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xgrabsc
xgrabsc-2.41.patch
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File xgrabsc-2.41.patch of Package xgrabsc
Index: XGrabxm.res =================================================================== --- XGrabxm.res.orig +++ XGrabxm.res @@ -22,8 +22,8 @@ XGrab*.selectiontype.numColumns: 1 XGrab*.selectiontype.x: 5 XGrab*.click.labelString: Click +XGrab*.click.set: 1 XGrab*.stretch.labelString: Stretch -XGrab*.stretch.set: 1 XGrab*.key.labelString: Ctrl key XGrab*.root.labelString: Everything! @@ -85,7 +85,7 @@ XGrab*.xwd.labelString: X Window Dump XGrab*.ps.labelString: PostScript XGrab*.xpm3.labelString: XPM3 XGrab*.ppm.labelString: PPM -XGrab*.ps.set: 1 +XGrab*.ppm.set: 1 XGrab*.puzzle.labelString: Puzzle XGrab*.xwdxy.labelString: XWD-xy XGrab*.xpm.labelString: XPM1 Index: config.h =================================================================== --- config.h.orig +++ config.h @@ -75,11 +75,17 @@ * The inset sizes control the maximum size of the image on the page. * These are preset to leave at least a 0.5 inch border around the image. */ -#define PAPER_WIDTH 8.5 /* inches are assumed */ -#define PAPER_HEIGHT 11.0 -#define VERT_MARGIN 0.5 -#define HORIZ_MARGIN 0.5 +/* maddin, 5.9.96 */ +/* changed this to the european A4 norm */ +/* */ + +#define PAPER_WIDTH 8.0 /* inches are assumed */ +#define PAPER_HEIGHT 11.6 + +#define VERT_MARGIN 0.5 +#define HORIZ_MARGIN 0.5 + /* xgrabsc generates images by bunches of IMAGE_CODEWIDTH chars for the @@ -103,7 +109,7 @@ * and command are for the xgrab program, and the default pre and post * snapshot sleep times */ -#define DEFAULT_FILENAME screen1.dmp +#define DEFAULT_FILENAME screen1.ppm #define DEFAULT_COMMAND lpr #define DEFAULT_PRESLEEP 3 #define DEFAULT_POSTSLEEP 0 Index: convert.c =================================================================== --- convert.c.orig +++ convert.c @@ -105,6 +105,7 @@ pixmap2bitmap(image) image->used[whitep] = 1; image->used[blackp] = 1; image->numcells = 2; + return 0; } @@ -331,5 +332,6 @@ pixmap2halftone(image, dither) image->used[whitep] = 1; image->used[blackp] = 1; image->numcells = 2; + return 0; } Index: get.c =================================================================== --- get.c.orig +++ get.c @@ -80,35 +80,40 @@ getImage(xrect, image, window) XCloseDisplay(hDisplay); exit(3); } - - /* this won't cut the mustard for DirectColor */ - for (i=0; i<ncolors; i++) - colors[i].pixel = i; - - XQueryColors(hDisplay, cmap, colors, ncolors); - for (i=0; i<ncolors; i++) { - image->red[i] = colors[i].red; - image->green[i] = colors[i].green; - image->blue[i] = colors[i].blue; - } - /* figure out which colormap entries are actually used by the image */ - ncolors = cmapSize = 0; - memset((char *)image->used, 0, MAX_CELLS); - for (h=0; h<ximage->height; h++) - for (w=0; w<ximage->width; w++) { - i = XGetPixel(ximage, w, h); - if (!image->used[i]) { - image->used[i] = TRUE; - if (i+1 > cmapSize) /* keep track of colormap size */ - cmapSize = i+1; - ncolors++; - } + if (depth <= 8) { + /* this won't cut the mustard for DirectColor */ + for (i=0; i<ncolors; i++) + colors[i].pixel = i; + + XQueryColors(hDisplay, cmap, colors, ncolors); + for (i=0; i<ncolors; i++) { + image->red[i] = colors[i].red; + image->green[i] = colors[i].green; + image->blue[i] = colors[i].blue; } - image->numcells = cmapSize; - if (verbose) - fprintf(stderr, "%s: image has %d colors\n", programName, ncolors); - + + /* figure out which colormap entries are actually used by the image */ + ncolors = cmapSize = 0; + memset((char *)image->used, 0, MAX_CELLS); + for (h=0; h<ximage->height; h++) + for (w=0; w<ximage->width; w++) { + i = XGetPixel(ximage, w, h); + if (!image->used[i]) { + image->used[i] = TRUE; + if (i+1 > cmapSize) /* keep track of colormap size */ + cmapSize = i+1; + ncolors++; + } + } + image->numcells = cmapSize; + if (verbose) + fprintf(stderr, "%s: image has %d colors\n", programName, ncolors); + } else { + if (verbose) + fprintf(stderr, "%s: image has %d colors\n", programName, ncolors); + } + return TRUE; } Index: process.c =================================================================== --- process.c.orig +++ process.c @@ -219,6 +219,7 @@ reverseColors(image) image->green[cidx] = (unsigned short)0xFFFF & (unsigned short)~((unsigned short)(image->green[cidx])); } } + return 0; } @@ -237,6 +238,10 @@ compressColormap(image) int ncolors, w, h, m; long p; + if (verbose) + fprintf(stderr, "skip compressing colormap...\n"); + return; + if (ximage->depth <= 1 || image->numcells > MAX_CELLS) return; Index: write.c =================================================================== --- write.c.orig +++ write.c @@ -59,6 +59,7 @@ swapbytes(pDblw) cnv.bytes[1] = cnv.bytes[2]; cnv.bytes[2] = aByte; *pDblw = cnv.dbl; + return 0; } @@ -83,6 +84,7 @@ swapdws (bp, n) *bp++ = c; bp += 2; } + return 0; } @@ -101,6 +103,7 @@ swapwords (bp, n) bp++; *bp++ = c; } + return 0; } @@ -121,6 +124,7 @@ writeint(intValue, outfile) swapbytes(&intValue); fwrite(&(intValue), 4, 1, (outfile)); #endif + return 0; } @@ -159,6 +163,7 @@ writeSimple(image, outfile) for (h=0; h<image->ximage->height; h++) for (w=0; w<image->ximage->width; w++) fputc(XGetPixel(image->ximage, w, h), outfile); + return 0; } @@ -184,6 +189,8 @@ XImage* makePSImage(image, desiredDepth, int lshift, lmask; long p; int x, y, i; + int red , green , blue ; + double r , g , b ; XImage* ximage = image->ximage; XImage* psimage; @@ -230,10 +237,40 @@ XImage* makePSImage(image, desiredDepth, for (y = 0; y < ximage->height; y++) { for (x = 0; x < ximage->width; x++) { p = XGetPixel(ximage, x, y); - i = (0.299*(double)image->red[p]) + - (0.587*(double)image->green[p])+ - (0.114*(double)image->blue[p]); - i = (i >> lshift) & lmask; + + if( image -> depth <= 8 ) + { + red = image->red[p]/256 ; + green = image->green[p]/256; + blue = image->blue[p]/256; + } + if( image -> depth == 16 ) + { + if( ( ( (p/2) & 0x7c00 ) >> 10 ) == 0 ) red = 0 ; + else red = (( ((p/2) & 0x7c00 ) >> 10 ) + 1 ) * 8 - 1; + if( ( ( (p/2) & 0x03e0 ) >> 5 ) == 0 ) green = 0 ; + else green = (( ((p/2) & 0x03e0) >> 5 ) + 1 ) * 8 - 1 ; + if( ( p & 0x001f ) == 0 ) blue = 0 ; + else blue = (( p & 0x001f ) + 1) * 8 - 1 ; + } + if( image -> depth == 24 ) + { + red = ( p & 0xff0000 ) >> 16; + green = ( p & 0x00ff00 ) >> 8 ; + blue = ( p & 0x0000ff ) >> 0 ; + } + + if( image -> depth == 32 ) + { + red = ( (p/0x100) & 0xff0000 ) >> 16; + green = ( (p/0x100) & 0x00ff00 ) >> 8 ; + blue = ( (p/0x100) & 0x0000ff ) >> 0 ; + } + i = (0.299*(double)red) + + (0.587*(double)green)+ + (0.114*(double)blue); + i = i & lmask; + XPutPixel(psimage, x, y, i); } } @@ -269,6 +306,7 @@ writeOnlyPreview(image, outfile) free(psimage->data); free(psimage); } + return 0; } @@ -295,6 +333,7 @@ copyImage(image, newImage) XCloseDisplay(hDisplay); exit(3); } + return 0; } @@ -381,6 +420,7 @@ writePreview(image, outfile, defaultImag if (newImage.ximage) { XDestroyImage(newImage.ximage); } + return 0; } @@ -715,6 +755,7 @@ writePostscript(image, outfile, encode, free(newImage->ximage); free(newImage); } + return 0; } @@ -741,6 +782,7 @@ writeColorPS(image, outfile, encode, enc double xdpi, ydpi, xscale, yscale, f; double left, top; int depth, bpl, spb; + int red , green , blue ; long p; /* rle variables */ int rlecount; @@ -1047,15 +1089,17 @@ writeColorPS(image, outfile, encode, enc } - /* write the rgb map */ + fputs("%% get the rgb map\n", outfile); fputs("currentfile rgbmap readhexstring\n", outfile); for (x=0; x<image->numcells; x++) fprintf(outfile, "%02.2x%02.2x%02.2x\n", - (byte)((image->red[x] >> 8) & 0xff), - (byte)((image->green[x] >> 8) & 0xff), - (byte)((image->blue[x] >> 8) & 0xff) ); + (byte)((image->red[x] >> 8 ) & 0xff), + (byte)((image->green[x] >> 8 ) & 0xff), + (byte)((image->blue[x] >> 8 ) & 0xff) ); + + fputs("pop pop\n\n", outfile); @@ -1148,6 +1192,7 @@ writeColorPS(image, outfile, encode, enc #if defined(TRAILING_EOD) fputc('\004', outfile); #endif + return 0; } @@ -1199,6 +1244,7 @@ writePuzzle(image, outfile) /* this won't work if depth > 8 */ for (w=0; w<ximage->width; w++) fputc(XGetPixel(ximage, w, h), outfile); + return 0; } @@ -1315,6 +1361,7 @@ writeXWD(image, outfile, xyformat) else fwrite(ximage->data, ximage->height * ximage->bytes_per_line, 1, outfile); } + return 0; } @@ -1371,6 +1418,7 @@ writeXYPixmap(image, outfile) } } fputs(" };\n", outfile); + return 0; } @@ -1390,91 +1438,157 @@ writeZPixmap(xpmFormat, image, outfile) { XImage *ximage = image->ximage; int nc, width, height, w, h, cidx, cpp; - char mne[MAX_CELLS][3]; + long red , green , blue , p ; + int count , add , i , cp ; + int mne[MAX_PIXCELLS][3]; + int c1 , c2; + char cmap[MAX_PIX] = "abcdefghijklmnopqrstuvwxyz123456" ; + char pmap[MAX_PIXCELLS][2]; + unsigned char *pix_red , *pix_green , *pix_blue ; - if (verbose) { - switch (xpmFormat) { - case 3: - fprintf(stderr, "%s: formatting XPM3 Pixmap output\n", programName); - break; - case 2: - fprintf(stderr, "%s: formatting XPM2 Pixmap output\n", programName); - break; - default: - case 1: - fprintf(stderr, "%s: formatting XPM output\n", programName); - break; + fprintf(stderr, "%s: formatting XPM output\n", programName); + + pix_red = (byte *) malloc( ximage->height * ximage->width ); + pix_green = (byte *) malloc( ximage->height * ximage->width ); + pix_blue = (byte *) malloc( ximage->height * ximage->width ); + + count = 0; + cpp = 0 ; + for (h=0; h<ximage->height; h++) { + for (w=0; w<ximage->width; w++) { + p = XGetPixel(ximage,w,h); + + if( image -> depth <= 8 ) + { + red = image->red[p]/256 ; + green = image->green[p]/256; + blue = image->blue[p]/256; + } + if( image -> depth == 16 ) + { + if( ( ( (p/2) & 0x7c00 ) >> 10 ) == 0 ) red = 0 ; + else red = (( ((p/2) & 0x7c00 ) >> 10 ) + 1 ) * 8 - 1; + if( ( ( (p/2) & 0x03e0 ) >> 5 ) == 0 ) green = 0 ; + else green = (( ((p/2) & 0x03e0) >> 5 ) + 1 ) * 8 - 1 ; + if( ( p & 0x001f ) == 0 ) blue = 0 ; + else blue = (( p & 0x001f ) + 1) * 8 - 1 ; + } + if( image -> depth == 24 ) + { + red = ( p & 0xff0000 ) >> 16; + green = ( p & 0x00ff00 ) >> 8 ; + blue = ( p & 0x0000ff ) >> 0 ; + } + + if( image -> depth == 32 ) + { + red = ( (p/0x100) & 0xff0000 ) >> 16; + green = ( (p/0x100) & 0x00ff00 ) >> 8 ; + blue = ( (p/0x100) & 0x0000ff ) >> 0 ; + } + /* first record */ + if( cpp == 0 ) + { + mne[0][2] = red ; + mne[0][1] = green ; + mne[0][0] = blue ; + cpp++; + } + add = 1 ; + for( i = 0 ; i < cpp ; i ++ ) + { + if( red == mne[i][2] && green == mne[i][1] && blue == mne[i][0] ) + { + add = 0; + break; + } + } + + if( add ) + { + if( cpp >= MAX_PIXCELLS ) + { + fprintf(stderr, "%s: can't write xpm images, because more then MAX_PIXCELLS = %d colors\n", + programName , MAX_PIXCELLS ); + return; + } +/* printf("add color %03d = 0x%02x%02x%02x\n" , + cpp , mne[cpp][2] , mne[cpp][1] , mne[cpp][0] ); */ + mne[cpp][2] = red ; + mne[cpp][1] = green ; + mne[cpp][0] = blue ; + cpp++; + } + + + pix_red[count] = red & 0xff; + pix_green[count] = green & 0xff; + pix_blue[count] = blue & 0xff; + count++; + + } } + + +/* if is less then 32 colors */ +if( cpp < MAX_PIX ) cp = 1 ; + else cp = 2 ; + +fprintf(outfile, "/* XPM */\nstatic char *%s[] = {\n" , imageName ); +fprintf(outfile, "/* width height num_colors chars_per_pixel */\n"); +fprintf(outfile, "\"%6d%6d%6d%6d\" ,\n" , ximage->width , ximage->height, \ + cpp , cp ); +fprintf(outfile, "/* colors */\n"); + + +for( i = 0 , c1 = 0 , c2 = 0 ; i < cpp ; i++ , c1 ++ ) + { + if( c1 >= MAX_PIX ) {c1 = 0 ; c2 ++ ; } + + if( cp == 1 ){ pmap[i][0] = cmap[c1] ; pmap[i][1] = ' ' ; } + else { pmap[i][0] = cmap[c2] ; pmap[i][1] = cmap[c1] ; } + + fprintf(outfile, "\"%c%c c #%02x%02x%02x\" ,\n" , \ + pmap[i][0] , pmap[i][1] , mne[i][2] , mne[i][1] , mne[i][0] ); } - nc = image->numcells; - cpp = image->numcells <= 26? 1 : 2; - switch (xpmFormat) { - case 3: - fprintf(outfile, "/* XPM */\nstatic char * %s_name [] = {\n\"%d %d %d %d\",\n", - imageName, ximage->width, ximage->height, image->numcells, cpp); - fputs("/* pixels*/\n", outfile); - break; - case 2: - fprintf(outfile, "! XPM2 \n%d %d %d %d\n", ximage->width, - ximage->height, image->numcells, cpp); - fputs("! pixels\n", outfile); - break; - case 1: - default: - fprintf(outfile, "#define %s_format 1\n", imageName); - fprintf(outfile, "#define %s_width %d\n", imageName, ximage->width); - fprintf(outfile, "#define %s_height %d\n", imageName, ximage->height); - fprintf(outfile, "#define %s_ncolors %d\n", imageName, image->numcells); - fprintf(outfile, "#define %s_chars_per_pixel %d\n", imageName, cpp); - fprintf(outfile, "static char * %s_colors[] = {\n", imageName); - break; - } - - for (cidx=0; cidx<image->numcells; cidx++) { - if (cpp > 1) { - mne[cidx][0] = (char)(cidx / 10) + 'a'; - mne[cidx][1] = (char)(cidx % 10) + '0'; - mne[cidx][2] = '\0'; - } - else { - mne[cidx][0] = (char)cidx + (cidx? 'A' : ' '); - mne[cidx][1] = '\0'; + +fprintf(outfile, "/* pixels */\n"); + + count = 0 ; + for(h=0; h < ximage->height * ximage->width ; h++) + { + /* Get Pixels */ + for( i = 0 ; i < cpp ; i ++ ) + { + red = pix_red[h] ; + green = pix_green[h] ; + blue = pix_blue[h] ; + + if( red == mne[i][2] && green == mne[i][1] && blue == mne[i][0] ) + { + + if( count == 0 ) fprintf( outfile, "\""); + + if( cp == 1 ) fprintf(outfile, "%c" , pmap[i][0] ); + else fprintf(outfile, "%c%c" , pmap[i][0] , pmap[i][1]); + + count ++; + if (count > ximage->width - 1 ) { + fprintf( outfile, "\",\n"); + count = 0; + } + + break; + } + + } } - switch (xpmFormat) { - case 3: - fprintf(outfile, "\"%s\tc #%4.4x%4.4x%4.4x\",\n",mne[cidx], - image->red[cidx], image->green[cidx], image->blue[cidx]); - break; - case 2: - fprintf(outfile, "%s c #%4.4x%4.4x%4.4x\n", mne[cidx], - image->red[cidx], image->green[cidx], image->blue[cidx]); - break; - default: - case 1: - fprintf(outfile, "\"%s\", \"#%4.4x%4.4x%4.4x\"\n", mne[cidx], - image->red[cidx], image->green[cidx], image->blue[cidx]); - break; - } - } - if (xpmFormat == 1) { - fputs("} ;\n", outfile); - fprintf(outfile, "static char * %s_pixels[] = {\n", imageName); - } - for (h=0; h<ximage->height; h++) { - if (xpmFormat != 2) - fputs("\"", outfile); - for (w=0; w<ximage->width; w++) - fputs(mne[XGetPixel(ximage, w, h)], outfile); - if (xpmFormat == 2) - fputs("\n", outfile); - else - fputs("\",\n", outfile); - } - if (xpmFormat == 3) + +/* write end */ fputs("};\n", outfile); - else if (xpmFormat != 2) - fputs("} ;\n", outfile); + + return 0; } @@ -1499,21 +1613,77 @@ writePPM(image, outfile) nc = image->numcells; time(&p); fprintf(outfile, "P3\n# PPM output created by xgrabsc on %s", ctime(&p)); + fprintf(outfile, "# image depth is %d \n", image->depth ); + fprintf(outfile, "# bits per pixel is %d \n", ximage->bits_per_pixel ); fprintf(outfile, "%d %d\n", ximage->width, ximage->height); - fprintf(outfile, "%d\n", 1<<8); - count = 0; - for (h=0; h<ximage->height; h++) { - for (w=0; w<ximage->width; w++) { - p = XGetPixel(ximage,w,h); - fprintf(outfile, "%3d %3d %3d", image->red[p]/256, image->green[p]/256, image->blue[p]/256); - count++; - if (count > PPM_PIXELS_PER_LINE) { - fputc('\n', outfile); - count = 0; + + if (image -> depth <= 8) { + fprintf(outfile, "255\n"); + count = 0; + for (h=0; h<ximage->height; h++) { + for (w=0; w<ximage->width; w++) { + p = XGetPixel(ximage,w,h); + fprintf(outfile, "%3d %3d %3d", image->red[p]/256, image->green[p]/256, image->blue[p]/256); + count++; + if (count > PPM_PIXELS_PER_LINE) { + fputc('\n', outfile); + count = 0; + } + else + fputc(' ', outfile); } - else - fputc(' ', outfile); } + } else { + + switch( image -> depth ) + { + case 16: + fprintf(outfile, "31\n"); + break; + default: + fprintf(outfile, "255\n"); + break; + } + + count = 0; + for (h=0; h<ximage->height; h++) { + for (w=0; w<ximage->width; w++) { + p = XGetPixel(ximage,w,h); + if( image -> depth == 16 ) + { + fprintf(outfile, "%3d %3d %3d", + ( (p/2) & 0x7c00 ) >> 10 , + ( (p/2) & 0x03e0 ) >> 5 , + ( p & 0x001f ) ); + } + if( image -> depth == 24 ) + { + fprintf(outfile, "%3d %3d %3d", + ( p & 0xff0000 ) >> 16, + ( p & 0x00ff00 ) >> 8 , + ( p & 0x0000ff ) >> 0 ); + } + + if( image -> depth == 32 ) + { + fprintf(outfile, "%3d %3d %3d", + ( (p/0x100) & 0xff0000 ) >> 16, + ( (p/0x100) & 0x00ff00 ) >> 8 , + ( (p/0x100) & 0x0000ff ) >> 0 ); + } + + count++; + if (count > PPM_PIXELS_PER_LINE) { + fputc('\n', outfile); + count = 0; + } + else + fputc(' ', outfile); + } + } + + } + return 0; } Index: xgrabsc.c =================================================================== --- xgrabsc.c.orig +++ xgrabsc.c @@ -947,5 +947,6 @@ main(argc, argv) char *env; env = (char *)getenv("XGRABSC"); xgrabsc(argc, argv, env); + return 0; } #endif Index: xgrabsc.h =================================================================== --- xgrabsc.h.orig +++ xgrabsc.h @@ -74,7 +74,8 @@ #include "virtual.h" #endif - +#define MAX_PIX 32 +#define MAX_PIXCELLS 32 * 32 #define MAX_CELLS 256 #define TRUE 1 #define FALSE 0 Index: xgrabxm.c =================================================================== --- xgrabxm.c.orig +++ xgrabxm.c @@ -102,8 +102,8 @@ typedef enum { radioType encValue = PS_NORMAL; radioType cnvValue = NO_DITHER; -radioType selValue = STRETCH; -radioType fmtValue = PS; +radioType selValue = HITWIN; +radioType fmtValue = PPM; radioType outValue = TOFILE; @@ -748,4 +748,5 @@ int main(argc, argv, envp) XtRealizeWidget(hShell); XtAppMainLoop(appContext); + return 0; }
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