (int) ((put_buffer >> 16) & 0xFF);
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    emit_byte(entropy, c);
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    if (c == 0xFF) {		/* need to stuff a zero byte? */
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      emit_byte(entropy, 0);
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    }
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    put_buffer <<= 8;
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    put_bits -= 8;
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  }
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  entropy->put_buffer = put_buffer; /* update variables */
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  entropy->put_bits = put_bits;
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}
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LOCAL(void)
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flush_bits (phuff_entropy_ptr entropy)
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{
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  emit_bits(entropy, 0x7F, 7); /* fill any partial byte with ones */
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  entropy->put_buffer = 0;     /* and reset bit-buffer to empty */
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  entropy->put_bits = 0;
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}
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/*
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 * Emit (or just count) a Huffman symbol.
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 */
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INLINE
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LOCAL(void)
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emit_symbol (phuff_entropy_ptr entropy, int tbl_no, int symbol)
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{
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  if (entropy->gather_statistics)
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    entropy->count_ptrs[tbl_no][symbol]++;
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  else {
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    c_derived_tbl * tbl = entropy->derived_tbls[tbl_no];
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    emit_bits(entropy, tbl->ehufco[symbol], tbl->ehufsi[symbol]);
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  }
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}
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/*
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 * Emit bits from a correction bit buffer.
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 */
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LOCAL(void)
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emit_buffered_bits (phuff_entropy_ptr entropy, char * bufstart,
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		    unsigned int nbits)
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{
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  if (entropy->gather_statistics)
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    return;			/* no real work */
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  while (nbits > 0) {
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    emit_bits(entropy, (unsigned int) (*bufstart), 1);
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    bufstart++;
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    nbits--;
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  }
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}
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/*
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 * Emit any pending EOBRUN symbol.
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 */
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LOCAL(void)
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emit_eobrun (phuff_entropy_ptr entropy)
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{
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  register int temp, nbits;
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  if (entropy->EOBRUN > 0) {	/* if there is any pending EOBRUN */
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    temp = entropy->EOBRUN;
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    nbits = 0;
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    while ((temp >>= 1))
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      nbits++;
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    /* safety check: shouldn't happen given limited correction-bit buffer */
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    if (nbits > 14)
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      ERREXIT(entropy->cinfo, JERR_HUFF_MISSING_CODE);
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    emit_symbol(entropy, entropy->ac_tbl_no, nbits << 4);
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    if (nbits)
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      emit_bits(entropy, entropy->EOBRUN, nbits);
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    entropy->EOBRUN = 0;
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    /* Emit any buffered correction bits */
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    emit_buffered_bits(entropy, entropy->bit_buffer, entropy->BE);
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    entropy->BE = 0;
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  }
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}
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/*
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 * Emit a restart marker & resynchronize predictions.
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 */
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LOCAL(void)
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emit_restart (phuff_entropy_ptr entropy, int restart_num)
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{
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  int ci;
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  emit_eobrun(entropy);
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  if (! entropy->gather_statistics) {
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    flush_bits(entropy);
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    emit_byte(entropy, 0xFF);
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    emit_byte(entropy, JPEG_RST0 + restart_num);
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  }
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  if (entropy->cinfo->Ss == 0) {
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    /* Re-initialize DC predictions to 0 */
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    for (ci = 0; ci < entropy->cinfo->comps_in_scan; ci++)
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      entropy->last_dc_val[ci] = 0;
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  } else {
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    /* Re-initialize all AC-related fields to 0 */
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    entropy->EOBRUN = 0;
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    entropy->BE = 0;
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  }
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}
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/*
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 * MCU encoding for DC initial scan (either spectral selection,
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 * or first pass of successive approximation).
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 */
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METHODDEF(boolean)
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encode_mcu_DC_first (j_compress_ptr cinfo, JBLOCKROW *MCU_data)
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{
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  phuff_entropy_ptr entropy = (phuff_entropy_ptr) cinfo->entropy;
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  register int temp, temp2;
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  register int nbits;
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  int blkn, ci;
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  int Al = cinfo->Al;
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  JBLOCKROW block;
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  jpeg_component_info * compptr;
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  ISHIFT_TEMPS
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  entropy->next_output_byte = cinfo->dest->next_output_byte;
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  entropy->free_in_buffer = cinfo->dest->free_in_buffer;
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  /* Emit restart marker if needed */
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  if (cinfo->restart_interval)
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    if (entropy->restarts_to_go == 0)
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      emit_restart(entropy, entropy->next_restart_num);
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  /* Encode the MCU data blocks */
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  for (blkn = 0; blkn < cinfo->blocks_in_MCU; blkn++) {
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    block = MCU_data[blkn];
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    ci = cinfo->MCU_membership[blkn];
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    compptr = cinfo->cur_comp_info[ci];
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    /* Compute the DC value after the required point transform by Al.
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     * This is simply an arithmetic right shift.
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     */
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    temp2 = IRIGHT_SHIFT((int) ((*block)[0]), Al);
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    /* DC differences are figured on the point-transformed values. */
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    temp = temp2 - entropy->last_dc_val[ci];
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    entropy->last_dc_val[ci] = temp2;
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    /* Encode the DC coefficient difference per section G.1.2.1 */
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    temp2 = temp;
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    if (temp < 0) {
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      temp = -temp;		/* temp is abs value of input */
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      /* For a negative input, want temp2 = bitwise complement of abs(input) */
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      /* This code assumes we are on a two's complement machine */
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      temp2--;
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    }
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    /* Find the number of bits needed for the magnitude of the coefficient */
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    nbits = 0;
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    while (temp) {
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      nbits++;
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      temp >>= 1;
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    }
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    /* Check for out-of-range coefficient values.
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     * Since we're encoding a difference, the range limit is twice as much.
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     */
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    if (nbits > MAX_COEF_BITS+1)
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      ERREXIT(cinfo, JERR_BAD_DCT_COEF);
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    /* Count/emit the Huffman-coded symbol for the number of bits */
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    emit_symbol(entropy, compptr->dc_tbl_no, nbits);
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    /* Emit that number of bits of the value, if positive, */
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    /* or the complement of its magnitude, if negative. */
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    if (nbits)			/* emit_bits rejects calls with size 0 */
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      emit_bits(entropy, (unsigned int) temp2, nbits);
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  }
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  cinfo->dest->next_output_byte = entropy->next_output_byte;
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  cinfo->dest->free_in_buffer = entropy->free_in_buffer;
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  /* Update restart-interval state too */
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  if (cinfo->restart_interval) {
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    if (entropy->restarts_to_go == 0) {
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      entropy->restarts_to_go = cinfo->restart_interval;
darco 56a656 
      entropy->next_restart_num++;
darco 56a656 
      entropy->next_restart_num &= 7;
darco 56a656 
    }
darco 56a656 
    entropy->restarts_to_go--;
darco 56a656 
  }
darco 56a656
darco 56a656 
  return TRUE;
darco 56a656 
}
darco 56a656
darco 56a656
darco 56a656 
/*
darco 56a656 
 * MCU encoding for AC initial scan (either spectral selection,
darco 56a656 
 * or first pass of successive approximation).
darco 56a656 
 */
darco 56a656
darco 56a656 
METHODDEF(boolean)
darco 56a656 
encode_mcu_AC_first (j_compress_ptr cinfo, JBLOCKROW *MCU_data)
darco 56a656 
{
darco 56a656 
  phuff_entropy_ptr entropy = (phuff_entropy_ptr) cinfo->entropy;
darco 56a656 
  register int temp, temp2;
darco 56a656 
  register int nbits;
darco 56a656 
  register int r, k;
darco 56a656 
  int Se = cinfo->Se;
darco 56a656 
  int Al = cinfo->Al;
darco 56a656 
  JBLOCKROW block;
darco 56a656
darco 56a656 
  entropy->next_output_byte = cinfo->dest->next_output_byte;
darco 56a656 
  entropy->free_in_buffer = cinfo->dest->free_in_buffer;
darco 56a656
darco 56a656 
  /* Emit restart marker if needed */
darco 56a656 
  if (cinfo->restart_interval)
darco 56a656 
    if (entropy->restarts_to_go == 0)
darco 56a656 
      emit_restart(entropy, entropy->next_restart_num);
darco 56a656
darco 56a656 
  /* Encode the MCU data block */
darco 56a656 
  block = MCU_data[0];
darco 56a656
darco 56a656 
  /* Encode the AC coefficients per section G.1.2.2, fig. G.3 */
darco 56a656
darco 56a656 
  r = 0;			/* r = run length of zeros */
darco 56a656
darco 56a656 
  for (k = cinfo->Ss; k <= Se; k++) {
darco 56a656 
    if ((temp = (*block)[jpeg_natural_order[k]]) == 0) {
darco 56a656 
      r++;
darco 56a656 
      continue;
darco 56a656 
    }
darco 56a656 
    /* We must apply the point transform by Al.  For AC coefficients this
darco 56a656 
     * is an integer division with rounding towards 0.  To do this portably
darco 56a656 
     * in C, we shift after obtaining the absolute value; so the code is
darco 56a656 
     * interwoven with finding the abs value (temp) and output bits (temp2).
darco 56a656 
     */
darco 56a656 
    if (temp < 0) {
darco 56a656 
      temp = -temp;		/* temp is abs value of input */
darco 56a656 
      temp >>= Al;		/* apply the point transform */
darco 56a656 
      /* For a negative coef, want temp2 = bitwise complement of abs(coef) */
darco 56a656 
      temp2 = ~temp;
darco 56a656 
    } else {
darco 56a656 
      temp >>= Al;		/* apply the point transform */
darco 56a656 
      temp2 = temp;
darco 56a656 
    }
darco 56a656 
    /* Watch out for case that nonzero coef is zero after point transform */
darco 56a656 
    if (temp == 0) {
darco 56a656 
      r++;
darco 56a656 
      continue;
darco 56a656 
    }
darco 56a656
darco 56a656 
    /* Emit any pending EOBRUN */
darco 56a656 
    if (entropy->EOBRUN > 0)
darco 56a656 
      emit_eobrun(entropy);
darco 56a656 
    /* if run length > 15, must emit special run-length-16 codes (0xF0) */
darco 56a656 
    while (r > 15) {
darco 56a656 
      emit_symbol(entropy, entropy->ac_tbl_no, 0xF0);
darco 56a656 
      r -= 16;
darco 56a656 
    }
darco 56a656
darco 56a656 
    /* Find the number of bits needed for the magnitude of the coefficient */
darco 56a656 
    nbits = 1;			/* there must be at least one 1 bit */
darco 56a656 
    while ((temp >>= 1))
darco 56a656 
      nbits++;
darco 56a656 
    /* Check for out-of-range coefficient values */
darco 56a656 
    if (nbits > MAX_COEF_BITS)
darco 56a656 
      ERREXIT(cinfo, JERR_BAD_DCT_COEF);
darco 56a656
darco 56a656 
    /* Count/emit Huffman symbol for run length / number of bits */
darco 56a656 
    emit_symbol(entropy, entropy->ac_tbl_no, (r << 4) + nbits);
darco 56a656
darco 56a656 
    /* Emit that number of bits of the value, if positive, */
darco 56a656 
    /* or the complement of its magnitude, if negative. */
darco 56a656 
    emit_bits(entropy, (unsigned int) temp2, nbits);
darco 56a656
darco 56a656 
    r = 0;			/* reset zero run length */
darco 56a656 
  }
darco 56a656
darco 56a656 
  if (r > 0) {			/* If there are trailing zeroes, */
darco 56a656 
    entropy->EOBRUN++;		/* count an EOB */
darco 56a656 
    if (entropy->EOBRUN == 0x7FFF)
darco 56a656 
      emit_eobrun(entropy);	/* force it out to avoid overflow */
darco 56a656 
  }
darco 56a656
darco 56a656 
  cinfo->dest->next_output_byte = entropy->next_output_byte;
darco 56a656 
  cinfo->dest->free_in_buffer = entropy->free_in_buffer;
darco 56a656
darco 56a656 
  /* Update restart-interval state too */
darco 56a656 
  if (cinfo->restart_interval) {
darco 56a656 
    if (entropy->restarts_to_go == 0) {
darco 56a656 
      entropy->restarts_to_go = cinfo->restart_interval;
darco 56a656 
      entropy->next_restart_num++;
darco 56a656 
      entropy->next_restart_num &= 7;
darco 56a656 
    }
darco 56a656 
    entropy->restarts_to_go--;
darco 56a656 
  }
darco 56a656
darco 56a656 
  return TRUE;
darco 56a656 
}
darco 56a656
darco 56a656
darco 56a656 
/*
darco 56a656 
 * MCU encoding for DC successive approximation refinement scan.
darco 56a656 
 * Note: we assume such scans can be multi-component, although the spec
darco 56a656 
 * is not very clear on the point.
darco 56a656 
 */
darco 56a656
darco 56a656 
METHODDEF(boolean)
darco 56a656 
encode_mcu_DC_refine (j_compress_ptr cinfo, JBLOCKROW *MCU_data)
darco 56a656 
{
darco 56a656 
  phuff_entropy_ptr entropy = (phuff_entropy_ptr) cinfo->entropy;
darco 56a656 
  register int temp;
darco 56a656 
  int blkn;
darco 56a656 
  int Al = cinfo->Al;
darco 56a656 
  JBLOCKROW block;
darco 56a656
darco 56a656 
  entropy->next_output_byte = cinfo->dest->next_output_byte;
darco 56a656 
  entropy->free_in_buffer = cinfo->dest->free_in_buffer;
darco 56a656
darco 56a656 
  /* Emit restart marker if needed */
darco 56a656 
  if (cinfo->restart_interval)
darco 56a656 
    if (entropy->restarts_to_go == 0)
darco 56a656 
      emit_restart(entropy, entropy->next_restart_num);
darco 56a656
darco 56a656 
  /* Encode the MCU data blocks */
darco 56a656 
  for (blkn = 0; blkn < cinfo->blocks_in_MCU; blkn++) {
darco 56a656 
    block = MCU_data[blkn];
darco 56a656
darco 56a656 
    /* We simply emit the Al'th bit of the DC coefficient value. */
darco 56a656 
    temp = (*block)[0];
darco 56a656 
    emit_bits(entropy, (unsigned int) (temp >> Al), 1);
darco 56a656 
  }
darco 56a656
darco 56a656 
  cinfo->dest->next_output_byte = entropy->next_output_byte;
darco 56a656 
  cinfo->dest->free_in_buffer = entropy->free_in_buffer;
darco 56a656
darco 56a656 
  /* Update restart-interval state too */
darco 56a656 
  if (cinfo->restart_interval) {
darco 56a656 
    if (entropy->restarts_to_go == 0) {
darco 56a656 
      entropy->restarts_to_go = cinfo->restart_interval;
darco 56a656 
      entropy->next_restart_num++;
darco 56a656 
      entropy->next_restart_num &= 7;
darco 56a656 
    }
darco 56a656 
    entropy->restarts_to_go--;
darco 56a656 
  }
darco 56a656
darco 56a656 
  return TRUE;
darco 56a656 
}
darco 56a656
darco 56a656
darco 56a656 
/*
darco 56a656 
 * MCU encoding for AC successive approximation refinement scan.
darco 56a656 
 */
darco 56a656
darco 56a656 
METHODDEF(boolean)
darco 56a656 
encode_mcu_AC_refine (j_compress_ptr cinfo, JBLOCKROW *MCU_data)
darco 56a656 
{
darco 56a656 
  phuff_entropy_ptr entropy = (phuff_entropy_ptr) cinfo->entropy;
darco 56a656 
  register int temp;
darco 56a656 
  register int r, k;
darco 56a656 
  int EOB;
darco 56a656 
  char *BR_buffer;
darco 56a656 
  unsigned int BR;
darco 56a656 
  int Se = cinfo->Se;
darco 56a656 
  int Al = cinfo->Al;
darco 56a656 
  JBLOCKROW block;
darco 56a656 
  int absvalues[DCTSIZE2];
darco 56a656
darco 56a656 
  entropy->next_output_byte = cinfo->dest->next_output_byte;
darco 56a656 
  entropy->free_in_buffer = cinfo->dest->free_in_buffer;
darco 56a656
darco 56a656 
  /* Emit restart marker if needed */
darco 56a656 
  if (cinfo->restart_interval)
darco 56a656 
    if (entropy->restarts_to_go == 0)
darco 56a656 
      emit_restart(entropy, entropy->next_restart_num);
darco 56a656
darco 56a656 
  /* Encode the MCU data block */
darco 56a656 
  block = MCU_data[0];
darco 56a656
darco 56a656 
  /* It is convenient to make a pre-pass to determine the transformed
darco 56a656 
   * coefficients' absolute values and the EOB position.
darco 56a656 
   */
darco 56a656 
  EOB = 0;
darco 56a656 
  for (k = cinfo->Ss; k <= Se; k++) {
darco 56a656 
    temp = (*block)[jpeg_natural_order[k]];
darco 56a656 
    /* We must apply the point transform by Al.  For AC coefficients this
darco 56a656 
     * is an integer division with rounding towards 0.  To do this portably
darco 56a656 
     * in C, we shift after obtaining the absolute value.
darco 56a656 
     */
darco 56a656 
    if (temp < 0)
darco 56a656 
      temp = -temp;		/* temp is abs value of input */
darco 56a656 
    temp >>= Al;		/* apply the point transform */
darco 56a656 
    absvalues[k] = temp;	/* save abs value for main pass */
darco 56a656 
    if (temp == 1)
darco 56a656 
      EOB = k;			/* EOB = index of last newly-nonzero coef */
darco 56a656 
  }
darco 56a656
darco 56a656 
  /* Encode the AC coefficients per section G.1.2.3, fig. G.7 */
darco 56a656
darco 56a656 
  r = 0;			/* r = run length of zeros */
darco 56a656 
  BR = 0;			/* BR = count of buffered bits added now */
darco 56a656 
  BR_buffer = entropy->bit_buffer + entropy->BE; /* Append bits to buffer */
darco 56a656
darco 56a656 
  for (k = cinfo->Ss; k <= Se; k++) {
darco 56a656 
    if ((temp = absvalues[k]) == 0) {
darco 56a656 
      r++;
darco 56a656 
      continue;
darco 56a656 
    }
darco 56a656
darco 56a656 
    /* Emit any required ZRLs, but not if they can be folded into EOB */
darco 56a656 
    while (r > 15 && k <= EOB) {
darco 56a656 
      /* emit any pending EOBRUN and the BE correction bits */
darco 56a656 
      emit_eobrun(entropy);
darco 56a656 
      /* Emit ZRL */
darco 56a656 
      emit_symbol(entropy, entropy->ac_tbl_no, 0xF0);
darco 56a656 
      r -= 16;
darco 56a656 
      /* Emit buffered correction bits that must be associated with ZRL */
darco 56a656 
      emit_buffered_bits(entropy, BR_buffer, BR);
darco 56a656 
      BR_buffer = entropy->bit_buffer; /* BE bits are gone now */
darco 56a656 
      BR = 0;
darco 56a656 
    }
darco 56a656
darco 56a656 
    /* If the coef was previously nonzero, it only needs a correction bit.
darco 56a656 
     * NOTE: a straight translation of the spec's figure G.7 would suggest
darco 56a656 
     * that we also need to test r > 15.  But if r > 15, we can only get here
darco 56a656 
     * if k > EOB, which implies that this coefficient is not 1.
darco 56a656 
     */
darco 56a656 
    if (temp > 1) {
darco 56a656 
      /* The correction bit is the next bit of the absolute value. */
darco 56a656 
      BR_buffer[BR++] = (char) (temp & 1);
darco 56a656 
      continue;
darco 56a656 
    }
darco 56a656
darco 56a656 
    /* Emit any pending EOBRUN and the BE correction bits */
darco 56a656 
    emit_eobrun(entropy);
darco 56a656
darco 56a656 
    /* Count/emit Huffman symbol for run length / number of bits */
darco 56a656 
    emit_symbol(entropy, entropy->ac_tbl_no, (r << 4) + 1);
darco 56a656
darco 56a656 
    /* Emit output bit for newly-nonzero coef */
darco 56a656 
    temp = ((*block)[jpeg_natural_order[k]] < 0) ? 0 : 1;
darco 56a656 
    emit_bits(entropy, (unsigned int) temp, 1);
darco 56a656
darco 56a656 
    /* Emit buffered correction bits that must be associated with this code */
darco 56a656 
    emit_buffered_bits(entropy, BR_buffer, BR);
darco 56a656 
    BR_buffer = entropy->bit_buffer; /* BE bits are gone now */
darco 56a656 
    BR = 0;
darco 56a656 
    r = 0;			/* reset zero run length */
darco 56a656 
  }
darco 56a656
darco 56a656 
  if (r > 0 || BR > 0) {	/* If there are trailing zeroes, */
darco 56a656 
    entropy->EOBRUN++;		/* count an EOB */
darco 56a656 
    entropy->BE += BR;		/* concat my correction bits to older ones */
darco 56a656 
    /* We force out the EOB if we risk either:
darco 56a656 
     * 1. overflow of the EOB counter;
darco 56a656 
     * 2. overflow of the correction bit buffer during the next MCU.
darco 56a656 
     */
darco 56a656 
    if (entropy->EOBRUN == 0x7FFF || entropy->BE > (MAX_CORR_BITS-DCTSIZE2+1))
darco 56a656 
      emit_eobrun(entropy);
darco 56a656 
  }
darco 56a656
darco 56a656 
  cinfo->dest->next_output_byte = entropy->next_output_byte;
darco 56a656 
  cinfo->dest->free_in_buffer = entropy->free_in_buffer;
darco 56a656
darco 56a656 
  /* Update restart-interval state too */
darco 56a656 
  if (cinfo->restart_interval) {
darco 56a656 
    if (entropy->restarts_to_go == 0) {
darco 56a656 
      entropy->restarts_to_go = cinfo->restart_interval;
darco 56a656 
      entropy->next_restart_num++;
darco 56a656 
      entropy->next_restart_num &= 7;
darco 56a656 
    }
darco 56a656 
    entropy->restarts_to_go--;
darco 56a656 
  }
darco 56a656
darco 56a656 
  return TRUE;
darco 56a656 
}
darco 56a656
darco 56a656
darco 56a656 
/*
darco 56a656 
 * Finish up at the end of a Huffman-compressed progressive scan.
darco 56a656 
 */
darco 56a656
darco 56a656 
METHODDEF(void)
darco 56a656 
finish_pass_phuff (j_compress_ptr cinfo)
darco 56a656 
{
darco 56a656 
  phuff_entropy_ptr entropy = (phuff_entropy_ptr) cinfo->entropy;
darco 56a656
darco 56a656 
  entropy->next_output_byte = cinfo->dest->next_output_byte;
darco 56a656 
  entropy->free_in_buffer = cinfo->dest->free_in_buffer;
darco 56a656
darco 56a656 
  /* Flush out any buffered data */
darco 56a656 
  emit_eobrun(entropy);
darco 56a656 
  flush_bits(entropy);
darco 56a656
darco 56a656 
  cinfo->dest->next_output_byte = entropy->next_output_byte;
darco 56a656 
  cinfo->dest->free_in_buffer = entropy->free_in_buffer;
darco 56a656 
}
darco 56a656
darco 56a656
darco 56a656 
/*
darco 56a656 
 * Finish up a statistics-gathering pass and create the new Huffman tables.
darco 56a656 
 */
darco 56a656
darco 56a656 
METHODDEF(void)
darco 56a656 
finish_pass_gather_phuff (j_compress_ptr cinfo)
darco 56a656 
{
darco 56a656 
  phuff_entropy_ptr entropy = (phuff_entropy_ptr) cinfo->entropy;
darco 56a656 
  boolean is_DC_band;
darco 56a656 
  int ci, tbl;
darco 56a656 
  jpeg_component_info * compptr;
darco 56a656 
  JHUFF_TBL **htblptr;
darco 56a656 
  boolean did[NUM_HUFF_TBLS];
darco 56a656
darco 56a656 
  /* Flush out buffered data (all we care about is counting the EOB symbol) */
darco 56a656 
  emit_eobrun(entropy);
darco 56a656
darco 56a656 
  is_DC_band = (cinfo->Ss == 0);
darco 56a656
darco 56a656 
  /* It's important not to apply jpeg_gen_optimal_table more than once
darco 56a656 
   * per table, because it clobbers the input frequency counts!
darco 56a656 
   */
darco 56a656 
  MEMZERO(did, SIZEOF(did));
darco 56a656
darco 56a656 
  for (ci = 0; ci < cinfo->comps_in_scan; ci++) {
darco 56a656 
    compptr = cinfo->cur_comp_info[ci];
darco 56a656 
    if (is_DC_band) {
darco 56a656 
      if (cinfo->Ah != 0)	/* DC refinement needs no table */
darco 56a656 
	continue;
darco 56a656 
      tbl = compptr->dc_tbl_no;
darco 56a656 
    } else {
darco 56a656 
      tbl = compptr->ac_tbl_no;
darco 56a656 
    }
darco 56a656 
    if (! did[tbl]) {
darco 56a656 
      if (is_DC_band)
darco 56a656 
        htblptr = & cinfo->dc_huff_tbl_ptrs[tbl];
darco 56a656 
      else
darco 56a656 
        htblptr = & cinfo->ac_huff_tbl_ptrs[tbl];
darco 56a656 
      if (*htblptr == NULL)
darco 56a656 
        *htblptr = jpeg_alloc_huff_table((j_common_ptr) cinfo);
darco 56a656 
      jpeg_gen_optimal_table(cinfo, *htblptr, entropy->count_ptrs[tbl]);
darco 56a656 
      did[tbl] = TRUE;
darco 56a656 
    }
darco 56a656 
  }
darco 56a656 
}
darco 56a656
darco 56a656
darco 56a656 
/*
darco 56a656 
 * Module initialization routine for progressive Huffman entropy encoding.
darco 56a656 
 */
darco 56a656
darco 56a656 
GLOBAL(void)
darco 56a656 
jinit_phuff_encoder (j_compress_ptr cinfo)
darco 56a656 
{
darco 56a656 
  phuff_entropy_ptr entropy;
darco 56a656 
  int i;
darco 56a656
darco 56a656 
  entropy = (phuff_entropy_ptr)
darco 56a656 
    (*cinfo->mem->alloc_small) ((j_common_ptr) cinfo, JPOOL_IMAGE,
darco 56a656 
				SIZEOF(phuff_entropy_encoder));
darco 56a656 
  cinfo->entropy = (struct jpeg_entropy_encoder *) entropy;
darco 56a656 
  entropy->pub.start_pass = start_pass_phuff;
darco 56a656
darco 56a656 
  /* Mark tables unallocated */
darco 56a656 
  for (i = 0; i < NUM_HUFF_TBLS; i++) {
darco 56a656 
    entropy->derived_tbls[i] = NULL;
darco 56a656 
    entropy->count_ptrs[i] = NULL;
darco 56a656 
  }
darco 56a656 
  entropy->bit_buffer = NULL;	/* needed only in AC refinement scan */
darco 56a656 
}
darco 56a656
darco 56a656 
#endif /* C_PROGRESSIVE_SUPPORTED */

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