src/third_party/skia/modules/skottie/src/text/TextAnimator.cpp - cobalt - Git at Google

 /*
  * Copyright 2019 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "modules/skottie/src/text/TextAnimator.h"

 #include "include/core/SkColor.h"
 #include "include/core/SkPoint.h"
 #include "include/private/SkNx.h"
 #include "modules/skottie/src/SkottieValue.h"
 #include "modules/skottie/src/text/RangeSelector.h"
 #include "src/utils/SkJSON.h"

 namespace skottie {
 namespace internal {

 /*
  * Text layers can have optional text property animators.
  *
  * Each animator consists of
  *
  *   1) a list of animated properties (e.g. position, fill color, etc)
  *
  *   2) a list of range selectors
  *
  * Animated properties yield new values to be applied to the text, while range selectors
  * determine the text subset these new values are applied to.
  *
  * The best way to think of range selectors is in terms of coverage: they combine to generate
  * a coverage value [0..1] for each text fragment/glyph.  This coverage is then used to modulate
  * how the new property value is applied to a given fragment (interpolation weight).
  *
  * Note: Bodymovin currently only supports a single selector.
  *
  * JSON structure:
  *
  * "t": {              // text node
  *   "a": [            // animators list
  *     {               // animator node
  *       "s": {...},   // selector node
  *       "a": {        // animator properties node
  *         "a":  {}    // optional anchor point value
  *         "p":  {},   // optional position value
  *         "s":  {},   // optional scale value
  *         "o":  {},   // optional opacity
  *         "fc": {},   // optional fill color value
  *         "sc": {},   // optional stroke color value
  *
  *         // TODO: more props?
  *       }
  *     },
  *     ...
  *   ],
  *   ...
  * }
  */
 sk_sp<TextAnimator> TextAnimator::Make(const skjson::ObjectValue* janimator,
                                        const AnimationBuilder* abuilder) {
     if (!janimator) {
         return nullptr;
     }

     const skjson::ObjectValue* jprops = (*janimator)["a"];
     if (!jprops) {
         return nullptr;
     }

     std::vector<sk_sp<RangeSelector>> selectors;

     // Depending on compat mode and whether more than one selector is present,
     // BM exports either an array or a single object.
     if (const skjson::ArrayValue* jselectors = (*janimator)["s"]) {
         selectors.reserve(jselectors->size());
         for (const skjson::ObjectValue* jselector : *jselectors) {
             if (auto sel = RangeSelector::Make(*jselector, abuilder)) {
                 selectors.push_back(std::move(sel));
             }
         }
     } else {
         if (auto sel = RangeSelector::Make((*janimator)["s"], abuilder)) {
             selectors.reserve(1);
             selectors.push_back(std::move(sel));
         }
     }

     return sk_sp<TextAnimator>(new TextAnimator(std::move(selectors), *jprops, abuilder));
 }

 void TextAnimator::modulateProps(const DomainMaps& maps, ModulatorBuffer& buf) const {
     // No selectors -> full coverage.
     const auto initial_coverage = fSelectors.empty() ? 1.f : 0.f;

     // Coverage is scoped per animator.
     for (auto& mod : buf) {
         mod.coverage = initial_coverage;
     }

     // Accumulate selector coverage.
     for (const auto& selector : fSelectors) {
         selector->modulateCoverage(maps, buf);
     }

     // Modulate animated props.
     for (auto& mod : buf) {
         mod.props = this->modulateProps(mod.props, mod.coverage);
     }
 }

 TextAnimator::AnimatedProps TextAnimator::modulateProps(const AnimatedProps& props,
                                                         float amount) const {
     auto modulated_props = props;

     // Transform props compose.
     modulated_props.position += fTextProps.position * amount;
     modulated_props.rotation += fTextProps.rotation * amount;
     modulated_props.tracking += fTextProps.tracking * amount;
     modulated_props.scale    *= 1 + (fTextProps.scale - 1) * amount;

     const auto lerp_color = [](SkColor c0, SkColor c1, float t) {
         const auto c0_4f = SkNx_cast<float>(Sk4b::Load(&c0)),
                    c1_4f = SkNx_cast<float>(Sk4b::Load(&c1)),
                     c_4f = c0_4f + (c1_4f - c0_4f) * t;

         SkColor c;
         SkNx_cast<uint8_t>(Sk4f_round(c_4f)).store(&c);
         return c;
     };

     // Colors and opacity are overridden, and use a clamped amount value.
     const auto clamped_amount = std::max(amount, 0.0f);
     if (fHasFillColor) {
         modulated_props.fill_color = lerp_color(props.fill_color,
                                                 fTextProps.fill_color,
                                                 clamped_amount);
     }
     if (fHasStrokeColor) {
         modulated_props.stroke_color = lerp_color(props.stroke_color,
                                                   fTextProps.stroke_color,
                                                   clamped_amount);
     }
     modulated_props.opacity *= 1 + (fTextProps.opacity - 1) * clamped_amount;

     return modulated_props;
 }

 TextAnimator::TextAnimator(std::vector<sk_sp<RangeSelector>>&& selectors,
                            const skjson::ObjectValue& jprops,
                            const AnimationBuilder* abuilder)
     : fSelectors(std::move(selectors)) {
     auto* animator = this;

     abuilder->bindProperty<VectorValue>(jprops["p"],
         [animator](const VectorValue& p) {
             animator->fTextProps.position = ValueTraits<VectorValue>::As<SkPoint>(p);
         });
     abuilder->bindProperty<ScalarValue>(jprops["s"],
         [animator](const ScalarValue& s) {
             // Scale is 100-based.
             animator->fTextProps.scale = s * 0.01f;
         });
     abuilder->bindProperty<ScalarValue>(jprops["r"],
         [animator](const ScalarValue& r) {
             animator->fTextProps.rotation = r;
         });
     fHasFillColor   = abuilder->bindProperty<VectorValue>(jprops["fc"],
         [animator](const VectorValue& fc) {
             animator->fTextProps.fill_color = ValueTraits<VectorValue>::As<SkColor>(fc);
         });
     fHasStrokeColor = abuilder->bindProperty<VectorValue>(jprops["sc"],
         [animator](const VectorValue& sc) {
             animator->fTextProps.stroke_color = ValueTraits<VectorValue>::As<SkColor>(sc);
         });
     abuilder->bindProperty<ScalarValue>(jprops["o"],
         [animator](const ScalarValue& o) {
             // Opacity is 100-based.
             animator->fTextProps.opacity = SkTPin<float>(o * 0.01f, 0, 1);
         });
     abuilder->bindProperty<ScalarValue>(jprops["t"],
         [animator](const ScalarValue& t) {
             animator->fTextProps.tracking = t;
         });
 }

 } // namespace internal
 } // namespace skottie
	/*
	* Copyright 2019 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "modules/skottie/src/text/TextAnimator.h"

	#include "include/core/SkColor.h"
	#include "include/core/SkPoint.h"
	#include "include/private/SkNx.h"
	#include "modules/skottie/src/SkottieValue.h"
	#include "modules/skottie/src/text/RangeSelector.h"
	#include "src/utils/SkJSON.h"

	namespace skottie {
	namespace internal {

	/*
	* Text layers can have optional text property animators.
	*
	* Each animator consists of
	*
	* 1) a list of animated properties (e.g. position, fill color, etc)
	*
	* 2) a list of range selectors
	*
	* Animated properties yield new values to be applied to the text, while range selectors
	* determine the text subset these new values are applied to.
	*
	* The best way to think of range selectors is in terms of coverage: they combine to generate
	* a coverage value [0..1] for each text fragment/glyph. This coverage is then used to modulate
	* how the new property value is applied to a given fragment (interpolation weight).
	*
	* Note: Bodymovin currently only supports a single selector.
	*
	* JSON structure:
	*
	* "t": { // text node
	* "a": [ // animators list
	* { // animator node
	* "s": {...}, // selector node
	* "a": { // animator properties node
	* "a": {} // optional anchor point value
	* "p": {}, // optional position value
	* "s": {}, // optional scale value
	* "o": {}, // optional opacity
	* "fc": {}, // optional fill color value
	* "sc": {}, // optional stroke color value
	*
	* // TODO: more props?
	* }
	* },
	* ...
	* ],
	* ...
	* }
	*/
	sk_sp<TextAnimator> TextAnimator::Make(const skjson::ObjectValue* janimator,
	const AnimationBuilder* abuilder) {
	if (!janimator) {
	return nullptr;
	}

	const skjson::ObjectValue* jprops = (*janimator)["a"];
	if (!jprops) {
	return nullptr;
	}

	std::vector<sk_sp<RangeSelector>> selectors;

	// Depending on compat mode and whether more than one selector is present,
	// BM exports either an array or a single object.
	if (const skjson::ArrayValue* jselectors = (*janimator)["s"]) {
	selectors.reserve(jselectors->size());
	for (const skjson::ObjectValue* jselector : *jselectors) {
	if (auto sel = RangeSelector::Make(*jselector, abuilder)) {
	selectors.push_back(std::move(sel));
	}
	}
	} else {
	if (auto sel = RangeSelector::Make((*janimator)["s"], abuilder)) {
	selectors.reserve(1);
	selectors.push_back(std::move(sel));
	}
	}

	return sk_sp<TextAnimator>(new TextAnimator(std::move(selectors), *jprops, abuilder));
	}

	void TextAnimator::modulateProps(const DomainMaps& maps, ModulatorBuffer& buf) const {
	// No selectors -> full coverage.
	const auto initial_coverage = fSelectors.empty() ? 1.f : 0.f;

	// Coverage is scoped per animator.
	for (auto& mod : buf) {
	mod.coverage = initial_coverage;
	}

	// Accumulate selector coverage.
	for (const auto& selector : fSelectors) {
	selector->modulateCoverage(maps, buf);
	}

	// Modulate animated props.
	for (auto& mod : buf) {
	mod.props = this->modulateProps(mod.props, mod.coverage);
	}
	}

	TextAnimator::AnimatedProps TextAnimator::modulateProps(const AnimatedProps& props,
	float amount) const {
	auto modulated_props = props;

	// Transform props compose.
	modulated_props.position += fTextProps.position * amount;
	modulated_props.rotation += fTextProps.rotation * amount;
	modulated_props.tracking += fTextProps.tracking * amount;
	modulated_props.scale = 1 + (fTextProps.scale - 1) amount;

	const auto lerp_color = [](SkColor c0, SkColor c1, float t) {
	const auto c0_4f = SkNx_cast<float>(Sk4b::Load(&c0)),
	c1_4f = SkNx_cast<float>(Sk4b::Load(&c1)),
	c_4f = c0_4f + (c1_4f - c0_4f) * t;

	SkColor c;
	SkNx_cast<uint8_t>(Sk4f_round(c_4f)).store(&c);
	return c;
	};

	// Colors and opacity are overridden, and use a clamped amount value.
	const auto clamped_amount = std::max(amount, 0.0f);
	if (fHasFillColor) {
	modulated_props.fill_color = lerp_color(props.fill_color,
	fTextProps.fill_color,
	clamped_amount);
	}
	if (fHasStrokeColor) {
	modulated_props.stroke_color = lerp_color(props.stroke_color,
	fTextProps.stroke_color,
	clamped_amount);
	}
	modulated_props.opacity = 1 + (fTextProps.opacity - 1) clamped_amount;

	return modulated_props;
	}

	TextAnimator::TextAnimator(std::vector<sk_sp<RangeSelector>>&& selectors,
	const skjson::ObjectValue& jprops,
	const AnimationBuilder* abuilder)
	: fSelectors(std::move(selectors)) {
	auto* animator = this;

	abuilder->bindProperty<VectorValue>(jprops["p"],
	[animator](const VectorValue& p) {
	animator->fTextProps.position = ValueTraits<VectorValue>::As<SkPoint>(p);
	});
	abuilder->bindProperty<ScalarValue>(jprops["s"],
	[animator](const ScalarValue& s) {
	// Scale is 100-based.
	animator->fTextProps.scale = s * 0.01f;
	});
	abuilder->bindProperty<ScalarValue>(jprops["r"],
	[animator](const ScalarValue& r) {
	animator->fTextProps.rotation = r;
	});
	fHasFillColor = abuilder->bindProperty<VectorValue>(jprops["fc"],
	[animator](const VectorValue& fc) {
	animator->fTextProps.fill_color = ValueTraits<VectorValue>::As<SkColor>(fc);
	});
	fHasStrokeColor = abuilder->bindProperty<VectorValue>(jprops["sc"],
	[animator](const VectorValue& sc) {
	animator->fTextProps.stroke_color = ValueTraits<VectorValue>::As<SkColor>(sc);
	});
	abuilder->bindProperty<ScalarValue>(jprops["o"],
	[animator](const ScalarValue& o) {
	// Opacity is 100-based.
	animator->fTextProps.opacity = SkTPin<float>(o * 0.01f, 0, 1);
	});
	abuilder->bindProperty<ScalarValue>(jprops["t"],
	[animator](const ScalarValue& t) {
	animator->fTextProps.tracking = t;
	});
	}

	} // namespace internal
	} // namespace skottie