libs/hwui/RenderProperties.cpp - platform/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.
  */

 #define LOG_TAG "OpenGLRenderer"

 #include "RenderProperties.h"

 #include <utils/Trace.h>

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

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

 namespace android {
 namespace uirenderer {

 RenderProperties::PrimitiveFields::PrimitiveFields()
         : mClipToBounds(true)
         , mProjectBackwards(false)
         , mProjectionReceiver(false)
         , mAlpha(1)
         , mHasOverlappingRendering(true)
         , mElevation(0)
         , mTranslationX(0), mTranslationY(0), mTranslationZ(0)
         , mRotation(0), mRotationX(0), mRotationY(0)
         , mScaleX(1), mScaleY(1)
         , mPivotX(0), mPivotY(0)
         , mLeft(0), mTop(0), mRight(0), mBottom(0)
         , mWidth(0), mHeight(0)
         , mPivotExplicitlySet(false)
         , mMatrixOrPivotDirty(false)
         , mCaching(false) {
 }

 RenderProperties::ComputedFields::ComputedFields()
         : mTransformMatrix(NULL)
         , mClipPath(NULL)
         , mClipPathOp(SkRegion::kIntersect_Op) {
 }

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

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

 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());

         // Update the computed clip path
         updateClipPath();

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

 void RenderProperties::debugOutputProperties(const int level) const {
     if (mPrimitiveFields.mLeft != 0 || mPrimitiveFields.mTop != 0) {
         ALOGD("%*sTranslate (left, top) %d, %d", level * 2, "", mPrimitiveFields.mLeft, mPrimitiveFields.mTop);
     }
     if (mStaticMatrix) {
         ALOGD("%*sConcatMatrix (static) %p: " SK_MATRIX_STRING,
                 level * 2, "", mStaticMatrix, SK_MATRIX_ARGS(mStaticMatrix));
     }
     if (mAnimationMatrix) {
         ALOGD("%*sConcatMatrix (animation) %p: " SK_MATRIX_STRING,
                 level * 2, "", mAnimationMatrix, SK_MATRIX_ARGS(mAnimationMatrix));
     }
     if (hasTransformMatrix()) {
         if (isTransformTranslateOnly()) {
             ALOGD("%*sTranslate %.2f, %.2f, %.2f",
                     level * 2, "", getTranslationX(), getTranslationY(), getZ());
         } else {
             ALOGD("%*sConcatMatrix %p: " SK_MATRIX_STRING,
                     level * 2, "", mComputedFields.mTransformMatrix, SK_MATRIX_ARGS(mComputedFields.mTransformMatrix));
         }
     }

     bool clipToBoundsNeeded = mPrimitiveFields.mCaching ? false : mPrimitiveFields.mClipToBounds;
     if (mPrimitiveFields.mAlpha < 1) {
         if (mPrimitiveFields.mCaching) {
             ALOGD("%*sSetOverrideLayerAlpha %.2f", level * 2, "", mPrimitiveFields.mAlpha);
         } else if (!mPrimitiveFields.mHasOverlappingRendering) {
             ALOGD("%*sScaleAlpha %.2f", level * 2, "", mPrimitiveFields.mAlpha);
         } else {
             int flags = SkCanvas::kHasAlphaLayer_SaveFlag;
             if (clipToBoundsNeeded) {
                 flags |= SkCanvas::kClipToLayer_SaveFlag;
                 clipToBoundsNeeded = false; // clipping done by save layer
             }
             ALOGD("%*sSaveLayerAlpha %d, %d, %d, %d, %d, 0x%x", level * 2, "",
                     0, 0, getWidth(), getHeight(),
                     (int)(mPrimitiveFields.mAlpha * 255), flags);
         }
     }
     if (clipToBoundsNeeded) {
         ALOGD("%*sClipRect %d, %d, %d, %d", level * 2, "",
                 0, 0, getWidth(), getHeight());
     }
 }

 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;
     }
 }

 void RenderProperties::updateClipPath() {
     const SkPath* outlineClipPath = mPrimitiveFields.mOutline.willClip()
             ? mPrimitiveFields.mOutline.getPath() : NULL;
     const SkPath* revealClipPath = mPrimitiveFields.mRevealClip.getPath();

     if (!outlineClipPath && !revealClipPath) {
         // mComputedFields.mClipPath doesn't need to be updated, since it won't be used
         return;
     }

     if (mComputedFields.mClipPath == NULL) {
         mComputedFields.mClipPath = new SkPath();
     }
     SkPath* clipPath = mComputedFields.mClipPath;
     mComputedFields.mClipPathOp = SkRegion::kIntersect_Op;

     if (outlineClipPath && revealClipPath) {
         SkPathOp op = kIntersect_PathOp;
         if (mPrimitiveFields.mRevealClip.isInverseClip()) {
             op = kDifference_PathOp; // apply difference step in the Op below, instead of draw time
         }

         Op(*outlineClipPath, *revealClipPath, op, clipPath);
     } else if (outlineClipPath) {
         *clipPath = *outlineClipPath;
     } else {
         *clipPath = *revealClipPath;
         if (mPrimitiveFields.mRevealClip.isInverseClip()) {
             // apply difference step at draw time
             mComputedFields.mClipPathOp = SkRegion::kDifference_Op;
         }
     }
 }

 } /* 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.
	*/

	#define LOG_TAG "OpenGLRenderer"

	#include "RenderProperties.h"

	#include <utils/Trace.h>

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

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

	namespace android {
	namespace uirenderer {

	RenderProperties::PrimitiveFields::PrimitiveFields()
	: mClipToBounds(true)
	, mProjectBackwards(false)
	, mProjectionReceiver(false)
	, mAlpha(1)
	, mHasOverlappingRendering(true)
	, mElevation(0)
	, mTranslationX(0), mTranslationY(0), mTranslationZ(0)
	, mRotation(0), mRotationX(0), mRotationY(0)
	, mScaleX(1), mScaleY(1)
	, mPivotX(0), mPivotY(0)
	, mLeft(0), mTop(0), mRight(0), mBottom(0)
	, mWidth(0), mHeight(0)
	, mPivotExplicitlySet(false)
	, mMatrixOrPivotDirty(false)
	, mCaching(false) {
	}

	RenderProperties::ComputedFields::ComputedFields()
	: mTransformMatrix(NULL)
	, mClipPath(NULL)
	, mClipPathOp(SkRegion::kIntersect_Op) {
	}

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

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

	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());

	// Update the computed clip path
	updateClipPath();

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

	void RenderProperties::debugOutputProperties(const int level) const {
	if (mPrimitiveFields.mLeft != 0 \|\| mPrimitiveFields.mTop != 0) {
	ALOGD("%sTranslate (left, top) %d, %d", level 2, "", mPrimitiveFields.mLeft, mPrimitiveFields.mTop);
	}
	if (mStaticMatrix) {
	ALOGD("%*sConcatMatrix (static) %p: " SK_MATRIX_STRING,
	level * 2, "", mStaticMatrix, SK_MATRIX_ARGS(mStaticMatrix));
	}
	if (mAnimationMatrix) {
	ALOGD("%*sConcatMatrix (animation) %p: " SK_MATRIX_STRING,
	level * 2, "", mAnimationMatrix, SK_MATRIX_ARGS(mAnimationMatrix));
	}
	if (hasTransformMatrix()) {
	if (isTransformTranslateOnly()) {
	ALOGD("%*sTranslate %.2f, %.2f, %.2f",
	level * 2, "", getTranslationX(), getTranslationY(), getZ());
	} else {
	ALOGD("%*sConcatMatrix %p: " SK_MATRIX_STRING,
	level * 2, "", mComputedFields.mTransformMatrix, SK_MATRIX_ARGS(mComputedFields.mTransformMatrix));
	}
	}

	bool clipToBoundsNeeded = mPrimitiveFields.mCaching ? false : mPrimitiveFields.mClipToBounds;
	if (mPrimitiveFields.mAlpha < 1) {
	if (mPrimitiveFields.mCaching) {
	ALOGD("%sSetOverrideLayerAlpha %.2f", level 2, "", mPrimitiveFields.mAlpha);
	} else if (!mPrimitiveFields.mHasOverlappingRendering) {
	ALOGD("%sScaleAlpha %.2f", level 2, "", mPrimitiveFields.mAlpha);
	} else {
	int flags = SkCanvas::kHasAlphaLayer_SaveFlag;
	if (clipToBoundsNeeded) {
	flags \|= SkCanvas::kClipToLayer_SaveFlag;
	clipToBoundsNeeded = false; // clipping done by save layer
	}
	ALOGD("%sSaveLayerAlpha %d, %d, %d, %d, %d, 0x%x", level 2, "",
	0, 0, getWidth(), getHeight(),
	(int)(mPrimitiveFields.mAlpha * 255), flags);
	}
	}
	if (clipToBoundsNeeded) {
	ALOGD("%sClipRect %d, %d, %d, %d", level 2, "",
	0, 0, getWidth(), getHeight());
	}
	}

	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;
	}
	}

	void RenderProperties::updateClipPath() {
	const SkPath* outlineClipPath = mPrimitiveFields.mOutline.willClip()
	? mPrimitiveFields.mOutline.getPath() : NULL;
	const SkPath* revealClipPath = mPrimitiveFields.mRevealClip.getPath();

	if (!outlineClipPath && !revealClipPath) {
	// mComputedFields.mClipPath doesn't need to be updated, since it won't be used
	return;
	}

	if (mComputedFields.mClipPath == NULL) {
	mComputedFields.mClipPath = new SkPath();
	}
	SkPath* clipPath = mComputedFields.mClipPath;
	mComputedFields.mClipPathOp = SkRegion::kIntersect_Op;

	if (outlineClipPath && revealClipPath) {
	SkPathOp op = kIntersect_PathOp;
	if (mPrimitiveFields.mRevealClip.isInverseClip()) {
	op = kDifference_PathOp; // apply difference step in the Op below, instead of draw time
	}

	Op(outlineClipPath, revealClipPath, op, clipPath);
	} else if (outlineClipPath) {
	clipPath = outlineClipPath;
	} else {
	clipPath = revealClipPath;
	if (mPrimitiveFields.mRevealClip.isInverseClip()) {
	// apply difference step at draw time
	mComputedFields.mClipPathOp = SkRegion::kDifference_Op;
	}
	}
	}

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