コード例 #1
0
ファイル: psresize.c プロジェクト: BackupTheBerlios/texlive
void main(int argc, char *argv[])
{
   double scale, rscale;			/* page scale */
   double waste, rwaste;			/* amount wasted */
   double vshift, hshift;			/* page centring shifts */
   int rotate;
   double inwidth = -1;
   double inheight = -1;
   Paper *paper;
   PageSpec *specs;

#ifdef PAPER
   if ( (paper = findpaper(PAPER)) != (Paper *)0 ) {
      inwidth = width = (double)PaperWidth(paper);
      inheight = height = (double)PaperHeight(paper);
   }
#endif

   vshift = hshift = 0;
   rotate = 0;

   infile = stdin;
   outfile = stdout;
   verbose = 1;
   for (program = *argv++; --argc; argv++) {
      if (argv[0][0] == '-') {
	 switch (argv[0][1]) {
	 case 'q':	/* quiet */
	    verbose = 0;
	    break;
	 case 'w':	/* page width */
	    width = singledimen(*argv+2, argerror, usage);
	    break;
	 case 'h':	/* page height */
	    height = singledimen(*argv+2, argerror, usage);
	    break;
	 case 'p':	/* paper type */
	    if ( (paper = findpaper(*argv+2)) != (Paper *)0 ) {
	       width = (double)PaperWidth(paper);
	       height = (double)PaperHeight(paper);
	    } else
	       message(FATAL, "paper size '%s' not recognised\n", *argv+2);
	    break;
	 case 'W':	/* input page width */
	    inwidth = singledimen(*argv+2, argerror, usage);
	    break;
	 case 'H':	/* input page height */
	    inheight = singledimen(*argv+2, argerror, usage);
	    break;
	 case 'P':	/* input paper type */
	    if ( (paper = findpaper(*argv+2)) != (Paper *)0 ) {
	       inwidth = (double)PaperWidth(paper);
	       inheight = (double)PaperHeight(paper);
	    } else
	       message(FATAL, "paper size '%s' not recognised\n", *argv+2);
	    break;
	 case 'v':	/* version */
	 default:
	    usage();
	 }
      } else if (infile == stdin) {
	 if ((infile = fopen(*argv, OPEN_READ)) == NULL)
	    message(FATAL, "can't open input file %s\n", *argv);
      } else if (outfile == stdout) {
	 if ((outfile = fopen(*argv, OPEN_WRITE)) == NULL)
	    message(FATAL, "can't open output file %s\n", *argv);
      } else usage();
   }
#if defined(MSDOS) || defined(WINNT) || defined(WIN32)
   if ( infile == stdin ) {
      int fd = fileno(stdin) ;
      if ( setmode(fd, O_BINARY) < 0 )
         message(FATAL, "can't open input file %s\n", argv[4]);
    }
   if ( outfile == stdout ) {
      int fd = fileno(stdout) ;
      if ( setmode(fd, O_BINARY) < 0 )
         message(FATAL, "can't reset stdout to binary mode\n");
    }
#endif
   if ((infile=seekable(infile))==NULL)
      message(FATAL, "can't seek input\n");

   if (width <= 0 || height <= 0)
      message(FATAL, "output page width and height must be set\n");

   if (inwidth <= 0 || inheight <= 0)
      message(FATAL, "input page width and height must be set\n");

   /* try normal orientation first */
   scale = MIN(width/inwidth, height/inheight);
   waste = (width-scale*inwidth)*(width-scale*inwidth) +
      (height-scale*inheight)*(height-scale*inheight);
   hshift = (width - inwidth*scale)/2;
   vshift = (height - inheight*scale)/2;

   /* try rotated orientation */
   rscale = MIN(height/inwidth, width/inheight);
   rwaste = (height-scale*inwidth)*(height-scale*inwidth) +
      (width-scale*inheight)*(width-scale*inheight);
   if (rwaste < waste) {
      double tmp = width;
      scale = rscale;
      hshift = (width + inheight*scale)/2;
      vshift = (height - inwidth*scale)/2;
      rotate = 1;
      width = height;
      height = tmp;
   }

   width /= scale;
   height /= scale;

   /* now construct specification list and run page rearrangement procedure */
   specs = newspec();

   if (rotate) {
      specs->rotate = 90;
      specs->flags |= ROTATE;
   }
   specs->pageno = 0;
   specs->scale = scale;
   specs->flags |= SCALE;
   specs->xoff = hshift;
   specs->yoff = vshift;
   specs->flags |= OFFSET;
      
   pstops(1, 1, 0, specs, 0.0);		/* do page rearrangement */

   exit(0);
}
コード例 #2
0
ファイル: psnup.c プロジェクト: Distrotech/psutils
void main(int argc, char *argv[])
{
   int horiz, vert, rotate, column, flip, leftright, topbottom;
   int nup = 1;
   double draw = 0;				/* draw page borders */
   double scale;				/* page scale */
   double uscale = 0;				/* user supplied scale */
   double ppwid, pphgt;				/* paper dimensions */
   double margin, border;			/* paper & page margins */
   double vshift, hshift;			/* page centring shifts */
   double iwidth, iheight ;			/* input paper size */
   double tolerance = 100000;			/* layout tolerance */
   Paper *paper;

#ifdef PAPER
   if ( (paper = findpaper(PAPER)) != (Paper *)0 ) {
      width = (double)PaperWidth(paper);
      height = (double)PaperHeight(paper);
   }
#endif

   margin = border = vshift = hshift = column = flip = 0;
   leftright = topbottom = 1;
   iwidth = iheight = -1 ;

   infile = stdin;
   outfile = stdout;
   verbose = 1;
   for (program = *argv++; --argc; argv++) {
      if (argv[0][0] == '-') {
	 switch (argv[0][1]) {
	 case 'q':	/* quiet */
	    verbose = 0;
	    break;
	 case 'd':	/* draw borders */
	    if (argv[0][2])
	       draw = singledimen(*argv+2, argerror, usage);
	    else
	       draw = 1;
	    break;
	 case 'l':	/* landscape (rotated left) */
	    column = !column;
	    topbottom = !topbottom;
	    break;
	 case 'r':	/* seascape (rotated right) */
	    column = !column;
	    leftright = !leftright;
	    break;
	 case 'f':	/* flipped */
	    flip = 1;
	    break;
	 case 'c':	/* column major layout */
	    column = !column;
	    break;
	 case 'w':	/* page width */
	    width = singledimen(*argv+2, argerror, usage);
	    break;
	 case 'W':	/* input page width */
	    iwidth = singledimen(*argv+2, argerror, usage);
	    break;
	 case 'h':	/* page height */
	    height = singledimen(*argv+2, argerror, usage);
	    break;
	 case 'H':	/* input page height */
	    iheight = singledimen(*argv+2, argerror, usage);
	    break;
	 case 'm':	/* margins around whole page */
	    margin = singledimen(*argv+2, argerror, usage);
	    break;
	 case 'b':	/* border around individual pages */
	    border = singledimen(*argv+2, argerror, usage);
	    break;
	 case 't':	/* layout tolerance */
	    tolerance = atof(*argv+2);
	    break;
	 case 's':	/* override scale */
	    uscale = atof(*argv+2);
	    break;
	 case 'p':	/* output (and by default input) paper type */
	    if ( (paper = findpaper(*argv+2)) != (Paper *)0 ) {
	       width = (double)PaperWidth(paper);
	       height = (double)PaperHeight(paper);
	    } else
	       message(FATAL, "paper size '%s' not recognised\n", *argv+2);
	    break;
	 case 'P':	/* paper type */
	    if ( (paper = findpaper(*argv+2)) != (Paper *)0 ) {
	       iwidth = (double)PaperWidth(paper);
	       iheight = (double)PaperHeight(paper);
	    } else
	       message(FATAL, "paper size '%s' not recognised\n", *argv+2);
	    break;
	 case 'n':	/* n-up, for compatibility with other psnups */
	    if (argc >= 2) {
	       argv++;
	       argc--;
	       if ((nup = atoi(*argv)) < 1)
		  message(FATAL, "-n %d too small\n", nup);
	    } else
	       message(FATAL, "argument expected for -n\n");
	    break;
	 case '1':
	 case '2':
	 case '3':
	 case '4':
	 case '5':
	 case '6':
	 case '7':
	 case '8':
	 case '9':
	    nup = atoi(*argv+1);
	    break;
	 case 'v':	/* version */
	 default:
	    usage();
	 }
      } else if (infile == stdin) {
	 if ((infile = fopen(*argv, OPEN_READ)) == NULL)
	    message(FATAL, "can't open input file %s\n", *argv);
      } else if (outfile == stdout) {
	 if ((outfile = fopen(*argv, OPEN_WRITE)) == NULL)
	    message(FATAL, "can't open output file %s\n", *argv);
      } else usage();
   }
#if defined(MSDOS) || defined(WINNT)
   if ( infile == stdin ) {
      int fd = fileno(stdin) ;
      if ( setmode(fd, O_BINARY) < 0 )
         message(FATAL, "can't open input file %s\n", argv[4]);
    }
   if ( outfile == stdout ) {
      int fd = fileno(stdout) ;
      if ( setmode(fd, O_BINARY) < 0 )
         message(FATAL, "can't reset stdout to binary mode\n");
    }
#endif
   if ((infile=seekable(infile))==NULL)
      message(FATAL, "can't seek input\n");

   if (width <= 0 || height <= 0)
      message(FATAL, "page width and height must be set\n");

   /* subtract paper margins from height & width */
   ppwid = width - margin*2;
   pphgt = height - margin*2;

   if (ppwid <= 0 || pphgt <= 0)
      message(FATAL, "paper margins are too large\n");

   /* set default values of input height & width */
   if ( iwidth > 0 )
     width = iwidth ;
   if ( iheight > 0 )
     height = iheight ;

   /* Finding the best layout is an optimisation problem. We try all of the
    * combinations of width*height in both normal and rotated form, and
    * minimise the wasted space. */
   {
      double best = tolerance;
      int hor;
      for (hor = 1; hor; hor = nextdiv(hor, nup)) {
	 int ver = nup/hor;
	 /* try normal orientation first */
	 double scl = MIN(pphgt/(height*ver), ppwid/(width*hor));
	 double optim = (ppwid-scl*width*hor)*(ppwid-scl*width*hor) +
	    (pphgt-scl*height*ver)*(pphgt-scl*height*ver);
	 if (optim < best) {
	    best = optim;
	    /* recalculate scale to allow for internal borders */
	    scale = MIN((pphgt-2*border*ver)/(height*ver),
			(ppwid-2*border*hor)/(width*hor));
	    hshift = (ppwid/hor - width*scale)/2;
	    vshift = (pphgt/ver - height*scale)/2;
	    horiz = hor; vert = ver;
	    rotate = flip;
	 }
	 /* try rotated orientation */
	 scl = MIN(pphgt/(width*hor), ppwid/(height*ver));
	 optim = (pphgt-scl*width*hor)*(pphgt-scl*width*hor) +
	    (ppwid-scl*height*ver)*(ppwid-scl*height*ver);
	 if (optim < best) {
	    best = optim;
	    /* recalculate scale to allow for internal borders */
	    scale = MIN((pphgt-2*border*hor)/(width*hor),
			(ppwid-2*border*ver)/(height*ver));
	    hshift = (ppwid/ver - height*scale)/2;
	    vshift = (pphgt/hor - width*scale)/2;
	    horiz = ver; vert = hor;
	    rotate = !flip;
	 }
      }

      /* fail if nothing better than worst tolerance was found */
      if (best == tolerance)
	 message(FATAL, "can't find acceptable layout for %d-up\n", nup);
   }

   if (flip) {	/* swap width & height for clipping */
      double tmp = width;
      width = height;
      height = tmp;
   }

   if (rotate) {	/* rotate leftright and topbottom orders */
      int tmp = topbottom;
      topbottom = !leftright;
      leftright = tmp;
      column = !column;
   }

   /* now construct specification list and run page rearrangement procedure */
   {
      int page = 0;
      PageSpec *specs, *tail;

      tail = specs = newspec();

      while (page < nup) {
	 int up, across;		/* page index */

	 if (column) {
	    if (leftright)		/* left to right */
	       across = page/vert;
	    else			/* right to left */
	       across = horiz-1-page/vert;
	    if (topbottom)		/* top to bottom */
	       up = vert-1-page%vert;
	    else			/* bottom to top */
	       up = page%vert;
	 } else {
	    if (leftright)		/* left to right */
	       across = page%horiz;
	    else			/* right to left */
	       across = horiz-1-page%horiz;
	    if (topbottom)		/* top to bottom */
	       up = vert-1-page/horiz;
	    else			/* bottom to top */
	       up = page/horiz;
	 }
	 if (rotate) {
	    tail->xoff = margin + (across+1)*ppwid/horiz - hshift;
	    tail->rotate = 90;
	    tail->flags |= ROTATE;
	 } else {
	    tail->xoff = margin + across*ppwid/horiz + hshift;
	 }
	 tail->pageno = page;
	 if (uscale > 0)
	    tail->scale = uscale;
	 else
	    tail->scale = scale;
	 tail->flags |= SCALE;
	 tail->yoff = margin + up*pphgt/vert + vshift;
	 tail->flags |= OFFSET;
	 if (++page < nup) {
	    tail->flags |= ADD_NEXT;
	    tail->next = newspec();
	    tail = tail->next;
	 }
      }
      
      pstops(nup, 1, 0, specs, draw);		/* do page rearrangement */
   }

   exit(0);
}