/* * Copyright 2018 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkottiePriv.h" #include "SkJSON.h" #include "SkottieJson.h" #include "SkottieValue.h" #include "SkMakeUnique.h" #include "SkSGRenderNode.h" #include "SkSGScene.h" #include "SkTLazy.h" namespace skottie { namespace internal { sk_sp<sksg::RenderNode> AnimationBuilder::attachPrecompLayer(const skjson::ObjectValue& jlayer, const LayerInfo&, AnimatorScope* ascope) const { const skjson::ObjectValue* time_remap = jlayer["tm"]; // Empirically, a time mapper supersedes start/stretch. const auto start_time = time_remap ? 0.0f : ParseDefault<float>(jlayer["st"], 0.0f), stretch_time = time_remap ? 1.0f : ParseDefault<float>(jlayer["sr"], 1.0f); const auto requires_time_mapping = !SkScalarNearlyEqual(start_time , 0) || !SkScalarNearlyEqual(stretch_time, 1) || time_remap; AnimatorScope local_animators; auto precomp_layer = this->attachAssetRef(jlayer, requires_time_mapping ? &local_animators : ascope, [this] (const skjson::ObjectValue& jcomp, AnimatorScope* ascope) { return this->attachComposition(jcomp, ascope); }); // Applies a bias/scale/remap t-adjustment to child animators. class CompTimeMapper final : public sksg::GroupAnimator { public: CompTimeMapper(sksg::AnimatorList&& layer_animators, float time_bias, float time_scale) : INHERITED(std::move(layer_animators)) , fTimeBias(time_bias) , fTimeScale(time_scale) {} void onTick(float t) override { // When time remapping is active, |t| is driven externally. if (fRemappedTime.isValid()) { t = *fRemappedTime.get(); } this->INHERITED::onTick((t + fTimeBias) * fTimeScale); } void remapTime(float t) { fRemappedTime.set(t); } private: const float fTimeBias, fTimeScale; SkTLazy<float> fRemappedTime; using INHERITED = sksg::GroupAnimator; }; if (requires_time_mapping) { const auto t_bias = -start_time, t_scale = sk_ieee_float_divide(1, stretch_time); auto time_mapper = skstd::make_unique<CompTimeMapper>(std::move(local_animators), t_bias, sk_float_isfinite(t_scale) ? t_scale : 0); if (time_remap) { // The lambda below captures a raw pointer to the mapper object. That should be safe, // because both the lambda and the mapper are scoped/owned by ctx->fAnimators. auto* raw_mapper = time_mapper.get(); auto frame_rate = fFrameRate; this->bindProperty<ScalarValue>(*time_remap, ascope, [raw_mapper, frame_rate](const ScalarValue& t) { raw_mapper->remapTime(t * frame_rate); }); } ascope->push_back(std::move(time_mapper)); } return precomp_layer; } } // namespace internal } // namespace skottie