package androidx.constraintlayout.solver.widgets.analyzer; import androidx.constraintlayout.solver.widgets.ConstraintAnchor; import androidx.constraintlayout.solver.widgets.ConstraintWidget; import androidx.constraintlayout.solver.widgets.Helper; import androidx.constraintlayout.solver.widgets.analyzer.DependencyNode; import androidx.constraintlayout.solver.widgets.analyzer.WidgetRun; import c.d.b.a.a; public class HorizontalWidgetRun extends WidgetRun { private static int[] tempDimensions = new int[2]; /* renamed from: androidx.constraintlayout.solver.widgets.analyzer.HorizontalWidgetRun$1 reason: invalid class name */ public static /* synthetic */ class AnonymousClass1 { public static final /* synthetic */ int[] $SwitchMap$androidx$constraintlayout$solver$widgets$analyzer$WidgetRun$RunType; static { WidgetRun.RunType.values(); int[] iArr = new int[4]; $SwitchMap$androidx$constraintlayout$solver$widgets$analyzer$WidgetRun$RunType = iArr; try { iArr[WidgetRun.RunType.START.ordinal()] = 1; } catch (NoSuchFieldError unused) { } try { $SwitchMap$androidx$constraintlayout$solver$widgets$analyzer$WidgetRun$RunType[WidgetRun.RunType.END.ordinal()] = 2; } catch (NoSuchFieldError unused2) { } try { $SwitchMap$androidx$constraintlayout$solver$widgets$analyzer$WidgetRun$RunType[WidgetRun.RunType.CENTER.ordinal()] = 3; } catch (NoSuchFieldError unused3) { } } } public HorizontalWidgetRun(ConstraintWidget constraintWidget) { super(constraintWidget); this.start.type = DependencyNode.Type.LEFT; this.end.type = DependencyNode.Type.RIGHT; this.orientation = 0; } private void computeInsetRatio(int[] iArr, int i, int i2, int i3, int i4, float f, int i5) { int i6 = i2 - i; int i7 = i4 - i3; if (i5 == -1) { int i8 = (int) ((((float) i7) * f) + 0.5f); int i9 = (int) ((((float) i6) / f) + 0.5f); if (i8 <= i6 && i7 <= i7) { iArr[0] = i8; iArr[1] = i7; } else if (i6 <= i6 && i9 <= i7) { iArr[0] = i6; iArr[1] = i9; } } else if (i5 == 0) { iArr[0] = (int) ((((float) i7) * f) + 0.5f); iArr[1] = i7; } else if (i5 == 1) { iArr[0] = i6; iArr[1] = (int) ((((float) i6) * f) + 0.5f); } } @Override // androidx.constraintlayout.solver.widgets.analyzer.WidgetRun public void apply() { ConstraintWidget parent; ConstraintWidget parent2; ConstraintWidget constraintWidget = this.widget; if (constraintWidget.measured) { this.dimension.resolve(constraintWidget.getWidth()); } if (!this.dimension.resolved) { ConstraintWidget.DimensionBehaviour horizontalDimensionBehaviour = this.widget.getHorizontalDimensionBehaviour(); this.dimensionBehavior = horizontalDimensionBehaviour; if (horizontalDimensionBehaviour != ConstraintWidget.DimensionBehaviour.MATCH_CONSTRAINT) { ConstraintWidget.DimensionBehaviour dimensionBehaviour = ConstraintWidget.DimensionBehaviour.MATCH_PARENT; if (horizontalDimensionBehaviour == dimensionBehaviour && (((parent2 = this.widget.getParent()) != null && parent2.getHorizontalDimensionBehaviour() == ConstraintWidget.DimensionBehaviour.FIXED) || parent2.getHorizontalDimensionBehaviour() == dimensionBehaviour)) { int width = (parent2.getWidth() - this.widget.mLeft.getMargin()) - this.widget.mRight.getMargin(); addTarget(this.start, parent2.horizontalRun.start, this.widget.mLeft.getMargin()); addTarget(this.end, parent2.horizontalRun.end, -this.widget.mRight.getMargin()); this.dimension.resolve(width); return; } else if (this.dimensionBehavior == ConstraintWidget.DimensionBehaviour.FIXED) { this.dimension.resolve(this.widget.getWidth()); } } } else { ConstraintWidget.DimensionBehaviour dimensionBehaviour2 = this.dimensionBehavior; ConstraintWidget.DimensionBehaviour dimensionBehaviour3 = ConstraintWidget.DimensionBehaviour.MATCH_PARENT; if (dimensionBehaviour2 == dimensionBehaviour3 && (((parent = this.widget.getParent()) != null && parent.getHorizontalDimensionBehaviour() == ConstraintWidget.DimensionBehaviour.FIXED) || parent.getHorizontalDimensionBehaviour() == dimensionBehaviour3)) { addTarget(this.start, parent.horizontalRun.start, this.widget.mLeft.getMargin()); addTarget(this.end, parent.horizontalRun.end, -this.widget.mRight.getMargin()); return; } } DimensionDependency dimensionDependency = this.dimension; if (dimensionDependency.resolved) { ConstraintWidget constraintWidget2 = this.widget; if (constraintWidget2.measured) { ConstraintAnchor[] constraintAnchorArr = constraintWidget2.mListAnchors; if (constraintAnchorArr[0].mTarget == null || constraintAnchorArr[1].mTarget == null) { if (constraintAnchorArr[0].mTarget != null) { DependencyNode target = getTarget(constraintAnchorArr[0]); if (target != null) { addTarget(this.start, target, this.widget.mListAnchors[0].getMargin()); addTarget(this.end, this.start, this.dimension.value); return; } return; } else if (constraintAnchorArr[1].mTarget != null) { DependencyNode target2 = getTarget(constraintAnchorArr[1]); if (target2 != null) { addTarget(this.end, target2, -this.widget.mListAnchors[1].getMargin()); addTarget(this.start, this.end, -this.dimension.value); return; } return; } else if (!(constraintWidget2 instanceof Helper) && constraintWidget2.getParent() != null && this.widget.getAnchor(ConstraintAnchor.Type.CENTER).mTarget == null) { addTarget(this.start, this.widget.getParent().horizontalRun.start, this.widget.getX()); addTarget(this.end, this.start, this.dimension.value); return; } else { return; } } else if (constraintWidget2.isInHorizontalChain()) { this.start.margin = this.widget.mListAnchors[0].getMargin(); this.end.margin = -this.widget.mListAnchors[1].getMargin(); return; } else { DependencyNode target3 = getTarget(this.widget.mListAnchors[0]); if (target3 != null) { addTarget(this.start, target3, this.widget.mListAnchors[0].getMargin()); } DependencyNode target4 = getTarget(this.widget.mListAnchors[1]); if (target4 != null) { addTarget(this.end, target4, -this.widget.mListAnchors[1].getMargin()); } this.start.delegateToWidgetRun = true; this.end.delegateToWidgetRun = true; return; } } } if (this.dimensionBehavior == ConstraintWidget.DimensionBehaviour.MATCH_CONSTRAINT) { ConstraintWidget constraintWidget3 = this.widget; int i = constraintWidget3.mMatchConstraintDefaultWidth; if (i == 2) { ConstraintWidget parent3 = constraintWidget3.getParent(); if (parent3 != null) { DimensionDependency dimensionDependency2 = parent3.verticalRun.dimension; this.dimension.targets.add(dimensionDependency2); dimensionDependency2.dependencies.add(this.dimension); DimensionDependency dimensionDependency3 = this.dimension; dimensionDependency3.delegateToWidgetRun = true; dimensionDependency3.dependencies.add(this.start); this.dimension.dependencies.add(this.end); } } else if (i == 3) { if (constraintWidget3.mMatchConstraintDefaultHeight == 3) { this.start.updateDelegate = this; this.end.updateDelegate = this; VerticalWidgetRun verticalWidgetRun = constraintWidget3.verticalRun; verticalWidgetRun.start.updateDelegate = this; verticalWidgetRun.end.updateDelegate = this; dimensionDependency.updateDelegate = this; if (constraintWidget3.isInVerticalChain()) { this.dimension.targets.add(this.widget.verticalRun.dimension); this.widget.verticalRun.dimension.dependencies.add(this.dimension); VerticalWidgetRun verticalWidgetRun2 = this.widget.verticalRun; verticalWidgetRun2.dimension.updateDelegate = this; this.dimension.targets.add(verticalWidgetRun2.start); this.dimension.targets.add(this.widget.verticalRun.end); this.widget.verticalRun.start.dependencies.add(this.dimension); this.widget.verticalRun.end.dependencies.add(this.dimension); } else if (this.widget.isInHorizontalChain()) { this.widget.verticalRun.dimension.targets.add(this.dimension); this.dimension.dependencies.add(this.widget.verticalRun.dimension); } else { this.widget.verticalRun.dimension.targets.add(this.dimension); } } else { DimensionDependency dimensionDependency4 = constraintWidget3.verticalRun.dimension; dimensionDependency.targets.add(dimensionDependency4); dimensionDependency4.dependencies.add(this.dimension); this.widget.verticalRun.start.dependencies.add(this.dimension); this.widget.verticalRun.end.dependencies.add(this.dimension); DimensionDependency dimensionDependency5 = this.dimension; dimensionDependency5.delegateToWidgetRun = true; dimensionDependency5.dependencies.add(this.start); this.dimension.dependencies.add(this.end); this.start.targets.add(this.dimension); this.end.targets.add(this.dimension); } } } ConstraintWidget constraintWidget4 = this.widget; ConstraintAnchor[] constraintAnchorArr2 = constraintWidget4.mListAnchors; if (constraintAnchorArr2[0].mTarget == null || constraintAnchorArr2[1].mTarget == null) { if (constraintAnchorArr2[0].mTarget != null) { DependencyNode target5 = getTarget(constraintAnchorArr2[0]); if (target5 != null) { addTarget(this.start, target5, this.widget.mListAnchors[0].getMargin()); addTarget(this.end, this.start, 1, this.dimension); } } else if (constraintAnchorArr2[1].mTarget != null) { DependencyNode target6 = getTarget(constraintAnchorArr2[1]); if (target6 != null) { addTarget(this.end, target6, -this.widget.mListAnchors[1].getMargin()); addTarget(this.start, this.end, -1, this.dimension); } } else if (!(constraintWidget4 instanceof Helper) && constraintWidget4.getParent() != null) { addTarget(this.start, this.widget.getParent().horizontalRun.start, this.widget.getX()); addTarget(this.end, this.start, 1, this.dimension); } } else if (constraintWidget4.isInHorizontalChain()) { this.start.margin = this.widget.mListAnchors[0].getMargin(); this.end.margin = -this.widget.mListAnchors[1].getMargin(); } else { DependencyNode target7 = getTarget(this.widget.mListAnchors[0]); DependencyNode target8 = getTarget(this.widget.mListAnchors[1]); target7.addDependency(this); target8.addDependency(this); this.mRunType = WidgetRun.RunType.CENTER; } } @Override // androidx.constraintlayout.solver.widgets.analyzer.WidgetRun public void applyToWidget() { DependencyNode dependencyNode = this.start; if (dependencyNode.resolved) { this.widget.setX(dependencyNode.value); } } @Override // androidx.constraintlayout.solver.widgets.analyzer.WidgetRun public void clear() { this.runGroup = null; this.start.clear(); this.end.clear(); this.dimension.clear(); this.resolved = false; } @Override // androidx.constraintlayout.solver.widgets.analyzer.WidgetRun public void reset() { this.resolved = false; this.start.clear(); this.start.resolved = false; this.end.clear(); this.end.resolved = false; this.dimension.resolved = false; } @Override // androidx.constraintlayout.solver.widgets.analyzer.WidgetRun public boolean supportsWrapComputation() { return this.dimensionBehavior != ConstraintWidget.DimensionBehaviour.MATCH_CONSTRAINT || this.widget.mMatchConstraintDefaultWidth == 0; } public String toString() { StringBuilder L = a.L("HorizontalRun "); L.append(this.widget.getDebugName()); return L.toString(); } /* JADX WARNING: Code restructure failed: missing block: B:103:0x02ba, code lost: if (r14 != 1) goto L_0x0322; */ @Override // androidx.constraintlayout.solver.widgets.analyzer.WidgetRun, androidx.constraintlayout.solver.widgets.analyzer.Dependency public void update(Dependency dependency) { int i; float f; float f2; int ordinal = this.mRunType.ordinal(); if (ordinal == 1) { updateRunStart(dependency); } else if (ordinal == 2) { updateRunEnd(dependency); } else if (ordinal == 3) { ConstraintWidget constraintWidget = this.widget; updateRunCenter(dependency, constraintWidget.mLeft, constraintWidget.mRight, 0); return; } if (!this.dimension.resolved && this.dimensionBehavior == ConstraintWidget.DimensionBehaviour.MATCH_CONSTRAINT) { ConstraintWidget constraintWidget2 = this.widget; int i2 = constraintWidget2.mMatchConstraintDefaultWidth; if (i2 == 2) { ConstraintWidget parent = constraintWidget2.getParent(); if (parent != null) { DimensionDependency dimensionDependency = parent.horizontalRun.dimension; if (dimensionDependency.resolved) { this.dimension.resolve((int) ((((float) dimensionDependency.value) * this.widget.mMatchConstraintPercentWidth) + 0.5f)); } } } else if (i2 == 3) { int i3 = constraintWidget2.mMatchConstraintDefaultHeight; if (i3 == 0 || i3 == 3) { VerticalWidgetRun verticalWidgetRun = constraintWidget2.verticalRun; DependencyNode dependencyNode = verticalWidgetRun.start; DependencyNode dependencyNode2 = verticalWidgetRun.end; boolean z2 = constraintWidget2.mLeft.mTarget != null; boolean z3 = constraintWidget2.mTop.mTarget != null; boolean z4 = constraintWidget2.mRight.mTarget != null; boolean z5 = constraintWidget2.mBottom.mTarget != null; int dimensionRatioSide = constraintWidget2.getDimensionRatioSide(); if (z2 && z3 && z4 && z5) { float dimensionRatio = this.widget.getDimensionRatio(); if (!dependencyNode.resolved || !dependencyNode2.resolved) { DependencyNode dependencyNode3 = this.start; if (dependencyNode3.resolved) { DependencyNode dependencyNode4 = this.end; if (dependencyNode4.resolved) { if (dependencyNode.readyToSolve && dependencyNode2.readyToSolve) { computeInsetRatio(tempDimensions, dependencyNode3.value + dependencyNode3.margin, dependencyNode4.value - dependencyNode4.margin, dependencyNode.targets.get(0).value + dependencyNode.margin, dependencyNode2.targets.get(0).value - dependencyNode2.margin, dimensionRatio, dimensionRatioSide); this.dimension.resolve(tempDimensions[0]); this.widget.verticalRun.dimension.resolve(tempDimensions[1]); } else { return; } } } DependencyNode dependencyNode5 = this.start; if (dependencyNode5.readyToSolve && this.end.readyToSolve && dependencyNode.readyToSolve && dependencyNode2.readyToSolve) { computeInsetRatio(tempDimensions, dependencyNode5.targets.get(0).value + this.start.margin, this.end.targets.get(0).value - this.end.margin, dependencyNode.targets.get(0).value + dependencyNode.margin, dependencyNode2.targets.get(0).value - dependencyNode2.margin, dimensionRatio, dimensionRatioSide); this.dimension.resolve(tempDimensions[0]); this.widget.verticalRun.dimension.resolve(tempDimensions[1]); } else { return; } } else { DependencyNode dependencyNode6 = this.start; if (dependencyNode6.readyToSolve && this.end.readyToSolve) { computeInsetRatio(tempDimensions, dependencyNode6.targets.get(0).value + this.start.margin, this.end.targets.get(0).value - this.end.margin, dependencyNode.value + dependencyNode.margin, dependencyNode2.value - dependencyNode2.margin, dimensionRatio, dimensionRatioSide); this.dimension.resolve(tempDimensions[0]); this.widget.verticalRun.dimension.resolve(tempDimensions[1]); return; } return; } } else if (!z2 || !z4) { if (z3 && z5) { if (dependencyNode.readyToSolve && dependencyNode2.readyToSolve) { float dimensionRatio2 = this.widget.getDimensionRatio(); int i4 = dependencyNode.targets.get(0).value + dependencyNode.margin; int i5 = dependencyNode2.targets.get(0).value - dependencyNode2.margin; if (dimensionRatioSide != -1) { if (dimensionRatioSide == 0) { int limitedDimension = getLimitedDimension(i5 - i4, 1); int i6 = (int) ((((float) limitedDimension) * dimensionRatio2) + 0.5f); int limitedDimension2 = getLimitedDimension(i6, 0); if (i6 != limitedDimension2) { limitedDimension = (int) ((((float) limitedDimension2) / dimensionRatio2) + 0.5f); } this.dimension.resolve(limitedDimension2); this.widget.verticalRun.dimension.resolve(limitedDimension); } } int limitedDimension3 = getLimitedDimension(i5 - i4, 1); int i7 = (int) ((((float) limitedDimension3) / dimensionRatio2) + 0.5f); int limitedDimension4 = getLimitedDimension(i7, 0); if (i7 != limitedDimension4) { limitedDimension3 = (int) ((((float) limitedDimension4) * dimensionRatio2) + 0.5f); } this.dimension.resolve(limitedDimension4); this.widget.verticalRun.dimension.resolve(limitedDimension3); } else { return; } } } else if (this.start.readyToSolve && this.end.readyToSolve) { float dimensionRatio3 = this.widget.getDimensionRatio(); int i8 = this.start.targets.get(0).value + this.start.margin; int i9 = this.end.targets.get(0).value - this.end.margin; if (dimensionRatioSide == -1 || dimensionRatioSide == 0) { int limitedDimension5 = getLimitedDimension(i9 - i8, 0); int i10 = (int) ((((float) limitedDimension5) * dimensionRatio3) + 0.5f); int limitedDimension6 = getLimitedDimension(i10, 1); if (i10 != limitedDimension6) { limitedDimension5 = (int) ((((float) limitedDimension6) / dimensionRatio3) + 0.5f); } this.dimension.resolve(limitedDimension5); this.widget.verticalRun.dimension.resolve(limitedDimension6); } else if (dimensionRatioSide == 1) { int limitedDimension7 = getLimitedDimension(i9 - i8, 0); int i11 = (int) ((((float) limitedDimension7) / dimensionRatio3) + 0.5f); int limitedDimension8 = getLimitedDimension(i11, 1); if (i11 != limitedDimension8) { limitedDimension7 = (int) ((((float) limitedDimension8) * dimensionRatio3) + 0.5f); } this.dimension.resolve(limitedDimension7); this.widget.verticalRun.dimension.resolve(limitedDimension8); } } else { return; } } else { int dimensionRatioSide2 = constraintWidget2.getDimensionRatioSide(); if (dimensionRatioSide2 != -1) { if (dimensionRatioSide2 == 0) { ConstraintWidget constraintWidget3 = this.widget; i = (int) ((((float) constraintWidget3.verticalRun.dimension.value) / constraintWidget3.getDimensionRatio()) + 0.5f); } else if (dimensionRatioSide2 != 1) { i = 0; } else { ConstraintWidget constraintWidget4 = this.widget; f = (float) constraintWidget4.verticalRun.dimension.value; f2 = constraintWidget4.getDimensionRatio(); } this.dimension.resolve(i); } else { ConstraintWidget constraintWidget5 = this.widget; f = (float) constraintWidget5.verticalRun.dimension.value; f2 = constraintWidget5.getDimensionRatio(); } i = (int) ((f2 * f) + 0.5f); this.dimension.resolve(i); } } } DependencyNode dependencyNode7 = this.start; if (dependencyNode7.readyToSolve) { DependencyNode dependencyNode8 = this.end; if (dependencyNode8.readyToSolve) { if (!dependencyNode7.resolved || !dependencyNode8.resolved || !this.dimension.resolved) { if (!this.dimension.resolved && this.dimensionBehavior == ConstraintWidget.DimensionBehaviour.MATCH_CONSTRAINT) { ConstraintWidget constraintWidget6 = this.widget; if (constraintWidget6.mMatchConstraintDefaultWidth == 0 && !constraintWidget6.isInHorizontalChain()) { int i12 = this.start.targets.get(0).value; DependencyNode dependencyNode9 = this.start; int i13 = i12 + dependencyNode9.margin; int i14 = this.end.targets.get(0).value + this.end.margin; dependencyNode9.resolve(i13); this.end.resolve(i14); this.dimension.resolve(i14 - i13); return; } } if (!this.dimension.resolved && this.dimensionBehavior == ConstraintWidget.DimensionBehaviour.MATCH_CONSTRAINT && this.matchConstraintsType == 1 && this.start.targets.size() > 0 && this.end.targets.size() > 0) { int min = Math.min((this.end.targets.get(0).value + this.end.margin) - (this.start.targets.get(0).value + this.start.margin), this.dimension.wrapValue); ConstraintWidget constraintWidget7 = this.widget; int i15 = constraintWidget7.mMatchConstraintMaxWidth; int max = Math.max(constraintWidget7.mMatchConstraintMinWidth, min); if (i15 > 0) { max = Math.min(i15, max); } this.dimension.resolve(max); } if (this.dimension.resolved) { DependencyNode dependencyNode10 = this.start.targets.get(0); DependencyNode dependencyNode11 = this.end.targets.get(0); int i16 = dependencyNode10.value + this.start.margin; int i17 = dependencyNode11.value + this.end.margin; float horizontalBiasPercent = this.widget.getHorizontalBiasPercent(); if (dependencyNode10 == dependencyNode11) { i16 = dependencyNode10.value; i17 = dependencyNode11.value; horizontalBiasPercent = 0.5f; } this.start.resolve((int) ((((float) ((i17 - i16) - this.dimension.value)) * horizontalBiasPercent) + ((float) i16) + 0.5f)); this.end.resolve(this.start.value + this.dimension.value); } } } } } }