third_party/libpng/contrib/gregbook/rpng2-x.c - Issue 2033063003: Check libpng directly into third_party/

Unified Diff: third_party/libpng/contrib/gregbook/rpng2-x.c

Issue 2033063003: Check libpng directly into third_party/ (Closed) Base URL: https://skia.googlesource.com/skia.git@master

Patch Set: public.bzl Created 4 years, 7 months ago

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Index: third_party/libpng/contrib/gregbook/rpng2-x.c

diff --git a/third_party/libpng/contrib/gregbook/rpng2-x.c b/third_party/libpng/contrib/gregbook/rpng2-x.c

new file mode 100644

index 0000000000000000000000000000000000000000..0c8ddeba223930f379fe21f648c68aa8798f6f06

--- /dev/null

+++ b/third_party/libpng/contrib/gregbook/rpng2-x.c

@@ -0,0 +1,2134 @@

+/*---------------------------------------------------------------------------

+ rpng2 - progressive-model PNG display program rpng2-x.c

+ This program decodes and displays PNG files progressively, as if it were

+ a web browser (though the front end is only set up to read from files).

+ It supports gamma correction, user-specified background colors, and user-

+ specified background patterns (for transparent images). This version is

+ for the X Window System (tested by the author under Unix and by Martin

+ Zinser under OpenVMS; may work under OS/2 with a little tweaking).

+ Thanks to Adam Costello and Pieter S. van der Meulen for the "diamond"

+ and "radial waves" patterns, respectively.

+ to do (someday, maybe):

+ - fix expose/redraw code: don't draw entire row if only part exposed

+ - 8-bit (colormapped) X support

+ - finish resizable checkerboard-gradient (sizes 4-128?)

+ - use %.1023s to simplify truncation of title-bar string?

+ ---------------------------------------------------------------------------

+ Changelog:

+ - 1.01: initial public release

+ - 1.02: modified to allow abbreviated options; fixed char/uchar mismatch

+ - 1.10: added support for non-default visuals; fixed X pixel-conversion

+ - 1.11: added -usleep option for demos; fixed command-line parsing bug

+ - 1.12: added -pause option for demos and testing

+ - 1.20: added runtime MMX-enabling/disabling and new -mmx* options

+ - 1.21: fixed some small X memory leaks (thanks to François Petitjean)

+ - 1.22: fixed XFreeGC() crash bug (thanks to Patrick Welche)

+ - 1.23: added -bgpat 0 mode (std white/gray checkerboard, 8x8 squares)

+ - 1.30: added -loop option for -bgpat (ifdef FEATURE_LOOP); fixed bpp =

+ 24; added support for X resources (thanks to Gerhard Niklasch)

+ - 1.31: added code to skip unused chunks (thanks to Glenn Randers-Pehrson)

+ - 1.32: added AMD64/EM64T support (__x86_64__); added basic expose/redraw

+ handling

+ - 2.00: dual-licensed (added GNU GPL)

+ - 2.01: fixed 64-bit typo in readpng2.c; fixed -pause usage description

+ - 2.02: fixed improper display of usage screen on PNG error(s); fixed

+ unexpected-EOF and file-read-error cases; fixed Trace() cut-and-

+ paste bugs

+ - 2.03: deleted runtime MMX-enabling/disabling and obsolete -mmx* options

+ - 2.04: Added "void(foo);" statements to quiet pedantic compiler warnings

+ about unused variables (GR-P)

+ - 2.05: Use nanosleep() instead of usleep(), which is deprecated (GR-P).

+ ---------------------------------------------------------------------------

+ This software is provided "as is," without warranty of any kind,

+ express or implied. In no event shall the author or contributors

+ be held liable for any damages arising in any way from the use of

+ this software.

+ The contents of this file are DUAL-LICENSED. You may modify and/or

+ redistribute this software according to the terms of one of the

+ following two licenses (at your option):

+ LICENSE 1 ("BSD-like with advertising clause"):

+ Permission is granted to anyone to use this software for any purpose,

+ including commercial applications, and to alter it and redistribute

+ it freely, subject to the following restrictions:

+ 1. Redistributions of source code must retain the above copyright

+ notice, disclaimer, and this list of conditions.

+ 2. Redistributions in binary form must reproduce the above copyright

+ notice, disclaimer, and this list of conditions in the documenta-

+ tion and/or other materials provided with the distribution.

+ 3. All advertising materials mentioning features or use of this

+ software must display the following acknowledgment:

+ This product includes software developed by Greg Roelofs

+ and contributors for the book, "PNG: The Definitive Guide,"

+ published by O'Reilly and Associates.

+ LICENSE 2 (GNU GPL v2 or later):

+ This program is free software; you can redistribute it and/or modify

+ it under the terms of the GNU General Public License as published by

+ the Free Software Foundation; either version 2 of the License, or

+ (at your option) any later version.

+ This program is distributed in the hope that it will be useful,

+ but WITHOUT ANY WARRANTY; without even the implied warranty of

+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the

+ GNU General Public License for more details.

+ You should have received a copy of the GNU General Public License

+ along with this program; if not, write to the Free Software Foundation,

+ Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA

+ ---------------------------------------------------------------------------*/

+#define PROGNAME "rpng2-x"

+#define LONGNAME "Progressive PNG Viewer for X"

+#define VERSION "2.04 of 15 June 2014"

+#define RESNAME "rpng2" /* our X resource application name */

+#define RESCLASS "Rpng" /* our X resource class name */

+#include <stdio.h>

+#include <stdlib.h>

+#include <ctype.h>

+#include <string.h>

+#include <setjmp.h> /* for jmpbuf declaration in readpng2.h */

+#include <time.h>

+#include <math.h> /* only for PvdM background code */

+#include <X11/Xlib.h>

+#include <X11/Xutil.h>

+#include <X11/Xos.h>

+#include <X11/keysym.h> /* defines XK_* macros */

+#if _POSIX_C_SOURCE >= 199309L /* have nanosleep() */

+# undef usleep

+# define usleep(usec) { \

+ struct timespec ts; \

+ ts.tv_sec = 0; \

+ ts.tv_nsec = (usec) * 1000; \

+ nanosleep(&ts, NULL); }

+# endif

+#ifndef usleep /* have neither nanosleep() nor usleep() */

+# define usleep(x) sleep(((x)+499999)/1000000)

+#endif

+#ifdef VMS

+# include <unistd.h>

+#endif

+/* all for PvdM background code: */

+#ifndef PI

+# define PI 3.141592653589793238

+#endif

+#define PI_2 (PI*0.5)

+#define INV_PI_360 (360.0 / PI)

+#define MAX(a,b) (a>b?a:b)

+#define MIN(a,b) (a<b?a:b)

+#define CLIP(a,min,max) MAX(min,MIN((a),max))

+#define ABS(a) ((a)<0?-(a):(a))

+#define CLIP8P(c) MAX(0,(MIN((c),255))) /* 8-bit pos. integer (uch) */

+#define ROUNDF(f) ((int)(f + 0.5))

+#define QUIT(e,k) ((e.type == ButtonPress && e.xbutton.button == Button1) || \

+ (e.type == KeyPress && /* v--- or 1 for shifted keys */ \

+ ((k = XLookupKeysym(&e.xkey, 0)) == XK_q || k == XK_Escape)))

+#define NO_24BIT_MASKS /* undef case not fully written--only for redisplay() */

+#define rgb1_max bg_freq

+#define rgb1_min bg_gray

+#define rgb2_max bg_bsat

+#define rgb2_min bg_brot

+/* #define DEBUG */ /* this enables the Trace() macros */

+#include "readpng2.h" /* typedefs, common macros, readpng2 prototypes */

+/* could just include png.h, but this macro is the only thing we need

+ * (name and typedefs changed to local versions); note that side effects

+ * only happen with alpha (which could easily be avoided with

+ * "ush acopy = (alpha);") */

+#define alpha_composite(composite, fg, alpha, bg) { \

+ ush temp = ((ush)(fg)*(ush)(alpha) + \

+ (ush)(bg)*(ush)(255 - (ush)(alpha)) + (ush)128); \

+ (composite) = (uch)((temp + (temp >> 8)) >> 8); \

+#define INBUFSIZE 4096 /* with pseudo-timing on (1 sec delay/block), this

+ * block size corresponds roughly to a download

+ * speed 10% faster than theoretical 33.6K maximum

+ * (assuming 8 data bits, 1 stop bit and no other

+ * overhead) */

+/* local prototypes */

+static void rpng2_x_init (void);

+static int rpng2_x_create_window (void);

+static int rpng2_x_load_bg_image (void);

+static void rpng2_x_display_row (ulg row);

+static void rpng2_x_finish_display (void);

+static void rpng2_x_redisplay_image (ulg startcol, ulg startrow,

+ ulg width, ulg height);

+#ifdef FEATURE_LOOP

+static void rpng2_x_reload_bg_image (void);

+static int is_number (char *p);

+#endif

+static void rpng2_x_cleanup (void);

+static int rpng2_x_msb (ulg u32val);

+static char titlebar[1024], *window_name = titlebar;

+static char *appname = LONGNAME;

+static char *icon_name = PROGNAME;

+static char *res_name = RESNAME;

+static char *res_class = RESCLASS;

+static char *filename;

+static FILE *infile;

+static mainprog_info rpng2_info;

+static uch inbuf[INBUFSIZE];

+static int incount;

+static int pat = 6; /* must be less than num_bgpat */

+static int bg_image = 0;

+static int bgscale, bgscale_default = 16;

+static ulg bg_rowbytes;

+static uch *bg_data;

+int pause_after_pass = FALSE;

+int demo_timing = FALSE;

+ulg usleep_duration = 0L;

+static struct rgb_color {

+ uch r, g, b;

+} rgb[] = {

+ { 0, 0, 0}, /* 0: black */

+ {255, 255, 255}, /* 1: white */

+ {173, 132, 57}, /* 2: tan */

+ { 64, 132, 0}, /* 3: medium green */

+ {189, 117, 1}, /* 4: gold */

+ {253, 249, 1}, /* 5: yellow */

+ { 0, 0, 255}, /* 6: blue */

+ { 0, 0, 120}, /* 7: medium blue */

+ {255, 0, 255}, /* 8: magenta */

+ { 64, 0, 64}, /* 9: dark magenta */

+ {255, 0, 0}, /* 10: red */

+ { 64, 0, 0}, /* 11: dark red */

+ {255, 127, 0}, /* 12: orange */

+ {192, 96, 0}, /* 13: darker orange */

+ { 24, 60, 0}, /* 14: dark green-yellow */

+ { 85, 125, 200}, /* 15: ice blue */

+ {192, 192, 192} /* 16: Netscape/Mosaic gray */

+};

+/* not used for now, but should be for error-checking:

+static int num_rgb = sizeof(rgb) / sizeof(struct rgb_color);

+ */

+/*

+ This whole struct is a fairly cheesy way to keep the number of

+ command-line options to a minimum. The radial-waves background

+ type is a particularly poor fit to the integer elements of the

+ struct...but a few macros and a little fixed-point math will do

+ wonders for ya.

+ type bits:

+ F E D C B A 9 8 7 6 5 4 3 2 1 0

+ | | | | |

+ | | +-+-+-- 0 = sharp-edged checkerboard

+ | | 1 = soft diamonds

+ | | 2 = radial waves

+ | | 3-7 = undefined

+ | +-- gradient #2 inverted?

+ +-- alternating columns inverted?

+ */

+static struct background_pattern {

+ ush type;

+ int rgb1_max, rgb1_min; /* or bg_freq, bg_gray */

+ int rgb2_max, rgb2_min; /* or bg_bsat, bg_brot (both scaled by 10)*/

+} bg[] = {

+ {0, 1,1, 16,16}, /* checkered: white vs. light gray (basic) */

+ {0+8, 2,0, 1,15}, /* checkered: tan/black vs. white/ice blue */

+ {0+24, 2,0, 1,0}, /* checkered: tan/black vs. white/black */

+ {0+8, 4,5, 0,2}, /* checkered: gold/yellow vs. black/tan */

+ {0+8, 4,5, 0,6}, /* checkered: gold/yellow vs. black/blue */

+ {0, 7,0, 8,9}, /* checkered: deep blue/black vs. magenta */

+ {0+8, 13,0, 5,14}, /* checkered: orange/black vs. yellow */

+ {0+8, 12,0, 10,11}, /* checkered: orange/black vs. red */

+ {1, 7,0, 8,0}, /* diamonds: deep blue/black vs. magenta */

+ {1, 12,0, 11,0}, /* diamonds: orange vs. dark red */

+ {1, 10,0, 7,0}, /* diamonds: red vs. medium blue */

+ {1, 4,0, 5,0}, /* diamonds: gold vs. yellow */

+ {1, 3,0, 0,0}, /* diamonds: medium green vs. black */

+ {2, 16, 100, 20, 0}, /* radial: ~hard radial color-beams */

+ {2, 18, 100, 10, 2}, /* radial: soft, curved radial color-beams */

+ {2, 16, 256, 100, 250}, /* radial: very tight spiral */

+ {2, 10000, 256, 11, 0} /* radial: dipole-moire' (almost fractal) */

+};

+static int num_bgpat = sizeof(bg) / sizeof(struct background_pattern);

+/* X-specific variables */

+static char *displayname;

+static XImage *ximage;

+static Display *display;

+static int depth;

+static Visual *visual;

+static XVisualInfo *visual_list;

+static int RShift, GShift, BShift;

+static ulg RMask, GMask, BMask;

+static Window window;

+static GC gc;

+static Colormap colormap;

+static int have_nondefault_visual = FALSE;

+static int have_colormap = FALSE;

+static int have_window = FALSE;

+static int have_gc = FALSE;

+int main(int argc, char **argv)

+#ifdef sgi

+ char tmpline[80];

+#endif

+ char *p, *bgstr = NULL;

+ int rc, alen, flen;

+ int error = 0;

+ int timing = FALSE;

+ int have_bg = FALSE;

+#ifdef FEATURE_LOOP

+ int loop = FALSE;

+ long loop_interval = -1; /* seconds (100,000 max) */

+#endif

+ double LUT_exponent; /* just the lookup table */

+ double CRT_exponent = 2.2; /* just the monitor */

+ double default_display_exponent; /* whole display system */

+ XEvent e;

+ KeySym k;

+ /* First initialize a few things, just to be sure--memset takes care of

+ * default background color (black), booleans (FALSE), pointers (NULL),

+ * etc. */

+ displayname = (char *)NULL;

+ filename = (char *)NULL;

+ memset(&rpng2_info, 0, sizeof(mainprog_info));

+ /* Set the default value for our display-system exponent, i.e., the

+ * product of the CRT exponent and the exponent corresponding to

+ * the frame-buffer's lookup table (LUT), if any. This is not an

+ * exhaustive list of LUT values (e.g., OpenStep has a lot of weird

+ * ones), but it should cover 99% of the current possibilities. */

+#if defined(NeXT)

+ /* third-party utilities can modify the default LUT exponent */

+ LUT_exponent = 1.0 / 2.2;

+ /*

+ if (some_next_function_that_returns_gamma(&next_gamma))

+ LUT_exponent = 1.0 / next_gamma;

+ */

+#elif defined(sgi)

+ LUT_exponent = 1.0 / 1.7;

+ /* there doesn't seem to be any documented function to

+ * get the "gamma" value, so we do it the hard way */

+ infile = fopen("/etc/config/system.glGammaVal", "r");

+ if (infile) {

+ double sgi_gamma;

+ fgets(tmpline, 80, infile);

+ fclose(infile);

+ sgi_gamma = atof(tmpline);

+ if (sgi_gamma > 0.0)

+ LUT_exponent = 1.0 / sgi_gamma;

+ }

+#elif defined(Macintosh)

+ LUT_exponent = 1.8 / 2.61;

+ /*

+ if (some_mac_function_that_returns_gamma(&mac_gamma))

+ LUT_exponent = mac_gamma / 2.61;

+ */

+#else

+ LUT_exponent = 1.0; /* assume no LUT: most PCs */

+#endif

+ /* the defaults above give 1.0, 1.3, 1.5 and 2.2, respectively: */

+ default_display_exponent = LUT_exponent * CRT_exponent;

+ /* If the user has set the SCREEN_GAMMA environment variable as suggested

+ * (somewhat imprecisely) in the libpng documentation, use that; otherwise

+ * use the default value we just calculated. Either way, the user may

+ * override this via a command-line option. */

+ if ((p = getenv("SCREEN_GAMMA")) != NULL)

+ rpng2_info.display_exponent = atof(p);

+ else

+ rpng2_info.display_exponent = default_display_exponent;

+ /* Now parse the command line for options and the PNG filename. */

+ while (*++argv && !error) {

+ if (!strncmp(*argv, "-display", 2)) {

+ if (!*++argv)

+ ++error;

+ else

+ displayname = *argv;

+ } else if (!strncmp(*argv, "-gamma", 2)) {

+ if (!*++argv)

+ ++error;

+ else {

+ rpng2_info.display_exponent = atof(*argv);

+ if (rpng2_info.display_exponent <= 0.0)

+ ++error;

+ }

+ } else if (!strncmp(*argv, "-bgcolor", 4)) {

+ if (!*++argv)

+ ++error;

+ else {

+ bgstr = *argv;

+ if (strlen(bgstr) != 7 || bgstr[0] != '#')

+ ++error;

+ else {

+ have_bg = TRUE;

+ bg_image = FALSE;

+ }

+ } else if (!strncmp(*argv, "-bgpat", 4)) {

+ if (!*++argv)

+ ++error;

+ else {

+ pat = atoi(*argv);

+ if (pat >= 0 && pat < num_bgpat) {

+ bg_image = TRUE;

+ have_bg = FALSE;

+ } else

+ ++error;

+ }

+ } else if (!strncmp(*argv, "-usleep", 2)) {

+ if (!*++argv)

+ ++error;

+ else {

+ usleep_duration = (ulg)atol(*argv);

+ demo_timing = TRUE;

+ }

+ } else if (!strncmp(*argv, "-pause", 2)) {

+ pause_after_pass = TRUE;

+ } else if (!strncmp(*argv, "-timing", 2)) {

+ timing = TRUE;

+#ifdef FEATURE_LOOP

+ } else if (!strncmp(*argv, "-loop", 2)) {

+ loop = TRUE;

+ if (!argv[1] || !is_number(argv[1]))

+ loop_interval = 2;

+ else {

+ ++argv;

+ loop_interval = atol(*argv);

+ if (loop_interval < 0)

+ loop_interval = 2;

+ else if (loop_interval > 100000) /* bit more than one day */

+ loop_interval = 100000;

+ }

+#endif

+ } else {

+ if (**argv != '-') {

+ filename = *argv;

+ if (argv[1]) /* shouldn't be any more args after filename */

+ ++error;

+ } else

+ ++error; /* not expecting any other options */

+ }

+ if (!filename)

+ ++error;

+ /* print usage screen if any errors up to this point */

+ if (error) {

+ fprintf(stderr, "\n%s %s: %s\n\n", PROGNAME, VERSION, appname);

+ readpng2_version_info();

+ fprintf(stderr, "\n"

+ "Usage: ");

+ fprintf(stderr,

+ "%s [-display xdpy] [-gamma exp] [-bgcolor bg | -bgpat pat]\n"

+ " %*s [-usleep dur | -timing] [-pause]\n",

+ PROGNAME, (int)strlen(PROGNAME), " ");

+ fprintf(stderr,

+#ifdef FEATURE_LOOP

+ " [-loop [sec]]"

+#endif

+ " file.png\n\n");

+ fprintf(stderr,

+ " xdpy\tname of the target X display (e.g., ``hostname:0'')\n"

+ " exp \ttransfer-function exponent (``gamma'') of the display\n"

+ "\t\t system in floating-point format (e.g., ``%.1f''); equal\n"

+ "\t\t to the product of the lookup-table exponent (varies)\n",

+ default_display_exponent);

+ fprintf(stderr,

+ "\t\t and the CRT exponent (usually 2.2); must be positive\n"

+ " bg \tdesired background color in 7-character hex RGB format\n"

+ "\t\t (e.g., ``#ff7700'' for orange: same as HTML colors);\n"

+ "\t\t used with transparent images; overrides -bgpat\n"

+ " pat \tdesired background pattern number (0-%d); used with\n"

+ "\t\t transparent images; overrides -bgcolor\n",

+ num_bgpat-1);

+#ifdef FEATURE_LOOP

+ fprintf(stderr,

+ " -loop\tloops through background images after initial display\n"

+ "\t\t is complete (depends on -bgpat)\n"

+ " sec \tseconds to display each background image (default = 2)\n");

+#endif

+ fprintf(stderr,

+ " dur \tduration in microseconds to wait after displaying each\n"

+ "\t\t row (for demo purposes)\n"

+ " -timing\tenables delay for every block read, to simulate modem\n"

+ "\t\t download of image (~36 Kbps)\n"

+ " -pause\tpauses after displaying each pass until mouse clicked\n"

+ "\nPress Q, Esc or mouse button 1 (within image window, after image\n"

+ "is displayed) to quit.\n");

+ exit(1);

+ }

+ if (!(infile = fopen(filename, "rb"))) {

+ fprintf(stderr, PROGNAME ": can't open PNG file [%s]\n", filename);

+ ++error;

+ } else {

+ incount = fread(inbuf, 1, INBUFSIZE, infile);

+ if (incount < 8 || !readpng2_check_sig(inbuf, 8)) {

+ fprintf(stderr, PROGNAME

+ ": [%s] is not a PNG file: incorrect signature\n",

+ filename);

+ ++error;

+ } else if ((rc = readpng2_init(&rpng2_info)) != 0) {

+ switch (rc) {

+ case 2:

+ fprintf(stderr, PROGNAME

+ ": [%s] has bad IHDR (libpng longjmp)\n", filename);

+ break;

+ case 4:

+ fprintf(stderr, PROGNAME ": insufficient memory\n");

+ break;

+ default:

+ fprintf(stderr, PROGNAME

+ ": unknown readpng2_init() error\n");

+ break;

+ }

+ ++error;

+ } else {

+ Trace((stderr, "about to call XOpenDisplay()\n"))

+ display = XOpenDisplay(displayname);

+ if (!display) {

+ readpng2_cleanup(&rpng2_info);

+ fprintf(stderr, PROGNAME ": can't open X display [%s]\n",

+ displayname? displayname : "default");

+ ++error;

+ }

+ if (error)

+ fclose(infile);

+ }

+ if (error) {

+ fprintf(stderr, PROGNAME ": aborting.\n");

+ exit(2);

+ }

+ /* set the title-bar string, but make sure buffer doesn't overflow */

+ alen = strlen(appname);

+ flen = strlen(filename);

+ if (alen + flen + 3 > 1023)

+ sprintf(titlebar, "%s: ...%s", appname, filename+(alen+flen+6-1023));

+ else

+ sprintf(titlebar, "%s: %s", appname, filename);

+ /* set some final rpng2_info variables before entering main data loop */

+ if (have_bg) {

+ unsigned r, g, b; /* this approach quiets compiler warnings */

+ sscanf(bgstr+1, "%2x%2x%2x", &r, &g, &b);

+ rpng2_info.bg_red = (uch)r;

+ rpng2_info.bg_green = (uch)g;

+ rpng2_info.bg_blue = (uch)b;

+ } else

+ rpng2_info.need_bgcolor = TRUE;

+ rpng2_info.state = kPreInit;

+ rpng2_info.mainprog_init = rpng2_x_init;

+ rpng2_info.mainprog_display_row = rpng2_x_display_row;

+ rpng2_info.mainprog_finish_display = rpng2_x_finish_display;

+ /* OK, this is the fun part: call readpng2_decode_data() at the start of

+ * the loop to deal with our first buffer of data (read in above to verify

+ * that the file is a PNG image), then loop through the file and continue

+ * calling the same routine to handle each chunk of data. It in turn

+ * passes the data to libpng, which will invoke one or more of our call-

+ * backs as decoded data become available. We optionally call sleep() for

+ * one second per iteration to simulate downloading the image via an analog

+ * modem. */

+ for (;;) {

+ Trace((stderr, "about to call readpng2_decode_data()\n"))

+ if (readpng2_decode_data(&rpng2_info, inbuf, incount))

+ ++error;

+ Trace((stderr, "done with readpng2_decode_data()\n"))

+ if (error || incount != INBUFSIZE || rpng2_info.state == kDone) {

+ if (rpng2_info.state == kDone) {

+ Trace((stderr, "done decoding PNG image\n"))

+ } else if (ferror(infile)) {

+ fprintf(stderr, PROGNAME

+ ": error while reading PNG image file\n");

+ exit(3);

+ } else if (feof(infile)) {

+ fprintf(stderr, PROGNAME ": end of file reached "

+ "(unexpectedly) while reading PNG image file\n");

+ exit(3);

+ } else /* if (error) */ {

+ /* will print error message below */

+ }

+ break;

+ }

+ if (timing)

+ sleep(1);

+ incount = fread(inbuf, 1, INBUFSIZE, infile);

+ }

+ /* clean up PNG stuff and report any decoding errors */

+ fclose(infile);

+ Trace((stderr, "about to call readpng2_cleanup()\n"))

+ readpng2_cleanup(&rpng2_info);

+ if (error) {

+ fprintf(stderr, PROGNAME ": libpng error while decoding PNG image\n");

+ exit(3);

+ }

+#ifdef FEATURE_LOOP

+ if (loop && bg_image) {

+ Trace((stderr, "entering -loop loop (FEATURE_LOOP)\n"))

+ for (;;) {

+ int i, use_sleep;

+ struct timeval now, then;

+ /* get current time and add loop_interval to get target time */

+ if (gettimeofday(&then, NULL) == 0) {

+ then.tv_sec += loop_interval;

+ use_sleep = FALSE;

+ } else

+ use_sleep = TRUE;

+ /* do quick check for a quit event but don't wait for it */

+ /* GRR BUG: should also check for Expose events and redraw... */

+ if (XCheckMaskEvent(display, KeyPressMask | ButtonPressMask, &e))

+ if (QUIT(e,k))

+ break;

+ /* generate next background image */

+ if (++pat >= num_bgpat)

+ pat = 0;

+ rpng2_x_reload_bg_image();

+ /* wait for timeout, using whatever means are available */

+ if (use_sleep || gettimeofday(&now, NULL) != 0) {

+ for (i = loop_interval; i > 0; --i) {

+ sleep(1);

+ /* GRR BUG: also need to check for Expose (and redraw!) */

+ if (XCheckMaskEvent(display, KeyPressMask | ButtonPressMask,

+ &e) && QUIT(e,k))

+ break;

+ }

+ } else {

+ /* Y2038 BUG! */

+ if (now.tv_sec < then.tv_sec ||

+ (now.tv_sec == then.tv_sec && now.tv_usec < then.tv_usec))

+ {

+ int quit = FALSE;

+ long seconds_to_go = then.tv_sec - now.tv_sec;

+ long usleep_usec;

+ /* basically chew up most of remaining loop-interval with

+ * calls to sleep(1) interleaved with checks for quit

+ * events, but also recalc time-to-go periodically; when

+ * done, clean up any remaining time with usleep() call

+ * (could also use SIGALRM, but signals are a pain...) */

+ while (seconds_to_go-- > 1) {

+ int seconds_done = 0;

+ for (i = seconds_to_go; i > 0 && !quit; --i) {

+ sleep(1);

+ /* GRR BUG: need to check for Expose and redraw */

+ if (XCheckMaskEvent(display, KeyPressMask |

+ ButtonPressMask, &e) && QUIT(e,k))

+ quit = TRUE;

+ if (++seconds_done > 1000)

+ break; /* time to redo seconds_to_go meas. */

+ }

+ if (quit)

+ break;

+ /* OK, more than 1000 seconds since last check:

+ * correct the time-to-go measurement for drift */

+ if (gettimeofday(&now, NULL) == 0) {

+ if (now.tv_sec >= then.tv_sec)

+ break;

+ seconds_to_go = then.tv_sec - now.tv_sec;

+ } else

+ ++seconds_to_go; /* restore what we subtracted */

+ }

+ if (quit)

+ break; /* breaks outer do-loop, skips redisplay */

+ /* since difference between "now" and "then" is already

+ * eaten up to within a couple of seconds, don't need to

+ * worry about overflow--but might have overshot (neg.) */

+ if (gettimeofday(&now, NULL) == 0) {

+ usleep_usec = 1000000L*(then.tv_sec - now.tv_sec) +

+ then.tv_usec - now.tv_usec;

+ if (usleep_usec > 0)

+ usleep((ulg)usleep_usec);

+ }

+ /* composite image against new background and display (note that

+ * we do not take into account the time spent doing this...) */

+ rpng2_x_redisplay_image (0, 0, rpng2_info.width, rpng2_info.height);

+ }

+ } else /* FALL THROUGH and do the normal thing */

+#endif /* FEATURE_LOOP */

+ /* wait for the user to tell us when to quit */

+ if (rpng2_info.state >= kWindowInit) {

+ Trace((stderr, "entering final wait-for-quit-event loop\n"))

+ do {

+ XNextEvent(display, &e);

+ if (e.type == Expose) {

+ XExposeEvent *ex = (XExposeEvent *)&e;

+ rpng2_x_redisplay_image (ex->x, ex->y, ex->width, ex->height);

+ }

+ } while (!QUIT(e,k));

+ } else {

+ fprintf(stderr, PROGNAME ": init callback never called: probable "

+ "libpng error while decoding PNG metadata\n");

+ exit(4);

+ }

+ /* we're done: clean up all image and X resources and go away */

+ Trace((stderr, "about to call rpng2_x_cleanup()\n"))

+ rpng2_x_cleanup();

+ (void)argc; /* Unused */

+ return 0;

+/* this function is called by readpng2_info_callback() in readpng2.c, which

+ * in turn is called by libpng after all of the pre-IDAT chunks have been

+ * read and processed--i.e., we now have enough info to finish initializing */

+static void rpng2_x_init(void)

+ ulg i;

+ ulg rowbytes = rpng2_info.rowbytes;

+ Trace((stderr, "beginning rpng2_x_init()\n"))

+ Trace((stderr, " rowbytes = %d\n", rpng2_info.rowbytes))

+ Trace((stderr, " width = %ld\n", rpng2_info.width))

+ Trace((stderr, " height = %ld\n", rpng2_info.height))

+ rpng2_info.image_data = (uch *)malloc(rowbytes * rpng2_info.height);

+ if (!rpng2_info.image_data) {

+ readpng2_cleanup(&rpng2_info);

+ return;

+ }

+ rpng2_info.row_pointers = (uch **)malloc(rpng2_info.height * sizeof(uch *));

+ if (!rpng2_info.row_pointers) {

+ free(rpng2_info.image_data);

+ rpng2_info.image_data = NULL;

+ readpng2_cleanup(&rpng2_info);

+ return;

+ }

+ for (i = 0; i < rpng2_info.height; ++i)

+ rpng2_info.row_pointers[i] = rpng2_info.image_data + i*rowbytes;

+ /* do the basic X initialization stuff, make the window, and fill it with

+ * the user-specified, file-specified or default background color or

+ * pattern */

+ if (rpng2_x_create_window()) {

+ /* GRR TEMPORARY HACK: this is fundamentally no different from cases

+ * above; libpng should call our error handler to longjmp() back to us

+ * when png_ptr goes away. If we/it segfault instead, seems like a

+ * libpng bug... */

+ /* we're here via libpng callback, so if window fails, clean and bail */

+ readpng2_cleanup(&rpng2_info);

+ rpng2_x_cleanup();

+ exit(2);

+ }

+ rpng2_info.state = kWindowInit;

+static int rpng2_x_create_window(void)

+ ulg bg_red = rpng2_info.bg_red;

+ ulg bg_green = rpng2_info.bg_green;

+ ulg bg_blue = rpng2_info.bg_blue;

+ ulg bg_pixel = 0L;

+ ulg attrmask;

+ int need_colormap = FALSE;

+ int screen, pad;

+ uch *xdata;

+ Window root;

+ XEvent e;

+ XGCValues gcvalues;

+ XSetWindowAttributes attr;

+ XTextProperty windowName, *pWindowName = &windowName;

+ XTextProperty iconName, *pIconName = &iconName;

+ XVisualInfo visual_info;

+ XSizeHints *size_hints;

+ XWMHints *wm_hints;

+ XClassHint *class_hints;

+ Trace((stderr, "beginning rpng2_x_create_window()\n"))

+ screen = DefaultScreen(display);

+ depth = DisplayPlanes(display, screen);

+ root = RootWindow(display, screen);

+#ifdef DEBUG

+ XSynchronize(display, True);

+#endif

+ if (depth != 16 && depth != 24 && depth != 32) {

+ int visuals_matched = 0;

+ Trace((stderr, "default depth is %d: checking other visuals\n",

+ depth))

+ /* 24-bit first */

+ visual_info.screen = screen;

+ visual_info.depth = 24;

+ visual_list = XGetVisualInfo(display,

+ VisualScreenMask | VisualDepthMask, &visual_info, &visuals_matched);

+ if (visuals_matched == 0) {

+/* GRR: add 15-, 16- and 32-bit TrueColor visuals (also DirectColor?) */

+ fprintf(stderr, "default screen depth %d not supported, and no"

+ " 24-bit visuals found\n", depth);

+ return 2;

+ }

+ Trace((stderr, "XGetVisualInfo() returned %d 24-bit visuals\n",

+ visuals_matched))

+ visual = visual_list[0].visual;

+ depth = visual_list[0].depth;

+/*

+ colormap_size = visual_list[0].colormap_size;

+ visual_class = visual->class;

+ visualID = XVisualIDFromVisual(visual);

+ */

+ have_nondefault_visual = TRUE;

+ need_colormap = TRUE;

+ } else {

+ XMatchVisualInfo(display, screen, depth, TrueColor, &visual_info);

+ visual = visual_info.visual;

+ }

+ RMask = visual->red_mask;

+ GMask = visual->green_mask;

+ BMask = visual->blue_mask;

+/* GRR: add/check 8-bit support */

+ if (depth == 8 || need_colormap) {

+ colormap = XCreateColormap(display, root, visual, AllocNone);

+ if (!colormap) {

+ fprintf(stderr, "XCreateColormap() failed\n");

+ return 2;

+ }

+ have_colormap = TRUE;

+ if (depth == 8)

+ bg_image = FALSE; /* gradient just wastes palette entries */

+ }

+ if (depth == 15 || depth == 16) {

+ RShift = 15 - rpng2_x_msb(RMask); /* these are right-shifts */

+ GShift = 15 - rpng2_x_msb(GMask);

+ BShift = 15 - rpng2_x_msb(BMask);

+ } else if (depth > 16) {

+ RShift = rpng2_x_msb(RMask) - 7; /* these are left-shifts */

+ GShift = rpng2_x_msb(GMask) - 7;

+ BShift = rpng2_x_msb(BMask) - 7;

+ }

+ if (depth >= 15 && (RShift < 0 || GShift < 0 || BShift < 0)) {

+ fprintf(stderr, "rpng2 internal logic error: negative X shift(s)!\n");

+ return 2;

+ }

+/*---------------------------------------------------------------------------

+ Finally, create the window.

+ ---------------------------------------------------------------------------*/

+ attr.backing_store = Always;

+ attr.event_mask = ExposureMask | KeyPressMask | ButtonPressMask;

+ attrmask = CWBackingStore | CWEventMask;

+ if (have_nondefault_visual) {

+ attr.colormap = colormap;

+ attr.background_pixel = 0;

+ attr.border_pixel = 1;

+ attrmask |= CWColormap | CWBackPixel | CWBorderPixel;

+ }

+ window = XCreateWindow(display, root, 0, 0, rpng2_info.width,

+ rpng2_info.height, 0, depth, InputOutput, visual, attrmask, &attr);

+ if (window == None) {

+ fprintf(stderr, "XCreateWindow() failed\n");

+ return 2;

+ } else

+ have_window = TRUE;

+ if (depth == 8)

+ XSetWindowColormap(display, window, colormap);

+ if (!XStringListToTextProperty(&window_name, 1, pWindowName))

+ pWindowName = NULL;

+ if (!XStringListToTextProperty(&icon_name, 1, pIconName))

+ pIconName = NULL;

+ /* OK if either hints allocation fails; XSetWMProperties() allows NULLs */

+ if ((size_hints = XAllocSizeHints()) != NULL) {

+ /* window will not be resizable */

+ size_hints->flags = PMinSize | PMaxSize;

+ size_hints->min_width = size_hints->max_width = (int)rpng2_info.width;

+ size_hints->min_height = size_hints->max_height =

+ (int)rpng2_info.height;

+ }

+ if ((wm_hints = XAllocWMHints()) != NULL) {

+ wm_hints->initial_state = NormalState;

+ wm_hints->input = True;

+ /* wm_hints->icon_pixmap = icon_pixmap; */

+ wm_hints->flags = StateHint | InputHint /* | IconPixmapHint */ ;

+ }

+ if ((class_hints = XAllocClassHint()) != NULL) {

+ class_hints->res_name = res_name;

+ class_hints->res_class = res_class;

+ }

+ XSetWMProperties(display, window, pWindowName, pIconName, NULL, 0,

+ size_hints, wm_hints, class_hints);

+ /* various properties and hints no longer needed; free memory */

+ if (pWindowName)

+ XFree(pWindowName->value);

+ if (pIconName)

+ XFree(pIconName->value);

+ if (size_hints)

+ XFree(size_hints);

+ if (wm_hints)

+ XFree(wm_hints);

+ if (class_hints)

+ XFree(class_hints);

+ XMapWindow(display, window);

+ gc = XCreateGC(display, window, 0, &gcvalues);

+ have_gc = TRUE;

+/*---------------------------------------------------------------------------

+ Allocate memory for the X- and display-specific version of the image.

+ ---------------------------------------------------------------------------*/

+ if (depth == 24 || depth == 32) {

+ xdata = (uch *)malloc(4*rpng2_info.width*rpng2_info.height);

+ pad = 32;

+ } else if (depth == 16) {

+ xdata = (uch *)malloc(2*rpng2_info.width*rpng2_info.height);

+ pad = 16;

+ } else /* depth == 8 */ {

+ xdata = (uch *)malloc(rpng2_info.width*rpng2_info.height);

+ pad = 8;

+ }

+ if (!xdata) {

+ fprintf(stderr, PROGNAME ": unable to allocate image memory\n");

+ return 4;

+ }

+ ximage = XCreateImage(display, visual, depth, ZPixmap, 0,

+ (char *)xdata, rpng2_info.width, rpng2_info.height, pad, 0);

+ if (!ximage) {

+ fprintf(stderr, PROGNAME ": XCreateImage() failed\n");

+ free(xdata);

+ return 3;

+ }

+ /* to avoid testing the byte order every pixel (or doubling the size of

+ * the drawing routine with a giant if-test), we arbitrarily set the byte

+ * order to MSBFirst and let Xlib worry about inverting things on little-

+ * endian machines (e.g., Linux/x86, old VAXen, etc.)--this is not the

+ * most efficient approach (the giant if-test would be better), but in

+ * the interest of clarity, we'll take the easy way out... */

+ ximage->byte_order = MSBFirst;

+/*---------------------------------------------------------------------------

+ Fill window with the specified background color (default is black) or

+ faked "background image" (but latter is disabled if 8-bit; gradients

+ just waste palette entries).

+ ---------------------------------------------------------------------------*/

+ if (bg_image)

+ rpng2_x_load_bg_image(); /* resets bg_image if fails */

+ if (!bg_image) {

+ if (depth == 24 || depth == 32) {

+ bg_pixel = (bg_red << RShift) |

+ (bg_green << GShift) |

+ (bg_blue << BShift);

+ } else if (depth == 16) {

+ bg_pixel = (((bg_red << 8) >> RShift) & RMask) |

+ (((bg_green << 8) >> GShift) & GMask) |

+ (((bg_blue << 8) >> BShift) & BMask);

+ } else /* depth == 8 */ {

+ /* GRR: add 8-bit support */

+ }

+ XSetForeground(display, gc, bg_pixel);

+ XFillRectangle(display, window, gc, 0, 0, rpng2_info.width,

+ rpng2_info.height);

+ }

+/*---------------------------------------------------------------------------

+ Wait for first Expose event to do any drawing, then flush and return.

+ ---------------------------------------------------------------------------*/

+ do

+ XNextEvent(display, &e);

+ while (e.type != Expose || e.xexpose.count);

+ XFlush(display);

+ return 0;

+} /* end function rpng2_x_create_window() */

+static int rpng2_x_load_bg_image(void)

+ uch *src;

+ char *dest;

+ uch r1, r2, g1, g2, b1, b2;

+ uch r1_inv, r2_inv, g1_inv, g2_inv, b1_inv, b2_inv;

+ int k, hmax, max;

+ int xidx, yidx, yidx_max;

+ int even_odd_vert, even_odd_horiz, even_odd;

+ int invert_gradient2 = (bg[pat].type & 0x08);

+ int invert_column;

+ int ximage_rowbytes = ximage->bytes_per_line;

+ ulg i, row;

+ ulg pixel;

+/*---------------------------------------------------------------------------

+ Allocate buffer for fake background image to be used with transparent

+ images; if this fails, revert to plain background color.

+ ---------------------------------------------------------------------------*/

+ bg_rowbytes = 3 * rpng2_info.width;

+ bg_data = (uch *)malloc(bg_rowbytes * rpng2_info.height);

+ if (!bg_data) {

+ fprintf(stderr, PROGNAME

+ ": unable to allocate memory for background image\n");

+ bg_image = 0;

+ return 1;

+ }

+ bgscale = (pat == 0)? 8 : bgscale_default;

+ yidx_max = bgscale - 1;

+/*---------------------------------------------------------------------------

+ Vertical gradients (ramps) in NxN squares, alternating direction and

+ colors (N == bgscale).

+ ---------------------------------------------------------------------------*/

+ if ((bg[pat].type & 0x07) == 0) {

+ uch r1_min = rgb[bg[pat].rgb1_min].r;

+ uch g1_min = rgb[bg[pat].rgb1_min].g;

+ uch b1_min = rgb[bg[pat].rgb1_min].b;

+ uch r2_min = rgb[bg[pat].rgb2_min].r;

+ uch g2_min = rgb[bg[pat].rgb2_min].g;

+ uch b2_min = rgb[bg[pat].rgb2_min].b;

+ int r1_diff = rgb[bg[pat].rgb1_max].r - r1_min;

+ int g1_diff = rgb[bg[pat].rgb1_max].g - g1_min;

+ int b1_diff = rgb[bg[pat].rgb1_max].b - b1_min;

+ int r2_diff = rgb[bg[pat].rgb2_max].r - r2_min;

+ int g2_diff = rgb[bg[pat].rgb2_max].g - g2_min;

+ int b2_diff = rgb[bg[pat].rgb2_max].b - b2_min;

+ for (row = 0; row < rpng2_info.height; ++row) {

+ yidx = (int)(row % bgscale);

+ even_odd_vert = (int)((row / bgscale) & 1);

+ r1 = r1_min + (r1_diff * yidx) / yidx_max;

+ g1 = g1_min + (g1_diff * yidx) / yidx_max;

+ b1 = b1_min + (b1_diff * yidx) / yidx_max;

+ r1_inv = r1_min + (r1_diff * (yidx_max-yidx)) / yidx_max;

+ g1_inv = g1_min + (g1_diff * (yidx_max-yidx)) / yidx_max;

+ b1_inv = b1_min + (b1_diff * (yidx_max-yidx)) / yidx_max;

+ r2 = r2_min + (r2_diff * yidx) / yidx_max;

+ g2 = g2_min + (g2_diff * yidx) / yidx_max;

+ b2 = b2_min + (b2_diff * yidx) / yidx_max;

+ r2_inv = r2_min + (r2_diff * (yidx_max-yidx)) / yidx_max;

+ g2_inv = g2_min + (g2_diff * (yidx_max-yidx)) / yidx_max;

+ b2_inv = b2_min + (b2_diff * (yidx_max-yidx)) / yidx_max;

+ dest = (char *)bg_data + row*bg_rowbytes;

+ for (i = 0; i < rpng2_info.width; ++i) {

+ even_odd_horiz = (int)((i / bgscale) & 1);

+ even_odd = even_odd_vert ^ even_odd_horiz;

+ invert_column =

+ (even_odd_horiz && (bg[pat].type & 0x10));

+ if (even_odd == 0) { /* gradient #1 */

+ if (invert_column) {

+ *dest++ = r1_inv;

+ *dest++ = g1_inv;

+ *dest++ = b1_inv;

+ } else {

+ *dest++ = r1;

+ *dest++ = g1;

+ *dest++ = b1;

+ }

+ } else { /* gradient #2 */

+ if ((invert_column && invert_gradient2) ||

+ (!invert_column && !invert_gradient2))

+ {

+ *dest++ = r2; /* not inverted or */

+ *dest++ = g2; /* doubly inverted */

+ *dest++ = b2;

+ } else {

+ *dest++ = r2_inv;

+ *dest++ = g2_inv; /* singly inverted */

+ *dest++ = b2_inv;

+ }

+/*---------------------------------------------------------------------------

+ Soft gradient-diamonds with scale = bgscale. Code contributed by Adam

+ M. Costello.

+ ---------------------------------------------------------------------------*/

+ } else if ((bg[pat].type & 0x07) == 1) {

+ hmax = (bgscale-1)/2; /* half the max weight of a color */

+ max = 2*hmax; /* the max weight of a color */

+ r1 = rgb[bg[pat].rgb1_max].r;

+ g1 = rgb[bg[pat].rgb1_max].g;

+ b1 = rgb[bg[pat].rgb1_max].b;

+ r2 = rgb[bg[pat].rgb2_max].r;

+ g2 = rgb[bg[pat].rgb2_max].g;

+ b2 = rgb[bg[pat].rgb2_max].b;

+ for (row = 0; row < rpng2_info.height; ++row) {

+ yidx = (int)(row % bgscale);

+ if (yidx > hmax)

+ yidx = bgscale-1 - yidx;

+ dest = (char *)bg_data + row*bg_rowbytes;

+ for (i = 0; i < rpng2_info.width; ++i) {

+ xidx = (int)(i % bgscale);

+ if (xidx > hmax)

+ xidx = bgscale-1 - xidx;

+ k = xidx + yidx;

+ *dest++ = (k*r1 + (max-k)*r2) / max;

+ *dest++ = (k*g1 + (max-k)*g2) / max;

+ *dest++ = (k*b1 + (max-k)*b2) / max;

+ }

+/*---------------------------------------------------------------------------

+ Radial "starburst" with azimuthal sinusoids; [eventually number of sinu-

+ soids will equal bgscale?]. This one is slow but very cool. Code con-

+ tributed by Pieter S. van der Meulen (originally in Smalltalk).

+ ---------------------------------------------------------------------------*/

+ } else if ((bg[pat].type & 0x07) == 2) {

+ uch ch;

+ int ii, x, y, hw, hh, grayspot;

+ double freq, rotate, saturate, gray, intensity;

+ double angle=0.0, aoffset=0.0, maxDist, dist;

+ double red=0.0, green=0.0, blue=0.0, hue, s, v, f, p, q, t;

+ fprintf(stderr, "%s: computing radial background...",

+ PROGNAME);

+ fflush(stderr);

+ hh = (int)(rpng2_info.height / 2);

+ hw = (int)(rpng2_info.width / 2);

+ /* variables for radial waves:

+ * aoffset: number of degrees to rotate hue [CURRENTLY NOT USED]

+ * freq: number of color beams originating from the center

+ * grayspot: size of the graying center area (anti-alias)

+ * rotate: rotation of the beams as a function of radius

+ * saturate: saturation of beams' shape azimuthally

+ */

+ angle = CLIP(angle, 0.0, 360.0);

+ grayspot = CLIP(bg[pat].bg_gray, 1, (hh + hw));

+ freq = MAX((double)bg[pat].bg_freq, 0.0);

+ saturate = (double)bg[pat].bg_bsat * 0.1;

+ rotate = (double)bg[pat].bg_brot * 0.1;

+ gray = 0.0;

+ intensity = 0.0;

+ maxDist = (double)((hw*hw) + (hh*hh));

+ for (row = 0; row < rpng2_info.height; ++row) {

+ y = (int)(row - hh);

+ dest = (char *)bg_data + row*bg_rowbytes;

+ for (i = 0; i < rpng2_info.width; ++i) {

+ x = (int)(i - hw);

+ angle = (x == 0)? PI_2 : atan((double)y / (double)x);

+ gray = (double)MAX(ABS(y), ABS(x)) / grayspot;

+ gray = MIN(1.0, gray);

+ dist = (double)((x*x) + (y*y)) / maxDist;

+ intensity = cos((angle+(rotate*dist*PI)) * freq) *

+ gray * saturate;

+ intensity = (MAX(MIN(intensity,1.0),-1.0) + 1.0) * 0.5;

+ hue = (angle + PI) * INV_PI_360 + aoffset;

+ s = gray * ((double)(ABS(x)+ABS(y)) / (double)(hw + hh));

+ s = MIN(MAX(s,0.0), 1.0);

+ v = MIN(MAX(intensity,0.0), 1.0);

+ if (s == 0.0) {

+ ch = (uch)(v * 255.0);

+ *dest++ = ch;

+ } else {

+ if ((hue < 0.0) || (hue >= 360.0))

+ hue -= (((int)(hue / 360.0)) * 360.0);

+ hue /= 60.0;

+ ii = (int)hue;

+ f = hue - (double)ii;

+ p = (1.0 - s) * v;

+ q = (1.0 - (s * f)) * v;

+ t = (1.0 - (s * (1.0 - f))) * v;

+ if (ii == 0) { red = v; green = t; blue = p; }

+ else if (ii == 1) { red = q; green = v; blue = p; }

+ else if (ii == 2) { red = p; green = v; blue = t; }

+ else if (ii == 3) { red = p; green = q; blue = v; }

+ else if (ii == 4) { red = t; green = p; blue = v; }

+ else if (ii == 5) { red = v; green = p; blue = q; }

+ *dest++ = (uch)(red * 255.0);

+ *dest++ = (uch)(green * 255.0);

+ *dest++ = (uch)(blue * 255.0);

+ }

+ fprintf(stderr, "done.\n");

+ fflush(stderr);

+ }

+/*---------------------------------------------------------------------------

+ Blast background image to display buffer before beginning PNG decode.

+ ---------------------------------------------------------------------------*/

+ if (depth == 24 || depth == 32) {

+ ulg red, green, blue;

+ int bpp = ximage->bits_per_pixel;

+ for (row = 0; row < rpng2_info.height; ++row) {

+ src = bg_data + row*bg_rowbytes;

+ dest = ximage->data + row*ximage_rowbytes;

+ if (bpp == 32) { /* slightly optimized version */

+ for (i = rpng2_info.width; i > 0; --i) {

+ red = *src++;

+ green = *src++;

+ blue = *src++;

+ pixel = (red << RShift) |

+ (green << GShift) |

+ (blue << BShift);

+ /* recall that we set ximage->byte_order = MSBFirst above */

+ *dest++ = (char)((pixel >> 24) & 0xff);

+ *dest++ = (char)((pixel >> 16) & 0xff);

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ }

+ } else {

+ for (i = rpng2_info.width; i > 0; --i) {

+ red = *src++;

+ green = *src++;

+ blue = *src++;

+ pixel = (red << RShift) |

+ (green << GShift) |

+ (blue << BShift);

+ /* recall that we set ximage->byte_order = MSBFirst above */

+ /* GRR BUG? this assumes bpp == 24 & bits are packed low */

+ /* (probably need to use RShift, RMask, etc.) */

+ *dest++ = (char)((pixel >> 16) & 0xff);

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ }

+ } else if (depth == 16) {

+ ush red, green, blue;

+ for (row = 0; row < rpng2_info.height; ++row) {

+ src = bg_data + row*bg_rowbytes;

+ dest = ximage->data + row*ximage_rowbytes;

+ for (i = rpng2_info.width; i > 0; --i) {

+ red = ((ush)(*src) << 8); ++src;

+ green = ((ush)(*src) << 8); ++src;

+ blue = ((ush)(*src) << 8); ++src;

+ pixel = ((red >> RShift) & RMask) |

+ ((green >> GShift) & GMask) |

+ ((blue >> BShift) & BMask);

+ /* recall that we set ximage->byte_order = MSBFirst above */

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ }

+ } else /* depth == 8 */ {

+ /* GRR: add 8-bit support */

+ }

+ XPutImage(display, window, gc, ximage, 0, 0, 0, 0, rpng2_info.width,

+ rpng2_info.height);

+ return 0;

+} /* end function rpng2_x_load_bg_image() */

+static void rpng2_x_display_row(ulg row)

+ uch bg_red = rpng2_info.bg_red;

+ uch bg_green = rpng2_info.bg_green;

+ uch bg_blue = rpng2_info.bg_blue;

+ uch *src, *src2=NULL;

+ char *dest;

+ uch r, g, b, a;

+ int ximage_rowbytes = ximage->bytes_per_line;

+ ulg i, pixel;

+ static int rows=0, prevpass=(-1);

+ static ulg firstrow;

+/*---------------------------------------------------------------------------

+ rows and firstrow simply track how many rows (and which ones) have not

+ yet been displayed; alternatively, we could call XPutImage() for every

+ row and not bother with the records-keeping.

+ ---------------------------------------------------------------------------*/

+ Trace((stderr, "beginning rpng2_x_display_row()\n"))

+ if (rpng2_info.pass != prevpass) {

+ if (pause_after_pass && rpng2_info.pass > 0) {

+ XEvent e;

+ KeySym k;

+ fprintf(stderr,

+ "%s: end of pass %d of 7; click in image window to continue\n",

+ PROGNAME, prevpass + 1);

+ do

+ XNextEvent(display, &e);

+ while (!QUIT(e,k));

+ }

+ fprintf(stderr, "%s: pass %d of 7\r", PROGNAME, rpng2_info.pass + 1);

+ fflush(stderr);

+ prevpass = rpng2_info.pass;

+ }

+ if (rows == 0)

+ firstrow = row; /* first row that is not yet displayed */

+ ++rows; /* count of rows received but not yet displayed */

+/*---------------------------------------------------------------------------

+ Aside from the use of the rpng2_info struct, the lack of an outer loop

+ (over rows) and moving the XPutImage() call outside the "if (depth)"

+ tests, this routine is identical to rpng_x_display_image() in the non-

+ progressive version of the program.

+ ---------------------------------------------------------------------------*/

+ if (depth == 24 || depth == 32) {

+ ulg red, green, blue;

+ int bpp = ximage->bits_per_pixel;

+ src = rpng2_info.image_data + row*rpng2_info.rowbytes;

+ if (bg_image)

+ src2 = bg_data + row*bg_rowbytes;

+ dest = ximage->data + row*ximage_rowbytes;

+ if (rpng2_info.channels == 3) {

+ for (i = rpng2_info.width; i > 0; --i) {

+ red = *src++;

+ green = *src++;

+ blue = *src++;

+ pixel = (red << RShift) |

+ (green << GShift) |

+ (blue << BShift);

+ /* recall that we set ximage->byte_order = MSBFirst above */

+ if (bpp == 32) {

+ *dest++ = (char)((pixel >> 24) & 0xff);

+ *dest++ = (char)((pixel >> 16) & 0xff);

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ } else {

+ /* GRR BUG? this assumes bpp == 24 & bits are packed low */

+ /* (probably need to use RShift, RMask, etc.) */

+ *dest++ = (char)((pixel >> 16) & 0xff);

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ }

+ } else /* if (rpng2_info.channels == 4) */ {

+ for (i = rpng2_info.width; i > 0; --i) {

+ r = *src++;

+ g = *src++;

+ b = *src++;

+ a = *src++;

+ if (bg_image) {

+ bg_red = *src2++;

+ bg_green = *src2++;

+ bg_blue = *src2++;

+ }

+ if (a == 255) {

+ red = r;

+ green = g;

+ blue = b;

+ } else if (a == 0) {

+ red = bg_red;

+ green = bg_green;

+ blue = bg_blue;

+ } else {

+ /* this macro (from png.h) composites the foreground

+ * and background values and puts the result into the

+ * first argument */

+ alpha_composite(red, r, a, bg_red);

+ alpha_composite(green, g, a, bg_green);

+ alpha_composite(blue, b, a, bg_blue);

+ }

+ pixel = (red << RShift) |

+ (green << GShift) |

+ (blue << BShift);

+ /* recall that we set ximage->byte_order = MSBFirst above */

+ if (bpp == 32) {

+ *dest++ = (char)((pixel >> 24) & 0xff);

+ *dest++ = (char)((pixel >> 16) & 0xff);

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ } else {

+ /* GRR BUG? this assumes bpp == 24 & bits are packed low */

+ /* (probably need to use RShift, RMask, etc.) */

+ *dest++ = (char)((pixel >> 16) & 0xff);

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ }

+ } else if (depth == 16) {

+ ush red, green, blue;

+ src = rpng2_info.row_pointers[row];

+ if (bg_image)

+ src2 = bg_data + row*bg_rowbytes;

+ dest = ximage->data + row*ximage_rowbytes;

+ if (rpng2_info.channels == 3) {

+ for (i = rpng2_info.width; i > 0; --i) {

+ red = ((ush)(*src) << 8);

+ ++src;

+ green = ((ush)(*src) << 8);

+ ++src;

+ blue = ((ush)(*src) << 8);

+ ++src;

+ pixel = ((red >> RShift) & RMask) |

+ ((green >> GShift) & GMask) |

+ ((blue >> BShift) & BMask);

+ /* recall that we set ximage->byte_order = MSBFirst above */

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ }

+ } else /* if (rpng2_info.channels == 4) */ {

+ for (i = rpng2_info.width; i > 0; --i) {

+ r = *src++;

+ g = *src++;

+ b = *src++;

+ a = *src++;

+ if (bg_image) {

+ bg_red = *src2++;

+ bg_green = *src2++;

+ bg_blue = *src2++;

+ }

+ if (a == 255) {

+ red = ((ush)r << 8);

+ green = ((ush)g << 8);

+ blue = ((ush)b << 8);

+ } else if (a == 0) {

+ red = ((ush)bg_red << 8);

+ green = ((ush)bg_green << 8);

+ blue = ((ush)bg_blue << 8);

+ } else {

+ /* this macro (from png.h) composites the foreground

+ * and background values and puts the result back into

+ * the first argument (== fg byte here: safe) */

+ alpha_composite(r, r, a, bg_red);

+ alpha_composite(g, g, a, bg_green);

+ alpha_composite(b, b, a, bg_blue);

+ red = ((ush)r << 8);

+ green = ((ush)g << 8);

+ blue = ((ush)b << 8);

+ }

+ pixel = ((red >> RShift) & RMask) |

+ ((green >> GShift) & GMask) |

+ ((blue >> BShift) & BMask);

+ /* recall that we set ximage->byte_order = MSBFirst above */

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ }

+ } else /* depth == 8 */ {

+ /* GRR: add 8-bit support */

+ }

+/*---------------------------------------------------------------------------

+ Display after every 16 rows or when on one of last two rows. (Region

+ may include previously displayed lines due to interlacing--i.e., not

+ contiguous. Also, second-to-last row is final one in interlaced images

+ with odd number of rows.) For demos, flush (and delay) after every 16th

+ row so "sparse" passes don't go twice as fast.

+ ---------------------------------------------------------------------------*/

+ if (demo_timing && (row - firstrow >= 16 || row >= rpng2_info.height-2)) {

+ XPutImage(display, window, gc, ximage, 0, (int)firstrow, 0,

+ (int)firstrow, rpng2_info.width, row - firstrow + 1);

+ XFlush(display);

+ rows = 0;

+ usleep(usleep_duration);

+ } else

+ if (!demo_timing && ((rows & 0xf) == 0 || row >= rpng2_info.height-2)) {

+ XPutImage(display, window, gc, ximage, 0, (int)firstrow, 0,

+ (int)firstrow, rpng2_info.width, row - firstrow + 1);

+ XFlush(display);

+ rows = 0;

+ }

+static void rpng2_x_finish_display(void)

+ Trace((stderr, "beginning rpng2_x_finish_display()\n"))

+ /* last row has already been displayed by rpng2_x_display_row(), so we

+ * have nothing to do here except set a flag and let the user know that

+ * the image is done */

+ rpng2_info.state = kDone;

+ printf(

+ "Done. Press Q, Esc or mouse button 1 (within image window) to quit.\n");

+ fflush(stdout);

+static void rpng2_x_redisplay_image(ulg startcol, ulg startrow,

+ ulg width, ulg height)

+ uch bg_red = rpng2_info.bg_red;

+ uch bg_green = rpng2_info.bg_green;

+ uch bg_blue = rpng2_info.bg_blue;

+ uch *src, *src2=NULL;

+ char *dest;

+ uch r, g, b, a;

+ ulg i, row, lastrow = 0;

+ ulg pixel;

+ int ximage_rowbytes = ximage->bytes_per_line;

+ Trace((stderr, "beginning display loop (image_channels == %d)\n",

+ rpng2_info.channels))

+ Trace((stderr, " (width = %ld, rowbytes = %d, ximage_rowbytes = %d)\n",

+ rpng2_info.width, rpng2_info.rowbytes, ximage_rowbytes))

+ Trace((stderr, " (bpp = %d)\n", ximage->bits_per_pixel))

+ Trace((stderr, " (byte_order = %s)\n", ximage->byte_order == MSBFirst?

+ "MSBFirst" : (ximage->byte_order == LSBFirst? "LSBFirst" : "unknown")))

+/*---------------------------------------------------------------------------

+ Aside from the use of the rpng2_info struct and of src2 (for background

+ image), this routine is identical to rpng_x_display_image() in the non-

+ progressive version of the program--for the simple reason that redisplay

+ of the image against a new background happens after the image is fully

+ decoded and therefore is, by definition, non-progressive.

+ ---------------------------------------------------------------------------*/

+ if (depth == 24 || depth == 32) {

+ ulg red, green, blue;

+ int bpp = ximage->bits_per_pixel;

+ for (lastrow = row = startrow; row < startrow+height; ++row) {

+ src = rpng2_info.image_data + row*rpng2_info.rowbytes;

+ if (bg_image)

+ src2 = bg_data + row*bg_rowbytes;

+ dest = ximage->data + row*ximage_rowbytes;

+ if (rpng2_info.channels == 3) {

+ for (i = rpng2_info.width; i > 0; --i) {

+ red = *src++;

+ green = *src++;

+ blue = *src++;

+#ifdef NO_24BIT_MASKS

+ pixel = (red << RShift) |

+ (green << GShift) |

+ (blue << BShift);

+ /* recall that we set ximage->byte_order = MSBFirst above */

+ if (bpp == 32) {

+ *dest++ = (char)((pixel >> 24) & 0xff);

+ *dest++ = (char)((pixel >> 16) & 0xff);

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ } else {

+ /* this assumes bpp == 24 & bits are packed low */

+ /* (probably need to use RShift, RMask, etc.) */

+ *dest++ = (char)((pixel >> 16) & 0xff);

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ }

+#else

+ red = (RShift < 0)? red << (-RShift) : red >> RShift;

+ green = (GShift < 0)? green << (-GShift) : green >> GShift;

+ blue = (BShift < 0)? blue << (-BShift) : blue >> BShift;

+ pixel = (red & RMask) | (green & GMask) | (blue & BMask);

+ /* recall that we set ximage->byte_order = MSBFirst above */

+ if (bpp == 32) {

+ *dest++ = (char)((pixel >> 24) & 0xff);

+ *dest++ = (char)((pixel >> 16) & 0xff);

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ } else {

+ /* GRR BUG */

+ /* this assumes bpp == 24 & bits are packed low */

+ /* (probably need to use RShift/RMask/etc. here, too) */

+ *dest++ = (char)((pixel >> 16) & 0xff);

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ }

+#endif

+ }

+ } else /* if (rpng2_info.channels == 4) */ {

+ for (i = rpng2_info.width; i > 0; --i) {

+ r = *src++;

+ g = *src++;

+ b = *src++;

+ a = *src++;

+ if (bg_image) {

+ bg_red = *src2++;

+ bg_green = *src2++;

+ bg_blue = *src2++;

+ }

+ if (a == 255) {

+ red = r;

+ green = g;

+ blue = b;

+ } else if (a == 0) {

+ red = bg_red;

+ green = bg_green;

+ blue = bg_blue;

+ } else {

+ /* this macro (from png.h) composites the foreground

+ * and background values and puts the result into the

+ * first argument */

+ alpha_composite(red, r, a, bg_red);

+ alpha_composite(green, g, a, bg_green);

+ alpha_composite(blue, b, a, bg_blue);

+ }

+#ifdef NO_24BIT_MASKS

+ pixel = (red << RShift) |

+ (green << GShift) |

+ (blue << BShift);

+ /* recall that we set ximage->byte_order = MSBFirst above */

+ if (bpp == 32) {

+ *dest++ = (char)((pixel >> 24) & 0xff);

+ *dest++ = (char)((pixel >> 16) & 0xff);

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ } else {

+ /* this assumes bpp == 24 & bits are packed low */

+ /* (probably need to use RShift, RMask, etc.) */

+ *dest++ = (char)((pixel >> 16) & 0xff);

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ }

+#else

+ red = (RShift < 0)? red << (-RShift) : red >> RShift;

+ green = (GShift < 0)? green << (-GShift) : green >> GShift;

+ blue = (BShift < 0)? blue << (-BShift) : blue >> BShift;

+ pixel = (red & RMask) | (green & GMask) | (blue & BMask);

+ /* recall that we set ximage->byte_order = MSBFirst above */

+ if (bpp == 32) {

+ *dest++ = (char)((pixel >> 24) & 0xff);

+ *dest++ = (char)((pixel >> 16) & 0xff);

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ } else {

+ /* GRR BUG */

+ /* this assumes bpp == 24 & bits are packed low */

+ /* (probably need to use RShift/RMask/etc. here, too) */

+ *dest++ = (char)((pixel >> 16) & 0xff);

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ }

+#endif

+ }

+ /* display after every 16 lines */

+ if (((row+1) & 0xf) == 0) {

+ XPutImage(display, window, gc, ximage, 0, (int)lastrow, 0,

+ (int)lastrow, rpng2_info.width, 16);

+ XFlush(display);

+ lastrow = row + 1;

+ }

+ } else if (depth == 16) {

+ ush red, green, blue;

+ for (lastrow = row = startrow; row < startrow+height; ++row) {

+ src = rpng2_info.row_pointers[row];

+ if (bg_image)

+ src2 = bg_data + row*bg_rowbytes;

+ dest = ximage->data + row*ximage_rowbytes;

+ if (rpng2_info.channels == 3) {

+ for (i = rpng2_info.width; i > 0; --i) {

+ red = ((ush)(*src) << 8);

+ ++src;

+ green = ((ush)(*src) << 8);

+ ++src;

+ blue = ((ush)(*src) << 8);

+ ++src;

+ pixel = ((red >> RShift) & RMask) |

+ ((green >> GShift) & GMask) |

+ ((blue >> BShift) & BMask);

+ /* recall that we set ximage->byte_order = MSBFirst above */

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ }

+ } else /* if (rpng2_info.channels == 4) */ {

+ for (i = rpng2_info.width; i > 0; --i) {

+ r = *src++;

+ g = *src++;

+ b = *src++;

+ a = *src++;

+ if (bg_image) {

+ bg_red = *src2++;

+ bg_green = *src2++;

+ bg_blue = *src2++;

+ }

+ if (a == 255) {

+ red = ((ush)r << 8);

+ green = ((ush)g << 8);

+ blue = ((ush)b << 8);

+ } else if (a == 0) {

+ red = ((ush)bg_red << 8);

+ green = ((ush)bg_green << 8);

+ blue = ((ush)bg_blue << 8);

+ } else {

+ /* this macro (from png.h) composites the foreground

+ * and background values and puts the result back into

+ * the first argument (== fg byte here: safe) */

+ alpha_composite(r, r, a, bg_red);

+ alpha_composite(g, g, a, bg_green);

+ alpha_composite(b, b, a, bg_blue);

+ red = ((ush)r << 8);

+ green = ((ush)g << 8);

+ blue = ((ush)b << 8);

+ }

+ pixel = ((red >> RShift) & RMask) |

+ ((green >> GShift) & GMask) |

+ ((blue >> BShift) & BMask);

+ /* recall that we set ximage->byte_order = MSBFirst above */

+ *dest++ = (char)((pixel >> 8) & 0xff);

+ *dest++ = (char)( pixel & 0xff);

+ }

+ /* display after every 16 lines */

+ if (((row+1) & 0xf) == 0) {

+ XPutImage(display, window, gc, ximage, 0, (int)lastrow, 0,

+ (int)lastrow, rpng2_info.width, 16);

+ XFlush(display);

+ lastrow = row + 1;

+ }

+ } else /* depth == 8 */ {

+ /* GRR: add 8-bit support */

+ }

+ Trace((stderr, "calling final XPutImage()\n"))

+ if (lastrow < startrow+height) {

+ XPutImage(display, window, gc, ximage, 0, (int)lastrow, 0,

+ (int)lastrow, rpng2_info.width, rpng2_info.height-lastrow);

+ XFlush(display);

+ }

+ (void)startcol;

+ (void)width;

+} /* end function rpng2_x_redisplay_image() */

+#ifdef FEATURE_LOOP

+static void rpng2_x_reload_bg_image(void)

+ char *dest;

+ uch r1, r2, g1, g2, b1, b2;

+ uch r1_inv, r2_inv, g1_inv, g2_inv, b1_inv, b2_inv;

+ int k, hmax, max;

+ int xidx, yidx, yidx_max;

+ int even_odd_vert, even_odd_horiz, even_odd;

+ int invert_gradient2 = (bg[pat].type & 0x08);

+ int invert_column;

+ ulg i, row;

+ bgscale = (pat == 0)? 8 : bgscale_default;

+ yidx_max = bgscale - 1;

+/*---------------------------------------------------------------------------

+ Vertical gradients (ramps) in NxN squares, alternating direction and

+ colors (N == bgscale).

+ ---------------------------------------------------------------------------*/

+ if ((bg[pat].type & 0x07) == 0) {

+ uch r1_min = rgb[bg[pat].rgb1_min].r;

+ uch g1_min = rgb[bg[pat].rgb1_min].g;

+ uch b1_min = rgb[bg[pat].rgb1_min].b;

+ uch r2_min = rgb[bg[pat].rgb2_min].r;

+ uch g2_min = rgb[bg[pat].rgb2_min].g;

+ uch b2_min = rgb[bg[pat].rgb2_min].b;

+ int r1_diff = rgb[bg[pat].rgb1_max].r - r1_min;

+ int g1_diff = rgb[bg[pat].rgb1_max].g - g1_min;

+ int b1_diff = rgb[bg[pat].rgb1_max].b - b1_min;

+ int r2_diff = rgb[bg[pat].rgb2_max].r - r2_min;

+ int g2_diff = rgb[bg[pat].rgb2_max].g - g2_min;

+ int b2_diff = rgb[bg[pat].rgb2_max].b - b2_min;

+ for (row = 0; row < rpng2_info.height; ++row) {

+ yidx = (int)(row % bgscale);

+ even_odd_vert = (int)((row / bgscale) & 1);

+ r1 = r1_min + (r1_diff * yidx) / yidx_max;

+ g1 = g1_min + (g1_diff * yidx) / yidx_max;

+ b1 = b1_min + (b1_diff * yidx) / yidx_max;

+ r1_inv = r1_min + (r1_diff * (yidx_max-yidx)) / yidx_max;

+ g1_inv = g1_min + (g1_diff * (yidx_max-yidx)) / yidx_max;

+ b1_inv = b1_min + (b1_diff * (yidx_max-yidx)) / yidx_max;

+ r2 = r2_min + (r2_diff * yidx) / yidx_max;

+ g2 = g2_min + (g2_diff * yidx) / yidx_max;

+ b2 = b2_min + (b2_diff * yidx) / yidx_max;

+ r2_inv = r2_min + (r2_diff * (yidx_max-yidx)) / yidx_max;

+ g2_inv = g2_min + (g2_diff * (yidx_max-yidx)) / yidx_max;

+ b2_inv = b2_min + (b2_diff * (yidx_max-yidx)) / yidx_max;

+ dest = (char *)bg_data + row*bg_rowbytes;

+ for (i = 0; i < rpng2_info.width; ++i) {

+ even_odd_horiz = (int)((i / bgscale) & 1);

+ even_odd = even_odd_vert ^ even_odd_horiz;

+ invert_column =

+ (even_odd_horiz && (bg[pat].type & 0x10));

+ if (even_odd == 0) { /* gradient #1 */

+ if (invert_column) {

+ *dest++ = r1_inv;

+ *dest++ = g1_inv;

+ *dest++ = b1_inv;

+ } else {

+ *dest++ = r1;

+ *dest++ = g1;

+ *dest++ = b1;

+ }

+ } else { /* gradient #2 */

+ if ((invert_column && invert_gradient2) ||

+ (!invert_column && !invert_gradient2))

+ {

+ *dest++ = r2; /* not inverted or */

+ *dest++ = g2; /* doubly inverted */

+ *dest++ = b2;

+ } else {

+ *dest++ = r2_inv;

+ *dest++ = g2_inv; /* singly inverted */

+ *dest++ = b2_inv;

+ }

+/*---------------------------------------------------------------------------

+ Soft gradient-diamonds with scale = bgscale. Code contributed by Adam

+ M. Costello.

+ ---------------------------------------------------------------------------*/

+ } else if ((bg[pat].type & 0x07) == 1) {

+ hmax = (bgscale-1)/2; /* half the max weight of a color */

+ max = 2*hmax; /* the max weight of a color */

+ r1 = rgb[bg[pat].rgb1_max].r;

+ g1 = rgb[bg[pat].rgb1_max].g;

+ b1 = rgb[bg[pat].rgb1_max].b;

+ r2 = rgb[bg[pat].rgb2_max].r;

+ g2 = rgb[bg[pat].rgb2_max].g;

+ b2 = rgb[bg[pat].rgb2_max].b;

+ for (row = 0; row < rpng2_info.height; ++row) {

+ yidx = (int)(row % bgscale);

+ if (yidx > hmax)

+ yidx = bgscale-1 - yidx;

+ dest = (char *)bg_data + row*bg_rowbytes;

+ for (i = 0; i < rpng2_info.width; ++i) {

+ xidx = (int)(i % bgscale);

+ if (xidx > hmax)

+ xidx = bgscale-1 - xidx;

+ k = xidx + yidx;

+ *dest++ = (k*r1 + (max-k)*r2) / max;

+ *dest++ = (k*g1 + (max-k)*g2) / max;

+ *dest++ = (k*b1 + (max-k)*b2) / max;

+ }

+/*---------------------------------------------------------------------------

+ Radial "starburst" with azimuthal sinusoids; [eventually number of sinu-

+ soids will equal bgscale?]. This one is slow but very cool. Code con-

+ tributed by Pieter S. van der Meulen (originally in Smalltalk).

+ ---------------------------------------------------------------------------*/

+ } else if ((bg[pat].type & 0x07) == 2) {

+ uch ch;

+ int ii, x, y, hw, hh, grayspot;

+ double freq, rotate, saturate, gray, intensity;

+ double angle=0.0, aoffset=0.0, maxDist, dist;

+ double red=0.0, green=0.0, blue=0.0, hue, s, v, f, p, q, t;

+ hh = (int)(rpng2_info.height / 2);

+ hw = (int)(rpng2_info.width / 2);

+ /* variables for radial waves:

+ * aoffset: number of degrees to rotate hue [CURRENTLY NOT USED]

+ * freq: number of color beams originating from the center

+ * grayspot: size of the graying center area (anti-alias)

+ * rotate: rotation of the beams as a function of radius

+ * saturate: saturation of beams' shape azimuthally

+ */

+ angle = CLIP(angle, 0.0, 360.0);

+ grayspot = CLIP(bg[pat].bg_gray, 1, (hh + hw));

+ freq = MAX((double)bg[pat].bg_freq, 0.0);

+ saturate = (double)bg[pat].bg_bsat * 0.1;

+ rotate = (double)bg[pat].bg_brot * 0.1;

+ gray = 0.0;

+ intensity = 0.0;

+ maxDist = (double)((hw*hw) + (hh*hh));

+ for (row = 0; row < rpng2_info.height; ++row) {

+ y = (int)(row - hh);

+ dest = (char *)bg_data + row*bg_rowbytes;

+ for (i = 0; i < rpng2_info.width; ++i) {

+ x = (int)(i - hw);

+ angle = (x == 0)? PI_2 : atan((double)y / (double)x);

+ gray = (double)MAX(ABS(y), ABS(x)) / grayspot;

+ gray = MIN(1.0, gray);

+ dist = (double)((x*x) + (y*y)) / maxDist;

+ intensity = cos((angle+(rotate*dist*PI)) * freq) *

+ gray * saturate;

+ intensity = (MAX(MIN(intensity,1.0),-1.0) + 1.0) * 0.5;

+ hue = (angle + PI) * INV_PI_360 + aoffset;

+ s = gray * ((double)(ABS(x)+ABS(y)) / (double)(hw + hh));

+ s = MIN(MAX(s,0.0), 1.0);

+ v = MIN(MAX(intensity,0.0), 1.0);

+ if (s == 0.0) {

+ ch = (uch)(v * 255.0);

+ *dest++ = ch;

+ } else {

+ if ((hue < 0.0) || (hue >= 360.0))

+ hue -= (((int)(hue / 360.0)) * 360.0);

+ hue /= 60.0;

+ ii = (int)hue;

+ f = hue - (double)ii;

+ p = (1.0 - s) * v;

+ q = (1.0 - (s * f)) * v;

+ t = (1.0 - (s * (1.0 - f))) * v;

+ if (ii == 0) { red = v; green = t; blue = p; }

+ else if (ii == 1) { red = q; green = v; blue = p; }

+ else if (ii == 2) { red = p; green = v; blue = t; }

+ else if (ii == 3) { red = p; green = q; blue = v; }

+ else if (ii == 4) { red = t; green = p; blue = v; }

+ else if (ii == 5) { red = v; green = p; blue = q; }

+ *dest++ = (uch)(red * 255.0);

+ *dest++ = (uch)(green * 255.0);

+ *dest++ = (uch)(blue * 255.0);

+ }

+} /* end function rpng2_x_reload_bg_image() */

+static int is_number(char *p)

+ while (*p) {

+ if (!isdigit(*p))

+ return FALSE;

+ ++p;

+ }

+ return TRUE;

+#endif /* FEATURE_LOOP */

+static void rpng2_x_cleanup(void)

+ if (bg_image && bg_data) {

+ free(bg_data);

+ bg_data = NULL;

+ }

+ if (rpng2_info.image_data) {

+ free(rpng2_info.image_data);

+ rpng2_info.image_data = NULL;

+ }

+ if (rpng2_info.row_pointers) {

+ free(rpng2_info.row_pointers);

+ rpng2_info.row_pointers = NULL;

+ }

+ if (ximage) {

+ if (ximage->data) {

+ free(ximage->data); /* we allocated it, so we free it */

+ ximage->data = (char *)NULL; /* instead of XDestroyImage() */

+ }

+ XDestroyImage(ximage);

+ ximage = NULL;

+ }

+ if (have_gc)

+ XFreeGC(display, gc);

+ if (have_window)

+ XDestroyWindow(display, window);

+ if (have_colormap)

+ XFreeColormap(display, colormap);

+ if (have_nondefault_visual)

+ XFree(visual_list);

+static int rpng2_x_msb(ulg u32val)

+ int i;

+ for (i = 31; i >= 0; --i) {

+ if (u32val & 0x80000000L)

+ break;

+ u32val <<= 1;

+ }

+ return i;

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