[unix-history] / usr / src / lib / libplot / hp7221 / arc.c

/*
 * Copyright (c) 1980 Regents of the University of California.
 * All rights reserved.  The Berkeley software License Agreement
 * specifies the terms and conditions for redistribution.
 */

#ifndef lint
static char sccsid[] = "@(#)arc.c	5.1 (Berkeley) %G%";
#endif not lint

#include "hp7221.h"

/* 
 * 7221 requires knowing the anlge of arc.  To do this, the triangle formula
 *	c^2 = a^2 + b^2 - 2*a*b*cos(angle)
 * is used where "a" and "b" are the radius of the circle and "c" is the
 * distance between the beginning point and the end point.
 *
 * This gives us "angle" or angle - 180.  To find out which, draw a line from
 * beg to center.  This splits the plane in half.  All points on one side of the
 * plane will have the same sign when plugged into the equation for the line.
 * Pick a point on the "right side" of the line (see program below).  If "end"
 * has the same sign as this point does, then they are both on the same side
 * of the line and so angle is < 180.  Otherwise, angle > 180.
 */
   
#define side(x,y)	(a*(x)+b*(y)+c > 0.0 ? 1 : -1)

arc(xcent,ycent,xbeg,ybeg,xend,yend)
int xcent,ycent,xbeg,ybeg,xend,yend;
{
	double radius2, c2;
	double a,b,c;
	int angle;

	/* Probably should check that this is really a circular arc.  */
	radius2 = (xcent-xbeg)*(xcent-xbeg) + (ycent-ybeg)*(ycent-ybeg);
	c2 = (xend-xbeg)*(xend-xbeg) + (yend-ybeg)*(yend-ybeg);
	angle = (int) ( 180.0/PI * acos(1.0 - c2/(2.0*radius2)) + 0.5 );

	a = (double) (ycent - ybeg);
	b = (double) (xcent - xbeg);
	c = (double) (ycent*xbeg - xcent*ybeg);
	if (side(xbeg + (ycent-ybeg), ybeg - (xcent-xbeg)) != side(xend,yend))
		angle += 180;
	
	move(xcent, ycent);
	/* Not quite implemented...
	printf("C(A%d c)[%d,%d]", angle, xbeg, ybeg);
	*/
}
Commit	Line	Data
dca25f5a DF	1	/*
	2	* Copyright (c) 1980 Regents of the University of California.
	3	* All rights reserved. The Berkeley software License Agreement
	4	* specifies the terms and conditions for redistribution.
	5	*/
	6
c899e3cf	7	#ifndef lint
dca25f5a DF	8	static char sccsid[] = "@(#)arc.c 5.1 (Berkeley) %G%";
dca25f5a DF	9	#endif not lint
c899e3cf RC	10
	11	#include "hp7221.h"
	12
	13	/*
	14	* 7221 requires knowing the anlge of arc. To do this, the triangle formula
	15	* c^2 = a^2 + b^2 - 2ab*cos(angle)
	16	* is used where "a" and "b" are the radius of the circle and "c" is the
	17	* distance between the beginning point and the end point.
	18	*
	19	* This gives us "angle" or angle - 180. To find out which, draw a line from
	20	* beg to center. This splits the plane in half. All points on one side of the
	21	* plane will have the same sign when plugged into the equation for the line.
	22	* Pick a point on the "right side" of the line (see program below). If "end"
	23	* has the same sign as this point does, then they are both on the same side
	24	* of the line and so angle is < 180. Otherwise, angle > 180.
	25	*/
	26
	27	#define side(x,y) (a(x)+b(y)+c > 0.0 ? 1 : -1)
	28
	29	arc(xcent,ycent,xbeg,ybeg,xend,yend)
	30	int xcent,ycent,xbeg,ybeg,xend,yend;
	31	{
	32	double radius2, c2;
	33	double a,b,c;
	34	int angle;
	35
	36	/* Probably should check that this is really a circular arc. */
	37	radius2 = (xcent-xbeg)(xcent-xbeg) + (ycent-ybeg)(ycent-ybeg);
	38	c2 = (xend-xbeg)(xend-xbeg) + (yend-ybeg)(yend-ybeg);
	39	angle = (int) ( 180.0/PI * acos(1.0 - c2/(2.0*radius2)) + 0.5 );
	40
	41	a = (double) (ycent - ybeg);
	42	b = (double) (xcent - xbeg);
	43	c = (double) (ycentxbeg - xcentybeg);
	44	if (side(xbeg + (ycent-ybeg), ybeg - (xcent-xbeg)) != side(xend,yend))
	45	angle += 180;
	46
	47	move(xcent, ycent);
	48	/* Not quite implemented...
	49	printf("C(A%d c)[%d,%d]", angle, xbeg, ybeg);
	50	*/
	51	}