package androidx.constraintlayout.solver.widgets; import androidx.constraintlayout.solver.LinearSystem; import androidx.constraintlayout.solver.SolverVariable; import androidx.constraintlayout.solver.widgets.ConstraintWidget; import java.util.HashMap; /* loaded from: classes.dex */ public class Barrier extends HelperWidget { public static final int BOTTOM = 3; public static final int LEFT = 0; public static final int RIGHT = 1; public static final int TOP = 2; private int mBarrierType = 0; private boolean mAllowsGoneWidget = true; private int mMargin = 0; @Override // androidx.constraintlayout.solver.widgets.ConstraintWidget public boolean allowedInBarrier() { return true; } public boolean allowsGoneWidget() { return this.mAllowsGoneWidget; } public int getBarrierType() { return this.mBarrierType; } public int getMargin() { return this.mMargin; } public void setAllowsGoneWidget(boolean z) { this.mAllowsGoneWidget = z; } public void setBarrierType(int i) { this.mBarrierType = i; } public void setMargin(int i) { this.mMargin = i; } @Override // androidx.constraintlayout.solver.widgets.HelperWidget, androidx.constraintlayout.solver.widgets.ConstraintWidget public void copy(ConstraintWidget constraintWidget, HashMap hashMap) { super.copy(constraintWidget, hashMap); Barrier barrier = (Barrier) constraintWidget; this.mBarrierType = barrier.mBarrierType; this.mAllowsGoneWidget = barrier.mAllowsGoneWidget; this.mMargin = barrier.mMargin; } @Override // androidx.constraintlayout.solver.widgets.ConstraintWidget public String toString() { String str = "[Barrier] " + getDebugName() + " {"; for (int i = 0; i < this.mWidgetsCount; i++) { ConstraintWidget constraintWidget = this.mWidgets[i]; if (i > 0) { str = str + ", "; } str = str + constraintWidget.getDebugName(); } return str + "}"; } /* JADX INFO: Access modifiers changed from: protected */ public void markWidgets() { for (int i = 0; i < this.mWidgetsCount; i++) { ConstraintWidget constraintWidget = this.mWidgets[i]; int i2 = this.mBarrierType; if (i2 == 0 || i2 == 1) { constraintWidget.setInBarrier(0, true); } else if (i2 == 2 || i2 == 3) { constraintWidget.setInBarrier(1, true); } } } @Override // androidx.constraintlayout.solver.widgets.ConstraintWidget public void addToSolver(LinearSystem linearSystem) { boolean z; int i; int i2; int i3; this.mListAnchors[0] = this.mLeft; this.mListAnchors[2] = this.mTop; this.mListAnchors[1] = this.mRight; this.mListAnchors[3] = this.mBottom; for (int i4 = 0; i4 < this.mListAnchors.length; i4++) { this.mListAnchors[i4].mSolverVariable = linearSystem.createObjectVariable(this.mListAnchors[i4]); } int i5 = this.mBarrierType; if (i5 < 0 || i5 >= 4) { return; } ConstraintAnchor constraintAnchor = this.mListAnchors[this.mBarrierType]; for (int i6 = 0; i6 < this.mWidgetsCount; i6++) { ConstraintWidget constraintWidget = this.mWidgets[i6]; if ((this.mAllowsGoneWidget || constraintWidget.allowedInBarrier()) && ((((i2 = this.mBarrierType) == 0 || i2 == 1) && constraintWidget.getHorizontalDimensionBehaviour() == ConstraintWidget.DimensionBehaviour.MATCH_CONSTRAINT && constraintWidget.mLeft.mTarget != null && constraintWidget.mRight.mTarget != null) || (((i3 = this.mBarrierType) == 2 || i3 == 3) && constraintWidget.getVerticalDimensionBehaviour() == ConstraintWidget.DimensionBehaviour.MATCH_CONSTRAINT && constraintWidget.mTop.mTarget != null && constraintWidget.mBottom.mTarget != null))) { z = true; break; } } z = false; boolean z2 = this.mLeft.hasCenteredDependents() || this.mRight.hasCenteredDependents(); boolean z3 = this.mTop.hasCenteredDependents() || this.mBottom.hasCenteredDependents(); int i7 = !(!z && (((i = this.mBarrierType) == 0 && z2) || ((i == 2 && z3) || ((i == 1 && z2) || (i == 3 && z3))))) ? 4 : 5; for (int i8 = 0; i8 < this.mWidgetsCount; i8++) { ConstraintWidget constraintWidget2 = this.mWidgets[i8]; if (this.mAllowsGoneWidget || constraintWidget2.allowedInBarrier()) { SolverVariable createObjectVariable = linearSystem.createObjectVariable(constraintWidget2.mListAnchors[this.mBarrierType]); constraintWidget2.mListAnchors[this.mBarrierType].mSolverVariable = createObjectVariable; int i9 = (constraintWidget2.mListAnchors[this.mBarrierType].mTarget == null || constraintWidget2.mListAnchors[this.mBarrierType].mTarget.mOwner != this) ? 0 : constraintWidget2.mListAnchors[this.mBarrierType].mMargin; int i10 = this.mBarrierType; if (i10 == 0 || i10 == 2) { linearSystem.addLowerBarrier(constraintAnchor.mSolverVariable, createObjectVariable, this.mMargin - i9, z); } else { linearSystem.addGreaterBarrier(constraintAnchor.mSolverVariable, createObjectVariable, this.mMargin + i9, z); } linearSystem.addEquality(constraintAnchor.mSolverVariable, createObjectVariable, this.mMargin + i9, i7); } } int i11 = this.mBarrierType; if (i11 == 0) { linearSystem.addEquality(this.mRight.mSolverVariable, this.mLeft.mSolverVariable, 0, 8); linearSystem.addEquality(this.mLeft.mSolverVariable, this.mParent.mRight.mSolverVariable, 0, 4); linearSystem.addEquality(this.mLeft.mSolverVariable, this.mParent.mLeft.mSolverVariable, 0, 0); return; } if (i11 == 1) { linearSystem.addEquality(this.mLeft.mSolverVariable, this.mRight.mSolverVariable, 0, 8); linearSystem.addEquality(this.mLeft.mSolverVariable, this.mParent.mLeft.mSolverVariable, 0, 4); linearSystem.addEquality(this.mLeft.mSolverVariable, this.mParent.mRight.mSolverVariable, 0, 0); } else if (i11 == 2) { linearSystem.addEquality(this.mBottom.mSolverVariable, this.mTop.mSolverVariable, 0, 8); linearSystem.addEquality(this.mTop.mSolverVariable, this.mParent.mBottom.mSolverVariable, 0, 4); linearSystem.addEquality(this.mTop.mSolverVariable, this.mParent.mTop.mSolverVariable, 0, 0); } else if (i11 == 3) { linearSystem.addEquality(this.mTop.mSolverVariable, this.mBottom.mSolverVariable, 0, 8); linearSystem.addEquality(this.mTop.mSolverVariable, this.mParent.mTop.mSolverVariable, 0, 4); linearSystem.addEquality(this.mTop.mSolverVariable, this.mParent.mBottom.mSolverVariable, 0, 0); } } }