libs/hwui/RenderProperties.cpp - LeafOS-Project/android_frameworks_base - Gitiles

 /*
  * Copyright (C) 2014 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you mPrimitiveFields.may not use this file except in compliance with the License.
  * You mPrimitiveFields.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 "RenderProperties.h"

 #include <utils/Trace.h>

 #include <SkColorFilter.h>
 #include <SkMatrix.h>
 #include <SkPath.h>
 #include <SkPathOps.h>

 #include "Matrix.h"
 #include "hwui/Canvas.h"
 #include "utils/MathUtils.h"

 namespace android {
 namespace uirenderer {

 LayerProperties::LayerProperties() {
     reset();
 }

 LayerProperties::~LayerProperties() {
     setType(LayerType::None);
 }

 void LayerProperties::reset() {
     mOpaque = false;
     setFromPaint(nullptr);
 }

 bool LayerProperties::setColorFilter(SkColorFilter* filter) {
     if (mColorFilter.get() == filter) return false;
     mColorFilter = sk_ref_sp(filter);
     return true;
 }

 bool LayerProperties::setImageFilter(SkImageFilter* imageFilter) {
     if(mImageFilter.get() == imageFilter) return false;
     mImageFilter = sk_ref_sp(imageFilter);
     return true;
 }

 bool LayerProperties::setBackdropImageFilter(SkImageFilter* imageFilter) {
     if (mBackdropImageFilter.get() == imageFilter) return false;
     mBackdropImageFilter = sk_ref_sp(imageFilter);
     return true;
 }

 bool LayerProperties::setFromPaint(const SkPaint* paint) {
     bool changed = false;
     changed |= setAlpha(static_cast<uint8_t>(PaintUtils::getAlphaDirect(paint)));
     changed |= setXferMode(PaintUtils::getBlendModeDirect(paint));
     changed |= setColorFilter(paint ? paint->getColorFilter() : nullptr);
     return changed;
 }

 LayerProperties& LayerProperties::operator=(const LayerProperties& other) {
     setType(other.type());
     setOpaque(other.opaque());
     setAlpha(other.alpha());
     setXferMode(other.xferMode());
     setColorFilter(other.getColorFilter());
     setImageFilter(other.getImageFilter());
     setBackdropImageFilter(other.getBackdropImageFilter());
     mStretchEffect = other.mStretchEffect;
     return *this;
 }

 RenderProperties::ComputedFields::ComputedFields() : mTransformMatrix(nullptr) {}

 RenderProperties::ComputedFields::~ComputedFields() {
     delete mTransformMatrix;
 }

 RenderProperties::RenderProperties() : mStaticMatrix(nullptr), mAnimationMatrix(nullptr) {}

 RenderProperties::~RenderProperties() {
     delete mStaticMatrix;
     delete mAnimationMatrix;
 }

 RenderProperties& RenderProperties::operator=(const RenderProperties& other) {
     if (this != &other) {
         mPrimitiveFields = other.mPrimitiveFields;
         setStaticMatrix(other.getStaticMatrix());
         setAnimationMatrix(other.getAnimationMatrix());
         setCameraDistance(other.getCameraDistance());
         mLayerProperties = other.layerProperties();

         // Force recalculation of the matrix, since other's dirty bit may be clear
         mPrimitiveFields.mMatrixOrPivotDirty = true;
         updateMatrix();
     }
     return *this;
 }

 static void dumpMatrix(std::ostream& output, std::string& indent, const char* label,
                        SkMatrix* matrix) {
     if (matrix) {
         output << indent << "(" << label << " " << matrix << ": ";
         output << std::fixed << std::setprecision(2);
         output << "[" << matrix->get(0) << " " << matrix->get(1) << " " << matrix->get(2) << "]";
         output << " [" << matrix->get(3) << " " << matrix->get(4) << " " << matrix->get(5) << "]";
         output << " [" << matrix->get(6) << " " << matrix->get(7) << " " << matrix->get(8) << "]";
         output << ")" << std::endl;
     }
 }

 void RenderProperties::debugOutputProperties(std::ostream& output, const int level) const {
     auto indent = std::string(level * 2, ' ');
     if (mPrimitiveFields.mLeft != 0 || mPrimitiveFields.mTop != 0) {
         output << indent << "(Translate (left, top) " << mPrimitiveFields.mLeft << ", "
                << mPrimitiveFields.mTop << ")" << std::endl;
     }
     dumpMatrix(output, indent, "ConcatMatrix (static)", mStaticMatrix);
     dumpMatrix(output, indent, "ConcatMatrix (animation)", mAnimationMatrix);

     output << std::fixed << std::setprecision(2);
     if (hasTransformMatrix()) {
         if (isTransformTranslateOnly()) {
             output << indent << "(Translate " << getTranslationX() << ", " << getTranslationY()
                    << ", " << getZ() << ")" << std::endl;
         } else {
             dumpMatrix(output, indent, "ConcatMatrix ", mComputedFields.mTransformMatrix);
         }
     }

     const bool isLayer = effectiveLayerType() != LayerType::None;
     int clipFlags = getClippingFlags();
     if (mPrimitiveFields.mAlpha < 1 && !MathUtils::isZero(mPrimitiveFields.mAlpha)) {
         if (isLayer) {
             clipFlags &= ~CLIP_TO_BOUNDS;  // bounds clipping done by layer
         }

         if (CC_LIKELY(isLayer || !getHasOverlappingRendering())) {
             // simply scale rendering content's alpha
             output << indent << "(ScaleAlpha " << mPrimitiveFields.mAlpha << ")" << std::endl;
         } else {
             // savelayeralpha to create an offscreen buffer to apply alpha
             Rect layerBounds(0, 0, getWidth(), getHeight());
             if (clipFlags) {
                 getClippingRectForFlags(clipFlags, &layerBounds);
                 clipFlags = 0;  // all clipping done by savelayer
             }
             output << indent << "(SaveLayerAlpha " << (int)layerBounds.left << ", "
                    << (int)layerBounds.top << ", " << (int)layerBounds.right << ", "
                    << (int)layerBounds.bottom << ", " << (int)(mPrimitiveFields.mAlpha * 255)
                    << ", 0x" << std::hex << (SaveFlags::HasAlphaLayer | SaveFlags::ClipToLayer)
                    << ")" << std::dec << std::endl;
         }
     }

     if (clipFlags) {
         Rect clipRect;
         getClippingRectForFlags(clipFlags, &clipRect);
         output << indent << "(ClipRect " << (int)clipRect.left << ", " << (int)clipRect.top << ", "
                << (int)clipRect.right << ", " << (int)clipRect.bottom << ")" << std::endl;
     }

     if (getRevealClip().willClip()) {
         Rect bounds;
         getRevealClip().getBounds(&bounds);
         output << indent << "(Clip to reveal clip with bounds " << bounds.left << ", " << bounds.top
                << ", " << bounds.right << ", " << bounds.bottom << ")" << std::endl;
     }

     auto& outline = mPrimitiveFields.mOutline;
     if (outline.getShouldClip()) {
         if (outline.isEmpty()) {
             output << indent << "(Clip to empty outline)";
         } else if (outline.willClip()) {
             const Rect& bounds = outline.getBounds();
             output << indent << "(Clip to outline with bounds " << bounds.left << ", " << bounds.top
                    << ", " << bounds.right << ", " << bounds.bottom << ")" << std::endl;
         }
     }
 }

 void RenderProperties::updateMatrix() {
     if (mPrimitiveFields.mMatrixOrPivotDirty) {
         if (!mComputedFields.mTransformMatrix) {
             // only allocate a mPrimitiveFields.matrix if we have a complex transform
             mComputedFields.mTransformMatrix = new SkMatrix();
         }
         if (!mPrimitiveFields.mPivotExplicitlySet) {
             mPrimitiveFields.mPivotX = mPrimitiveFields.mWidth / 2.0f;
             mPrimitiveFields.mPivotY = mPrimitiveFields.mHeight / 2.0f;
         }
         SkMatrix* transform = mComputedFields.mTransformMatrix;
         transform->reset();
         if (MathUtils::isZero(getRotationX()) && MathUtils::isZero(getRotationY())) {
             transform->setTranslate(getTranslationX(), getTranslationY());
             transform->preRotate(getRotation(), getPivotX(), getPivotY());
             transform->preScale(getScaleX(), getScaleY(), getPivotX(), getPivotY());
         } else {
             SkMatrix transform3D;
             mComputedFields.mTransformCamera.save();
             transform->preScale(getScaleX(), getScaleY(), getPivotX(), getPivotY());
             mComputedFields.mTransformCamera.rotateX(mPrimitiveFields.mRotationX);
             mComputedFields.mTransformCamera.rotateY(mPrimitiveFields.mRotationY);
             mComputedFields.mTransformCamera.rotateZ(-mPrimitiveFields.mRotation);
             mComputedFields.mTransformCamera.getMatrix(&transform3D);
             transform3D.preTranslate(-getPivotX(), -getPivotY());
             transform3D.postTranslate(getPivotX() + getTranslationX(),
                                       getPivotY() + getTranslationY());
             transform->postConcat(transform3D);
             mComputedFields.mTransformCamera.restore();
         }
         mPrimitiveFields.mMatrixOrPivotDirty = false;
     }
 }

 } /* namespace uirenderer */
 } /* namespace android */
	/*
	* Copyright (C) 2014 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you mPrimitiveFields.may not use this file except in compliance with the License.
	* You mPrimitiveFields.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 "RenderProperties.h"

	#include <utils/Trace.h>

	#include <SkColorFilter.h>
	#include <SkMatrix.h>
	#include <SkPath.h>
	#include <SkPathOps.h>

	#include "Matrix.h"
	#include "hwui/Canvas.h"
	#include "utils/MathUtils.h"

	namespace android {
	namespace uirenderer {

	LayerProperties::LayerProperties() {
	reset();
	}

	LayerProperties::~LayerProperties() {
	setType(LayerType::None);
	}

	void LayerProperties::reset() {
	mOpaque = false;
	setFromPaint(nullptr);
	}

	bool LayerProperties::setColorFilter(SkColorFilter* filter) {
	if (mColorFilter.get() == filter) return false;
	mColorFilter = sk_ref_sp(filter);
	return true;
	}

	bool LayerProperties::setImageFilter(SkImageFilter* imageFilter) {
	if(mImageFilter.get() == imageFilter) return false;
	mImageFilter = sk_ref_sp(imageFilter);
	return true;
	}

	bool LayerProperties::setBackdropImageFilter(SkImageFilter* imageFilter) {
	if (mBackdropImageFilter.get() == imageFilter) return false;
	mBackdropImageFilter = sk_ref_sp(imageFilter);
	return true;
	}

	bool LayerProperties::setFromPaint(const SkPaint* paint) {
	bool changed = false;
	changed \|= setAlpha(static_cast<uint8_t>(PaintUtils::getAlphaDirect(paint)));
	changed \|= setXferMode(PaintUtils::getBlendModeDirect(paint));
	changed \|= setColorFilter(paint ? paint->getColorFilter() : nullptr);
	return changed;
	}

	LayerProperties& LayerProperties::operator=(const LayerProperties& other) {
	setType(other.type());
	setOpaque(other.opaque());
	setAlpha(other.alpha());
	setXferMode(other.xferMode());
	setColorFilter(other.getColorFilter());
	setImageFilter(other.getImageFilter());
	setBackdropImageFilter(other.getBackdropImageFilter());
	mStretchEffect = other.mStretchEffect;
	return *this;
	}

	RenderProperties::ComputedFields::ComputedFields() : mTransformMatrix(nullptr) {}

	RenderProperties::ComputedFields::~ComputedFields() {
	delete mTransformMatrix;
	}

	RenderProperties::RenderProperties() : mStaticMatrix(nullptr), mAnimationMatrix(nullptr) {}

	RenderProperties::~RenderProperties() {
	delete mStaticMatrix;
	delete mAnimationMatrix;
	}

	RenderProperties& RenderProperties::operator=(const RenderProperties& other) {
	if (this != &other) {
	mPrimitiveFields = other.mPrimitiveFields;
	setStaticMatrix(other.getStaticMatrix());
	setAnimationMatrix(other.getAnimationMatrix());
	setCameraDistance(other.getCameraDistance());
	mLayerProperties = other.layerProperties();

	// Force recalculation of the matrix, since other's dirty bit may be clear
	mPrimitiveFields.mMatrixOrPivotDirty = true;
	updateMatrix();
	}
	return *this;
	}

	static void dumpMatrix(std::ostream& output, std::string& indent, const char* label,
	SkMatrix* matrix) {
	if (matrix) {
	output << indent << "(" << label << " " << matrix << ": ";
	output << std::fixed << std::setprecision(2);
	output << "[" << matrix->get(0) << " " << matrix->get(1) << " " << matrix->get(2) << "]";
	output << " [" << matrix->get(3) << " " << matrix->get(4) << " " << matrix->get(5) << "]";
	output << " [" << matrix->get(6) << " " << matrix->get(7) << " " << matrix->get(8) << "]";
	output << ")" << std::endl;
	}
	}

	void RenderProperties::debugOutputProperties(std::ostream& output, const int level) const {
	auto indent = std::string(level * 2, ' ');
	if (mPrimitiveFields.mLeft != 0 \|\| mPrimitiveFields.mTop != 0) {
	output << indent << "(Translate (left, top) " << mPrimitiveFields.mLeft << ", "
	<< mPrimitiveFields.mTop << ")" << std::endl;
	}
	dumpMatrix(output, indent, "ConcatMatrix (static)", mStaticMatrix);
	dumpMatrix(output, indent, "ConcatMatrix (animation)", mAnimationMatrix);

	output << std::fixed << std::setprecision(2);
	if (hasTransformMatrix()) {
	if (isTransformTranslateOnly()) {
	output << indent << "(Translate " << getTranslationX() << ", " << getTranslationY()
	<< ", " << getZ() << ")" << std::endl;
	} else {
	dumpMatrix(output, indent, "ConcatMatrix ", mComputedFields.mTransformMatrix);
	}
	}

	const bool isLayer = effectiveLayerType() != LayerType::None;
	int clipFlags = getClippingFlags();
	if (mPrimitiveFields.mAlpha < 1 && !MathUtils::isZero(mPrimitiveFields.mAlpha)) {
	if (isLayer) {
	clipFlags &= ~CLIP_TO_BOUNDS; // bounds clipping done by layer
	}

	if (CC_LIKELY(isLayer \|\| !getHasOverlappingRendering())) {
	// simply scale rendering content's alpha
	output << indent << "(ScaleAlpha " << mPrimitiveFields.mAlpha << ")" << std::endl;
	} else {
	// savelayeralpha to create an offscreen buffer to apply alpha
	Rect layerBounds(0, 0, getWidth(), getHeight());
	if (clipFlags) {
	getClippingRectForFlags(clipFlags, &layerBounds);
	clipFlags = 0; // all clipping done by savelayer
	}
	output << indent << "(SaveLayerAlpha " << (int)layerBounds.left << ", "
	<< (int)layerBounds.top << ", " << (int)layerBounds.right << ", "
	<< (int)layerBounds.bottom << ", " << (int)(mPrimitiveFields.mAlpha * 255)
	<< ", 0x" << std::hex << (SaveFlags::HasAlphaLayer \| SaveFlags::ClipToLayer)
	<< ")" << std::dec << std::endl;
	}
	}

	if (clipFlags) {
	Rect clipRect;
	getClippingRectForFlags(clipFlags, &clipRect);
	output << indent << "(ClipRect " << (int)clipRect.left << ", " << (int)clipRect.top << ", "
	<< (int)clipRect.right << ", " << (int)clipRect.bottom << ")" << std::endl;
	}

	if (getRevealClip().willClip()) {
	Rect bounds;
	getRevealClip().getBounds(&bounds);
	output << indent << "(Clip to reveal clip with bounds " << bounds.left << ", " << bounds.top
	<< ", " << bounds.right << ", " << bounds.bottom << ")" << std::endl;
	}

	auto& outline = mPrimitiveFields.mOutline;
	if (outline.getShouldClip()) {
	if (outline.isEmpty()) {
	output << indent << "(Clip to empty outline)";
	} else if (outline.willClip()) {
	const Rect& bounds = outline.getBounds();
	output << indent << "(Clip to outline with bounds " << bounds.left << ", " << bounds.top
	<< ", " << bounds.right << ", " << bounds.bottom << ")" << std::endl;
	}
	}
	}

	void RenderProperties::updateMatrix() {
	if (mPrimitiveFields.mMatrixOrPivotDirty) {
	if (!mComputedFields.mTransformMatrix) {
	// only allocate a mPrimitiveFields.matrix if we have a complex transform
	mComputedFields.mTransformMatrix = new SkMatrix();
	}
	if (!mPrimitiveFields.mPivotExplicitlySet) {
	mPrimitiveFields.mPivotX = mPrimitiveFields.mWidth / 2.0f;
	mPrimitiveFields.mPivotY = mPrimitiveFields.mHeight / 2.0f;
	}
	SkMatrix* transform = mComputedFields.mTransformMatrix;
	transform->reset();
	if (MathUtils::isZero(getRotationX()) && MathUtils::isZero(getRotationY())) {
	transform->setTranslate(getTranslationX(), getTranslationY());
	transform->preRotate(getRotation(), getPivotX(), getPivotY());
	transform->preScale(getScaleX(), getScaleY(), getPivotX(), getPivotY());
	} else {
	SkMatrix transform3D;
	mComputedFields.mTransformCamera.save();
	transform->preScale(getScaleX(), getScaleY(), getPivotX(), getPivotY());
	mComputedFields.mTransformCamera.rotateX(mPrimitiveFields.mRotationX);
	mComputedFields.mTransformCamera.rotateY(mPrimitiveFields.mRotationY);
	mComputedFields.mTransformCamera.rotateZ(-mPrimitiveFields.mRotation);
	mComputedFields.mTransformCamera.getMatrix(&transform3D);
	transform3D.preTranslate(-getPivotX(), -getPivotY());
	transform3D.postTranslate(getPivotX() + getTranslationX(),
	getPivotY() + getTranslationY());
	transform->postConcat(transform3D);
	mComputedFields.mTransformCamera.restore();
	}
	mPrimitiveFields.mMatrixOrPivotDirty = false;
	}
	}

	} /* namespace uirenderer */
	} /* namespace android */