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#! /bin/sh
# This is a shell archive, meaning:
# 1. Remove everything above the #! /bin/sh line.
# 2. Save the resulting text in a file.
# 3. Execute the file with /bin/sh (not csh) to create the files:
#	README
#	Makefile
#	grafig.1
#	object.h
#	grafig.c
# This archive created: Wed Mar 15 16:57:30 1989
export PATH; PATH=/bin:$PATH
if test -f 'README'
then
	echo shar: will not over-write existing file "'README'"
else
cat << \SHAR_EOF > 'README'
GraFig 0.0 is a "trial balloon" program which creates very simple
graphs from numerical data.  It is completely rigid in its operation,
with NO options or features.  I am distributing it for several reasons:

	1) To find out whether there is a need for a fancier
	   version of such a program in the user community.

	2) To find out what the important features of such
	   a program would be.

	3) To demonstrate how easy it is to write a small
	   program which produces graphics in the form of Fig code.
	   (GraFig 0.0 took only several hours to write).

I am interested in hearing back from ANY user who is interested in
this program, even (especially) if you cannot use it because of lack
of features.  I am considering development of a much fancier tool
for the analysis/plotting of data, with an interactive graphical
interface.

Please note: the output of GraFig can be edited using any of the
existing versions of Fig, so you can do a lot of pretty-ing up
of the graphs by hand.  This program is meant to be minimal, in 
order to get design suggestions for a more mature version.
-------
Update 3/15/89

The GnuTeX version of the GnuPlot numerical plotting program can now 
generate Fig code.  Thus, it has many features one would want in a more
mature version of GraFig.  GnuTeX is available via anonymous TFP
from duke.cs.duke.edu.  For more information about GnuTeX, contact
David Kotz (dfk@cs.duke.edu).
SHAR_EOF
fi # end of overwriting check
if test -f 'Makefile'
then
	echo shar: will not over-write existing file "'Makefile'"
else
cat << \SHAR_EOF > 'Makefile'
SHAR = ../../shar/shar
SHARFILES = README Makefile grafig.1 object.h grafig.c

grafig: object.h grafig.c
	cc -O -o grafig grafig.c -lm


shar: ${SHARFILES}
	${SHAR} ${SHARFILES} >../grafig.shar
SHAR_EOF
fi # end of overwriting check
if test -f 'grafig.1'
then
	echo shar: will not over-write existing file "'grafig.1'"
else
cat << \SHAR_EOF > 'grafig.1'
.TH GRAFIG 1 "1 Februrary 1989"

.SH NAME
grafig \- generates numerical graphs in Fig code

.SH SYNOPSIS
.B grafig <data_stream >fig_code

.SH DESCRIPTION
.I Grafig
transforms a stream of data points on its standard input to
a numerical graph on its standard output.
The input is in the form of pairs of numbers representing
x and y coordinates, seperated by white space.
Thus, the set of points {(x1, y1), (x2, y2), ...} could represented
by the input file
.sp
x1 y1
.br
x2 y2
 ...
.sp
The output is in the form of
.I Fig
code, which can be viewed and edited with the fig(1) graphics editor,
and can be incorporated into TeX(1) troff(1), or PostScript documents
using the TransFig(1) translation package.
.PP
This early version of grafig takes NO options or flags.
The output has only one possible form.

.SH "SEE ALSO"
fig(1),
tex(1),
transfig(1),
troff(1),
.SH AUTHOR
Micah Beck (beck@svax.cs.cornell.edu)
SHAR_EOF
fi # end of overwriting check
if test -f 'object.h'
then
	echo shar: will not over-write existing file "'object.h'"
else
cat << \SHAR_EOF > 'object.h'
/* 
 *	FIG : Facility for Interactive Generation of figures
 *
 *	(c) copy right 1985 by Supoj Sutanthavibul (supoj@sally.utexas.edu)
 *      January 1985.
 *	1st revision : Aug 1985.
 *	2nd revision : Feb 1988.
 *
 *	%W%	%G%
*/
#define					DEFAULT			(-1)

typedef		struct f_pattern {
			int			w, h;
			int			*p;
			}
		F_pattern;

typedef		struct f_pen {
			int			x, y;
			int			*p;
			}
		F_pen;

typedef		struct f_point {
			int			x, y;
			struct f_point		*next;
			}
		F_point;

typedef		struct f_pos {
			int			x, y;
			}
		F_pos;

typedef		struct f_arrow {
			int			type;
			int			style;
			double			thickness;
			double			wid;
			double			ht;
			}
		F_arrow;

typedef		struct f_ellipse {
			int			type;
#define					T_ELLIPSE_BY_RAD	1
#define					T_ELLIPSE_BY_DIA	2
#define					T_CIRCLE_BY_RAD		3
#define					T_CIRCLE_BY_DIA		4
			int			style;
			int			thickness;
			int			color;
#define					BLACK			0
			int			depth;
			int			direction;
			double			style_val;
			double			angle;
			struct f_pen		*pen;
			struct f_pattern	*area_fill;
#define		       			UNFILLED	(F_pattern *)0
#define		       			BLACK_FILL	(F_pattern *)1
#define		       			DARK_GRAY_FILL	(F_pattern *)2
#define		       			MED_GRAY_FILL	(F_pattern *)3
#define		       			LIGHT_GRAY_FILL	(F_pattern *)4
#define		       			WHITE_FILL	(F_pattern *)4
			struct f_pos		center;
			struct f_pos		radiuses;
			struct f_pos		start;
			struct f_pos		end;
			struct f_ellipse	*next;
			}
		F_ellipse;

typedef		struct f_arc {
			int			type;
#define					T_3_POINTS_ARC		1
			int			style;
			int			thickness;
			int			color;
			int			depth;
			struct f_pen		*pen;
			struct f_pattern	*area_fill;
			double			style_val;
			int			direction;
			struct f_arrow		*for_arrow;
			struct f_arrow		*back_arrow;
			struct {double x, y;}	center;
			struct f_pos		point[3];
			struct f_arc		*next;
			}
		F_arc;

typedef		struct f_line {
			int			type;
#define					T_POLYLINE	1
#define					T_BOX		2
#define					T_POLYGON	3
			int			style;
			int			thickness;
			int			color;
			int			depth;
			double			style_val;
			struct f_pen		*pen;
			struct f_pattern	*area_fill;
			struct f_arrow		*for_arrow;
			struct f_arrow		*back_arrow;
			struct f_point		*points;
			struct f_line		*next;
			}
		F_line;

typedef		struct f_text {
			int			type;
#define					T_LEFT_JUSTIFIED	0
#define					T_CENTER_JUSTIFIED	1
#define					T_RIGHT_JUSTIFIED	2
			int			font;
#define					DEFAULT_FONT		0
#define					ROMAN_FONT		1
#define					BOLD_FONT		2
#define					ITALIC_FONT		3
#define					MODERN_FONT		4
#define					TYPEWRITER_FONT		5
			int			size;	/* point size */
			int			color;
			int			depth;
			double			angle;	/* in radian */
			int			style;
#define					PLAIN		1
#define					ITALIC		2
#define					BOLD		4
#define					OUTLINE		8
#define					SHADOW		16
			int			height;	/* pixels */
			int			length;	/* pixels */
			int			base_x;
			int			base_y;
			struct f_pen		*pen;
			char			*cstring;
			struct f_text		*next;
			}
		F_text;

typedef		struct f_control {
			double			lx, ly, rx, ry;
			struct f_control	*next;
			}
		F_control;

#define		int_spline(s)		(s->type & 0x2)
#define		normal_spline(s)	(!(s->type & 0x2))
#define		closed_spline(s)	(s->type & 0x1)
#define		open_spline(s)		(!(s->type & 0x1))

typedef		struct f_spline {
			int			type;
#define					T_OPEN_NORMAL		0
#define					T_CLOSED_NORMAL		1
#define					T_OPEN_INTERPOLATED	2
#define					T_CLOSED_INTERPOLATED	3
			int			style;
			int			thickness;
			int			color;
			int			depth;
			double			style_val;
			struct f_pen		*pen;
			struct f_pattern	*area_fill;
			struct f_arrow		*for_arrow;
			struct f_arrow		*back_arrow;
			/*
			For T_OPEN_NORMAL and T_CLOSED_NORMAL points
			are control points while they are knots for
			T_OPEN_INTERPOLATED and T_CLOSED_INTERPOLTED
			whose control points are stored in controls.
			*/
			struct f_point		*points;
			struct f_control	*controls;
			struct f_spline		*next;
			}
		F_spline;

typedef		struct f_compound {
			struct f_pos		nwcorner;
			struct f_pos		secorner;
			struct f_line		*lines;
			struct f_ellipse	*ellipses;
			struct f_spline		*splines;
			struct f_text		*texts;
			struct f_arc		*arcs;
			struct f_compound	*compounds;
			struct f_compound	*next;
			}
		F_compound;

#define		ARROW_SIZE		sizeof(struct f_arrow)
#define		POINT_SIZE		sizeof(struct f_point)
#define		CONTROL_SIZE		sizeof(struct f_control)
#define		ELLOBJ_SIZE		sizeof(struct f_ellipse)
#define		ARCOBJ_SIZE		sizeof(struct f_arc)
#define		LINOBJ_SIZE		sizeof(struct f_line)
#define		TEXOBJ_SIZE		sizeof(struct f_text)
#define		SPLOBJ_SIZE		sizeof(struct f_spline)
#define		COMOBJ_SIZE		sizeof(struct f_compound)

/**********************  object codes  **********************/

#define		O_ELLIPSE		1
#define		O_POLYLINE		2
#define		O_SPLINE		3
#define		O_TEXT			4
#define		O_ARC			5
#define		O_COMPOUND		6
#define		O_END_COMPOUND		(-O_COMPOUND)
#define		O_ALL_OBJECT		99

/************  object styles (except for f_text)  ************/

#define		SOLID_LINE		0
#define		DASH_LINE		1
#define		DOTTED_LINE		2

#define		CLOSED_PATH		0
#define		OPEN_PATH		1
SHAR_EOF
fi # end of overwriting check
if test -f 'grafig.c'
then
	echo shar: will not over-write existing file "'grafig.c'"
else
cat << \SHAR_EOF > 'grafig.c'
/*
 * GraFig 0.0 - Generates Numerical Graphs in Fig Code
 *
 * Author:	Micah Beck
 *		(email: beck@cs.cornell.edu)
 *		Dept. of Computer Science
 *		Cornell University
 *
 * Version 0.0:	February 1, 1989
 */
#include <stdio.h>
#include "object.h"

#define FIG_MAGIC	"#FIG 1.4"
#define RES	80
#define COORD_SYS	2

#define MAX_DATA	1000

#define MARK_SIZE	.05
#define TIC_SIZE	.1
#define NUM_OFF_X	.5
#define NUM_OFF_Y	.25

#define orig_x		1.0
#define orig_y		9.0
#define length_x	5.0
#define length_y	5.0

extern double pow(), floor(), log10();

struct datapt {double x, y} dataset[MAX_DATA], *datasort[MAX_DATA];

main(argc,argv)
int argc;
char **argv;
{
  int i, c, data_size, datacmp();
  double tic();
  double max_x, max_y, min_x, min_y;
  double dx, dy;
  double tic_x, tic_y, w;

  /* read data */
  for (data_size=0, c=2; data_size<MAX_DATA-1 && c == 2; data_size++)
	c = scanf("%lf %lf", &dataset[data_size].x, &dataset[data_size].y);

  if (c == EOF)
	--data_size;
  else
    	if (c != 2)
	    error("bad data format");
	else
	    error("data set truncated");

  if (data_size == 0) error("no data!");

  /* calculate maxima */
  max_x = max_y = dataset[0].x;
  for (i=1; i<data_size; i++) {
	if (max_x < dataset[i].x) max_x = dataset[i].x;
	if (max_y < dataset[i].y) max_y = dataset[i].y;
  }

  /* calculate scaling factors */
  dx = length_x / max_x;
  dy = length_y / max_y;

  /* print FIG header */
  printf("%s\n", FIG_MAGIC);
  printf("%d %d\n", RES, COORD_SYS);

  /* draw axes */
  fig_comment("Graph Axes");
  fig_line(orig_x, orig_y, orig_x+length_x, orig_y);
  fig_line(orig_x, orig_y, orig_x, orig_y-length_y);

  /* plot data points */
  fig_comment("Data Points");
  for (i=0; i<data_size; i++) {

	dataset[i].x = orig_x + (dataset[i].x * dx);
	dataset[i].y = orig_y - (dataset[i].y * dy);

	fig_line(dataset[i].x-MARK_SIZE, dataset[i].y,
		 dataset[i].x+MARK_SIZE, dataset[i].y);
	fig_line(dataset[i].x, dataset[i].y-MARK_SIZE,
		 dataset[i].x, dataset[i].y+MARK_SIZE);
  }

  fig_comment("Data Curve");
  qsort((char *)dataset, data_size, sizeof(struct datapt), datacmp);
  fig_plot(dataset, data_size);

  /* draw tic marks with numbering */
  fig_comment("Axis Numbering");
  tic_x = tic(max_x);
  tic_y = tic(max_y);

  for (i=1; (i*tic_x)<=max_x; i++) {
	w = orig_x + i*tic_x*dx;
	fig_line(w, orig_y, w, orig_y+TIC_SIZE);
	fig_number(w, orig_y+NUM_OFF_Y, i*tic_x);
  }
  for (i=1; (i*tic_y)<=max_y; i++) {
	w = orig_y - i*tic_y* dy;
	fig_line(orig_x, w, orig_x-TIC_SIZE, w);
	fig_number(orig_x-NUM_OFF_X, w, i*tic_y);
  }
}

error(s)
char *s;
{
  fprintf(stderr, "grafig: %s\n", s);
  exit(1);
}

double tic(r)
double r;
{
  double t;

  t = pow(10.0, floor(log10(r)));
  if (2*t>r)	return t/10;
  else		return t;
}

datacmp(a, b)
struct datapt *a, *b;
{
  if (a->x < b->x) return -1;
  if (a->x > b->x) return 1;
  return 0;
}

/*
 *  Fig Code Generating Routines 
 */
fig_comment(str)
char *str;
{
  printf("#\n# %s\n#\n", str);
}

fig_line(ax, ay, bx, by)
double ax, ay, bx, by;
{
  printf("%d %d %d %d %d %d %d %d %6.3f  %d %d\n",
	 O_POLYLINE, T_POLYLINE,
	 SOLID_LINE, 1, DEFAULT, DEFAULT, DEFAULT, DEFAULT, 0.0,
	 0, 0);
  printf("%.0f %.0f %.0f %.0f 9999 9999\n",
	 ax*RES, ay*RES, bx*RES, by*RES);
}

fig_plot(dp, ds)
struct datapt *dp;
int ds;
{
  int i;

  printf("%d %d %d %d %d %d %d %d %6.3f  %d %d\n",
	 O_POLYLINE, T_POLYLINE,
	 SOLID_LINE, 1, DEFAULT, DEFAULT, DEFAULT, DEFAULT, 0.0,
	 0, 0);
  for (i=0; i<ds; i++)
	printf("%.0f %.0f ", dp[i].x*RES, dp[i].y*RES);

  printf("9999 9999\n");
}

fig_number(x, y, num)
double x, y, num;
{
  char buf[10];

  sprintf(buf, "%6lg", num);
  printf("%d %d %d %d %d %d %d %6.3f %d %d %d %.0lf %.0lf %s\01\n",
	O_TEXT, T_LEFT_JUSTIFIED,
	DEFAULT, DEFAULT, DEFAULT, DEFAULT, DEFAULT, 0.0, DEFAULT,
	16, 8*strlen(buf), x*RES, y*RES, buf);
}
SHAR_EOF
fi # end of overwriting check
#	End of shell archive
exit 0