kc3-lang/libjpeg-turbo/jrdgif.c

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• Hash : 88aeed42
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  Date : 1992-12-10T00:00:00
  

  The Independent JPEG Group's JPEG software v4
  

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• jrdgif.c

• /*
   * jrdgif.c
   *
   * Copyright (C) 1991, 1992, Thomas G. Lane.
   * This file is part of the Independent JPEG Group's software.
   * For conditions of distribution and use, see the accompanying README file.
   *
   * This file contains routines to read input images in GIF format.
   *
   * These routines may need modification for non-Unix environments or
   * specialized applications.  As they stand, they assume input from
   * an ordinary stdio stream.  They further assume that reading begins
   * at the start of the file; input_init may need work if the
   * user interface has already read some data (e.g., to determine that
   * the file is indeed GIF format).
   *
   * These routines are invoked via the methods get_input_row
   * and input_init/term.
   */
  
  /*
   * This code is loosely based on giftoppm from the PBMPLUS distribution
   * of Feb. 1991.  That file contains the following copyright notice:
   * +-------------------------------------------------------------------+
   * | Copyright 1990, David Koblas.                                     |
   * |   Permission to use, copy, modify, and distribute this software   |
   * |   and its documentation for any purpose and without fee is hereby |
   * |   granted, provided that the above copyright notice appear in all |
   * |   copies and that both that copyright notice and this permission  |
   * |   notice appear in supporting documentation.  This software is    |
   * |   provided "as is" without express or implied warranty.           |
   * +-------------------------------------------------------------------+
   *
   * We are also required to state that
   *    "The Graphics Interchange Format(c) is the Copyright property of
   *    CompuServe Incorporated. GIF(sm) is a Service Mark property of
   *    CompuServe Incorporated."
   */
  
  #include "jinclude.h"
  
  #ifdef GIF_SUPPORTED
  
  
  #define	MAXCOLORMAPSIZE	256	/* max # of colors in a GIF colormap */
  #define NUMCOLORS	3	/* # of colors */
  #define CM_RED		0	/* color component numbers */
  #define CM_GREEN	1
  #define CM_BLUE		2
  
  static JSAMPARRAY colormap;	/* the colormap to use */
  /* colormap[i][j] = value of i'th color component for pixel value j */
  
  #define	MAX_LZW_BITS	12	/* maximum LZW code size */
  #define LZW_TABLE_SIZE	(1<<MAX_LZW_BITS) /* # of possible LZW symbols */
  
  /* Macros for extracting header data --- note we assume chars may be signed */
  
  #define LM_to_uint(a,b)		((((b)&0xFF) << 8) | ((a)&0xFF))
  
  #define BitSet(byte, bit)	((byte) & (bit))
  #define INTERLACE	0x40	/* mask for bit signifying interlaced image */
  #define COLORMAPFLAG	0x80	/* mask for bit signifying colormap presence */
  
  #define	ReadOK(file,buffer,len)	(JFREAD(file,buffer,len) == ((size_t) (len)))
  
  /* Static vars for GetCode and LZWReadByte */
  
  static char code_buf[256+4];	/* current input data block */
  static int last_byte;		/* # of bytes in code_buf */
  static int last_bit;		/* # of bits in code_buf */
  static int cur_bit;		/* next bit index to read */
  static boolean out_of_blocks;	/* TRUE if hit terminator data block */
  
  static int input_code_size;	/* codesize given in GIF file */
  static int clear_code,end_code; /* values for Clear and End codes */
  
  static int code_size;		/* current actual code size */
  static int limit_code;		/* 2^code_size */
  static int max_code;		/* first unused code value */
  static boolean first_time;	/* flags first call to LZWReadByte */
  
  /* LZW decompression tables:
   *   symbol_head[K] = prefix symbol of any LZW symbol K (0..LZW_TABLE_SIZE-1)
   *   symbol_tail[K] = suffix byte   of any LZW symbol K (0..LZW_TABLE_SIZE-1)
   * Note that entries 0..end_code of the above tables are not used,
   * since those symbols represent raw bytes or special codes.
   *
   * The stack represents the not-yet-used expansion of the last LZW symbol.
   * In the worst case, a symbol could expand to as many bytes as there are
   * LZW symbols, so we allocate LZW_TABLE_SIZE bytes for the stack.
   * (This is conservative since that number includes the raw-byte symbols.)
   *
   * The tables are allocated from FAR heap space since they would use up
   * rather a lot of the near data space in a PC.
   */
  
  static UINT16 FAR *symbol_head; /* => table of prefix symbols */
  static UINT8  FAR *symbol_tail; /* => table of suffix bytes */
  static UINT8  FAR *symbol_stack; /* stack for symbol expansions */
  static UINT8  FAR *sp;		/* stack pointer */
  
  /* Static state for interlaced image processing */
  
  static boolean is_interlaced;	/* TRUE if have interlaced image */
  static big_sarray_ptr interlaced_image;	/* full image in interlaced order */
  static long cur_row_number;	/* need to know actual row number */
  static long pass2_offset;	/* # of pixel rows in pass 1 */
  static long pass3_offset;	/* # of pixel rows in passes 1&2 */
  static long pass4_offset;	/* # of pixel rows in passes 1,2,3 */
  
  
  /* Forward declarations */
  METHODDEF void load_interlaced_image PP((compress_info_ptr cinfo, JSAMPARRAY pixel_row));
  METHODDEF void get_interlaced_row PP((compress_info_ptr cinfo, JSAMPARRAY pixel_row));
  
  
  
  LOCAL int
  ReadByte (compress_info_ptr cinfo)
  /* Read next byte from GIF file */
  {
    register FILE * infile = cinfo->input_file;
    int c;
  
    if ((c = getc(infile)) == EOF)
      ERREXIT(cinfo->emethods, "Premature EOF in GIF file");
    return c;
  }
  
  
  LOCAL int
  GetDataBlock (compress_info_ptr cinfo, char *buf)
  /* Read a GIF data block, which has a leading count byte */
  /* A zero-length block marks the end of a data block sequence */
  {
    int count;
  
    count = ReadByte(cinfo);
    if (count > 0) {
      if (! ReadOK(cinfo->input_file, buf, count))
        ERREXIT(cinfo->emethods, "Premature EOF in GIF file");
    }
    return count;
  }
  
  
  LOCAL void
  SkipDataBlocks (compress_info_ptr cinfo)
  /* Skip a series of data blocks, until a block terminator is found */
  {
    char buf[256];
  
    while (GetDataBlock(cinfo, buf) > 0)
      /* skip */;
  }
  
  
  LOCAL void
  ReInitLZW (void)
  /* (Re)initialize LZW state; shared code for startup and Clear processing */
  {
    code_size = input_code_size+1;
    limit_code = clear_code << 1;	/* 2^code_size */
    max_code = clear_code + 2;	/* first unused code value */
    sp = symbol_stack;		/* init stack to empty */
  }
  
  
  LOCAL void
  InitLZWCode (void)
  /* Initialize for a series of LZWReadByte (and hence GetCode) calls */
  {
    /* GetCode initialization */
    last_byte = 2;		/* make safe to "recopy last two bytes" */
    last_bit = 0;			/* nothing in the buffer */
    cur_bit = 0;			/* force buffer load on first call */
    out_of_blocks = FALSE;
  
    /* LZWReadByte initialization */
    clear_code = 1 << input_code_size; /* compute special code values */
    end_code = clear_code + 1;	/* note that these do not change */
    first_time = TRUE;
    ReInitLZW();
  }
  
  
  LOCAL int
  GetCode (compress_info_ptr cinfo)
  /* Fetch the next code_size bits from the GIF data */
  /* We assume code_size is less than 16 */
  {
    register INT32 accum;
    int offs, ret, count;
  
    if ( (cur_bit+code_size) > last_bit) {
      /* Time to reload the buffer */
      if (out_of_blocks) {
        WARNMS(cinfo->emethods, "Ran out of GIF bits");
        return end_code;		/* fake something useful */
      }
      /* preserve last two bytes of what we have -- assume code_size <= 16 */
      code_buf[0] = code_buf[last_byte-2];
      code_buf[1] = code_buf[last_byte-1];
      /* Load more bytes; set flag if we reach the terminator block */
      if ((count = GetDataBlock(cinfo, &code_buf[2])) == 0) {
        out_of_blocks = TRUE;
        WARNMS(cinfo->emethods, "Ran out of GIF bits");
        return end_code;		/* fake something useful */
      }
      /* Reset counters */
      cur_bit = (cur_bit - last_bit) + 16;
      last_byte = 2 + count;
      last_bit = last_byte * 8;
    }
  
    /* Form up next 24 bits in accum */
    offs = cur_bit >> 3;		/* byte containing cur_bit */
  #ifdef CHAR_IS_UNSIGNED
    accum = code_buf[offs+2];
    accum <<= 8;
    accum |= code_buf[offs+1];
    accum <<= 8;
    accum |= code_buf[offs];
  #else
    accum = code_buf[offs+2] & 0xFF;
    accum <<= 8;
    accum |= code_buf[offs+1] & 0xFF;
    accum <<= 8;
    accum |= code_buf[offs] & 0xFF;
  #endif
  
    /* Right-align cur_bit in accum, then mask off desired number of bits */
    accum >>= (cur_bit & 7);
    ret = ((int) accum) & ((1 << code_size) - 1);
    
    cur_bit += code_size;
    return ret;
  }
  
  
  LOCAL int
  LZWReadByte (compress_info_ptr cinfo)
  /* Read an LZW-compressed byte */
  {
    static int oldcode;		/* previous LZW symbol */
    static int firstcode;		/* first byte of oldcode's expansion */
    register int code;		/* current working code */
    int incode;			/* saves actual input code */
  
    /* First time, just eat the expected Clear code(s) and return next code, */
    /* which is expected to be a raw byte. */
    if (first_time) {
      first_time = FALSE;
      code = clear_code;		/* enables sharing code with Clear case */
    } else {
  
      /* If any codes are stacked from a previously read symbol, return them */
      if (sp > symbol_stack)
        return (int) *(--sp);
  
      /* Time to read a new symbol */
      code = GetCode(cinfo);
  
    }
  
    if (code == clear_code) {
      /* Reinit static state, swallow any extra Clear codes, and */
      /* return next code, which is expected to be a raw byte. */
      ReInitLZW();
      do {
        code = GetCode(cinfo);
      } while (code == clear_code);
      if (code > clear_code) {	/* make sure it is a raw byte */
        WARNMS(cinfo->emethods, "Corrupt data in GIF file");
        code = 0;			/* use something valid */
      }
      firstcode = oldcode = code;	/* make firstcode, oldcode valid! */
      return code;
    }
  
    if (code == end_code) {
      /* Skip the rest of the image, unless GetCode already read terminator */
      if (! out_of_blocks) {
        SkipDataBlocks(cinfo);
        out_of_blocks = TRUE;
      }
      /* Complain that there's not enough data */
      WARNMS(cinfo->emethods, "Premature end of GIF image");
      /* Pad data with 0's */
      return 0;			/* fake something usable */
    }
  
    /* Got normal raw byte or LZW symbol */
    incode = code;		/* save for a moment */
    
    if (code >= max_code) {	/* special case for not-yet-defined symbol */
      /* code == max_code is OK; anything bigger is bad data */
      if (code > max_code) {
        WARNMS(cinfo->emethods, "Corrupt data in GIF file");
        incode = 0;		/* prevent creation of loops in symbol table */
      }
      *sp++ = (UINT8) firstcode;	/* it will be defined as oldcode/firstcode */
      code = oldcode;
    }
  
    /* If it's a symbol, expand it into the stack */
    while (code >= clear_code) {
      *sp++ = symbol_tail[code];	/* tail of symbol: a simple byte value */
      code = symbol_head[code];	/* head of symbol: another LZW symbol */
    }
    /* At this point code just represents a raw byte */
    firstcode = code;		/* save for possible future use */
  
    /* If there's room in table, */
    if ((code = max_code) < LZW_TABLE_SIZE) {
      /* Define a new symbol = prev sym + head of this sym's expansion */
      symbol_head[code] = oldcode;
      symbol_tail[code] = (UINT8) firstcode;
      max_code++;
      /* Is it time to increase code_size? */
      if ((max_code >= limit_code) && (code_size < MAX_LZW_BITS)) {
        code_size++;
        limit_code <<= 1;		/* keep equal to 2^code_size */
      }
    }
    
    oldcode = incode;		/* save last input symbol for future use */
    return firstcode;		/* return first byte of symbol's expansion */
  }
  
  
  LOCAL void
  ReadColorMap (compress_info_ptr cinfo, int cmaplen, JSAMPARRAY cmap)
  /* Read a GIF colormap */
  {
    int i;
  
    for (i = 0; i < cmaplen; i++) {
      cmap[CM_RED][i]   = (JSAMPLE) ReadByte(cinfo);
      cmap[CM_GREEN][i] = (JSAMPLE) ReadByte(cinfo);
      cmap[CM_BLUE][i]  = (JSAMPLE) ReadByte(cinfo);
    }
  }
  
  
  LOCAL void
  DoExtension (compress_info_ptr cinfo)
  /* Process an extension block */
  /* Currently we ignore 'em all */
  {
    int extlabel;
  
    /* Read extension label byte */
    extlabel = ReadByte(cinfo);
    TRACEMS1(cinfo->emethods, 1, "Ignoring GIF extension block of type 0x%02x",
  	   extlabel);
    /* Skip the data block(s) associated with the extension */
    SkipDataBlocks(cinfo);
  }
  
  
  /*
   * Read the file header; return image size and component count.
   */
  
  METHODDEF void
  input_init (compress_info_ptr cinfo)
  {
    char hdrbuf[10];		/* workspace for reading control blocks */
    UINT16 width, height;		/* image dimensions */
    int colormaplen, aspectRatio;
    int c;
  
    /* Allocate space to store the colormap */
    colormap = (*cinfo->emethods->alloc_small_sarray)
  		((long) MAXCOLORMAPSIZE, (long) NUMCOLORS);
  
    /* Read and verify GIF Header */
    if (! ReadOK(cinfo->input_file, hdrbuf, 6))
      ERREXIT(cinfo->emethods, "Not a GIF file");
    if (hdrbuf[0] != 'G' || hdrbuf[1] != 'I' || hdrbuf[2] != 'F')
      ERREXIT(cinfo->emethods, "Not a GIF file");
    /* Check for expected version numbers.
     * If unknown version, give warning and try to process anyway;
     * this is per recommendation in GIF89a standard.
     */
    if ((hdrbuf[3] != '8' || hdrbuf[4] != '7' || hdrbuf[5] != 'a') &&
        (hdrbuf[3] != '8' || hdrbuf[4] != '9' || hdrbuf[5] != 'a'))
      TRACEMS3(cinfo->emethods, 1,
  	     "Warning: unexpected GIF version number '%c%c%c'",
  	     hdrbuf[3], hdrbuf[4], hdrbuf[5]);
  
    /* Read and decipher Logical Screen Descriptor */
    if (! ReadOK(cinfo->input_file, hdrbuf, 7))
      ERREXIT(cinfo->emethods, "Premature EOF in GIF file");
    width = LM_to_uint(hdrbuf[0],hdrbuf[1]);
    height = LM_to_uint(hdrbuf[2],hdrbuf[3]);
    colormaplen = 2 << (hdrbuf[4] & 0x07);
    /* we ignore the color resolution, sort flag, and background color index */
    aspectRatio = hdrbuf[6] & 0xFF;
    if (aspectRatio != 0 && aspectRatio != 49)
      TRACEMS(cinfo->emethods, 1, "Warning: nonsquare pixels in input");
  
    /* Read global colormap if header indicates it is present */
    if (BitSet(hdrbuf[4], COLORMAPFLAG))
      ReadColorMap(cinfo, colormaplen, colormap);
  
    /* Scan until we reach start of desired image.
     * We don't currently support skipping images, but could add it easily.
     */
    for (;;) {
      c = ReadByte(cinfo);
  
      if (c == ';')		/* GIF terminator?? */
        ERREXIT(cinfo->emethods, "Too few images in GIF file");
  
      if (c == '!') {		/* Extension */
        DoExtension(cinfo);
        continue;
      }
      
      if (c != ',') {		/* Not an image separator? */
        TRACEMS1(cinfo->emethods, 1, "Bogus input char 0x%02x, ignoring", c);
        continue;
      }
  
      /* Read and decipher Local Image Descriptor */
      if (! ReadOK(cinfo->input_file, hdrbuf, 9))
        ERREXIT(cinfo->emethods, "Premature EOF in GIF file");
      /* we ignore top/left position info, also sort flag */
      width = LM_to_uint(hdrbuf[4],hdrbuf[5]);
      height = LM_to_uint(hdrbuf[6],hdrbuf[7]);
      is_interlaced = BitSet(hdrbuf[8], INTERLACE);
  
      /* Read local colormap if header indicates it is present */
      /* Note: if we wanted to support skipping images, */
      /* we'd need to skip rather than read colormap for ignored images */
      if (BitSet(hdrbuf[8], COLORMAPFLAG)) {
        colormaplen = 2 << (hdrbuf[8] & 0x07);
        ReadColorMap(cinfo, colormaplen, colormap);
      }
  
      input_code_size = ReadByte(cinfo); /* get minimum-code-size byte */
      if (input_code_size < 2 || input_code_size >= MAX_LZW_BITS)
        ERREXIT1(cinfo->emethods, "Bogus codesize %d", input_code_size);
  
      /* Reached desired image, so break out of loop */
      /* If we wanted to skip this image, */
      /* we'd call SkipDataBlocks and then continue the loop */
      break;
    }
  
    /* Prepare to read selected image: first initialize LZW decompressor */
    symbol_head = (UINT16 FAR *) (*cinfo->emethods->alloc_medium)
  				(LZW_TABLE_SIZE * SIZEOF(UINT16));
    symbol_tail = (UINT8 FAR *) (*cinfo->emethods->alloc_medium)
  				(LZW_TABLE_SIZE * SIZEOF(UINT8));
    symbol_stack = (UINT8 FAR *) (*cinfo->emethods->alloc_medium)
  				(LZW_TABLE_SIZE * SIZEOF(UINT8));
    InitLZWCode();
  
    /*
     * If image is interlaced, we read it into a full-size sample array,
     * decompressing as we go; then get_input_row selects rows from the
     * sample array in the proper order.
     */
    if (is_interlaced) {
      /* We request the big array now, but can't access it until the pipeline
       * controller causes all the big arrays to be allocated.  Hence, the
       * actual work of reading the image is postponed until the first call
       * of get_input_row.
       */
      interlaced_image = (*cinfo->emethods->request_big_sarray)
  		((long) width, (long) height, 1L);
      cinfo->methods->get_input_row = load_interlaced_image;
      cinfo->total_passes++;	/* count file reading as separate pass */
    }
  
    /* Return info about the image. */
    cinfo->input_components = NUMCOLORS;
    cinfo->in_color_space = CS_RGB;
    cinfo->image_width = width;
    cinfo->image_height = height;
    cinfo->data_precision = 8;	/* always, even if 12-bit JSAMPLEs */
  
    TRACEMS3(cinfo->emethods, 1, "%ux%ux%d GIF image",
  	   (unsigned int) width, (unsigned int) height, colormaplen);
  }
  
  
  /*
   * Read one row of pixels.
   * This version is used for noninterlaced GIF images:
   * we read directly from the GIF file.
   */
  
  METHODDEF void
  get_input_row (compress_info_ptr cinfo, JSAMPARRAY pixel_row)
  {
    register JSAMPROW ptr0, ptr1, ptr2;
    register long col;
    register int c;
    
    ptr0 = pixel_row[0];
    ptr1 = pixel_row[1];
    ptr2 = pixel_row[2];
    for (col = cinfo->image_width; col > 0; col--) {
      c = LZWReadByte(cinfo);
      *ptr0++ = colormap[CM_RED][c];
      *ptr1++ = colormap[CM_GREEN][c];
      *ptr2++ = colormap[CM_BLUE][c];
    }
  }
  
  
  /*
   * Read one row of pixels.
   * This version is used for the first call on get_input_row when
   * reading an interlaced GIF file: we read the whole image into memory.
   */
  
  METHODDEF void
  load_interlaced_image (compress_info_ptr cinfo, JSAMPARRAY pixel_row)
  {
    JSAMPARRAY image_ptr;
    register JSAMPROW sptr;
    register long col;
    long row;
  
    /* Read the interlaced image into the big array we've created. */
    for (row = 0; row < cinfo->image_height; row++) {
      (*cinfo->methods->progress_monitor) (cinfo, row, cinfo->image_height);
      image_ptr = (*cinfo->emethods->access_big_sarray)
  			(interlaced_image, row, TRUE);
      sptr = image_ptr[0];
      for (col = cinfo->image_width; col > 0; col--) {
        *sptr++ = (JSAMPLE) LZWReadByte(cinfo);
      }
    }
    cinfo->completed_passes++;
  
    /* Replace method pointer so subsequent calls don't come here. */
    cinfo->methods->get_input_row = get_interlaced_row;
    /* Initialize for get_interlaced_row, and perform first call on it. */
    cur_row_number = 0;
    pass2_offset = (cinfo->image_height + 7L) / 8L;
    pass3_offset = pass2_offset + (cinfo->image_height + 3L) / 8L;
    pass4_offset = pass3_offset + (cinfo->image_height + 1L) / 4L;
  
    get_interlaced_row(cinfo, pixel_row);
  }
  
  
  /*
   * Read one row of pixels.
   * This version is used for interlaced GIF images:
   * we read from the big in-memory image.
   */
  
  METHODDEF void
  get_interlaced_row (compress_info_ptr cinfo, JSAMPARRAY pixel_row)
  {
    JSAMPARRAY image_ptr;
    register JSAMPROW sptr, ptr0, ptr1, ptr2;
    register long col;
    register int c;
    long irow;
  
    /* Figure out which row of interlaced image is needed, and access it. */
    switch ((int) (cur_row_number & 7L)) {
    case 0:			/* first-pass row */
      irow = cur_row_number >> 3;
      break;
    case 4:			/* second-pass row */
      irow = (cur_row_number >> 3) + pass2_offset;
      break;
    case 2:			/* third-pass row */
    case 6:
      irow = (cur_row_number >> 2) + pass3_offset;
      break;
    default:			/* fourth-pass row */
      irow = (cur_row_number >> 1) + pass4_offset;
      break;
    }
    image_ptr = (*cinfo->emethods->access_big_sarray)
  			(interlaced_image, irow, FALSE);
    /* Scan the row, expand colormap, and output */
    sptr = image_ptr[0];
    ptr0 = pixel_row[0];
    ptr1 = pixel_row[1];
    ptr2 = pixel_row[2];
    for (col = cinfo->image_width; col > 0; col--) {
      c = GETJSAMPLE(*sptr++);
      *ptr0++ = colormap[CM_RED][c];
      *ptr1++ = colormap[CM_GREEN][c];
      *ptr2++ = colormap[CM_BLUE][c];
    }
    cur_row_number++;		/* for next time */
  }
  
  
  /*
   * Finish up at the end of the file.
   */
  
  METHODDEF void
  input_term (compress_info_ptr cinfo)
  {
    /* no work (we let free_all release the workspace) */
  }
  
  
  /*
   * The method selection routine for GIF format input.
   * Note that this must be called by the user interface before calling
   * jpeg_compress.  If multiple input formats are supported, the
   * user interface is responsible for discovering the file format and
   * calling the appropriate method selection routine.
   */
  
  GLOBAL void
  jselrgif (compress_info_ptr cinfo)
  {
    cinfo->methods->input_init = input_init;
    cinfo->methods->get_input_row = get_input_row; /* assume uninterlaced */
    cinfo->methods->input_term = input_term;
  }
  
  #endif /* GIF_SUPPORTED */
  

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