graph3d, part 2/3

& Berkelaar michel at es.ele.tue.nl
Fri Oct 13 18:58:57 AEST 1989


Here is part two:

---------------
#! /bin/sh
# This is a shell archive.  Remove anything before this line, then unpack
# it by saving it into a file and typing "sh file".  To overwrite existing
# If this archive is complete, you will see the following message at the end:
#		"End of archive 2 (of 3)."
#
# Contents:
#   Makefile direct-tek.c find-tek.c hat.c hills.c pswrap.c
#   read_matrix.c showfloat.c stdoutpipe.c surface.c read_matrix.h
#   showfloat.h
#
# Wrapped by tap at cs.utoronto.ca on Wed Oct 11 23:48:18 1989
#
PATH=/bin:/usr/bin:/usr/ucb ; export PATH
if test -f Makefile -a "${1}" != "-c" ; then 
  echo shar: Will not over-write existing file \"Makefile\"
else
echo shar: Extracting \"Makefile\" \(890 characters\)
sed "s/^X//" >Makefile <<'END_OF_Makefile'
X# Compile with floating point flag if your machine has it!
X
X# If your make does not define LINK.c, uncomment the following line
X#LINK.c= $(CC) $(CFLAGS) $(CPPFLAGS) $(TARGET_ARCH) $(LDFLAGS) $(LDFLAGS)
X
XCFLAGS = -O2
XCLIBS = -lm
X
Xdefault: all
X
Xall: hills graph3d surface graph3d-tek hat pswrap
X
Xpswrap: pswrap.o
X	$(LINK.c) -o pswrap pswrap.o -lm
X
Xhat: hat.o
X	$(LINK.c) -o hat hat.o -lm
X
Xhat2: hat2.o
X	$(LINK.c) -o hat2 hat2.o -lm
X
Xhills: hills.o
X	$(LINK.c) -o hills hills.o -lm
X
Xgraph3d: graph3d.o direct-tek.o stdoutpipe.o
X	$(LINK.c) -o graph3d graph3d.o direct-tek.o stdoutpipe.o -lm -lplot
X
Xgraph3d-tek: graph3d.o direct-tek.o stdoutpipe.o
X	$(LINK.c) -o graph3d-tek graph3d.o direct-tek.o stdoutpipe.o -lm -l4014
X
Xsurface: surface.o read_matrix.o showfloat.o
X	$(LINK.c) -o surface surface.o read_matrix.o showfloat.o -lm
X
Xshowfloat: showfloat.o
X	$(LINK.c) -DMAIN showfloat.c -o showfloat
END_OF_Makefile
if test 890 -ne `wc -c <Makefile`; then
    echo shar: \"Makefile\" unpacked with wrong size!
fi
# end of overwriting check
fi
if test -f direct-tek.c -a "${1}" != "-c" ; then 
  echo shar: Will not over-write existing file \"direct-tek.c\"
else
echo shar: Extracting \"direct-tek.c\" \(4489 characters\)
sed "s/^X//" >direct-tek.c <<'END_OF_direct-tek.c'
X#include <stdio.h>
X#include <sys/param.h>
X#include <sys/types.h>
X#include <sys/stat.h>
X
X/*
X * direct-tek - change `out' to be a stream for writing directly to a tek
X * terminal, under certain conditions.
X * The conditions are:
X * (1) my_name ends in "-tek"
X * (2) the integer 'dont_change_out' is zero
X * (3) the print mode is 
X * There are three ways of getting the name of the tek terminal
X * (1) the char * variable 'use_tty' contains the name
X * (2) the environment variable 'TEK_TTY' contains the name
X * (3) the file '$HOME/.tek-tty' contains the name
X */
X
X/*
X * MAXHOSTNAMELEN is defined in <sys/param.h>, but only since sunOS 4.O
X */
X#ifndef MAXHOSTNAMELEN
X#define MAXHOSTNAMELEN 64
X#endif
X
Xextern char *use_tty;
Xextern int dont_change_out;
Xextern char *my_name;
Xextern FILE *out;
Xextern int force_tty;
Xextern int errno;
Xextern char *sys_errlist[];
X
XCheckTekTerminal()
X{
X  FILE *f;
X  char *home,*getenv(),*machine;
X  int error;
X  char tektty[MAXHOSTNAMELEN+MAXPATHLEN];
X  char tekhost[MAXHOSTNAMELEN];
X  char host[MAXHOSTNAMELEN];
X  char file[MAXPATHLEN];
X  char command[200];
X  char *comargv[4];
X  struct stat statbuf;
X  /*
X   * don't do it if we don't end in "-tek" or have been prohibited
X   */
X  if (dont_change_out || strcmp(my_name+strlen(my_name)-4,"-tek")) {
X    if (use_tty != NULL)
X      fprintf(stderr,"%s: tty option ignored\n",my_name);
X    return;
X  }
X  /*
X   * get the tty name from the environment or from a file
X   */
X  if (use_tty==NULL) {
X    if (!(use_tty=getenv("TEK_TTY"))) {
X      home = getenv("HOME");
X      if (!home) {error=1;goto cant_find_tty;}
X      strcpy(file,home);
X      strcat(file,"/.tek-tty");
X      if (!(f=fopen(file,"r"))) {error=2;goto cant_find_tty;}
X      use_tty=fgets(tektty,MAXPATHLEN+MAXHOSTNAMELEN,f);
X      fclose(f);
X    }
X  }
X  
X  /*
X   * check that we found something (and strip the \n)
X   */
X  if (use_tty==NULL || use_tty[0]==0) {error=3;goto cant_find_tty;}
X  if (use_tty[strlen(use_tty)-1]=='\n') use_tty[strlen(use_tty)-1]=0;
X  
X  /*
X   * split it into machine and filename
X   */
X  if (index(use_tty,':')) {
X    if (sscanf(use_tty,"%[^:]:%s",tekhost,tektty)!=2) {
X      fprintf(stderr,"%s: bad tty name format \"%s\"\n",my_name,use_tty);
X    } else {
X      machine = tekhost;
X      use_tty = tektty;
X    }
X  } else {
X    machine = NULL;
X  }
X
X  /*
X   * if the tekhost is the same as our host, don't bother with machine
X   */
X  gethostname(host,MAXHOSTNAMELEN);
X  if (machine!=NULL && !strcmp(machine,host)) machine=NULL;
X
X  /*
X   * Put the tty file name in file[]
X   * if the ttyname does not being with a . or a / assume it is of the
X   * form X or ttyX, and convert it to /dev/ttyX
X   */
X  file[0]=0;
X  if (use_tty[0]!='.' && use_tty[0]!='/') {
X    if (strncmp("tty",use_tty,3))
X      strcpy(file,"/dev/tty");
X    else
X      strcpy(file,"/dev/");
X    strcat(file,use_tty);
X  } else {
X    strcpy(file,use_tty);
X  }
X
X  /*
X   * Now, do the dirty work
X   * If we have a remote machine, use popen & rsh cat,
X   * otherwise just open a file.
X   * Close stdout first, so that the fd 1 gets associated with our new stream.
X   */
X  if (machine==NULL) {
X    /* fprintf(stderr,"machine==NULL, openning \"%s\"\n",file); */
X    if (stat(file,&statbuf)) {error=4;goto cant_find_tty;}
X    if (!force_tty && statbuf.st_uid!=getuid()) {error=6; goto cant_find_tty;}
X    close(1);
X    if (!(out=fopen(file,"w"))) {error=5;goto cant_find_tty;}
X  } else {
X    comargv[0]="/usr/ucb/rsh";
X    comargv[1]=machine;
X    if (!force_tty)
X      sprintf(command,"if (-o %s) then \nexec cat > %s \nelse \necho not owner of %s \nexit 1 \nendif",file,file,file);
X    else
X      sprintf(command,"exec cat > %s",file);
X    comargv[2]=command;
X    comargv[3]=0;
X    stdoutpipe(comargv,1);
X  }
X  return;
X
X cant_find_tty:
X  fprintf(stderr,"%s: Can't find location of Tektronics window, reason:\n",my_name);
X  switch (error) {
X  case 1:
X    fprintf(stderr,"HOME environment variable is not set: can't look up tek tty\n");
X    break;
X  case 2:
X    fprintf(stderr,"Can't open file \"%s\"\n",file);
X    break;
X  case 3:
X    fprintf(stderr,"NULL tektronics device name, check $TEK_TTY and ~/.tek-tty\n");
X    break;
X  case 4:
X    fprintf(stderr,"Can't find tektronics device: \"%s\": %s\n",file,sys_errlist[errno]);
X    break;
X  case 5:
X    fprintf(stderr,"Can't open tektronics device for writing: \"%s\": %s\n",file,sys_errlist[errno]);
X    break;
X  case 6:
X    fprintf(stderr,"Not owner of \"%s\" - use `-forcetty` to write\n",file);
X    break;
X  }
X  exit(1);
X}
END_OF_direct-tek.c
if test 4489 -ne `wc -c <direct-tek.c`; then
    echo shar: \"direct-tek.c\" unpacked with wrong size!
fi
# end of overwriting check
fi
if test -f find-tek.c -a "${1}" != "-c" ; then 
  echo shar: Will not over-write existing file \"find-tek.c\"
else
echo shar: Extracting \"find-tek.c\" \(1124 characters\)
sed "s/^X//" >find-tek.c <<'END_OF_find-tek.c'
X/*
X * If (1) my_name ends in `-tek'
X *    (2) stdout is a terminal,
X *    (3) the flag `to_stdout' is not set
X * it trys to set stdout to be tek-window.
X *
X * It looks first in ./.tek-tty then in $HOME/.tek-tty
X * for the name of a tty device,
X * and if it finds one, it checks that that tty belongs to
X * the user running this process.  This check can be overridden
X * by the flag `force-tek-tty'
X */
X
X#include <stdio.h>
X#include <sys/params.h>
X
Xint find_tek_tty(to_stdout,force)
Xint to_stdout;
Xint force;
X{
X  char *getenv();
X  char *home,*tek,buffer[MAXPATHLEN];
X  int found_tek=0;
X  path = getenv("HOME");
X  if (   to_stdout
X      || !isatty(1)
X      || strcmp("-tek",my_name+length(my_name)-4)) return;
X
X  tek = getenv("TEKTTY");
X  home = getenv("HOME");
X  
X  if (tek) {
X    if (found_tek(tek,force)) return;
X    strcpy(buffer,home);
X    strcat(buffer,"/");
X    strcat(buffer,tek);
X    if (found_tek(buffer,force)) return;
X  }
X  if (found_tek(".tek-tty",force)) return;
X  strcpy(buffer,home);
X  strcat(buffer,"/.tek-tty");
X  if (found_tek(buffer,force)) return;
X}
X
Xfound_tek(name,force)
Xchar *name;
Xint force;
X{
X  if 
X}
END_OF_find-tek.c
if test 1124 -ne `wc -c <find-tek.c`; then
    echo shar: \"find-tek.c\" unpacked with wrong size!
fi
# end of overwriting check
fi
if test -f hat.c -a "${1}" != "-c" ; then 
  echo shar: Will not over-write existing file \"hat.c\"
else
echo shar: Extracting \"hat.c\" \(990 characters\)
sed "s/^X//" >hat.c <<'END_OF_hat.c'
X/*
X * generates a mexican hat
X * usage: hat grid-size radius
X * the radius should be given in radians
X * the grid size is the number of points along each axis
X */
X
X#include <math.h>
X#include <stdio.h>
X
Xdouble sigmoid(x)
Xdouble x;
X{
X  return 1/(1 + exp(x));
X}
X
Xmain(argc,argv)
Xint argc;
Xchar *argv[];
X{
X  double radius=20;
X  double x,y,inc,z;
X  int i,j,points;
X  if (argc<2) {
X    fprintf(stderr,"usage: %s grid-points [radius]\n\"%s 60 20\" is good\n",argv[0],argv[0]);
X    exit(1);
X  }
X  points = atoi(argv[1]);
X  if (argc>2)
X    radius = atof(argv[2]);
X  if (radius==0 || points<2) {
X    fprintf(stderr,"%s: radius is 0 or number of points is < 2\n",argv[0]);
X    exit(1);
X  }
X  inc = radius/points;
X  x = -radius/2;
X  printf("%d %d\n",points,points);
X  for (i=0;i<points;i++) {
X    y = -radius/2;
X    for (j=0;j<points;j++) {
X      z = sqrt(x*x + y*y); 
X      printf("%g ",cos(z) * sigmoid(z*8/radius) * sigmoid(-z*8/radius));
X      y += inc;
X    }
X    printf("\n");
X    x += inc;
X  }
X}
END_OF_hat.c
if test 990 -ne `wc -c <hat.c`; then
    echo shar: \"hat.c\" unpacked with wrong size!
fi
# end of overwriting check
fi
if test -f hills.c -a "${1}" != "-c" ; then 
  echo shar: Will not over-write existing file \"hills.c\"
else
echo shar: Extracting \"hills.c\" \(2517 characters\)
sed "s/^X//" >hills.c <<'END_OF_hills.c'
X/*******************************************************\
X* 							*
X*              @(#)hills.c	1/13/89			*
X*	Author:       Tony Plate			*
X*	Copyright (C) 1989 Tony Plate			*
X*	This program may be freely distributed and	*
X*	used, provided that this copyright notice is	*
X*	retained intact.  There is no warranty with	*
X*	this software.					*
X* 							*
X\*******************************************************/
X#include <stdio.h>
X#define DB(X) 
X/*
X * hills - toy program - generate a matrix with hills - randomly
X * two arguments, edge of matrix & number of hills
X */
X
Xint max(x,y) int x,y; { if (x > y) return x; else return y; }
Xint min(x,y) int x,y; { if (x < y) return x; else return y; }
Xint iab(x) int x; { if (x >= 0) return x; else return -x; }
X
Xint inbounds(array,d,x,y)
Xint *array,d,x,y;
X{
X  DB( printf("[%2d %2d ",x,y); )
X  if ((x<0) || (x>=d) || (y<0) || (y>=d)) {
X    DB( printf("--] "); )
X    return 0;
X  } else {
X    DB( printf("%2d] ",array[x*d + y]); )
X    return array[x*d + y];
X  }
X}
X
Xmain(argc,argv)
Xint argc;
Xchar *argv[];
X{
X  int d,n_hills,*array,height,i,j,x,y,corrected,new;
X  height = 5;
X  if (argc < 3) {
X    fprintf(stderr,"usage: %s size n-hills [height [seed]]\n",argv[0]);
X    exit(1);
X  }
X  d = atoi(argv[1]);
X  n_hills = atoi(argv[2]);
X  if (argc > 3) height = atoi(argv[3]);
X  srandom(getpid());
X  if (argc > 3) srandom(atoi(argv[4]));
X  array = (int*)calloc(sizeof(int),d * d);
X  for (i=0;i<d;i++)
X    for (j=0;j<d;j++)
X      array[i*d+j]=0;
X  for (;n_hills > 0;n_hills--) {
X    x = random() % d;
X    y = random() % d;
X    array[x*d+y]=height;
X    /*
X    for (i=max(x-height,0);i<=min(x+height,d);i++)
X      for (j=max(y-height,0);j<=min(x+height,d);j++) {
X	array[i*d+j] = max(array[i*d+j],min(height-iab(i-x),height-iab(j-y)));
X      }
X    */
X  }
X  do {
X    corrected = 0;
X    for (i=0;i<d;i++)
X      for (j=0;j<d;j++) {
X	DB( printf("Looking at [%2d %2d %2d]: ",i,j,array[i*d+j]); )
X	new = max(inbounds(array,d,i,j),
X		  max(inbounds(array,d,i-1,j-1),
X		  max(inbounds(array,d,i-1,j  ),
X		  max(inbounds(array,d,i-1,j+1),
X		  max(inbounds(array,d,i  ,j-1),
X		  max(inbounds(array,d,i  ,j+1),
X		  max(inbounds(array,d,i+1,j-1),
X		  max(inbounds(array,d,i+1,j  ),
X		  inbounds(array,d,i+1,j+1))))))))-1);
X	DB( printf("new = %d\n",new); )
X	if (array[i*d+j]!=new) {
X	  corrected++;
X	  array[i*d+j]=new;
X	}
X      }
X  } while (corrected);
X  array[0]=height+1;
X  printf("%d %d\n",d,d);
X  for (i=0;i<d;i++) {
X    for (j=0;j<d;j++)
X      printf(" %3d",array[i*d+j]);
X    printf("\n");
X  }
X}
END_OF_hills.c
if test 2517 -ne `wc -c <hills.c`; then
    echo shar: \"hills.c\" unpacked with wrong size!
fi
# end of overwriting check
fi
if test -f pswrap.c -a "${1}" != "-c" ; then 
  echo shar: Will not over-write existing file \"pswrap.c\"
else
echo shar: Extracting \"pswrap.c\" \(6751 characters\)
sed "s/^X//" >pswrap.c <<'END_OF_pswrap.c'
X/*
X * pswrap - put a prologue and epilogue around a postscript file
X */
X#include <stdio.h>
X#include <math.h>
X#include <sys/types.h>
X#include <sys/time.h>
X
Xint ps_box_size = 10000; /* the diagram is assumed to be in a 10000x10000 box */
Xchar *title = "standard input";
Xint font_size = 200;
Xint font_size_set = 0;
Xfloat x_pos = 1;	/* prfloating size and position, in inches */
Xfloat y_pos = 1;
Xfloat x_size = 6;
Xfloat y_scale = 1;
Xint x_pack;
Xint y_pack;
Xfloat page_bottom = 1;
Xfloat page_height = 9; /* from bottom, the date will go just above this */
Xfloat page_margin = 1;
Xfloat page_width  = 6; /* from margin */
Xint n_diagrams = 0;
Xint do_date = 1;
Xchar *diag[100];
Xchar *my_name;
Xchar *user;
Xchar *date;
X
Xchar *options_description[] = {
X"-nodate	: don't display the date",
X"-fontsize N	: set the fontsize used in the diagrams",
X"-y_scale S	: set the ratio height:width",
X  NULL
X};
X
Xmain(argc,argv)
Xint argc;
Xchar *argv[];
X{
X  struct timeval tv;
X  struct timezone tz;
X  gettimeofday(&tv,&tz);
X  date = ctime(&tv.tv_sec);
X  my_name = argv[0];
X  process_options(argv);
X  find_best_packing();
X  print_diagrams();
X}
X
Xprint_diagrams()
X{
X  char **p = diag;
X  float x,y;
X  int i,j;
X  y = page_bottom + page_height - x_size*y_scale;
X  x = page_margin;
X  /* font size gets smaller as drawing boxes get smaller, but not unreadable */
X  if (!font_size_set) font_size = (sqrt(x_size)*ps_box_size)/81.65;
X  header();
X  i = j = 0;
X  while (*p) {
X    printf("%% file: %s of %d, position %g %g, scale %g %g\n",*p,n_diagrams,x,y,x_size,x_size*y_scale);
X    printf("save 72 72 scale %g %g translate\n",x,y);
X    printf("%g %g scale save\n",x_size,x_size*y_scale);
X    printf("1 %d div 1 %d div scale\n",ps_box_size,ps_box_size);
X    printf("[] 0 setdash 1 setlinewidth\n");
X    cat(*p);
X    printf("restore restore\n");
X    /* fprintf(stderr,"i=%d x_pack=%d j=%d y_pack=%d\n",i,x_pack,j,y_pack); */
X    if (++i<x_pack) {
X      x += x_size;
X    } else {
X      j++;
X      i = 0;
X      y -= y_scale*x_size;
X      x = page_margin;
X    }
X    p++;
X  }
X  trailer();
X}
X
Xcat(file)
Xchar *file;
X{
X  FILE *f;
X  int c;
X  extern char *sys_errlist[];
X  extern int errno;
X  if (!strcmp("-",file))
X    f=stdin;
X  else
X    f=fopen(file,"r");
X  if (f==NULL) {
X    fprintf(stderr,"%s: can't open \"%s\": %s\n",my_name,file,sys_errlist[errno]);
X  } else {
X    while ((c=getc(f))!=EOF) putchar(c);
X  }
X}
X
Xheader()
X{
X  printf("%%!PS-Adobe-1.0\n");
X  printf("%%%%Creator: pswrap\n");
X  printf("%%%%For: %s\n",getenv("USER"));
X  printf("%%%%CreationDate: %s",date);
X  printf("%%%%Title: diagrams\n");
X  printf("%%%%Pages: (atend)\n");
X  printf("%%%%DocumentFonts: (atend)\n");
X  printf("/inches { 72 mul } def\n");
X  printf("/cm { 28.34646 mul } def\n");
X  printf("%% xy xy xy xy\n");
X  printf("/sqfill {\n");
X  printf("    newpath\n");
X  printf("    moveto\n");
X  printf("    lineto\n");
X  printf("    lineto\n");
X  printf("    lineto\n");
X  printf("    closepath\n");
X  printf("    gsave\n");
X  printf("    1 setgray\n");
X  printf("    fill\n");
X  printf("    grestore\n");
X  printf("    0 setgray\n");
X  printf("    stroke\n");
X  printf("} def\n");
X  printf("%% xy xy xy\n");
X  printf("/trfill {\n");
X  printf("    newpath\n");
X  printf("    moveto\n");
X  printf("    lineto\n");
X  printf("    lineto\n");
X  printf("    gsave\n");
X  printf("    1 setgray\n");
X  printf("    closepath\n");
X  printf("    fill\n");
X  printf("    grestore\n");
X  printf("    0 setgray\n");
X  printf("    stroke\n");
X  printf("} def    \n");
X  printf("/sq {\n");
X  printf("    newpath\n");
X  printf("    moveto\n");
X  printf("    lineto\n");
X  printf("    lineto\n");
X  printf("    lineto\n");
X  printf("    closepath\n");
X  printf("    0 setgray\n");
X  printf("    stroke\n");
X  printf("} def\n");
X  printf("/tr {\n");
X  printf("    newpath\n");
X  printf("    moveto\n");
X  printf("    lineto\n");
X  printf("    lineto\n");
X  printf("    closepath\n");
X  printf("    0 setgray\n");
X  printf("    stroke\n");
X  printf("} def\n");
X  printf("/label {\n");
X  printf("    %d mul\n",font_size);
X  printf("    dup\n");
X  printf("    0 lt { %d add } if\n",ps_box_size);
X  printf("    exch\n");
X  printf("    %d mul\n",font_size);
X  printf("    dup\n");
X  printf("    0 lt { %d add } if\n",ps_box_size);
X  printf("    exch\n");
X  printf("    moveto\n");
X  printf("    show\n");
X  printf("} def\n");
X  printf("/text {\n");
X  printf("    moveto\n");
X  printf("    show\n");
X  printf("} def\n");
X  printf("%%%%EndProlog\n");
X  printf("gsave\n");
X  printf("/Courier findfont\n");
X  printf("%d scalefont setfont\n",font_size);
X}
X
Xtrailer()
X{
X  printf("showpage\n");
X  printf("grestore\n");
X  printf("%%%%Trailer\n");
X  printf("%%%%DocumentFonts: Courier\n");
X  printf("%%%%Pages: 1\n");
X}
X
Xprocess_options(argv)
Xchar *argv[];
X{
X  char *p;
X  while (p = *(++argv)) {
X    if (*p == '-') {
X      p++;
X      if (prefix(p,"ps_scale")) {
X	if (!*(++argv)) error("Expected box size after '-%s'",p);
X	ps_box_size = atoi(*argv);
X      } else if (prefix(p,"nodate")) {
X	do_date = 0;
X      } else if (prefix(p,"fontsize")) {
X	if (!*(++argv)) error("Expected number after '-%s'",p);
X	font_size = atoi(*argv);
X	font_size_set = 1;
X      } else if (prefix(p,"yscale")) {
X	if (!*(++argv)) error("Expected scale factor after '-%s'",p);
X	y_scale = atof(*argv);
X      } else {
X	error("Bad argument: '%s'",p);
X      }
X    } else {
X      diag[n_diagrams++] = *argv;
X    }
X  }
X  if (n_diagrams==0) {
X    diag[n_diagrams++] = "-";
X  }
X}
X
Xfind_best_packing()
X{
X  int n = n_diagrams;
X  float max_size=0;
X  float y_size;
X  int max_size_x_pack=0;
X  int max_size_y_pack=0;
X  for (x_pack=1;x_pack<=n;x_pack++) {
X    x_size = page_width/x_pack;
X    y_pack = n/x_pack;
X    if (n % x_pack) y_pack++;
X    y_size = page_height/y_pack;
X    if (y_size<x_size*y_scale) x_size = y_size/y_scale;
X    if (x_size > max_size) {
X      max_size = x_size;
X      max_size_x_pack = x_pack;
X      max_size_y_pack = y_pack;
X    }
X  }
X  x_pack = max_size_x_pack;
X  y_pack = max_size_y_pack;
X  x_size = max_size;
X  if ((x_pack+1)*x_size <= page_width) x_pack++;
X}
X
X/*
X * return 1 if prefix is an unambigous prefix of the option 'word'
X */
X
Xprefix(prefix,word)
Xchar *prefix,*word;
X{
X  int matches,len;
X  char **option;
X  len = strlen(prefix);
X  if (strncmp(prefix,word,len)) return 0;
X  if (strlen(word) == len) return 1;
X  /* we've got a prefix match, check for ambiguity */
X  matches = 0;
X  option = options_description;
X  while (*option) {
X    if (option[0][0]=='-' && !strncmp(prefix,option[0]+1,len))
X      matches++;
X    option++;
X  }
X  if (matches==1) return 1;
X  else return 0;
X}
X
Xprint_options()
X{
X  char **p = options_description;
X  while (*p) printf("%s\n",*p++);
X}
X
Xerror(s,p)
X{
X  char str[200];
X  fprintf(stderr,sprintf(str,"%s: %s\n",my_name,s),p);
X  exit(1);
X}
END_OF_pswrap.c
if test 6751 -ne `wc -c <pswrap.c`; then
    echo shar: \"pswrap.c\" unpacked with wrong size!
fi
# end of overwriting check
fi
if test -f read_matrix.c -a "${1}" != "-c" ; then 
  echo shar: Will not over-write existing file \"read_matrix.c\"
else
echo shar: Extracting \"read_matrix.c\" \(2372 characters\)
sed "s/^X//" >read_matrix.c <<'END_OF_read_matrix.c'
X/*******************************************************\
X* 							*
X*              @(#)read_matrix.c	1/2/89		*
X*	Author:       Tony Plate			*
X*	Copyright (C) 1989 Tony Plate			*
X*	This program may be freely distributed,		*
X*	provided that this copyright notice is		*
X*	retained intact.  There is no warranty		*
X*	with this software.				*
X* 							*
X\*******************************************************/
X
X#include <stdio.h>
X/*
X * one function that will read in a matrix, (and allocate space for it)
X */
X
Xfloat *read_matrix(x_dim,y_dim)
Xint *x_dim,*y_dim;
X{
X  float v,*matrix;
X  int x,y,r,stop;
X  int long_matrix = 0;	/* true if we don't know the # of y lines */
X  if (scanf(" %d",x_dim)!=1) {
X    fprintf(stderr,"read_matrix: couldn't read x dimensions\n");
X    return NULL;
X  }
X  if (scanf(" *%c",&x)==1) {
X    long_matrix = 1;
X  } else if (scanf(" %d",y_dim)!=1) {
X    fprintf(stderr,"read_matrix: couldn't read y dimension\n");
X    return NULL;
X  }
X  if (!long_matrix) {
X    if (*x_dim<=0 || *y_dim<=0) {
X      fprintf(stderr,"read_matrix: bad dimensions %d %d\n",*x_dim,*y_dim);
X      return NULL;
X    }
X    matrix = (float *) calloc(*x_dim * *y_dim , sizeof(float));
X    if (matrix==NULL) {
X      fprintf(stderr,"read_matrix: can't allocate space\n");
X      return NULL;
X    }  
X    for (y=0;y<*y_dim;y++)
X      for (x=0;x<*x_dim;x++)
X	if (scanf(" %f",&v)!=1) {
X	  fprintf(stderr,"read_matrix: can't read value row=%d,col=%d\n",y,x);
X	  return NULL;
X	} else matrix[y*(*x_dim) + x] = v;
X  } else {
X    if (*x_dim<=0) {
X      fprintf(stderr,"read_matrix: bad x dimensions %d\n",*x_dim);
X      return NULL;
X    }
X    *y_dim = 1;
X    matrix = (float *) calloc(*x_dim * *y_dim , sizeof(float));
X    if (matrix==NULL) {
X      fprintf(stderr,"read_matrix: can't allocate space\n");
X      return NULL;
X    }
X    stop = 0;
X    for (y=0;!stop;y++) {
X      for (x=0;x<*x_dim;x++) {
X	if (scanf(" %f",&v)!=1) {
X	  if (x!=0) {
X	    fprintf(stderr,"read_matrix: can't read value row=%d,col=%d\n",y,x);
X	    return NULL;
X	  } else {
X	    stop = 1;
X	    break;
X	  }
X	} else {
X	  if (y==*y_dim) {
X	    (*y_dim)++;
X	    matrix = (float *) realloc(matrix,*x_dim * *y_dim * sizeof(float));
X	    if (matrix==NULL) {
X	      fprintf(stderr,"read_matrix: can't reallocate space\n");
X	      return NULL;
X	    }  
X	  }
X	  matrix[y*(*x_dim) + x] = v;
X	}
X      }
X    }
X  }
X  return matrix;
X}
END_OF_read_matrix.c
if test 2372 -ne `wc -c <read_matrix.c`; then
    echo shar: \"read_matrix.c\" unpacked with wrong size!
fi
# end of overwriting check
fi
if test -f showfloat.c -a "${1}" != "-c" ; then 
  echo shar: Will not over-write existing file \"showfloat.c\"
else
echo shar: Extracting \"showfloat.c\" \(1479 characters\)
sed "s/^X//" >showfloat.c <<'END_OF_showfloat.c'
X#include <math.h>
X#include "showfloat.h"
X
X/*
X * sn(d) returns a three character representation of the floating point
X * number 'd'.  It just represents values between -1.0 & +1.0, it was
X * designed so that probability matrices could be printed compactly.
X * If a number is less than 0.1, but greater than or equal to 0.01, it is
X * represented as :n (double decimal point)
X * output       d
X *  ^^          > 1.0
X *  ++          = 1.0      100 %
X *  nn          = 0.nn     nn%
X *  .n          = 0.00n    n/10 of %
X *  :n          = 0.000n   n/100 of %
X */
Xint sign(d)
Xdouble d;
X{
X  if (d<0) return -1;
X  else return 1;
X}
X
Xchar *sn(d)
Xdouble d;
X{
X  char *res,c,p;
X  int i;
X  static char str[40];
X  if (d < -1.0) res = " __";
X  else if (d > 1.0) res = " ^^";
X  else {
X    res = str;
X    i = 100 * (d + sign(d)*0.005);
X    if ((i != 0) && (fabs(d) >= 0.0095)) {
X      sprintf(str,"%3d",i);
X      if (i == 100) res = " =1";
X      if (i == -100) res = "=-1";
X    }
X    else {
X      i = 1000 * (d + sign(d)*0.0005);
X      p = '.';
X      if (i==0 || fabs(d) < 0.00095) {p=':'; i = 10000 * (d+sign(d)*0.00005);}
X      c = ' ';
X      if (i < 0) { i = -i; c = '-'; }
X      sprintf(str,"%c%c%1d",c,p,i);
X      if (i == 0) res = "  0";
X    }
X  }
X  return res;
X}
X
Xchar *tn(x)
Xdouble x;
X{
X  static char str[40];
X  sprintf(str," %g",x);
X  return str;
X}
X
X#ifdef MAIN
Xmain(argc,argv)
Xint argc;
Xchar *argv[];
X{
X  double x,atof();
X  x = atof(argv[1]);
X  printf("%s == %s\n",sn(x),tn(x));
X}
X#endif
END_OF_showfloat.c
if test 1479 -ne `wc -c <showfloat.c`; then
    echo shar: \"showfloat.c\" unpacked with wrong size!
fi
# end of overwriting check
fi
if test -f stdoutpipe.c -a "${1}" != "-c" ; then 
  echo shar: Will not over-write existing file \"stdoutpipe.c\"
else
echo shar: Extracting \"stdoutpipe.c\" \(868 characters\)
sed "s/^X//" >stdoutpipe.c <<'END_OF_stdoutpipe.c'
X/*
X * like popen(command,"w"), except that stdout is out end of the pipe
X */
X#include <stdio.h>
Xextern char *my_name;
X
Xstdoutpipe(argv,killme)
Xchar *argv[];
Xint killme;
X{
X  int pipes[2];
X  int r;
X  extern int errno;
X  extern char *sys_errlist[];
X  int parent_pid = getpid();
X  pipe(pipes);
X  if (pipe(pipes)!=0) {
X    fprintf(stderr,"%s: couldn't create pipe: %s\n",my_name,sys_errlist[errno]);
X    exit(1);
X  }
X  if (r=fork()) {
X    /* parent */
X    if (r<0) {
X      fprintf(stderr,"%s: fork failed: %s\n",my_name,sys_errlist[errno]);
X      exit(1);
X    }
X    /* make stdout the write to the pipe */
X    dup2(pipes[1],1);
X  } else {
X    /* child - make stdin come from the pipe */
X    dup2(pipes[0],0);
X    execv(argv[0],argv);
X    fprintf(stderr,"%s: exec failed: %s: %s\n",my_name,argv[0],sys_errlist[errno]);
X    if (killme) kill(parent_pid,9);
X    exit(1);
X  }
X}
END_OF_stdoutpipe.c
if test 868 -ne `wc -c <stdoutpipe.c`; then
    echo shar: \"stdoutpipe.c\" unpacked with wrong size!
fi
# end of overwriting check
fi
if test -f surface.c -a "${1}" != "-c" ; then 
  echo shar: Will not over-write existing file \"surface.c\"
else
echo shar: Extracting \"surface.c\" \(11790 characters\)
sed "s/^X//" >surface.c <<'END_OF_surface.c'
X/*******************************************************\
X* 							*
X*              @(#)surface.c	1/2/89			*
X*	Author:       Tony Plate			*
X*	Copyright (C) 1989 Tony Plate			*
X*	This program may be freely distributed,		*
X*	provided that this copyright notice is		*
X*	retained intact.  There is no warranty		*
X*	with this software.				*
X* 							*
X\*******************************************************/
X
X/*
X * read a matrix, and output it in one of 4 formats:
X * The X and Y directions are used for the positions of values, the Z direction
X * is used to represent the value.
X */
X
X#include <math.h>
X#include <stdio.h>
X#include <ctype.h>
X#include "read_matrix.h"
X
Xchar *options_description[] = {
X"Options: (an unambiguous substring is sufficient)",
X"-array		: display as a matrix (same format as input)",
X"-ascii		: ascii format",
X"-binary		: binary output (default)",
X"-brief		: display as a matrix, using brief format numbers",
X"-delimit <DELIMITER>	: only take material from inside the",
X"		  two lines containing the string <DELIMITER>",
X"-grid		: draw 3d grid lines (default)",
X"-help		: display this information",
X"-histogram	: histogram style",
X"-polygon	: sqare polygons",
X"-squaregrid	: change the y upper bound so that the grid is square",
X"-suppresstext	: suppress text following the array",
X"-transpose	: transpose the x and y-axis",
X"-triangle	: triangular polygons",
X"-unit		: the input surface is in the XY unit square",
X"-x <low> <high>: specify the X bounds of the input surface",
X"-xlines		: just draw the lines in the x-direction",
X"-y <low> <high>: specify the Y bounds of the input surface",
X"-ylines		: just draw the lines in the y-direction",
XNULL
X};
X
X
X#define DB(X) 
Xenum {ARRAY,GRID,X_GRID,Y_GRID,BRIEF,TRIANGLES,SQUARES} output_format;
Xint transpose=0;
Xint histogram=0;
Xint squaregrid=0;
Xint text_follow=1;
Xfloat xlow=0;
Xfloat xhigh=0;
Xfloat ylow=0;
Xfloat yhigh=0;
Xint x_dim,y_dim;
X
Xenum {ASCII,BINARY} number_format=BINARY;
X#define LEN 16384
Xchar str[LEN];
X
Xprint_options()
X{
X  char **p;
X  p = options_description;
X  while (*p) printf("%s\n",*p++);
X}
X
X
Xmain(argc,argv)
Xint argc;
Xchar *argv[];
X{
X  int x,y,label_found;
X  char *p,*label,*my_name;
X  float *matrix;
X  my_name = argv[0];
X  output_format = GRID;
X  label = NULL;
X  while (*(++argv)) {
X    p = argv[0];
X    if (*p == '-') {
X      p++;
X      if (prefix(p,"array"))
X	output_format = ARRAY;
X      else if (prefix(p,"ascii"))
X	number_format = ASCII;
X      else if (prefix(p,"binary"))
X	number_format = BINARY;
X      else if (prefix(p,"brief"))
X	output_format = BRIEF;
X      else if (prefix(p,"delimit"))
X	label = *(++argv);
X      else if (prefix(p,"grid"))
X	output_format = GRID;
X      else if (prefix(p,"help")) {
X	print_options();
X	exit(0);
X      } else if (prefix(p,"histogram"))
X	histogram = 1;
X      else if (prefix(p,"polygon"))
X	output_format = SQUARES;
X      else if (prefix(p,"transpose"))
X	transpose = 1;
X      else if (prefix(p,"triangle"))
X	output_format = TRIANGLES;
X      else if (prefix(p,"x")) {
X	if (argv[1]==NULL || argv[2]==NULL) {
X	  fprintf(stderr,"%s: expected two numbers after -x\n",my_name);
X	  exit(1);
X	}
X	xlow = atof(argv[1]);
X	xhigh = atof(argv[2]);
X	argv++;
X	argv++;
X      } else if (prefix(p,"y")) {
X	if (argv[1]==NULL || argv[2]==NULL) {
X	  fprintf(stderr,"%s: expected two numbers after -y\n",my_name);
X	  exit(1);
X	}
X	ylow = atof(argv[1]);
X	yhigh = atof(argv[2]);
X	argv++;
X	argv++;
X      } else if (prefix(p,"unit")) {
X	xlow = 0; xhigh = 1;
X	ylow = 0; yhigh = 1;
X      } else if (prefix(p,"xlines"))
X	output_format = X_GRID;
X      else if (prefix(p,"ylines"))
X	output_format = Y_GRID;
X      else if (prefix(p,"squaregrid"))
X	squaregrid = 1;
X      else if (prefix(p,"suppresstext"))
X	text_follow = 0;
X      else goto bad_option;
X    } else {
X      
X    bad_option:
X      fprintf(stderr,"%s: bad or ambiguous option: %s\nType \"%s -help\" to see list of options\n",my_name,argv[0],my_name);
X      exit(1);
X    }
X  }
X  if (label!=NULL) {
X    /*
X     * find the label string in the file
X     */
X    label_found=0;
X    while (!label_found && fgets(str,LEN,stdin)!=NULL)
X      if (substring(label,str)) label_found=1;
X    if (!label_found) {
X      fprintf(stderr,"%s: label %s not in input\n",my_name,label);
X      exit(1);
X    }
X  }
X  if ((matrix = read_matrix(&x_dim,&y_dim))==NULL) exit(1);
X  if (xlow==0 && xhigh==0) xhigh = x_dim;
X  if (ylow==0 && yhigh==0) yhigh = y_dim;
X  if (squaregrid) {
X    yhigh = y_dim*(xhigh - xlow)/x_dim + ylow;
X  }
X  if (transpose) {
X    int old_x,old_y,i,start;
X    float tmp,new_tmp;
X    char *done;
X    done = (char*)calloc(x_dim,y_dim);
X    /*
X     * this is a difficult transpose to do in place,
X     * because the array may not be square.
X     * we do it by a permutation - work out where 0,1 goes, etc.
X     */
X    start = 0;
X    while (start < x_dim*y_dim) {
X      i = start;
X      old_y = i / x_dim;
X      old_x = i % x_dim;
X      tmp = matrix[i];
X      /* printf("(%d",i); */
X      do {
X	done[i]++;
X	i = old_x * y_dim + old_y;
X	/* printf(",%d",i); */
X	new_tmp = matrix[i];
X	matrix[i] = tmp;
X	tmp = new_tmp;
X	old_y = i / x_dim;
X	old_x = i % x_dim;
X      } while (i!=start);
X      /* printf(")\n"); */
X      while (done[start] && start<x_dim*y_dim) start++;
X    }
X    i = y_dim;
X    y_dim = x_dim;
X    x_dim = i;
X    tmp = xlow; xlow = ylow; ylow = xlow;
X    tmp = xhigh; xhigh = yhigh; yhigh = xhigh;
X  }
X  if (number_format==BINARY && output_format!=BRIEF && output_format!=ARRAY)
X    printf("binary format float4\n");
X  /*
X   * horizontal lines, non-histogram
X   */
X  if (!histogram && (output_format==GRID || output_format==X_GRID))
X    for (y=0;y<y_dim;y++)
X      for (x=0;x<x_dim;x++)
X	point((x==0 ? 'm' : 'n'),x,y,matrix[y*x_dim+x]);
X  /*
X   * vertical lines, non-histogram
X   */
X  if (!histogram && (output_format==GRID || output_format==Y_GRID))
X    for (x=0;x<x_dim;x++)
X      for (y=0;y<y_dim;y++)
X	point((y==0 ? 'm' : 'n'),x,y,matrix[y*x_dim+x]);
X  /*
X   * square panels, non-histogram
X   */
X  if (!histogram && output_format==SQUARES) {
X    for (x=0;x<x_dim-1;x++) {
X      for (y=0;y<y_dim-1;y++) {
X	point('m',x,y,matrix[y*x_dim+x]);
X	point('n',x+1,y,matrix[y*x_dim+x+1]);
X	point('n',x+1,y+1,matrix[(y+1)*x_dim+x+1]);
X	point('n',x,y+1,matrix[(y+1)*x_dim+x]);
X	point('j',x,y,matrix[y*x_dim+x]);
X      }
X    }
X  }
X  /*
X   * triangular panels, non-histogram
X   */
X  if (!histogram && output_format==TRIANGLES) {
X    fprintf(stderr,"Can't do triangles yet!\n");
X    exit(1);
X  }
X  /*
X   * square panels, histogram
X   */
X  if (histogram && (output_format==SQUARES || output_format==TRIANGLES)) {
X    int n_square=0;
X    for (x=0;x<x_dim;x++) {
X      for (y=0;y<y_dim;y++) {
X	DB( fprintf(stderr,"Doing %d %d (%g)\n",x,y,matrix[y*x_dim+x]); )
X	/* a flat square */
X	point('m',x,y,matrix[y*x_dim+x]);
X	point('n',x+1,y,matrix[y*x_dim+x]);
X	point('n',x+1,y+1,matrix[y*x_dim+x]);
X	point('n',x,y+1,matrix[y*x_dim+x]);
X	point('j',x,y,matrix[y*x_dim+x]);
X	DB( sprintf(str," sq %d",n_square); point_text(str); )
X	/* the vertical square in the x direction */
X	if (x<x_dim-1 && matrix[y*x_dim+x]!=matrix[y*x_dim+x+1]) {
X	  point('m',x+1,y,matrix[y*x_dim+x]);
X	  point('n',x+1,y,matrix[y*x_dim+x+1]);
X	  point('n',x+1,y+1,matrix[y*x_dim+x+1]);
X	  point('n',x+1,y+1,matrix[y*x_dim+x]);
X	  point('j',x+1,y,matrix[y*x_dim+x]);
X	}
X	/* the vertical square in the y direction */
X	if (y<y_dim-1 && matrix[y*x_dim+x]!=matrix[(y+1)*x_dim+x]) {
X	  point('m',x,y+1,matrix[y*x_dim+x]);
X	  point('n',x,y+1,matrix[(y+1)*x_dim+x]);
X	  point('n',x+1,y+1,matrix[(y+1)*x_dim+x]);
X	  point('n',x+1,y+1,matrix[y*x_dim+x]);
X	  point('j',x,y+1,matrix[y*x_dim+x]);
X	}
X	n_square++;
X      }
X    }
X  }
X  if (output_format==BRIEF) {
X    printf("%d %d\n",x_dim,y_dim);
X    for (y=0;y<y_dim;y++) {
X      for (x=0;x<x_dim;x++)
X	printf("%s",sn(matrix[y*x_dim + x]));
X      printf("\n");
X    }
X  }
X  if (output_format==ARRAY) {
X    printf("%d %d\n",x_dim,y_dim);
X    for (y=0;y<y_dim;y++) {
X      for (x=0;x<x_dim;x++)
X	printf(" %11g",matrix[y*x_dim + x]);
X      printf("\n");
X    }
X  }
X  /*
X   * horizontal lines, histogram
X   */
X  if (histogram && (output_format==GRID || output_format==Y_GRID)) {
X    for (y=0;y<=y_dim;y++) {
X      if (y>0) {
X	point_next('m');
X	for (x=0;x<=x_dim;x++) {
X	  if (x>0)
X	    point('n',x,y,matrix[(y-1)*x_dim + x-1]);
X	  if (x<x_dim &&
X	      (x==0 || (matrix[(y-1)*x_dim + x-1]!=matrix[(y-1)*x_dim + x])))
X	    point('n',x,y,matrix[(y-1)*x_dim + x]);
X	}
X      }
X      if (y<y_dim) {
X	point_next('m');
X	for (x=0;x<=x_dim;x++) {
X	  if (x>0) point('n',x,y,matrix[y*x_dim + x-1]);
X	  if (x<x_dim
X	      && (x==0 || (matrix[y*x_dim + x-1]!=matrix[y*x_dim + x])))
X	    point('n',x,y,matrix[y*x_dim + x]);
X	}
X      }
X    }
X  }
X  /*
X   * vertical lines, histogram
X   */
X  if (histogram && (output_format==GRID || output_format==X_GRID)) {
X    for (x=0;x<=x_dim;x++) {
X      if (x>0) {
X	point_next('m');
X	for (y=0;y<=y_dim;y++) {
X	  if (y>0) point('n',x,y,matrix[(y-1)*x_dim + x-1]);
X	  if (y<y_dim
X	      && (y==0 || (matrix[(y-1)*x_dim + x-1]!=matrix[y*x_dim + x-1])))
X	    point('n',x,y,matrix[y*x_dim + x-1]);
X	}
X      }
X      if (x<x_dim) {
X	point_next('m');
X	for (y=0;y<=y_dim;y++) {
X	  if (y>0) point('n',x,y,matrix[(y-1)*x_dim + x]);
X	  if (y<y_dim
X	      && (y==0 || (matrix[(y-1)*x_dim + x]!=matrix[y*x_dim + x])))
X	    point('n',x,y,matrix[y*x_dim + x]);
X	}
X      }
X    }
X  }
X  point_end();
X  label_found=0;
X  if (text_follow)
X    while (fgets(str,LEN,stdin)!=NULL && !label_found)
X      if (!isblank(str)) {
X	if (label!=NULL && substring(label,str)) label_found=1;
X	else {
X	  /* if (number_format==BINARY) putc('t',stdout); */
X	  fputs(str,stdout);
X	}
X      }
X}
X
Xstatic prev_type=0;
Xstatic use_type=0;
X
Xpoint_end()
X{
X  if (number_format==ASCII) {
X    if (prev_type=='m' || prev_type=='n')
X      printf("\" \n");
X  } else if (number_format==BINARY) {
X    /*
X    if (prev_type=='m' || prev_type=='n')
X      putc('e',stdout);
X     */
X  }
X  prev_type = 0;
X}
X
Xpoint_text(text)
Xchar *text;
X{
X  if (number_format==ASCII) {
X    printf("\"%s\n",text);
X  } else if (number_format==ASCII) {
X    printf("t\"%s\n",text);
X  }
X  prev_type = 0;
X}
X
Xpoint_next(type)
Xchar type;
X{
X  use_type = type;
X}
X
Xpoint(type,x,y,z)
Xchar type;
Xint x,y;
Xdouble z;
X{
X  float yf,xf;
X  float zf = z;
X  if (histogram) {
X    yf = (y-0.5)*(yhigh-ylow)/(y_dim-1) + ylow;
X    xf = (x-0.5)*(xhigh-xlow)/(x_dim-1) + xlow;
X  } else {
X    yf = y*(yhigh-ylow)/(y_dim-1) + ylow;
X    xf = x*(xhigh-xlow)/(x_dim-1) + xlow;
X  }
X  if (use_type) { type = use_type; use_type = 0; }
X  if (number_format==ASCII) {
X    if (type=='j') type='n';
X    if (type=='m' && (prev_type=='m' || prev_type=='n')) printf("\" \n");
X    printf("%g %g %g\n",xf,yf,zf);
X  } else if (number_format==BINARY) {
X    if (type=='j') {
X      putc('j',stdout); /* join up */
X      type='n';
X    } else {
X      putc(type,stdout);
X      fwrite(&xf,sizeof(xf),1,stdout);
X      fwrite(&yf,sizeof(yf),1,stdout);
X      fwrite(&zf,sizeof(zf),1,stdout);
X      /* printf("%c %g %g %g\n",type,xf,yf,zf); */
X    }
X  }
X  prev_type = type;
X}
X
Xsubstring(sub,str)
Xchar *sub,*str;
X{
X  register char *p,*q;
X  while (*str) {
X    p = str;
X    q = sub;
X    while (*p && *p == *q) {p++; q++;}
X    if (*q==NULL) return 1;
X    str++;
X  }
X  return 0;
X}
X
Xisblank(str)
Xchar *str;
X{
X  if (str!=NULL)
X    while (*str)
X      if (!isspace(*str++)) return 0;
X  return 1;
X}
X
X/*
X * return 1 if prefix is an unambigous prefix of the option 'word'
X */
X
Xprefix(prefix,word)
Xchar *prefix,*word;
X{
X  int matches,len;
X  char **option;
X  len = strlen(prefix);
X  if (strncmp(prefix,word,len)) return 0;
X  /* we've got a match, check for ambiguity */
X  matches = 0;
X  option = options_description;
X  while (*option) {
X    if (option[0][0]=='-' && !strncmp(prefix,option[0]+1,len))
X      matches++;
X    option++;
X  }
X  if (matches==1) return 1;
X  else return 0;
X}
END_OF_surface.c
if test 11790 -ne `wc -c <surface.c`; then
    echo shar: \"surface.c\" unpacked with wrong size!
fi
# end of overwriting check
fi
if test -f read_matrix.h -a "${1}" != "-c" ; then 
  echo shar: Will not over-write existing file \"read_matrix.h\"
else
echo shar: Extracting \"read_matrix.h\" \(430 characters\)
sed "s/^X//" >read_matrix.h <<'END_OF_read_matrix.h'
X/*******************************************************\
X* 							*
X*              @(#)read_matrix.h	1/2/89		*
X*	Author:       Tony Plate			*
X*	Copyright (C) 1989 Tony Plate			*
X*	This program may be freely distributed,		*
X*	provided that this copyright notice is		*
X*	retained intact.  There is no warranty		*
X*	with this software.				*
X* 							*
X\*******************************************************/
Xfloat *read_matrix();
END_OF_read_matrix.h
if test 430 -ne `wc -c <read_matrix.h`; then
    echo shar: \"read_matrix.h\" unpacked with wrong size!
fi
# end of overwriting check
fi
if test -f showfloat.h -a "${1}" != "-c" ; then 
  echo shar: Will not over-write existing file \"showfloat.h\"
else
echo shar: Extracting \"showfloat.h\" \(193 characters\)
sed "s/^X//" >showfloat.h <<'END_OF_showfloat.h'
Xchar *sn();             /* sn(double) - returns a 3 char string, to represent
X			   a number in the range -1.0 to +1.0. */
Xchar *tn();             /* returns and ordinary %g representation */
X
END_OF_showfloat.h
if test 193 -ne `wc -c <showfloat.h`; then
    echo shar: \"showfloat.h\" unpacked with wrong size!
fi
# end of overwriting check
fi
echo shar: End of archive 2 \(of 3\).
cp /dev/null ark2isdone
MISSING=""
for I in 1 2 3 ; do
    if test ! -f ark${I}isdone ; then
	MISSING="${MISSING} ${I}"
    fi
done
if test "${MISSING}" = "" ; then
    echo You have unpacked all 3 archives.
    rm -f ark[1-9]isdone
else
    echo You still need to unpack the following archives:
    echo "        " ${MISSING}
fi
##  End of shell archive.
exit 0

--
-------------------------------------------------------------------------------
Michel Berkelaar                   | Email: michel at ele.tue.nl      (prefered)
Eindhoven University of Technology |        ..!mcvax!euteal!michel (old)
Dept. of Electrical Engineering    |
Design Automation Section          |
P.O. Box 513                       | Phone: ... - 31 - 40 - 473345
NL-5600 MB Eindhoven               | Fax:   ... - 31 - 40 - 448375
The Netherlands                    |
-------------------------------------------------------------------------------



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