/* * Copyright 2011 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkMatrix.h" // FIXME: needs to be in a header bool SkSetPoly3To3_A(SkMatrix* matrix, const SkPoint src[3], const SkPoint dst[3]); typedef double SkDScalar; static SkScalar SkDScalar_toScalar(SkDScalar value) { return static_cast<float>(value); } static SkScalar divide(SkDScalar numer, SkDScalar denom) { return static_cast<float>(numer / denom); } static SkDScalar SkDScalar_setMul(SkScalar a, SkScalar b) { return (SkDScalar) ((SkDScalar) a * b); } static void computeOuterProduct(SkScalar op[4], const SkPoint pts0[3], const SkPoint& ave0, const SkPoint pts1[3], const SkPoint& ave1) { sk_bzero(op, 4 * sizeof(op[0])); for (int i = 0; i < 3; i++) { SkScalar x0 = pts0[i].fX - ave0.fX; SkScalar y0 = pts0[i].fY - ave0.fY; SkScalar x1 = pts1[i].fX - ave1.fX; SkScalar y1 = pts1[i].fY - ave1.fY; op[0] += SkScalarMul(x0, x1); op[1] += SkScalarMul(x0, y1); op[2] += SkScalarMul(y0, x1); op[3] += SkScalarMul(y0, y1); } } static SkDScalar ddot(SkScalar ax, SkScalar ay, SkScalar bx, SkScalar by) { return SkDScalar_setMul(ax, bx) + SkDScalar_setMul(ay, by); } static SkScalar dot(SkScalar ax, SkScalar ay, SkScalar bx, SkScalar by) { return SkDScalar_toScalar(ddot(ax, ay, bx, by)); } bool SkSetPoly3To3_A(SkMatrix* matrix, const SkPoint src[3], const SkPoint dst[3]) { const SkPoint& srcAve = src[0]; const SkPoint& dstAve = dst[0]; SkScalar srcOP[4], dstOP[4]; computeOuterProduct(srcOP, src, srcAve, src, srcAve); computeOuterProduct(dstOP, src, srcAve, dst, dstAve); SkDScalar det = SkDScalar_setMul(srcOP[0], srcOP[3]) - SkDScalar_setMul(srcOP[1], srcOP[2]); SkDScalar M[4]; const SkScalar srcOP0 = srcOP[3]; const SkScalar srcOP1 = -srcOP[1]; const SkScalar srcOP2 = -srcOP[2]; const SkScalar srcOP3 = srcOP[0]; M[0] = ddot(srcOP0, srcOP1, dstOP[0], dstOP[2]); M[1] = ddot(srcOP2, srcOP3, dstOP[0], dstOP[2]); M[2] = ddot(srcOP0, srcOP1, dstOP[1], dstOP[3]); M[3] = ddot(srcOP2, srcOP3, dstOP[1], dstOP[3]); matrix->reset(); matrix->setScaleX(divide(M[0], det)); matrix->setSkewX( divide(M[1], det)); matrix->setSkewY (divide(M[2], det)); matrix->setScaleY(divide(M[3], det)); matrix->setTranslateX(dstAve.fX - dot(srcAve.fX, srcAve.fY, matrix->getScaleX(), matrix->getSkewX())); matrix->setTranslateY(dstAve.fY - dot(srcAve.fX, srcAve.fY, matrix->getSkewY(), matrix->getScaleY())); return true; }