src/libmemdraw/arc.c - plan9 - Git at Google

 #include <u.h>
 #include <libc.h>
 #include <draw.h>
 #include <memdraw.h>

 /*
  * elarc(dst,c,a,b,t,src,sp,alpha,phi)
  *   draws the part of an ellipse between rays at angles alpha and alpha+phi
  *   measured counterclockwise from the positive x axis. other
  *   arguments are as for ellipse(dst,c,a,b,t,src,sp)
  */

 enum
 {
 	R, T, L, B	/* right, top, left, bottom */
 };

 static
 Point corners[] = {
 	{1,1},
 	{-1,1},
 	{-1,-1},
 	{1,-1}
 };

 static
 Point p00;

 /*
  * make a "wedge" mask covering the desired angle and contained in
  * a surrounding square; draw a full ellipse; intersect that with the
  * wedge to make a mask through which to copy src to dst.
  */
 void
 memarc(Memimage *dst, Point c, int a, int b, int t, Memimage *src, Point sp, int alpha, int phi, int op)
 {
 	int i, w, beta, tmp, c1, c2, m, m1;
 	Rectangle rect;
 	Point p,	bnd[8];
 	Memimage *wedge, *figure, *mask;

 	if(a < 0)
 		a = -a;
 	if(b < 0)
 		b = -b;
 	w = t;
 	if(w < 0)
 		w = 0;
 	alpha = -alpha;		/* compensate for upside-down coords */
 	phi = -phi;
 	beta = alpha + phi;
 	if(phi < 0){
 		tmp = alpha;
 		alpha = beta;
 		beta = tmp;
 		phi = -phi;
 	}
 	if(phi >= 360){
 		memellipse(dst, c, a, b, t, src, sp, op);
 		return;
 	}
 	while(alpha < 0)
 		alpha += 360;
 	while(beta < 0)
 		beta += 360;
 	c1 = alpha/90 & 3;	/* number of nearest corner */
 	c2 = beta/90 & 3;
 		/*
 		 * icossin returns point at radius ICOSSCALE.
 		 * multiplying by m1 moves it outside the ellipse
 		*/
 	rect = Rect(-a-w, -b-w, a+w+1, b+w+1);
 	m = rect.max.x;	/* inradius of bounding square */
 	if(m < rect.max.y)
 		m = rect.max.y;
 	m1 = (m+ICOSSCALE-1) >> 10;
 	m = m1 << 10;		/* assure m1*cossin is inside */
 	i = 0;
 	bnd[i++] = Pt(0,0);
 	icossin(alpha, &p.x, &p.y);
 	bnd[i++] = mulpt(p, m1);
 	for(;;) {
 		bnd[i++] = mulpt(corners[c1], m);
 		if(c1==c2 && phi<180)
 			break;
 		c1 = (c1+1) & 3;
 		phi -= 90;
 	}
 	icossin(beta, &p.x, &p.y);
 	bnd[i++] = mulpt(p, m1);

 	figure = nil;
 	mask = nil;
 	wedge = allocmemimage(rect, GREY1);
 	if(wedge == nil)
 		goto Return;
 	memfillcolor(wedge, DTransparent);
 	memfillpoly(wedge, bnd, i, ~0, memopaque, p00, S);
 	figure = allocmemimage(rect, GREY1);
 	if(figure == nil)
 		goto Return;
 	memfillcolor(figure, DTransparent);
 	memellipse(figure, p00, a, b, t, memopaque, p00, S);
 	mask = allocmemimage(rect, GREY1);
 	if(mask == nil)
 		goto Return;
 	memfillcolor(mask, DTransparent);
 	memimagedraw(mask, rect, figure, rect.min, wedge, rect.min, S);
 	c = subpt(c, dst->r.min);
 	memdraw(dst, dst->r, src, subpt(sp, c), mask, subpt(p00, c), op);

     Return:
 	freememimage(wedge);
 	freememimage(figure);
 	freememimage(mask);
 }
	#include <u.h>
	#include <libc.h>
	#include <draw.h>
	#include <memdraw.h>

	/*
	* elarc(dst,c,a,b,t,src,sp,alpha,phi)
	* draws the part of an ellipse between rays at angles alpha and alpha+phi
	* measured counterclockwise from the positive x axis. other
	* arguments are as for ellipse(dst,c,a,b,t,src,sp)
	*/

	enum
	{
	R, T, L, B /* right, top, left, bottom */
	};

	static
	Point corners[] = {
	{1,1},
	{-1,1},
	{-1,-1},
	{1,-1}
	};

	static
	Point p00;

	/*
	* make a "wedge" mask covering the desired angle and contained in
	* a surrounding square; draw a full ellipse; intersect that with the
	* wedge to make a mask through which to copy src to dst.
	*/
	void
	memarc(Memimage dst, Point c, int a, int b, int t, Memimage src, Point sp, int alpha, int phi, int op)
	{
	int i, w, beta, tmp, c1, c2, m, m1;
	Rectangle rect;
	Point p, bnd[8];
	Memimage wedge, figure, *mask;

	if(a < 0)
	a = -a;
	if(b < 0)
	b = -b;
	w = t;
	if(w < 0)
	w = 0;
	alpha = -alpha; /* compensate for upside-down coords */
	phi = -phi;
	beta = alpha + phi;
	if(phi < 0){
	tmp = alpha;
	alpha = beta;
	beta = tmp;
	phi = -phi;
	}
	if(phi >= 360){
	memellipse(dst, c, a, b, t, src, sp, op);
	return;
	}
	while(alpha < 0)
	alpha += 360;
	while(beta < 0)
	beta += 360;
	c1 = alpha/90 & 3; /* number of nearest corner */
	c2 = beta/90 & 3;
	/*
	* icossin returns point at radius ICOSSCALE.
	* multiplying by m1 moves it outside the ellipse
	*/
	rect = Rect(-a-w, -b-w, a+w+1, b+w+1);
	m = rect.max.x; /* inradius of bounding square */
	if(m < rect.max.y)
	m = rect.max.y;
	m1 = (m+ICOSSCALE-1) >> 10;
	m = m1 << 10; /* assure m1cossin is inside /
	i = 0;
	bnd[i++] = Pt(0,0);
	icossin(alpha, &p.x, &p.y);
	bnd[i++] = mulpt(p, m1);
	for(;;) {
	bnd[i++] = mulpt(corners[c1], m);
	if(c1==c2 && phi<180)
	break;
	c1 = (c1+1) & 3;
	phi -= 90;
	}
	icossin(beta, &p.x, &p.y);
	bnd[i++] = mulpt(p, m1);

	figure = nil;
	mask = nil;
	wedge = allocmemimage(rect, GREY1);
	if(wedge == nil)
	goto Return;
	memfillcolor(wedge, DTransparent);
	memfillpoly(wedge, bnd, i, ~0, memopaque, p00, S);
	figure = allocmemimage(rect, GREY1);
	if(figure == nil)
	goto Return;
	memfillcolor(figure, DTransparent);
	memellipse(figure, p00, a, b, t, memopaque, p00, S);
	mask = allocmemimage(rect, GREY1);
	if(mask == nil)
	goto Return;
	memfillcolor(mask, DTransparent);
	memimagedraw(mask, rect, figure, rect.min, wedge, rect.min, S);
	c = subpt(c, dst->r.min);
	memdraw(dst, dst->r, src, subpt(sp, c), mask, subpt(p00, c), op);

	Return:
	freememimage(wedge);
	freememimage(figure);
	freememimage(mask);
	}