conterm/libmemdraw/fillpoly.c

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

typedef struct Seg	Seg;

struct Seg
{
	Point	p0;
	Point	p1;
	long	num;
	long	den;
	long	dz;
	long	dzrem;
	long	z;
	long	zerr;
	long	d;
};

static	void	zsort(Seg **seg, Seg **ep);
static	int	ycompare(const void*, const void*);
static	int	xcompare(const void*, const void*);
static	int	zcompare(const void*, const void*);
static	void	xscan(Memimage *dst, Seg **seg, Seg *segtab, int nseg, int wind, Memimage *src, Point sp, int, int, int, int);
static	void	yscan(Memimage *dst, Seg **seg, Seg *segtab, int nseg, int wind, Memimage *src, Point sp, int, int);

#ifdef NOT
static void
fillcolor(Memimage *dst, int left, int right, int y, Memimage *src, Point p)
{
	int srcval;

	USED(src);
	srcval = p.x;
	p.x = left;
	p.y = y;
	memset(byteaddr(dst, p), srcval, right-left);
}
#endif

static void
fillline(Memimage *dst, int left, int right, int y, Memimage *src, Point p, int op)
{
	Rectangle r;

	r.min.x = left;
	r.min.y = y;
	r.max.x = right;
	r.max.y = y+1;
	p.x += left;
	p.y += y;
	memdraw(dst, r, src, p, memopaque, p, op);
}

static void
fillpoint(Memimage *dst, int x, int y, Memimage *src, Point p, int op)
{
	Rectangle r;

	r.min.x = x;
	r.min.y = y;
	r.max.x = x+1;
	r.max.y = y+1;
	p.x += x;
	p.y += y;
	memdraw(dst, r, src, p, memopaque, p, op);
}

void
memfillpoly(Memimage *dst, Point *vert, int nvert, int w, Memimage *src, Point sp, int op)
{
	_memfillpolysc(dst, vert, nvert, w, src, sp, 0, 0, 0, op);
}

void
_memfillpolysc(Memimage *dst, Point *vert, int nvert, int w, Memimage *src, Point sp, int detail, int fixshift, int clipped, int op)
{
	Seg **seg, *segtab;
	Point p0;
	int i;

	if(nvert == 0)
		return;

	seg = malloc((nvert+2)*sizeof(Seg*));
	if(seg == nil)
		return;
	segtab = malloc((nvert+1)*sizeof(Seg));
	if(segtab == nil) {
		free(seg);
		return;
	}

	sp.x = (sp.x - vert[0].x) >> fixshift;
	sp.y = (sp.y - vert[0].y) >> fixshift;
	p0 = vert[nvert-1];
	if(!fixshift) {
		p0.x <<= 1;
		p0.y <<= 1;
	}
	for(i = 0; i < nvert; i++) {
		segtab[i].p0 = p0;
		p0 = vert[i];
		if(!fixshift) {
			p0.x <<= 1;
			p0.y <<= 1;
		}
		segtab[i].p1 = p0;
		segtab[i].d = 1;
	}
	if(!fixshift)
		fixshift = 1;

	xscan(dst, seg, segtab, nvert, w, src, sp, detail, fixshift, clipped, op);
	if(detail)
		yscan(dst, seg, segtab, nvert, w, src, sp, fixshift, op);

	free(seg);
	free(segtab);
}

static long
mod(long x, long y)
{
	long z;

	z = x%y;
	if((long)(((ulong)z)^((ulong)y)) > 0 || z == 0)
		return z;
	return z + y;
}

static long
sdiv(long x, long y)
{
	if((long)(((ulong)x)^((ulong)y)) >= 0 || x == 0)
		return x/y;

	return (x+((y>>30)|1))/y-1;
}

static long
smuldivmod(long x, long y, long z, long *mod)
{
	vlong vx;

	if(x == 0 || y == 0){
		*mod = 0;
		return 0;
	}
	vx = x;
	vx *= y;
	*mod = vx % z;
	if(*mod < 0)
		*mod += z;	/* z is always >0 */
	if((vx < 0) == (z < 0))
		return vx/z;
	return -((-vx)/z);
}

static void
xscan(Memimage *dst, Seg **seg, Seg *segtab, int nseg, int wind, Memimage *src, Point sp, int detail, int fixshift, int clipped, int op)
{
	long y, maxy, x, x2, xerr, xden, onehalf;
	Seg **ep, **next, **p, **q, *s;
	long n, i, iy, cnt, ix, ix2, minx, maxx;
	Point pt;
	void	(*fill)(Memimage*, int, int, int, Memimage*, Point, int);

	fill = fillline;
/*
 * This can only work on 8-bit destinations, since fillcolor is
 * just using memset on sp.x.
 *
 * I'd rather not even enable it then, since then if the general
 * code is too slow, someone will come up with a better improvement
 * than this sleazy hack.	-rsc
 *
	if(clipped && (src->flags&Frepl) && src->depth==8 && Dx(src->r)==1 && Dy(src->r)==1) {
		fill = fillcolor;
		sp.x = membyteval(src);
	}
 *
 */
	USED(clipped);


	for(i=0, s=segtab, p=seg; i<nseg; i++, s++) {
		*p = s;
		if(s->p0.y == s->p1.y)
			continue;
		if(s->p0.y > s->p1.y) {
			pt = s->p0;
			s->p0 = s->p1;
			s->p1 = pt;
			s->d = -s->d;
		}
		s->num = s->p1.x - s->p0.x;
		s->den = s->p1.y - s->p0.y;
		s->dz = sdiv(s->num, s->den) << fixshift;
		s->dzrem = mod(s->num, s->den) << fixshift;
		s->dz += sdiv(s->dzrem, s->den);
		s->dzrem = mod(s->dzrem, s->den);
		p++;
	}
	n = p-seg;
	if(n == 0)
		return;
	*p = 0;
	qsort(seg, p-seg , sizeof(Seg*), ycompare);

	onehalf = 0;
	if(fixshift)
		onehalf = 1 << (fixshift-1);

	minx = dst->clipr.min.x;
	maxx = dst->clipr.max.x;

	y = seg[0]->p0.y;
	if(y < (dst->clipr.min.y << fixshift))
		y = dst->clipr.min.y << fixshift;
	iy = (y + onehalf) >> fixshift;
	y = (iy << fixshift) + onehalf;
	maxy = dst->clipr.max.y << fixshift;

	ep = next = seg;

	while(y<maxy) {
		for(q = p = seg; p < ep; p++) {
			s = *p;
			if(s->p1.y < y)
				continue;
			s->z += s->dz;
			s->zerr += s->dzrem;
			if(s->zerr >= s->den) {
				s->z++;
				s->zerr -= s->den;
				if(s->zerr < 0 || s->zerr >= s->den)
					print("bad ratzerr1: %ld den %ld dzrem %ld\n", s->zerr, s->den, s->dzrem);
			}
			*q++ = s;
		}

		for(p = next; *p; p++) {
			s = *p;
			if(s->p0.y >= y)
				break;
			if(s->p1.y < y)
				continue;
			s->z = s->p0.x;
			s->z += smuldivmod(y - s->p0.y, s->num, s->den, &s->zerr);
			if(s->zerr < 0 || s->zerr >= s->den)
				print("bad ratzerr2: %ld den %ld ratdzrem %ld\n", s->zerr, s->den, s->dzrem);
			*q++ = s;
		}
		ep = q;
		next = p;

		if(ep == seg) {
			if(*next == 0)
				break;
			iy = (next[0]->p0.y + onehalf) >> fixshift;
			y = (iy << fixshift) + onehalf;
			continue;
		}

		zsort(seg, ep);

		for(p = seg; p < ep; p++) {
			cnt = 0;
			x = p[0]->z;
			xerr = p[0]->zerr;
			xden = p[0]->den;
			ix = (x + onehalf) >> fixshift;
			if(ix >= maxx)
				break;
			if(ix < minx)
				ix = minx;
			cnt += p[0]->d;
			p++;
			for(;;) {
				if(p == ep) {
					print("xscan: fill to infinity");
					return;
				}
				cnt += p[0]->d;
				if((cnt&wind) == 0)
					break;
				p++;
			}
			x2 = p[0]->z;
			ix2 = (x2 + onehalf) >> fixshift;
			if(ix2 <= minx)
				continue;
			if(ix2 > maxx)
				ix2 = maxx;
			if(ix == ix2 && detail) {
				if(xerr*p[0]->den + p[0]->zerr*xden > p[0]->den*xden)
					x++;
				ix = (x + x2) >> (fixshift+1);
				ix2 = ix+1;
			}
			(*fill)(dst, ix, ix2, iy, src, sp, op);
		}
		y += (1<<fixshift);
		iy++;
	}
}

static void
yscan(Memimage *dst, Seg **seg, Seg *segtab, int nseg, int wind, Memimage *src, Point sp, int fixshift, int op)
{
	long x, maxx, y, y2, yerr, yden, onehalf;
	Seg **ep, **next, **p, **q, *s;
	int n, i, ix, cnt, iy, iy2, miny, maxy;
	Point pt;

	for(i=0, s=segtab, p=seg; i<nseg; i++, s++) {
		*p = s;
		if(s->p0.x == s->p1.x)
			continue;
		if(s->p0.x > s->p1.x) {
			pt = s->p0;
			s->p0 = s->p1;
			s->p1 = pt;
			s->d = -s->d;
		}
		s->num = s->p1.y - s->p0.y;
		s->den = s->p1.x - s->p0.x;
		s->dz = sdiv(s->num, s->den) << fixshift;
		s->dzrem = mod(s->num, s->den) << fixshift;
		s->dz += sdiv(s->dzrem, s->den);
		s->dzrem = mod(s->dzrem, s->den);
		p++;
	}
	n = p-seg;
	if(n == 0)
		return;
	*p = 0;
	qsort(seg, n , sizeof(Seg*), xcompare);

	onehalf = 0;
	if(fixshift)
		onehalf = 1 << (fixshift-1);

	miny = dst->clipr.min.y;
	maxy = dst->clipr.max.y;

	x = seg[0]->p0.x;
	if(x < (dst->clipr.min.x << fixshift))
		x = dst->clipr.min.x << fixshift;
	ix = (x + onehalf) >> fixshift;
	x = (ix << fixshift) + onehalf;
	maxx = dst->clipr.max.x << fixshift;

	ep = next = seg;

	while(x<maxx) {
		for(q = p = seg; p < ep; p++) {
			s = *p;
			if(s->p1.x < x)
				continue;
			s->z += s->dz;
			s->zerr += s->dzrem;
			if(s->zerr >= s->den) {
				s->z++;
				s->zerr -= s->den;
				if(s->zerr < 0 || s->zerr >= s->den)
					print("bad ratzerr1: %ld den %ld ratdzrem %ld\n", s->zerr, s->den, s->dzrem);
			}
			*q++ = s;
		}

		for(p = next; *p; p++) {
			s = *p;
			if(s->p0.x >= x)
				break;
			if(s->p1.x < x)
				continue;
			s->z = s->p0.y;
			s->z += smuldivmod(x - s->p0.x, s->num, s->den, &s->zerr);
			if(s->zerr < 0 || s->zerr >= s->den)
				print("bad ratzerr2: %ld den %ld ratdzrem %ld\n", s->zerr, s->den, s->dzrem);
			*q++ = s;
		}
		ep = q;
		next = p;

		if(ep == seg) {
			if(*next == 0)
				break;
			ix = (next[0]->p0.x + onehalf) >> fixshift;
			x = (ix << fixshift) + onehalf;
			continue;
		}

		zsort(seg, ep);

		for(p = seg; p < ep; p++) {
			cnt = 0;
			y = p[0]->z;
			yerr = p[0]->zerr;
			yden = p[0]->den;
			iy = (y + onehalf) >> fixshift;
			if(iy >= maxy)
				break;
			if(iy < miny)
				iy = miny;
			cnt += p[0]->d;
			p++;
			for(;;) {
				if(p == ep) {
					print("yscan: fill to infinity");
					return;
				}
				cnt += p[0]->d;
				if((cnt&wind) == 0)
					break;
				p++;
			}
			y2 = p[0]->z;
			iy2 = (y2 + onehalf) >> fixshift;
			if(iy2 <= miny)
				continue;
			if(iy2 > maxy)
				iy2 = maxy;
			if(iy == iy2) {
				if(yerr*p[0]->den + p[0]->zerr*yden > p[0]->den*yden)
					y++;
				iy = (y + y2) >> (fixshift+1);
				fillpoint(dst, ix, iy, src, sp, op);
			}
		}
		x += (1<<fixshift);
		ix++;
	}
}

static void
zsort(Seg **seg, Seg **ep)
{
	int done;
	Seg **q, **p, *s;

	if(ep-seg < 20) {
		/* bubble sort by z - they should be almost sorted already */
		q = ep;
		do {
			done = 1;
			q--;
			for(p = seg; p < q; p++) {
				if(p[0]->z > p[1]->z) {
					s = p[0];
					p[0] = p[1];
					p[1] = s;
					done = 0;
				}
			}
		} while(!done);
	} else {
		q = ep-1;
		for(p = seg; p < q; p++) {
			if(p[0]->z > p[1]->z) {
				qsort(seg, ep-seg, sizeof(Seg*), zcompare);
				break;
			}
		}
	}
}

static int
ycompare(const void *a, const void *b)
{
	Seg **s0, **s1;
	long y0, y1;

	s0 = (Seg**)a;
	s1 = (Seg**)b;
	y0 = (*s0)->p0.y;
	y1 = (*s1)->p0.y;

	if(y0 < y1)
		return -1;
	if(y0 == y1)
		return 0;
	return 1;
}

static int
xcompare(const void *a, const void *b)
{
	Seg **s0, **s1;
	long x0, x1;

	s0 = (Seg**)a;
	s1 = (Seg**)b;
	x0 = (*s0)->p0.x;
	x1 = (*s1)->p0.x;

	if(x0 < x1)
		return -1;
	if(x0 == x1)
		return 0;
	return 1;
}

static int
zcompare(const void *a, const void *b)
{
	Seg **s0, **s1;
	long z0, z1;

	s0 = (Seg**)a;
	s1 = (Seg**)b;
	z0 = (*s0)->z;
	z1 = (*s1)->z;

	if(z0 < z1)
		return -1;
	if(z0 == z1)
		return 0;
	return 1;
}
a 2005-08-08 16:50:13 +04:00			`#include <u.h>`
			`#include <libc.h>`
			`#include <draw.h>`
			`#include <memdraw.h>`
			`#include <memlayer.h>`

			`typedef struct Seg Seg;`

			`struct Seg`
			`{`
			`Point p0;`
			`Point p1;`
			`long num;`
			`long den;`
			`long dz;`
			`long dzrem;`
			`long z;`
			`long zerr;`
			`long d;`
			`};`

			`static void zsort(Seg seg, Seg ep);`
Merge in Windows port using mingw and make. 2005-10-31 18:30:23 +03:00			`static int ycompare(const void, const void);`
			`static int xcompare(const void, const void);`
			`static int zcompare(const void, const void);`
a 2005-08-08 16:50:13 +04:00			`static void xscan(Memimage dst, Seg seg, Seg segtab, int nseg, int wind, Memimage *src, Point sp, int, int, int, int);`
			`static void yscan(Memimage dst, Seg seg, Seg segtab, int nseg, int wind, Memimage *src, Point sp, int, int);`

silence all gcc warnings 2005-11-07 20:13:41 +03:00			`#ifdef NOT`
a 2005-08-08 16:50:13 +04:00			`static void`
			`fillcolor(Memimage dst, int left, int right, int y, Memimage src, Point p)`
			`{`
			`int srcval;`

			`USED(src);`
			`srcval = p.x;`
			`p.x = left;`
			`p.y = y;`
			`memset(byteaddr(dst, p), srcval, right-left);`
			`}`
silence all gcc warnings 2005-11-07 20:13:41 +03:00			`#endif`
a 2005-08-08 16:50:13 +04:00
			`static void`
			`fillline(Memimage dst, int left, int right, int y, Memimage src, Point p, int op)`
			`{`
			`Rectangle r;`

			`r.min.x = left;`
			`r.min.y = y;`
			`r.max.x = right;`
			`r.max.y = y+1;`
			`p.x += left;`
			`p.y += y;`
			`memdraw(dst, r, src, p, memopaque, p, op);`
			`}`

			`static void`
			`fillpoint(Memimage dst, int x, int y, Memimage src, Point p, int op)`
			`{`
			`Rectangle r;`

			`r.min.x = x;`
			`r.min.y = y;`
			`r.max.x = x+1;`
			`r.max.y = y+1;`
			`p.x += x;`
			`p.y += y;`
			`memdraw(dst, r, src, p, memopaque, p, op);`
			`}`

			`void`
			`memfillpoly(Memimage dst, Point vert, int nvert, int w, Memimage *src, Point sp, int op)`
			`{`
			`_memfillpolysc(dst, vert, nvert, w, src, sp, 0, 0, 0, op);`
			`}`

			`void`
			`_memfillpolysc(Memimage dst, Point vert, int nvert, int w, Memimage *src, Point sp, int detail, int fixshift, int clipped, int op)`
			`{`
			`Seg *seg, segtab;`
			`Point p0;`
			`int i;`

			`if(nvert == 0)`
			`return;`

			`seg = malloc((nvert+2)sizeof(Seg));`
			`if(seg == nil)`
			`return;`
			`segtab = malloc((nvert+1)*sizeof(Seg));`
			`if(segtab == nil) {`
			`free(seg);`
			`return;`
			`}`

			`sp.x = (sp.x - vert[0].x) >> fixshift;`
			`sp.y = (sp.y - vert[0].y) >> fixshift;`
			`p0 = vert[nvert-1];`
			`if(!fixshift) {`
			`p0.x <<= 1;`
			`p0.y <<= 1;`
			`}`
			`for(i = 0; i < nvert; i++) {`
			`segtab[i].p0 = p0;`
			`p0 = vert[i];`
			`if(!fixshift) {`
			`p0.x <<= 1;`
			`p0.y <<= 1;`
			`}`
			`segtab[i].p1 = p0;`
			`segtab[i].d = 1;`
			`}`
			`if(!fixshift)`
			`fixshift = 1;`

			`xscan(dst, seg, segtab, nvert, w, src, sp, detail, fixshift, clipped, op);`
			`if(detail)`
			`yscan(dst, seg, segtab, nvert, w, src, sp, fixshift, op);`

			`free(seg);`
			`free(segtab);`
			`}`

			`static long`
			`mod(long x, long y)`
			`{`
			`long z;`

			`z = x%y;`
			`if((long)(((ulong)z)^((ulong)y)) > 0 \|\| z == 0)`
			`return z;`
			`return z + y;`
			`}`

			`static long`
			`sdiv(long x, long y)`
			`{`
			`if((long)(((ulong)x)^((ulong)y)) >= 0 \|\| x == 0)`
			`return x/y;`

			`return (x+((y>>30)\|1))/y-1;`
			`}`

			`static long`
			`smuldivmod(long x, long y, long z, long *mod)`
			`{`
			`vlong vx;`

			`if(x == 0 \|\| y == 0){`
			`*mod = 0;`
			`return 0;`
			`}`
			`vx = x;`
			`vx *= y;`
			`*mod = vx % z;`
			`if(*mod < 0)`
			`mod += z; / z is always >0 */`
			`if((vx < 0) == (z < 0))`
			`return vx/z;`
			`return -((-vx)/z);`
			`}`

			`static void`
			`xscan(Memimage dst, Seg seg, Seg segtab, int nseg, int wind, Memimage *src, Point sp, int detail, int fixshift, int clipped, int op)`
			`{`
			`long y, maxy, x, x2, xerr, xden, onehalf;`
			`Seg ep, next, p, q, *s;`
			`long n, i, iy, cnt, ix, ix2, minx, maxx;`
			`Point pt;`
			`void (fill)(Memimage, int, int, int, Memimage*, Point, int);`

			`fill = fillline;`
			`/*`
			`* This can only work on 8-bit destinations, since fillcolor is`
			`* just using memset on sp.x.`
			`*`
			`* I'd rather not even enable it then, since then if the general`
			`* code is too slow, someone will come up with a better improvement`
			`* than this sleazy hack. -rsc`
			`*`
			`if(clipped && (src->flags&Frepl) && src->depth==8 && Dx(src->r)==1 && Dy(src->r)==1) {`
			`fill = fillcolor;`
			`sp.x = membyteval(src);`
			`}`
			`*`
			`*/`
			`USED(clipped);`


			`for(i=0, s=segtab, p=seg; i<nseg; i++, s++) {`
			`*p = s;`
			`if(s->p0.y == s->p1.y)`
			`continue;`
			`if(s->p0.y > s->p1.y) {`
			`pt = s->p0;`
			`s->p0 = s->p1;`
			`s->p1 = pt;`
			`s->d = -s->d;`
			`}`
			`s->num = s->p1.x - s->p0.x;`
			`s->den = s->p1.y - s->p0.y;`
			`s->dz = sdiv(s->num, s->den) << fixshift;`
			`s->dzrem = mod(s->num, s->den) << fixshift;`
			`s->dz += sdiv(s->dzrem, s->den);`
			`s->dzrem = mod(s->dzrem, s->den);`
			`p++;`
			`}`
			`n = p-seg;`
			`if(n == 0)`
			`return;`
			`*p = 0;`
			`qsort(seg, p-seg , sizeof(Seg*), ycompare);`

			`onehalf = 0;`
			`if(fixshift)`
			`onehalf = 1 << (fixshift-1);`

			`minx = dst->clipr.min.x;`
			`maxx = dst->clipr.max.x;`

			`y = seg[0]->p0.y;`
			`if(y < (dst->clipr.min.y << fixshift))`
			`y = dst->clipr.min.y << fixshift;`
			`iy = (y + onehalf) >> fixshift;`
			`y = (iy << fixshift) + onehalf;`
			`maxy = dst->clipr.max.y << fixshift;`

			`ep = next = seg;`

			`while(y<maxy) {`
			`for(q = p = seg; p < ep; p++) {`
			`s = *p;`
			`if(s->p1.y < y)`
			`continue;`
			`s->z += s->dz;`
			`s->zerr += s->dzrem;`
			`if(s->zerr >= s->den) {`
			`s->z++;`
			`s->zerr -= s->den;`
			`if(s->zerr < 0 \|\| s->zerr >= s->den)`
			`print("bad ratzerr1: %ld den %ld dzrem %ld\n", s->zerr, s->den, s->dzrem);`
			`}`
			`*q++ = s;`
			`}`

			`for(p = next; *p; p++) {`
			`s = *p;`
			`if(s->p0.y >= y)`
			`break;`
			`if(s->p1.y < y)`
			`continue;`
			`s->z = s->p0.x;`
			`s->z += smuldivmod(y - s->p0.y, s->num, s->den, &s->zerr);`
			`if(s->zerr < 0 \|\| s->zerr >= s->den)`
			`print("bad ratzerr2: %ld den %ld ratdzrem %ld\n", s->zerr, s->den, s->dzrem);`
			`*q++ = s;`
			`}`
			`ep = q;`
			`next = p;`

			`if(ep == seg) {`
			`if(*next == 0)`
			`break;`
			`iy = (next[0]->p0.y + onehalf) >> fixshift;`
			`y = (iy << fixshift) + onehalf;`
			`continue;`
			`}`

			`zsort(seg, ep);`

			`for(p = seg; p < ep; p++) {`
			`cnt = 0;`
			`x = p[0]->z;`
			`xerr = p[0]->zerr;`
			`xden = p[0]->den;`
			`ix = (x + onehalf) >> fixshift;`
			`if(ix >= maxx)`
			`break;`
			`if(ix < minx)`
			`ix = minx;`
			`cnt += p[0]->d;`
			`p++;`
			`for(;;) {`
			`if(p == ep) {`
			`print("xscan: fill to infinity");`
			`return;`
			`}`
			`cnt += p[0]->d;`
			`if((cnt&wind) == 0)`
			`break;`
			`p++;`
			`}`
			`x2 = p[0]->z;`
			`ix2 = (x2 + onehalf) >> fixshift;`
			`if(ix2 <= minx)`
			`continue;`
			`if(ix2 > maxx)`
			`ix2 = maxx;`
			`if(ix == ix2 && detail) {`
			`if(xerrp[0]->den + p[0]->zerrxden > p[0]->den*xden)`
			`x++;`
			`ix = (x + x2) >> (fixshift+1);`
			`ix2 = ix+1;`
			`}`
			`(*fill)(dst, ix, ix2, iy, src, sp, op);`
			`}`
			`y += (1<<fixshift);`
			`iy++;`
			`}`
			`}`

			`static void`
			`yscan(Memimage dst, Seg seg, Seg segtab, int nseg, int wind, Memimage *src, Point sp, int fixshift, int op)`
			`{`
			`long x, maxx, y, y2, yerr, yden, onehalf;`
			`Seg ep, next, p, q, *s;`
			`int n, i, ix, cnt, iy, iy2, miny, maxy;`
			`Point pt;`

			`for(i=0, s=segtab, p=seg; i<nseg; i++, s++) {`
			`*p = s;`
			`if(s->p0.x == s->p1.x)`
			`continue;`
			`if(s->p0.x > s->p1.x) {`
			`pt = s->p0;`
			`s->p0 = s->p1;`
			`s->p1 = pt;`
			`s->d = -s->d;`
			`}`
			`s->num = s->p1.y - s->p0.y;`
			`s->den = s->p1.x - s->p0.x;`
			`s->dz = sdiv(s->num, s->den) << fixshift;`
			`s->dzrem = mod(s->num, s->den) << fixshift;`
			`s->dz += sdiv(s->dzrem, s->den);`
			`s->dzrem = mod(s->dzrem, s->den);`
			`p++;`
			`}`
			`n = p-seg;`
			`if(n == 0)`
			`return;`
			`*p = 0;`
			`qsort(seg, n , sizeof(Seg*), xcompare);`

			`onehalf = 0;`
			`if(fixshift)`
			`onehalf = 1 << (fixshift-1);`

			`miny = dst->clipr.min.y;`
			`maxy = dst->clipr.max.y;`

			`x = seg[0]->p0.x;`
			`if(x < (dst->clipr.min.x << fixshift))`
			`x = dst->clipr.min.x << fixshift;`
			`ix = (x + onehalf) >> fixshift;`
			`x = (ix << fixshift) + onehalf;`
			`maxx = dst->clipr.max.x << fixshift;`

			`ep = next = seg;`

			`while(x<maxx) {`
			`for(q = p = seg; p < ep; p++) {`
			`s = *p;`
			`if(s->p1.x < x)`
			`continue;`
			`s->z += s->dz;`
			`s->zerr += s->dzrem;`
			`if(s->zerr >= s->den) {`
			`s->z++;`
			`s->zerr -= s->den;`
			`if(s->zerr < 0 \|\| s->zerr >= s->den)`
			`print("bad ratzerr1: %ld den %ld ratdzrem %ld\n", s->zerr, s->den, s->dzrem);`
			`}`
			`*q++ = s;`
			`}`

			`for(p = next; *p; p++) {`
			`s = *p;`
			`if(s->p0.x >= x)`
			`break;`
			`if(s->p1.x < x)`
			`continue;`
			`s->z = s->p0.y;`
			`s->z += smuldivmod(x - s->p0.x, s->num, s->den, &s->zerr);`
			`if(s->zerr < 0 \|\| s->zerr >= s->den)`
			`print("bad ratzerr2: %ld den %ld ratdzrem %ld\n", s->zerr, s->den, s->dzrem);`
			`*q++ = s;`
			`}`
			`ep = q;`
			`next = p;`

			`if(ep == seg) {`
			`if(*next == 0)`
			`break;`
			`ix = (next[0]->p0.x + onehalf) >> fixshift;`
			`x = (ix << fixshift) + onehalf;`
			`continue;`
			`}`

			`zsort(seg, ep);`

			`for(p = seg; p < ep; p++) {`
			`cnt = 0;`
			`y = p[0]->z;`
			`yerr = p[0]->zerr;`
			`yden = p[0]->den;`
			`iy = (y + onehalf) >> fixshift;`
			`if(iy >= maxy)`
			`break;`
			`if(iy < miny)`
			`iy = miny;`
			`cnt += p[0]->d;`
			`p++;`
			`for(;;) {`
			`if(p == ep) {`
			`print("yscan: fill to infinity");`
			`return;`
			`}`
			`cnt += p[0]->d;`
			`if((cnt&wind) == 0)`
			`break;`
			`p++;`
			`}`
			`y2 = p[0]->z;`
			`iy2 = (y2 + onehalf) >> fixshift;`
			`if(iy2 <= miny)`
			`continue;`
			`if(iy2 > maxy)`
			`iy2 = maxy;`
			`if(iy == iy2) {`
			`if(yerrp[0]->den + p[0]->zerryden > p[0]->den*yden)`
			`y++;`
			`iy = (y + y2) >> (fixshift+1);`
			`fillpoint(dst, ix, iy, src, sp, op);`
			`}`
			`}`
			`x += (1<<fixshift);`
			`ix++;`
			`}`
			`}`

			`static void`
			`zsort(Seg seg, Seg ep)`
			`{`
			`int done;`
			`Seg q, p, *s;`

			`if(ep-seg < 20) {`
			`/* bubble sort by z - they should be almost sorted already */`
			`q = ep;`
			`do {`
			`done = 1;`
			`q--;`
			`for(p = seg; p < q; p++) {`
			`if(p[0]->z > p[1]->z) {`
			`s = p[0];`
			`p[0] = p[1];`
			`p[1] = s;`
			`done = 0;`
			`}`
			`}`
			`} while(!done);`
			`} else {`
			`q = ep-1;`
			`for(p = seg; p < q; p++) {`
			`if(p[0]->z > p[1]->z) {`
			`qsort(seg, ep-seg, sizeof(Seg*), zcompare);`
			`break;`
			`}`
			`}`
			`}`
			`}`

			`static int`
Merge in Windows port using mingw and make. 2005-10-31 18:30:23 +03:00			`ycompare(const void a, const void b)`
a 2005-08-08 16:50:13 +04:00			`{`
			`Seg s0, s1;`
			`long y0, y1;`

Merge in Windows port using mingw and make. 2005-10-31 18:30:23 +03:00			`s0 = (Seg**)a;`
			`s1 = (Seg**)b;`
a 2005-08-08 16:50:13 +04:00			`y0 = (*s0)->p0.y;`
			`y1 = (*s1)->p0.y;`

			`if(y0 < y1)`
			`return -1;`
			`if(y0 == y1)`
			`return 0;`
			`return 1;`
			`}`

			`static int`
Merge in Windows port using mingw and make. 2005-10-31 18:30:23 +03:00			`xcompare(const void a, const void b)`
a 2005-08-08 16:50:13 +04:00			`{`
			`Seg s0, s1;`
			`long x0, x1;`

Merge in Windows port using mingw and make. 2005-10-31 18:30:23 +03:00			`s0 = (Seg**)a;`
			`s1 = (Seg**)b;`
a 2005-08-08 16:50:13 +04:00			`x0 = (*s0)->p0.x;`
			`x1 = (*s1)->p0.x;`

			`if(x0 < x1)`
			`return -1;`
			`if(x0 == x1)`
			`return 0;`
			`return 1;`
			`}`

			`static int`
Merge in Windows port using mingw and make. 2005-10-31 18:30:23 +03:00			`zcompare(const void a, const void b)`
a 2005-08-08 16:50:13 +04:00			`{`
			`Seg s0, s1;`
			`long z0, z1;`

Merge in Windows port using mingw and make. 2005-10-31 18:30:23 +03:00			`s0 = (Seg**)a;`
			`s1 = (Seg**)b;`
a 2005-08-08 16:50:13 +04:00			`z0 = (*s0)->z;`
			`z1 = (*s1)->z;`

			`if(z0 < z1)`
			`return -1;`
			`if(z0 == z1)`
			`return 0;`
			`return 1;`
			`}`