src/core/SkDrawShadowInfo.h - skia - Git at Google

 /*
  * Copyright 2017 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef SkDrawShadowInfo_DEFINED
 #define SkDrawShadowInfo_DEFINED

 #include "include/core/SkColor.h"
 #include "include/core/SkPoint.h"
 #include "include/core/SkPoint3.h"
 #include "include/core/SkScalar.h"
 #include "include/private/base/SkAssert.h"
 #include "include/private/base/SkFloatingPoint.h"
 #include "include/private/base/SkTPin.h"

 #include <algorithm>
 #include <cstdint>

 class SkMatrix;
 class SkPath;
 struct SkRect;

 struct SkDrawShadowRec {
     SkPoint3    fZPlaneParams;
     SkPoint3    fLightPos;
     SkScalar    fLightRadius;
     SkColor     fAmbientColor;
     SkColor     fSpotColor;
     uint32_t    fFlags;
 };

 namespace SkDrawShadowMetrics {

 static constexpr auto kAmbientHeightFactor = 1.0f / 128.0f;
 static constexpr auto kAmbientGeomFactor = 64.0f;
 // Assuming that we have a light height of 600 for the spot shadow,
 // the spot values will reach their maximum at a height of approximately 292.3077.
 // We'll round up to 300 to keep it simple.
 static constexpr auto kMaxAmbientRadius = 300*kAmbientHeightFactor*kAmbientGeomFactor;

 static inline float divide_and_pin(float numer, float denom, float min, float max) {
     float result = SkTPin(sk_ieee_float_divide(numer, denom), min, max);
     // ensure that SkTPin handled non-finites correctly
     SkASSERT(result >= min && result <= max);
     return result;
 }

 inline SkScalar AmbientBlurRadius(SkScalar height) {
     return std::min(height*kAmbientHeightFactor*kAmbientGeomFactor, kMaxAmbientRadius);
 }

 inline SkScalar AmbientRecipAlpha(SkScalar height) {
     return 1.0f + std::max(height*kAmbientHeightFactor, 0.0f);
 }

 inline SkScalar SpotBlurRadius(SkScalar occluderZ, SkScalar lightZ, SkScalar lightRadius) {
     return lightRadius*divide_and_pin(occluderZ, lightZ - occluderZ, 0.0f, 0.95f);
 }

 inline void GetSpotParams(SkScalar occluderZ, SkScalar lightX, SkScalar lightY, SkScalar lightZ,
                           SkScalar lightRadius,
                           SkScalar* blurRadius, SkScalar* scale, SkVector* translate) {
     SkScalar zRatio = divide_and_pin(occluderZ, lightZ - occluderZ, 0.0f, 0.95f);
     *blurRadius = lightRadius*zRatio;
     *scale = divide_and_pin(lightZ, lightZ - occluderZ, 1.0f, 1.95f);
     *translate = SkVector::Make(-zRatio * lightX, -zRatio * lightY);
 }

 inline void GetDirectionalParams(SkScalar occluderZ, SkScalar lightX, SkScalar lightY,
                                  SkScalar lightZ, SkScalar lightRadius,
                                  SkScalar* blurRadius, SkScalar* scale, SkVector* translate) {
     *blurRadius = lightRadius*occluderZ;
     *scale = 1;
     // Max z-ratio is "max expected elevation"/"min allowable z"
     constexpr SkScalar kMaxZRatio = 64/SK_ScalarNearlyZero;
     SkScalar zRatio = divide_and_pin(occluderZ, lightZ, 0.0f, kMaxZRatio);
     *translate = SkVector::Make(-zRatio * lightX, -zRatio * lightY);
 }

 // Create the transformation to apply to a path to get its base shadow outline, given the light
 // parameters and the path's 3D transformation (given by ctm and zPlaneParams).
 // Also computes the blur radius to apply the transformed outline.
 bool GetSpotShadowTransform(const SkPoint3& lightPos, SkScalar lightRadius,
                             const SkMatrix& ctm, const SkPoint3& zPlaneParams,
                             const SkRect& pathBounds, bool directional,
                             SkMatrix* shadowTransform, SkScalar* radius);

 // get bounds prior to the ctm being applied
 void GetLocalBounds(const SkPath&, const SkDrawShadowRec&, const SkMatrix& ctm, SkRect* bounds);

 }  // namespace SkDrawShadowMetrics

 #endif
	/*
	* Copyright 2017 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef SkDrawShadowInfo_DEFINED
	#define SkDrawShadowInfo_DEFINED

	#include "include/core/SkColor.h"
	#include "include/core/SkPoint.h"
	#include "include/core/SkPoint3.h"
	#include "include/core/SkScalar.h"
	#include "include/private/base/SkAssert.h"
	#include "include/private/base/SkFloatingPoint.h"
	#include "include/private/base/SkTPin.h"

	#include <algorithm>
	#include <cstdint>

	class SkMatrix;
	class SkPath;
	struct SkRect;

	struct SkDrawShadowRec {
	SkPoint3 fZPlaneParams;
	SkPoint3 fLightPos;
	SkScalar fLightRadius;
	SkColor fAmbientColor;
	SkColor fSpotColor;
	uint32_t fFlags;
	};

	namespace SkDrawShadowMetrics {

	static constexpr auto kAmbientHeightFactor = 1.0f / 128.0f;
	static constexpr auto kAmbientGeomFactor = 64.0f;
	// Assuming that we have a light height of 600 for the spot shadow,
	// the spot values will reach their maximum at a height of approximately 292.3077.
	// We'll round up to 300 to keep it simple.
	static constexpr auto kMaxAmbientRadius = 300kAmbientHeightFactorkAmbientGeomFactor;

	static inline float divide_and_pin(float numer, float denom, float min, float max) {
	float result = SkTPin(sk_ieee_float_divide(numer, denom), min, max);
	// ensure that SkTPin handled non-finites correctly
	SkASSERT(result >= min && result <= max);
	return result;
	}

	inline SkScalar AmbientBlurRadius(SkScalar height) {
	return std::min(heightkAmbientHeightFactorkAmbientGeomFactor, kMaxAmbientRadius);
	}

	inline SkScalar AmbientRecipAlpha(SkScalar height) {
	return 1.0f + std::max(height*kAmbientHeightFactor, 0.0f);
	}

	inline SkScalar SpotBlurRadius(SkScalar occluderZ, SkScalar lightZ, SkScalar lightRadius) {
	return lightRadius*divide_and_pin(occluderZ, lightZ - occluderZ, 0.0f, 0.95f);
	}

	inline void GetSpotParams(SkScalar occluderZ, SkScalar lightX, SkScalar lightY, SkScalar lightZ,
	SkScalar lightRadius,
	SkScalar* blurRadius, SkScalar* scale, SkVector* translate) {
	SkScalar zRatio = divide_and_pin(occluderZ, lightZ - occluderZ, 0.0f, 0.95f);
	blurRadius = lightRadiuszRatio;
	*scale = divide_and_pin(lightZ, lightZ - occluderZ, 1.0f, 1.95f);
	translate = SkVector::Make(-zRatio lightX, -zRatio * lightY);
	}

	inline void GetDirectionalParams(SkScalar occluderZ, SkScalar lightX, SkScalar lightY,
	SkScalar lightZ, SkScalar lightRadius,
	SkScalar* blurRadius, SkScalar* scale, SkVector* translate) {
	blurRadius = lightRadiusoccluderZ;
	*scale = 1;
	// Max z-ratio is "max expected elevation"/"min allowable z"
	constexpr SkScalar kMaxZRatio = 64/SK_ScalarNearlyZero;
	SkScalar zRatio = divide_and_pin(occluderZ, lightZ, 0.0f, kMaxZRatio);
	translate = SkVector::Make(-zRatio lightX, -zRatio * lightY);
	}

	// Create the transformation to apply to a path to get its base shadow outline, given the light
	// parameters and the path's 3D transformation (given by ctm and zPlaneParams).
	// Also computes the blur radius to apply the transformed outline.
	bool GetSpotShadowTransform(const SkPoint3& lightPos, SkScalar lightRadius,
	const SkMatrix& ctm, const SkPoint3& zPlaneParams,
	const SkRect& pathBounds, bool directional,
	SkMatrix* shadowTransform, SkScalar* radius);

	// get bounds prior to the ctm being applied
	void GetLocalBounds(const SkPath&, const SkDrawShadowRec&, const SkMatrix& ctm, SkRect* bounds);

	} // namespace SkDrawShadowMetrics

	#endif