Return to plotX.c CVS log

Up to [local] / OpenXM_contrib / pari-2.2 / src / graph

Imported pari-2.2.1(alpha).

/* $Id: plotX.c,v 1.7 2001/03/20 00:03:59 karim Exp $

Copyright (C) 2000  The PARI group.

This file is part of the PARI/GP package.

PARI/GP 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. It is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY WHATSOEVER.

Check the License for details. You should have received a copy of it, along
with the package; see the file 'COPYING'. If not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */

/*******************************************************************/
/*                                                                 */
/*                       HIGH RESOLUTION PLOT                      */
/*                                                                 */
/*******************************************************************/
#include "pari.h"
#include "rect.h"
#include "../language/anal.h"

extern void  free_graph(void);

#ifdef HPPA
#  ifndef __GNUC__
     typedef char *caddr_t;
#  endif
#endif

BEGINEXTERN
#include <X11/Xlib.h>
#include <X11/Xutil.h>
#include <X11/Xos.h>
ENDEXTERN

static Colormap PARI_Colormap;
static XColor  *PARI_Colors;
static XColor  *PARI_ExactColors;

static char *PARI_DefaultColors[MAX_COLORS] =
{
  " ",
  "black",    /* Default */
  "blue",     /* Axes */
  "sienna",   /* Odd numbered curves in ploth */
  "red",      /* Curves, or Even numbered curves in ploth */
  "cornsilk",
  "grey",
  "gainsboro",
};

static void
PARI_ColorSetUp(Display *display, char **Colors, int n)
{
  static int init_done = 0;
  int i;

  if (init_done) return;
  init_done=1;

  PARI_Colormap = DefaultColormap(display, 0);
  PARI_Colors = (XColor *) gpmalloc((n+1) * sizeof(XColor));
  PARI_ExactColors = (XColor *) gpmalloc((n+1) * sizeof(XColor));
  for (i=1; i<n; i++)
    XAllocNamedColor(display, PARI_Colormap, Colors[i],
		     &PARI_ExactColors[i], &PARI_Colors[i]);
}

#ifdef SONY
typedef int (*XErrorHandler) (
#  if NeedFunctionPrototypes
  Display*,
  XErrorEvent*
#  endif
  );

extern XErrorHandler XSetErrorHandler (
#  if NeedFunctionPrototypes
  XErrorHandler	
#  endif
  );

typedef int (*XIOErrorHandler) (
#  if NeedFunctionPrototypes
  Display*	
#  endif
  );

extern XIOErrorHandler XSetIOErrorHandler (
#  if NeedFunctionPrototypes
  XIOErrorHandler
#  endif
  );
#endif

/* after fork(), we don't want the child to recover but to exit */
static void
exiterr(char *str)
{
  term_color(c_ERR);
  fprintferr("\n  *** X fatal error: %s\n",str);
  term_color(c_NONE); exit(1);
}

#define MAX_BUF 256

static int
Xerror(Display *d, XErrorEvent *err) {
  char buf[MAX_BUF];
  XGetErrorText(d,err->error_code,buf,MAX_BUF);
  exiterr(buf); return 0;
}

static int
IOerror(Display *d) {
  char buf[MAX_BUF];
  sprintf(buf, "lost display on %s", DisplayString(d));
  exiterr(buf); return 0;
}

static char*
zmalloc(size_t x)
{
  return x? gpmalloc(x): NULL;
}

void
rectdraw0(long *w, long *x, long *y, long lw, long do_free)
{
  double *ptx,*pty;
  long *c, shift;
  long *numpoints[MAX_COLORS],*numtexts[MAX_COLORS];
  long *xtexts[MAX_COLORS],*ytexts[MAX_COLORS];
  long rcolcnt[MAX_COLORS][ROt_MAX];
  long col,i,j,x0,y0,a,b,oldwidth,oldheight,force;
  long rcnt[ROt_MAX+1], hjust, vjust, hgap, vgap, hgapsize, vgapsize;
  char **texts[MAX_COLORS];
  PariRect *e;
  RectObj *p1;
  double xs=1,ys=1;

  int screen;
  Display *display;
  GC gc;
  Window win;
  XEvent event;
  XSizeHints size_hints;
  XFontStruct *font_info;
  XSetWindowAttributes attrib;
  XPoint *points[MAX_COLORS],**lines[MAX_COLORS];
  XSegment *seg[MAX_COLORS];
  XRectangle *rec[MAX_COLORS];
  Atom wm_delete_window, wm_protocols;

  if (fork()) return;  /* parent process returns */

  /* child process goes on */
  freeall();  /* PARI stack isn't needed anymore, keep rectgraph */
  PARI_get_plot(1);
  display = XOpenDisplay(NULL);
  font_info = XLoadQueryFont(display, "9x15");
  if (!font_info) exiterr("cannot open 9x15 font");
  hgapsize = h_unit;  vgapsize = v_unit;

  XSetErrorHandler(Xerror);
  XSetIOErrorHandler(IOerror);
  PARI_ColorSetUp(display,PARI_DefaultColors,MAX_COLORS);

  for(col=1;col<MAX_COLORS;col++)
  {
    rcolcnt[col][ROt_MV]=rcolcnt[col][ROt_PT]=rcolcnt[col][ROt_LN]=0;
    rcolcnt[col][ROt_BX]=rcolcnt[col][ROt_MP]=rcolcnt[col][ROt_ML]=0;
    rcolcnt[col][ROt_ST]=rcolcnt[col][ROt_PTT]=rcolcnt[col][ROt_PTS]=rcolcnt[col][ROt_LNT]=0;
  }

  for(i=0;i<lw;i++)
  {
    e=rectgraph[w[i]]; p1=RHead(e);
    while(p1)
    {
      switch(RoType(p1))
      {
	case ROt_MP : rcolcnt[RoCol(p1)][ROt_PT] += RoMPcnt(p1);
	              break;                 /* Multiple Point */
	case ROt_PT :                        /* Point */
	case ROt_LN :                        /* Line */
	case ROt_BX :                        /* Box */
	case ROt_ML :                        /* Multiple lines */
	case ROt_ST : rcolcnt[RoCol(p1)][RoType(p1)]++;
	              break;                 /* String */
	case ROt_MV :                        /* Move */
	case ROt_PTT:                        /* Point type change */
	case ROt_PTS:                        /* Point size change */
	case ROt_LNT: rcnt[RoType(p1)]++;    /* Line type change */
      }
      p1=RoNext(p1);
    }
  }
  for (col=1; col<MAX_COLORS; col++)
  {
    char *m;
    c = rcolcnt[col];
    points[col]=(XPoint*)zmalloc(c[ROt_PT]*sizeof(XPoint));
    seg[col]=(XSegment*)zmalloc(c[ROt_LN]*sizeof(XSegment));
    rec[col]=(XRectangle*)zmalloc(c[ROt_BX]*sizeof(XRectangle));

    i = c[ROt_ML]; m = zmalloc(i * (sizeof(long) + sizeof(XPoint*)));
    numpoints[col]=(long*)m; i *= sizeof(XPoint*);
    m += i; lines[col]=(XPoint**)m;

    i = c[ROt_ST]; m = zmalloc(i * (sizeof(char*) + 3*sizeof(long)));
    texts[col]=(char**)m; i *= sizeof(long);
    m += i; numtexts[col]=(long*)m;
    m += i; xtexts[col]=(long*)m;
    m += i; ytexts[col]=(long*)m;

    c[ROt_PT]=c[ROt_LN]=c[ROt_BX]=c[ROt_ML]=c[ROt_ST]=0;
  }

  screen = DefaultScreen(display);
  win = XCreateSimpleWindow
    (display, RootWindow(display, screen), 0, 0, w_width, w_height,
     4, BlackPixel(display, screen), WhitePixel(display, screen));

  size_hints.flags = PPosition | PSize;
  size_hints.x = 0;
  size_hints.y = 0;
  size_hints.width  = w_width;
  size_hints.height = w_height;
  XSetStandardProperties
    (display, win, "rectplot", NULL, None, NULL, 0, &size_hints);

  wm_delete_window = XInternAtom(display, "WM_DELETE_WINDOW", False);
  wm_protocols = XInternAtom(display, "WM_PROTOCOLS", False);
  XSetWMProtocols(display,win,&wm_delete_window, 1);

  XSelectInput (display, win,
    ExposureMask | ButtonPressMask | StructureNotifyMask);

  /* enable backing-store */
  attrib.backing_store = Always;
  attrib.backing_planes = AllPlanes;
  XChangeWindowAttributes(display,win,CWBackingStore|CWBackingPlanes,&attrib);

  gc = XCreateGC(display, win, 0, NULL);
  XSetFont(display, gc, font_info->fid);

  XMapWindow(display, win);
  oldwidth  = w_width;
  oldheight = w_height; force = 1;

  for(;;)
  {
    XNextEvent(display, &event);
    switch(event.type)
    {
      case ClientMessage:
        if (event.xclient.message_type != wm_protocols ||
            (Atom)event.xclient.data.l[0] != wm_delete_window) break;
      case ButtonPress:
      case DestroyNotify:
	XUnloadFont(display,font_info->fid); XFreeGC(display,gc);
#define myfree(x) if (x) free(x)
	for(col=1;col<MAX_COLORS;col++)
	{
	  myfree(points[col]); myfree(seg[col]); myfree(rec[col]);
	  for(i=0;i<rcolcnt[col][ROt_ML];i++) myfree(lines[col][i]);
	  myfree(numpoints[col]); myfree(texts[col]);
        }
#undef myfree
	free_graph(); if (do_free) { free(w); free(x); free(y); }
	XCloseDisplay(display); exit(0);

      case ConfigureNotify:
      {
        int width  = event.xconfigure.width;
        int height = event.xconfigure.height;

        if (width == oldwidth && height == oldheight) break;
        oldwidth  = width;
        oldheight = height; force = 1;

        /* recompute scale */
	xs = ((double)width)/w_width; ys=((double)height)/w_height;
      }
      case Expose: if (!force) break;
        force = 0;
	for(i=0; i<lw; i++)
	{
	  e=rectgraph[w[i]];p1=RHead(e);x0=x[i];y0=y[i];
	  while(p1)
	  {
	    col=RoCol(p1); c=rcolcnt[col];
	    switch(RoType(p1))
	    {
	      case ROt_PT:
		points[col][c[ROt_PT]].x = DTOL((RoPTx(p1)+x0)*xs);
		points[col][c[ROt_PT]].y = DTOL((RoPTy(p1)+y0)*ys);
		c[ROt_PT]++;break;
	      case ROt_LN:
		seg[col][c[ROt_LN]].x1 = DTOL((RoLNx1(p1)+x0)*xs);
		seg[col][c[ROt_LN]].y1 = DTOL((RoLNy1(p1)+y0)*ys);
		seg[col][c[ROt_LN]].x2 = DTOL((RoLNx2(p1)+x0)*xs);
		seg[col][c[ROt_LN]].y2 = DTOL((RoLNy2(p1)+y0)*ys);
		c[ROt_LN]++;break;
	      case ROt_BX:
		a=rec[col][c[ROt_BX]].x = DTOL((RoBXx1(p1)+x0)*xs);
		b=rec[col][c[ROt_BX]].y = DTOL((RoBXy1(p1)+y0)*ys);
		rec[col][c[ROt_BX]].width = DTOL((RoBXx2(p1)+x0-a)*xs);
		rec[col][c[ROt_BX]].height = DTOL((RoBXy2(p1)+y0-b)*ys);
		c[ROt_BX]++;break;
	      case ROt_MP:
		ptx = RoMPxs(p1); pty = RoMPys(p1);
		for(j=0;j<RoMPcnt(p1);j++)
		{
		  points[col][c[ROt_PT]+j].x = DTOL((ptx[j]+x0)*xs);
		  points[col][c[ROt_PT]+j].y = DTOL((pty[j]+y0)*ys);
		}
		c[ROt_PT]+=RoMPcnt(p1);break;
	      case ROt_ML:
		ptx=RoMLxs(p1); pty=RoMLys(p1);
		numpoints[col][c[ROt_ML]] = RoMLcnt(p1);
		lines[col][c[ROt_ML]] =
		  (XPoint*)zmalloc(RoMLcnt(p1)*sizeof(XPoint));
		for(j=0;j<RoMLcnt(p1);j++)
		{
		  lines[col][c[ROt_ML]][j].x = DTOL((ptx[j]+x0)*xs);
		  lines[col][c[ROt_ML]][j].y = DTOL((pty[j]+y0)*ys);
		}
		c[ROt_ML]++;break;
	      case ROt_ST:
		hjust = RoSTdir(p1) & RoSTdirHPOS_mask;
		vjust = RoSTdir(p1) & RoSTdirVPOS_mask;
		hgap = RoSTdir(p1) & RoSTdirHGAP;
		if (hgap)
		  hgap = (hjust == RoSTdirLEFT) ? hgapsize : -hgapsize;
		vgap = RoSTdir(p1) & RoSTdirVGAP;
		if (vgap)
		  vgap = (vjust == RoSTdirBOTTOM) ? 2*vgapsize : -2*vgapsize;
		if (vjust != RoSTdirBOTTOM)
		  vgap -= ((vjust == RoSTdirTOP) ? 2 : 1)*(f_height - 1);
		texts[col][c[ROt_ST]]=RoSTs(p1);
		numtexts[col][c[ROt_ST]]=RoSTl(p1);
		shift = (hjust == RoSTdirLEFT ? 0 :
			 (hjust == RoSTdirRIGHT ? 2 : 1));
		xtexts[col][c[ROt_ST]] 
		    = DTOL(( RoSTx(p1) + x0 + hgap
			       - (strlen(RoSTs(p1)) * pari_plot.fwidth
				  * shift)/2)*xs);
		ytexts[col][c[ROt_ST]] = DTOL((RoSTy(p1)+y0-vgap/2)*ys);
		c[ROt_ST]++;break;
	      default: break;
	    }
	    p1=RoNext(p1);
	  }
	}
	for(col=1; col<MAX_COLORS; col++)
	{
          c = rcolcnt[col];
	  XSetForeground(display, gc, PARI_Colors[col].pixel);
	  if(c[ROt_PT]) XDrawPoints(display,win,gc,points[col],c[ROt_PT],0);
	  if(c[ROt_LN]) XDrawSegments(display,win,gc,seg[col],c[ROt_LN]);
	  if(c[ROt_BX]) XDrawRectangles(display,win,gc,rec[col],c[ROt_BX]);
	  for(i=0;i<c[ROt_ML];i++)
	    XDrawLines(display,win,gc,lines[col][i],numpoints[col][i],0);
	  for(i=0;i<c[ROt_ST];i++)
	    XDrawString(display,win,gc, xtexts[col][i],ytexts[col][i],
              texts[col][i],numtexts[col][i]);

	  c[ROt_PT]=c[ROt_LN]=c[ROt_BX]=c[ROt_ML]=c[ROt_ST]=0;
        }
    }
  }
}

void
PARI_get_plot(long fatal)
{
  Display *display;
  int screen;

  if (pari_plot.init) return;
  if (!(display = XOpenDisplay(NULL)))
  {
    if (fatal) exiterr("no X server");
    err(talker, "no X server");
  }
  screen = DefaultScreen(display);
  w_width = DisplayWidth(display, screen) - 40;
  w_height = DisplayHeight(display, screen) - 60;
  f_height = 15; f_width = 9;
  h_unit = 5; v_unit = 5;
  pari_plot.init = 1;
  XCloseDisplay(display);
}

long
term_set(char *s) { (void)s; return 1; }

long
plot_outfile_set(char *s) { (void)s; return 1; }

void
set_pointsize(double d) { (void)d; }