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bggen.c
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bggen.c
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/*
* bggen.c - a program that generates backgrounds for use with XV
*
* by John Bradley
*
* Rev: 8/31/90 - initial version
* Rev: 10/17/90 - added '-w' option
* Rev: 7/15/93 - added Xlib code (by PeterVG ([email protected]))
* Rev: 7/7/94 - added '-G' option
*/
#include <X11/Xlib.h>
#include <X11/Xos.h>
#include <X11/Xutil.h>
#include <stdio.h>
#include <stdlib.h>
#include <ctype.h>
#include <math.h>
#ifndef M_PI
# define M_PI 3.1415926535897932385
#endif
#ifndef M_PI_2
# define M_PI_2 1.5707963267948966192
#endif
#define DEFSIZE 1024
#define MAXCOLS 128
/* some VMS thing... */
#ifdef vax11c
#include <ctype.h>
#endif
#undef PARM
#ifdef __STDC__
# define PARM(a) a
#else
# define PARM(a) ()
#endif
#define RANGE(a,b,c) { if (a < b) a = b; if (a > c) a = c; }
typedef unsigned char byte;
struct color { int r,g,b;
int y;
} colors[MAXCOLS], *cur, *nex;
int numcols;
int bmask[8] = { 0x80, 0xc0, 0xe0, 0xf0, 0xf8, 0xfc, 0xfe, 0xff };
Display *theDisp;
int main PARM((int, char **));
void usage PARM((void));
void dorot PARM((byte *, int, int, int));
double computeDist PARM((int, int, int, int, int));
void writePPM PARM((byte *, int, int, int));
/*************************************/
int main(argc,argv)
int argc;
char **argv;
{
byte *pic24, *rpic24, *pp, *sp;
int i,j,cnt,x,y;
int high = DEFSIZE;
int wide = 1;
int bits = 8;
int rptwide, rpthigh;
int r, g, b, rot = 0;
int wset = 0, hset = 0, doascii=0;
char *dname = NULL;
char *geom = NULL;
char *rptgeom = NULL;
#ifdef VMS
getredirection(&argc, &argv);
#endif
for (i=1; i<argc; i++) {
if (!strncmp(argv[i],"-d",(size_t) 2)) { /* -d disp */
i++; if (i<argc) dname = argv[i];
}
}
if ((theDisp = XOpenDisplay(dname)) == NULL) {
fprintf(stderr,"bggen: Warning - can't open display, screen %s",
"size unknown, color names not accepted.\n");
}
cnt = 0; numcols = 0;
/* parse cmd-line args */
for (i=1; i<argc; i++) {
if (!strcmp(argv[i],"-h")) { /* -h high */
i++; if (i<argc) high = atoi(argv[i]);
hset++;
}
else if (!strcmp(argv[i],"-w")) { /* -w wide */
i++; if (i<argc) wide = atoi(argv[i]);
wset++;
}
else if (!strcmp(argv[i],"-b")) { /* -b bits */
i++; if (i<argc) bits = atoi(argv[i]);
}
else if (!strncmp(argv[i],"-g",(size_t) 2)) { /* -g geom */
i++; if (i<argc) geom = argv[i];
}
else if (!strncmp(argv[i],"-d",(size_t) 2)) { /* -d disp */
i++; if (i<argc) dname = argv[i];
}
else if (!strcmp(argv[i],"-G")) { /* -G rptgeom */
i++; if (i<argc) rptgeom = argv[i];
}
else if (!strncmp(argv[i],"-a",(size_t) 2)) doascii++; /* -a */
else if (!strcmp(argv[i],"-r")) { /* -r rot */
i++; if (i<argc) rot = atoi(argv[i]);
}
else if (argv[i][0]=='-') usage(); /* any other '-' option is unknown */
else if (isdigit(argv[i][0])) {
switch (cnt) {
case 0: colors[numcols].r = atoi(argv[i]); break;
case 1: colors[numcols].g = atoi(argv[i]); break;
case 2: colors[numcols].b = atoi(argv[i]); break;
}
cnt++;
if (cnt==3) {
if (numcols<MAXCOLS) numcols++;
cnt = 0;
}
}
else { /* color name */
if (!theDisp) {
fprintf(stderr,"%s: '%s' - no color names accepted\n",argv[0],argv[i]);
}
else {
int theScreen;
Colormap theCmap;
XColor ecdef, sdef;
theScreen = DefaultScreen(theDisp);
theCmap = DefaultColormap(theDisp, theScreen);
if (XLookupColor(theDisp, theCmap, argv[i], &ecdef, &sdef)) {
colors[numcols].r = (ecdef.red >> 8) & 0xff;
colors[numcols].g = (ecdef.green >> 8) & 0xff;
colors[numcols].b = (ecdef.blue >> 8) & 0xff;
if (numcols<MAXCOLS) numcols++;
cnt = 0;
}
else {
fprintf(stderr,"%s: color '%s' unknown. skipped.\n",
argv[0], argv[i]);
}
}
}
}
/* print error/usage message, if appropriate */
if (cnt || numcols==0 || high<1 || wide<1 || bits<1 || bits>8) usage();
if (geom) {
int x,y; unsigned int w,h;
i = XParseGeometry(geom, &x, &y, &w, &h);
if (i&WidthValue) { wset++; wide = (int) w; }
if (i&HeightValue) { hset++; high = (int) h; }
}
/* attempt to connect to X server and get screen dimensions */
if (theDisp) {
i = DefaultScreen(theDisp);
if (!wset) wide = DisplayWidth(theDisp, i);
if (!hset) high = DisplayHeight(theDisp, i);
}
/* normalize 'rot' */
while (rot< 0) rot += 360;
while (rot>=360) rot -= 360;
rptwide = wide; rpthigh = high;
if (rptgeom) {
int x,y; unsigned int w,h;
i = XParseGeometry(rptgeom, &x, &y, &w, &h);
if (i&WidthValue) rptwide = (int) w;
if (i&HeightValue) rpthigh = (int) h;
RANGE(rptwide, 1, wide);
RANGE(rpthigh, 1, high);
}
rpic24 = (byte *) malloc(rptwide * rpthigh * 3 * sizeof(byte));
if (rptwide != wide || rpthigh != high)
pic24 = (byte *) malloc(wide * high * 3 * sizeof(byte));
else pic24 = rpic24;
if (!pic24 || !rpic24) {
fprintf(stderr,"%s: couldn't alloc space for %dx%d 24-bit image!\n",
argv[0], wide, high);
exit(1);
}
for (i=0, pp=pic24; i<wide*high*3; i++) *pp++ = 0;
/*** generate image ***/
if (numcols==1) { /* solid color: trivial case */
r = colors[0].r; g=colors[0].g; b=colors[0].b;
pp = pic24;
for (i=0; i<high; i++) {
for (j=0; j<wide; j++) {
*pp++ = (byte) r; *pp++ = (byte) g; *pp++ = (byte) b;
}
}
}
else if (rot==0) { /* un-rotated linear (vertical) gradient */
for (i=0; i<numcols; i++)
colors[i].y = ((rpthigh-1) * i) / (numcols-1);
cur = &colors[0]; nex = cur+1;
for (i=0; i<rpthigh; i++) {
pp = rpic24 + (i * rptwide * 3);
/* advance to next pair of colors if we're outside region */
while (nex->y < i) { cur++; nex++; }
r = cur->r + ((nex->r - cur->r) * (i - cur->y)) / (nex->y - cur->y);
g = cur->g + ((nex->g - cur->g) * (i - cur->y)) / (nex->y - cur->y);
b = cur->b + ((nex->b - cur->b) * (i - cur->y)) / (nex->y - cur->y);
r = r & bmask[bits-1];
g = g & bmask[bits-1];
b = b & bmask[bits-1];
for (j=0; j<rptwide; j++) {
*pp++ = (byte) r; *pp++ = (byte) g; *pp++ = (byte) b;
}
}
}
else dorot(rpic24, rptwide, rpthigh, rot);
/* do 'center-tiling' ala root window, if necessary */
if (rptwide != wide || rpthigh != high) {
int ax, ay;
ax = (wide - rptwide)/2; ay = (high - rpthigh)/2;
while (ax>0) ax = ax - rptwide;
while (ay>0) ay = ay - rpthigh;
pp = pic24;
for (i=0; i<high; i++) {
for (j=0; j<wide; j++, pp+=3) {
x = ((j-ax) % rptwide);
y = ((i-ay) % rpthigh);
sp = rpic24 + (y * rptwide + x) * 3;
pp[0] = *sp++; pp[1] = *sp++; pp[2] = *sp++;
}
}
}
writePPM(pic24, wide, high, doascii);
return 0;
}
static double theta, tant1, cost1, cost, sint;
static int distdebug;
/*************************************/
void usage()
{
fprintf(stderr,"usage: bggen [-h high] [-w wide] [-b bits] [-g geom]\n");
fprintf(stderr,"\t\t[-d disp] [-a] [-r rot] [-G rptgeom] \n");
fprintf(stderr,"\t\tr1 g1 b1 [r2 g2 b2 ...]\n\n");
exit(1);
}
/*************************************/
void dorot(pic, w, h, rot)
byte *pic;
int w, h, rot;
{
byte *pp;
double maxd, mind, del, d, rat, crat, cval;
int x, y, cx, cy, r,g,b, bc, nc1;
distdebug = 0;
cx = w/2; cy = h/2;
theta = (double) rot * M_PI / 180.0;
tant1 = tan(M_PI_2 - theta);
cost1 = cos(M_PI_2 - theta);
cost = cos(theta);
sint = sin(theta);
nc1 = numcols - 1;
/* compute max/min distances */
if (rot>0 && rot<90) {
mind = computeDist(0, 0, cx, cy, rot);
maxd = computeDist(w-1, h-1, cx, cy, rot);
}
else if (rot>=90 && rot<180) {
mind = computeDist(0, h-1, cx, cy, rot);
maxd = computeDist(w-1, 0, cx, cy, rot);
}
else if (rot>=180 && rot<270) {
mind = computeDist(w-1, h-1, cx, cy, rot);
maxd = computeDist(0, 0, cx, cy, rot);
}
else {
mind = computeDist(w-1, 0, cx, cy, rot);
maxd = computeDist(0, h-1, cx, cy, rot);
}
del = maxd - mind; /* maximum distance */
distdebug = 0;
for (y=0; y<h; y++) {
pp = pic + (y * w * 3);
for (x=0; x<w; x++) {
d = computeDist(x,y, cx,cy, rot);
rat = (d - mind) / del;
if (rat<0.0) rat = 0.0;
if (rat>1.0) rat = 1.0;
cval = rat * nc1;
bc = floor(cval);
crat = cval - bc;
if (bc < nc1) {
r = colors[bc].r + crat * (colors[bc+1].r - colors[bc].r);
g = colors[bc].g + crat * (colors[bc+1].g - colors[bc].g);
b = colors[bc].b + crat * (colors[bc+1].b - colors[bc].b);
}
else {
r = colors[nc1].r;
g = colors[nc1].g;
b = colors[nc1].b;
}
*pp++ = (byte) r; *pp++ = (byte) g; *pp++ = (byte) b;
}
}
}
double computeDist(x, y, cx, cy, rot)
int x,y,cx,cy,rot;
{
/* rot has to be in range 0-359 */
double x1, y1, x2, y2, x3, y3, d, d1, b;
if (rot == 0) return (double) (y - cy);
if (rot == 180) return (double) (cy - y);
/* x1,y1 = original point */
x1 = (double) x; y1 = (double) y;
/* x2,y2 = vertical projection onto a || line that runs through cx,cy */
x2 = x1;
y2 = cy - (cx-x2)*tant1;
d1 = y2 - y1; /* vertical distance between lines */
b = d1 * cost1;
/* x3,y3 = cx,cy projected perpendicularly onto line running throuh x1,y1 */
x3 = cx + b * cost;
y3 = cy - b * sint;
d = sqrt((x1-x3) * (x1-x3) + (y1-y3) * (y1-y3));
if ((rot<180 && x1<x3) || (rot>180 && x1>x3)) d = -d;
if (distdebug) {
fprintf(stderr,"Input: %d,%d (center=%d,%d), rot=%d\n", x,y,cx,cy,rot);
fprintf(stderr,"point2 = %f,%f point3 = %f,%f\nd1=%f b=%f d=%f\n\n",
x2,y2,x3,y3,d1,b,d);
}
return d;
}
/******************************/
void writePPM(pic, w, h, doascii)
byte *pic;
int w,h,doascii;
{
/* dumps a pic24 in PPM format to stdout */
int x,y;
printf("P%s %d %d 255\n", (doascii) ? "3" : "6", w, h);
for (y=0; y<h; y++) {
if (doascii) {
for (x=0; x<w; x++, pic+=3)
printf("%d %d %d\n", pic[0],pic[1],pic[2]);
}
else {
for (x=0; x<w; x++, pic+=3) {
putchar(pic[0]); putchar(pic[1]); putchar(pic[2]);
}
}
}
}