/* $Header: /cvs/maptools/cvsroot/libtiff/tools/tiffcp.c,v 1.19 2004-02-05 15:40:31 dron Exp $ */ /* * Copyright (c) 1988-1997 Sam Leffler * Copyright (c) 1991-1997 Silicon Graphics, Inc. * * Revised: 2/18/01 BAR -- added syntax for extracting single images from * multi-image TIFF files. * * New syntax is: sourceFileName,image# * * image# ranges from 0.. where n is the # of images in the file. * There may be no white space between the comma and the filename or * image number. * * Example: tiffcp source.tif,1 destination.tif * * Copies the 2nd image in source.tif to the destination. * ***** * Permission to use, copy, modify, distribute, and sell this software and * its documentation for any purpose is hereby granted without fee, provided * that (i) the above copyright notices and this permission notice appear in * all copies of the software and related documentation, and (ii) the names of * Sam Leffler and Silicon Graphics may not be used in any advertising or * publicity relating to the software without the specific, prior written * permission of Sam Leffler and Silicon Graphics. * * THE SOFTWARE IS PROVIDED "AS-IS" AND WITHOUT WARRANTY OF ANY KIND, * EXPRESS, IMPLIED OR OTHERWISE, INCLUDING WITHOUT LIMITATION, ANY * WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. * * IN NO EVENT SHALL SAM LEFFLER OR SILICON GRAPHICS BE LIABLE FOR * ANY SPECIAL, INCIDENTAL, INDIRECT OR CONSEQUENTIAL DAMAGES OF ANY KIND, * OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, * WHETHER OR NOT ADVISED OF THE POSSIBILITY OF DAMAGE, AND ON ANY THEORY OF * LIABILITY, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE * OF THIS SOFTWARE. */ #include #include #include #include #include #include "tiffio.h" #if defined(VMS) #define unlink delete #endif #define streq(a,b) (strcmp(a,b) == 0) #define strneq(a,b,n) (strncmp(a,b,n) == 0) #define TRUE 1 #define FALSE 0 static int outtiled = -1; static uint32 tilewidth; static uint32 tilelength; static uint16 config; static uint16 compression; static uint16 predictor; static uint16 fillorder; static uint16 orientation; static uint32 rowsperstrip; static uint32 g3opts; static int ignore = FALSE; /* if true, ignore read errors */ static uint32 defg3opts = (uint32) -1; static int quality = 75; /* JPEG quality */ static int jpegcolormode = JPEGCOLORMODE_RGB; static uint16 defcompression = (uint16) -1; static uint16 defpredictor = (uint16) -1; static int tiffcp(TIFF*, TIFF*); static int processCompressOptions(char*); static void usage(void); static char comma = ','; /* (default) comma separator character */ static TIFF* bias = NULL; static int pageNum = 0; static int nextSrcImage (TIFF *tif, char **imageSpec) /* seek to the next image specified in *imageSpec returns 1 if success, 0 if no more images to process *imageSpec=NULL if subsequent images should be processed in sequence */ { if (**imageSpec == comma) { /* if not @comma, we've done all images */ char *start = *imageSpec + 1; unsigned long nextImage = strtol (start, imageSpec, 0); if (start == *imageSpec) nextImage = TIFFCurrentDirectory (tif); if (**imageSpec) { if (**imageSpec == comma) { /* a trailing comma denotes remaining images in sequence */ if ((*imageSpec)[1] == '\0') *imageSpec = NULL; }else{ fprintf (stderr, "Expected a %c separated image # list after %s\n", comma, TIFFFileName (tif)); exit (-4); /* syntax error */ } } if (TIFFSetDirectory (tif, nextImage)) return 1; fprintf (stderr, "%s%c%d not found!\n", TIFFFileName(tif), comma, (int) nextImage); } return 0; } static TIFF* openSrcImage (char **imageSpec) /* imageSpec points to a pointer to a filename followed by optional ,image#'s Open the TIFF file and assign *imageSpec to either NULL if there are no images specified, or a pointer to the next image number text */ { TIFF *tif; char *fn = *imageSpec; *imageSpec = strchr (fn, comma); if (*imageSpec) { /* there is at least one image number specifier */ **imageSpec = '\0'; tif = TIFFOpen (fn, "r"); /* but, ignore any single trailing comma */ if (!(*imageSpec)[1]) {*imageSpec = NULL; return tif;} if (tif) { **imageSpec = comma; /* replace the comma */ if (!nextSrcImage(tif, imageSpec)) { TIFFClose (tif); tif = NULL; } } }else tif = TIFFOpen (fn, "r"); return tif; } int main(int argc, char* argv[]) { uint16 defconfig = (uint16) -1; uint16 deffillorder = 0; uint32 deftilewidth = (uint32) -1; uint32 deftilelength = (uint32) -1; uint32 defrowsperstrip = (uint32) 0; uint32 diroff = 0; TIFF* in; TIFF* out; char mode[10]; char* mp = mode; int c; extern int optind; extern char* optarg; *mp++ = 'w'; *mp = '\0'; while ((c = getopt(argc, argv, ",:b:c:f:l:o:z:p:r:w:aistBLMC")) != -1) switch (c) { case ',': if (optarg[0] != '=') usage(); comma = optarg[1]; break; case 'b': /* this file is bias image subtracted from others */ if (bias) { fputs ("Only 1 bias image may be specified\n", stderr); exit (-2); } { uint16 samples = (uint16) -1; char **biasFn = &optarg; bias = openSrcImage (biasFn); if (!bias) exit (-5); if (TIFFIsTiled (bias)) { fputs ("Bias image must be organized in strips\n", stderr); exit (-7); } TIFFGetField(bias, TIFFTAG_SAMPLESPERPIXEL, &samples); if (samples != 1) { fputs ("Bias image must be monochrome\n", stderr); exit (-7); } } break; case 'a': /* append to output */ mode[0] = 'a'; break; case 'c': /* compression scheme */ if (!processCompressOptions(optarg)) usage(); break; case 'f': /* fill order */ if (streq(optarg, "lsb2msb")) deffillorder = FILLORDER_LSB2MSB; else if (streq(optarg, "msb2lsb")) deffillorder = FILLORDER_MSB2LSB; else usage(); break; case 'i': /* ignore errors */ ignore = TRUE; break; case 'l': /* tile length */ outtiled = TRUE; deftilelength = atoi(optarg); break; case 'o': /* initial directory offset */ diroff = strtoul(optarg, NULL, 0); break; case 'p': /* planar configuration */ if (streq(optarg, "separate")) defconfig = PLANARCONFIG_SEPARATE; else if (streq(optarg, "contig")) defconfig = PLANARCONFIG_CONTIG; else usage(); break; case 'r': /* rows/strip */ defrowsperstrip = atol(optarg); break; case 's': /* generate stripped output */ outtiled = FALSE; break; case 't': /* generate tiled output */ outtiled = TRUE; break; case 'w': /* tile width */ outtiled = TRUE; deftilewidth = atoi(optarg); break; case 'B': *mp++ = 'b'; *mp = '\0'; break; case 'L': *mp++ = 'l'; *mp = '\0'; break; case 'M': *mp++ = 'm'; *mp = '\0'; break; case 'C': *mp++ = 'c'; *mp = '\0'; break; case '?': usage(); /*NOTREACHED*/ } if (argc - optind < 2) usage(); out = TIFFOpen(argv[argc-1], mode); if (out == NULL) return (-2); if ((argc - optind) == 2) pageNum = -1; for (; optind < argc-1 ; optind++) { char *imageCursor = argv[optind]; in = openSrcImage (&imageCursor); if (in == NULL) return (-3); if (diroff != 0 && !TIFFSetSubDirectory(in, diroff)) { TIFFError(TIFFFileName(in), "Error, setting subdirectory at %#x", diroff); (void) TIFFClose(out); return (1); } for (;;) { config = defconfig; compression = defcompression; predictor = defpredictor; fillorder = deffillorder; rowsperstrip = defrowsperstrip; tilewidth = deftilewidth; tilelength = deftilelength; g3opts = defg3opts; if (!tiffcp(in, out) || !TIFFWriteDirectory(out)) { TIFFClose(out); return (1); } if (imageCursor) { /* seek next image directory */ if (!nextSrcImage(in, &imageCursor)) break; }else if (!TIFFReadDirectory(in)) break; } TIFFClose(in); } exit( 0 ); } static void processG3Options(char* cp) { if( (cp = strchr(cp, ':')) ) { if (defg3opts == (uint32) -1) defg3opts = 0; do { cp++; if (strneq(cp, "1d", 2)) defg3opts &= ~GROUP3OPT_2DENCODING; else if (strneq(cp, "2d", 2)) defg3opts |= GROUP3OPT_2DENCODING; else if (strneq(cp, "fill", 4)) defg3opts |= GROUP3OPT_FILLBITS; else usage(); } while( (cp = strchr(cp, ':')) ); } } static int processCompressOptions(char* opt) { if (streq(opt, "none")) { defcompression = COMPRESSION_NONE; } else if (streq(opt, "packbits")) { defcompression = COMPRESSION_PACKBITS; } else if (strneq(opt, "jpeg", 4)) { char* cp = strchr(opt, ':'); if (cp && isdigit(cp[1])) quality = atoi(cp+1); if (cp && strchr(cp, 'r')) jpegcolormode = JPEGCOLORMODE_RAW; defcompression = COMPRESSION_JPEG; } else if (strneq(opt, "g3", 2)) { processG3Options(opt); defcompression = COMPRESSION_CCITTFAX3; } else if (streq(opt, "g4")) { defcompression = COMPRESSION_CCITTFAX4; } else if (strneq(opt, "lzw", 3)) { char* cp = strchr(opt, ':'); if (cp) defpredictor = atoi(cp+1); defcompression = COMPRESSION_LZW; } else if (strneq(opt, "zip", 3)) { char* cp = strchr(opt, ':'); if (cp) defpredictor = atoi(cp+1); defcompression = COMPRESSION_DEFLATE; } else return (0); return (1); } char* stuff[] = { "usage: tiffcp [options] input... output", "where options are:", " -a append to output instead of overwriting", " -o offset set initial directory offset", " -p contig pack samples contiguously (e.g. RGBRGB...)", " -p separate store samples separately (e.g. RRR...GGG...BBB...)", " -s write output in strips", " -t write output in tiles", " -i ignore read errors", " -b file[,#] bias (dark) monochrome image to be subtracted from all others", " -,=% use % rather than , to separate image #'s (per Note below)", "", " -r # make each strip have no more than # rows", " -w # set output tile width (pixels)", " -l # set output tile length (pixels)", "", " -f lsb2msb force lsb-to-msb FillOrder for output", " -f msb2lsb force msb-to-lsb FillOrder for output", "", " -c lzw[:opts] compress output with Lempel-Ziv & Welch encoding", " (no longer supported by default due to Unisys patent enforcement)", " -c zip[:opts] compress output with deflate encoding", " -c jpeg[:opts] compress output with JPEG encoding", " -c packbits compress output with packbits encoding", " -c g3[:opts] compress output with CCITT Group 3 encoding", " -c g4 compress output with CCITT Group 4 encoding", " -c none use no compression algorithm on output", "", "Group 3 options:", " 1d use default CCITT Group 3 1D-encoding", " 2d use optional CCITT Group 3 2D-encoding", " fill byte-align EOL codes", "For example, -c g3:2d:fill to get G3-2D-encoded data with byte-aligned EOLs", "", "JPEG options:", " # set compression quality level (0-100, default 75)", " r output color image as RGB rather than YCbCr", "For example, -c jpeg:r:50 to get JPEG-encoded RGB data with 50% comp. quality", "", "LZW and deflate options:", " # set predictor value", "For example, -c lzw:2 to get LZW-encoded data with horizontal differencing", "", "Note that input filenames may be of the form filename,x,y,z", "where x, y, and z specify image numbers in the filename to copy.", "example: tiffcp -c none -b esp.tif,1 esp.tif,0 test.tif", " subtract 2nd image in esp.tif from 1st yielding uncompressed result test.tif", NULL }; static void usage(void) { char buf[BUFSIZ]; int i; setbuf(stderr, buf); fprintf(stderr, "%s\n\n", TIFFGetVersion()); for (i = 0; stuff[i] != NULL; i++) fprintf(stderr, "%s\n", stuff[i]); exit(-1); } #define CopyField(tag, v) \ if (TIFFGetField(in, tag, &v)) TIFFSetField(out, tag, v) #define CopyField2(tag, v1, v2) \ if (TIFFGetField(in, tag, &v1, &v2)) TIFFSetField(out, tag, v1, v2) #define CopyField3(tag, v1, v2, v3) \ if (TIFFGetField(in, tag, &v1, &v2, &v3)) TIFFSetField(out, tag, v1, v2, v3) #define CopyField4(tag, v1, v2, v3, v4) \ if (TIFFGetField(in, tag, &v1, &v2, &v3, &v4)) TIFFSetField(out, tag, v1, v2, v3, v4) static void cpTag(TIFF* in, TIFF* out, uint16 tag, uint16 count, TIFFDataType type) { switch (type) { case TIFF_SHORT: if (count == 1) { uint16 shortv; CopyField(tag, shortv); } else if (count == 2) { uint16 shortv1, shortv2; CopyField2(tag, shortv1, shortv2); } else if (count == 4) { uint16 *tr, *tg, *tb, *ta; CopyField4(tag, tr, tg, tb, ta); } else if (count == (uint16) -1) { uint16 shortv1; uint16* shortav; CopyField2(tag, shortv1, shortav); } break; case TIFF_LONG: { uint32 longv; CopyField(tag, longv); } break; case TIFF_RATIONAL: if (count == 1) { float floatv; CopyField(tag, floatv); } else if (count == (uint16) -1) { float* floatav; CopyField(tag, floatav); } break; case TIFF_ASCII: { char* stringv; CopyField(tag, stringv); } break; case TIFF_DOUBLE: if (count == 1) { double doublev; CopyField(tag, doublev); } else if (count == (uint16) -1) { double* doubleav; CopyField(tag, doubleav); } break; default: assert( FALSE ); } } static struct cpTag { uint16 tag; uint16 count; TIFFDataType type; } tags[] = { { TIFFTAG_SUBFILETYPE, 1, TIFF_LONG }, { TIFFTAG_THRESHHOLDING, 1, TIFF_SHORT }, { TIFFTAG_DOCUMENTNAME, 1, TIFF_ASCII }, { TIFFTAG_IMAGEDESCRIPTION, 1, TIFF_ASCII }, { TIFFTAG_MAKE, 1, TIFF_ASCII }, { TIFFTAG_MODEL, 1, TIFF_ASCII }, { TIFFTAG_MINSAMPLEVALUE, 1, TIFF_SHORT }, { TIFFTAG_MAXSAMPLEVALUE, 1, TIFF_SHORT }, { TIFFTAG_XRESOLUTION, 1, TIFF_RATIONAL }, { TIFFTAG_YRESOLUTION, 1, TIFF_RATIONAL }, { TIFFTAG_PAGENAME, 1, TIFF_ASCII }, { TIFFTAG_XPOSITION, 1, TIFF_RATIONAL }, { TIFFTAG_YPOSITION, 1, TIFF_RATIONAL }, { TIFFTAG_RESOLUTIONUNIT, 1, TIFF_SHORT }, { TIFFTAG_SOFTWARE, 1, TIFF_ASCII }, { TIFFTAG_DATETIME, 1, TIFF_ASCII }, { TIFFTAG_ARTIST, 1, TIFF_ASCII }, { TIFFTAG_HOSTCOMPUTER, 1, TIFF_ASCII }, { TIFFTAG_WHITEPOINT, 1, TIFF_RATIONAL }, { TIFFTAG_PRIMARYCHROMATICITIES,(uint16) -1,TIFF_RATIONAL }, { TIFFTAG_HALFTONEHINTS, 2, TIFF_SHORT }, { TIFFTAG_INKSET, 1, TIFF_SHORT }, { TIFFTAG_DOTRANGE, 2, TIFF_SHORT }, { TIFFTAG_TARGETPRINTER, 1, TIFF_ASCII }, { TIFFTAG_SAMPLEFORMAT, 1, TIFF_SHORT }, { TIFFTAG_YCBCRCOEFFICIENTS, (uint16) -1,TIFF_RATIONAL }, { TIFFTAG_YCBCRSUBSAMPLING, 2, TIFF_SHORT }, { TIFFTAG_YCBCRPOSITIONING, 1, TIFF_SHORT }, { TIFFTAG_REFERENCEBLACKWHITE, (uint16) -1,TIFF_RATIONAL }, { TIFFTAG_EXTRASAMPLES, (uint16) -1, TIFF_SHORT }, { TIFFTAG_SMINSAMPLEVALUE, 1, TIFF_DOUBLE }, { TIFFTAG_SMAXSAMPLEVALUE, 1, TIFF_DOUBLE }, { TIFFTAG_STONITS, 1, TIFF_DOUBLE }, }; #define NTAGS (sizeof (tags) / sizeof (tags[0])) #define CopyTag(tag, count, type) cpTag(in, out, tag, count, type) typedef int (*copyFunc) (TIFF* in, TIFF* out, uint32 l, uint32 w, uint16 samplesperpixel); static copyFunc pickCopyFunc(TIFF*, TIFF*, uint16, uint16); static int tiffcp(TIFF* in, TIFF* out) { uint16 bitspersample, samplesperpixel; copyFunc cf; uint32 width, length; struct cpTag* p; CopyField(TIFFTAG_IMAGEWIDTH, width); CopyField(TIFFTAG_IMAGELENGTH, length); CopyField(TIFFTAG_BITSPERSAMPLE, bitspersample); CopyField(TIFFTAG_SAMPLESPERPIXEL, samplesperpixel); if (compression != (uint16)-1) TIFFSetField(out, TIFFTAG_COMPRESSION, compression); else CopyField(TIFFTAG_COMPRESSION, compression); if (compression == COMPRESSION_JPEG) { uint16 input_compression, input_photometric; if ( TIFFGetField( in, TIFFTAG_COMPRESSION, &input_compression ) && input_compression == COMPRESSION_JPEG ) { TIFFSetField(in, TIFFTAG_JPEGCOLORMODE, JPEGCOLORMODE_RGB); } if (TIFFGetField(in, TIFFTAG_PHOTOMETRIC, &input_photometric) && input_photometric == PHOTOMETRIC_RGB) { if (jpegcolormode == JPEGCOLORMODE_RGB) TIFFSetField(out, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_YCBCR); else TIFFSetField(out, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_RGB); } } else if (compression == COMPRESSION_SGILOG || compression == COMPRESSION_SGILOG24) TIFFSetField(out, TIFFTAG_PHOTOMETRIC, samplesperpixel == 1 ? PHOTOMETRIC_LOGL : PHOTOMETRIC_LOGLUV); else CopyTag(TIFFTAG_PHOTOMETRIC, 1, TIFF_SHORT); if (fillorder != 0) TIFFSetField(out, TIFFTAG_FILLORDER, fillorder); else CopyTag(TIFFTAG_FILLORDER, 1, TIFF_SHORT); /* * Will copy `Orientation' tag from input image */ TIFFGetField(in, TIFFTAG_ORIENTATION, &orientation); switch (orientation) { case ORIENTATION_BOTRIGHT: case ORIENTATION_RIGHTBOT: /* XXX */ case ORIENTATION_LEFTBOT: /* XXX */ TIFFWarning(TIFFFileName(in), "using bottom-left orientation"); orientation = ORIENTATION_BOTLEFT; /* fall thru... */ case ORIENTATION_BOTLEFT: break; case ORIENTATION_TOPRIGHT: case ORIENTATION_RIGHTTOP: /* XXX */ case ORIENTATION_LEFTTOP: /* XXX */ default: TIFFWarning(TIFFFileName(in), "using top-left orientation"); orientation = ORIENTATION_TOPLEFT; /* fall thru... */ case ORIENTATION_TOPLEFT: break; } TIFFSetField(out, TIFFTAG_ORIENTATION, orientation); /* * Choose tiles/strip for the output image according to * the command line arguments (-tiles, -strips) and the * structure of the input image. */ if (outtiled == -1) outtiled = TIFFIsTiled(in); if (outtiled) { /* * Setup output file's tile width&height. If either * is not specified, use either the value from the * input image or, if nothing is defined, use the * library default. */ if (tilewidth == (uint32) -1) TIFFGetField(in, TIFFTAG_TILEWIDTH, &tilewidth); if (tilelength == (uint32) -1) TIFFGetField(in, TIFFTAG_TILELENGTH, &tilelength); TIFFDefaultTileSize(out, &tilewidth, &tilelength); TIFFSetField(out, TIFFTAG_TILEWIDTH, tilewidth); TIFFSetField(out, TIFFTAG_TILELENGTH, tilelength); } else { /* * RowsPerStrip is left unspecified: use either the * value from the input image or, if nothing is defined, * use the library default. */ if (rowsperstrip == (uint32) 0) { if (!TIFFGetField(in, TIFFTAG_ROWSPERSTRIP,&rowsperstrip)) rowsperstrip = TIFFDefaultStripSize(out, rowsperstrip); } else if (rowsperstrip == (uint32) -1) rowsperstrip = length; TIFFSetField(out, TIFFTAG_ROWSPERSTRIP, rowsperstrip); } if (config != (uint16) -1) TIFFSetField(out, TIFFTAG_PLANARCONFIG, config); else CopyField(TIFFTAG_PLANARCONFIG, config); if (samplesperpixel <= 4) CopyTag(TIFFTAG_TRANSFERFUNCTION, 4, TIFF_SHORT); CopyTag(TIFFTAG_COLORMAP, 4, TIFF_SHORT); /* SMinSampleValue & SMaxSampleValue */ switch (compression) { case COMPRESSION_JPEG: TIFFSetField(out, TIFFTAG_JPEGQUALITY, quality); TIFFSetField(out, TIFFTAG_JPEGCOLORMODE, jpegcolormode); break; case COMPRESSION_LZW: case COMPRESSION_DEFLATE: if (predictor != (uint16)-1) TIFFSetField(out, TIFFTAG_PREDICTOR, predictor); else CopyField(TIFFTAG_PREDICTOR, predictor); break; case COMPRESSION_CCITTFAX3: case COMPRESSION_CCITTFAX4: if (compression == COMPRESSION_CCITTFAX3) { if (g3opts != (uint32) -1) TIFFSetField(out, TIFFTAG_GROUP3OPTIONS, g3opts); else CopyField(TIFFTAG_GROUP3OPTIONS, g3opts); } else CopyTag(TIFFTAG_GROUP4OPTIONS, 1, TIFF_LONG); CopyTag(TIFFTAG_BADFAXLINES, 1, TIFF_LONG); CopyTag(TIFFTAG_CLEANFAXDATA, 1, TIFF_LONG); CopyTag(TIFFTAG_CONSECUTIVEBADFAXLINES, 1, TIFF_LONG); CopyTag(TIFFTAG_FAXRECVPARAMS, 1, TIFF_LONG); CopyTag(TIFFTAG_FAXRECVTIME, 1, TIFF_LONG); CopyTag(TIFFTAG_FAXSUBADDRESS, 1, TIFF_ASCII); break; } { uint32 len32; void** data; if (TIFFGetField(in, TIFFTAG_ICCPROFILE, &len32, &data)) TIFFSetField(out, TIFFTAG_ICCPROFILE, len32, data); } { uint16 ninks; const char* inknames; if (TIFFGetField(in, TIFFTAG_NUMBEROFINKS, &ninks)) { TIFFSetField(out, TIFFTAG_NUMBEROFINKS, ninks); if (TIFFGetField(in, TIFFTAG_INKNAMES, &inknames)) { int inknameslen = strlen(inknames) + 1; const char* cp = inknames; while (ninks > 1) { cp = strchr(cp, '\0'); if (cp) { cp++; inknameslen += (strlen(cp) + 1); } ninks--; } TIFFSetField(out, TIFFTAG_INKNAMES, inknameslen, inknames); } } } { unsigned short pg0, pg1; if (TIFFGetField(in, TIFFTAG_PAGENUMBER, &pg0, &pg1)) { if (pageNum < 0) /* only one input file */ TIFFSetField(out, TIFFTAG_PAGENUMBER, pg0, pg1); else TIFFSetField(out, TIFFTAG_PAGENUMBER, pageNum++, 0); } } for (p = tags; p < &tags[NTAGS]; p++) CopyTag(p->tag, p->count, p->type); cf = pickCopyFunc(in, out, bitspersample, samplesperpixel); return (cf ? (*cf)(in, out, length, width, samplesperpixel) : FALSE); } /* * Copy Functions. */ #define DECLAREcpFunc(x) \ static int x(TIFF* in, TIFF* out, \ uint32 imagelength, uint32 imagewidth, tsample_t spp) #define DECLAREreadFunc(x) \ static void x(TIFF* in, \ uint8* buf, uint32 imagelength, uint32 imagewidth, tsample_t spp) typedef void (*readFunc)(TIFF*, uint8*, uint32, uint32, tsample_t); #define DECLAREwriteFunc(x) \ static int x(TIFF* out, \ uint8* buf, uint32 imagelength, uint32 imagewidth, tsample_t spp) typedef int (*writeFunc)(TIFF*, uint8*, uint32, uint32, tsample_t); /* * Contig -> contig by scanline for rows/strip change. */ DECLAREcpFunc(cpContig2ContigByRow) { tdata_t buf = _TIFFmalloc(TIFFScanlineSize(in)); uint32 row; (void) imagewidth; (void) spp; for (row = 0; row < imagelength; row++) { if (TIFFReadScanline(in, buf, row, 0) < 0 && !ignore) goto done; if (TIFFWriteScanline(out, buf, row, 0) < 0) goto bad; } done: _TIFFfree(buf); return (TRUE); bad: _TIFFfree(buf); return (FALSE); } typedef void biasFn (void *image, void *bias, uint32 pixels); #define subtract(bits) \ static void subtract##bits (void *i, void *b, uint32 pixels)\ {\ uint##bits *image = i;\ uint##bits *bias = b;\ while (pixels--) {\ *image = *image > *bias ? *image-*bias : 0;\ image++, bias++; \ } \ } subtract(8) subtract(16) subtract(32) static biasFn *lineSubtractFn (unsigned bits) { switch (bits) { case 8: return subtract8; case 16: return subtract16; case 32: return subtract32; } return NULL; } /* * Contig -> contig by scanline while subtracting a bias image. */ DECLAREcpFunc(cpBiasedContig2Contig) { if (spp == 1) { tsize_t biasSize = TIFFScanlineSize(bias); tsize_t bufSize = TIFFScanlineSize(in); tdata_t buf, biasBuf; uint32 biasWidth = 0, biasLength = 0; TIFFGetField(bias, TIFFTAG_IMAGEWIDTH, &biasWidth); TIFFGetField(bias, TIFFTAG_IMAGELENGTH, &biasLength); if (biasSize == bufSize && imagelength == biasLength && imagewidth == biasWidth) { uint16 sampleBits = 0; biasFn *subtractLine; TIFFGetField(in, TIFFTAG_BITSPERSAMPLE, &sampleBits); subtractLine = lineSubtractFn (sampleBits); if (subtractLine) { uint32 row; buf = _TIFFmalloc(bufSize); biasBuf = _TIFFmalloc(bufSize); for (row = 0; row < imagelength; row++) { if (TIFFReadScanline(in, buf, row, 0) < 0 && !ignore) break; if (TIFFReadScanline(bias, biasBuf, row, 0) < 0 && !ignore) break; subtractLine (buf, biasBuf, imagewidth); if (TIFFWriteScanline(out, buf, row, 0) < 0) { _TIFFfree(buf); _TIFFfree(biasBuf); return FALSE; } } _TIFFfree(buf); _TIFFfree(biasBuf); TIFFSetDirectory (bias, TIFFCurrentDirectory(bias)); /* rewind */ return TRUE; }else{ fprintf (stderr, "No support for biasing %d bit pixels\n", sampleBits); return FALSE; } } fprintf (stderr,"Bias image %s,%d\nis not the same size as %s,%d\n", TIFFFileName(bias), TIFFCurrentDirectory(bias), TIFFFileName(in), TIFFCurrentDirectory(in)); return FALSE; }else{ fprintf (stderr, "Can't bias %s,%d as it has >1 Sample/Pixel\n", TIFFFileName(in), TIFFCurrentDirectory(in)); return FALSE; } } /* * Strip -> strip for change in encoding. */ DECLAREcpFunc(cpDecodedStrips) { tsize_t stripsize = TIFFStripSize(in); tdata_t buf = _TIFFmalloc(stripsize); (void) imagewidth; (void) spp; if (buf) { tstrip_t s, ns = TIFFNumberOfStrips(in); uint32 row = 0; for (s = 0; s < ns; s++) { tsize_t cc = (row + rowsperstrip > imagelength) ? TIFFVStripSize(in, imagelength - row) : stripsize; if (TIFFReadEncodedStrip(in, s, buf, cc) < 0 && !ignore) break; if (TIFFWriteEncodedStrip(out, s, buf, cc) < 0) { _TIFFfree(buf); return (FALSE); } row += rowsperstrip; } _TIFFfree(buf); return (TRUE); } return (FALSE); } /* * Separate -> separate by row for rows/strip change. */ DECLAREcpFunc(cpSeparate2SeparateByRow) { tdata_t buf = _TIFFmalloc(TIFFScanlineSize(in)); uint32 row; tsample_t s; (void) imagewidth; for (s = 0; s < spp; s++) { for (row = 0; row < imagelength; row++) { if (TIFFReadScanline(in, buf, row, s) < 0 && !ignore) goto done; if (TIFFWriteScanline(out, buf, row, s) < 0) goto bad; } } done: _TIFFfree(buf); return (TRUE); bad: _TIFFfree(buf); return (FALSE); } /* * Contig -> separate by row. */ DECLAREcpFunc(cpContig2SeparateByRow) { tdata_t inbuf = _TIFFmalloc(TIFFScanlineSize(in)); tdata_t outbuf = _TIFFmalloc(TIFFScanlineSize(out)); register uint8 *inp, *outp; register uint32 n; uint32 row; tsample_t s; /* unpack channels */ for (s = 0; s < spp; s++) { for (row = 0; row < imagelength; row++) { if (TIFFReadScanline(in, inbuf, row, 0) < 0 && !ignore) goto done; inp = ((uint8*)inbuf) + s; outp = (uint8*)outbuf; for (n = imagewidth; n-- > 0;) { *outp++ = *inp; inp += spp; } if (TIFFWriteScanline(out, outbuf, row, s) < 0) goto bad; } } done: if (inbuf) _TIFFfree(inbuf); if (outbuf) _TIFFfree(outbuf); return (TRUE); bad: if (inbuf) _TIFFfree(inbuf); if (outbuf) _TIFFfree(outbuf); return (FALSE); } /* * Separate -> contig by row. */ DECLAREcpFunc(cpSeparate2ContigByRow) { tdata_t inbuf = _TIFFmalloc(TIFFScanlineSize(in)); tdata_t outbuf = _TIFFmalloc(TIFFScanlineSize(out)); register uint8 *inp, *outp; register uint32 n; uint32 row; tsample_t s; for (row = 0; row < imagelength; row++) { /* merge channels */ for (s = 0; s < spp; s++) { if (TIFFReadScanline(in, inbuf, row, s) < 0 && !ignore) goto done; inp = (uint8*)inbuf; outp = ((uint8*)outbuf) + s; for (n = imagewidth; n-- > 0;) { *outp = *inp++; outp += spp; } } if (TIFFWriteScanline(out, outbuf, row, 0) < 0) goto bad; } done: if (inbuf) _TIFFfree(inbuf); if (outbuf) _TIFFfree(outbuf); return (TRUE); bad: if (inbuf) _TIFFfree(inbuf); if (outbuf) _TIFFfree(outbuf); return (FALSE); } static void cpStripToTile(uint8* out, uint8* in, uint32 rows, uint32 cols, int outskew, int inskew) { while (rows-- > 0) { uint32 j = cols; while (j-- > 0) *out++ = *in++; out += outskew; in += inskew; } } static void cpContigBufToSeparateBuf(uint8* out, uint8* in, uint32 rows, uint32 cols, int outskew, int inskew, tsample_t spp, int bytes_per_sample ) { while (rows-- > 0) { uint32 j = cols; while (j-- > 0) { int n = bytes_per_sample; while( n-- ) { *out++ = *in++; } in += (spp-1) * bytes_per_sample; } out += outskew; in += inskew; } } static void cpSeparateBufToContigBuf(uint8* out, uint8* in, uint32 rows, uint32 cols, int outskew, int inskew, tsample_t spp, int bytes_per_sample) { while (rows-- > 0) { uint32 j = cols; while (j-- > 0) { int n = bytes_per_sample; while( n-- ) { *out++ = *in++; } out += (spp-1)*bytes_per_sample; } out += outskew; in += inskew; } } static int cpImage(TIFF* in, TIFF* out, readFunc fin, writeFunc fout, uint32 imagelength, uint32 imagewidth, tsample_t spp) { int status = FALSE; tdata_t buf = _TIFFmalloc(TIFFRasterScanlineSize(in) * imagelength); if (buf) { (*fin)(in, (uint8*)buf, imagelength, imagewidth, spp); status = (fout)(out, (uint8*)buf, imagelength, imagewidth, spp); _TIFFfree(buf); } return (status); } DECLAREreadFunc(readContigStripsIntoBuffer) { tsize_t scanlinesize = TIFFScanlineSize(in); uint8* bufp = buf; uint32 row; (void) imagewidth; (void) spp; for (row = 0; row < imagelength; row++) { if (TIFFReadScanline(in, (tdata_t) bufp, row, 0) < 0 && !ignore) break; bufp += scanlinesize; } } DECLAREreadFunc(readSeparateStripsIntoBuffer) { tsize_t scanlinesize = TIFFScanlineSize(in); tdata_t scanline = _TIFFmalloc(scanlinesize); (void) imagewidth; if (scanline) { uint8* bufp = (uint8*) buf; uint32 row; tsample_t s; for (row = 0; row < imagelength; row++) { /* merge channels */ for (s = 0; s < spp; s++) { uint8* bp = bufp + s; tsize_t n = scanlinesize; uint8* sbuf = scanline; if (TIFFReadScanline(in, scanline, row, s) < 0 && !ignore) goto done; while (n-- > 0) *bp = *sbuf++, bp += spp; } bufp += scanlinesize * spp; } done: _TIFFfree(scanline); } } DECLAREreadFunc(readContigTilesIntoBuffer) { tdata_t tilebuf = _TIFFmalloc(TIFFTileSize(in)); uint32 imagew = TIFFScanlineSize(in); uint32 tilew = TIFFTileRowSize(in); int iskew = imagew - tilew; uint8* bufp = (uint8*) buf; uint32 tw, tl; uint32 row; (void) spp; if (tilebuf == 0) return; (void) TIFFGetField(in, TIFFTAG_TILEWIDTH, &tw); (void) TIFFGetField(in, TIFFTAG_TILELENGTH, &tl); for (row = 0; row < imagelength; row += tl) { uint32 nrow = (row+tl > imagelength) ? imagelength-row : tl; uint32 colb = 0; uint32 col; for (col = 0; col < imagewidth; col += tw) { if (TIFFReadTile(in, tilebuf, col, row, 0, 0) < 0 && !ignore) goto done; if (colb + tilew > imagew) { uint32 width = imagew - colb; uint32 oskew = tilew - width; cpStripToTile(bufp + colb, tilebuf, nrow, width, oskew + iskew, oskew ); } else cpStripToTile(bufp + colb, tilebuf, nrow, tilew, iskew, 0); colb += tilew; } bufp += imagew * nrow; } done: _TIFFfree(tilebuf); } DECLAREreadFunc(readSeparateTilesIntoBuffer) { uint32 imagew = TIFFRasterScanlineSize(in); uint32 tilew = TIFFTileRowSize(in); int iskew = imagew - tilew*spp; tdata_t tilebuf = _TIFFmalloc(TIFFTileSize(in)); uint8* bufp = (uint8*) buf; uint32 tw, tl; uint32 row; uint16 bps, bytes_per_sample; if (tilebuf == 0) return; (void) TIFFGetField(in, TIFFTAG_TILEWIDTH, &tw); (void) TIFFGetField(in, TIFFTAG_TILELENGTH, &tl); (void) TIFFGetField(in, TIFFTAG_BITSPERSAMPLE, &bps); assert( bps % 8 == 0 ); bytes_per_sample = bps/8; for (row = 0; row < imagelength; row += tl) { uint32 nrow = (row+tl > imagelength) ? imagelength-row : tl; uint32 colb = 0; uint32 col; for (col = 0; col < imagewidth; col += tw) { tsample_t s; for (s = 0; s < spp; s++) { if (TIFFReadTile(in, tilebuf, col, row, 0, s) < 0 && !ignore) goto done; /* * Tile is clipped horizontally. Calculate * visible portion and skewing factors. */ if (colb + tilew*spp > imagew) { uint32 width = imagew - colb; int oskew = tilew*spp - width; cpSeparateBufToContigBuf( bufp+colb+s*bytes_per_sample, tilebuf, nrow, width/(spp*bytes_per_sample), oskew + iskew, oskew/spp, spp, bytes_per_sample); } else cpSeparateBufToContigBuf( bufp+colb+s*bytes_per_sample, tilebuf, nrow, tw, iskew, 0, spp, bytes_per_sample); } colb += tilew*spp; } bufp += imagew * nrow; } done: _TIFFfree(tilebuf); } DECLAREwriteFunc(writeBufferToContigStrips) { uint32 row, rowsperstrip; tstrip_t strip = 0; (void) imagewidth; (void) spp; (void) TIFFGetFieldDefaulted(out, TIFFTAG_ROWSPERSTRIP, &rowsperstrip); for (row = 0; row < imagelength; row += rowsperstrip) { uint32 nrows = (row+rowsperstrip > imagelength) ? imagelength-row : rowsperstrip; tsize_t stripsize = TIFFVStripSize(out, nrows); if (TIFFWriteEncodedStrip(out, strip++, buf, stripsize) < 0) return (FALSE); buf += stripsize; } return (TRUE); } DECLAREwriteFunc(writeBufferToSeparateStrips) { uint32 rowsize = imagewidth * spp; uint32 rowsperstrip; tdata_t obuf = _TIFFmalloc(TIFFStripSize(out)); tstrip_t strip = 0; tsample_t s; if (obuf == NULL) return (0); (void) TIFFGetFieldDefaulted(out, TIFFTAG_ROWSPERSTRIP, &rowsperstrip); for (s = 0; s < spp; s++) { uint32 row; for (row = 0; row < imagelength; row += rowsperstrip) { uint32 nrows = (row+rowsperstrip > imagelength) ? imagelength-row : rowsperstrip; tsize_t stripsize = TIFFVStripSize(out, nrows); cpContigBufToSeparateBuf( obuf, (uint8*) buf + row*rowsize + s, nrows, imagewidth, 0, 0, spp, 1); if (TIFFWriteEncodedStrip(out, strip++, obuf, stripsize) < 0) { _TIFFfree(obuf); return (FALSE); } } } _TIFFfree(obuf); return (TRUE); } DECLAREwriteFunc(writeBufferToContigTiles) { uint32 imagew = TIFFScanlineSize(out); uint32 tilew = TIFFTileRowSize(out); int iskew = imagew - tilew; tdata_t obuf = _TIFFmalloc(TIFFTileSize(out)); uint8* bufp = (uint8*) buf; uint32 tl, tw; uint32 row; (void) spp; if (obuf == NULL) return (FALSE); (void) TIFFGetField(out, TIFFTAG_TILELENGTH, &tl); (void) TIFFGetField(out, TIFFTAG_TILEWIDTH, &tw); for (row = 0; row < imagelength; row += tilelength) { uint32 nrow = (row+tl > imagelength) ? imagelength-row : tl; uint32 colb = 0; uint32 col; for (col = 0; col < imagewidth; col += tw) { /* * Tile is clipped horizontally. Calculate * visible portion and skewing factors. */ if (colb + tilew > imagew) { uint32 width = imagew - colb; int oskew = tilew - width; cpStripToTile(obuf, bufp + colb, nrow, width, oskew, oskew + iskew); } else cpStripToTile(obuf, bufp + colb, nrow, tilew, 0, iskew); if (TIFFWriteTile(out, obuf, col, row, 0, 0) < 0) { _TIFFfree(obuf); return (FALSE); } colb += tilew; } bufp += nrow * imagew; } _TIFFfree(obuf); return (TRUE); } DECLAREwriteFunc(writeBufferToSeparateTiles) { uint32 imagew = TIFFScanlineSize(out); tsize_t tilew = TIFFTileRowSize(out); uint32 iimagew = TIFFRasterScanlineSize(out); int iskew = iimagew - tilew*spp; tdata_t obuf = _TIFFmalloc(TIFFTileSize(out)); uint8* bufp = (uint8*) buf; uint32 tl, tw; uint32 row; uint16 bps, bytes_per_sample; if (obuf == NULL) return (FALSE); (void) TIFFGetField(out, TIFFTAG_TILELENGTH, &tl); (void) TIFFGetField(out, TIFFTAG_TILEWIDTH, &tw); (void) TIFFGetField(out, TIFFTAG_BITSPERSAMPLE, &bps); assert( bps % 8 == 0 ); bytes_per_sample = bps/8; for (row = 0; row < imagelength; row += tl) { uint32 nrow = (row+tl > imagelength) ? imagelength-row : tl; uint32 colb = 0; uint32 col; for (col = 0; col < imagewidth; col += tw) { tsample_t s; for (s = 0; s < spp; s++) { /* * Tile is clipped horizontally. Calculate * visible portion and skewing factors. */ if (colb + tilew > imagew) { uint32 width = (imagew - colb); int oskew = tilew - width; cpContigBufToSeparateBuf(obuf, bufp + (colb*spp) + s, nrow, width/bytes_per_sample, oskew, (oskew*spp)+iskew, spp, bytes_per_sample); } else cpContigBufToSeparateBuf(obuf, bufp + (colb*spp) + s, nrow, tilewidth, 0, iskew, spp, bytes_per_sample); if (TIFFWriteTile(out, obuf, col, row, 0, s) < 0) { _TIFFfree(obuf); return (FALSE); } } colb += tilew; } bufp += nrow * iimagew; } _TIFFfree(obuf); return (TRUE); } /* * Contig strips -> contig tiles. */ DECLAREcpFunc(cpContigStrips2ContigTiles) { return cpImage(in, out, readContigStripsIntoBuffer, writeBufferToContigTiles, imagelength, imagewidth, spp); } /* * Contig strips -> separate tiles. */ DECLAREcpFunc(cpContigStrips2SeparateTiles) { return cpImage(in, out, readContigStripsIntoBuffer, writeBufferToSeparateTiles, imagelength, imagewidth, spp); } /* * Separate strips -> contig tiles. */ DECLAREcpFunc(cpSeparateStrips2ContigTiles) { return cpImage(in, out, readSeparateStripsIntoBuffer, writeBufferToContigTiles, imagelength, imagewidth, spp); } /* * Separate strips -> separate tiles. */ DECLAREcpFunc(cpSeparateStrips2SeparateTiles) { return cpImage(in, out, readSeparateStripsIntoBuffer, writeBufferToSeparateTiles, imagelength, imagewidth, spp); } /* * Contig strips -> contig tiles. */ DECLAREcpFunc(cpContigTiles2ContigTiles) { return cpImage(in, out, readContigTilesIntoBuffer, writeBufferToContigTiles, imagelength, imagewidth, spp); } /* * Contig tiles -> separate tiles. */ DECLAREcpFunc(cpContigTiles2SeparateTiles) { return cpImage(in, out, readContigTilesIntoBuffer, writeBufferToSeparateTiles, imagelength, imagewidth, spp); } /* * Separate tiles -> contig tiles. */ DECLAREcpFunc(cpSeparateTiles2ContigTiles) { return cpImage(in, out, readSeparateTilesIntoBuffer, writeBufferToContigTiles, imagelength, imagewidth, spp); } /* * Separate tiles -> separate tiles (tile dimension change). */ DECLAREcpFunc(cpSeparateTiles2SeparateTiles) { return cpImage(in, out, readSeparateTilesIntoBuffer, writeBufferToSeparateTiles, imagelength, imagewidth, spp); } /* * Contig tiles -> contig tiles (tile dimension change). */ DECLAREcpFunc(cpContigTiles2ContigStrips) { return cpImage(in, out, readContigTilesIntoBuffer, writeBufferToContigStrips, imagelength, imagewidth, spp); } /* * Contig tiles -> separate strips. */ DECLAREcpFunc(cpContigTiles2SeparateStrips) { return cpImage(in, out, readContigTilesIntoBuffer, writeBufferToSeparateStrips, imagelength, imagewidth, spp); } /* * Separate tiles -> contig strips. */ DECLAREcpFunc(cpSeparateTiles2ContigStrips) { return cpImage(in, out, readSeparateTilesIntoBuffer, writeBufferToContigStrips, imagelength, imagewidth, spp); } /* * Separate tiles -> separate strips. */ DECLAREcpFunc(cpSeparateTiles2SeparateStrips) { return cpImage(in, out, readSeparateTilesIntoBuffer, writeBufferToSeparateStrips, imagelength, imagewidth, spp); } /* * Select the appropriate copy function to use. */ static copyFunc pickCopyFunc(TIFF* in, TIFF* out, uint16 bitspersample, uint16 samplesperpixel) { uint16 shortv; uint32 w, l, tw, tl; int bychunk; (void) TIFFGetField(in, TIFFTAG_PLANARCONFIG, &shortv); if (shortv != config && bitspersample != 8 && samplesperpixel > 1) { fprintf(stderr, "%s: Cannot handle different planar configuration w/ bits/sample != 8\n", TIFFFileName(in)); return (NULL); } TIFFGetField(in, TIFFTAG_IMAGEWIDTH, &w); TIFFGetField(in, TIFFTAG_IMAGELENGTH, &l); if (!(TIFFIsTiled(out) || TIFFIsTiled(in))) { uint32 irps = (uint32) -1L; TIFFGetField(in, TIFFTAG_ROWSPERSTRIP, &irps); /* if biased, force decoded copying to allow image subtraction */ bychunk = !bias && (rowsperstrip == irps); }else{ /* either in or out is tiled */ if (bias) { fprintf(stderr, "%s: Cannot handle tiled configuration w/bias image\n", TIFFFileName(in)); return (NULL); } if (TIFFIsTiled(out)) { if (!TIFFGetField(in, TIFFTAG_TILEWIDTH, &tw)) tw = w; if (!TIFFGetField(in, TIFFTAG_TILELENGTH, &tl)) tl = l; bychunk = (tw == tilewidth && tl == tilelength); } else { /* out's not, so in must be tiled */ TIFFGetField(in, TIFFTAG_TILEWIDTH, &tw); TIFFGetField(in, TIFFTAG_TILELENGTH, &tl); bychunk = (tw == w && tl == rowsperstrip); } } #define T 1 #define F 0 #define pack(a,b,c,d,e) ((long)(((a)<<11)|((b)<<3)|((c)<<2)|((d)<<1)|(e))) switch(pack(shortv,config,TIFFIsTiled(in),TIFFIsTiled(out),bychunk)) { /* Strips -> Tiles */ case pack(PLANARCONFIG_CONTIG, PLANARCONFIG_CONTIG, F,T,F): case pack(PLANARCONFIG_CONTIG, PLANARCONFIG_CONTIG, F,T,T): return cpContigStrips2ContigTiles; case pack(PLANARCONFIG_CONTIG, PLANARCONFIG_SEPARATE, F,T,F): case pack(PLANARCONFIG_CONTIG, PLANARCONFIG_SEPARATE, F,T,T): return cpContigStrips2SeparateTiles; case pack(PLANARCONFIG_SEPARATE, PLANARCONFIG_CONTIG, F,T,F): case pack(PLANARCONFIG_SEPARATE, PLANARCONFIG_CONTIG, F,T,T): return cpSeparateStrips2ContigTiles; case pack(PLANARCONFIG_SEPARATE, PLANARCONFIG_SEPARATE, F,T,F): case pack(PLANARCONFIG_SEPARATE, PLANARCONFIG_SEPARATE, F,T,T): return cpSeparateStrips2SeparateTiles; /* Tiles -> Tiles */ case pack(PLANARCONFIG_CONTIG, PLANARCONFIG_CONTIG, T,T,F): case pack(PLANARCONFIG_CONTIG, PLANARCONFIG_CONTIG, T,T,T): return cpContigTiles2ContigTiles; case pack(PLANARCONFIG_CONTIG, PLANARCONFIG_SEPARATE, T,T,F): case pack(PLANARCONFIG_CONTIG, PLANARCONFIG_SEPARATE, T,T,T): return cpContigTiles2SeparateTiles; case pack(PLANARCONFIG_SEPARATE, PLANARCONFIG_CONTIG, T,T,F): case pack(PLANARCONFIG_SEPARATE, PLANARCONFIG_CONTIG, T,T,T): return cpSeparateTiles2ContigTiles; case pack(PLANARCONFIG_SEPARATE, PLANARCONFIG_SEPARATE, T,T,F): case pack(PLANARCONFIG_SEPARATE, PLANARCONFIG_SEPARATE, T,T,T): return cpSeparateTiles2SeparateTiles; /* Tiles -> Strips */ case pack(PLANARCONFIG_CONTIG, PLANARCONFIG_CONTIG, T,F,F): case pack(PLANARCONFIG_CONTIG, PLANARCONFIG_CONTIG, T,F,T): return cpContigTiles2ContigStrips; case pack(PLANARCONFIG_CONTIG, PLANARCONFIG_SEPARATE, T,F,F): case pack(PLANARCONFIG_CONTIG, PLANARCONFIG_SEPARATE, T,F,T): return cpContigTiles2SeparateStrips; case pack(PLANARCONFIG_SEPARATE, PLANARCONFIG_CONTIG, T,F,F): case pack(PLANARCONFIG_SEPARATE, PLANARCONFIG_CONTIG, T,F,T): return cpSeparateTiles2ContigStrips; case pack(PLANARCONFIG_SEPARATE, PLANARCONFIG_SEPARATE, T,F,F): case pack(PLANARCONFIG_SEPARATE, PLANARCONFIG_SEPARATE, T,F,T): return cpSeparateTiles2SeparateStrips; /* Strips -> Strips */ case pack(PLANARCONFIG_CONTIG, PLANARCONFIG_CONTIG, F,F,F): return bias ? cpBiasedContig2Contig : cpContig2ContigByRow; case pack(PLANARCONFIG_CONTIG, PLANARCONFIG_CONTIG, F,F,T): return cpDecodedStrips; case pack(PLANARCONFIG_CONTIG, PLANARCONFIG_SEPARATE, F,F,F): case pack(PLANARCONFIG_CONTIG, PLANARCONFIG_SEPARATE, F,F,T): return cpContig2SeparateByRow; case pack(PLANARCONFIG_SEPARATE, PLANARCONFIG_CONTIG, F,F,F): case pack(PLANARCONFIG_SEPARATE, PLANARCONFIG_CONTIG, F,F,T): return cpSeparate2ContigByRow; case pack(PLANARCONFIG_SEPARATE, PLANARCONFIG_SEPARATE, F,F,F): case pack(PLANARCONFIG_SEPARATE, PLANARCONFIG_SEPARATE, F,F,T): return cpSeparate2SeparateByRow; } #undef pack #undef F #undef T fprintf(stderr, "tiffcp: %s: Don't know how to copy/convert image.\n", TIFFFileName(in)); return (NULL); }