| /external/skia/include/core/ |
| SkPoint.h | 21 int32_t fX, fY;
30 int32_t y() const { return fY; }
32 void setY(int32_t y) { fY = y; }
35 * Returns true iff fX and fY are both zero.
37 bool isZero() const { return (fX | fY) == 0; }
40 * Set both fX and fY to zero. Same as set(0, 0)
42 void setZero() { fX = fY = 0; }
45 void set(int32_t x, int32_t y) { fX = x; fY = y; }
69 void negate() { fX = -fX; fY = -fY; }
[all...] |
| SkPerspIter.h | 43 SkFixed fX, fY;
|
| /external/skia/include/gpu/ |
| GrPoint.h | 22 int16_t fX, fY;
26 fY = GrToS16(y);
|
| /external/skia/include/utils/ |
| SkCubicInterval.h | 18 return SkEvalCubicInterval(pts[0].fX, pts[0].fY,
19 pts[1].fX, pts[1].fY, x);
|
| /external/skia/src/core/ |
| SkStrokerPriv.cpp | 18 path->lineTo(stop.fX, stop.fY);
26 SkScalar py = pivot.fY;
28 SkScalar ny = normal.fY;
37 stop.fX, stop.fY);
49 path->setLastPt(pivot.fX + normal.fX + parallel.fX, pivot.fY + normal.fY + parallel.fY);
50 path->lineTo(pivot.fX - normal.fX + parallel.fX, pivot.fY - normal.fY + parallel.fY);
[all...] |
| SkQuadClipper.cpp | 54 return chopMonoQuadAt(pts[0].fY, pts[1].fY, pts[2].fY, y, t);
67 if (srcPts[0].fY > srcPts[2].fY) {
80 if (dst[2].fY <= ctop || dst[0].fY >= cbot) {
88 if (dst[0].fY < ctop) {
98 if (dst[i].fY < ctop) {
99 dst[i].fY = ctop
[all...] |
| SkEdgeClipper.cpp | 35 if (src[0].fY > src[count - 1].fY) {
68 return chopMonoQuadAt(pts[0].fY, pts[1].fY, pts[2].fY, y, t);
81 if (pts[0].fY < clip.fTop) {
85 clamp_ge(tmp[2].fY, clip.fTop);
86 clamp_ge(tmp[3].fY, clip.fTop);
93 if (pts[i].fY < clip.fTop) {
94 pts[i].fY = clip.fTop
[all...] |
| SkLineClipper.cpp | 12 SkScalar dy = src[1].fY - src[0].fY;
20 double Y0 = src[0].fY;
22 double Y1 = src[1].fY;
26 return src[0].fX + SkScalarMulDiv(Y - src[0].fY, src[1].fX - src[0].fX,
36 return SkScalarAve(src[0].fY, src[1].fY);
42 double Y0 = src[0].fY;
44 double Y1 = src[1].fY;
48 return src[0].fY + SkScalarMulDiv(X - src[0].fX, src[1].fY - src[0].fY
[all...] |
| SkGeometry.cpp | 21 if (pt.fY == pts[0].fY) {
27 if (pt.fY < pts[0].fY && pt.fY < pts[1].fY)
29 if (pt.fY > pts[0].fY && pt.fY > pts[1].fY)
[all...] |
| SkCubicClipper.cpp | 23 ycrv[0] = pts[0].fY - y;
24 ycrv[1] = pts[1].fY - y;
25 ycrv[2] = pts[2].fY - y;
26 ycrv[3] = pts[3].fY - y;
118 if (srcPts[0].fY > srcPts[3].fY) {
132 if (dst[3].fY <= ctop || dst[0].fY >= cbot) {
140 if (dst[0].fY < ctop && chopMonoCubicAtY(dst, ctop, &t)) {
148 if (dst[3].fY > cbot && chopMonoCubicAtY(dst, cbot, &t))
[all...] |
| /external/skia/src/animator/ |
| SkDrawPoint.cpp | 19 SK_MEMBER_ALIAS(y, fPoint.fY, Float)
30 SK_MEMBER_ALIAS(y, fPoint.fY, Float)
43 rect->fTop = rect->fBottom = fPoint.fY;
|
| SkParseSVGPath.cpp | 25 dest.set(SkScalarAve(a.fX, b.fX),SkScalarAve(a.fY, b.fY));
41 m.set(SkScalarHalf(3*j.fX - c.fX), SkScalarHalf(3*j.fY - c.fY));
42 n.set(SkScalarHalf(3*o.fX -q.fX), SkScalarHalf(3*o.fY - q.fY));
47 m.set(SkScalarHalf(3*p.fX - c.fX), SkScalarHalf(3*p.fY - c.fY));
48 n.set(SkScalarHalf(3*l.fX -p2.fX),SkScalarHalf(3*l.fY -p2.fY));
[all...] |
| /external/webkit/Source/WebCore/platform/graphics/skia/ |
| FloatPointSkia.cpp | 41 , m_y(p.fY)
|
| IntPointSkia.cpp | 40 , m_y(p.fY)
|
| /external/skia/src/effects/ |
| SkCornerPathEffect.cpp | 27 step->set(b.fX - a.fX, b.fY - a.fY);
81 dst->quadTo(pts[0].fX, pts[0].fY, pts[0].fX + step.fX,
82 pts[0].fY + step.fY);
85 dst->lineTo(pts[1].fX - step.fX, pts[1].fY - step.fY);
112 if (firstStep.fX || firstStep.fY) {
113 dst->quadTo(lastCorner.fX, lastCorner.fY,
115 lastCorner.fY + firstStep.fY)
[all...] |
| /external/skia/src/gpu/ |
| GrPathUtils.cpp | 81 { GrScalarAve(p0.fX, p1.fX), GrScalarAve(p0.fY, p1.fY) },
82 { GrScalarAve(p1.fX, p2.fX), GrScalarAve(p1.fY, p2.fY) },
84 GrPoint r = { GrScalarAve(q[0].fX, q[1].fX), GrScalarAve(q[0].fY, q[1].fY) };
133 { GrScalarAve(p0.fX, p1.fX), GrScalarAve(p0.fY, p1.fY) },
134 { GrScalarAve(p1.fX, p2.fX), GrScalarAve(p1.fY, p2.fY) },
[all...] |
| GrPlotMgr.h | 37 Gr_bzero(fBusy, fDim.fX * fDim.fY);
42 for (int y = 0; y < fDim.fY; y++) {
57 GrAssert((unsigned)y < (unsigned)fDim.fY);
63 GrAssert((unsigned)y < (unsigned)fDim.fY);
|
| FlingState.cpp | 44 unit->fY = SkScalarSign(unit->fY);
45 } else if (SkScalarAbs(unit->fY) < TOLERANCE) {
47 unit->fY = 0;
59 // printf("---- speed %g dir %g %g\n", fSpeed0, fDirection.fX, fDirection.fY);
80 float ty = fDirection.fY * dist;
|
| /external/icu4c/layout/ |
| MarkToBasePosnSubtables.cpp | 81 float anchorDiffY = baseAnchor.fY - markAnchor.fY;
88 glyphIterator->setCurrGlyphPositionAdjustment(anchorDiffX, anchorDiffY, -markAdvance.fX, -markAdvance.fY);
102 pixels.fY += px.fY;
109 glyphIterator->setCurrGlyphPositionAdjustment(anchorDiffX - baseAdvance.fX, anchorDiffY - baseAdvance.fY, -markAdvance.fX, -markAdvance.fY);
|
| MarkToMarkPosnSubtables.cpp | 79 float anchorDiffY = mark2Anchor.fY - markAnchor.fY;
84 glyphIterator->setCurrGlyphPositionAdjustment(anchorDiffX, anchorDiffY, -markAdvance.fX, -markAdvance.fY);
91 glyphIterator->setCurrGlyphPositionAdjustment(anchorDiffX - mark2Advance.fX, anchorDiffY - mark2Advance.fY, -markAdvance.fX, -markAdvance.fY);
|
| /external/skia/tests/ |
| ClipCubicTest.cpp | 35 (float)crv[0].fX, (float)crv[0].fY,
36 (float)crv[1].fX, (float)crv[1].fY,
37 (float)crv[2].fX, (float)crv[2].fY,
38 (float)crv[3].fX, (float)crv[3].fY);
48 SkScalarAbs(c0[i].fY - c1[i].fY) > SkFloatToScalar(tol)
64 crv[0].fX = SkFloatToScalar(x0); crv[0].fY = SkFloatToScalar(y0);
65 crv[1].fX = SkFloatToScalar(x1); crv[1].fY = SkFloatToScalar(y1);
66 crv[2].fX = SkFloatToScalar(x2); crv[2].fY = SkFloatToScalar(y2);
67 crv[3].fX = SkFloatToScalar(x3); crv[3].fY = SkFloatToScalar(y3)
[all...] |
| PathMeasureTest.cpp | 43 d, p.fX, p.fY, v.fX, v.fY);
65 REPORTER_ASSERT(reporter, position.fY == 0);
67 REPORTER_ASSERT(reporter, tangent.fY == 0);
88 REPORTER_ASSERT(reporter, position.fY == 0);
90 REPORTER_ASSERT(reporter, tangent.fY == 0);
95 SkScalarNearlyEqual(position.fY, SK_Scalar1 * 1.5f));
97 REPORTER_ASSERT(reporter, tangent.fY == SK_Scalar1);
102 SkScalarNearlyEqual(position.fY, SK_Scalar1 * 2.0f, SK_Scalar1 * 0.0001));
104 REPORTER_ASSERT(reporter, tangent.fY == 0)
[all...] |
| /external/skia/samplecode/ |
| SampleCull.cpp | 23 tang.setLength(pts[1].fX - pts[0].fX, pts[1].fY - pts[0].fY, bump);
25 path->lineTo(SkScalarHalf(pts[0].fX + pts[1].fX) - tang.fY,
26 SkScalarHalf(pts[0].fY + pts[1].fY) + tang.fX);
82 array[n++].set(SkScalarRound(pts[0].fX), SkScalarRound(pts[0].fY));
85 array[n++].set(SkScalarRound(pts[1].fX), SkScalarRound(pts[1].fY));
171 cpp.moveTo(fPoints[0].fX, fPoints[0].fY);
173 cpp.lineTo(fPoints[i].fX, fPoints[i].fY);
|
| /external/skia/src/utils/ |
| SkParsePath.cpp | 55 value[index].fY += relative->fY;
114 path.lineTo(x, c.fY);
119 data = find_scalar(data, &y, relative, c.fY);
121 c.fY = y;
131 points[0].fY -= lastc.fY - c.fY;
146 points[0].fY = c.fY * 2 - lastc.fY
[all...] |
| SkCamera.cpp | 66 float mag = sk_float_sqrt(fX*fX + fY*fY + fZ*fZ);
70 unit->fY = fY * scale;
73 unit->fX = unit->fY = unit->fZ = 0;
79 tmp2.setMul(fY, fY);
89 unit->fY = SkFixedMul(fY, scale);
92 unit->fX = unit->fY = unit->fZ = 0
[all...] |
