| /openjdk7/jdk/src/share/classes/java/awt/ |
| H A D | RadialGradientPaint.java | 171 * @param cy the Y coordinate in user space of the center point of the
192 public RadialGradientPaint(float cx, float cy, float radius, argument
195 this(cx, cy,
197 cx, cy,
247 * @param cy the Y coordinate in user space of the center point of the
271 public RadialGradientPaint(float cx, float cy, float radius, argument
275 this(cx, cy,
277 cx, cy,
330 * @param cy the Y coordinate in user space of the center point of the
358 public RadialGradientPaint(float cx, float cy, floa argument
[all...] |
| H A D | RadialGradientPaintContext.java | 94 * @param cy the center Y coordinate in user space of the circle defining
115 float cx, float cy,
128 centerY = cy;
109 RadialGradientPaintContext(RadialGradientPaint paint, ColorModel cm, Rectangle deviceBounds, Rectangle2D userBounds, AffineTransform t, RenderingHints hints, float cx, float cy, float r, float fx, float fy, float[] fractions, Color[] colors, CycleMethod cycleMethod, ColorSpaceType colorSpace) argument
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| /openjdk7/jdk/src/share/native/sun/awt/splashscreen/ |
| H A D | splashscreen_gif.c | 84 int cx, cy, cw, ch; /* clamped coordinates */ local
147 cy = FIX_POINT(desc->Top, 0, gif->SHeight);
246 initRect(&dstRect, cx, cy + ofs, cw,
287 cx, cy, cw, ch,
298 int lineIndex = cy * stride + lineOffset;
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| /openjdk7/jdk/src/share/classes/sun/java2d/pisces/ |
| H A D | Curve.java | 32 float ax, ay, bx, by, cx, cy, dx, dy; field in class:Curve
66 cy = 3 * (y2 - y1);
82 cy = 2 * (y2 - y1);
93 return t * (t * (t * ay + by) + cy) + dy;
101 return t * (t * day + dby) + cy;
109 return Helpers.quadraticRoots(day, dby, cy, roots, off);
117 final float b = 2 * (cy * dax - day * cx);
118 final float c = cy * dbx - cx * dby;
134 final float c = 2*(dax*cx + day*cy) + dbx*dbx + dby*dby;
135 final float d = dbx*cx + dby*cy;
[all...] |
| H A D | Stroker.java | 188 private void drawRoundJoin(float cx, float cy, argument
204 drawBezApproxForArc(cx, cy, omx, omy, mx, my, rev);
233 drawBezApproxForArc(cx, cy, omx, omy, mmx, mmy, rev);
234 drawBezApproxForArc(cx, cy, mmx, mmy, mx, my, rev);
240 private void drawBezApproxForArc(final float cx, final float cy, argument
258 final float y1 = cy + omy;
263 final float y4 = cy + my;
270 private void drawRoundCap(float cx, float cy, float mx, float my) { argument
277 emitCurveTo(cx+mx, cy+my,
278 cx+mx-C*my, cy
[all...] |
| /openjdk7/jdk/src/share/classes/sun/font/ |
| H A D | LayoutPathImpl.java | 407 double cy = 0; // current best y
466 cy = vcy;
480 if (cx != bx || cy != by) { // not on endpoint, no need to resolve
484 if ((x-cx)*(ny-by) > (y-cy)*(nx-bx)) {
762 double cx, cy; // last point in gp field in class:LayoutPathImpl.SegmentPath.Segment
776 cx = cy = Double.MIN_VALUE;
807 if (sx != cx || sy != cy) {
821 cy = ly;
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| /openjdk7/hotspot/src/share/vm/opto/ |
| H A D | connode.cpp | 964 Node* cy = phase->transform( new (phase->C) ConvI2LNode(y, TypeLong::make(rylo, ryhi, widen)) ); local
966 case Op_AddI: return new (phase->C) AddLNode(cx, cy);
967 case Op_SubI: return new (phase->C) SubLNode(cx, cy);
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| /openjdk7/jdk/src/solaris/native/sun/java2d/x11/ |
| H A D | X11Renderer.c | 290 long ty1, ty2, tx1, tx2, cx, cy, cxw, cyh, local
318 cy = CLAMP_TO_SHORT(y);
334 topH = (ty1 - cy) * 2;
338 cx, cy, leftW, topH,
341 cxw - rightW, cy, rightW, topH,
352 tx1, cy, tx2, cy);
697 long ty1, ty2, tx1, tx2, cx, cy, cxw, cyh, local
725 cy = CLAMP_TO_SHORT(y);
741 topH = (ty1 - cy) *
[all...] |
| /openjdk7/jdk/src/share/classes/sun/java2d/loops/ |
| H A D | ProcessPath.java | 1026 int cy = (int)((-3*coords[1] + 3*coords[3])*(CUB_C_MDP_MULT));
1035 int dpy = ay + (by>>1) + cy;
1781 public void insert(Point pnt, int cy) { argument
1796 dy = cy - Y1;
1800 dy = cy - Y2;
1805 * and abs(dy) < MDP_MULT (cy is a first scanline of the scan
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| /openjdk7/jdk/src/share/native/sun/java2d/loops/ |
| H A D | ProcessPath.c | 1034 jint cy = (jint)((-3*coords[1] + 3*coords[3])*(CUB_C_MDP_MULT)); local
1043 jint dpy = ay + (by>>1) + cy;
1330 double cy = -coords[1] + coords[3]; local
1332 SOLVEQUADINRANGE(ay,by,cy,params,cnt);
1899 #define INSERT_ACTIVE(head,pnt,cy) \
1914 dy = cy - pnt->y; \
1919 dy = cy - np->y; \
1923 /* denominator and abs(dy) < MDP_MULT (cy is a first */\
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