#ifdef HAVE_DIX_CONFIG_H
#include <dix-config.h>
#endif
#include <stdio.h>
#ifdef _XOPEN_SOURCE
#include <math.h>
#else
#define _XOPEN_SOURCE
#include <math.h>
#undef _XOPEN_SOURCE
#endif
#include <X11/X.h>
#include "windowstr.h"
#include "gcstruct.h"
#include "regionstr.h"
#include "miwideline.h"
#include "mi.h"
static void miLineArc(DrawablePtr pDraw, GCPtr pGC,
unsigned long pixel, SpanDataPtr spanData,
LineFacePtr leftFace,
LineFacePtr rightFace,
double xorg, double yorg, Bool isInt);
static void
miFillPolyHelper (DrawablePtr pDrawable, GCPtr pGC, unsigned long pixel,
SpanDataPtr spanData, int y, int overall_height,
PolyEdgePtr left, PolyEdgePtr right,
int left_count, int right_count)
{
int left_x = 0, left_e = 0;
int left_stepx = 0;
int left_signdx = 0;
int left_dy = 0, left_dx = 0;
int right_x = 0, right_e = 0;
int right_stepx = 0;
int right_signdx = 0;
int right_dy = 0, right_dx = 0;
int height = 0;
int left_height = 0, right_height = 0;
DDXPointPtr ppt;
DDXPointPtr pptInit = NULL;
int *pwidth;
int *pwidthInit = NULL;
XID oldPixel;
int xorg;
Spans spanRec;
left_height = 0;
right_height = 0;
if (!spanData)
{
pptInit = (DDXPointPtr) xalloc (overall_height * sizeof(*ppt));
if (!pptInit)
return;
pwidthInit = (int *) xalloc (overall_height * sizeof(*pwidth));
if (!pwidthInit)
{
xfree (pptInit);
return;
}
ppt = pptInit;
pwidth = pwidthInit;
oldPixel = pGC->fgPixel;
if (pixel != oldPixel)
{
XID tmpPixel = (XID)pixel;
DoChangeGC (pGC, GCForeground, &tmpPixel, FALSE);
ValidateGC (pDrawable, pGC);
}
}
else
{
spanRec.points = (DDXPointPtr) xalloc (overall_height * sizeof (*ppt));
if (!spanRec.points)
return;
spanRec.widths = (int *) xalloc (overall_height * sizeof (int));
if (!spanRec.widths)
{
xfree (spanRec.points);
return;
}
ppt = spanRec.points;
pwidth = spanRec.widths;
}
xorg = 0;
if (pGC->miTranslate)
{
y += pDrawable->y;
xorg = pDrawable->x;
}
while ((left_count || left_height) &&
(right_count || right_height))
{
MIPOLYRELOADLEFT
MIPOLYRELOADRIGHT
height = left_height;
if (height > right_height)
height = right_height;
left_height -= height;
right_height -= height;
while (--height >= 0)
{
if (right_x >= left_x)
{
ppt->y = y;
ppt->x = left_x + xorg;
ppt++;
*pwidth++ = right_x - left_x + 1;
}
y++;
MIPOLYSTEPLEFT
MIPOLYSTEPRIGHT
}
}
if (!spanData)
{
(*pGC->ops->FillSpans) (pDrawable, pGC, ppt - pptInit, pptInit, pwidthInit, TRUE);
xfree (pwidthInit);
xfree (pptInit);
if (pixel != oldPixel)
{
DoChangeGC (pGC, GCForeground, &oldPixel, FALSE);
ValidateGC (pDrawable, pGC);
}
}
else
{
spanRec.count = ppt - spanRec.points;
AppendSpanGroup (pGC, pixel, &spanRec, spanData)
}
}
static void
miFillRectPolyHelper (
DrawablePtr pDrawable,
GCPtr pGC,
unsigned long pixel,
SpanDataPtr spanData,
int x,
int y,
int w,
int h)
{
DDXPointPtr ppt;
int *pwidth;
XID oldPixel;
Spans spanRec;
xRectangle rect;
if (!spanData)
{
rect.x = x;
rect.y = y;
rect.width = w;
rect.height = h;
oldPixel = pGC->fgPixel;
if (pixel != oldPixel)
{
XID tmpPixel = (XID)pixel;
DoChangeGC (pGC, GCForeground, &tmpPixel, FALSE);
ValidateGC (pDrawable, pGC);
}
(*pGC->ops->PolyFillRect) (pDrawable, pGC, 1, &rect);
if (pixel != oldPixel)
{
DoChangeGC (pGC, GCForeground, &oldPixel, FALSE);
ValidateGC (pDrawable, pGC);
}
}
else
{
spanRec.points = (DDXPointPtr) xalloc (h * sizeof (*ppt));
if (!spanRec.points)
return;
spanRec.widths = (int *) xalloc (h * sizeof (int));
if (!spanRec.widths)
{
xfree (spanRec.points);
return;
}
ppt = spanRec.points;
pwidth = spanRec.widths;
if (pGC->miTranslate)
{
y += pDrawable->y;
x += pDrawable->x;
}
while (h--)
{
ppt->x = x;
ppt->y = y;
ppt++;
*pwidth++ = w;
y++;
}
spanRec.count = ppt - spanRec.points;
AppendSpanGroup (pGC, pixel, &spanRec, spanData)
}
}
_X_EXPORT int
miPolyBuildEdge (
double x0,
double y0,
double k,
int dx,
int dy,
int xi,
int yi,
int left,
PolyEdgePtr edge)
{
int x, y, e;
int xady;
if (dy < 0)
{
dy = -dy;
dx = -dx;
k = -k;
}
#ifdef NOTDEF
{
double realk, kerror;
realk = x0 * dy - y0 * dx;
kerror = Fabs (realk - k);
if (kerror > .1)
printf ("realk: %g k: %g\n", realk, k);
}
#endif
y = ICEIL (y0);
xady = ICEIL (k) + y * dx;
if (xady <= 0)
x = - (-xady / dy) - 1;
else
x = (xady - 1) / dy;
e = xady - x * dy;
if (dx >= 0)
{
edge->signdx = 1;
edge->stepx = dx / dy;
edge->dx = dx % dy;
}
else
{
edge->signdx = -1;
edge->stepx = - (-dx / dy);
edge->dx = -dx % dy;
e = dy - e + 1;
}
edge->dy = dy;
edge->x = x + left + xi;
edge->e = e - dy;
return y + yi;
}
#define StepAround(v, incr, max) (((v) + (incr) < 0) ? (max - 1) : ((v) + (incr) == max) ? 0 : ((v) + (incr)))
_X_EXPORT int
miPolyBuildPoly (
PolyVertexPtr vertices,
PolySlopePtr slopes,
int count,
int xi,
int yi,
PolyEdgePtr left,
PolyEdgePtr right,
int *pnleft,
int *pnright,
int *h)
{
int top, bottom;
double miny, maxy;
int i;
int j;
int clockwise;
int slopeoff;
int s;
int nright, nleft;
int y, lasty = 0, bottomy, topy = 0;
maxy = miny = vertices[0].y;
bottom = top = 0;
for (i = 1; i < count; i++)
{
if (vertices[i].y < miny)
{
top = i;
miny = vertices[i].y;
}
if (vertices[i].y >= maxy)
{
bottom = i;
maxy = vertices[i].y;
}
}
clockwise = 1;
slopeoff = 0;
i = top;
j = StepAround (top, -1, count);
if (slopes[j].dy * slopes[i].dx > slopes[i].dy * slopes[j].dx)
{
clockwise = -1;
slopeoff = -1;
}
bottomy = ICEIL (maxy) + yi;
nright = 0;
s = StepAround (top, slopeoff, count);
i = top;
while (i != bottom)
{
if (slopes[s].dy != 0)
{
y = miPolyBuildEdge (vertices[i].x, vertices[i].y,
slopes[s].k,
slopes[s].dx, slopes[s].dy,
xi, yi, 0,
&right[nright]);
if (nright != 0)
right[nright-1].height = y - lasty;
else
topy = y;
nright++;
lasty = y;
}
i = StepAround (i, clockwise, count);
s = StepAround (s, clockwise, count);
}
if (nright != 0)
right[nright-1].height = bottomy - lasty;
if (slopeoff == 0)
slopeoff = -1;
else
slopeoff = 0;
nleft = 0;
s = StepAround (top, slopeoff, count);
i = top;
while (i != bottom)
{
if (slopes[s].dy != 0)
{
y = miPolyBuildEdge (vertices[i].x, vertices[i].y,
slopes[s].k,
slopes[s].dx, slopes[s].dy, xi, yi, 1,
&left[nleft]);
if (nleft != 0)
left[nleft-1].height = y - lasty;
nleft++;
lasty = y;
}
i = StepAround (i, -clockwise, count);
s = StepAround (s, -clockwise, count);
}
if (nleft != 0)
left[nleft-1].height = bottomy - lasty;
*pnleft = nleft;
*pnright = nright;
*h = bottomy - topy;
return topy;
}
static void
miLineOnePoint (
DrawablePtr pDrawable,
GCPtr pGC,
unsigned long pixel,
SpanDataPtr spanData,
int x,
int y)
{
DDXPointRec pt;
int wid;
unsigned long oldPixel;
MILINESETPIXEL (pDrawable, pGC, pixel, oldPixel);
if (pGC->fillStyle == FillSolid)
{
pt.x = x;
pt.y = y;
(*pGC->ops->PolyPoint) (pDrawable, pGC, CoordModeOrigin, 1, &pt);
}
else
{
wid = 1;
if (pGC->miTranslate)
{
x += pDrawable->x;
y += pDrawable->y;
}
pt.x = x;
pt.y = y;
(*pGC->ops->FillSpans) (pDrawable, pGC, 1, &pt, &wid, TRUE);
}
MILINERESETPIXEL (pDrawable, pGC, pixel, oldPixel);
}
static void
miLineJoin (
DrawablePtr pDrawable,
GCPtr pGC,
unsigned long pixel,
SpanDataPtr spanData,
LineFacePtr pLeft,
LineFacePtr pRight)
{
double mx = 0, my = 0;
double denom = 0.0;
PolyVertexRec vertices[4];
PolySlopeRec slopes[4];
int edgecount;
PolyEdgeRec left[4], right[4];
int nleft, nright;
int y, height;
int swapslopes;
int joinStyle = pGC->joinStyle;
int lw = pGC->lineWidth;
if (lw == 1 && !spanData) {
if (pLeft->dx > 0 || (pLeft->dx == 0 && pLeft->dy > 0))
return;
if (pRight->dx > 0 || (pRight->dx == 0 && pRight->dy > 0))
return;
if (joinStyle != JoinRound) {
denom = - pLeft->dx * (double)pRight->dy + pRight->dx * (double)pLeft->dy;
if (denom == 0)
return;
}
if (joinStyle != JoinMiter) {
miLineOnePoint (pDrawable, pGC, pixel, spanData, pLeft->x, pLeft->y);
return;
}
} else {
if (joinStyle == JoinRound)
{
miLineArc(pDrawable, pGC, pixel, spanData,
pLeft, pRight,
(double)0.0, (double)0.0, TRUE);
return;
}
denom = - pLeft->dx * (double)pRight->dy + pRight->dx * (double)pLeft->dy;
if (denom == 0.0)
return;
}
swapslopes = 0;
if (denom > 0)
{
pLeft->xa = -pLeft->xa;
pLeft->ya = -pLeft->ya;
pLeft->dx = -pLeft->dx;
pLeft->dy = -pLeft->dy;
}
else
{
swapslopes = 1;
pRight->xa = -pRight->xa;
pRight->ya = -pRight->ya;
pRight->dx = -pRight->dx;
pRight->dy = -pRight->dy;
}
vertices[0].x = pRight->xa;
vertices[0].y = pRight->ya;
slopes[0].dx = -pRight->dy;
slopes[0].dy = pRight->dx;
slopes[0].k = 0;
vertices[1].x = 0;
vertices[1].y = 0;
slopes[1].dx = pLeft->dy;
slopes[1].dy = -pLeft->dx;
slopes[1].k = 0;
vertices[2].x = pLeft->xa;
vertices[2].y = pLeft->ya;
if (joinStyle == JoinMiter)
{
my = (pLeft->dy * (pRight->xa * pRight->dy - pRight->ya * pRight->dx) -
pRight->dy * (pLeft->xa * pLeft->dy - pLeft->ya * pLeft->dx )) /
denom;
if (pLeft->dy != 0)
{
mx = pLeft->xa + (my - pLeft->ya) *
(double) pLeft->dx / (double) pLeft->dy;
}
else
{
mx = pRight->xa + (my - pRight->ya) *
(double) pRight->dx / (double) pRight->dy;
}
if ((mx * mx + my * my) * 4 > SQSECANT * lw * lw)
joinStyle = JoinBevel;
}
if (joinStyle == JoinMiter)
{
slopes[2].dx = pLeft->dx;
slopes[2].dy = pLeft->dy;
slopes[2].k = pLeft->k;
if (swapslopes)
{
slopes[2].dx = -slopes[2].dx;
slopes[2].dy = -slopes[2].dy;
slopes[2].k = -slopes[2].k;
}
vertices[3].x = mx;
vertices[3].y = my;
slopes[3].dx = pRight->dx;
slopes[3].dy = pRight->dy;
slopes[3].k = pRight->k;
if (swapslopes)
{
slopes[3].dx = -slopes[3].dx;
slopes[3].dy = -slopes[3].dy;
slopes[3].k = -slopes[3].k;
}
edgecount = 4;
}
else
{
double scale, dx, dy, adx, ady;
adx = dx = pRight->xa - pLeft->xa;
ady = dy = pRight->ya - pLeft->ya;
if (adx < 0)
adx = -adx;
if (ady < 0)
ady = -ady;
scale = ady;
if (adx > ady)
scale = adx;
slopes[2].dx = (dx * 65536) / scale;
slopes[2].dy = (dy * 65536) / scale;
slopes[2].k = ((pLeft->xa + pRight->xa) * slopes[2].dy -
(pLeft->ya + pRight->ya) * slopes[2].dx) / 2.0;
edgecount = 3;
}
y = miPolyBuildPoly (vertices, slopes, edgecount, pLeft->x, pLeft->y,
left, right, &nleft, &nright, &height);
miFillPolyHelper (pDrawable, pGC, pixel, spanData, y, height, left, right, nleft, nright);
}
static int
miLineArcI (
DrawablePtr pDraw,
GCPtr pGC,
int xorg,
int yorg,
DDXPointPtr points,
int *widths)
{
DDXPointPtr tpts, bpts;
int *twids, *bwids;
int x, y, e, ex, slw;
tpts = points;
twids = widths;
if (pGC->miTranslate)
{
xorg += pDraw->x;
yorg += pDraw->y;
}
slw = pGC->lineWidth;
if (slw == 1)
{
tpts->x = xorg;
tpts->y = yorg;
*twids = 1;
return 1;
}
bpts = tpts + slw;
bwids = twids + slw;
y = (slw >> 1) + 1;
if (slw & 1)
e = - ((y << 2) + 3);
else
e = - (y << 3);
ex = -4;
x = 0;
while (y)
{
e += (y << 3) - 4;
while (e >= 0)
{
x++;
e += (ex = -((x << 3) + 4));
}
y--;
slw = (x << 1) + 1;
if ((e == ex) && (slw > 1))
slw--;
tpts->x = xorg - x;
tpts->y = yorg - y;
tpts++;
*twids++ = slw;
if ((y != 0) && ((slw > 1) || (e != ex)))
{
bpts--;
bpts->x = xorg - x;
bpts->y = yorg + y;
*--bwids = slw;
}
}
return (pGC->lineWidth);
}
#define CLIPSTEPEDGE(edgey,edge,edgeleft) \
if (ybase == edgey) \
{ \
if (edgeleft) \
{ \
if (edge->x > xcl) \
xcl = edge->x; \
} \
else \
{ \
if (edge->x < xcr) \
xcr = edge->x; \
} \
edgey++; \
edge->x += edge->stepx; \
edge->e += edge->dx; \
if (edge->e > 0) \
{ \
edge->x += edge->signdx; \
edge->e -= edge->dy; \
} \
}
static int
miLineArcD (
DrawablePtr pDraw,
GCPtr pGC,
double xorg,
double yorg,
DDXPointPtr points,
int *widths,
PolyEdgePtr edge1,
int edgey1,
Bool edgeleft1,
PolyEdgePtr edge2,
int edgey2,
Bool edgeleft2)
{
DDXPointPtr pts;
int *wids;
double radius, x0, y0, el, er, yk, xlk, xrk, k;
int xbase, ybase, y, boty, xl, xr, xcl, xcr;
int ymin, ymax;
Bool edge1IsMin, edge2IsMin;
int ymin1, ymin2;
pts = points;
wids = widths;
xbase = floor(xorg);
x0 = xorg - xbase;
ybase = ICEIL (yorg);
y0 = yorg - ybase;
if (pGC->miTranslate)
{
xbase += pDraw->x;
ybase += pDraw->y;
edge1->x += pDraw->x;
edge2->x += pDraw->x;
edgey1 += pDraw->y;
edgey2 += pDraw->y;
}
xlk = x0 + x0 + 1.0;
xrk = x0 + x0 - 1.0;
yk = y0 + y0 - 1.0;
radius = ((double)pGC->lineWidth) / 2.0;
y = floor(radius - y0 + 1.0);
ybase -= y;
ymin = ybase;
ymax = 65536;
edge1IsMin = FALSE;
ymin1 = edgey1;
if (edge1->dy >= 0)
{
if (!edge1->dy)
{
if (edgeleft1)
edge1IsMin = TRUE;
else
ymax = edgey1;
edgey1 = 65536;
}
else
{
if ((edge1->signdx < 0) == edgeleft1)
edge1IsMin = TRUE;
}
}
edge2IsMin = FALSE;
ymin2 = edgey2;
if (edge2->dy >= 0)
{
if (!edge2->dy)
{
if (edgeleft2)
edge2IsMin = TRUE;
else
ymax = edgey2;
edgey2 = 65536;
}
else
{
if ((edge2->signdx < 0) == edgeleft2)
edge2IsMin = TRUE;
}
}
if (edge1IsMin)
{
ymin = ymin1;
if (edge2IsMin && ymin1 > ymin2)
ymin = ymin2;
} else if (edge2IsMin)
ymin = ymin2;
el = radius * radius - ((y + y0) * (y + y0)) - (x0 * x0);
er = el + xrk;
xl = 1;
xr = 0;
if (x0 < 0.5)
{
xl = 0;
el -= xlk;
}
boty = (y0 < -0.5) ? 1 : 0;
if (ybase + y - boty > ymax)
boty = ymax - ybase - y;
while (y > boty)
{
k = (y << 1) + yk;
er += k;
while (er > 0.0)
{
xr++;
er += xrk - (xr << 1);
}
el += k;
while (el >= 0.0)
{
xl--;
el += (xl << 1) - xlk;
}
y--;
ybase++;
if (ybase < ymin)
continue;
xcl = xl + xbase;
xcr = xr + xbase;
CLIPSTEPEDGE(edgey1, edge1, edgeleft1);
CLIPSTEPEDGE(edgey2, edge2, edgeleft2);
if (xcr >= xcl)
{
pts->x = xcl;
pts->y = ybase;
pts++;
*wids++ = xcr - xcl + 1;
}
}
er = xrk - (xr << 1) - er;
el = (xl << 1) - xlk - el;
boty = floor(-y0 - radius + 1.0);
if (ybase + y - boty > ymax)
boty = ymax - ybase - y;
while (y > boty)
{
k = (y << 1) + yk;
er -= k;
while ((er >= 0.0) && (xr >= 0))
{
xr--;
er += xrk - (xr << 1);
}
el -= k;
while ((el > 0.0) && (xl <= 0))
{
xl++;
el += (xl << 1) - xlk;
}
y--;
ybase++;
if (ybase < ymin)
continue;
xcl = xl + xbase;
xcr = xr + xbase;
CLIPSTEPEDGE(edgey1, edge1, edgeleft1);
CLIPSTEPEDGE(edgey2, edge2, edgeleft2);
if (xcr >= xcl)
{
pts->x = xcl;
pts->y = ybase;
pts++;
*wids++ = xcr - xcl + 1;
}
}
return (pts - points);
}
static int
miRoundJoinFace (LineFacePtr face, PolyEdgePtr edge, Bool *leftEdge)
{
int y;
int dx, dy;
double xa, ya;
Bool left;
dx = -face->dy;
dy = face->dx;
xa = face->xa;
ya = face->ya;
left = 1;
if (ya > 0)
{
ya = 0.0;
xa = 0.0;
}
if (dy < 0 || (dy == 0 && dx > 0))
{
dx = -dx;
dy = -dy;
left = !left;
}
if (dx == 0 && dy == 0)
dy = 1;
if (dy == 0)
{
y = ICEIL (face->ya) + face->y;
edge->x = -32767;
edge->stepx = 0;
edge->signdx = 0;
edge->e = -1;
edge->dy = 0;
edge->dx = 0;
edge->height = 0;
}
else
{
y = miPolyBuildEdge (xa, ya, 0.0, dx, dy, face->x, face->y, !left, edge);
edge->height = 32767;
}
*leftEdge = !left;
return y;
}
_X_EXPORT void
miRoundJoinClip (LineFacePtr pLeft, LineFacePtr pRight,
PolyEdgePtr edge1, PolyEdgePtr edge2,
int *y1, int *y2, Bool *left1, Bool *left2)
{
double denom;
denom = - pLeft->dx * (double)pRight->dy + pRight->dx * (double)pLeft->dy;
if (denom >= 0)
{
pLeft->xa = -pLeft->xa;
pLeft->ya = -pLeft->ya;
}
else
{
pRight->xa = -pRight->xa;
pRight->ya = -pRight->ya;
}
*y1 = miRoundJoinFace (pLeft, edge1, left1);
*y2 = miRoundJoinFace (pRight, edge2, left2);
}
_X_EXPORT int
miRoundCapClip (LineFacePtr face, Bool isInt, PolyEdgePtr edge, Bool *leftEdge)
{
int y;
int dx, dy;
double xa, ya, k;
Bool left;
dx = -face->dy;
dy = face->dx;
xa = face->xa;
ya = face->ya;
k = 0.0;
if (!isInt)
k = face->k;
left = 1;
if (dy < 0 || (dy == 0 && dx > 0))
{
dx = -dx;
dy = -dy;
xa = -xa;
ya = -ya;
left = !left;
}
if (dx == 0 && dy == 0)
dy = 1;
if (dy == 0)
{
y = ICEIL (face->ya) + face->y;
edge->x = -32767;
edge->stepx = 0;
edge->signdx = 0;
edge->e = -1;
edge->dy = 0;
edge->dx = 0;
edge->height = 0;
}
else
{
y = miPolyBuildEdge (xa, ya, k, dx, dy, face->x, face->y, !left, edge);
edge->height = 32767;
}
*leftEdge = !left;
return y;
}
static void
miLineArc (
DrawablePtr pDraw,
GCPtr pGC,
unsigned long pixel,
SpanDataPtr spanData,
LineFacePtr leftFace,
LineFacePtr rightFace,
double xorg,
double yorg,
Bool isInt)
{
DDXPointPtr points;
int *widths;
int xorgi = 0, yorgi = 0;
XID oldPixel;
Spans spanRec;
int n;
PolyEdgeRec edge1, edge2;
int edgey1, edgey2;
Bool edgeleft1, edgeleft2;
if (isInt)
{
xorgi = leftFace ? leftFace->x : rightFace->x;
yorgi = leftFace ? leftFace->y : rightFace->y;
}
edgey1 = 65536;
edgey2 = 65536;
edge1.x = 0;
edge1.dy = -1;
edge2.x = 0;
edge2.dy = -1;
edgeleft1 = FALSE;
edgeleft2 = FALSE;
if ((pGC->lineStyle != LineSolid || pGC->lineWidth > 2) &&
((pGC->capStyle == CapRound && pGC->joinStyle != JoinRound) ||
(pGC->joinStyle == JoinRound && pGC->capStyle == CapButt)))
{
if (isInt)
{
xorg = (double) xorgi;
yorg = (double) yorgi;
}
if (leftFace && rightFace)
{
miRoundJoinClip (leftFace, rightFace, &edge1, &edge2,
&edgey1, &edgey2, &edgeleft1, &edgeleft2);
}
else if (leftFace)
{
edgey1 = miRoundCapClip (leftFace, isInt, &edge1, &edgeleft1);
}
else if (rightFace)
{
edgey2 = miRoundCapClip (rightFace, isInt, &edge2, &edgeleft2);
}
isInt = FALSE;
}
if (!spanData)
{
points = (DDXPointPtr)xalloc(sizeof(DDXPointRec) * pGC->lineWidth);
if (!points)
return;
widths = (int *)xalloc(sizeof(int) * pGC->lineWidth);
if (!widths)
{
xfree(points);
return;
}
oldPixel = pGC->fgPixel;
if (pixel != oldPixel)
{
XID tmpPixel = (XID)pixel;
DoChangeGC(pGC, GCForeground, &tmpPixel, FALSE);
ValidateGC (pDraw, pGC);
}
}
else
{
points = (DDXPointPtr) xalloc (pGC->lineWidth * sizeof (DDXPointRec));
if (!points)
return;
widths = (int *) xalloc (pGC->lineWidth * sizeof (int));
if (!widths)
{
xfree (points);
return;
}
spanRec.points = points;
spanRec.widths = widths;
}
if (isInt)
n = miLineArcI(pDraw, pGC, xorgi, yorgi, points, widths);
else
n = miLineArcD(pDraw, pGC, xorg, yorg, points, widths,
&edge1, edgey1, edgeleft1,
&edge2, edgey2, edgeleft2);
if (!spanData)
{
(*pGC->ops->FillSpans)(pDraw, pGC, n, points, widths, TRUE);
xfree(widths);
xfree(points);
if (pixel != oldPixel)
{
DoChangeGC(pGC, GCForeground, &oldPixel, FALSE);
ValidateGC (pDraw, pGC);
}
}
else
{
spanRec.count = n;
AppendSpanGroup (pGC, pixel, &spanRec, spanData)
}
}
static void
miLineProjectingCap (DrawablePtr pDrawable, GCPtr pGC, unsigned long pixel,
SpanDataPtr spanData, LineFacePtr face, Bool isLeft,
double xorg, double yorg, Bool isInt)
{
int xorgi = 0, yorgi = 0;
int lw;
PolyEdgeRec lefts[2], rights[2];
int lefty, righty, topy, bottomy;
PolyEdgePtr left, right;
PolyEdgePtr top, bottom;
double xa,ya;
double k;
double xap, yap;
int dx, dy;
double projectXoff, projectYoff;
double maxy;
int finaly;
if (isInt)
{
xorgi = face->x;
yorgi = face->y;
}
lw = pGC->lineWidth;
dx = face->dx;
dy = face->dy;
k = face->k;
if (dy == 0)
{
lefts[0].height = lw;
lefts[0].x = xorgi;
if (isLeft)
lefts[0].x -= (lw >> 1);
lefts[0].stepx = 0;
lefts[0].signdx = 1;
lefts[0].e = -lw;
lefts[0].dx = 0;
lefts[0].dy = lw;
rights[0].height = lw;
rights[0].x = xorgi;
if (!isLeft)
rights[0].x += ((lw + 1) >> 1);
rights[0].stepx = 0;
rights[0].signdx = 1;
rights[0].e = -lw;
rights[0].dx = 0;
rights[0].dy = lw;
miFillPolyHelper (pDrawable, pGC, pixel, spanData, yorgi - (lw >> 1), lw,
lefts, rights, 1, 1);
}
else if (dx == 0)
{
if (dy < 0) {
dy = -dy;
isLeft = !isLeft;
}
topy = yorgi;
bottomy = yorgi + dy;
if (isLeft)
topy -= (lw >> 1);
else
bottomy += (lw >> 1);
lefts[0].height = bottomy - topy;
lefts[0].x = xorgi - (lw >> 1);
lefts[0].stepx = 0;
lefts[0].signdx = 1;
lefts[0].e = -dy;
lefts[0].dx = dx;
lefts[0].dy = dy;
rights[0].height = bottomy - topy;
rights[0].x = lefts[0].x + (lw-1);
rights[0].stepx = 0;
rights[0].signdx = 1;
rights[0].e = -dy;
rights[0].dx = dx;
rights[0].dy = dy;
miFillPolyHelper (pDrawable, pGC, pixel, spanData, topy, bottomy - topy, lefts, rights, 1, 1);
}
else
{
xa = face->xa;
ya = face->ya;
projectXoff = -ya;
projectYoff = xa;
if (dx < 0)
{
right = &rights[1];
left = &lefts[0];
top = &rights[0];
bottom = &lefts[1];
}
else
{
right = &rights[0];
left = &lefts[1];
top = &lefts[0];
bottom = &rights[1];
}
if (isLeft)
{
righty = miPolyBuildEdge (xa, ya,
k, dx, dy, xorgi, yorgi, 0, right);
xa = -xa;
ya = -ya;
k = -k;
lefty = miPolyBuildEdge (xa - projectXoff, ya - projectYoff,
k, dx, dy, xorgi, yorgi, 1, left);
if (dx > 0)
{
ya = -ya;
xa = -xa;
}
xap = xa - projectXoff;
yap = ya - projectYoff;
topy = miPolyBuildEdge (xap, yap, xap * dx + yap * dy,
-dy, dx, xorgi, yorgi, dx > 0, top);
bottomy = miPolyBuildEdge (xa, ya,
0.0, -dy, dx, xorgi, yorgi, dx < 0, bottom);
maxy = -ya;
}
else
{
righty = miPolyBuildEdge (xa - projectXoff, ya - projectYoff,
k, dx, dy, xorgi, yorgi, 0, right);
xa = -xa;
ya = -ya;
k = -k;
lefty = miPolyBuildEdge (xa, ya,
k, dx, dy, xorgi, yorgi, 1, left);
if (dx > 0)
{
ya = -ya;
xa = -xa;
}
xap = xa - projectXoff;
yap = ya - projectYoff;
topy = miPolyBuildEdge (xa, ya, 0.0, -dy, dx, xorgi, xorgi, dx > 0, top);
bottomy = miPolyBuildEdge (xap, yap, xap * dx + yap * dy,
-dy, dx, xorgi, xorgi, dx < 0, bottom);
maxy = -ya + projectYoff;
}
finaly = ICEIL(maxy) + yorgi;
if (dx < 0)
{
left->height = bottomy - lefty;
right->height = finaly - righty;
top->height = righty - topy;
}
else
{
right->height = bottomy - righty;
left->height = finaly - lefty;
top->height = lefty - topy;
}
bottom->height = finaly - bottomy;
miFillPolyHelper (pDrawable, pGC, pixel, spanData, topy,
bottom->height + bottomy - topy, lefts, rights, 2, 2);
}
}
static void
miWideSegment (
DrawablePtr pDrawable,
GCPtr pGC,
unsigned long pixel,
SpanDataPtr spanData,
int x1,
int y1,
int x2,
int y2,
Bool projectLeft,
Bool projectRight,
LineFacePtr leftFace,
LineFacePtr rightFace)
{
double l, L, r;
double xa, ya;
double projectXoff = 0.0, projectYoff = 0.0;
double k;
double maxy;
int x, y;
int dx, dy;
int finaly;
PolyEdgePtr left, right;
PolyEdgePtr top, bottom;
int lefty, righty, topy, bottomy;
int signdx;
PolyEdgeRec lefts[2], rights[2];
LineFacePtr tface;
int lw = pGC->lineWidth;
if (y2 < y1 || (y2 == y1 && x2 < x1))
{
x = x1;
x1 = x2;
x2 = x;
y = y1;
y1 = y2;
y2 = y;
x = projectLeft;
projectLeft = projectRight;
projectRight = x;
tface = leftFace;
leftFace = rightFace;
rightFace = tface;
}
dy = y2 - y1;
signdx = 1;
dx = x2 - x1;
if (dx < 0)
signdx = -1;
leftFace->x = x1;
leftFace->y = y1;
leftFace->dx = dx;
leftFace->dy = dy;
rightFace->x = x2;
rightFace->y = y2;
rightFace->dx = -dx;
rightFace->dy = -dy;
if (dy == 0)
{
rightFace->xa = 0;
rightFace->ya = (double) lw / 2.0;
rightFace->k = -(double) (lw * dx) / 2.0;
leftFace->xa = 0;
leftFace->ya = -rightFace->ya;
leftFace->k = rightFace->k;
x = x1;
if (projectLeft)
x -= (lw >> 1);
y = y1 - (lw >> 1);
dx = x2 - x;
if (projectRight)
dx += ((lw + 1) >> 1);
dy = lw;
miFillRectPolyHelper (pDrawable, pGC, pixel, spanData,
x, y, dx, dy);
}
else if (dx == 0)
{
leftFace->xa = (double) lw / 2.0;
leftFace->ya = 0;
leftFace->k = (double) (lw * dy) / 2.0;
rightFace->xa = -leftFace->xa;
rightFace->ya = 0;
rightFace->k = leftFace->k;
y = y1;
if (projectLeft)
y -= lw >> 1;
x = x1 - (lw >> 1);
dy = y2 - y;
if (projectRight)
dy += ((lw + 1) >> 1);
dx = lw;
miFillRectPolyHelper (pDrawable, pGC, pixel, spanData,
x, y, dx, dy);
}
else
{
l = ((double) lw) / 2.0;
L = hypot ((double) dx, (double) dy);
if (dx < 0)
{
right = &rights[1];
left = &lefts[0];
top = &rights[0];
bottom = &lefts[1];
}
else
{
right = &rights[0];
left = &lefts[1];
top = &lefts[0];
bottom = &rights[1];
}
r = l / L;
ya = -r * dx;
xa = r * dy;
if (projectLeft | projectRight)
{
projectXoff = -ya;
projectYoff = xa;
}
k = l * L;
leftFace->xa = xa;
leftFace->ya = ya;
leftFace->k = k;
rightFace->xa = -xa;
rightFace->ya = -ya;
rightFace->k = k;
if (projectLeft)
righty = miPolyBuildEdge (xa - projectXoff, ya - projectYoff,
k, dx, dy, x1, y1, 0, right);
else
righty = miPolyBuildEdge (xa, ya,
k, dx, dy, x1, y1, 0, right);
ya = -ya;
xa = -xa;
k = - k;
if (projectLeft)
lefty = miPolyBuildEdge (xa - projectXoff, ya - projectYoff,
k, dx, dy, x1, y1, 1, left);
else
lefty = miPolyBuildEdge (xa, ya,
k, dx, dy, x1, y1, 1, left);
if (signdx > 0)
{
ya = -ya;
xa = -xa;
}
if (projectLeft)
{
double xap = xa - projectXoff;
double yap = ya - projectYoff;
topy = miPolyBuildEdge (xap, yap, xap * dx + yap * dy,
-dy, dx, x1, y1, dx > 0, top);
}
else
topy = miPolyBuildEdge (xa, ya, 0.0, -dy, dx, x1, y1, dx > 0, top);
if (projectRight)
{
double xap = xa + projectXoff;
double yap = ya + projectYoff;
bottomy = miPolyBuildEdge (xap, yap, xap * dx + yap * dy,
-dy, dx, x2, y2, dx < 0, bottom);
maxy = -ya + projectYoff;
}
else
{
bottomy = miPolyBuildEdge (xa, ya,
0.0, -dy, dx, x2, y2, dx < 0, bottom);
maxy = -ya;
}
finaly = ICEIL (maxy) + y2;
if (dx < 0)
{
left->height = bottomy - lefty;
right->height = finaly - righty;
top->height = righty - topy;
}
else
{
right->height = bottomy - righty;
left->height = finaly - lefty;
top->height = lefty - topy;
}
bottom->height = finaly - bottomy;
miFillPolyHelper (pDrawable, pGC, pixel, spanData, topy,
bottom->height + bottomy - topy, lefts, rights, 2, 2);
}
}
static SpanDataPtr
miSetupSpanData (GCPtr pGC, SpanDataPtr spanData, int npt)
{
if ((npt < 3 && pGC->capStyle != CapRound) || miSpansEasyRop(pGC->alu))
return (SpanDataPtr) NULL;
if (pGC->lineStyle == LineDoubleDash)
miInitSpanGroup (&spanData->bgGroup);
miInitSpanGroup (&spanData->fgGroup);
return spanData;
}
static void
miCleanupSpanData (DrawablePtr pDrawable, GCPtr pGC, SpanDataPtr spanData)
{
if (pGC->lineStyle == LineDoubleDash)
{
XID oldPixel, pixel;
pixel = pGC->bgPixel;
oldPixel = pGC->fgPixel;
if (pixel != oldPixel)
{
DoChangeGC (pGC, GCForeground, &pixel, FALSE);
ValidateGC (pDrawable, pGC);
}
miFillUniqueSpanGroup (pDrawable, pGC, &spanData->bgGroup);
miFreeSpanGroup (&spanData->bgGroup);
if (pixel != oldPixel)
{
DoChangeGC (pGC, GCForeground, &oldPixel, FALSE);
ValidateGC (pDrawable, pGC);
}
}
miFillUniqueSpanGroup (pDrawable, pGC, &spanData->fgGroup);
miFreeSpanGroup (&spanData->fgGroup);
}
_X_EXPORT void
miWideLine (DrawablePtr pDrawable, GCPtr pGC,
int mode, int npt, DDXPointPtr pPts)
{
int x1, y1, x2, y2;
SpanDataRec spanDataRec;
SpanDataPtr spanData;
long pixel;
Bool projectLeft, projectRight;
LineFaceRec leftFace, rightFace, prevRightFace;
LineFaceRec firstFace;
int first;
Bool somethingDrawn = FALSE;
Bool selfJoin;
spanData = miSetupSpanData (pGC, &spanDataRec, npt);
pixel = pGC->fgPixel;
x2 = pPts->x;
y2 = pPts->y;
first = TRUE;
selfJoin = FALSE;
if (npt > 1)
{
if (mode == CoordModePrevious)
{
int nptTmp;
DDXPointPtr pPtsTmp;
x1 = x2;
y1 = y2;
nptTmp = npt;
pPtsTmp = pPts + 1;
while (--nptTmp)
{
x1 += pPtsTmp->x;
y1 += pPtsTmp->y;
++pPtsTmp;
}
if (x2 == x1 && y2 == y1)
selfJoin = TRUE;
}
else if (x2 == pPts[npt-1].x && y2 == pPts[npt-1].y)
{
selfJoin = TRUE;
}
}
projectLeft = pGC->capStyle == CapProjecting && !selfJoin;
projectRight = FALSE;
while (--npt)
{
x1 = x2;
y1 = y2;
++pPts;
x2 = pPts->x;
y2 = pPts->y;
if (mode == CoordModePrevious)
{
x2 += x1;
y2 += y1;
}
if (x1 != x2 || y1 != y2)
{
somethingDrawn = TRUE;
if (npt == 1 && pGC->capStyle == CapProjecting && !selfJoin)
projectRight = TRUE;
miWideSegment (pDrawable, pGC, pixel, spanData, x1, y1, x2, y2,
projectLeft, projectRight, &leftFace, &rightFace);
if (first)
{
if (selfJoin)
firstFace = leftFace;
else if (pGC->capStyle == CapRound)
{
if (pGC->lineWidth == 1 && !spanData)
miLineOnePoint (pDrawable, pGC, pixel, spanData, x1, y1);
else
miLineArc (pDrawable, pGC, pixel, spanData,
&leftFace, (LineFacePtr) NULL,
(double)0.0, (double)0.0,
TRUE);
}
}
else
{
miLineJoin (pDrawable, pGC, pixel, spanData, &leftFace,
&prevRightFace);
}
prevRightFace = rightFace;
first = FALSE;
projectLeft = FALSE;
}
if (npt == 1 && somethingDrawn)
{
if (selfJoin)
miLineJoin (pDrawable, pGC, pixel, spanData, &firstFace,
&rightFace);
else if (pGC->capStyle == CapRound)
{
if (pGC->lineWidth == 1 && !spanData)
miLineOnePoint (pDrawable, pGC, pixel, spanData, x2, y2);
else
miLineArc (pDrawable, pGC, pixel, spanData,
(LineFacePtr) NULL, &rightFace,
(double)0.0, (double)0.0,
TRUE);
}
}
}
if (!somethingDrawn)
{
projectLeft = pGC->capStyle == CapProjecting;
miWideSegment (pDrawable, pGC, pixel, spanData,
x2, y2, x2, y2, projectLeft, projectLeft,
&leftFace, &rightFace);
if (pGC->capStyle == CapRound)
{
miLineArc (pDrawable, pGC, pixel, spanData,
&leftFace, (LineFacePtr) NULL,
(double)0.0, (double)0.0,
TRUE);
rightFace.dx = -1;
miLineArc (pDrawable, pGC, pixel, spanData,
(LineFacePtr) NULL, &rightFace,
(double)0.0, (double)0.0,
TRUE);
}
}
if (spanData)
miCleanupSpanData (pDrawable, pGC, spanData);
}
#define V_TOP 0
#define V_RIGHT 1
#define V_BOTTOM 2
#define V_LEFT 3
static void
miWideDashSegment (
DrawablePtr pDrawable,
GCPtr pGC,
SpanDataPtr spanData,
int *pDashOffset,
int *pDashIndex,
int x1,
int y1,
int x2,
int y2,
Bool projectLeft,
Bool projectRight,
LineFacePtr leftFace,
LineFacePtr rightFace)
{
int dashIndex, dashRemain;
unsigned char *pDash;
double L, l;
double k;
PolyVertexRec vertices[4];
PolyVertexRec saveRight, saveBottom;
PolySlopeRec slopes[4];
PolyEdgeRec left[2], right[2];
LineFaceRec lcapFace, rcapFace;
int nleft, nright;
int h;
int y;
int dy, dx;
unsigned long pixel;
double LRemain;
double r;
double rdx, rdy;
double dashDx, dashDy;
double saveK = 0.0;
Bool first = TRUE;
double lcenterx, lcentery, rcenterx = 0.0, rcentery = 0.0;
unsigned long fgPixel, bgPixel;
dx = x2 - x1;
dy = y2 - y1;
dashIndex = *pDashIndex;
pDash = pGC->dash;
dashRemain = pDash[dashIndex] - *pDashOffset;
fgPixel = pGC->fgPixel;
bgPixel = pGC->bgPixel;
if (pGC->fillStyle == FillOpaqueStippled ||
pGC->fillStyle == FillTiled)
{
bgPixel = fgPixel;
}
l = ((double) pGC->lineWidth) / 2.0;
if (dx == 0)
{
L = dy;
rdx = 0;
rdy = l;
if (dy < 0)
{
L = -dy;
rdy = -l;
}
}
else if (dy == 0)
{
L = dx;
rdx = l;
rdy = 0;
if (dx < 0)
{
L = -dx;
rdx = -l;
}
}
else
{
L = hypot ((double) dx, (double) dy);
r = l / L;
rdx = r * dx;
rdy = r * dy;
}
k = l * L;
LRemain = L;
slopes[V_TOP].dx = dx;
slopes[V_TOP].dy = dy;
slopes[V_TOP].k = k;
slopes[V_RIGHT].dx = -dy;
slopes[V_RIGHT].dy = dx;
slopes[V_RIGHT].k = 0;
slopes[V_BOTTOM].dx = -dx;
slopes[V_BOTTOM].dy = -dy;
slopes[V_BOTTOM].k = k;
slopes[V_LEFT].dx = dy;
slopes[V_LEFT].dy = -dx;
slopes[V_LEFT].k = 0;
vertices[V_RIGHT].x = vertices[V_TOP].x = rdy;
vertices[V_RIGHT].y = vertices[V_TOP].y = -rdx;
vertices[V_BOTTOM].x = vertices[V_LEFT].x = -rdy;
vertices[V_BOTTOM].y = vertices[V_LEFT].y = rdx;
if (projectLeft)
{
vertices[V_TOP].x -= rdx;
vertices[V_TOP].y -= rdy;
vertices[V_LEFT].x -= rdx;
vertices[V_LEFT].y -= rdy;
slopes[V_LEFT].k = rdx * dx + rdy * dy;
}
lcenterx = x1;
lcentery = y1;
if (pGC->capStyle == CapRound)
{
lcapFace.dx = dx;
lcapFace.dy = dy;
lcapFace.x = x1;
lcapFace.y = y1;
rcapFace.dx = -dx;
rcapFace.dy = -dy;
rcapFace.x = x1;
rcapFace.y = y1;
}
while (LRemain > dashRemain)
{
dashDx = (dashRemain * dx) / L;
dashDy = (dashRemain * dy) / L;
rcenterx = lcenterx + dashDx;
rcentery = lcentery + dashDy;
vertices[V_RIGHT].x += dashDx;
vertices[V_RIGHT].y += dashDy;
vertices[V_BOTTOM].x += dashDx;
vertices[V_BOTTOM].y += dashDy;
slopes[V_RIGHT].k = vertices[V_RIGHT].x * dx + vertices[V_RIGHT].y * dy;
if (pGC->lineStyle == LineDoubleDash || !(dashIndex & 1))
{
if (pGC->lineStyle == LineOnOffDash &&
pGC->capStyle == CapProjecting)
{
saveRight = vertices[V_RIGHT];
saveBottom = vertices[V_BOTTOM];
saveK = slopes[V_RIGHT].k;
if (!first)
{
vertices[V_TOP].x -= rdx;
vertices[V_TOP].y -= rdy;
vertices[V_LEFT].x -= rdx;
vertices[V_LEFT].y -= rdy;
slopes[V_LEFT].k = vertices[V_LEFT].x *
slopes[V_LEFT].dy -
vertices[V_LEFT].y *
slopes[V_LEFT].dx;
}
vertices[V_RIGHT].x += rdx;
vertices[V_RIGHT].y += rdy;
vertices[V_BOTTOM].x += rdx;
vertices[V_BOTTOM].y += rdy;
slopes[V_RIGHT].k = vertices[V_RIGHT].x *
slopes[V_RIGHT].dy -
vertices[V_RIGHT].y *
slopes[V_RIGHT].dx;
}
y = miPolyBuildPoly (vertices, slopes, 4, x1, y1,
left, right, &nleft, &nright, &h);
pixel = (dashIndex & 1) ? bgPixel : fgPixel;
miFillPolyHelper (pDrawable, pGC, pixel, spanData, y, h, left, right, nleft, nright);
if (pGC->lineStyle == LineOnOffDash)
{
switch (pGC->capStyle)
{
case CapProjecting:
vertices[V_BOTTOM] = saveBottom;
vertices[V_RIGHT] = saveRight;
slopes[V_RIGHT].k = saveK;
break;
case CapRound:
if (!first)
{
if (dx < 0)
{
lcapFace.xa = -vertices[V_LEFT].x;
lcapFace.ya = -vertices[V_LEFT].y;
lcapFace.k = slopes[V_LEFT].k;
}
else
{
lcapFace.xa = vertices[V_TOP].x;
lcapFace.ya = vertices[V_TOP].y;
lcapFace.k = -slopes[V_LEFT].k;
}
miLineArc (pDrawable, pGC, pixel, spanData,
&lcapFace, (LineFacePtr) NULL,
lcenterx, lcentery, FALSE);
}
if (dx < 0)
{
rcapFace.xa = vertices[V_BOTTOM].x;
rcapFace.ya = vertices[V_BOTTOM].y;
rcapFace.k = slopes[V_RIGHT].k;
}
else
{
rcapFace.xa = -vertices[V_RIGHT].x;
rcapFace.ya = -vertices[V_RIGHT].y;
rcapFace.k = -slopes[V_RIGHT].k;
}
miLineArc (pDrawable, pGC, pixel, spanData,
(LineFacePtr) NULL, &rcapFace,
rcenterx, rcentery, FALSE);
break;
}
}
}
LRemain -= dashRemain;
++dashIndex;
if (dashIndex == pGC->numInDashList)
dashIndex = 0;
dashRemain = pDash[dashIndex];
lcenterx = rcenterx;
lcentery = rcentery;
vertices[V_TOP] = vertices[V_RIGHT];
vertices[V_LEFT] = vertices[V_BOTTOM];
slopes[V_LEFT].k = -slopes[V_RIGHT].k;
first = FALSE;
}
if (pGC->lineStyle == LineDoubleDash || !(dashIndex & 1))
{
vertices[V_TOP].x -= dx;
vertices[V_TOP].y -= dy;
vertices[V_LEFT].x -= dx;
vertices[V_LEFT].y -= dy;
vertices[V_RIGHT].x = rdy;
vertices[V_RIGHT].y = -rdx;
vertices[V_BOTTOM].x = -rdy;
vertices[V_BOTTOM].y = rdx;
if (projectRight)
{
vertices[V_RIGHT].x += rdx;
vertices[V_RIGHT].y += rdy;
vertices[V_BOTTOM].x += rdx;
vertices[V_BOTTOM].y += rdy;
slopes[V_RIGHT].k = vertices[V_RIGHT].x *
slopes[V_RIGHT].dy -
vertices[V_RIGHT].y *
slopes[V_RIGHT].dx;
}
else
slopes[V_RIGHT].k = 0;
if (!first && pGC->lineStyle == LineOnOffDash &&
pGC->capStyle == CapProjecting)
{
vertices[V_TOP].x -= rdx;
vertices[V_TOP].y -= rdy;
vertices[V_LEFT].x -= rdx;
vertices[V_LEFT].y -= rdy;
slopes[V_LEFT].k = vertices[V_LEFT].x *
slopes[V_LEFT].dy -
vertices[V_LEFT].y *
slopes[V_LEFT].dx;
}
else
slopes[V_LEFT].k += dx * dx + dy * dy;
y = miPolyBuildPoly (vertices, slopes, 4, x2, y2,
left, right, &nleft, &nright, &h);
pixel = (dashIndex & 1) ? pGC->bgPixel : pGC->fgPixel;
miFillPolyHelper (pDrawable, pGC, pixel, spanData, y, h, left, right, nleft, nright);
if (!first && pGC->lineStyle == LineOnOffDash &&
pGC->capStyle == CapRound)
{
lcapFace.x = x2;
lcapFace.y = y2;
if (dx < 0)
{
lcapFace.xa = -vertices[V_LEFT].x;
lcapFace.ya = -vertices[V_LEFT].y;
lcapFace.k = slopes[V_LEFT].k;
}
else
{
lcapFace.xa = vertices[V_TOP].x;
lcapFace.ya = vertices[V_TOP].y;
lcapFace.k = -slopes[V_LEFT].k;
}
miLineArc (pDrawable, pGC, pixel, spanData,
&lcapFace, (LineFacePtr) NULL,
rcenterx, rcentery, FALSE);
}
}
dashRemain = ((double) dashRemain) - LRemain;
if (dashRemain == 0)
{
dashIndex++;
if (dashIndex == pGC->numInDashList)
dashIndex = 0;
dashRemain = pDash[dashIndex];
}
leftFace->x = x1;
leftFace->y = y1;
leftFace->dx = dx;
leftFace->dy = dy;
leftFace->xa = rdy;
leftFace->ya = -rdx;
leftFace->k = k;
rightFace->x = x2;
rightFace->y = y2;
rightFace->dx = -dx;
rightFace->dy = -dy;
rightFace->xa = -rdy;
rightFace->ya = rdx;
rightFace->k = k;
*pDashIndex = dashIndex;
*pDashOffset = pDash[dashIndex] - dashRemain;
}
_X_EXPORT void
miWideDash (DrawablePtr pDrawable, GCPtr pGC,
int mode, int npt, DDXPointPtr pPts)
{
int x1, y1, x2, y2;
unsigned long pixel;
Bool projectLeft, projectRight;
LineFaceRec leftFace, rightFace, prevRightFace;
LineFaceRec firstFace;
int first;
int dashIndex, dashOffset;
int prevDashIndex;
SpanDataRec spanDataRec;
SpanDataPtr spanData;
Bool somethingDrawn = FALSE;
Bool selfJoin;
Bool endIsFg = FALSE, startIsFg = FALSE;
Bool firstIsFg = FALSE, prevIsFg = FALSE;
#if 0
if (pGC->lineWidth == 0)
{
miZeroDashLine (pDrawable, pGC, mode, npt, pPts);
return;
}
#endif
if (pGC->lineStyle == LineDoubleDash &&
(pGC->fillStyle == FillOpaqueStippled || pGC->fillStyle == FillTiled))
{
miWideLine (pDrawable, pGC, mode, npt, pPts);
return;
}
if (npt == 0)
return;
spanData = miSetupSpanData (pGC, &spanDataRec, npt);
x2 = pPts->x;
y2 = pPts->y;
first = TRUE;
selfJoin = FALSE;
if (mode == CoordModePrevious)
{
int nptTmp;
DDXPointPtr pPtsTmp;
x1 = x2;
y1 = y2;
nptTmp = npt;
pPtsTmp = pPts + 1;
while (--nptTmp)
{
x1 += pPtsTmp->x;
y1 += pPtsTmp->y;
++pPtsTmp;
}
if (x2 == x1 && y2 == y1)
selfJoin = TRUE;
}
else if (x2 == pPts[npt-1].x && y2 == pPts[npt-1].y)
{
selfJoin = TRUE;
}
projectLeft = pGC->capStyle == CapProjecting && !selfJoin;
projectRight = FALSE;
dashIndex = 0;
dashOffset = 0;
miStepDash ((int)pGC->dashOffset, &dashIndex,
pGC->dash, (int)pGC->numInDashList, &dashOffset);
while (--npt)
{
x1 = x2;
y1 = y2;
++pPts;
x2 = pPts->x;
y2 = pPts->y;
if (mode == CoordModePrevious)
{
x2 += x1;
y2 += y1;
}
if (x1 != x2 || y1 != y2)
{
somethingDrawn = TRUE;
if (npt == 1 && pGC->capStyle == CapProjecting &&
(!selfJoin || !firstIsFg))
projectRight = TRUE;
prevDashIndex = dashIndex;
miWideDashSegment (pDrawable, pGC, spanData, &dashOffset, &dashIndex,
x1, y1, x2, y2,
projectLeft, projectRight, &leftFace, &rightFace);
startIsFg = !(prevDashIndex & 1);
endIsFg = (dashIndex & 1) ^ (dashOffset != 0);
if (pGC->lineStyle == LineDoubleDash || startIsFg)
{
pixel = startIsFg ? pGC->fgPixel : pGC->bgPixel;
if (first || (pGC->lineStyle == LineOnOffDash && !prevIsFg))
{
if (first && selfJoin)
{
firstFace = leftFace;
firstIsFg = startIsFg;
}
else if (pGC->capStyle == CapRound)
miLineArc (pDrawable, pGC, pixel, spanData,
&leftFace, (LineFacePtr) NULL,
(double)0.0, (double)0.0, TRUE);
}
else
{
miLineJoin (pDrawable, pGC, pixel, spanData, &leftFace,
&prevRightFace);
}
}
prevRightFace = rightFace;
prevIsFg = endIsFg;
first = FALSE;
projectLeft = FALSE;
}
if (npt == 1 && somethingDrawn)
{
if (pGC->lineStyle == LineDoubleDash || endIsFg)
{
pixel = endIsFg ? pGC->fgPixel : pGC->bgPixel;
if (selfJoin && (pGC->lineStyle == LineDoubleDash || firstIsFg))
{
miLineJoin (pDrawable, pGC, pixel, spanData, &firstFace,
&rightFace);
}
else
{
if (pGC->capStyle == CapRound)
miLineArc (pDrawable, pGC, pixel, spanData,
(LineFacePtr) NULL, &rightFace,
(double)0.0, (double)0.0, TRUE);
}
}
else
{
if (selfJoin && firstIsFg)
{
pixel = pGC->fgPixel;
if (pGC->capStyle == CapProjecting)
miLineProjectingCap (pDrawable, pGC, pixel, spanData,
&firstFace, TRUE,
(double)0.0, (double)0.0, TRUE);
else if (pGC->capStyle == CapRound)
miLineArc (pDrawable, pGC, pixel, spanData,
&firstFace, (LineFacePtr) NULL,
(double)0.0, (double)0.0, TRUE);
}
}
}
}
if (!somethingDrawn && (pGC->lineStyle == LineDoubleDash || !(dashIndex & 1)))
{
pixel = (dashIndex & 1) ? pGC->bgPixel : pGC->fgPixel;
switch (pGC->capStyle) {
case CapRound:
miLineArc (pDrawable, pGC, pixel, spanData,
(LineFacePtr) NULL, (LineFacePtr) NULL,
(double)x2, (double)y2,
FALSE);
break;
case CapProjecting:
x1 = pGC->lineWidth;
miFillRectPolyHelper (pDrawable, pGC, pixel, spanData,
x2 - (x1 >> 1), y2 - (x1 >> 1), x1, x1);
break;
}
}
if (spanData)
miCleanupSpanData (pDrawable, pGC, spanData);
}