921e6ac4b7
mostly refactored SurfaceFlinger.h, but also removed dead code. cleaned-up a few includes as well. Change-Id: Ib15f4ffe567912b61ee98aa076c6a283b72811b5
539 lines
15 KiB
C++
539 lines
15 KiB
C++
/*
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* Copyright (C) 2007 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include <stdlib.h>
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#include <stdint.h>
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#include <sys/types.h>
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#include <utils/Errors.h>
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#include <utils/Log.h>
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#include <binder/IPCThreadState.h>
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#include <binder/IServiceManager.h>
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#include <GLES/gl.h>
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#include <GLES/glext.h>
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#include <hardware/hardware.h>
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#include "clz.h"
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#include "Client.h"
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#include "LayerBase.h"
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#include "Layer.h"
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#include "SurfaceFlinger.h"
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#include "DisplayHardware.h"
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namespace android {
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// ---------------------------------------------------------------------------
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int32_t LayerBase::sSequence = 1;
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LayerBase::LayerBase(SurfaceFlinger* flinger, DisplayID display)
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: dpy(display), contentDirty(false),
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sequence(uint32_t(android_atomic_inc(&sSequence))),
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mFlinger(flinger), mFiltering(false),
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mNeedsFiltering(false),
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mTransactionFlags(0),
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mPremultipliedAlpha(true), mName("unnamed"), mDebug(false)
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{
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}
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LayerBase::~LayerBase()
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{
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}
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void LayerBase::setName(const String8& name) {
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mName = name;
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}
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String8 LayerBase::getName() const {
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return mName;
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}
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void LayerBase::initStates(uint32_t w, uint32_t h, uint32_t flags)
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{
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uint32_t layerFlags = 0;
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if (flags & ISurfaceComposer::eHidden)
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layerFlags = ISurfaceComposer::eLayerHidden;
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if (flags & ISurfaceComposer::eNonPremultiplied)
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mPremultipliedAlpha = false;
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mCurrentState.active.w = w;
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mCurrentState.active.h = h;
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mCurrentState.active.crop.makeInvalid();
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mCurrentState.z = 0;
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mCurrentState.alpha = 0xFF;
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mCurrentState.flags = layerFlags;
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mCurrentState.sequence = 0;
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mCurrentState.transform.set(0, 0);
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mCurrentState.requested = mCurrentState.active;
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// drawing state & current state are identical
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mDrawingState = mCurrentState;
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}
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void LayerBase::commitTransaction() {
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mDrawingState = mCurrentState;
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}
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void LayerBase::forceVisibilityTransaction() {
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// this can be called without SurfaceFlinger.mStateLock, but if we
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// can atomically increment the sequence number, it doesn't matter.
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android_atomic_inc(&mCurrentState.sequence);
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requestTransaction();
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}
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bool LayerBase::requestTransaction() {
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int32_t old = setTransactionFlags(eTransactionNeeded);
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return ((old & eTransactionNeeded) == 0);
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}
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uint32_t LayerBase::getTransactionFlags(uint32_t flags) {
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return android_atomic_and(~flags, &mTransactionFlags) & flags;
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}
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uint32_t LayerBase::setTransactionFlags(uint32_t flags) {
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return android_atomic_or(flags, &mTransactionFlags);
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}
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bool LayerBase::setPosition(float x, float y) {
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if (mCurrentState.transform.tx() == x && mCurrentState.transform.ty() == y)
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return false;
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mCurrentState.sequence++;
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mCurrentState.transform.set(x, y);
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requestTransaction();
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return true;
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}
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bool LayerBase::setLayer(uint32_t z) {
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if (mCurrentState.z == z)
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return false;
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mCurrentState.sequence++;
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mCurrentState.z = z;
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requestTransaction();
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return true;
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}
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bool LayerBase::setSize(uint32_t w, uint32_t h) {
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if (mCurrentState.requested.w == w && mCurrentState.requested.h == h)
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return false;
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mCurrentState.requested.w = w;
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mCurrentState.requested.h = h;
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requestTransaction();
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return true;
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}
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bool LayerBase::setAlpha(uint8_t alpha) {
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if (mCurrentState.alpha == alpha)
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return false;
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mCurrentState.sequence++;
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mCurrentState.alpha = alpha;
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requestTransaction();
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return true;
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}
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bool LayerBase::setMatrix(const layer_state_t::matrix22_t& matrix) {
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mCurrentState.sequence++;
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mCurrentState.transform.set(
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matrix.dsdx, matrix.dsdy, matrix.dtdx, matrix.dtdy);
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requestTransaction();
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return true;
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}
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bool LayerBase::setTransparentRegionHint(const Region& transparent) {
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mCurrentState.sequence++;
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mCurrentState.transparentRegion = transparent;
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requestTransaction();
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return true;
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}
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bool LayerBase::setFlags(uint8_t flags, uint8_t mask) {
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const uint32_t newFlags = (mCurrentState.flags & ~mask) | (flags & mask);
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if (mCurrentState.flags == newFlags)
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return false;
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mCurrentState.sequence++;
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mCurrentState.flags = newFlags;
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requestTransaction();
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return true;
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}
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bool LayerBase::setCrop(const Rect& crop) {
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if (mCurrentState.requested.crop == crop)
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return false;
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mCurrentState.sequence++;
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mCurrentState.requested.crop = crop;
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requestTransaction();
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return true;
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}
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void LayerBase::setVisibleRegion(const Region& visibleRegion) {
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// always called from main thread
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this->visibleRegion = visibleRegion;
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}
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void LayerBase::setCoveredRegion(const Region& coveredRegion) {
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// always called from main thread
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this->coveredRegion = coveredRegion;
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}
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uint32_t LayerBase::doTransaction(uint32_t flags)
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{
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const Layer::State& front(drawingState());
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const Layer::State& temp(currentState());
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// always set active to requested, unless we're asked not to
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// this is used by Layer, which special cases resizes.
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if (flags & eDontUpdateGeometryState) {
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} else {
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Layer::State& editTemp(currentState());
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editTemp.active = temp.requested;
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}
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if (front.active != temp.active) {
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// invalidate and recompute the visible regions if needed
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flags |= Layer::eVisibleRegion;
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}
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if (temp.sequence != front.sequence) {
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// invalidate and recompute the visible regions if needed
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flags |= eVisibleRegion;
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this->contentDirty = true;
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// we may use linear filtering, if the matrix scales us
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const uint8_t type = temp.transform.getType();
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mNeedsFiltering = (!temp.transform.preserveRects() ||
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(type >= Transform::SCALE));
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}
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// Commit the transaction
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commitTransaction();
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return flags;
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}
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void LayerBase::computeGeometry(const DisplayHardware& hw, LayerMesh* mesh) const
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{
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const Layer::State& s(drawingState());
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const Transform tr(hw.getTransform() * s.transform);
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const uint32_t hw_h = hw.getHeight();
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const Rect& crop(s.active.crop);
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Rect win(s.active.w, s.active.h);
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if (!crop.isEmpty()) {
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win.intersect(crop, &win);
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}
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if (mesh) {
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tr.transform(mesh->mVertices[0], win.left, win.top);
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tr.transform(mesh->mVertices[1], win.left, win.bottom);
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tr.transform(mesh->mVertices[2], win.right, win.bottom);
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tr.transform(mesh->mVertices[3], win.right, win.top);
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for (size_t i=0 ; i<4 ; i++) {
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mesh->mVertices[i][1] = hw_h - mesh->mVertices[i][1];
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}
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}
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}
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Rect LayerBase::computeBounds() const {
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const Layer::State& s(drawingState());
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const Rect& crop(s.active.crop);
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Rect win(s.active.w, s.active.h);
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if (!crop.isEmpty()) {
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win.intersect(crop, &win);
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}
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return s.transform.transform(win);
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}
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Region LayerBase::latchBuffer(bool& recomputeVisibleRegions) {
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Region result;
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return result;
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}
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void LayerBase::setGeometry(
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const DisplayHardware& hw,
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HWComposer::HWCLayerInterface& layer)
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{
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layer.setDefaultState();
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// this gives us only the "orientation" component of the transform
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const State& s(drawingState());
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const uint32_t finalTransform = s.transform.getOrientation();
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// we can only handle simple transformation
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if (finalTransform & Transform::ROT_INVALID) {
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layer.setTransform(0);
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} else {
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layer.setTransform(finalTransform);
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}
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if (!isOpaque()) {
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layer.setBlending(mPremultipliedAlpha ?
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HWC_BLENDING_PREMULT :
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HWC_BLENDING_COVERAGE);
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}
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const Transform& tr = hw.getTransform();
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Rect transformedBounds(computeBounds());
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transformedBounds = tr.transform(transformedBounds);
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// scaling is already applied in transformedBounds
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layer.setFrame(transformedBounds);
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layer.setCrop(transformedBounds.getBounds());
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layer.setVisibleRegionScreen(tr.transform(visibleRegion));
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}
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void LayerBase::setPerFrameData(HWComposer::HWCLayerInterface& layer) {
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layer.setBuffer(0);
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}
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void LayerBase::setAcquireFence(HWComposer::HWCLayerInterface& layer) {
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layer.setAcquireFenceFd(-1);
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}
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void LayerBase::setFiltering(bool filtering)
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{
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mFiltering = filtering;
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}
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bool LayerBase::getFiltering() const
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{
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return mFiltering;
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}
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void LayerBase::draw(const DisplayHardware& hw, const Region& clip) const
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{
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onDraw(hw, clip);
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}
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void LayerBase::drawForSreenShot(const DisplayHardware& hw)
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{
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setFiltering(true);
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onDraw( hw, Region(hw.bounds()) );
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setFiltering(false);
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}
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void LayerBase::clearWithOpenGL(const DisplayHardware& hw, const Region& clip,
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GLclampf red, GLclampf green, GLclampf blue, GLclampf alpha) const
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{
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const uint32_t fbHeight = hw.getHeight();
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glColor4f(red,green,blue,alpha);
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glDisable(GL_TEXTURE_EXTERNAL_OES);
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glDisable(GL_TEXTURE_2D);
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glDisable(GL_BLEND);
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LayerMesh mesh;
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computeGeometry(hw, &mesh);
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glVertexPointer(2, GL_FLOAT, 0, mesh.getVertices());
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glDrawArrays(GL_TRIANGLE_FAN, 0, mesh.getVertexCount());
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}
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void LayerBase::clearWithOpenGL(const DisplayHardware& hw, const Region& clip) const
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{
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clearWithOpenGL(hw, clip, 0,0,0,0);
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}
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void LayerBase::drawWithOpenGL(const DisplayHardware& hw, const Region& clip) const
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{
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const uint32_t fbHeight = hw.getHeight();
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const State& s(drawingState());
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GLenum src = mPremultipliedAlpha ? GL_ONE : GL_SRC_ALPHA;
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if (CC_UNLIKELY(s.alpha < 0xFF)) {
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const GLfloat alpha = s.alpha * (1.0f/255.0f);
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if (mPremultipliedAlpha) {
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glColor4f(alpha, alpha, alpha, alpha);
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} else {
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glColor4f(1, 1, 1, alpha);
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}
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glEnable(GL_BLEND);
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glBlendFunc(src, GL_ONE_MINUS_SRC_ALPHA);
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glTexEnvx(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_MODULATE);
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} else {
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glColor4f(1, 1, 1, 1);
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glTexEnvx(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_REPLACE);
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if (!isOpaque()) {
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glEnable(GL_BLEND);
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glBlendFunc(src, GL_ONE_MINUS_SRC_ALPHA);
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} else {
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glDisable(GL_BLEND);
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}
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}
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LayerMesh mesh;
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computeGeometry(hw, &mesh);
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// TODO: we probably want to generate the texture coords with the mesh
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// here we assume that we only have 4 vertices
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struct TexCoords {
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GLfloat u;
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GLfloat v;
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};
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Rect crop(s.active.w, s.active.h);
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if (!s.active.crop.isEmpty()) {
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crop = s.active.crop;
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}
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GLfloat left = GLfloat(crop.left) / GLfloat(s.active.w);
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GLfloat top = GLfloat(crop.top) / GLfloat(s.active.h);
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GLfloat right = GLfloat(crop.right) / GLfloat(s.active.w);
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GLfloat bottom = GLfloat(crop.bottom) / GLfloat(s.active.h);
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TexCoords texCoords[4];
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texCoords[0].u = left;
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texCoords[0].v = top;
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texCoords[1].u = left;
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texCoords[1].v = bottom;
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texCoords[2].u = right;
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texCoords[2].v = bottom;
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texCoords[3].u = right;
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texCoords[3].v = top;
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for (int i = 0; i < 4; i++) {
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texCoords[i].v = 1.0f - texCoords[i].v;
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}
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glEnableClientState(GL_TEXTURE_COORD_ARRAY);
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glTexCoordPointer(2, GL_FLOAT, 0, texCoords);
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glVertexPointer(2, GL_FLOAT, 0, mesh.getVertices());
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glDrawArrays(GL_TRIANGLE_FAN, 0, mesh.getVertexCount());
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glDisableClientState(GL_TEXTURE_COORD_ARRAY);
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glDisable(GL_BLEND);
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}
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void LayerBase::dump(String8& result, char* buffer, size_t SIZE) const
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{
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const Layer::State& s(drawingState());
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snprintf(buffer, SIZE,
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"+ %s %p (%s)\n",
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getTypeId(), this, getName().string());
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result.append(buffer);
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s.transparentRegion.dump(result, "transparentRegion");
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visibleRegion.dump(result, "visibleRegion");
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snprintf(buffer, SIZE,
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" "
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"z=%9d, pos=(%g,%g), size=(%4d,%4d), crop=(%4d,%4d,%4d,%4d), "
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"isOpaque=%1d, needsDithering=%1d, invalidate=%1d, "
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"alpha=0x%02x, flags=0x%08x, tr=[%.2f, %.2f][%.2f, %.2f]\n",
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s.z, s.transform.tx(), s.transform.ty(), s.active.w, s.active.h,
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s.active.crop.left, s.active.crop.top,
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s.active.crop.right, s.active.crop.bottom,
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isOpaque(), needsDithering(), contentDirty,
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s.alpha, s.flags,
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s.transform[0][0], s.transform[0][1],
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s.transform[1][0], s.transform[1][1]);
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result.append(buffer);
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}
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void LayerBase::shortDump(String8& result, char* scratch, size_t size) const {
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LayerBase::dump(result, scratch, size);
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}
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void LayerBase::dumpStats(String8& result, char* scratch, size_t SIZE) const {
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}
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void LayerBase::clearStats() {
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}
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sp<LayerBaseClient> LayerBase::getLayerBaseClient() const {
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return 0;
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}
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sp<Layer> LayerBase::getLayer() const {
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return 0;
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}
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// ---------------------------------------------------------------------------
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int32_t LayerBaseClient::sIdentity = 1;
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LayerBaseClient::LayerBaseClient(SurfaceFlinger* flinger, DisplayID display,
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const sp<Client>& client)
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: LayerBase(flinger, display),
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mHasSurface(false),
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mClientRef(client),
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mIdentity(uint32_t(android_atomic_inc(&sIdentity)))
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{
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}
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LayerBaseClient::~LayerBaseClient()
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{
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sp<Client> c(mClientRef.promote());
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if (c != 0) {
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c->detachLayer(this);
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}
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}
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sp<ISurface> LayerBaseClient::createSurface()
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{
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class BSurface : public BnSurface, public LayerCleaner {
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virtual sp<ISurfaceTexture> getSurfaceTexture() const { return 0; }
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public:
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BSurface(const sp<SurfaceFlinger>& flinger,
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const sp<LayerBaseClient>& layer)
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: LayerCleaner(flinger, layer) { }
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};
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sp<ISurface> sur(new BSurface(mFlinger, this));
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return sur;
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}
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sp<ISurface> LayerBaseClient::getSurface()
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{
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sp<ISurface> s;
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Mutex::Autolock _l(mLock);
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LOG_ALWAYS_FATAL_IF(mHasSurface,
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"LayerBaseClient::getSurface() has already been called");
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mHasSurface = true;
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s = createSurface();
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mClientSurfaceBinder = s->asBinder();
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return s;
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}
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wp<IBinder> LayerBaseClient::getSurfaceBinder() const {
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return mClientSurfaceBinder;
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}
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wp<IBinder> LayerBaseClient::getSurfaceTextureBinder() const {
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return 0;
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}
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void LayerBaseClient::dump(String8& result, char* buffer, size_t SIZE) const
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{
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LayerBase::dump(result, buffer, SIZE);
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sp<Client> client(mClientRef.promote());
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snprintf(buffer, SIZE,
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" client=%p, identity=%u\n",
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client.get(), getIdentity());
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result.append(buffer);
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}
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void LayerBaseClient::shortDump(String8& result, char* scratch, size_t size) const
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{
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LayerBaseClient::dump(result, scratch, size);
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}
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|
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// ---------------------------------------------------------------------------
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LayerBaseClient::LayerCleaner::LayerCleaner(const sp<SurfaceFlinger>& flinger,
|
|
const sp<LayerBaseClient>& layer)
|
|
: mFlinger(flinger), mLayer(layer) {
|
|
}
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|
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LayerBaseClient::LayerCleaner::~LayerCleaner() {
|
|
// destroy client resources
|
|
mFlinger->onLayerDestroyed(mLayer);
|
|
}
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// ---------------------------------------------------------------------------
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|
|
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}; // namespace android
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