/* * Copyright (C) 2006, 2007, 2008 Nikolas Zimmermann * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public License * along with this library; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #include "config.h" #if ENABLE(SVG) #include "JSSVGMatrix.h" #include "AffineTransform.h" #include "SVGException.h" using namespace JSC; namespace WebCore { JSValue* JSSVGMatrix::multiply(ExecState* exec, const ArgList& args) { AffineTransform imp(*impl()); AffineTransform secondMatrix = toSVGMatrix(args.at(exec, 0)); return toJS(exec, JSSVGStaticPODTypeWrapper::create(imp.multiply(secondMatrix)).get(), m_context.get()); } JSValue* JSSVGMatrix::inverse(ExecState* exec, const ArgList&) { AffineTransform imp(*impl()); JSC::JSValue* result = toJS(exec, JSSVGStaticPODTypeWrapper::create(imp.inverse()).get(), m_context.get()); if (!imp.isInvertible()) setDOMException(exec, SVGException::SVG_MATRIX_NOT_INVERTABLE); return result; } JSValue* JSSVGMatrix::translate(ExecState* exec, const ArgList& args) { AffineTransform imp(*impl()); float x = args.at(exec, 0)->toFloat(exec); float y = args.at(exec, 1)->toFloat(exec); return toJS(exec, JSSVGStaticPODTypeWrapper::create(imp.translate(x, y)).get(), m_context.get()); } JSValue* JSSVGMatrix::scale(ExecState* exec, const ArgList& args) { AffineTransform imp(*impl()); float scaleFactor = args.at(exec, 0)->toFloat(exec); return toJS(exec, JSSVGStaticPODTypeWrapper::create(imp.scale(scaleFactor)).get(), m_context.get()); } JSValue* JSSVGMatrix::scaleNonUniform(ExecState* exec, const ArgList& args) { AffineTransform imp(*impl()); float scaleFactorX = args.at(exec, 0)->toFloat(exec); float scaleFactorY = args.at(exec, 1)->toFloat(exec); return toJS(exec, JSSVGStaticPODTypeWrapper::create(imp.scaleNonUniform(scaleFactorX, scaleFactorY)).get(), m_context.get()); } JSValue* JSSVGMatrix::rotate(ExecState* exec, const ArgList& args) { AffineTransform imp(*impl()); float angle = args.at(exec, 0)->toFloat(exec); return toJS(exec, JSSVGStaticPODTypeWrapper::create(imp.rotate(angle)).get(), m_context.get()); } JSValue* JSSVGMatrix::rotateFromVector(ExecState* exec, const ArgList& args) { AffineTransform imp(*impl()); float x = args.at(exec, 0)->toFloat(exec); float y = args.at(exec, 1)->toFloat(exec); JSC::JSValue* result = toJS(exec, JSSVGStaticPODTypeWrapper::create(imp.rotateFromVector(x, y)).get(), m_context.get()); if (x == 0.0 || y == 0.0) setDOMException(exec, SVGException::SVG_INVALID_VALUE_ERR); return result; } JSValue* JSSVGMatrix::flipX(ExecState* exec, const ArgList&) { AffineTransform imp(*impl()); return toJS(exec, JSSVGStaticPODTypeWrapper::create(imp.flipX()).get(), m_context.get()); } JSValue* JSSVGMatrix::flipY(ExecState* exec, const ArgList&) { AffineTransform imp(*impl()); return toJS(exec, JSSVGStaticPODTypeWrapper::create(imp.flipY()).get(), m_context.get()); } JSValue* JSSVGMatrix::skewX(ExecState* exec, const ArgList& args) { AffineTransform imp(*impl()); float angle = args.at(exec, 0)->toFloat(exec); return toJS(exec, JSSVGStaticPODTypeWrapper::create(imp.skewX(angle)).get(), m_context.get()); } JSValue* JSSVGMatrix::skewY(ExecState* exec, const ArgList& args) { AffineTransform imp(*impl()); float angle = args.at(exec, 0)->toFloat(exec); return toJS(exec, JSSVGStaticPODTypeWrapper::create(imp.skewY(angle)).get(), m_context.get()); } } #endif // ENABLE(SVG)