Juby210
/
discord-jadx
1
0
Fork 1
Code Issues Pull Requests Projects Releases Activity
discord-jadx/app/src/main/java/androidx/constraintlayout/solver/widgets/ConstraintWidgetContainer.java

775 lines
34 KiB
Java
Raw Blame History

package androidx.constraintlayout.solver.widgets;
import androidx.constraintlayout.solver.LinearSystem;
import androidx.constraintlayout.solver.Metrics;
import androidx.constraintlayout.solver.SolverVariable;
import androidx.constraintlayout.solver.widgets.ConstraintWidget;
import androidx.constraintlayout.solver.widgets.analyzer.BasicMeasure;
import androidx.constraintlayout.solver.widgets.analyzer.DependencyGraph;
import androidx.constraintlayout.solver.widgets.analyzer.Direct;
import androidx.constraintlayout.solver.widgets.analyzer.Grouping;
import java.lang.ref.WeakReference;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashSet;
import java.util.Iterator;
public class ConstraintWidgetContainer extends WidgetContainer {
private static final boolean DEBUG = false;
public static final boolean DEBUG_GRAPH = false;
private static final boolean DEBUG_LAYOUT = false;
private static final int MAX_ITERATIONS = 8;
public static int mycounter;
private WeakReference<ConstraintAnchor> horizontalWrapMax;
private WeakReference<ConstraintAnchor> horizontalWrapMin;
public BasicMeasure mBasicMeasureSolver;
public int mDebugSolverPassCount;
public DependencyGraph mDependencyGraph;
public boolean mGroupsWrapOptimized;
private boolean mHeightMeasuredTooSmall;
public ChainHead[] mHorizontalChainsArray;
public int mHorizontalChainsSize;
public boolean mHorizontalWrapOptimized;
private boolean mIsRtl;
public BasicMeasure.Measure mMeasure;
public BasicMeasure.Measurer mMeasurer;
public Metrics mMetrics;
private int mOptimizationLevel;
public int mPaddingBottom;
public int mPaddingLeft;
public int mPaddingRight;
public int mPaddingTop;
public boolean mSkipSolver;
public LinearSystem mSystem;
public ChainHead[] mVerticalChainsArray;
public int mVerticalChainsSize;
public boolean mVerticalWrapOptimized;
private boolean mWidthMeasuredTooSmall;
public int mWrapFixedHeight;
public int mWrapFixedWidth;
private WeakReference<ConstraintAnchor> verticalWrapMax;
private WeakReference<ConstraintAnchor> verticalWrapMin;
public ConstraintWidgetContainer() {
this.mBasicMeasureSolver = new BasicMeasure(this);
this.mDependencyGraph = new DependencyGraph(this);
this.mMeasurer = null;
this.mIsRtl = false;
this.mSystem = new LinearSystem();
this.mHorizontalChainsSize = 0;
this.mVerticalChainsSize = 0;
this.mVerticalChainsArray = new ChainHead[4];
this.mHorizontalChainsArray = new ChainHead[4];
this.mGroupsWrapOptimized = false;
this.mHorizontalWrapOptimized = false;
this.mVerticalWrapOptimized = false;
this.mWrapFixedWidth = 0;
this.mWrapFixedHeight = 0;
this.mOptimizationLevel = 257;
this.mSkipSolver = false;
this.mWidthMeasuredTooSmall = false;
this.mHeightMeasuredTooSmall = false;
this.mDebugSolverPassCount = 0;
this.verticalWrapMin = null;
this.horizontalWrapMin = null;
this.verticalWrapMax = null;
this.horizontalWrapMax = null;
this.mMeasure = new BasicMeasure.Measure();
}
public ConstraintWidgetContainer(int i, int i2) {
super(i, i2);
this.mBasicMeasureSolver = new BasicMeasure(this);
this.mDependencyGraph = new DependencyGraph(this);
this.mMeasurer = null;
this.mIsRtl = false;
this.mSystem = new LinearSystem();
this.mHorizontalChainsSize = 0;
this.mVerticalChainsSize = 0;
this.mVerticalChainsArray = new ChainHead[4];
this.mHorizontalChainsArray = new ChainHead[4];
this.mGroupsWrapOptimized = false;
this.mHorizontalWrapOptimized = false;
this.mVerticalWrapOptimized = false;
this.mWrapFixedWidth = 0;
this.mWrapFixedHeight = 0;
this.mOptimizationLevel = 257;
this.mSkipSolver = false;
this.mWidthMeasuredTooSmall = false;
this.mHeightMeasuredTooSmall = false;
this.mDebugSolverPassCount = 0;
this.verticalWrapMin = null;
this.horizontalWrapMin = null;
this.verticalWrapMax = null;
this.horizontalWrapMax = null;
this.mMeasure = new BasicMeasure.Measure();
}
public ConstraintWidgetContainer(int i, int i2, int i3, int i4) {
super(i, i2, i3, i4);
this.mBasicMeasureSolver = new BasicMeasure(this);
this.mDependencyGraph = new DependencyGraph(this);
this.mMeasurer = null;
this.mIsRtl = false;
this.mSystem = new LinearSystem();
this.mHorizontalChainsSize = 0;
this.mVerticalChainsSize = 0;
this.mVerticalChainsArray = new ChainHead[4];
this.mHorizontalChainsArray = new ChainHead[4];
this.mGroupsWrapOptimized = false;
this.mHorizontalWrapOptimized = false;
this.mVerticalWrapOptimized = false;
this.mWrapFixedWidth = 0;
this.mWrapFixedHeight = 0;
this.mOptimizationLevel = 257;
this.mSkipSolver = false;
this.mWidthMeasuredTooSmall = false;
this.mHeightMeasuredTooSmall = false;
this.mDebugSolverPassCount = 0;
this.verticalWrapMin = null;
this.horizontalWrapMin = null;
this.verticalWrapMax = null;
this.horizontalWrapMax = null;
this.mMeasure = new BasicMeasure.Measure();
}
public ConstraintWidgetContainer(String str, int i, int i2) {
super(i, i2);
this.mBasicMeasureSolver = new BasicMeasure(this);
this.mDependencyGraph = new DependencyGraph(this);
this.mMeasurer = null;
this.mIsRtl = false;
this.mSystem = new LinearSystem();
this.mHorizontalChainsSize = 0;
this.mVerticalChainsSize = 0;
this.mVerticalChainsArray = new ChainHead[4];
this.mHorizontalChainsArray = new ChainHead[4];
this.mGroupsWrapOptimized = false;
this.mHorizontalWrapOptimized = false;
this.mVerticalWrapOptimized = false;
this.mWrapFixedWidth = 0;
this.mWrapFixedHeight = 0;
this.mOptimizationLevel = 257;
this.mSkipSolver = false;
this.mWidthMeasuredTooSmall = false;
this.mHeightMeasuredTooSmall = false;
this.mDebugSolverPassCount = 0;
this.verticalWrapMin = null;
this.horizontalWrapMin = null;
this.verticalWrapMax = null;
this.horizontalWrapMax = null;
this.mMeasure = new BasicMeasure.Measure();
setDebugName(str);
}
private void addHorizontalChain(ConstraintWidget constraintWidget) {
int i = this.mHorizontalChainsSize + 1;
ChainHead[] chainHeadArr = this.mHorizontalChainsArray;
if (i >= chainHeadArr.length) {
this.mHorizontalChainsArray = (ChainHead[]) Arrays.copyOf(chainHeadArr, chainHeadArr.length * 2);
}
this.mHorizontalChainsArray[this.mHorizontalChainsSize] = new ChainHead(constraintWidget, 0, isRtl());
this.mHorizontalChainsSize++;
}
private void addMaxWrap(ConstraintAnchor constraintAnchor, SolverVariable solverVariable) {
this.mSystem.addGreaterThan(solverVariable, this.mSystem.createObjectVariable(constraintAnchor), 0, 5);
}
private void addMinWrap(ConstraintAnchor constraintAnchor, SolverVariable solverVariable) {
this.mSystem.addGreaterThan(this.mSystem.createObjectVariable(constraintAnchor), solverVariable, 0, 5);
}
private void addVerticalChain(ConstraintWidget constraintWidget) {
int i = this.mVerticalChainsSize + 1;
ChainHead[] chainHeadArr = this.mVerticalChainsArray;
if (i >= chainHeadArr.length) {
this.mVerticalChainsArray = (ChainHead[]) Arrays.copyOf(chainHeadArr, chainHeadArr.length * 2);
}
this.mVerticalChainsArray[this.mVerticalChainsSize] = new ChainHead(constraintWidget, 1, isRtl());
this.mVerticalChainsSize++;
}
public static boolean measure(ConstraintWidget constraintWidget, BasicMeasure.Measurer measurer, BasicMeasure.Measure measure, int i) {
int i2;
int i3;
if (measurer == null) {
return false;
}
measure.horizontalBehavior = constraintWidget.getHorizontalDimensionBehaviour();
measure.verticalBehavior = constraintWidget.getVerticalDimensionBehaviour();
measure.horizontalDimension = constraintWidget.getWidth();
measure.verticalDimension = constraintWidget.getHeight();
measure.measuredNeedsSolverPass = false;
measure.measureStrategy = i;
ConstraintWidget.DimensionBehaviour dimensionBehaviour = measure.horizontalBehavior;
ConstraintWidget.DimensionBehaviour dimensionBehaviour2 = ConstraintWidget.DimensionBehaviour.MATCH_CONSTRAINT;
boolean z2 = dimensionBehaviour == dimensionBehaviour2;
boolean z3 = measure.verticalBehavior == dimensionBehaviour2;
boolean z4 = z2 && constraintWidget.mDimensionRatio > 0.0f;
boolean z5 = z3 && constraintWidget.mDimensionRatio > 0.0f;
if (z2 && constraintWidget.hasDanglingDimension(0) && constraintWidget.mMatchConstraintDefaultWidth == 0 && !z4) {
measure.horizontalBehavior = ConstraintWidget.DimensionBehaviour.WRAP_CONTENT;
if (z3 && constraintWidget.mMatchConstraintDefaultHeight == 0) {
measure.horizontalBehavior = ConstraintWidget.DimensionBehaviour.FIXED;
}
z2 = false;
}
if (z3 && constraintWidget.hasDanglingDimension(1) && constraintWidget.mMatchConstraintDefaultHeight == 0 && !z5) {
measure.verticalBehavior = ConstraintWidget.DimensionBehaviour.WRAP_CONTENT;
if (z2 && constraintWidget.mMatchConstraintDefaultWidth == 0) {
measure.verticalBehavior = ConstraintWidget.DimensionBehaviour.FIXED;
}
z3 = false;
}
if (constraintWidget.isResolvedHorizontally()) {
measure.horizontalBehavior = ConstraintWidget.DimensionBehaviour.FIXED;
z2 = false;
}
if (constraintWidget.isResolvedVertically()) {
measure.verticalBehavior = ConstraintWidget.DimensionBehaviour.FIXED;
z3 = false;
}
if (z4) {
if (constraintWidget.mResolvedMatchConstraintDefault[0] == 4) {
measure.horizontalBehavior = ConstraintWidget.DimensionBehaviour.FIXED;
} else if (!z3) {
ConstraintWidget.DimensionBehaviour dimensionBehaviour3 = measure.verticalBehavior;
ConstraintWidget.DimensionBehaviour dimensionBehaviour4 = ConstraintWidget.DimensionBehaviour.FIXED;
if (dimensionBehaviour3 == dimensionBehaviour4) {
i3 = measure.verticalDimension;
} else {
measure.horizontalBehavior = ConstraintWidget.DimensionBehaviour.WRAP_CONTENT;
measurer.measure(constraintWidget, measure);
i3 = measure.measuredHeight;
}
measure.horizontalBehavior = dimensionBehaviour4;
int i4 = constraintWidget.mDimensionRatioSide;
if (i4 == 0 || i4 == -1) {
measure.horizontalDimension = (int) (constraintWidget.getDimensionRatio() * ((float) i3));
} else {
measure.horizontalDimension = (int) (constraintWidget.getDimensionRatio() / ((float) i3));
}
}
}
if (z5) {
if (constraintWidget.mResolvedMatchConstraintDefault[1] == 4) {
measure.verticalBehavior = ConstraintWidget.DimensionBehaviour.FIXED;
} else if (!z2) {
ConstraintWidget.DimensionBehaviour dimensionBehaviour5 = measure.horizontalBehavior;
ConstraintWidget.DimensionBehaviour dimensionBehaviour6 = ConstraintWidget.DimensionBehaviour.FIXED;
if (dimensionBehaviour5 == dimensionBehaviour6) {
i2 = measure.horizontalDimension;
} else {
measure.verticalBehavior = ConstraintWidget.DimensionBehaviour.WRAP_CONTENT;
measurer.measure(constraintWidget, measure);
i2 = measure.measuredWidth;
}
measure.verticalBehavior = dimensionBehaviour6;
int i5 = constraintWidget.mDimensionRatioSide;
if (i5 == 0 || i5 == -1) {
measure.verticalDimension = (int) (((float) i2) / constraintWidget.getDimensionRatio());
} else {
measure.verticalDimension = (int) (constraintWidget.getDimensionRatio() * ((float) i2));
}
}
}
measurer.measure(constraintWidget, measure);
constraintWidget.setWidth(measure.measuredWidth);
constraintWidget.setHeight(measure.measuredHeight);
constraintWidget.setHasBaseline(measure.measuredHasBaseline);
constraintWidget.setBaselineDistance(measure.measuredBaseline);
measure.measureStrategy = BasicMeasure.Measure.SELF_DIMENSIONS;
return measure.measuredNeedsSolverPass;
}
private void resetChains() {
this.mHorizontalChainsSize = 0;
this.mVerticalChainsSize = 0;
}
public void addChain(ConstraintWidget constraintWidget, int i) {
if (i == 0) {
addHorizontalChain(constraintWidget);
} else if (i == 1) {
addVerticalChain(constraintWidget);
}
}
public boolean addChildrenToSolver(LinearSystem linearSystem) {
boolean optimizeFor = optimizeFor(64);
addToSolver(linearSystem, optimizeFor);
int size = this.mChildren.size();
boolean z2 = false;
for (int i = 0; i < size; i++) {
ConstraintWidget constraintWidget = this.mChildren.get(i);
constraintWidget.setInBarrier(0, false);
constraintWidget.setInBarrier(1, false);
if (constraintWidget instanceof Barrier) {
z2 = true;
}
}
if (z2) {
for (int i2 = 0; i2 < size; i2++) {
ConstraintWidget constraintWidget2 = this.mChildren.get(i2);
if (constraintWidget2 instanceof Barrier) {
((Barrier) constraintWidget2).markWidgets();
}
}
}
for (int i3 = 0; i3 < size; i3++) {
ConstraintWidget constraintWidget3 = this.mChildren.get(i3);
if (constraintWidget3.addFirst()) {
constraintWidget3.addToSolver(linearSystem, optimizeFor);
}
}
if (LinearSystem.USE_DEPENDENCY_ORDERING) {
HashSet<ConstraintWidget> hashSet = new HashSet<>();
for (int i4 = 0; i4 < size; i4++) {
ConstraintWidget constraintWidget4 = this.mChildren.get(i4);
if (!constraintWidget4.addFirst()) {
hashSet.add(constraintWidget4);
}
}
addChildrenToSolverByDependency(this, linearSystem, hashSet, getHorizontalDimensionBehaviour() == ConstraintWidget.DimensionBehaviour.WRAP_CONTENT ? 0 : 1, false);
Iterator<ConstraintWidget> it = hashSet.iterator();
while (it.hasNext()) {
ConstraintWidget next = it.next();
Optimizer.checkMatchParent(this, linearSystem, next);
next.addToSolver(linearSystem, optimizeFor);
}
} else {
for (int i5 = 0; i5 < size; i5++) {
ConstraintWidget constraintWidget5 = this.mChildren.get(i5);
if (constraintWidget5 instanceof ConstraintWidgetContainer) {
ConstraintWidget.DimensionBehaviour[] dimensionBehaviourArr = constraintWidget5.mListDimensionBehaviors;
ConstraintWidget.DimensionBehaviour dimensionBehaviour = dimensionBehaviourArr[0];
ConstraintWidget.DimensionBehaviour dimensionBehaviour2 = dimensionBehaviourArr[1];
ConstraintWidget.DimensionBehaviour dimensionBehaviour3 = ConstraintWidget.DimensionBehaviour.WRAP_CONTENT;
if (dimensionBehaviour == dimensionBehaviour3) {
constraintWidget5.setHorizontalDimensionBehaviour(ConstraintWidget.DimensionBehaviour.FIXED);
}
if (dimensionBehaviour2 == dimensionBehaviour3) {
constraintWidget5.setVerticalDimensionBehaviour(ConstraintWidget.DimensionBehaviour.FIXED);
}
constraintWidget5.addToSolver(linearSystem, optimizeFor);
if (dimensionBehaviour == dimensionBehaviour3) {
constraintWidget5.setHorizontalDimensionBehaviour(dimensionBehaviour);
}
if (dimensionBehaviour2 == dimensionBehaviour3) {
constraintWidget5.setVerticalDimensionBehaviour(dimensionBehaviour2);
}
} else {
Optimizer.checkMatchParent(this, linearSystem, constraintWidget5);
if (!constraintWidget5.addFirst()) {
constraintWidget5.addToSolver(linearSystem, optimizeFor);
}
}
}
}
if (this.mHorizontalChainsSize > 0) {
Chain.applyChainConstraints(this, linearSystem, null, 0);
}
if (this.mVerticalChainsSize > 0) {
Chain.applyChainConstraints(this, linearSystem, null, 1);
}
return true;
}
public void addHorizontalWrapMaxVariable(ConstraintAnchor constraintAnchor) {
WeakReference<ConstraintAnchor> weakReference = this.horizontalWrapMax;
if (weakReference == null || weakReference.get() == null || constraintAnchor.getFinalValue() > this.horizontalWrapMax.get().getFinalValue()) {
this.horizontalWrapMax = new WeakReference<>(constraintAnchor);
}
}
public void addHorizontalWrapMinVariable(ConstraintAnchor constraintAnchor) {
WeakReference<ConstraintAnchor> weakReference = this.horizontalWrapMin;
if (weakReference == null || weakReference.get() == null || constraintAnchor.getFinalValue() > this.horizontalWrapMin.get().getFinalValue()) {
this.horizontalWrapMin = new WeakReference<>(constraintAnchor);
}
}
public void addVerticalWrapMaxVariable(ConstraintAnchor constraintAnchor) {
WeakReference<ConstraintAnchor> weakReference = this.verticalWrapMax;
if (weakReference == null || weakReference.get() == null || constraintAnchor.getFinalValue() > this.verticalWrapMax.get().getFinalValue()) {
this.verticalWrapMax = new WeakReference<>(constraintAnchor);
}
}
public void addVerticalWrapMinVariable(ConstraintAnchor constraintAnchor) {
WeakReference<ConstraintAnchor> weakReference = this.verticalWrapMin;
if (weakReference == null || weakReference.get() == null || constraintAnchor.getFinalValue() > this.verticalWrapMin.get().getFinalValue()) {
this.verticalWrapMin = new WeakReference<>(constraintAnchor);
}
}
public void defineTerminalWidgets() {
this.mDependencyGraph.defineTerminalWidgets(getHorizontalDimensionBehaviour(), getVerticalDimensionBehaviour());
}
public boolean directMeasure(boolean z2) {
return this.mDependencyGraph.directMeasure(z2);
}
public boolean directMeasureSetup(boolean z2) {
return this.mDependencyGraph.directMeasureSetup(z2);
}
public boolean directMeasureWithOrientation(boolean z2, int i) {
return this.mDependencyGraph.directMeasureWithOrientation(z2, i);
}
public void fillMetrics(Metrics metrics) {
this.mMetrics = metrics;
this.mSystem.fillMetrics(metrics);
}
public ArrayList<Guideline> getHorizontalGuidelines() {
ArrayList<Guideline> arrayList = new ArrayList<>();
int size = this.mChildren.size();
for (int i = 0; i < size; i++) {
ConstraintWidget constraintWidget = this.mChildren.get(i);
if (constraintWidget instanceof Guideline) {
Guideline guideline = (Guideline) constraintWidget;
if (guideline.getOrientation() == 0) {
arrayList.add(guideline);
}
}
}
return arrayList;
}
public BasicMeasure.Measurer getMeasurer() {
return this.mMeasurer;
}
public int getOptimizationLevel() {
return this.mOptimizationLevel;
}
public LinearSystem getSystem() {
return this.mSystem;
}
@Override // androidx.constraintlayout.solver.widgets.ConstraintWidget
public String getType() {
return "ConstraintLayout";
}
public ArrayList<Guideline> getVerticalGuidelines() {
ArrayList<Guideline> arrayList = new ArrayList<>();
int size = this.mChildren.size();
for (int i = 0; i < size; i++) {
ConstraintWidget constraintWidget = this.mChildren.get(i);
if (constraintWidget instanceof Guideline) {
Guideline guideline = (Guideline) constraintWidget;
if (guideline.getOrientation() == 1) {
arrayList.add(guideline);
}
}
}
return arrayList;
}
public boolean handlesInternalConstraints() {
return false;
}
public void invalidateGraph() {
this.mDependencyGraph.invalidateGraph();
}
public void invalidateMeasures() {
this.mDependencyGraph.invalidateMeasures();
}
public boolean isHeightMeasuredTooSmall() {
return this.mHeightMeasuredTooSmall;
}
public boolean isRtl() {
return this.mIsRtl;
}
public boolean isWidthMeasuredTooSmall() {
return this.mWidthMeasuredTooSmall;
}
/* JADX WARNING: Unknown variable types count: 1 */
@Override // androidx.constraintlayout.solver.widgets.WidgetContainer
public void layout() {
int i;
int i2;
boolean z2;
boolean z3;
?? r6;
boolean z4;
ConstraintWidget.DimensionBehaviour dimensionBehaviour;
this.mX = 0;
this.mY = 0;
this.mWidthMeasuredTooSmall = false;
this.mHeightMeasuredTooSmall = false;
int size = this.mChildren.size();
int max = Math.max(0, getWidth());
int max2 = Math.max(0, getHeight());
ConstraintWidget.DimensionBehaviour[] dimensionBehaviourArr = this.mListDimensionBehaviors;
ConstraintWidget.DimensionBehaviour dimensionBehaviour2 = dimensionBehaviourArr[1];
ConstraintWidget.DimensionBehaviour dimensionBehaviour3 = dimensionBehaviourArr[0];
Metrics metrics = this.mMetrics;
if (metrics != null) {
metrics.layouts++;
}
if (Optimizer.enabled(this.mOptimizationLevel, 1)) {
Direct.solvingPass(this, getMeasurer());
for (int i3 = 0; i3 < size; i3++) {
ConstraintWidget constraintWidget = this.mChildren.get(i3);
if (constraintWidget.isMeasureRequested() && !(constraintWidget instanceof Guideline) && !(constraintWidget instanceof Barrier) && !(constraintWidget instanceof VirtualLayout) && !constraintWidget.isInVirtualLayout()) {
ConstraintWidget.DimensionBehaviour dimensionBehaviour4 = constraintWidget.getDimensionBehaviour(0);
ConstraintWidget.DimensionBehaviour dimensionBehaviour5 = constraintWidget.getDimensionBehaviour(1);
ConstraintWidget.DimensionBehaviour dimensionBehaviour6 = ConstraintWidget.DimensionBehaviour.MATCH_CONSTRAINT;
if (!(dimensionBehaviour4 == dimensionBehaviour6 && constraintWidget.mMatchConstraintDefaultWidth != 1 && dimensionBehaviour5 == dimensionBehaviour6 && constraintWidget.mMatchConstraintDefaultHeight != 1)) {
measure(constraintWidget, this.mMeasurer, new BasicMeasure.Measure(), BasicMeasure.Measure.SELF_DIMENSIONS);
}
}
}
}
if (size <= 2 || (!(dimensionBehaviour3 == (dimensionBehaviour = ConstraintWidget.DimensionBehaviour.WRAP_CONTENT) || dimensionBehaviour2 == dimensionBehaviour) || !Optimizer.enabled(this.mOptimizationLevel, 1024) || !Grouping.simpleSolvingPass(this, getMeasurer()))) {
i = max2;
i2 = max;
z2 = false;
} else {
if (dimensionBehaviour3 == dimensionBehaviour) {
if (max >= getWidth() || max <= 0) {
max = getWidth();
} else {
setWidth(max);
this.mWidthMeasuredTooSmall = true;
}
}
if (dimensionBehaviour2 == dimensionBehaviour) {
if (max2 >= getHeight() || max2 <= 0) {
max2 = getHeight();
} else {
setHeight(max2);
this.mHeightMeasuredTooSmall = true;
}
}
i = max2;
i2 = max;
z2 = true;
}
boolean z5 = optimizeFor(64) || optimizeFor(128);
LinearSystem linearSystem = this.mSystem;
linearSystem.graphOptimizer = false;
linearSystem.newgraphOptimizer = false;
if (this.mOptimizationLevel != 0 && z5) {
linearSystem.newgraphOptimizer = true;
}
ArrayList<ConstraintWidget> arrayList = this.mChildren;
ConstraintWidget.DimensionBehaviour horizontalDimensionBehaviour = getHorizontalDimensionBehaviour();
ConstraintWidget.DimensionBehaviour dimensionBehaviour7 = ConstraintWidget.DimensionBehaviour.WRAP_CONTENT;
boolean z6 = horizontalDimensionBehaviour == dimensionBehaviour7 || getVerticalDimensionBehaviour() == dimensionBehaviour7;
resetChains();
for (int i4 = 0; i4 < size; i4++) {
ConstraintWidget constraintWidget2 = this.mChildren.get(i4);
if (constraintWidget2 instanceof WidgetContainer) {
((WidgetContainer) constraintWidget2).layout();
}
}
boolean optimizeFor = optimizeFor(64);
boolean z7 = z2;
int i5 = 0;
boolean z8 = true;
while (z8) {
int i6 = i5 + 1;
try {
this.mSystem.reset();
resetChains();
createObjectVariables(this.mSystem);
for (int i7 = 0; i7 < size; i7++) {
this.mChildren.get(i7).createObjectVariables(this.mSystem);
}
z8 = addChildrenToSolver(this.mSystem);
WeakReference<ConstraintAnchor> weakReference = this.verticalWrapMin;
if (!(weakReference == null || weakReference.get() == null)) {
addMinWrap(this.verticalWrapMin.get(), this.mSystem.createObjectVariable(this.mTop));
this.verticalWrapMin = null;
}
WeakReference<ConstraintAnchor> weakReference2 = this.verticalWrapMax;
if (!(weakReference2 == null || weakReference2.get() == null)) {
addMaxWrap(this.verticalWrapMax.get(), this.mSystem.createObjectVariable(this.mBottom));
this.verticalWrapMax = null;
}
WeakReference<ConstraintAnchor> weakReference3 = this.horizontalWrapMin;
if (!(weakReference3 == null || weakReference3.get() == null)) {
addMinWrap(this.horizontalWrapMin.get(), this.mSystem.createObjectVariable(this.mLeft));
this.horizontalWrapMin = null;
}
WeakReference<ConstraintAnchor> weakReference4 = this.horizontalWrapMax;
if (!(weakReference4 == null || weakReference4.get() == null)) {
addMaxWrap(this.horizontalWrapMax.get(), this.mSystem.createObjectVariable(this.mRight));
this.horizontalWrapMax = null;
}
if (z8) {
this.mSystem.minimize();
}
} catch (Exception e) {
e.printStackTrace();
System.out.println("EXCEPTION : " + e);
}
if (z8) {
updateChildrenFromSolver(this.mSystem, Optimizer.flags);
} else {
updateFromSolver(this.mSystem, optimizeFor);
for (int i8 = 0; i8 < size; i8++) {
this.mChildren.get(i8).updateFromSolver(this.mSystem, optimizeFor);
}
}
if (!z6 || i6 >= 8 || !Optimizer.flags[2]) {
z3 = false;
} else {
int i9 = 0;
int i10 = 0;
for (int i11 = 0; i11 < size; i11++) {
ConstraintWidget constraintWidget3 = this.mChildren.get(i11);
i9 = Math.max(i9, constraintWidget3.getWidth() + constraintWidget3.mX);
i10 = Math.max(i10, constraintWidget3.getHeight() + constraintWidget3.mY);
}
int max3 = Math.max(this.mMinWidth, i9);
int max4 = Math.max(this.mMinHeight, i10);
ConstraintWidget.DimensionBehaviour dimensionBehaviour8 = ConstraintWidget.DimensionBehaviour.WRAP_CONTENT;
if (dimensionBehaviour3 != dimensionBehaviour8 || getWidth() >= max3) {
z3 = false;
} else {
setWidth(max3);
this.mListDimensionBehaviors[0] = dimensionBehaviour8;
z3 = true;
z7 = true;
}
if (dimensionBehaviour2 == dimensionBehaviour8 && getHeight() < max4) {
setHeight(max4);
this.mListDimensionBehaviors[1] = dimensionBehaviour8;
z3 = true;
z7 = true;
}
}
int max5 = Math.max(this.mMinWidth, getWidth());
if (max5 > getWidth()) {
setWidth(max5);
this.mListDimensionBehaviors[0] = ConstraintWidget.DimensionBehaviour.FIXED;
z3 = true;
z7 = true;
}
int max6 = Math.max(this.mMinHeight, getHeight());
if (max6 > getHeight()) {
setHeight(max6);
r6 = 1;
this.mListDimensionBehaviors[1] = ConstraintWidget.DimensionBehaviour.FIXED;
z3 = true;
z4 = true;
} else {
r6 = 1;
z4 = z7;
}
if (!z4) {
ConstraintWidget.DimensionBehaviour dimensionBehaviour9 = this.mListDimensionBehaviors[0];
ConstraintWidget.DimensionBehaviour dimensionBehaviour10 = ConstraintWidget.DimensionBehaviour.WRAP_CONTENT;
if (dimensionBehaviour9 == dimensionBehaviour10 && i2 > 0 && getWidth() > i2) {
this.mWidthMeasuredTooSmall = r6;
this.mListDimensionBehaviors[0] = ConstraintWidget.DimensionBehaviour.FIXED;
setWidth(i2);
z3 = true;
z4 = true;
}
ConstraintWidget.DimensionBehaviour[] dimensionBehaviourArr2 = this.mListDimensionBehaviors;
char c = r6 == true ? 1 : 0;
char c2 = r6 == true ? 1 : 0;
char c3 = r6 == true ? 1 : 0;
if (dimensionBehaviourArr2[c] == dimensionBehaviour10 && i > 0 && getHeight() > i) {
this.mHeightMeasuredTooSmall = r6;
this.mListDimensionBehaviors[r6] = ConstraintWidget.DimensionBehaviour.FIXED;
setHeight(i);
z7 = true;
z8 = true;
i5 = i6;
}
}
z8 = z3;
z7 = z4;
i5 = i6;
}
this.mChildren = arrayList;
if (z7) {
ConstraintWidget.DimensionBehaviour[] dimensionBehaviourArr3 = this.mListDimensionBehaviors;
dimensionBehaviourArr3[0] = dimensionBehaviour3;
dimensionBehaviourArr3[1] = dimensionBehaviour2;
}
resetSolverVariables(this.mSystem.getCache());
}
public long measure(int i, int i2, int i3, int i4, int i5, int i6, int i7, int i8, int i9) {
this.mPaddingLeft = i8;
this.mPaddingTop = i9;
return this.mBasicMeasureSolver.solverMeasure(this, i, i8, i9, i2, i3, i4, i5, i6, i7);
}
public boolean optimizeFor(int i) {
return (this.mOptimizationLevel & i) == i;
}
@Override // androidx.constraintlayout.solver.widgets.WidgetContainer, androidx.constraintlayout.solver.widgets.ConstraintWidget
public void reset() {
this.mSystem.reset();
this.mPaddingLeft = 0;
this.mPaddingRight = 0;
this.mPaddingTop = 0;
this.mPaddingBottom = 0;
this.mSkipSolver = false;
super.reset();
}
public void setMeasurer(BasicMeasure.Measurer measurer) {
this.mMeasurer = measurer;
this.mDependencyGraph.setMeasurer(measurer);
}
public void setOptimizationLevel(int i) {
this.mOptimizationLevel = i;
LinearSystem.USE_DEPENDENCY_ORDERING = optimizeFor(512);
}
public void setPadding(int i, int i2, int i3, int i4) {
this.mPaddingLeft = i;
this.mPaddingTop = i2;
this.mPaddingRight = i3;
this.mPaddingBottom = i4;
}
public void setRtl(boolean z2) {
this.mIsRtl = z2;
}
public void updateChildrenFromSolver(LinearSystem linearSystem, boolean[] zArr) {
zArr[2] = false;
boolean optimizeFor = optimizeFor(64);
updateFromSolver(linearSystem, optimizeFor);
int size = this.mChildren.size();
for (int i = 0; i < size; i++) {
this.mChildren.get(i).updateFromSolver(linearSystem, optimizeFor);
}
}
@Override // androidx.constraintlayout.solver.widgets.ConstraintWidget
public void updateFromRuns(boolean z2, boolean z3) {
super.updateFromRuns(z2, z3);
int size = this.mChildren.size();
for (int i = 0; i < size; i++) {
this.mChildren.get(i).updateFromRuns(z2, z3);
}
}
public void updateHierarchy() {
this.mBasicMeasureSolver.updateHierarchy(this);
}
}
Reference in New Issue View Git Blame Copy Permalink