package androidx.constraintlayout.solver.widgets; import androidx.constraintlayout.solver.LinearSystem; import androidx.constraintlayout.solver.SolverVariable; import androidx.constraintlayout.solver.widgets.ConstraintAnchor; import androidx.constraintlayout.solver.widgets.ConstraintWidget; import java.util.HashMap; public class Guideline extends ConstraintWidget { public static final int HORIZONTAL = 0; public static final int RELATIVE_BEGIN = 1; public static final int RELATIVE_END = 2; public static final int RELATIVE_PERCENT = 0; public static final int RELATIVE_UNKNWON = -1; public static final int VERTICAL = 1; private ConstraintAnchor mAnchor = this.mTop; private int mMinimumPosition; private int mOrientation; public int mRelativeBegin = -1; public int mRelativeEnd = -1; public float mRelativePercent = -1.0f; private boolean resolved; /* renamed from: androidx.constraintlayout.solver.widgets.Guideline$1 reason: invalid class name */ public static /* synthetic */ class AnonymousClass1 { public static final /* synthetic */ int[] $SwitchMap$androidx$constraintlayout$solver$widgets$ConstraintAnchor$Type; static { ConstraintAnchor.Type.values(); int[] iArr = new int[9]; $SwitchMap$androidx$constraintlayout$solver$widgets$ConstraintAnchor$Type = iArr; try { iArr[ConstraintAnchor.Type.LEFT.ordinal()] = 1; } catch (NoSuchFieldError unused) { } try { $SwitchMap$androidx$constraintlayout$solver$widgets$ConstraintAnchor$Type[ConstraintAnchor.Type.RIGHT.ordinal()] = 2; } catch (NoSuchFieldError unused2) { } try { $SwitchMap$androidx$constraintlayout$solver$widgets$ConstraintAnchor$Type[ConstraintAnchor.Type.TOP.ordinal()] = 3; } catch (NoSuchFieldError unused3) { } try { $SwitchMap$androidx$constraintlayout$solver$widgets$ConstraintAnchor$Type[ConstraintAnchor.Type.BOTTOM.ordinal()] = 4; } catch (NoSuchFieldError unused4) { } try { $SwitchMap$androidx$constraintlayout$solver$widgets$ConstraintAnchor$Type[ConstraintAnchor.Type.BASELINE.ordinal()] = 5; } catch (NoSuchFieldError unused5) { } try { $SwitchMap$androidx$constraintlayout$solver$widgets$ConstraintAnchor$Type[ConstraintAnchor.Type.CENTER.ordinal()] = 6; } catch (NoSuchFieldError unused6) { } try { $SwitchMap$androidx$constraintlayout$solver$widgets$ConstraintAnchor$Type[ConstraintAnchor.Type.CENTER_X.ordinal()] = 7; } catch (NoSuchFieldError unused7) { } try { $SwitchMap$androidx$constraintlayout$solver$widgets$ConstraintAnchor$Type[ConstraintAnchor.Type.CENTER_Y.ordinal()] = 8; } catch (NoSuchFieldError unused8) { } try { $SwitchMap$androidx$constraintlayout$solver$widgets$ConstraintAnchor$Type[ConstraintAnchor.Type.NONE.ordinal()] = 9; } catch (NoSuchFieldError unused9) { } } } public Guideline() { this.mOrientation = 0; this.mMinimumPosition = 0; this.mAnchors.clear(); this.mAnchors.add(this.mAnchor); int length = this.mListAnchors.length; for (int i = 0; i < length; i++) { this.mListAnchors[i] = this.mAnchor; } } @Override // androidx.constraintlayout.solver.widgets.ConstraintWidget public void addToSolver(LinearSystem linearSystem, boolean z2) { ConstraintWidgetContainer constraintWidgetContainer = (ConstraintWidgetContainer) getParent(); if (constraintWidgetContainer != null) { ConstraintAnchor anchor = constraintWidgetContainer.getAnchor(ConstraintAnchor.Type.LEFT); ConstraintAnchor anchor2 = constraintWidgetContainer.getAnchor(ConstraintAnchor.Type.RIGHT); ConstraintWidget constraintWidget = this.mParent; boolean z3 = true; boolean z4 = constraintWidget != null && constraintWidget.mListDimensionBehaviors[0] == ConstraintWidget.DimensionBehaviour.WRAP_CONTENT; if (this.mOrientation == 0) { anchor = constraintWidgetContainer.getAnchor(ConstraintAnchor.Type.TOP); anchor2 = constraintWidgetContainer.getAnchor(ConstraintAnchor.Type.BOTTOM); ConstraintWidget constraintWidget2 = this.mParent; if (constraintWidget2 == null || constraintWidget2.mListDimensionBehaviors[1] != ConstraintWidget.DimensionBehaviour.WRAP_CONTENT) { z3 = false; } z4 = z3; } if (this.resolved && this.mAnchor.hasFinalValue()) { SolverVariable createObjectVariable = linearSystem.createObjectVariable(this.mAnchor); linearSystem.addEquality(createObjectVariable, this.mAnchor.getFinalValue()); if (this.mRelativeBegin != -1) { if (z4) { linearSystem.addGreaterThan(linearSystem.createObjectVariable(anchor2), createObjectVariable, 0, 5); } } else if (this.mRelativeEnd != -1 && z4) { SolverVariable createObjectVariable2 = linearSystem.createObjectVariable(anchor2); linearSystem.addGreaterThan(createObjectVariable, linearSystem.createObjectVariable(anchor), 0, 5); linearSystem.addGreaterThan(createObjectVariable2, createObjectVariable, 0, 5); } this.resolved = false; } else if (this.mRelativeBegin != -1) { SolverVariable createObjectVariable3 = linearSystem.createObjectVariable(this.mAnchor); linearSystem.addEquality(createObjectVariable3, linearSystem.createObjectVariable(anchor), this.mRelativeBegin, 8); if (z4) { linearSystem.addGreaterThan(linearSystem.createObjectVariable(anchor2), createObjectVariable3, 0, 5); } } else if (this.mRelativeEnd != -1) { SolverVariable createObjectVariable4 = linearSystem.createObjectVariable(this.mAnchor); SolverVariable createObjectVariable5 = linearSystem.createObjectVariable(anchor2); linearSystem.addEquality(createObjectVariable4, createObjectVariable5, -this.mRelativeEnd, 8); if (z4) { linearSystem.addGreaterThan(createObjectVariable4, linearSystem.createObjectVariable(anchor), 0, 5); linearSystem.addGreaterThan(createObjectVariable5, createObjectVariable4, 0, 5); } } else if (this.mRelativePercent != -1.0f) { linearSystem.addConstraint(LinearSystem.createRowDimensionPercent(linearSystem, linearSystem.createObjectVariable(this.mAnchor), linearSystem.createObjectVariable(anchor2), this.mRelativePercent)); } } } @Override // androidx.constraintlayout.solver.widgets.ConstraintWidget public boolean allowedInBarrier() { return true; } @Override // androidx.constraintlayout.solver.widgets.ConstraintWidget public void copy(ConstraintWidget constraintWidget, HashMap hashMap) { super.copy(constraintWidget, hashMap); Guideline guideline = (Guideline) constraintWidget; this.mRelativePercent = guideline.mRelativePercent; this.mRelativeBegin = guideline.mRelativeBegin; this.mRelativeEnd = guideline.mRelativeEnd; setOrientation(guideline.mOrientation); } public void cyclePosition() { if (this.mRelativeBegin != -1) { inferRelativePercentPosition(); } else if (this.mRelativePercent != -1.0f) { inferRelativeEndPosition(); } else if (this.mRelativeEnd != -1) { inferRelativeBeginPosition(); } } public ConstraintAnchor getAnchor() { return this.mAnchor; } @Override // androidx.constraintlayout.solver.widgets.ConstraintWidget public ConstraintAnchor getAnchor(ConstraintAnchor.Type type) { switch (type.ordinal()) { case 0: case 5: case 6: case 7: case 8: return null; case 1: case 3: if (this.mOrientation == 1) { return this.mAnchor; } break; case 2: case 4: if (this.mOrientation == 0) { return this.mAnchor; } break; } throw new AssertionError(type.name()); } public int getOrientation() { return this.mOrientation; } public int getRelativeBegin() { return this.mRelativeBegin; } public int getRelativeBehaviour() { if (this.mRelativePercent != -1.0f) { return 0; } if (this.mRelativeBegin != -1) { return 1; } return this.mRelativeEnd != -1 ? 2 : -1; } public int getRelativeEnd() { return this.mRelativeEnd; } public float getRelativePercent() { return this.mRelativePercent; } @Override // androidx.constraintlayout.solver.widgets.ConstraintWidget public String getType() { return "Guideline"; } public void inferRelativeBeginPosition() { int x2 = getX(); if (this.mOrientation == 0) { x2 = getY(); } setGuideBegin(x2); } public void inferRelativeEndPosition() { int width = getParent().getWidth() - getX(); if (this.mOrientation == 0) { width = getParent().getHeight() - getY(); } setGuideEnd(width); } public void inferRelativePercentPosition() { float x2 = ((float) getX()) / ((float) getParent().getWidth()); if (this.mOrientation == 0) { x2 = ((float) getY()) / ((float) getParent().getHeight()); } setGuidePercent(x2); } public boolean isPercent() { return this.mRelativePercent != -1.0f && this.mRelativeBegin == -1 && this.mRelativeEnd == -1; } @Override // androidx.constraintlayout.solver.widgets.ConstraintWidget public boolean isResolvedHorizontally() { return this.resolved; } @Override // androidx.constraintlayout.solver.widgets.ConstraintWidget public boolean isResolvedVertically() { return this.resolved; } public void setFinalValue(int i) { this.mAnchor.setFinalValue(i); this.resolved = true; } public void setGuideBegin(int i) { if (i > -1) { this.mRelativePercent = -1.0f; this.mRelativeBegin = i; this.mRelativeEnd = -1; } } public void setGuideEnd(int i) { if (i > -1) { this.mRelativePercent = -1.0f; this.mRelativeBegin = -1; this.mRelativeEnd = i; } } public void setGuidePercent(float f) { if (f > -1.0f) { this.mRelativePercent = f; this.mRelativeBegin = -1; this.mRelativeEnd = -1; } } public void setGuidePercent(int i) { setGuidePercent(((float) i) / 100.0f); } public void setMinimumPosition(int i) { this.mMinimumPosition = i; } public void setOrientation(int i) { if (this.mOrientation != i) { this.mOrientation = i; this.mAnchors.clear(); if (this.mOrientation == 1) { this.mAnchor = this.mLeft; } else { this.mAnchor = this.mTop; } this.mAnchors.add(this.mAnchor); int length = this.mListAnchors.length; for (int i2 = 0; i2 < length; i2++) { this.mListAnchors[i2] = this.mAnchor; } } } @Override // androidx.constraintlayout.solver.widgets.ConstraintWidget public void updateFromSolver(LinearSystem linearSystem, boolean z2) { if (getParent() != null) { int objectVariableValue = linearSystem.getObjectVariableValue(this.mAnchor); if (this.mOrientation == 1) { setX(objectVariableValue); setY(0); setHeight(getParent().getHeight()); setWidth(0); return; } setX(0); setY(objectVariableValue); setWidth(getParent().getWidth()); setHeight(0); } } }