431 lines
10 KiB
Objective-C
431 lines
10 KiB
Objective-C
// 6 september 2015
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#import "uipriv_darwin.h"
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struct uiDrawPath {
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CGMutablePathRef path;
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uiDrawFillMode fillMode;
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BOOL ended;
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};
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uiDrawPath *uiDrawNewPath(uiDrawFillMode mode)
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{
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uiDrawPath *p;
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p = uiNew(uiDrawPath);
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p->path = CGPathCreateMutable();
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p->fillMode = mode;
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return p;
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}
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void uiDrawFreePath(uiDrawPath *p)
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{
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CGPathRelease((CGPathRef) (p->path));
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uiFree(p);
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}
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void uiDrawPathNewFigure(uiDrawPath *p, double x, double y)
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{
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if (p->ended)
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complain("attempt to add figure to ended path in uiDrawPathNewFigure()");
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CGPathMoveToPoint(p->path, NULL, x, y);
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}
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void uiDrawPathNewFigureWithArc(uiDrawPath *p, double xCenter, double yCenter, double radius, double startAngle, double sweep, int negative)
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{
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double sinStart, cosStart;
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double startx, starty;
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if (p->ended)
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complain("attempt to add figure to ended path in uiDrawPathNewFigureWithArc()");
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sinStart = sin(startAngle);
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cosStart = cos(startAngle);
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startx = xCenter + radius * cosStart;
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starty = yCenter + radius * sinStart;
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CGPathMoveToPoint(p->path, NULL, startx, starty);
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uiDrawPathArcTo(p, xCenter, yCenter, radius, startAngle, sweep, negative);
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}
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void uiDrawPathLineTo(uiDrawPath *p, double x, double y)
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{
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if (p->ended)
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complain("attempt to add line to ended path in uiDrawPathLineTo()");
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CGPathAddLineToPoint(p->path, NULL, x, y);
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}
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void uiDrawPathArcTo(uiDrawPath *p, double xCenter, double yCenter, double radius, double startAngle, double sweep, int negative)
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{
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bool cw;
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if (p->ended)
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complain("attempt to add arc to ended path in uiDrawPathArcTo()");
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if (sweep > 2 * M_PI)
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sweep = 2 * M_PI;
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cw = false;
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if (negative)
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cw = true;
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CGPathAddArc(p->path, NULL,
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xCenter, yCenter,
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radius,
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startAngle, startAngle + sweep,
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cw);
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}
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void uiDrawPathBezierTo(uiDrawPath *p, double c1x, double c1y, double c2x, double c2y, double endX, double endY)
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{
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if (p->ended)
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complain("attempt to add bezier to ended path in uiDrawPathBezierTo()");
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CGPathAddCurveToPoint(p->path, NULL,
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c1x, c1y,
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c2x, c2y,
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endX, endY);
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}
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void uiDrawPathCloseFigure(uiDrawPath *p)
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{
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if (p->ended)
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complain("attempt to close figure of ended path in uiDrawPathCloseFigure()");
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CGPathCloseSubpath(p->path);
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}
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void uiDrawPathAddRectangle(uiDrawPath *p, double x, double y, double width, double height)
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{
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if (p->ended)
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complain("attempt to add rectangle to ended path in uiDrawPathAddRectangle()");
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CGPathAddRect(p->path, NULL, CGRectMake(x, y, width, height));
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}
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void uiDrawPathEnd(uiDrawPath *p)
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{
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p->ended = TRUE;
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}
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struct uiDrawContext {
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CGContextRef c;
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};
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uiDrawContext *newContext(CGContextRef ctxt)
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{
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uiDrawContext *c;
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c = uiNew(uiDrawContext);
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c->c = ctxt;
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return c;
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}
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void freeContext(uiDrawContext *c)
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{
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uiFree(c);
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}
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// a stroke is identical to a fill of a stroked path
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// we need to do this in order to stroke with a gradient; see http://stackoverflow.com/a/25034854/3408572
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// doing this for other brushes works too
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void uiDrawStroke(uiDrawContext *c, uiDrawPath *path, uiDrawBrush *b, uiDrawStrokeParams *p)
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{
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CGLineCap cap;
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CGLineJoin join;
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uiDrawPath p2;
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if (!path->ended)
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complain("path not ended in uiDrawStroke()");
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switch (p->Cap) {
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case uiDrawLineCapFlat:
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cap = kCGLineCapButt;
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break;
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case uiDrawLineCapRound:
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cap = kCGLineCapRound;
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break;
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case uiDrawLineCapSquare:
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cap = kCGLineCapSquare;
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break;
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}
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switch (p->Join) {
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case uiDrawLineJoinMiter:
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join = kCGLineJoinMiter;
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break;
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case uiDrawLineJoinRound:
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join = kCGLineJoinRound;
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break;
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case uiDrawLineJoinBevel:
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join = kCGLineJoinBevel;
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break;
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}
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// create a temporary path identical to the previous one
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// the cast is safe; we never modify the CGPathRef and always cast it back to a CGPathRef anyway
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p2.path = (CGMutablePathRef) CGPathCreateCopyByStrokingPath(path->path,
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NULL,
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p->Thickness,
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cap,
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join,
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p->MiterLimit);
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// always draw stroke fills using the winding rule
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// otherwise intersecting figures won't draw correctly
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p2.fillMode = uiDrawFillModeWinding;
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p2.ended = path->ended;
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uiDrawFill(c, &p2, b);
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// and clean up
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CGPathRelease((CGPathRef) (p2.path));
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}
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// for a solid fill, we can merely have Core Graphics fill directly
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static void fillSolid(CGContextRef ctxt, uiDrawPath *p, uiDrawBrush *b)
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{
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CGContextSetRGBFillColor(ctxt, b->R, b->G, b->B, b->A);
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switch (p->fillMode) {
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case uiDrawFillModeWinding:
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CGContextFillPath(ctxt);
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break;
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case uiDrawFillModeAlternate:
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CGContextEOFillPath(ctxt);
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break;
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}
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}
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// for a gradient fill, we need to clip to the path and then draw the gradient
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// see http://stackoverflow.com/a/25034854/3408572
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static void fillGradient(CGContextRef ctxt, uiDrawPath *p, uiDrawBrush *b)
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{
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CGGradientRef gradient;
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CGColorSpaceRef colorspace;
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CGFloat *colors;
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CGFloat *locations;
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size_t i;
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// gradients need a color space
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// for consistency with windows, use sRGB
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colorspace = CGColorSpaceCreateWithName(kCGColorSpaceSRGB);
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// make the gradient
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colors = uiAlloc(b->NumStops * 4 * sizeof (CGFloat), "CGFloat[]");
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locations = uiAlloc(b->NumStops * sizeof (CGFloat), "CGFloat[]");
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for (i = 0; i < b->NumStops; i++) {
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colors[i * 4 + 0] = b->Stops[i].R;
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colors[i * 4 + 1] = b->Stops[i].G;
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colors[i * 4 + 2] = b->Stops[i].B;
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colors[i * 4 + 3] = b->Stops[i].A;
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locations[i] = b->Stops[i].Pos;
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}
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gradient = CGGradientCreateWithColorComponents(colorspace, colors, locations, b->NumStops);
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uiFree(locations);
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uiFree(colors);
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// because we're mucking with clipping, we need to save the graphics state and restore it later
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CGContextSaveGState(ctxt);
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// clip
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switch (p->fillMode) {
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case uiDrawFillModeWinding:
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CGContextClip(ctxt);
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break;
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case uiDrawFillModeAlternate:
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CGContextEOClip(ctxt);
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break;
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}
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// draw the gradient
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switch (b->Type) {
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case uiDrawBrushTypeLinearGradient:
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CGContextDrawLinearGradient(ctxt,
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gradient,
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CGPointMake(b->X0, b->Y0),
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CGPointMake(b->X1, b->Y1),
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kCGGradientDrawsBeforeStartLocation | kCGGradientDrawsAfterEndLocation);
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break;
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case uiDrawBrushTypeRadialGradient:
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CGContextDrawRadialGradient(ctxt,
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gradient,
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CGPointMake(b->X0, b->Y0),
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// make the start circle radius 0 to make it a point
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0,
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CGPointMake(b->X1, b->Y1),
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b->OuterRadius,
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kCGGradientDrawsBeforeStartLocation | kCGGradientDrawsAfterEndLocation);
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break;
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}
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// and clean up
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CGContextRestoreGState(ctxt);
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CGGradientRelease(gradient);
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CGColorSpaceRelease(colorspace);
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}
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void uiDrawFill(uiDrawContext *c, uiDrawPath *path, uiDrawBrush *b)
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{
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if (!path->ended)
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complain("path not ended in uiDrawFill()");
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CGContextAddPath(c->c, (CGPathRef) (path->path));
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switch (b->Type) {
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case uiDrawBrushTypeSolid:
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fillSolid(c->c, path, b);
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return;
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case uiDrawBrushTypeLinearGradient:
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case uiDrawBrushTypeRadialGradient:
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fillGradient(c->c, path, b);
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return;
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// case uiDrawBrushTypeImage:
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// TODO
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return;
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}
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complain("unknown brush type %d in uiDrawFill()", b->Type);
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}
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static void m2c(uiDrawMatrix *m, CGAffineTransform *c)
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{
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c->a = m->M11;
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c->b = m->M12;
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c->c = m->M21;
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c->d = m->M22;
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c->tx = m->M31;
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c->ty = m->M32;
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}
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static void c2m(CGAffineTransform *c, uiDrawMatrix *m)
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{
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m->M11 = c->a;
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m->M12 = c->b;
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m->M21 = c->c;
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m->M22 = c->d;
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m->M31 = c->tx;
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m->M32 = c->ty;
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}
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// TODO get rid of the separate setIdentity()
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void uiDrawMatrixSetIdentity(uiDrawMatrix *m)
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{
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setIdentity(m);
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}
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void uiDrawMatrixTranslate(uiDrawMatrix *m, double x, double y)
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{
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CGAffineTransform c;
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m2c(m, &c);
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c = CGAffineTransformTranslate(c, x, y);
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c2m(&c, m);
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}
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void uiDrawMatrixScale(uiDrawMatrix *m, double xCenter, double yCenter, double x, double y)
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{
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CGAffineTransform c;
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double xt, yt;
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m2c(m, &c);
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// TODO explain why the translation must come first
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xt = x;
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yt = y;
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scaleCenter(xCenter, yCenter, &xt, &yt);
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c = CGAffineTransformTranslate(c, xt, yt);
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c = CGAffineTransformScale(c, x, y);
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// TODO undo the translation?
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c2m(&c, m);
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}
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void uiDrawMatrixRotate(uiDrawMatrix *m, double x, double y, double amount)
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{
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CGAffineTransform c;
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m2c(m, &c);
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c = CGAffineTransformTranslate(c, x, y);
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c = CGAffineTransformRotate(c, amount);
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c = CGAffineTransformTranslate(c, -x, -y);
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c2m(&c, m);
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}
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void uiDrawMatrixSkew(uiDrawMatrix *m, double x, double y, double xamount, double yamount)
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{
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fallbackSkew(m, x, y, xamount, yamount);
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}
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void uiDrawMatrixMultiply(uiDrawMatrix *dest, uiDrawMatrix *src)
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{
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CGAffineTransform c;
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CGAffineTransform d;
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m2c(dest, &c);
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m2c(src, &d);
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c = CGAffineTransformConcat(c, d);
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c2m(&c, dest);
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}
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// there is no test for invertibility; CGAffineTransformInvert() is merely documented as returning the matrix unchanged if it isn't invertible
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// therefore, special care must be taken to catch matrices who are their own inverses
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// TODO figure out which matrices these are and do so
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int uiDrawMatrixInvertible(uiDrawMatrix *m)
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{
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CGAffineTransform c, d;
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m2c(m, &c);
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d = CGAffineTransformInvert(c);
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return CGAffineTransformEqualToTransform(c, d) == false;
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}
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int uiDrawMatrixInvert(uiDrawMatrix *m)
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{
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CGAffineTransform c, d;
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m2c(m, &c);
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d = CGAffineTransformInvert(c);
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if (CGAffineTransformEqualToTransform(c, d))
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return 0;
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c2m(&d, m);
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return 1;
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}
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void uiDrawMatrixTransformPoint(uiDrawMatrix *m, double *x, double *y)
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{
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CGAffineTransform c;
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CGPoint p;
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m2c(m, &c);
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p = CGPointApplyAffineTransform(CGPointMake(*x, *y), c);
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*x = p.x;
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*y = p.y;
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}
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void uiDrawMatrixTransformSize(uiDrawMatrix *m, double *x, double *y)
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{
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CGAffineTransform c;
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CGSize s;
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m2c(m, &c);
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s = CGSizeApplyAffineTransform(CGSizeMake(*x, *y), c);
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*x = s.width;
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*y = s.height;
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}
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void uiDrawTransform(uiDrawContext *c, uiDrawMatrix *m)
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{
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CGAffineTransform cm;
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m2c(m, &cm);
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CGContextConcatCTM(c->c, cm);
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}
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void uiDrawClip(uiDrawContext *c, uiDrawPath *path)
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{
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if (!path->ended)
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complain("path not ended in uiDrawClip()");
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CGContextAddPath(c->c, (CGPathRef) (path->path));
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switch (path->fillMode) {
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case uiDrawFillModeWinding:
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CGContextClip(c->c);
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break;
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case uiDrawFillModeAlternate:
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CGContextEOClip(c->c);
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break;
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}
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}
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// TODO figure out what besides transforms these save/restore on all platforms
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void uiDrawSave(uiDrawContext *c)
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{
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CGContextSaveGState(c->c);
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}
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void uiDrawRestore(uiDrawContext *c)
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{
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CGContextRestoreGState(c->c);
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}
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