commit 2295a0c32262005cb3d2528972d990669e6766e6 Author: CentOS Sources Date: Tue May 7 09:15:55 2019 -0400 import libwmf-0.2.9-4.el8 diff --git a/.gitignore b/.gitignore new file mode 100644 index 0000000..caa253a --- /dev/null +++ b/.gitignore @@ -0,0 +1 @@ +SOURCES/v0.2.9.tar.gz diff --git a/.libwmf.metadata b/.libwmf.metadata new file mode 100644 index 0000000..1bfef49 --- /dev/null +++ b/.libwmf.metadata @@ -0,0 +1 @@ +b63f95da60db128f53ca61c2941f1c07c820d02f SOURCES/v0.2.9.tar.gz diff --git a/SOURCES/covscan.patch b/SOURCES/covscan.patch new file mode 100644 index 0000000..c92b915 --- /dev/null +++ b/SOURCES/covscan.patch @@ -0,0 +1,2271 @@ +diff --git a/src/extra/gd/Makefile.am b/src/extra/gd/Makefile.am +index 3fb9330..14bda8c 100644 +--- a/src/extra/gd/Makefile.am ++++ b/src/extra/gd/Makefile.am +@@ -22,7 +22,7 @@ libgd_la_SOURCES = gd.c gd_gd.c gd_gd2.c gd_io.c gd_io_dp.c \ + gd_io_file.c gd_ss.c gd_io_ss.c gd_png.c gd_jpeg.c gdxpm.c \ + gdfontt.c gdfonts.c gdfontmb.c gdfontl.c gdfontg.c \ + gdtables.c gdft.c gdcache.c gdkanji.c wbmp.c \ +- gd_wbmp.c gdhelpers.c gd_topal.c gd_clip.c ++ gd_wbmp.c gdhelpers.c gd_clip.c + + gddir = $(includedir)/libwmf/gd + +diff --git a/src/extra/gd/Makefile.gd b/src/extra/gd/Makefile.gd +index 3cd876f..b90e4ac 100644 +--- a/src/extra/gd/Makefile.gd ++++ b/src/extra/gd/Makefile.gd +@@ -145,7 +145,7 @@ LIBOBJS=gd.o gd_gd.o gd_gd2.o gd_io.o gd_io_dp.o \ + gd_io_file.o gd_ss.o gd_io_ss.o gd_png.o gd_jpeg.o gdxpm.o \ + gdfontt.o gdfonts.o gdfontmb.o gdfontl.o gdfontg.o \ + gdtables.o gdft.o gdcache.o gdkanji.o wbmp.o \ +- gd_wbmp.o gdhelpers.o gd_topal.o ++ gd_wbmp.o gdhelpers.o + + #Shared library. This should work fine on any ELF platform (Linux, etc.) with + #GNU ld or something similarly intelligent. To avoid the chicken-and-egg +diff --git a/src/extra/gd/Makefile.in b/src/extra/gd/Makefile.in +index edb5c90..8cf93a6 100644 +--- a/src/extra/gd/Makefile.in ++++ b/src/extra/gd/Makefile.in +@@ -107,7 +107,7 @@ am_libgd_la_OBJECTS = gd.lo gd_gd.lo gd_gd2.lo gd_io.lo gd_io_dp.lo \ + gd_io_file.lo gd_ss.lo gd_io_ss.lo gd_png.lo gd_jpeg.lo \ + gdxpm.lo gdfontt.lo gdfonts.lo gdfontmb.lo gdfontl.lo \ + gdfontg.lo gdtables.lo gdft.lo gdcache.lo gdkanji.lo wbmp.lo \ +- gd_wbmp.lo gdhelpers.lo gd_topal.lo gd_clip.lo ++ gd_wbmp.lo gdhelpers.lo gd_clip.lo + libgd_la_OBJECTS = $(am_libgd_la_OBJECTS) + AM_V_lt = $(am__v_lt_@AM_V@) + am__v_lt_ = $(am__v_lt_@AM_DEFAULT_V@) +@@ -370,7 +370,7 @@ libgd_la_SOURCES = gd.c gd_gd.c gd_gd2.c gd_io.c gd_io_dp.c \ + gd_io_file.c gd_ss.c gd_io_ss.c gd_png.c gd_jpeg.c gdxpm.c \ + gdfontt.c gdfonts.c gdfontmb.c gdfontl.c gdfontg.c \ + gdtables.c gdft.c gdcache.c gdkanji.c wbmp.c \ +- gd_wbmp.c gdhelpers.c gd_topal.c gd_clip.c ++ gd_wbmp.c gdhelpers.c gd_clip.c + + gddir = $(includedir)/libwmf/gd + gd_HEADERS = $(HDRGDINST) +@@ -472,7 +472,6 @@ distclean-compile: + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/gd_jpeg.Plo@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/gd_png.Plo@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/gd_ss.Plo@am__quote@ +-@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/gd_topal.Plo@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/gd_wbmp.Plo@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/gdcache.Plo@am__quote@ + @AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/gdfontg.Plo@am__quote@ +diff --git a/src/extra/gd/gd.c b/src/extra/gd/gd.c +index 6296472..dc6a9a7 100644 +--- a/src/extra/gd/gd.c ++++ b/src/extra/gd/gd.c +@@ -1995,7 +1995,7 @@ gdImageCopyResized (gdImagePtr dst, gdImagePtr src, int dstX, int dstY, int srcX + else + { + /* Find or create the best match */ +- mapTo = gdImageColorResolveAlpha (dst, ++ nc = gdImageColorResolveAlpha (dst, + gdTrueColorGetRed (c), + gdTrueColorGetGreen (c), + gdTrueColorGetBlue (c), +diff --git a/src/extra/gd/gd.h b/src/extra/gd/gd.h +index 619ddd3..8c19354 100644 +--- a/src/extra/gd/gd.h ++++ b/src/extra/gd/gd.h +@@ -308,24 +308,6 @@ int gdImageColorResolveAlpha(gdImagePtr im, int r, int g, int b, int a); + + void gdImageColorDeallocate(gdImagePtr im, int color); + +-/* Converts a truecolor image to a palette-based image, +- using a high-quality two-pass quantization routine +- which attempts to preserve alpha channel information +- as well as R/G/B color information when creating +- a palette. If ditherFlag is set, the image will be +- dithered to approximate colors better, at the expense +- of some obvious "speckling." colorsWanted can be +- anything up to 256. If the original source image +- includes photographic information or anything that +- came out of a JPEG, 256 is strongly recommended. +- +- Better yet, don't use this function -- write real +- truecolor PNGs and JPEGs. The disk space gain of +- conversion to palette is not great (for small images +- it can be negative) and the quality loss is ugly. */ +- +-void gdImageTrueColorToPalette(gdImagePtr im, int ditherFlag, int colorsWanted); +- + /* Specifies a color index (if a palette image) or an + RGB color (if a truecolor image) which should be + considered 100% transparent. FOR TRUECOLOR IMAGES, +diff --git a/src/extra/gd/gd_gd2.c b/src/extra/gd/gd_gd2.c +index 602b869..05d8dcb 100644 +--- a/src/extra/gd/gd_gd2.c ++++ b/src/extra/gd/gd_gd2.c +@@ -361,7 +361,7 @@ gdImageCreateFromGd2Ctx (gdIOCtxPtr in) + xhi = im->sx; + }; + /*GD2_DBG(printf("y=%d: ",y)); */ +- if (fmt == GD2_FMT_RAW) ++ if (fmt != GD2_FMT_COMPRESSED) + { + for (x = xlo; x < xhi; x++) + { +@@ -617,7 +617,7 @@ gdImageCreateFromGd2PartCtx (gdIOCtx * in, int srcx, int srcy, int w, int h) + + for (x = xlo; x < xhi; x++) + { +- if (fmt == GD2_FMT_RAW) ++ if (fmt != GD2_FMT_COMPRESSED) + { + if (im->trueColor) + { +diff --git a/src/extra/gd/gd_png.c b/src/extra/gd/gd_png.c +index b37fc2c..c7f3aa0 100644 +--- a/src/extra/gd/gd_png.c ++++ b/src/extra/gd/gd_png.c +@@ -131,7 +131,6 @@ gdImageCreateFromPngCtx (gdIOCtx * infile) + gdImagePtr im = NULL; + int i, j, *open; + volatile int transparent = -1; +- volatile int palette_allocated = FALSE; + + /* Make sure the signature can't match by dumb luck -- TBB */ + memset (sig, 0, sizeof (sig)); +@@ -177,6 +176,7 @@ gdImageCreateFromPngCtx (gdIOCtx * infile) + } + #endif + open = NULL; ++ palette = NULL; + + png_set_sig_bytes (png_ptr, 8); /* we already read the 8 signature bytes */ + +@@ -254,7 +254,6 @@ gdImageCreateFromPngCtx (gdIOCtx * infile) + gdImageDestroy(im); + return NULL; + } +- palette_allocated = TRUE; + if (bit_depth < 8) + { + num_palette = 1 << bit_depth; +@@ -321,8 +320,7 @@ gdImageCreateFromPngCtx (gdIOCtx * infile) + fprintf (stderr, "gd-png error: cannot allocate image data\n"); + png_destroy_read_struct (&png_ptr, &info_ptr, NULL); + gdImageDestroy(im); +- if (palette_allocated) +- gdFree (palette); ++ gdFree(palette); + return NULL; + } + if ((row_pointers = (png_bytepp) gdMalloc (height * sizeof (png_bytep))) == NULL) +@@ -331,8 +329,7 @@ gdImageCreateFromPngCtx (gdIOCtx * infile) + png_destroy_read_struct (&png_ptr, &info_ptr, NULL); + gdFree (image_data); + gdImageDestroy(im); +- if (palette_allocated) +- gdFree (palette); ++ gdFree(palette); + return NULL; + } + +@@ -429,8 +426,7 @@ gdImageCreateFromPngCtx (gdIOCtx * infile) + } + #endif + +- if (palette_allocated) +- gdFree (palette); ++ gdFree (palette); + gdFree (image_data); + gdFree (row_pointers); + +diff --git a/src/extra/gd/gd_topal.c b/src/extra/gd/gd_topal.c +deleted file mode 100644 +index 4ca86c9..0000000 +--- a/src/extra/gd/gd_topal.c ++++ /dev/null +@@ -1,1698 +0,0 @@ +- +- +-/* +- * gd_topal.c +- * +- * This code is adapted pretty much entirely from jquant2.c, +- * Copyright (C) 1991-1996, Thomas G. Lane. That file is +- * part of the Independent JPEG Group's software. Conditions of +- * use are compatible with the gd license. See the gd license +- * statement and README-JPEG.TXT for additional information. +- * +- * This file contains 2-pass color quantization (color mapping) routines. +- * These routines provide selection of a custom color map for an image, +- * followed by mapping of the image to that color map, with optional +- * Floyd-Steinberg dithering. +- * +- * It is also possible to use just the second pass to map to an arbitrary +- * externally-given color map. +- * +- * Note: ordered dithering is not supported, since there isn't any fast +- * way to compute intercolor distances; it's unclear that ordered dither's +- * fundamental assumptions even hold with an irregularly spaced color map. +- * +- * SUPPORT FOR ALPHA CHANNELS WAS HACKED IN BY THOMAS BOUTELL, who also +- * adapted the code to work within gd rather than within libjpeg, and +- * may not have done a great job of either. It's not Thomas G. Lane's fault. +- */ +- +-#include "gd.h" +-#include "gdhelpers.h" +-#include +- +-/* +- * This module implements the well-known Heckbert paradigm for color +- * quantization. Most of the ideas used here can be traced back to +- * Heckbert's seminal paper +- * Heckbert, Paul. "Color Image Quantization for Frame Buffer Display", +- * Proc. SIGGRAPH '82, Computer Graphics v.16 #3 (July 1982), pp 297-304. +- * +- * In the first pass over the image, we accumulate a histogram showing the +- * usage count of each possible color. To keep the histogram to a reasonable +- * size, we reduce the precision of the input; typical practice is to retain +- * 5 or 6 bits per color, so that 8 or 4 different input values are counted +- * in the same histogram cell. +- * +- * Next, the color-selection step begins with a box representing the whole +- * color space, and repeatedly splits the "largest" remaining box until we +- * have as many boxes as desired colors. Then the mean color in each +- * remaining box becomes one of the possible output colors. +- * +- * The second pass over the image maps each input pixel to the closest output +- * color (optionally after applying a Floyd-Steinberg dithering correction). +- * This mapping is logically trivial, but making it go fast enough requires +- * considerable care. +- * +- * Heckbert-style quantizers vary a good deal in their policies for choosing +- * the "largest" box and deciding where to cut it. The particular policies +- * used here have proved out well in experimental comparisons, but better ones +- * may yet be found. +- * +- * In earlier versions of the IJG code, this module quantized in YCbCr color +- * space, processing the raw upsampled data without a color conversion step. +- * This allowed the color conversion math to be done only once per colormap +- * entry, not once per pixel. However, that optimization precluded other +- * useful optimizations (such as merging color conversion with upsampling) +- * and it also interfered with desired capabilities such as quantizing to an +- * externally-supplied colormap. We have therefore abandoned that approach. +- * The present code works in the post-conversion color space, typically RGB. +- * +- * To improve the visual quality of the results, we actually work in scaled +- * RGBA space, giving G distances more weight than R, and R in turn more than +- * B. Alpha is weighted least. To do everything in integer math, we must +- * use integer scale factors. The 2/3/1 scale factors used here correspond +- * loosely to the relative weights of the colors in the NTSC grayscale +- * equation. +- */ +- +-#ifndef TRUE +-#define TRUE 1 +-#endif /* TRUE */ +- +-#ifndef FALSE +-#define FALSE 0 +-#endif /* FALSE */ +- +-#define R_SCALE 2 /* scale R distances by this much */ +-#define G_SCALE 3 /* scale G distances by this much */ +-#define B_SCALE 1 /* and B by this much */ +-#define A_SCALE 4 /* and alpha by this much. This really +- only scales by 1 because alpha +- values are 7-bit to begin with. */ +- +-/* Channel ordering (fixed in gd) */ +-#define C0_SCALE R_SCALE +-#define C1_SCALE G_SCALE +-#define C2_SCALE B_SCALE +-#define C3_SCALE A_SCALE +- +-/* +- * First we have the histogram data structure and routines for creating it. +- * +- * The number of bits of precision can be adjusted by changing these symbols. +- * We recommend keeping 6 bits for G and 5 each for R and B. +- * If you have plenty of memory and cycles, 6 bits all around gives marginally +- * better results; if you are short of memory, 5 bits all around will save +- * some space but degrade the results. +- * To maintain a fully accurate histogram, we'd need to allocate a "long" +- * (preferably unsigned long) for each cell. In practice this is overkill; +- * we can get by with 16 bits per cell. Few of the cell counts will overflow, +- * and clamping those that do overflow to the maximum value will give close- +- * enough results. This reduces the recommended histogram size from 256Kb +- * to 128Kb, which is a useful savings on PC-class machines. +- * (In the second pass the histogram space is re-used for pixel mapping data; +- * in that capacity, each cell must be able to store zero to the number of +- * desired colors. 16 bits/cell is plenty for that too.) +- * Since the JPEG code is intended to run in small memory model on 80x86 +- * machines, we can't just allocate the histogram in one chunk. Instead +- * of a true 3-D array, we use a row of pointers to 2-D arrays. Each +- * pointer corresponds to a C0 value (typically 2^5 = 32 pointers) and +- * each 2-D array has 2^6*2^5 = 2048 or 2^6*2^6 = 4096 entries. Note that +- * on 80x86 machines, the pointer row is in near memory but the actual +- * arrays are in far memory (same arrangement as we use for image arrays). +- */ +- +-#define MAXNUMCOLORS (gdMaxColors) /* maximum size of colormap */ +- +-#define HIST_C0_BITS 5 /* bits of precision in R histogram */ +-#define HIST_C1_BITS 6 /* bits of precision in G histogram */ +-#define HIST_C2_BITS 5 /* bits of precision in B histogram */ +-#define HIST_C3_BITS 3 /* bits of precision in A histogram */ +- +-/* Number of elements along histogram axes. */ +-#define HIST_C0_ELEMS (1<histogram; +- int row; +- int col; +- int *ptr; +- int width = im->sx; +- +- for (row = 0; row < im->sy; row++) +- { +- ptr = im->tpixels[row]; +- for (col = width; col > 0; col--) +- { +- /* get pixel value and index into the histogram */ +- int r, g, b, a; +- r = gdTrueColorGetRed (*ptr) >> C0_SHIFT; +- g = gdTrueColorGetGreen (*ptr) >> C1_SHIFT; +- b = gdTrueColorGetBlue (*ptr) >> C2_SHIFT; +- a = gdTrueColorGetAlpha (*ptr); +- /* We must have 100% opacity and transparency available +- in the color map to do an acceptable job with alpha +- channel, if opacity and transparency are present in the +- original, because of the visual properties of large +- flat-color border areas (requiring 100% transparency) +- and the behavior of poorly implemented browsers +- (requiring 100% opacity). Test for the presence of +- these here, and rescale the most opaque and transparent +- palette entries at the end if so. This avoids the need +- to develop a fuller understanding I have not been able +- to reach so far in my study of this subject. TBB */ +- if (a == gdAlphaTransparent) +- { +- cquantize->transparentIsPresent = 1; +- } +- if (a == gdAlphaOpaque) +- { +- cquantize->opaqueIsPresent = 1; +- } +- a >>= C3_SHIFT; +- histp = &histogram[r][g][b][a]; +- /* increment, check for overflow and undo increment if so. */ +- if (++(*histp) <= 0) +- (*histp)--; +- ptr++; +- } +- } +-} +- +- +-/* +- * Next we have the really interesting routines: selection of a colormap +- * given the completed histogram. +- * These routines work with a list of "boxes", each representing a rectangular +- * subset of the input color space (to histogram precision). +- */ +- +-typedef struct +-{ +- /* The bounds of the box (inclusive); expressed as histogram indexes */ +- int c0min, c0max; +- int c1min, c1max; +- int c2min, c2max; +- int c3min, c3max; +- /* The volume (actually 2-norm) of the box */ +- int volume; +- /* The number of nonzero histogram cells within this box */ +- long colorcount; +-} +-box; +- +-typedef box *boxptr; +- +-static boxptr +-find_biggest_color_pop (boxptr boxlist, int numboxes) +-/* Find the splittable box with the largest color population */ +-/* Returns NULL if no splittable boxes remain */ +-{ +- register boxptr boxp; +- register int i; +- register long maxc = 0; +- boxptr which = NULL; +- +- for (i = 0, boxp = boxlist; i < numboxes; i++, boxp++) +- { +- if (boxp->colorcount > maxc && boxp->volume > 0) +- { +- which = boxp; +- maxc = boxp->colorcount; +- } +- } +- return which; +-} +- +- +-static boxptr +-find_biggest_volume (boxptr boxlist, int numboxes) +-/* Find the splittable box with the largest (scaled) volume */ +-/* Returns NULL if no splittable boxes remain */ +-{ +- register boxptr boxp; +- register int i; +- register int maxv = 0; +- boxptr which = NULL; +- +- for (i = 0, boxp = boxlist; i < numboxes; i++, boxp++) +- { +- if (boxp->volume > maxv) +- { +- which = boxp; +- maxv = boxp->volume; +- } +- } +- return which; +-} +- +- +-static void +-update_box (my_cquantize_ptr cquantize, boxptr boxp) +-/* Shrink the min/max bounds of a box to enclose only nonzero elements, */ +-/* and recompute its volume and population */ +-{ +- hist4d histogram = cquantize->histogram; +- histptr histp; +- int c0, c1, c2, c3; +- int c0min, c0max, c1min, c1max, c2min, c2max, c3min, c3max; +- int dist0, dist1, dist2, dist3; +- long ccount; +- +- c0min = boxp->c0min; +- c0max = boxp->c0max; +- c1min = boxp->c1min; +- c1max = boxp->c1max; +- c2min = boxp->c2min; +- c2max = boxp->c2max; +- c3min = boxp->c3min; +- c3max = boxp->c3max; +- +- if (c0max > c0min) +- { +- for (c0 = c0min; c0 <= c0max; c0++) +- { +- for (c1 = c1min; c1 <= c1max; c1++) +- { +- for (c2 = c2min; c2 <= c2max; c2++) +- { +- histp = &histogram[c0][c1][c2][c3min]; +- for (c3 = c3min; c3 <= c3max; c3++) +- { +- if (*histp++ != 0) +- { +- boxp->c0min = c0min = c0; +- goto have_c0min; +- } +- } +- } +- } +- } +- } +-have_c0min: +- if (c0max > c0min) +- { +- for (c0 = c0max; c0 >= c0min; c0--) +- { +- for (c1 = c1min; c1 <= c1max; c1++) +- { +- for (c2 = c2min; c2 <= c2max; c2++) +- { +- histp = &histogram[c0][c1][c2][c3min]; +- for (c3 = c3min; c3 <= c3max; c3++) +- { +- if (*histp++ != 0) +- { +- boxp->c0max = c0max = c0; +- goto have_c0max; +- } +- } +- } +- } +- } +- } +-have_c0max: +- if (c1max > c1min) +- for (c1 = c1min; c1 <= c1max; c1++) +- for (c0 = c0min; c0 <= c0max; c0++) +- { +- for (c2 = c2min; c2 <= c2max; c2++) +- { +- histp = &histogram[c0][c1][c2][c3min]; +- for (c3 = c3min; c3 <= c3max; c3++) +- if (*histp++ != 0) +- { +- boxp->c1min = c1min = c1; +- goto have_c1min; +- } +- } +- } +-have_c1min: +- if (c1max > c1min) +- for (c1 = c1max; c1 >= c1min; c1--) +- for (c0 = c0min; c0 <= c0max; c0++) +- { +- for (c2 = c2min; c2 <= c2max; c2++) +- { +- histp = &histogram[c0][c1][c2][c3min]; +- for (c3 = c3min; c3 <= c3max; c3++) +- if (*histp++ != 0) +- { +- boxp->c1max = c1max = c1; +- goto have_c1max; +- } +- } +- } +-have_c1max: +- /* The original version hand-rolled the array lookup a little, but +- with four dimensions, I don't even want to think about it. TBB */ +- if (c2max > c2min) +- for (c2 = c2min; c2 <= c2max; c2++) +- for (c0 = c0min; c0 <= c0max; c0++) +- for (c1 = c1min; c1 <= c1max; c1++) +- for (c3 = c3min; c3 <= c3max; c3++) +- if (histogram[c0][c1][c2][c3] != 0) +- { +- boxp->c2min = c2min = c2; +- goto have_c2min; +- } +-have_c2min: +- if (c2max > c2min) +- for (c2 = c2max; c2 >= c2min; c2--) +- for (c0 = c0min; c0 <= c0max; c0++) +- for (c1 = c1min; c1 <= c1max; c1++) +- for (c3 = c3min; c3 <= c3max; c3++) +- if (histogram[c0][c1][c2][c3] != 0) +- { +- boxp->c2max = c2max = c2; +- goto have_c2max; +- } +-have_c2max: +- if (c3max > c3min) +- for (c3 = c3min; c3 <= c3max; c3++) +- for (c0 = c0min; c0 <= c0max; c0++) +- for (c1 = c1min; c1 <= c1max; c1++) +- for (c2 = c2min; c2 <= c2max; c2++) +- if (histogram[c0][c1][c2][c3] != 0) +- { +- boxp->c3min = c3min = c3; +- goto have_c3min; +- } +-have_c3min: +- if (c3max > c3min) +- for (c3 = c3max; c3 >= c3min; c3--) +- for (c0 = c0min; c0 <= c0max; c0++) +- for (c1 = c1min; c1 <= c1max; c1++) +- for (c2 = c2min; c2 <= c2max; c2++) +- if (histogram[c0][c1][c2][c3] != 0) +- { +- boxp->c3max = c3max = c3; +- goto have_c3max; +- } +-have_c3max: +- /* Update box volume. +- * We use 2-norm rather than real volume here; this biases the method +- * against making long narrow boxes, and it has the side benefit that +- * a box is splittable iff norm > 0. +- * Since the differences are expressed in histogram-cell units, +- * we have to shift back to 8-bit units to get consistent distances; +- * after which, we scale according to the selected distance scale factors. +- * TBB: alpha shifts back to 7 bit units. That was accounted for in the +- * alpha scale factor. +- */ +- dist0 = ((c0max - c0min) << C0_SHIFT) * C0_SCALE; +- dist1 = ((c1max - c1min) << C1_SHIFT) * C1_SCALE; +- dist2 = ((c2max - c2min) << C2_SHIFT) * C2_SCALE; +- dist3 = ((c3max - c3min) << C3_SHIFT) * C3_SCALE; +- boxp->volume = dist0 * dist0 + dist1 * dist1 + dist2 * dist2 + dist3 * dist3; +- +- /* Now scan remaining volume of box and compute population */ +- ccount = 0; +- for (c0 = c0min; c0 <= c0max; c0++) +- for (c1 = c1min; c1 <= c1max; c1++) +- for (c2 = c2min; c2 <= c2max; c2++) +- { +- histp = &histogram[c0][c1][c2][c3min]; +- for (c3 = c3min; c3 <= c3max; c3++, histp++) +- if (*histp != 0) +- { +- ccount++; +- } +- } +- boxp->colorcount = ccount; +-} +- +- +-static int +-median_cut (my_cquantize_ptr cquantize, +- boxptr boxlist, int numboxes, +- int desired_colors) +-/* Repeatedly select and split the largest box until we have enough boxes */ +-{ +- int n, lb; +- int c0, c1, c2, c3, cmax; +- register boxptr b1, b2; +- +- while (numboxes < desired_colors) +- { +- /* Select box to split. +- * Current algorithm: by population for first half, then by volume. +- */ +- if (numboxes * 2 <= desired_colors) +- { +- b1 = find_biggest_color_pop (boxlist, numboxes); +- } +- else +- { +- b1 = find_biggest_volume (boxlist, numboxes); +- } +- if (b1 == NULL) /* no splittable boxes left! */ +- break; +- b2 = &boxlist[numboxes]; /* where new box will go */ +- /* Copy the color bounds to the new box. */ +- b2->c0max = b1->c0max; +- b2->c1max = b1->c1max; +- b2->c2max = b1->c2max; +- b2->c3max = b1->c3max; +- b2->c0min = b1->c0min; +- b2->c1min = b1->c1min; +- b2->c2min = b1->c2min; +- b2->c3min = b1->c3min; +- /* Choose which axis to split the box on. +- * Current algorithm: longest scaled axis. +- * See notes in update_box about scaling distances. +- */ +- c0 = ((b1->c0max - b1->c0min) << C0_SHIFT) * C0_SCALE; +- c1 = ((b1->c1max - b1->c1min) << C1_SHIFT) * C1_SCALE; +- c2 = ((b1->c2max - b1->c2min) << C2_SHIFT) * C2_SCALE; +- c3 = ((b1->c3max - b1->c3min) << C3_SHIFT) * C3_SCALE; +- /* We want to break any ties in favor of green, then red, then blue, +- with alpha last. */ +- cmax = c1; +- n = 1; +- if (c0 > cmax) +- { +- cmax = c0; +- n = 0; +- } +- if (c2 > cmax) +- { +- cmax = c2; +- n = 2; +- } +- if (c3 > cmax) +- { +- n = 3; +- } +- /* Choose split point along selected axis, and update box bounds. +- * Current algorithm: split at halfway point. +- * (Since the box has been shrunk to minimum volume, +- * any split will produce two nonempty subboxes.) +- * Note that lb value is max for lower box, so must be < old max. +- */ +- switch (n) +- { +- case 0: +- lb = (b1->c0max + b1->c0min) / 2; +- b1->c0max = lb; +- b2->c0min = lb + 1; +- break; +- case 1: +- lb = (b1->c1max + b1->c1min) / 2; +- b1->c1max = lb; +- b2->c1min = lb + 1; +- break; +- case 2: +- lb = (b1->c2max + b1->c2min) / 2; +- b1->c2max = lb; +- b2->c2min = lb + 1; +- break; +- case 3: +- lb = (b1->c3max + b1->c3min) / 2; +- b1->c3max = lb; +- b2->c3min = lb + 1; +- break; +- } +- /* Update stats for boxes */ +- update_box (cquantize, b1); +- update_box (cquantize, b2); +- numboxes++; +- } +- return numboxes; +-} +- +- +-static void +-compute_color (gdImagePtr im, my_cquantize_ptr cquantize, +- boxptr boxp, int icolor) +-/* +- Compute representative color for a box, put it in +- palette index icolor */ +-{ +- /* Current algorithm: mean weighted by pixels (not colors) */ +- /* Note it is important to get the rounding correct! */ +- hist4d histogram = cquantize->histogram; +- histptr histp; +- int c0, c1, c2, c3; +- int c0min, c0max, c1min, c1max, c2min, c2max, c3min, c3max; +- long count; +- long total = 0; +- long c0total = 0; +- long c1total = 0; +- long c2total = 0; +- long c3total = 0; +- +- c0min = boxp->c0min; +- c0max = boxp->c0max; +- c1min = boxp->c1min; +- c1max = boxp->c1max; +- c2min = boxp->c2min; +- c2max = boxp->c2max; +- c3min = boxp->c3min; +- c3max = boxp->c3max; +- +- for (c0 = c0min; c0 <= c0max; c0++) +- { +- for (c1 = c1min; c1 <= c1max; c1++) +- { +- for (c2 = c2min; c2 <= c2max; c2++) +- { +- histp = &histogram[c0][c1][c2][c3min]; +- for (c3 = c3min; c3 <= c3max; c3++) +- { +- if ((count = *histp++) != 0) +- { +- total += count; +- c0total += ((c0 << C0_SHIFT) + ((1 << C0_SHIFT) >> 1)) * count; +- c1total += ((c1 << C1_SHIFT) + ((1 << C1_SHIFT) >> 1)) * count; +- c2total += ((c2 << C2_SHIFT) + ((1 << C2_SHIFT) >> 1)) * count; +- c3total += ((c3 << C3_SHIFT) + ((1 << C3_SHIFT) >> 1)) * count; +- } +- } +- } +- } +- } +- if (total) +- { +- im->red[icolor] = (int) ((c0total + (total >> 1)) / total); +- im->green[icolor] = (int) ((c1total + (total >> 1)) / total); +- im->blue[icolor] = (int) ((c2total + (total >> 1)) / total); +- im->alpha[icolor] = (int) ((c3total + (total >> 1)) / total); +- } +- else +- { +- im->red[icolor] = 255; +- im->green[icolor] = 255; +- im->blue[icolor] = 255; +- im->alpha[icolor] = 255; +- } +- im->open[icolor] = 0; +- if (im->colorsTotal <= icolor) +- { +- im->colorsTotal = icolor + 1; +- } +-} +- +-static void +-select_colors (gdImagePtr im, my_cquantize_ptr cquantize, int desired_colors) +-/* Master routine for color selection */ +-{ +- boxptr boxlist; +- int numboxes; +- int i; +- +- /* Allocate workspace for box list */ +- boxlist = (boxptr) gdMalloc (desired_colors * sizeof (box)); +- /* Initialize one box containing whole space */ +- numboxes = 1; +- /* Note maxval for alpha is different */ +- boxlist[0].c0min = 0; +- boxlist[0].c0max = 255 >> C0_SHIFT; +- boxlist[0].c1min = 0; +- boxlist[0].c1max = 255 >> C1_SHIFT; +- boxlist[0].c2min = 0; +- boxlist[0].c2max = 255 >> C2_SHIFT; +- boxlist[0].c3min = 0; +- boxlist[0].c3max = gdAlphaMax >> C3_SHIFT; +- /* Shrink it to actually-used volume and set its statistics */ +- update_box (cquantize, &boxlist[0]); +- /* Perform median-cut to produce final box list */ +- numboxes = median_cut (cquantize, boxlist, numboxes, desired_colors); +- /* Compute the representative color for each box, fill colormap */ +- for (i = 0; i < numboxes; i++) +- compute_color (im, cquantize, &boxlist[i], i); +- /* TBB: if the image contains colors at both scaled ends +- of the alpha range, rescale slightly to make sure alpha +- covers the full spectrum from 100% transparent to 100% +- opaque. Even a faint distinct background color is +- generally considered failure with regard to alpha. */ +- +- im->colorsTotal = numboxes; +- gdFree (boxlist); +-} +- +- +-/* +- * These routines are concerned with the time-critical task of mapping input +- * colors to the nearest color in the selected colormap. +- * +- * We re-use the histogram space as an "inverse color map", essentially a +- * cache for the results of nearest-color searches. All colors within a +- * histogram cell will be mapped to the same colormap entry, namely the one +- * closest to the cell's center. This may not be quite the closest entry to +- * the actual input color, but it's almost as good. A zero in the cache +- * indicates we haven't found the nearest color for that cell yet; the array +- * is cleared to zeroes before starting the mapping pass. When we find the +- * nearest color for a cell, its colormap index plus one is recorded in the +- * cache for future use. The pass2 scanning routines call fill_inverse_cmap +- * when they need to use an unfilled entry in the cache. +- * +- * Our method of efficiently finding nearest colors is based on the "locally +- * sorted search" idea described by Heckbert and on the incremental distance +- * calculation described by Spencer W. Thomas in chapter III.1 of Graphics +- * Gems II (James Arvo, ed. Academic Press, 1991). Thomas points out that +- * the distances from a given colormap entry to each cell of the histogram can +- * be computed quickly using an incremental method: the differences between +- * distances to adjacent cells themselves differ by a constant. This allows a +- * fairly fast implementation of the "brute force" approach of computing the +- * distance from every colormap entry to every histogram cell. Unfortunately, +- * it needs a work array to hold the best-distance-so-far for each histogram +- * cell (because the inner loop has to be over cells, not colormap entries). +- * The work array elements have to be INT32s, so the work array would need +- * 256Kb at our recommended precision. This is not feasible in DOS machines. +- * +- * To get around these problems, we apply Thomas' method to compute the +- * nearest colors for only the cells within a small subbox of the histogram. +- * The work array need be only as big as the subbox, so the memory usage +- * problem is solved. Furthermore, we need not fill subboxes that are never +- * referenced in pass2; many images use only part of the color gamut, so a +- * fair amount of work is saved. An additional advantage of this +- * approach is that we can apply Heckbert's locality criterion to quickly +- * eliminate colormap entries that are far away from the subbox; typically +- * three-fourths of the colormap entries are rejected by Heckbert's criterion, +- * and we need not compute their distances to individual cells in the subbox. +- * The speed of this approach is heavily influenced by the subbox size: too +- * small means too much overhead, too big loses because Heckbert's criterion +- * can't eliminate as many colormap entries. Empirically the best subbox +- * size seems to be about 1/512th of the histogram (1/8th in each direction). +- * +- * Thomas' article also describes a refined method which is asymptotically +- * faster than the brute-force method, but it is also far more complex and +- * cannot efficiently be applied to small subboxes. It is therefore not +- * useful for programs intended to be portable to DOS machines. On machines +- * with plenty of memory, filling the whole histogram in one shot with Thomas' +- * refined method might be faster than the present code --- but then again, +- * it might not be any faster, and it's certainly more complicated. +- */ +- +- +-/* log2(histogram cells in update box) for each axis; this can be adjusted */ +-#define BOX_C0_LOG (HIST_C0_BITS-3) +-#define BOX_C1_LOG (HIST_C1_BITS-3) +-#define BOX_C2_LOG (HIST_C2_BITS-3) +-#define BOX_C3_LOG (HIST_C3_BITS-3) +- +-#define BOX_C0_ELEMS (1<colorsTotal; +- int maxc0, maxc1, maxc2, maxc3; +- int centerc0, centerc1, centerc2, centerc3; +- int i, x, ncolors; +- int minmaxdist, min_dist, max_dist, tdist; +- int mindist[MAXNUMCOLORS]; /* min distance to colormap entry i */ +- +- /* Compute true coordinates of update box's upper corner and center. +- * Actually we compute the coordinates of the center of the upper-corner +- * histogram cell, which are the upper bounds of the volume we care about. +- * Note that since ">>" rounds down, the "center" values may be closer to +- * min than to max; hence comparisons to them must be "<=", not "<". +- */ +- maxc0 = minc0 + ((1 << BOX_C0_SHIFT) - (1 << C0_SHIFT)); +- centerc0 = (minc0 + maxc0) >> 1; +- maxc1 = minc1 + ((1 << BOX_C1_SHIFT) - (1 << C1_SHIFT)); +- centerc1 = (minc1 + maxc1) >> 1; +- maxc2 = minc2 + ((1 << BOX_C2_SHIFT) - (1 << C2_SHIFT)); +- centerc2 = (minc2 + maxc2) >> 1; +- maxc3 = minc3 + ((1 << BOX_C3_SHIFT) - (1 << C3_SHIFT)); +- centerc3 = (minc3 + maxc3) >> 1; +- +- /* For each color in colormap, find: +- * 1. its minimum squared-distance to any point in the update box +- * (zero if color is within update box); +- * 2. its maximum squared-distance to any point in the update box. +- * Both of these can be found by considering only the corners of the box. +- * We save the minimum distance for each color in mindist[]; +- * only the smallest maximum distance is of interest. +- */ +- minmaxdist = 0x7FFFFFFFL; +- +- for (i = 0; i < numcolors; i++) +- { +- /* We compute the squared-c0-distance term, then add in the other three. */ +- x = im->red[i]; +- if (x < minc0) +- { +- tdist = (x - minc0) * C0_SCALE; +- min_dist = tdist * tdist; +- tdist = (x - maxc0) * C0_SCALE; +- max_dist = tdist * tdist; +- } +- else if (x > maxc0) +- { +- tdist = (x - maxc0) * C0_SCALE; +- min_dist = tdist * tdist; +- tdist = (x - minc0) * C0_SCALE; +- max_dist = tdist * tdist; +- } +- else +- { +- /* within cell range so no contribution to min_dist */ +- min_dist = 0; +- if (x <= centerc0) +- { +- tdist = (x - maxc0) * C0_SCALE; +- max_dist = tdist * tdist; +- } +- else +- { +- tdist = (x - minc0) * C0_SCALE; +- max_dist = tdist * tdist; +- } +- } +- +- x = im->green[i]; +- if (x < minc1) +- { +- tdist = (x - minc1) * C1_SCALE; +- min_dist += tdist * tdist; +- tdist = (x - maxc1) * C1_SCALE; +- max_dist += tdist * tdist; +- } +- else if (x > maxc1) +- { +- tdist = (x - maxc1) * C1_SCALE; +- min_dist += tdist * tdist; +- tdist = (x - minc1) * C1_SCALE; +- max_dist += tdist * tdist; +- } +- else +- { +- /* within cell range so no contribution to min_dist */ +- if (x <= centerc1) +- { +- tdist = (x - maxc1) * C1_SCALE; +- max_dist += tdist * tdist; +- } +- else +- { +- tdist = (x - minc1) * C1_SCALE; +- max_dist += tdist * tdist; +- } +- } +- +- x = im->blue[i]; +- if (x < minc2) +- { +- tdist = (x - minc2) * C2_SCALE; +- min_dist += tdist * tdist; +- tdist = (x - maxc2) * C2_SCALE; +- max_dist += tdist * tdist; +- } +- else if (x > maxc2) +- { +- tdist = (x - maxc2) * C2_SCALE; +- min_dist += tdist * tdist; +- tdist = (x - minc2) * C2_SCALE; +- max_dist += tdist * tdist; +- } +- else +- { +- /* within cell range so no contribution to min_dist */ +- if (x <= centerc2) +- { +- tdist = (x - maxc2) * C2_SCALE; +- max_dist += tdist * tdist; +- } +- else +- { +- tdist = (x - minc2) * C2_SCALE; +- max_dist += tdist * tdist; +- } +- } +- +- x = im->alpha[i]; +- if (x < minc3) +- { +- tdist = (x - minc3) * C3_SCALE; +- min_dist += tdist * tdist; +- tdist = (x - maxc3) * C3_SCALE; +- max_dist += tdist * tdist; +- } +- else if (x > maxc3) +- { +- tdist = (x - maxc3) * C3_SCALE; +- min_dist += tdist * tdist; +- tdist = (x - minc3) * C3_SCALE; +- max_dist += tdist * tdist; +- } +- else +- { +- /* within cell range so no contribution to min_dist */ +- if (x <= centerc3) +- { +- tdist = (x - maxc3) * C3_SCALE; +- max_dist += tdist * tdist; +- } +- else +- { +- tdist = (x - minc3) * C3_SCALE; +- max_dist += tdist * tdist; +- } +- } +- +- mindist[i] = min_dist; /* save away the results */ +- if (max_dist < minmaxdist) +- minmaxdist = max_dist; +- } +- +- /* Now we know that no cell in the update box is more than minmaxdist +- * away from some colormap entry. Therefore, only colors that are +- * within minmaxdist of some part of the box need be considered. +- */ +- ncolors = 0; +- for (i = 0; i < numcolors; i++) +- { +- if (mindist[i] <= minmaxdist) +- colorlist[ncolors++] = i; +- } +- return ncolors; +-} +- +- +-static void +-find_best_colors (gdImagePtr im, +- int minc0, int minc1, int minc2, int minc3, +- int numcolors, int colorlist[], int bestcolor[]) +-/* Find the closest colormap entry for each cell in the update box, +- * given the list of candidate colors prepared by find_nearby_colors. +- * Return the indexes of the closest entries in the bestcolor[] array. +- * This routine uses Thomas' incremental distance calculation method to +- * find the distance from a colormap entry to successive cells in the box. +- */ +-{ +- int ic0, ic1, ic2, ic3; +- int i, icolor; +- register int *bptr; /* pointer into bestdist[] array */ +- int *cptr; /* pointer into bestcolor[] array */ +- int dist0, dist1, dist2; /* initial distance values */ +- register int dist3 = 0; /* current distance in inner loop */ +- int xx0, xx1, xx2; /* distance increments */ +- register int xx3 = 0; +- int inc0, inc1, inc2, inc3; /* initial values for increments */ +- /* This array holds the distance to the nearest-so-far color for each cell */ +- int bestdist[BOX_C0_ELEMS * BOX_C1_ELEMS * BOX_C2_ELEMS * BOX_C3_ELEMS]; +- +- /* Initialize best-distance for each cell of the update box */ +- bptr = bestdist; +- for (i = BOX_C0_ELEMS * BOX_C1_ELEMS * BOX_C2_ELEMS * BOX_C3_ELEMS - 1; i >= 0; i--) +- *bptr++ = 0x7FFFFFFFL; +- +- /* For each color selected by find_nearby_colors, +- * compute its distance to the center of each cell in the box. +- * If that's less than best-so-far, update best distance and color number. +- */ +- +- /* Nominal steps between cell centers ("x" in Thomas article) */ +-#define STEP_C0 ((1 << C0_SHIFT) * C0_SCALE) +-#define STEP_C1 ((1 << C1_SHIFT) * C1_SCALE) +-#define STEP_C2 ((1 << C2_SHIFT) * C2_SCALE) +-#define STEP_C3 ((1 << C3_SHIFT) * C3_SCALE) +- +- for (i = 0; i < numcolors; i++) +- { +- icolor = colorlist[i]; +- /* Compute (square of) distance from minc0/c1/c2 to this color */ +- inc0 = (minc0 - (im->red[icolor])) * C0_SCALE; +- dist0 = inc0 * inc0; +- inc1 = (minc1 - (im->green[icolor])) * C1_SCALE; +- dist0 += inc1 * inc1; +- inc2 = (minc2 - (im->blue[icolor])) * C2_SCALE; +- dist0 += inc2 * inc2; +- inc3 = (minc3 - (im->alpha[icolor])) * C3_SCALE; +- dist0 += inc3 * inc3; +- /* Form the initial difference increments */ +- inc0 = inc0 * (2 * STEP_C0) + STEP_C0 * STEP_C0; +- inc1 = inc1 * (2 * STEP_C1) + STEP_C1 * STEP_C1; +- inc2 = inc2 * (2 * STEP_C2) + STEP_C2 * STEP_C2; +- inc3 = inc3 * (2 * STEP_C3) + STEP_C3 * STEP_C3; +- /* Now loop over all cells in box, updating distance per Thomas method */ +- bptr = bestdist; +- cptr = bestcolor; +- xx0 = inc0; +- for (ic0 = BOX_C0_ELEMS - 1; ic0 >= 0; ic0--) +- { +- dist1 = dist0; +- xx1 = inc1; +- for (ic1 = BOX_C1_ELEMS - 1; ic1 >= 0; ic1--) +- { +- dist2 = dist1; +- xx2 = inc2; +- for (ic2 = BOX_C2_ELEMS - 1; ic2 >= 0; ic2--) +- { +- for (ic3 = BOX_C3_ELEMS - 1; ic3 >= 0; ic3--) +- { +- if (dist3 < *bptr) +- { +- *bptr = dist3; +- *cptr = icolor; +- } +- dist3 += xx3; +- xx3 += 2 * STEP_C3 * STEP_C3; +- bptr++; +- cptr++; +- } +- dist2 += xx2; +- xx2 += 2 * STEP_C2 * STEP_C2; +- } +- dist1 += xx1; +- xx1 += 2 * STEP_C1 * STEP_C1; +- } +- dist0 += xx0; +- xx0 += 2 * STEP_C0 * STEP_C0; +- } +- } +-} +- +- +-static void +-fill_inverse_cmap (gdImagePtr im, my_cquantize_ptr cquantize, +- int c0, int c1, int c2, int c3) +-/* Fill the inverse-colormap entries in the update box that contains */ +-/* histogram cell c0/c1/c2/c3. (Only that one cell MUST be filled, but */ +-/* we can fill as many others as we wish.) */ +-{ +- hist4d histogram = cquantize->histogram; +- int minc0, minc1, minc2, minc3; /* lower left corner of update box */ +- int ic0, ic1, ic2, ic3; +- register int *cptr; /* pointer into bestcolor[] array */ +- register histptr cachep; /* pointer into main cache array */ +- /* This array lists the candidate colormap indexes. */ +- int colorlist[MAXNUMCOLORS]; +- int numcolors; /* number of candidate colors */ +- /* This array holds the actually closest colormap index for each cell. */ +- int bestcolor[BOX_C0_ELEMS * BOX_C1_ELEMS * BOX_C2_ELEMS * BOX_C3_ELEMS]; +- +- /* Convert cell coordinates to update box ID */ +- c0 >>= BOX_C0_LOG; +- c1 >>= BOX_C1_LOG; +- c2 >>= BOX_C2_LOG; +- c3 >>= BOX_C3_LOG; +- +- /* Compute true coordinates of update box's origin corner. +- * Actually we compute the coordinates of the center of the corner +- * histogram cell, which are the lower bounds of the volume we care about. +- */ +- minc0 = (c0 << BOX_C0_SHIFT) + ((1 << C0_SHIFT) >> 1); +- minc1 = (c1 << BOX_C1_SHIFT) + ((1 << C1_SHIFT) >> 1); +- minc2 = (c2 << BOX_C2_SHIFT) + ((1 << C2_SHIFT) >> 1); +- minc3 = (c3 << BOX_C3_SHIFT) + ((1 << C3_SHIFT) >> 1); +- /* Determine which colormap entries are close enough to be candidates +- * for the nearest entry to some cell in the update box. +- */ +- numcolors = find_nearby_colors (im, minc0, minc1, minc2, minc3, colorlist); +- +- /* Determine the actually nearest colors. */ +- find_best_colors (im, minc0, minc1, minc2, minc3, numcolors, colorlist, +- bestcolor); +- +- /* Save the best color numbers (plus 1) in the main cache array */ +- c0 <<= BOX_C0_LOG; /* convert ID back to base cell indexes */ +- c1 <<= BOX_C1_LOG; +- c2 <<= BOX_C2_LOG; +- c3 <<= BOX_C3_LOG; +- cptr = bestcolor; +- for (ic0 = 0; ic0 < BOX_C0_ELEMS; ic0++) +- { +- for (ic1 = 0; ic1 < BOX_C1_ELEMS; ic1++) +- { +- for (ic2 = 0; ic2 < BOX_C2_ELEMS; ic2++) +- { +- cachep = &histogram[c0 + ic0][c1 + ic1][c2 + ic2][c3]; +- for (ic3 = 0; ic3 < BOX_C3_ELEMS; ic3++) +- { +- *cachep++ = (histcell) ((*cptr++) + 1); +- } +- } +- } +- } +-} +- +- +-/* +- * Map some rows of pixels to the output colormapped representation. +- */ +- +-static void +-pass2_no_dither (gdImagePtr im, my_cquantize_ptr cquantize) +-/* This version performs no dithering */ +-{ +- hist4d histogram = cquantize->histogram; +- register int *inptr; +- register unsigned char *outptr; +- register histptr cachep; +- register int c0, c1, c2, c3; +- int row; +- int col; +- int width = im->sx; +- int num_rows = im->sy; +- for (row = 0; row < num_rows; row++) +- { +- inptr = im->tpixels[row]; +- outptr = im->pixels[row]; +- for (col = 0; col < width; col++) +- { +- int r, g, b, a; +- /* get pixel value and index into the cache */ +- r = gdTrueColorGetRed (*inptr); +- g = gdTrueColorGetGreen (*inptr); +- b = gdTrueColorGetBlue (*inptr); +- a = gdTrueColorGetAlpha (*inptr++); +- c0 = r >> C0_SHIFT; +- c1 = g >> C1_SHIFT; +- c2 = b >> C2_SHIFT; +- c3 = a >> C3_SHIFT; +- cachep = &histogram[c0][c1][c2][c3]; +- /* If we have not seen this color before, find nearest colormap entry */ +- /* and update the cache */ +- if (*cachep == 0) +- { +-#if 0 +- /* TBB: quick and dirty approach for use when testing +- fill_inverse_cmap for errors */ +- int i; +- int best = -1; +- int mindist = 0x7FFFFFFF; +- for (i = 0; (i < im->colorsTotal); i++) +- { +- int rdist = (im->red[i] >> C0_SHIFT) - c0; +- int gdist = (im->green[i] >> C1_SHIFT) - c1; +- int bdist = (im->blue[i] >> C2_SHIFT) - c2; +- int adist = (im->alpha[i] >> C3_SHIFT) - c3; +- int dist = (rdist * rdist) * R_SCALE + +- (gdist * gdist) * G_SCALE + +- (bdist * bdist) * B_SCALE + +- (adist * adist) * A_SCALE; +- if (dist < mindist) +- { +- best = i; +- mindist = dist; +- } +- } +- *cachep = best + 1; +-#endif +- fill_inverse_cmap (im, cquantize, c0, c1, c2, c3); +- } +- /* Now emit the colormap index for this cell */ +- *outptr++ = (*cachep - 1); +- } +- } +-} +- +-/* We assume that right shift corresponds to signed division by 2 with +- * rounding towards minus infinity. This is correct for typical "arithmetic +- * shift" instructions that shift in copies of the sign bit. But some +- * C compilers implement >> with an unsigned shift. For these machines you +- * must define RIGHT_SHIFT_IS_UNSIGNED. +- * RIGHT_SHIFT provides a proper signed right shift of an INT32 quantity. +- * It is only applied with constant shift counts. SHIFT_TEMPS must be +- * included in the variables of any routine using RIGHT_SHIFT. +- */ +- +-#ifdef RIGHT_SHIFT_IS_UNSIGNED +-#define SHIFT_TEMPS INT32 shift_temp; +-#define RIGHT_SHIFT(x,shft) \ +- ((shift_temp = (x)) < 0 ? \ +- (shift_temp >> (shft)) | ((~((INT32) 0)) << (32-(shft))) : \ +- (shift_temp >> (shft))) +-#else +-#define SHIFT_TEMPS +-#define RIGHT_SHIFT(x,shft) ((x) >> (shft)) +-#endif +- +- +-static void +-pass2_fs_dither (gdImagePtr im, my_cquantize_ptr cquantize) +- +-/* This version performs Floyd-Steinberg dithering */ +-{ +- hist4d histogram = cquantize->histogram; +- register LOCFSERROR cur0, cur1, cur2, cur3; /* current error or pixel value */ +- LOCFSERROR belowerr0, belowerr1, belowerr2, belowerr3; /* error for pixel below cur */ +- LOCFSERROR bpreverr0, bpreverr1, bpreverr2, bpreverr3; /* error for below/prev col */ +- register FSERRPTR errorptr; /* => fserrors[] at column before current */ +- int *inptr; /* => current input pixel */ +- unsigned char *outptr; /* => current output pixel */ +- histptr cachep; +- int dir; /* +1 or -1 depending on direction */ +- int dir4; /* 4*dir, for advancing errorptr */ +- int row; +- int col; +- int width = im->sx; +- int num_rows = im->sy; +- int *error_limit = cquantize->error_limiter; +- int *colormap0 = im->red; +- int *colormap1 = im->green; +- int *colormap2 = im->blue; +- int *colormap3 = im->alpha; +- SHIFT_TEMPS +- +- for (row = 0; row < num_rows; row++) +- { +- inptr = im->tpixels[row]; +- outptr = im->pixels[row]; +- if (cquantize->on_odd_row) +- { +- /* work right to left in this row */ +- inptr += (width - 1); /* so point to rightmost pixel */ +- outptr += width - 1; +- dir = -1; +- dir4 = -4; +- errorptr = cquantize->fserrors + (width + 1) * 4; /* => entry after last column */ +- cquantize->on_odd_row = FALSE; /* flip for next time */ +- } +- else +- { +- /* work left to right in this row */ +- dir = 1; +- dir4 = 4; +- errorptr = cquantize->fserrors; /* => entry before first real column */ +- cquantize->on_odd_row = TRUE; /* flip for next time */ +- } +- /* Preset error values: no error propagated to first pixel from left */ +- cur0 = cur1 = cur2 = cur3 = 0; +- /* and no error propagated to row below yet */ +- belowerr0 = belowerr1 = belowerr2 = belowerr3 = 0; +- bpreverr0 = bpreverr1 = bpreverr2 = bpreverr3 = 0; +- +- for (col = width; col > 0; col--) +- { +- int a; +- /* curN holds the error propagated from the previous pixel on the +- * current line. Add the error propagated from the previous line +- * to form the complete error correction term for this pixel, and +- * round the error term (which is expressed * 16) to an integer. +- * RIGHT_SHIFT rounds towards minus infinity, so adding 8 is correct +- * for either sign of the error value. +- * Note: errorptr points to *previous* column's array entry. +- */ +- cur0 = RIGHT_SHIFT (cur0 + errorptr[dir4 + 0] + 8, 4); +- cur1 = RIGHT_SHIFT (cur1 + errorptr[dir4 + 1] + 8, 4); +- cur2 = RIGHT_SHIFT (cur2 + errorptr[dir4 + 2] + 8, 4); +- cur3 = RIGHT_SHIFT (cur3 + errorptr[dir4 + 3] + 8, 4); +- /* Limit the error using transfer function set by init_error_limit. +- * See comments with init_error_limit for rationale. +- */ +- cur0 = error_limit[cur0]; +- cur1 = error_limit[cur1]; +- cur2 = error_limit[cur2]; +- cur3 = error_limit[cur3]; +- /* Form pixel value + error, and range-limit to 0..MAXJSAMPLE. +- * The maximum error is +- MAXJSAMPLE (or less with error limiting); +- * but we'll be lazy and just clamp this with an if test (TBB). +- */ +- cur0 += gdTrueColorGetRed (*inptr); +- cur1 += gdTrueColorGetGreen (*inptr); +- cur2 += gdTrueColorGetBlue (*inptr); +- /* Expand to 8 bits for consistency with dithering algorithm -- TBB */ +- a = gdTrueColorGetAlpha (*inptr); +- cur3 += (a << 1) + (a >> 6); +- if (cur0 < 0) +- { +- cur0 = 0; +- } +- if (cur0 > 255) +- { +- cur0 = 255; +- } +- if (cur1 < 0) +- { +- cur1 = 0; +- } +- if (cur1 > 255) +- { +- cur1 = 255; +- } +- if (cur2 < 0) +- { +- cur2 = 0; +- } +- if (cur2 > 255) +- { +- cur2 = 255; +- } +- if (cur3 < 0) +- { +- cur3 = 0; +- } +- if (cur3 > 255) +- { +- cur3 = 255; +- } +- /* Index into the cache with adjusted pixel value */ +- cachep = &histogram +- [cur0 >> C0_SHIFT] +- [cur1 >> C1_SHIFT] +- [cur2 >> C2_SHIFT] +- [cur3 >> (C3_SHIFT + 1)]; +- /* If we have not seen this color before, find nearest colormap */ +- /* entry and update the cache */ +- if (*cachep == 0) +- fill_inverse_cmap (im, cquantize, +- cur0 >> C0_SHIFT, cur1 >> C1_SHIFT, cur2 >> C2_SHIFT, +- cur3 >> (C3_SHIFT + 1)); +- /* Now emit the colormap index for this cell */ +- { +- register int pixcode = *cachep - 1; +- *outptr = pixcode; +- /* Compute representation error for this pixel */ +- cur0 -= colormap0[pixcode]; +- cur1 -= colormap1[pixcode]; +- cur2 -= colormap2[pixcode]; +- cur3 -= ((colormap3[pixcode] << 1) + (colormap3[pixcode] >> 6)); +- } +- /* Compute error fractions to be propagated to adjacent pixels. +- * Add these into the running sums, and simultaneously shift the +- * next-line error sums left by 1 column. +- */ +- { +- register LOCFSERROR bnexterr, delta; +- +- bnexterr = cur0; /* Process component 0 */ +- delta = cur0 * 2; +- cur0 += delta; /* form error * 3 */ +- errorptr[0] = (FSERROR) (bpreverr0 + cur0); +- cur0 += delta; /* form error * 5 */ +- bpreverr0 = belowerr0 + cur0; +- belowerr0 = bnexterr; +- cur0 += delta; /* form error * 7 */ +- bnexterr = cur1; /* Process component 1 */ +- delta = cur1 * 2; +- cur1 += delta; /* form error * 3 */ +- errorptr[1] = (FSERROR) (bpreverr1 + cur1); +- cur1 += delta; /* form error * 5 */ +- bpreverr1 = belowerr1 + cur1; +- belowerr1 = bnexterr; +- cur1 += delta; /* form error * 7 */ +- bnexterr = cur2; /* Process component 2 */ +- delta = cur2 * 2; +- cur2 += delta; /* form error * 3 */ +- errorptr[2] = (FSERROR) (bpreverr2 + cur2); +- cur2 += delta; /* form error * 5 */ +- bpreverr2 = belowerr2 + cur2; +- belowerr2 = bnexterr; +- cur2 += delta; /* form error * 7 */ +- bnexterr = cur3; /* Process component 3 */ +- delta = cur3 * 2; +- cur3 += delta; /* form error * 3 */ +- errorptr[3] = (FSERROR) (bpreverr3 + cur3); +- cur3 += delta; /* form error * 5 */ +- bpreverr3 = belowerr3 + cur3; +- belowerr3 = bnexterr; +- cur3 += delta; /* form error * 7 */ +- } +- /* At this point curN contains the 7/16 error value to be propagated +- * to the next pixel on the current line, and all the errors for the +- * next line have been shifted over. We are therefore ready to move on. +- */ +- inptr += dir; /* Advance pixel pointers to next column */ +- outptr += dir; +- errorptr += dir4; /* advance errorptr to current column */ +- } +- /* Post-loop cleanup: we must unload the final error values into the +- * final fserrors[] entry. Note we need not unload belowerrN because +- * it is for the dummy column before or after the actual array. +- */ +- errorptr[0] = (FSERROR) bpreverr0; /* unload prev errs into array */ +- errorptr[1] = (FSERROR) bpreverr1; +- errorptr[2] = (FSERROR) bpreverr2; +- errorptr[3] = (FSERROR) bpreverr3; +- } +-} +- +- +-/* +- * Initialize the error-limiting transfer function (lookup table). +- * The raw F-S error computation can potentially compute error values of up to +- * +- MAXJSAMPLE. But we want the maximum correction applied to a pixel to be +- * much less, otherwise obviously wrong pixels will be created. (Typical +- * effects include weird fringes at color-area boundaries, isolated bright +- * pixels in a dark area, etc.) The standard advice for avoiding this problem +- * is to ensure that the "corners" of the color cube are allocated as output +- * colors; then repeated errors in the same direction cannot cause cascading +- * error buildup. However, that only prevents the error from getting +- * completely out of hand; Aaron Giles reports that error limiting improves +- * the results even with corner colors allocated. +- * A simple clamping of the error values to about +- MAXJSAMPLE/8 works pretty +- * well, but the smoother transfer function used below is even better. Thanks +- * to Aaron Giles for this idea. +- */ +- +-static int +-init_error_limit (my_cquantize_ptr cquantize) +-/* Allocate and fill in the error_limiter table */ +-{ +- int *table; +- int in, out; +- +- cquantize->error_limiter_storage = (int *) gdMalloc ((255 * 2 + 1) * sizeof (int)); +- if (!cquantize->error_limiter_storage) +- { +- return 0; +- } +- /* so can index -MAXJSAMPLE .. +MAXJSAMPLE */ +- cquantize->error_limiter = cquantize->error_limiter_storage + 255; +- table = cquantize->error_limiter; +-#define STEPSIZE ((255+1)/16) +- /* Map errors 1:1 up to +- MAXJSAMPLE/16 */ +- out = 0; +- for (in = 0; in < STEPSIZE; in++, out++) +- { +- table[in] = out; +- table[-in] = -out; +- } +- /* Map errors 1:2 up to +- 3*MAXJSAMPLE/16 */ +- for (; in < STEPSIZE * 3; in++, out += (in & 1) ? 0 : 1) +- { +- table[in] = out; +- table[-in] = -out; +- } +- /* Clamp the rest to final out value (which is (MAXJSAMPLE+1)/8) */ +- for (; in <= 255; in++) +- { +- table[in] = out; +- table[-in] = -out; +- } +-#undef STEPSIZE +- return 1; +-} +- +-static void +-zeroHistogram (hist4d histogram) +-{ +- int i; +- int j; +- /* Zero the histogram or inverse color map */ +- for (i = 0; i < HIST_C0_ELEMS; i++) +- { +- for (j = 0; j < HIST_C1_ELEMS; j++) +- { +- memset (histogram[i][j], +- 0, +- HIST_C2_ELEMS * HIST_C3_ELEMS * sizeof (histcell)); +- } +- } +-} +- +-/* Here we go at last. */ +-void +-gdImageTrueColorToPalette (gdImagePtr im, int dither, int colorsWanted) +-{ +- my_cquantize_ptr cquantize = 0; +- int i; +- size_t arraysize; +- if (!im->trueColor) +- { +- /* Nothing to do! */ +- return; +- } +- if (colorsWanted > gdMaxColors) +- { +- colorsWanted = gdMaxColors; +- } +- im->pixels = gdCalloc (sizeof (unsigned char *), im->sy); +- if (!im->pixels) +- { +- /* No can do */ +- goto outOfMemory; +- } +- for (i = 0; (i < im->sy); i++) +- { +- im->pixels[i] = (unsigned char *) gdCalloc (sizeof (unsigned char), im->sx); +- if (!im->pixels[i]) +- { +- goto outOfMemory; +- } +- } +- cquantize = (my_cquantize_ptr) gdCalloc (sizeof (my_cquantizer), 1); +- if (!cquantize) +- { +- /* No can do */ +- goto outOfMemory; +- } +- /* Allocate the histogram/inverse colormap storage */ +- cquantize->histogram = (hist4d) gdMalloc (HIST_C0_ELEMS * sizeof (hist3d)); +- for (i = 0; i < HIST_C0_ELEMS; i++) +- { +- int j; +- cquantize->histogram[i] = (hist3d) gdCalloc (HIST_C1_ELEMS, +- sizeof (hist2d)); +- if (!cquantize->histogram[i]) +- { +- goto outOfMemory; +- } +- for (j = 0; (j < HIST_C1_ELEMS); j++) +- { +- cquantize->histogram[i][j] = (hist2d) gdCalloc (HIST_C2_ELEMS * HIST_C3_ELEMS, +- sizeof (histcell)); +- if (!cquantize->histogram[i][j]) +- { +- goto outOfMemory; +- } +- } +- } +- cquantize->fserrors = (FSERRPTR) gdMalloc (4 * sizeof (FSERROR)); +- init_error_limit (cquantize); +- arraysize = (size_t) ((im->sx + 2) * +- (4 * sizeof (FSERROR))); +- /* Allocate Floyd-Steinberg workspace. */ +- cquantize->fserrors = gdCalloc (arraysize, 1); +- if (!cquantize->fserrors) +- { +- goto outOfMemory; +- } +- cquantize->on_odd_row = FALSE; +- +- /* Do the work! */ +- zeroHistogram (cquantize->histogram); +- prescan_quantize (im, cquantize); +- select_colors (im, cquantize, 256); +- /* TBB HACK REMOVE */ +- { +- FILE *out = fopen ("palettemap.png", "wb"); +- int i; +- gdImagePtr im2 = gdImageCreateTrueColor (256, 256); +- for (i = 0; (i < 256); i++) +- { +- gdImageFilledRectangle (im2, (i % 16) * 16, (i / 16) * 16, +- (i % 16) * 16 + 15, (i / 16) * 16 + 15, +- gdTrueColorAlpha (im->red[i], im->green[i], +- im->blue[i], im->alpha[i])); +- } +- gdImagePng (im2, out); +- fclose (out); +- gdImageDestroy (im2); +- } +- zeroHistogram (cquantize->histogram); +- if (dither) +- { +- pass2_fs_dither (im, cquantize); +- } +- else +- { +- pass2_no_dither (im, cquantize); +- } +- if (cquantize->transparentIsPresent) +- { +- int mt = -1; +- for (i = 0; (i < im->colorsTotal); i++) +- { +- if (im->alpha[i] > mt) +- { +- mt = im->alpha[i]; +- } +- } +- for (i = 0; (i < im->colorsTotal); i++) +- { +- if (im->alpha[i] == mt) +- { +- im->alpha[i] = gdAlphaTransparent; +- } +- } +- } +- if (cquantize->opaqueIsPresent) +- { +- int mo = 128; +- int moIndex = -1; +- for (i = 0; (i < im->colorsTotal); i++) +- { +- if (im->alpha[i] < mo) +- { +- moIndex = i; +- mo = im->alpha[i]; +- } +- } +- for (i = 0; (i < im->colorsTotal); i++) +- { +- if (im->alpha[i] == mo) +- { +- im->alpha[i] = gdAlphaOpaque; +- } +- } +- } +- /* Success! Get rid of the truecolor image data. */ +- im->trueColor = 0; +- /* Junk the truecolor pixels */ +- for (i = 0; i < im->sy; i++) +- { +- gdFree (im->tpixels[i]); +- } +- gdFree (im->tpixels); +- im->tpixels = 0; +- /* Tediously free stuff. */ +-outOfMemory: +- if (im->trueColor) +- { +- if (im->pixels) +- { +- /* On failure only */ +- for (i = 0; i < im->sy; i++) +- { +- if (im->pixels[i]) +- { +- gdFree (im->pixels[i]); +- } +- } +- gdFree (im->pixels); +- } +- im->pixels = 0; +- } +- +- if (!cquantize) +- return; +- +- for (i = 0; i < HIST_C0_ELEMS; i++) +- { +- if (cquantize->histogram[i]) +- { +- int j; +- for (j = 0; j < HIST_C1_ELEMS; j++) +- { +- if (cquantize->histogram[i][j]) +- { +- gdFree (cquantize->histogram[i][j]); +- } +- } +- gdFree (cquantize->histogram[i]); +- } +- } +- if (cquantize->histogram) +- { +- gdFree (cquantize->histogram); +- } +- if (cquantize->fserrors) +- { +- gdFree (cquantize->fserrors); +- } +- if (cquantize->error_limiter_storage) +- { +- gdFree (cquantize->error_limiter_storage); +- } +- gdFree (cquantize); +-} +diff --git a/src/extra/gd/gd_wbmp.c b/src/extra/gd/gd_wbmp.c +index 5281337..f1258da 100644 +--- a/src/extra/gd/gd_wbmp.c ++++ b/src/extra/gd/gd_wbmp.c +@@ -105,7 +105,10 @@ gdImageWBMPCtx (gdImagePtr image, int fg, gdIOCtx * out) + + /* create the WBMP */ + if ((wbmp = createwbmp (gdImageSX (image), gdImageSY (image), WBMP_WHITE)) == NULL) +- fprintf (stderr, "Could not create WBMP\n"); ++ { ++ fprintf (stderr, "Could not create WBMP\n"); ++ return; ++ } + + /* fill up the WBMP structure */ + pos = 0; +diff --git a/src/extra/gd/gdcache.c b/src/extra/gd/gdcache.c +index e4770f5..ff65b97 100644 +--- a/src/extra/gd/gdcache.c ++++ b/src/extra/gd/gdcache.c +@@ -1,5 +1,6 @@ + #include "gd.h" + #include "gdhelpers.h" ++#include + + #ifdef HAVE_LIBTTF + #define NEED_CACHE 1 +@@ -130,7 +131,9 @@ gdCacheGet (gdCache_head_t * head, void *keydata) + else + { /* cache full - replace least-recently-used */ + /* preveprev becomes new end of list */ +- prevprev->next = NULL; ++ assert (prevprev); ++ if (prevprev) ++ prevprev->next = NULL; + elem = prev; + (*(head->gdCacheRelease)) (elem->userdata); + } +diff --git a/src/extra/gd/gdft.c b/src/extra/gd/gdft.c +index b1e9414..33430f6 100644 +--- a/src/extra/gd/gdft.c ++++ b/src/extra/gd/gdft.c +@@ -574,6 +574,7 @@ gdft_draw_bitmap (gdImage * im, int fg, FT_Bitmap bitmap, int pen_x, int pen_y) + + for (col = 0; col < bitmap.width; col++, pc++) + { ++ const int trueColor = im->trueColor; + if (bitmap.pixel_mode == ft_pixel_mode_grays) + { + /* +@@ -603,7 +604,7 @@ gdft_draw_bitmap (gdImage * im, int fg, FT_Bitmap bitmap, int pen_x, int pen_y) + if (x >= im->sx || x < 0) + continue; + /* get pixel location in gd buffer */ +- if (im->trueColor) ++ if (trueColor) + { + tpixel = &im->tpixels[y][x]; + } +@@ -614,7 +615,7 @@ gdft_draw_bitmap (gdImage * im, int fg, FT_Bitmap bitmap, int pen_x, int pen_y) + if (tc_key.pixel == NUMCOLORS) + { + /* use fg color directly */ +- if (im->trueColor) ++ if (trueColor) + { + *tpixel = fg; + } +@@ -625,23 +626,17 @@ gdft_draw_bitmap (gdImage * im, int fg, FT_Bitmap bitmap, int pen_x, int pen_y) + } + else + { ++ tc_elem = (tweencolor_t *) gdCacheGet (tc_cache, &tc_key); ++ if (!tc_elem) return tc_cache->error; + /* find antialised color */ +- if (im->trueColor) ++ if (trueColor) + { + tc_key.bgcolor = *tpixel; +- } +- else +- { +- tc_key.bgcolor = *pixel; +- } +- tc_elem = (tweencolor_t *) gdCacheGet ( +- tc_cache, &tc_key); +- if (im->trueColor) +- { + *tpixel = tc_elem->tweencolor; + } + else + { ++ tc_key.bgcolor = *pixel; + *pixel = tc_elem->tweencolor; + } + } +diff --git a/src/extra/gd/testac.c b/src/extra/gd/testac.c +index 55a5434..47d466d 100644 +--- a/src/extra/gd/testac.c ++++ b/src/extra/gd/testac.c +@@ -115,13 +115,6 @@ testDrawing ( + Otherwise the file would typically be slightly larger. */ + gdImageSaveAlpha (im_out, !blending); + +- /* If requested, convert from truecolor to palette. */ +- if (palette) +- { +- /* Dithering, 256 colors. */ +- gdImageTrueColorToPalette (im_out, 1, 256); +- } +- + gdImagePng (im_out, out); + fclose (out); + +diff --git a/src/extra/trio/strio.c b/src/extra/trio/strio.c +index 0e7196c..c6796af 100644 +--- a/src/extra/trio/strio.c ++++ b/src/extra/trio/strio.c +@@ -20,8 +20,6 @@ + * - StrToLongDouble + */ + +-static const char rcsid[] = "@(#)$Id: strio.c,v 1.1 2001/06/07 08:23:02 fjfranklin Exp $"; +- + #if defined(unix) || defined(__xlC__) + # define PLATFORM_UNIX + #elif defined(WIN32) || defined(_WIN32) +diff --git a/src/extra/trio/trio.c b/src/extra/trio/trio.c +index 83a2ce9..930e210 100644 +--- a/src/extra/trio/trio.c ++++ b/src/extra/trio/trio.c +@@ -41,8 +41,6 @@ + * immediately followed by an 's'. + */ + +-static const char rcsid[] = "@(#)$Id: trio.c,v 1.1 2001/06/07 08:23:02 fjfranklin Exp $"; +- + #if defined(unix) || defined(__xlC__) /* AIX xlC workaround */ + # define PLATFORM_UNIX + #elif defined(AMIGA) && defined(__GNUC__) +diff --git a/src/font.c b/src/font.c +index b3927c9..6b88499 100644 +--- a/src/font.c ++++ b/src/font.c +@@ -535,6 +535,8 @@ static void ipa_font_add_api (wmfAPI* API,char* name) + float wmf_ipa_font_stringwidth (wmfAPI* API,wmfFont* font,char* str) + { FT_Face face = WMF_FONT_FTFACE (font); + ++ if (!face) return 0.0; ++ + FT_Vector delta; + + FT_Bool use_kerning; +@@ -592,6 +594,8 @@ float wmf_ipa_font_stringwidth (wmfAPI* API,wmfFont* font,char* str) + static float ipa_char_position (wmfFont* font,char* str,char* last) + { FT_Face face = WMF_FONT_FTFACE (font); + ++ if (!face) return 0.0; ++ + FT_Vector delta; + + FT_Bool use_kerning; +@@ -1218,14 +1222,19 @@ static char* ipa_font_gs_readline (wmfAPI* API,FILE* in) + line = more; + + if (line == 0) +- { fContinue = wmf_false; ++ { + break; + } + } + + if (line == 0) return (0); + +- if (fReadExtra) while (buf[strlen(buf)-1] != '\n') fgets (buf,128,in); ++ if (fReadExtra) ++ { ++ while (buf[strlen(buf)-1] != '\n') ++ if (fgets (buf,128,in) == 0) ++ break; ++ } + + /* Strip the string */ + +diff --git a/src/ipa/ipa/bmp.h b/src/ipa/ipa/bmp.h +index 568d26e..94a1a17 100644 +--- a/src/ipa/ipa/bmp.h ++++ b/src/ipa/ipa/bmp.h +@@ -947,8 +947,8 @@ static int DecodeImage (wmfBMP* bmp,BMPSource* src,unsigned int compression,unsi + } + /* ?? TODO if (QuantumTick (y,image->rows)) MagickMonitor (LoadImageText,y,image->rows); */ + } +- byte = ReadBlobByte (src); /* end of line */ +- byte = ReadBlobByte (src); ++ ReadBlobByte (src); /* end of line */ ++ ReadBlobByte (src); + + return 1; + } +diff --git a/src/ipa/svg.c b/src/ipa/svg.c +index 0692296..9c4adf7 100644 +--- a/src/ipa/svg.c ++++ b/src/ipa/svg.c +@@ -156,7 +156,6 @@ static void wmf_svg_draw_text (wmfAPI* API,wmfDrawText_t* draw_text) + svgPoint pt; + + float font_height; +- float font_ratio; + + float sin_theta; + float cos_theta; +@@ -172,8 +171,6 @@ static void wmf_svg_draw_text (wmfAPI* API,wmfDrawText_t* draw_text) + pt = svg_translate (API,draw_text->pt); + + font_height = svg_height (API,(float) draw_text->font_height); +- font_ratio = svg_width (API,(float) (draw_text->font_height * draw_text->font_ratio)); +- font_ratio /= font_height; + + theta = - WMF_TEXT_ANGLE (draw_text->dc->font); + +diff --git a/src/ipa/xgd/font.h b/src/ipa/xgd/font.h +index 79b5d87..5b15e57 100644 +--- a/src/ipa/xgd/font.h ++++ b/src/ipa/xgd/font.h +@@ -157,10 +157,6 @@ static void gd_draw_ftbitmap (wmfAPI* API,FT_Bitmap* bitmap,gdPoint pt,wmfRGB* f + + fg_pixel = gdImageColorResolve (gd->image,fg->r,fg->g,fg->b); + +- if (bitmap->pixel_mode == ft_pixel_mode_mono) +- { color = fg_pixel; +- } +- + for (row = 0; row < rows; row++) + { buffer = bitmap->buffer + row * bitmap->pitch; + +diff --git a/src/meta.c b/src/meta.c +index cf046a5..ea14f94 100644 +--- a/src/meta.c ++++ b/src/meta.c +@@ -441,7 +441,6 @@ static void write_b64 (wmfAPI * API, const unsigned char * buffer, unsigned long + b32 = (b32 << 16); + *ptr++ = B64[(b32 >> 18) ]; + *ptr++ = B64[(b32 >> 12) & 0x3f]; +- remaining -= 1; + } + + *ptr++ = '\n'; +diff --git a/src/player.c b/src/player.c +index 9b66eb7..813a2bf 100644 +--- a/src/player.c ++++ b/src/player.c +@@ -554,7 +554,7 @@ static wmf_error_t WmfPlayMetaFile (wmfAPI* API) + + case META_SETVIEWPORTORG: + SCAN_DIAGNOSTIC (API,"New Record: SETVIEWPORTORG"); +- changed = meta_orgext (API,&Record); ++ meta_orgext (API,&Record); + if (SCAN (API)) wmf_write (API, Size, Function, "setviewportorg", + atts->atts, Record.parameter, Record.size * 2); + SCAN_DIAGNOSTIC (API,"\n"); +diff --git a/src/player/meta.h b/src/player/meta.h +index d656dfd..b9762e3 100644 +--- a/src/player/meta.h ++++ b/src/player/meta.h +@@ -412,16 +412,12 @@ static int meta_arc (wmfAPI* API,wmfRecord* Record) + d_pt.y = c_pt.y; + D_Coord_Register (API,d_pt,scope); + /* fallthrough */ ++ default: + case '2': + d_pt.x = c_pt.x; + d_pt.y = drawarc.TL.y; + D_Coord_Register (API,d_pt,scope); + break; +- +- default: +- WMF_ERROR (API,"Glitch!"); +- API->err = wmf_E_Glitch; +- break; + } + break; + +@@ -445,16 +441,12 @@ static int meta_arc (wmfAPI* API,wmfRecord* Record) + d_pt.y = drawarc.BR.y; + D_Coord_Register (API,d_pt,scope); + /* fallthrough */ ++ default: + case '3': + d_pt.x = drawarc.TL.x; + d_pt.y = c_pt.y; + D_Coord_Register (API,d_pt,scope); + break; +- +- default: +- WMF_ERROR (API,"Glitch!"); +- API->err = wmf_E_Glitch; +- break; + } + break; + +@@ -478,20 +470,17 @@ static int meta_arc (wmfAPI* API,wmfRecord* Record) + d_pt.y = c_pt.y; + D_Coord_Register (API,d_pt,scope); + /* fallthrough */ ++ default: + case '4': + d_pt.x = c_pt.x; + d_pt.y = drawarc.BR.y; + D_Coord_Register (API,d_pt,scope); + break; +- +- default: +- WMF_ERROR (API,"Glitch!"); +- API->err = wmf_E_Glitch; +- break; + } + break; + + case '4': ++ default: + switch (Qe) + { + case '4': +@@ -511,23 +500,14 @@ static int meta_arc (wmfAPI* API,wmfRecord* Record) + d_pt.y = drawarc.TL.y; + D_Coord_Register (API,d_pt,scope); + /* fallthrough */ ++ default: + case '1': + d_pt.x = drawarc.BR.x; + d_pt.y = c_pt.y; + D_Coord_Register (API,d_pt,scope); + break; +- +- default: +- WMF_ERROR (API,"Glitch!"); +- API->err = wmf_E_Glitch; +- break; + } + break; +- +- default: +- WMF_ERROR (API,"Glitch!"); +- API->err = wmf_E_Glitch; +- break; + } + + return (changed); +@@ -2428,7 +2408,7 @@ static int meta_dc_color (wmfAPI* API,wmfRecord* Record,wmfAttributes* attrlist) + hash[5] = hex[(color.b >> 4) & 0x0f]; + hash[6] = hex[ color.b & 0x0f]; + hash[7] = 0; +- value = wmf_attr_add (API, attrlist, "color", hash); ++ wmf_attr_add (API, attrlist, "color", hash); + } + + if (SCAN (API)) wmf_ipa_color_add (API,&color); +@@ -3152,7 +3132,7 @@ static int meta_pen_create (wmfAPI* API,wmfRecord* Record,wmfAttributes* attrlis + hash[5] = hex[(color.b >> 4) & 0x0f]; + hash[6] = hex[ color.b & 0x0f]; + hash[7] = 0; +- value = wmf_attr_add (API, attrlist, "color", hash); ++ wmf_attr_add (API, attrlist, "color", hash); + } + + WMF_PEN_SET_COLOR (pen,&color); +@@ -3254,7 +3234,7 @@ static int meta_brush_create (wmfAPI* API,wmfRecord* Record,wmfAttributes* attrl + hash[5] = hex[(color.b >> 4) & 0x0f]; + hash[6] = hex[ color.b & 0x0f]; + hash[7] = 0; +- value = wmf_attr_add (API, attrlist, "color", hash); ++ wmf_attr_add (API, attrlist, "color", hash); + } + + WMF_BRUSH_SET_COLOR (brush,&color); +diff --git a/src/recorder.c b/src/recorder.c +index b5e6431..ff371a7 100644 +--- a/src/recorder.c ++++ b/src/recorder.c +@@ -48,6 +48,9 @@ static void s_rbox_set (wmfAPI * API, wmfConstruct * construct, + { + WMF_ERROR (API, "Hmm. Record out of range..."); + API->err = wmf_E_Glitch; ++ rbox->start = NULL; ++ rbox->end = NULL; ++ rbox->ptr = NULL; + return; + } + rbox->start = construct->buffer + construct->rec_offset[n ]; diff --git a/SPECS/libwmf.spec b/SPECS/libwmf.spec new file mode 100644 index 0000000..fb6dde2 --- /dev/null +++ b/SPECS/libwmf.spec @@ -0,0 +1,319 @@ +Summary: Windows MetaFile Library +Name: libwmf +Version: 0.2.9 +Release: 4%{?dist} +Group: System Environment/Libraries +#libwmf is under the LGPLv2+, however... +#1. The tarball contains an old version of the urw-fonts under GPL+. +# Those fonts are not installed +#2. The header of the command-line wmf2plot utility places it under the GPLv2+. +# wmf2plot is neither built or install +License: LGPLv2+ and GPLv2+ and GPL+ +Source: https://github.com/caolanm/libwmf/archive/v%{version}.tar.gz +URL: https://github.com/caolanm/libwmf + +Patch0: covscan.patch + +Requires: urw-fonts +Requires: %{name}-lite = %{version}-%{release} + +# for file triggers +Requires: gdk-pixbuf2%{?_isa} >= 2.31.5-2.fc24 + +BuildRequires: gtk2-devel, libtool, libxml2-devel, libpng-devel +BuildRequires: libjpeg-devel, libXt-devel, libX11-devel, dos2unix, libtool + +%description +A library for reading and converting Windows MetaFile vector graphics (WMF). + +%package lite +Summary: Windows Metafile parser library +Group: System Environment/Libraries + +%description lite +A library for parsing Windows MetaFile vector graphics (WMF). + +%package devel +Summary: Support files necessary to compile applications with libwmf +Group: Development/Libraries +Requires: libwmf = %{version}-%{release} +Requires: gtk2-devel, libxml2-devel, libjpeg-devel + +%description devel +Libraries, headers, and support files necessary to compile applications +using libwmf. + +%prep +%setup -q +%patch0 -p1 -b .covscan +f=README ; iconv -f iso-8859-2 -t utf-8 $f > $f.utf8 ; mv $f.utf8 $f + +%build +autoreconf -i -f -Ipatches +%configure --with-libxml2 --disable-static --disable-dependency-tracking --with-gsfontdir=/usr/share/fonts/urw-base35 +make %{?_smp_mflags} + +%install +make install DESTDIR=$RPM_BUILD_ROOT INSTALL="install -p" +find $RPM_BUILD_ROOT -name '*.la' -exec rm -f {} ';' + +rm -rf $RPM_BUILD_ROOT%{_includedir}/libwmf/gd +find doc -name "Makefile*" -exec rm {} \; + +#we're carrying around duplicate fonts +rm -rf $RPM_BUILD_ROOT%{_datadir}/libwmf/fonts/*afm +rm -rf $RPM_BUILD_ROOT%{_datadir}/libwmf/fonts/*t1 +sed -i $RPM_BUILD_ROOT%{_datadir}/libwmf/fonts/fontmap -e 's#libwmf/fonts#fonts/urw-base35#g' + +%post -p /sbin/ldconfig + +%post lite -p /sbin/ldconfig + +%postun -p /sbin/ldconfig + +%postun lite -p /sbin/ldconfig + +%files +%{_libdir}/libwmf-*.so.* +%{_libdir}/gdk-pixbuf-2.0/*/loaders/*.so +%{_bindir}/wmf2svg +%{_bindir}/wmf2gd +%{_bindir}/wmf2eps +%{_bindir}/wmf2fig +%{_bindir}/wmf2x +%{_bindir}/libwmf-fontmap +%{_datadir}/libwmf/ + +%files lite +%doc AUTHORS COPYING README +%{_libdir}/libwmflite-*.so.* + +%files devel +%doc doc/*.html +%doc doc/*.png +%doc doc/*.gif +%doc doc/html +%doc doc/caolan +%{_libdir}/*.so +%{_libdir}/pkgconfig/libwmf.pc +%{_includedir}/libwmf +%{_bindir}/libwmf-config + + +%changelog +* Fri Aug 10 2018 Caolán McNamara - 0.2.9-4 +- Related: rhbz#1602602 fix more clang warnings + +* Fri Aug 10 2018 Caolán McNamara - 0.2.9-3 +- Related: rhbz#1602602 fix more clang warnings + +* Fri Aug 10 2018 Caolán McNamara - 0.2.9-2 +- Related: rhbz#1602602 fix clang warnings + +* Wed Aug 08 2018 Caolán McNamara - 0.2.9-1 +- Resolves: rhbz#1602602 new version with covscan warnings fixed +- all cve fixes merged to that new upstream + +* Tue Sep 12 2017 Caolán McNamara - 0.2.8.4-53 +- Resolves: rhbz#1489844 CVE-2017-6362 remove afflicted but unused function + +* Thu Aug 03 2017 Fedora Release Engineering - 0.2.8.4-52 +- Rebuilt for https://fedoraproject.org/wiki/Fedora_27_Binutils_Mass_Rebuild + +* Wed Jul 26 2017 Fedora Release Engineering - 0.2.8.4-51 +- Rebuilt for https://fedoraproject.org/wiki/Fedora_27_Mass_Rebuild + +* Wed Feb 08 2017 Caolán McNamara - 0.2.8.4-50 +- CVE-2016-9317, CVE-2016-10167, CVE-2016-10168 + +* Wed Oct 26 2016 Caolán McNamara - 0.2.8.4-49 +- Resolves: rhbz#1388451 (CVE-2016-9011) check max claimed record len + against max seekable position + +* Thu Feb 04 2016 Fedora Release Engineering - 0.2.8.4-48 +- Rebuilt for https://fedoraproject.org/wiki/Fedora_24_Mass_Rebuild + +* Wed Sep 02 2015 Caolán McNamara - 0.2.8.4-47 +- Related: rhbz#1227244 CVE-2015-4696 fix patch context + +* Fri Aug 14 2015 Matthias Clasen - 0.2.8.4-46 +- Rely on gdk-pixbuf2 file triggers + +* Tue Jun 23 2015 Caolán McNamara - 0.2.8.4-45 +- Related: rhbz#1227244 CVE-2015-4695 meta_pen_create heap buffer overflow +- Related: rhbz#1227244 CVE-2015-4696 wmf2gd/wmf2eps use after free + +* Wed Jun 17 2015 Fedora Release Engineering - 0.2.8.4-44 +- Rebuilt for https://fedoraproject.org/wiki/Fedora_23_Mass_Rebuild + +* Tue Jun 09 2015 Caolán McNamara - 0.2.8.4-43 +- Resolves: rhbz#1227244 CVE-2015-0848 heap overflow when decoding BMP images + +* Tue Jun 02 2015 Caolán McNamara - 0.2.8.4-42 +- Resolves: rhbz#1227244 CVE-2015-0848 heap overflow when decoding BMP images + +* Sat Feb 21 2015 Till Maas - 0.2.8.4-41 +- Rebuilt for Fedora 23 Change + https://fedoraproject.org/wiki/Changes/Harden_all_packages_with_position-independent_code + +* Sun Aug 17 2014 Fedora Release Engineering - 0.2.8.4-40 +- Rebuilt for https://fedoraproject.org/wiki/Fedora_21_22_Mass_Rebuild + +* Sat Jun 07 2014 Fedora Release Engineering - 0.2.8.4-39 +- Rebuilt for https://fedoraproject.org/wiki/Fedora_21_Mass_Rebuild + +* Sat Aug 03 2013 Fedora Release Engineering - 0.2.8.4-38 +- Rebuilt for https://fedoraproject.org/wiki/Fedora_20_Mass_Rebuild + +* Thu Apr 04 2013 Caolán McNamara - 0.2.8.4-37 +- Resolves: rhbz#925929 support aarch64 + +* Thu Feb 14 2013 Fedora Release Engineering - 0.2.8.4-36 +- Rebuilt for https://fedoraproject.org/wiki/Fedora_19_Mass_Rebuild + +* Fri Jan 18 2013 Adam Tkac - 0.2.8.4-35 +- rebuild due to "jpeg8-ABI" feature drop + +* Fri Dec 21 2012 Adam Tkac - 0.2.8.4-34 +- rebuild against new libjpeg + +* Thu Jul 19 2012 Fedora Release Engineering - 0.2.8.4-33 +- Rebuilt for https://fedoraproject.org/wiki/Fedora_18_Mass_Rebuild + +* Fri Jan 13 2012 Fedora Release Engineering - 0.2.8.4-32 +- Rebuilt for https://fedoraproject.org/wiki/Fedora_17_Mass_Rebuild + +* Mon Dec 05 2011 Adam Jackson 0.2.8.4-31 +- Rebuild for new libpng + +* Tue Feb 08 2011 Fedora Release Engineering - 0.2.8.4-30 +- Rebuilt for https://fedoraproject.org/wiki/Fedora_15_Mass_Rebuild + +* Tue Dec 07 2010 Caolán McNamara - 0.2.8.4-29 +- drop bogus buildrequires + +* Mon Dec 06 2010 Caolán McNamara - 0.2.8.4-28 +- Resolves: rhbz#660161 security issues + +* Mon Oct 18 2010 Parag Nemade - 0.2.8.4-27 +- Merge-review cleanup (#226058) + +* Thu Jul 08 2010 Caolán McNamara - 0.2.8.4-26 +- Move docs into -lite subpackage that all the rest require to + fulfil subpackage licencing rules + +* Tue Jun 29 2010 Matthias Clasen - 0.2.8.4-25 +- Remove explicit file deps + +* Mon Jun 28 2010 Matthias Clasen - 0.2.8.4-23 +- Adapt to standalone gdk-pixbuf + +* Fri Apr 16 2010 Caolán McNamara - 0.2.8.4-22 +- Clarify licences + +* Sat Jul 25 2009 Fedora Release Engineering - 0.2.8.4-21 +- Rebuilt for https://fedoraproject.org/wiki/Fedora_12_Mass_Rebuild + +* Tue May 26 2009 Caolán McNamara - 0.2.8.4-20 +- Resolves: CVE-2009-1364 + +* Wed Feb 25 2009 Fedora Release Engineering - 0.2.8.4-19 +- Rebuilt for https://fedoraproject.org/wiki/Fedora_11_Mass_Rebuild + +* Wed Feb 13 2008 Ville Skyttä - 0.2.8.4-18 +- Split libwmflite (WMF parser) into -lite subpackage (#432651). +- Build with dependency tracking disabled. +- Convert docs to UTF-8. + +* Wed Aug 29 2007 Caolan McNamara 0.2.8.4-17 +- rebuild + +* Thu Aug 02 2007 Caolan McNamara 0.2.8.4-16 +- I wrote it and still had to check the headers to see if I had + cut and pasted "and later" into then + +* Thu May 24 2007 Caolan McNamara 0.2.8.4-15 +- drop duplicate font metrics + +* Thu Feb 15 2007 Caolan McNamara 0.2.8.4-14 +- remove use of archaic autotools + +* Fri Feb 09 2007 Caolan McNamara 0.2.8.4-13 +- Resolves: rhbz#222734 no need for Makefiles in doc dirs + +* Tue Jan 16 2007 Caolan McNamara 0.2.8.4-12 +- Resolves: rhbz#222734 no need for Makefiles in doc dirs + +* Thu Nov 16 2006 Caolan McNamara 0.2.8.4-11 +- Resolves: rhbz#215925 reduce exported symbols + +* Fri Jul 14 2006 Caolan McNamara 0.2.8.4-10 +- retweak for 64bit + +* Wed Jul 12 2006 Jesse Keating - 0.2.8.4-9.1 +- rebuild + +* Wed Jul 12 2006 Caolan McNamara 0.2.8.4-9 +- CVE-2006-3376 libwmf integer overflow + +* Tue May 16 2006 Caolan McNamara 0.2.8.4-8 +- rh#191971# BuildRequires + +* Fri May 5 2006 Matthias Clasen 0.2.8.4-7 +- Rebuild against the new GTK+ +- Require GTK+ 2.9.0 + +* Tue May 02 2006 Caolan McNamara 0.2.8.4-6 +- add a .pc and base libwmf-devel on pkg-config output + +* Tue Feb 28 2006 Caolan McNamara 0.2.8.4-5 +- rh#143096# extra deps according to libwmf-config + +* Fri Feb 10 2006 Jesse Keating - 0.2.8.4-4.2 +- bump again for double-long bug on ppc(64) + +* Tue Feb 07 2006 Jesse Keating - 0.2.8.4-4.1 +- rebuilt for new gcc4.1 snapshot and glibc changes + +* Thu Jan 19 2006 Caolan McNamara 0.2.8.4-4 +- rh#178275# match srvg gtk2 _host usage for pixbuf loaders + +* Tue Jan 03 2006 Caolan McNamara 0.2.8.4-3 +- add libwmf-0.2.8.4-fallbackfont.patch for rh#176620# + +* Fri Dec 09 2005 Jesse Keating 0.2.8.4-2.1 +- rebuilt + +* Wed Nov 23 2005 Caolan McNamara 0.2.8.4-2 +- rh#173299# modify pre/post requires + +* Thu Jul 28 2005 Caolan McNamara 0.2.8.4-1 +- get patches merged upstream +- drop integrated libwmf-0.2.8.3-warnings.patch +- drop integrated libwmf-0.2.8.3-noextras.patch +- drop integrated libwmf-0.2.8.3-rh154813.patch + +* Tue Jul 26 2005 Caolan McNamara 0.2.8.3-9 +- rh#154813# wmf upsidedown, spec (what of is there is) says that + this shouldn't happen, but... + +* Wed Mar 2 2005 Caolan McNamara 0.2.8.3-8 +- rebuild with gcc4 + +* Thu Dec 16 2004 Caolan McNamara 0.2.8.3-7 +- RH#143096# No need for extra X libs to be linked against + +* Tue Nov 2 2004 Caolan McNamara 0.2.8.3-6 +- #rh137878# Extra BuildRequires + +* Thu Oct 7 2004 Caolan McNamara 0.2.8.3-5 +- #rh134945# Extra BuildRequires + +* Wed Sep 1 2004 Caolan McNamara 0.2.8.3-4 +- #131373# cleanup compiletime warnings + +* Thu Jul 8 2004 Matthias Clasen - 0.2.8.3-3 +- Update to use the new update-gdk-pixbuf-loaders script in gtk2-2.4.1-2 + +* Thu May 20 2004 Caolan McNamara +- Initial version