mi: Fold mifpolycon.c into miarc.c
Also put mifpoly.h on a diet, and stop including it from places that don't need it. Reviewed-by: Keith Packard <keithp@keithp.com> Signed-off-by: Adam Jackson <ajax@redhat.com>
This commit is contained in:
parent
f307ef10f4
commit
7679afd4da
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@ -217,7 +217,6 @@ cat > sdksyms.c << EOF
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#include "micoord.h"
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#include "mifillarc.h"
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#include "mistruct.h"
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#include "mifpoly.h"
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#include "mioverlay.h"
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@ -24,7 +24,6 @@ libmi_la_SOURCES = \
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mifillarc.c \
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mifillarc.h \
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mifillrct.c \
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mifpolycon.c \
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mifpoly.h \
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migc.c \
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migc.h \
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205
mi/miarc.c
205
mi/miarc.c
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@ -63,6 +63,22 @@ SOFTWARE.
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#include "mifillarc.h"
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#include <X11/Xfuncproto.h>
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#define EPSILON 0.000001
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#define ISEQUAL(a,b) (fabs((a) - (b)) <= EPSILON)
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#define UNEQUAL(a,b) (fabs((a) - (b)) > EPSILON)
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#define PTISEQUAL(a,b) (ISEQUAL(a.x,b.x) && ISEQUAL(a.y,b.y))
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#define SQSECANT 108.856472512142 /* 1/sin^2(11/2) - for 11o miter cutoff */
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/* Point with sub-pixel positioning. */
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typedef struct _SppPoint {
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double x, y;
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} SppPointRec, *SppPointPtr;
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typedef struct _SppArc {
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double x, y, width, height;
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double angle1, angle2;
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} SppArcRec, *SppArcPtr;
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static double miDsin(double a);
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static double miDcos(double a);
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static double miDasin(double v);
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@ -1110,6 +1126,195 @@ miWideArc(DrawablePtr pDraw, GCPtr pGC, int narcs, xArc * parcs)
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}
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}
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/* Find the index of the point with the smallest y.also return the
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* smallest and largest y */
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static int
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GetFPolyYBounds(SppPointPtr pts, int n, double yFtrans, int *by, int *ty)
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{
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SppPointPtr ptMin;
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double ymin, ymax;
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SppPointPtr ptsStart = pts;
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ptMin = pts;
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ymin = ymax = (pts++)->y;
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while (--n > 0) {
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if (pts->y < ymin) {
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ptMin = pts;
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ymin = pts->y;
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}
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if (pts->y > ymax)
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ymax = pts->y;
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pts++;
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}
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*by = ICEIL(ymin + yFtrans);
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*ty = ICEIL(ymax + yFtrans - 1);
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return ptMin - ptsStart;
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}
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/*
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* miFillSppPoly written by Todd Newman; April. 1987.
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*
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* Fill a convex polygon. If the given polygon
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* is not convex, then the result is undefined.
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* The algorithm is to order the edges from smallest
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* y to largest by partitioning the array into a left
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* edge list and a right edge list. The algorithm used
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* to traverse each edge is digital differencing analyzer
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* line algorithm with y as the major axis. There's some funny linear
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* interpolation involved because of the subpixel postioning.
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*/
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static void
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miFillSppPoly(DrawablePtr dst, GCPtr pgc, int count, /* number of points */
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SppPointPtr ptsIn, /* the points */
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int xTrans, int yTrans, /* Translate each point by this */
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double xFtrans, double yFtrans /* translate before conversion
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by this amount. This provides
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a mechanism to match rounding
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errors with any shape that must
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meet the polygon exactly.
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*/
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)
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{
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double xl = 0.0, xr = 0.0, /* x vals of left and right edges */
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ml = 0.0, /* left edge slope */
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mr = 0.0, /* right edge slope */
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dy, /* delta y */
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i; /* loop counter */
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int y, /* current scanline */
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j, imin, /* index of vertex with smallest y */
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ymin, /* y-extents of polygon */
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ymax, *width, *FirstWidth, /* output buffer */
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*Marked; /* set if this vertex has been used */
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int left, right, /* indices to first endpoints */
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nextleft, nextright; /* indices to second endpoints */
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DDXPointPtr ptsOut, FirstPoint; /* output buffer */
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if (pgc->miTranslate) {
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xTrans += dst->x;
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yTrans += dst->y;
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}
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imin = GetFPolyYBounds(ptsIn, count, yFtrans, &ymin, &ymax);
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y = ymax - ymin + 1;
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if ((count < 3) || (y <= 0))
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return;
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ptsOut = FirstPoint = malloc(sizeof(DDXPointRec) * y);
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width = FirstWidth = malloc(sizeof(int) * y);
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Marked = malloc(sizeof(int) * count);
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if (!ptsOut || !width || !Marked) {
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free(Marked);
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free(width);
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free(ptsOut);
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return;
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}
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for (j = 0; j < count; j++)
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Marked[j] = 0;
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nextleft = nextright = imin;
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Marked[imin] = -1;
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y = ICEIL(ptsIn[nextleft].y + yFtrans);
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/*
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* loop through all edges of the polygon
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*/
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do {
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/* add a left edge if we need to */
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if ((y > (ptsIn[nextleft].y + yFtrans) ||
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ISEQUAL(y, ptsIn[nextleft].y + yFtrans)) &&
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Marked[nextleft] != 1) {
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Marked[nextleft]++;
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left = nextleft++;
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/* find the next edge, considering the end conditions */
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if (nextleft >= count)
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nextleft = 0;
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/* now compute the starting point and slope */
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dy = ptsIn[nextleft].y - ptsIn[left].y;
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if (dy != 0.0) {
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ml = (ptsIn[nextleft].x - ptsIn[left].x) / dy;
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dy = y - (ptsIn[left].y + yFtrans);
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xl = (ptsIn[left].x + xFtrans) + ml * max(dy, 0);
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}
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}
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/* add a right edge if we need to */
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if ((y > ptsIn[nextright].y + yFtrans) ||
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(ISEQUAL(y, ptsIn[nextright].y + yFtrans)
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&& Marked[nextright] != 1)) {
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Marked[nextright]++;
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right = nextright--;
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/* find the next edge, considering the end conditions */
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if (nextright < 0)
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nextright = count - 1;
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/* now compute the starting point and slope */
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dy = ptsIn[nextright].y - ptsIn[right].y;
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if (dy != 0.0) {
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mr = (ptsIn[nextright].x - ptsIn[right].x) / dy;
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dy = y - (ptsIn[right].y + yFtrans);
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xr = (ptsIn[right].x + xFtrans) + mr * max(dy, 0);
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}
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}
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/*
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* generate scans to fill while we still have
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* a right edge as well as a left edge.
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*/
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i = (min(ptsIn[nextleft].y, ptsIn[nextright].y) + yFtrans) - y;
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if (i < EPSILON) {
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if (Marked[nextleft] && Marked[nextright]) {
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/* Arrgh, we're trapped! (no more points)
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* Out, we've got to get out of here before this decadence saps
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* our will completely! */
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break;
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}
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continue;
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}
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else {
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j = (int) i;
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if (!j)
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j++;
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}
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while (j > 0) {
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int cxl, cxr;
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ptsOut->y = (y) + yTrans;
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cxl = ICEIL(xl);
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cxr = ICEIL(xr);
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/* reverse the edges if necessary */
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if (xl < xr) {
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*(width++) = cxr - cxl;
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(ptsOut++)->x = cxl + xTrans;
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}
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else {
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*(width++) = cxl - cxr;
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(ptsOut++)->x = cxr + xTrans;
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}
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y++;
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/* increment down the edges */
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xl += ml;
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xr += mr;
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j--;
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}
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} while (y <= ymax);
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/* Finally, fill the spans we've collected */
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(*pgc->ops->FillSpans) (dst, pgc,
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ptsOut - FirstPoint, FirstPoint, FirstWidth, 1);
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free(Marked);
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free(FirstWidth);
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free(FirstPoint);
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}
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static double
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angleBetween(SppPointRec center, SppPointRec point1, SppPointRec point2)
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{
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@ -49,7 +49,6 @@ SOFTWARE.
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#include "regionstr.h"
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#include "mistruct.h"
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#include "mifpoly.h"
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void
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miStepDash(int dist, /* distance to step */
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@ -36,7 +36,6 @@ Author: Bob Scheifler, MIT X Consortium
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#include "regionstr.h"
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#include "gcstruct.h"
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#include "pixmapstr.h"
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#include "mifpoly.h"
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#include "mi.h"
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#include "mifillarc.h"
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41
mi/mifpoly.h
41
mi/mifpoly.h
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@ -49,24 +49,6 @@ SOFTWARE.
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#include <X11/Xfuncproto.h>
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#define EPSILON 0.000001
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#define ISEQUAL(a,b) (fabs((a) - (b)) <= EPSILON)
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#define UNEQUAL(a,b) (fabs((a) - (b)) > EPSILON)
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#define WITHINHALF(a, b) (((a) - (b) > 0.0) ? (a) - (b) < 0.5 : \
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(b) - (a) <= 0.5)
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#define ROUNDTOINT(x) ((int) (((x) > 0.0) ? ((x) + 0.5) : ((x) - 0.5)))
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#define ISZERO(x) (fabs((x)) <= EPSILON)
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#define PTISEQUAL(a,b) (ISEQUAL(a.x,b.x) && ISEQUAL(a.y,b.y))
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#define PTUNEQUAL(a,b) (UNEQUAL(a.x,b.x) || UNEQUAL(a.y,b.y))
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#define PtEqual(a, b) (((a).x == (b).x) && ((a).y == (b).y))
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#define NotEnd 0
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#define FirstEnd 1
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#define SecondEnd 2
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#define SQSECANT 108.856472512142 /* 1/sin^2(11/2) - for 11o miter cutoff */
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#define D2SECANT 5.21671526231167 /* 1/2*sin(11/2) - max extension per width */
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static _X_INLINE int
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ICEIL(double x)
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{
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return ((x == _cTmp) || (x < 0.0)) ? _cTmp : _cTmp + 1;
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}
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/* Point with sub-pixel positioning. In this case we use doubles, but
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* see mifpolycon.c for other suggestions
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*/
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typedef struct _SppPoint {
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double x, y;
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} SppPointRec, *SppPointPtr;
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typedef struct _SppArc {
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double x, y, width, height;
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double angle1, angle2;
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} SppArcRec, *SppArcPtr;
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/* mifpolycon.c */
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extern void miFillSppPoly(DrawablePtr /*dst */ ,
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GCPtr /*pgc */ ,
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int /*count */ ,
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SppPointPtr /*ptsIn */ ,
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int /*xTrans */ ,
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int /*yTrans */ ,
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double /*xFtrans */ ,
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double /*yFtrans */);
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#endif /* __MIFPOLY_H__ */
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249
mi/mifpolycon.c
249
mi/mifpolycon.c
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@ -1,249 +0,0 @@
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/***********************************************************
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Copyright 1987, 1998 The Open Group
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Permission to use, copy, modify, distribute, and sell this software and its
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documentation for any purpose is hereby granted without fee, provided that
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the above copyright notice appear in all copies and that both that
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copyright notice and this permission notice appear in supporting
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documentation.
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The above copyright notice and this permission notice shall be included in
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all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN
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AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
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CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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Except as contained in this notice, the name of The Open Group shall not be
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used in advertising or otherwise to promote the sale, use or other dealings
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in this Software without prior written authorization from The Open Group.
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Copyright 1987 by Digital Equipment Corporation, Maynard, Massachusetts.
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All Rights Reserved
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Permission to use, copy, modify, and distribute this software and its
|
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documentation for any purpose and without fee is hereby granted,
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provided that the above copyright notice appear in all copies and that
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both that copyright notice and this permission notice appear in
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supporting documentation, and that the name of Digital not be
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used in advertising or publicity pertaining to distribution of the
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software without specific, written prior permission.
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DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING
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ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL
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DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR
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ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
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WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
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ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
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SOFTWARE.
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******************************************************************/
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#ifdef HAVE_DIX_CONFIG_H
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#include <dix-config.h>
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#endif
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#include <math.h>
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#include <X11/X.h>
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#include "gcstruct.h"
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#include "windowstr.h"
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#include "pixmapstr.h"
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#include "mifpoly.h"
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static int GetFPolyYBounds(SppPointPtr pts, int n, double yFtrans,
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int *by, int *ty);
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/*
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* Written by Todd Newman; April. 1987.
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*
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* Fill a convex polygon. If the given polygon
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* is not convex, then the result is undefined.
|
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* The algorithm is to order the edges from smallest
|
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* y to largest by partitioning the array into a left
|
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* edge list and a right edge list. The algorithm used
|
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* to traverse each edge is digital differencing analyzer
|
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* line algorithm with y as the major axis. There's some funny linear
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* interpolation involved because of the subpixel postioning.
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*/
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void
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miFillSppPoly(DrawablePtr dst, GCPtr pgc, int count, /* number of points */
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SppPointPtr ptsIn, /* the points */
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int xTrans, int yTrans, /* Translate each point by this */
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double xFtrans, double yFtrans /* translate before conversion
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by this amount. This provides
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a mechanism to match rounding
|
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errors with any shape that must
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meet the polygon exactly.
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*/
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)
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{
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double xl = 0.0, xr = 0.0, /* x vals of left and right edges */
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ml = 0.0, /* left edge slope */
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mr = 0.0, /* right edge slope */
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dy, /* delta y */
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i; /* loop counter */
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int y, /* current scanline */
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j, imin, /* index of vertex with smallest y */
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ymin, /* y-extents of polygon */
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ymax, *width, *FirstWidth, /* output buffer */
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*Marked; /* set if this vertex has been used */
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int left, right, /* indices to first endpoints */
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nextleft, nextright; /* indices to second endpoints */
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DDXPointPtr ptsOut, FirstPoint; /* output buffer */
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if (pgc->miTranslate) {
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xTrans += dst->x;
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yTrans += dst->y;
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}
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imin = GetFPolyYBounds(ptsIn, count, yFtrans, &ymin, &ymax);
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y = ymax - ymin + 1;
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if ((count < 3) || (y <= 0))
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return;
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ptsOut = FirstPoint = malloc(sizeof(DDXPointRec) * y);
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width = FirstWidth = malloc(sizeof(int) * y);
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Marked = malloc(sizeof(int) * count);
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if (!ptsOut || !width || !Marked) {
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free(Marked);
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free(width);
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free(ptsOut);
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return;
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}
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for (j = 0; j < count; j++)
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Marked[j] = 0;
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nextleft = nextright = imin;
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Marked[imin] = -1;
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y = ICEIL(ptsIn[nextleft].y + yFtrans);
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/*
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* loop through all edges of the polygon
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*/
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do {
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/* add a left edge if we need to */
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if ((y > (ptsIn[nextleft].y + yFtrans) ||
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ISEQUAL(y, ptsIn[nextleft].y + yFtrans)) &&
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Marked[nextleft] != 1) {
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Marked[nextleft]++;
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left = nextleft++;
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/* find the next edge, considering the end conditions */
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if (nextleft >= count)
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nextleft = 0;
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/* now compute the starting point and slope */
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dy = ptsIn[nextleft].y - ptsIn[left].y;
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if (dy != 0.0) {
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ml = (ptsIn[nextleft].x - ptsIn[left].x) / dy;
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dy = y - (ptsIn[left].y + yFtrans);
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xl = (ptsIn[left].x + xFtrans) + ml * max(dy, 0);
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}
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}
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/* add a right edge if we need to */
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if ((y > ptsIn[nextright].y + yFtrans) ||
|
||||
(ISEQUAL(y, ptsIn[nextright].y + yFtrans)
|
||||
&& Marked[nextright] != 1)) {
|
||||
Marked[nextright]++;
|
||||
right = nextright--;
|
||||
|
||||
/* find the next edge, considering the end conditions */
|
||||
if (nextright < 0)
|
||||
nextright = count - 1;
|
||||
|
||||
/* now compute the starting point and slope */
|
||||
dy = ptsIn[nextright].y - ptsIn[right].y;
|
||||
if (dy != 0.0) {
|
||||
mr = (ptsIn[nextright].x - ptsIn[right].x) / dy;
|
||||
dy = y - (ptsIn[right].y + yFtrans);
|
||||
xr = (ptsIn[right].x + xFtrans) + mr * max(dy, 0);
|
||||
}
|
||||
}
|
||||
|
||||
/*
|
||||
* generate scans to fill while we still have
|
||||
* a right edge as well as a left edge.
|
||||
*/
|
||||
i = (min(ptsIn[nextleft].y, ptsIn[nextright].y) + yFtrans) - y;
|
||||
|
||||
if (i < EPSILON) {
|
||||
if (Marked[nextleft] && Marked[nextright]) {
|
||||
/* Arrgh, we're trapped! (no more points)
|
||||
* Out, we've got to get out of here before this decadence saps
|
||||
* our will completely! */
|
||||
break;
|
||||
}
|
||||
continue;
|
||||
}
|
||||
else {
|
||||
j = (int) i;
|
||||
if (!j)
|
||||
j++;
|
||||
}
|
||||
while (j > 0) {
|
||||
int cxl, cxr;
|
||||
|
||||
ptsOut->y = (y) + yTrans;
|
||||
|
||||
cxl = ICEIL(xl);
|
||||
cxr = ICEIL(xr);
|
||||
/* reverse the edges if necessary */
|
||||
if (xl < xr) {
|
||||
*(width++) = cxr - cxl;
|
||||
(ptsOut++)->x = cxl + xTrans;
|
||||
}
|
||||
else {
|
||||
*(width++) = cxl - cxr;
|
||||
(ptsOut++)->x = cxr + xTrans;
|
||||
}
|
||||
y++;
|
||||
|
||||
/* increment down the edges */
|
||||
xl += ml;
|
||||
xr += mr;
|
||||
j--;
|
||||
}
|
||||
} while (y <= ymax);
|
||||
|
||||
/* Finally, fill the spans we've collected */
|
||||
(*pgc->ops->FillSpans) (dst, pgc,
|
||||
ptsOut - FirstPoint, FirstPoint, FirstWidth, 1);
|
||||
free(Marked);
|
||||
free(FirstWidth);
|
||||
free(FirstPoint);
|
||||
}
|
||||
|
||||
/* Find the index of the point with the smallest y.also return the
|
||||
* smallest and largest y */
|
||||
static
|
||||
int
|
||||
GetFPolyYBounds(SppPointPtr pts, int n, double yFtrans, int *by, int *ty)
|
||||
{
|
||||
SppPointPtr ptMin;
|
||||
double ymin, ymax;
|
||||
SppPointPtr ptsStart = pts;
|
||||
|
||||
ptMin = pts;
|
||||
ymin = ymax = (pts++)->y;
|
||||
|
||||
while (--n > 0) {
|
||||
if (pts->y < ymin) {
|
||||
ptMin = pts;
|
||||
ymin = pts->y;
|
||||
}
|
||||
if (pts->y > ymax)
|
||||
ymax = pts->y;
|
||||
|
||||
pts++;
|
||||
}
|
||||
|
||||
*by = ICEIL(ymin + yFtrans);
|
||||
*ty = ICEIL(ymax + yFtrans - 1);
|
||||
return ptMin - ptsStart;
|
||||
}
|
Loading…
Reference in New Issue
Block a user