/* * Copyright (C) 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You 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. */ #ifndef RENDERNODEPROPERTIES_H_ #define RENDERNODEPROPERTIES_H_ #include #include #include #include #include #include #define TRANSLATION 0x0001 #define ROTATION 0x0002 #define ROTATION_3D 0x0004 #define SCALE 0x0008 #define PIVOT 0x0010 class SkBitmap; class SkPaint; class SkRegion; namespace android { namespace uirenderer { class Matrix4; class RenderNode; /* * Data structure that holds the properties for a RenderNode */ class RenderProperties { public: RenderProperties(); virtual ~RenderProperties(); void setClipToBounds(bool clipToBounds) { mClipToBounds = clipToBounds; } void setProjectBackwards(bool shouldProject) { mProjectBackwards = shouldProject; } void setProjectionReceiver(bool shouldRecieve) { mProjectionReceiver = shouldRecieve; } bool isProjectionReceiver() { return mProjectionReceiver; } void setOutline(const SkPath* outline) { if (!outline) { mOutline.reset(); } else { mOutline = *outline; } } void setClipToOutline(bool clipToOutline) { mClipToOutline = clipToOutline; } void setStaticMatrix(SkMatrix* matrix) { delete mStaticMatrix; mStaticMatrix = new SkMatrix(*matrix); } // Can return NULL SkMatrix* getStaticMatrix() { return mStaticMatrix; } void setAnimationMatrix(SkMatrix* matrix) { delete mAnimationMatrix; if (matrix) { mAnimationMatrix = new SkMatrix(*matrix); } else { mAnimationMatrix = NULL; } } void setAlpha(float alpha) { alpha = fminf(1.0f, fmaxf(0.0f, alpha)); if (alpha != mAlpha) { mAlpha = alpha; } } float getAlpha() const { return mAlpha; } void setHasOverlappingRendering(bool hasOverlappingRendering) { mHasOverlappingRendering = hasOverlappingRendering; } bool hasOverlappingRendering() const { return mHasOverlappingRendering; } void setTranslationX(float translationX) { if (translationX != mTranslationX) { mTranslationX = translationX; onTranslationUpdate(); } } float getTranslationX() const { return mTranslationX; } void setTranslationY(float translationY) { if (translationY != mTranslationY) { mTranslationY = translationY; onTranslationUpdate(); } } float getTranslationY() const { return mTranslationY; } void setTranslationZ(float translationZ) { if (translationZ != mTranslationZ) { mTranslationZ = translationZ; onTranslationUpdate(); } } float getTranslationZ() const { return mTranslationZ; } void setRotation(float rotation) { if (rotation != mRotation) { mRotation = rotation; mMatrixDirty = true; if (mRotation == 0.0f) { mMatrixFlags &= ~ROTATION; } else { mMatrixFlags |= ROTATION; } } } float getRotation() const { return mRotation; } void setRotationX(float rotationX) { if (rotationX != mRotationX) { mRotationX = rotationX; mMatrixDirty = true; if (mRotationX == 0.0f && mRotationY == 0.0f) { mMatrixFlags &= ~ROTATION_3D; } else { mMatrixFlags |= ROTATION_3D; } } } float getRotationX() const { return mRotationX; } void setRotationY(float rotationY) { if (rotationY != mRotationY) { mRotationY = rotationY; mMatrixDirty = true; if (mRotationX == 0.0f && mRotationY == 0.0f) { mMatrixFlags &= ~ROTATION_3D; } else { mMatrixFlags |= ROTATION_3D; } } } float getRotationY() const { return mRotationY; } void setScaleX(float scaleX) { if (scaleX != mScaleX) { mScaleX = scaleX; mMatrixDirty = true; if (mScaleX == 1.0f && mScaleY == 1.0f) { mMatrixFlags &= ~SCALE; } else { mMatrixFlags |= SCALE; } } } float getScaleX() const { return mScaleX; } void setScaleY(float scaleY) { if (scaleY != mScaleY) { mScaleY = scaleY; mMatrixDirty = true; if (mScaleX == 1.0f && mScaleY == 1.0f) { mMatrixFlags &= ~SCALE; } else { mMatrixFlags |= SCALE; } } } float getScaleY() const { return mScaleY; } void setPivotX(float pivotX) { mPivotX = pivotX; mMatrixDirty = true; if (mPivotX == 0.0f && mPivotY == 0.0f) { mMatrixFlags &= ~PIVOT; } else { mMatrixFlags |= PIVOT; } mPivotExplicitlySet = true; } ANDROID_API float getPivotX(); void setPivotY(float pivotY) { mPivotY = pivotY; mMatrixDirty = true; if (mPivotX == 0.0f && mPivotY == 0.0f) { mMatrixFlags &= ~PIVOT; } else { mMatrixFlags |= PIVOT; } mPivotExplicitlySet = true; } ANDROID_API float getPivotY(); void setCameraDistance(float distance) { if (distance != mCameraDistance) { mCameraDistance = distance; mMatrixDirty = true; if (!mTransformCamera) { mTransformCamera = new Sk3DView(); mTransformMatrix3D = new SkMatrix(); } mTransformCamera->setCameraLocation(0, 0, distance); } } float getCameraDistance() const { return mCameraDistance; } void setLeft(int left) { if (left != mLeft) { mLeft = left; mWidth = mRight - mLeft; if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) { mMatrixDirty = true; } } } float getLeft() const { return mLeft; } void setTop(int top) { if (top != mTop) { mTop = top; mHeight = mBottom - mTop; if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) { mMatrixDirty = true; } } } float getTop() const { return mTop; } void setRight(int right) { if (right != mRight) { mRight = right; mWidth = mRight - mLeft; if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) { mMatrixDirty = true; } } } float getRight() const { return mRight; } void setBottom(int bottom) { if (bottom != mBottom) { mBottom = bottom; mHeight = mBottom - mTop; if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) { mMatrixDirty = true; } } } float getBottom() const { return mBottom; } void setLeftTop(int left, int top) { if (left != mLeft || top != mTop) { mLeft = left; mTop = top; mWidth = mRight - mLeft; mHeight = mBottom - mTop; if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) { mMatrixDirty = true; } } } void setLeftTopRightBottom(int left, int top, int right, int bottom) { if (left != mLeft || top != mTop || right != mRight || bottom != mBottom) { mLeft = left; mTop = top; mRight = right; mBottom = bottom; mWidth = mRight - mLeft; mHeight = mBottom - mTop; if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) { mMatrixDirty = true; } } } void offsetLeftRight(float offset) { if (offset != 0) { mLeft += offset; mRight += offset; if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) { mMatrixDirty = true; } } } void offsetTopBottom(float offset) { if (offset != 0) { mTop += offset; mBottom += offset; if (mMatrixFlags > TRANSLATION && !mPivotExplicitlySet) { mMatrixDirty = true; } } } void setCaching(bool caching) { mCaching = caching; } int getWidth() { return mWidth; } int getHeight() { return mHeight; } private: void onTranslationUpdate() { mMatrixDirty = true; if (mTranslationX == 0.0f && mTranslationY == 0.0f && mTranslationZ == 0.0f) { mMatrixFlags &= ~TRANSLATION; } else { mMatrixFlags |= TRANSLATION; } } void updateMatrix(); // Rendering properties bool mClipToBounds; bool mProjectBackwards; bool mProjectionReceiver; SkPath mOutline; bool mClipToOutline; float mAlpha; bool mHasOverlappingRendering; float mTranslationX, mTranslationY, mTranslationZ; float mRotation, mRotationX, mRotationY; float mScaleX, mScaleY; float mPivotX, mPivotY; float mCameraDistance; int mLeft, mTop, mRight, mBottom; int mWidth, mHeight; int mPrevWidth, mPrevHeight; bool mPivotExplicitlySet; bool mMatrixDirty; bool mMatrixIsIdentity; /** * Stores the total transformation of the DisplayList based upon its scalar * translate/rotate/scale properties. * * In the common translation-only case, the matrix isn't allocated and the mTranslation * properties are used directly. */ Matrix4* mTransformMatrix; uint32_t mMatrixFlags; Sk3DView* mTransformCamera; SkMatrix* mTransformMatrix3D; SkMatrix* mStaticMatrix; SkMatrix* mAnimationMatrix; bool mCaching; friend class RenderNode; }; } /* namespace uirenderer */ } /* namespace android */ #endif /* RENDERNODEPROPERTIES_H_ */