mirror of
https://github.com/42wim/matterbridge.git
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391 lines
13 KiB
C++
391 lines
13 KiB
C++
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/*
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* Copyright (c) 2020 Samsung Electronics Co., Ltd. All rights reserved.
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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* The above copyright notice and this permission notice shall be included in all
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* copies or substantial portions of the Software.
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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* SOFTWARE.
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*/
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#include "lottie_lottiemodel.h"
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#include <cassert>
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#include <iterator>
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#include <stack>
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#include "vector_vimageloader.h"
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#include "vector_vline.h"
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using namespace rlottie::internal;
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/*
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* We process the iterator objects in the children list
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* by iterating from back to front. when we find a repeater object
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* we remove the objects from satrt till repeater object and then place
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* under a new shape group object which we add it as children to the repeater
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* object.
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* Then we visit the childrens of the newly created shape group object to
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* process the remaining repeater object(when children list contains more than
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* one repeater).
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*
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*/
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class LottieRepeaterProcesser {
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public:
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void visitChildren(model::Group *obj)
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{
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for (auto i = obj->mChildren.rbegin(); i != obj->mChildren.rend();
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++i) {
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auto child = (*i);
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if (child->type() == model::Object::Type::Repeater) {
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model::Repeater *repeater =
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static_cast<model::Repeater *>(child);
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// check if this repeater is already processed
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// can happen if the layer is an asset and referenced by
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// multiple layer.
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if (repeater->processed()) continue;
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repeater->markProcessed();
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auto content = repeater->content();
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// 1. increment the reverse iterator to point to the
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// object before the repeater
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++i;
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// 2. move all the children till repater to the group
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std::move(obj->mChildren.begin(), i.base(),
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back_inserter(content->mChildren));
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// 3. erase the objects from the original children list
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obj->mChildren.erase(obj->mChildren.begin(), i.base());
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// 5. visit newly created group to process remaining repeater
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// object.
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visitChildren(content);
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// 6. exit the loop as the current iterators are invalid
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break;
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}
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visit(child);
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}
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}
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void visit(model::Object *obj)
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{
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switch (obj->type()) {
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case model::Object::Type::Group:
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case model::Object::Type::Layer: {
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visitChildren(static_cast<model::Group *>(obj));
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break;
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}
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default:
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break;
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}
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}
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};
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class LottieUpdateStatVisitor {
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model::Composition::Stats *stat;
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public:
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explicit LottieUpdateStatVisitor(model::Composition::Stats *s) : stat(s) {}
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void visitChildren(model::Group *obj)
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{
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for (const auto &child : obj->mChildren) {
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if (child) visit(child);
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}
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}
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void visitLayer(model::Layer *layer)
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{
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switch (layer->mLayerType) {
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case model::Layer::Type::Precomp:
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stat->precompLayerCount++;
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break;
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case model::Layer::Type::Null:
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stat->nullLayerCount++;
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break;
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case model::Layer::Type::Shape:
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stat->shapeLayerCount++;
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break;
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case model::Layer::Type::Solid:
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stat->solidLayerCount++;
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break;
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case model::Layer::Type::Image:
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stat->imageLayerCount++;
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break;
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default:
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break;
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}
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visitChildren(layer);
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}
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void visit(model::Object *obj)
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{
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switch (obj->type()) {
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case model::Object::Type::Layer: {
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visitLayer(static_cast<model::Layer *>(obj));
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break;
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}
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case model::Object::Type::Repeater: {
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visitChildren(static_cast<model::Repeater *>(obj)->content());
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break;
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}
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case model::Object::Type::Group: {
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visitChildren(static_cast<model::Group *>(obj));
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break;
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}
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default:
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break;
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}
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}
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};
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void model::Composition::processRepeaterObjects()
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{
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LottieRepeaterProcesser visitor;
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visitor.visit(mRootLayer);
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}
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void model::Composition::updateStats()
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{
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LottieUpdateStatVisitor visitor(&mStats);
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visitor.visit(mRootLayer);
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}
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VMatrix model::Repeater::Transform::matrix(int frameNo, float multiplier) const
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{
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VPointF scale = mScale.value(frameNo) / 100.f;
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scale.setX(std::pow(scale.x(), multiplier));
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scale.setY(std::pow(scale.y(), multiplier));
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VMatrix m;
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m.translate(mPosition.value(frameNo) * multiplier)
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.translate(mAnchor.value(frameNo))
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.scale(scale)
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.rotate(mRotation.value(frameNo) * multiplier)
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.translate(-mAnchor.value(frameNo));
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return m;
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}
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VMatrix model::Transform::Data::matrix(int frameNo, bool autoOrient) const
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{
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VMatrix m;
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VPointF position;
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if (mExtra && mExtra->mSeparate) {
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position.setX(mExtra->mSeparateX.value(frameNo));
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position.setY(mExtra->mSeparateY.value(frameNo));
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} else {
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position = mPosition.value(frameNo);
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}
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float angle = autoOrient ? mPosition.angle(frameNo) : 0;
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if (mExtra && mExtra->m3DData) {
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m.translate(position)
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.rotate(mExtra->m3DRz.value(frameNo) + angle)
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.rotate(mExtra->m3DRy.value(frameNo), VMatrix::Axis::Y)
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.rotate(mExtra->m3DRx.value(frameNo), VMatrix::Axis::X)
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.scale(mScale.value(frameNo) / 100.f)
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.translate(-mAnchor.value(frameNo));
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} else {
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m.translate(position)
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.rotate(mRotation.value(frameNo) + angle)
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.scale(mScale.value(frameNo) / 100.f)
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.translate(-mAnchor.value(frameNo));
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}
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return m;
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}
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void model::Dash::getDashInfo(int frameNo, std::vector<float> &result) const
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{
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result.clear();
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if (mData.size() <= 1) return;
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if (result.capacity() < mData.size()) result.reserve(mData.size() + 1);
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for (const auto &elm : mData) result.push_back(elm.value(frameNo));
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// if the size is even then we are missing last
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// gap information which is same as the last dash value
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// copy it from the last dash value.
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// NOTE: last value is the offset and last-1 is the last dash value.
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auto size = result.size();
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if ((size % 2) == 0) {
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// copy offset value to end.
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result.push_back(result.back());
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// copy dash value to gap.
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result[size - 1] = result[size - 2];
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}
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}
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/**
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* Both the color stops and opacity stops are in the same array.
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* There are {@link #colorPoints} colors sequentially as:
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* [
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* ...,
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* position,
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* red,
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* green,
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* blue,
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* ...
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* ]
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*
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* The remainder of the array is the opacity stops sequentially as:
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* [
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* ...,
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* position,
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* opacity,
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* ...
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* ]
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*/
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void model::Gradient::populate(VGradientStops &stops, int frameNo)
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{
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model::Gradient::Data gradData = mGradient.value(frameNo);
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auto size = gradData.mGradient.size();
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float * ptr = gradData.mGradient.data();
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int colorPoints = mColorPoints;
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if (colorPoints == -1) { // for legacy bodymovin (ref: lottie-android)
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colorPoints = int(size / 4);
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}
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auto opacityArraySize = size - colorPoints * 4;
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float *opacityPtr = ptr + (colorPoints * 4);
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stops.clear();
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size_t j = 0;
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for (int i = 0; i < colorPoints; i++) {
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float colorStop = ptr[0];
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model::Color color = model::Color(ptr[1], ptr[2], ptr[3]);
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if (opacityArraySize) {
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if (j == opacityArraySize) {
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// already reached the end
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float stop1 = opacityPtr[j - 4];
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float op1 = opacityPtr[j - 3];
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float stop2 = opacityPtr[j - 2];
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float op2 = opacityPtr[j - 1];
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if (colorStop > stop2) {
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stops.push_back(
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std::make_pair(colorStop, color.toColor(op2)));
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} else {
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float progress = (colorStop - stop1) / (stop2 - stop1);
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float opacity = op1 + progress * (op2 - op1);
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stops.push_back(
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std::make_pair(colorStop, color.toColor(opacity)));
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}
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continue;
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}
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for (; j < opacityArraySize; j += 2) {
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float opacityStop = opacityPtr[j];
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if (opacityStop < colorStop) {
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// add a color using opacity stop
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stops.push_back(std::make_pair(
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opacityStop, color.toColor(opacityPtr[j + 1])));
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continue;
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}
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// add a color using color stop
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if (j == 0) {
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stops.push_back(std::make_pair(
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colorStop, color.toColor(opacityPtr[j + 1])));
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} else {
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float progress = (colorStop - opacityPtr[j - 2]) /
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(opacityPtr[j] - opacityPtr[j - 2]);
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float opacity =
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opacityPtr[j - 1] +
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progress * (opacityPtr[j + 1] - opacityPtr[j - 1]);
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stops.push_back(
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std::make_pair(colorStop, color.toColor(opacity)));
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}
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j += 2;
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break;
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}
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} else {
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stops.push_back(std::make_pair(colorStop, color.toColor()));
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}
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ptr += 4;
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}
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}
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void model::Gradient::update(std::unique_ptr<VGradient> &grad, int frameNo)
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{
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bool init = false;
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if (!grad) {
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if (mGradientType == 1)
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grad = std::make_unique<VGradient>(VGradient::Type::Linear);
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else
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grad = std::make_unique<VGradient>(VGradient::Type::Radial);
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grad->mSpread = VGradient::Spread::Pad;
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init = true;
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}
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if (!mGradient.isStatic() || init) {
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populate(grad->mStops, frameNo);
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}
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if (mGradientType == 1) { // linear gradient
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VPointF start = mStartPoint.value(frameNo);
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VPointF end = mEndPoint.value(frameNo);
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grad->linear.x1 = start.x();
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grad->linear.y1 = start.y();
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grad->linear.x2 = end.x();
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grad->linear.y2 = end.y();
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} else { // radial gradient
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VPointF start = mStartPoint.value(frameNo);
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VPointF end = mEndPoint.value(frameNo);
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grad->radial.cx = start.x();
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grad->radial.cy = start.y();
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grad->radial.cradius =
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VLine::length(start.x(), start.y(), end.x(), end.y());
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/*
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* Focal point is the point lives in highlight length distance from
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* center along the line (start, end) and rotated by highlight angle.
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* below calculation first finds the quadrant(angle) on which the point
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* lives by applying inverse slope formula then adds the rotation angle
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* to find the final angle. then point is retrived using circle equation
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* of center, angle and distance.
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*/
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float progress = mHighlightLength.value(frameNo) / 100.0f;
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if (vCompare(progress, 1.0f)) progress = 0.99f;
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float startAngle = VLine(start, end).angle();
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float highlightAngle = mHighlightAngle.value(frameNo);
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static constexpr float K_PI = 3.1415926f;
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float angle = (startAngle + highlightAngle) * (K_PI / 180.0f);
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grad->radial.fx =
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grad->radial.cx + std::cos(angle) * progress * grad->radial.cradius;
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grad->radial.fy =
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grad->radial.cy + std::sin(angle) * progress * grad->radial.cradius;
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// Lottie dosen't have any focal radius concept.
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grad->radial.fradius = 0;
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}
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}
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void model::Asset::loadImageData(std::string data)
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{
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if (!data.empty())
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mBitmap = VImageLoader::instance().load(data.c_str(), data.length());
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}
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void model::Asset::loadImagePath(std::string path)
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{
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if (!path.empty()) mBitmap = VImageLoader::instance().load(path.c_str());
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}
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std::vector<LayerInfo> model::Composition::layerInfoList() const
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{
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if (!mRootLayer || mRootLayer->mChildren.empty()) return {};
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std::vector<LayerInfo> result;
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result.reserve(mRootLayer->mChildren.size());
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for (auto it : mRootLayer->mChildren) {
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auto layer = static_cast<model::Layer *>(it);
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result.emplace_back(layer->name(), layer->mInFrame, layer->mOutFrame);
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}
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return result;
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}
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