/* * Copyright (C) 2016 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "PropertyValuesHolder.h" #include "utils/Color.h" #include "utils/VectorDrawableUtils.h" #include namespace android { namespace uirenderer { using namespace VectorDrawable; inline constexpr float lerp(float fromValue, float toValue, float fraction) { return float (fromValue * (1 - fraction) + toValue * fraction); } inline constexpr float linearize(U8CPU component) { return EOCF_sRGB(component / 255.0f); } // TODO: Add a test for this void ColorEvaluator::evaluate(SkColor* outColor, const SkColor& fromColor, const SkColor& toColor, float fraction) const { float a = lerp(SkColorGetA(fromColor) / 255.0f, SkColorGetA(toColor) / 255.0f, fraction); float r = lerp(linearize(SkColorGetR(fromColor)), linearize(SkColorGetR(toColor)), fraction); float g = lerp(linearize(SkColorGetG(fromColor)), linearize(SkColorGetG(toColor)), fraction); float b = lerp(linearize(SkColorGetB(fromColor)), linearize(SkColorGetB(toColor)), fraction); *outColor = SkColorSetARGB( (U8CPU) roundf(a * 255.0f), (U8CPU) roundf(OECF_sRGB(r) * 255.0f), (U8CPU) roundf(OECF_sRGB(g) * 255.0f), (U8CPU) roundf(OECF_sRGB(b) * 255.0f)); } void PathEvaluator::evaluate(PathData* out, const PathData& from, const PathData& to, float fraction) const { VectorDrawableUtils::interpolatePaths(out, from, to, fraction); } template const T PropertyValuesHolderImpl::getValueFromData(float fraction) const { if (mDataSource.size() == 0) { LOG_ALWAYS_FATAL("No data source is defined"); return 0; } if (fraction <= 0.0f) { return mDataSource.front(); } if (fraction >= 1.0f) { return mDataSource.back(); } fraction *= mDataSource.size() - 1; int lowIndex = floor(fraction); fraction -= lowIndex; T value; mEvaluator->evaluate(&value, mDataSource[lowIndex], mDataSource[lowIndex + 1], fraction); return value; } template const T PropertyValuesHolderImpl::calculateAnimatedValue(float fraction) const { if (mDataSource.size() > 0) { return getValueFromData(fraction); } else { T value; mEvaluator->evaluate(&value, mStartValue, mEndValue, fraction); return value; } } void GroupPropertyValuesHolder::setFraction(float fraction) { float animatedValue = calculateAnimatedValue(fraction); mGroup->mutateProperties()->setPropertyValue(mPropertyId, animatedValue); } void FullPathColorPropertyValuesHolder::setFraction(float fraction) { SkColor animatedValue = calculateAnimatedValue(fraction); mFullPath->mutateProperties()->setColorPropertyValue(mPropertyId, animatedValue); } void FullPathPropertyValuesHolder::setFraction(float fraction) { float animatedValue = calculateAnimatedValue(fraction); mFullPath->mutateProperties()->setPropertyValue(mPropertyId, animatedValue); } void PathDataPropertyValuesHolder::setFraction(float fraction) { mEvaluator->evaluate(&mPathData, mStartValue, mEndValue, fraction); mPath->mutateProperties()->setData(mPathData); } void RootAlphaPropertyValuesHolder::setFraction(float fraction) { float animatedValue = calculateAnimatedValue(fraction); mTree->mutateProperties()->setRootAlpha(animatedValue); } } // namepace uirenderer } // namespace android