package androidx.constraintlayout.solver.state; import androidx.constraintlayout.solver.widgets.ConstraintWidget; /* loaded from: classes.dex */ public class Dimension { private final int WRAP_CONTENT; Object mInitialValue; boolean mIsSuggested; int mMax; int mMin; float mPercent; float mRatio; int mValue; public static final Object FIXED_DIMENSION = new Object(); public static final Object WRAP_DIMENSION = new Object(); public static final Object SPREAD_DIMENSION = new Object(); public static final Object PARENT_DIMENSION = new Object(); public static final Object PERCENT_DIMENSION = new Object(); /* loaded from: classes.dex */ public enum Type { FIXED, WRAP, MATCH_PARENT, MATCH_CONSTRAINT } public Dimension fixed(int i) { this.mInitialValue = null; this.mValue = i; return this; } float getRatio() { return this.mRatio; } /* JADX INFO: Access modifiers changed from: package-private */ public int getValue() { return this.mValue; } public Dimension max(int i) { if (this.mMax >= 0) { this.mMax = i; } return this; } public Dimension max(Object obj) { Object obj2 = WRAP_DIMENSION; if (obj == obj2 && this.mIsSuggested) { this.mInitialValue = obj2; this.mMax = Integer.MAX_VALUE; } return this; } public Dimension min(int i) { if (i >= 0) { this.mMin = i; } return this; } public Dimension min(Object obj) { if (obj == WRAP_DIMENSION) { this.mMin = -2; } return this; } public Dimension percent(Object obj, float f) { this.mPercent = f; return this; } public Dimension ratio(float f) { return this; } void setRatio(float f) { this.mRatio = f; } void setValue(int i) { this.mIsSuggested = false; this.mInitialValue = null; this.mValue = i; } public Dimension suggested(int i) { this.mIsSuggested = true; return this; } public Dimension suggested(Object obj) { this.mInitialValue = obj; this.mIsSuggested = true; return this; } private Dimension() { this.WRAP_CONTENT = -2; this.mMin = 0; this.mMax = Integer.MAX_VALUE; this.mPercent = 1.0f; this.mValue = 0; this.mRatio = 1.0f; this.mInitialValue = WRAP_DIMENSION; this.mIsSuggested = false; } private Dimension(Object obj) { this.WRAP_CONTENT = -2; this.mMin = 0; this.mMax = Integer.MAX_VALUE; this.mPercent = 1.0f; this.mValue = 0; this.mRatio = 1.0f; this.mIsSuggested = false; this.mInitialValue = obj; } public static Dimension Suggested(int i) { Dimension dimension = new Dimension(); dimension.suggested(i); return dimension; } public static Dimension Suggested(Object obj) { Dimension dimension = new Dimension(); dimension.suggested(obj); return dimension; } public static Dimension Fixed(int i) { Dimension dimension = new Dimension(FIXED_DIMENSION); dimension.fixed(i); return dimension; } public static Dimension Fixed(Object obj) { Dimension dimension = new Dimension(FIXED_DIMENSION); dimension.fixed(obj); return dimension; } public static Dimension Percent(Object obj, float f) { Dimension dimension = new Dimension(PERCENT_DIMENSION); dimension.percent(obj, f); return dimension; } public static Dimension Parent() { return new Dimension(PARENT_DIMENSION); } public static Dimension Wrap() { return new Dimension(WRAP_DIMENSION); } public static Dimension Spread() { return new Dimension(SPREAD_DIMENSION); } public Dimension fixed(Object obj) { this.mInitialValue = obj; if (obj instanceof Integer) { this.mValue = ((Integer) obj).intValue(); this.mInitialValue = null; } return this; } public void apply(State state, ConstraintWidget constraintWidget, int i) { int i2 = 2; if (i == 0) { if (this.mIsSuggested) { constraintWidget.setHorizontalDimensionBehaviour(ConstraintWidget.DimensionBehaviour.MATCH_CONSTRAINT); Object obj = this.mInitialValue; if (obj == WRAP_DIMENSION) { i2 = 1; } else if (obj != PERCENT_DIMENSION) { i2 = 0; } constraintWidget.setHorizontalMatchStyle(i2, this.mMin, this.mMax, this.mPercent); return; } int i3 = this.mMin; if (i3 > 0) { constraintWidget.setMinWidth(i3); } int i4 = this.mMax; if (i4 < Integer.MAX_VALUE) { constraintWidget.setMaxWidth(i4); } Object obj2 = this.mInitialValue; if (obj2 == WRAP_DIMENSION) { constraintWidget.setHorizontalDimensionBehaviour(ConstraintWidget.DimensionBehaviour.WRAP_CONTENT); return; } if (obj2 == PARENT_DIMENSION) { constraintWidget.setHorizontalDimensionBehaviour(ConstraintWidget.DimensionBehaviour.MATCH_PARENT); return; } else { if (obj2 == null) { constraintWidget.setHorizontalDimensionBehaviour(ConstraintWidget.DimensionBehaviour.FIXED); constraintWidget.setWidth(this.mValue); return; } return; } } if (this.mIsSuggested) { constraintWidget.setVerticalDimensionBehaviour(ConstraintWidget.DimensionBehaviour.MATCH_CONSTRAINT); Object obj3 = this.mInitialValue; if (obj3 == WRAP_DIMENSION) { i2 = 1; } else if (obj3 != PERCENT_DIMENSION) { i2 = 0; } constraintWidget.setVerticalMatchStyle(i2, this.mMin, this.mMax, this.mPercent); return; } int i5 = this.mMin; if (i5 > 0) { constraintWidget.setMinHeight(i5); } int i6 = this.mMax; if (i6 < Integer.MAX_VALUE) { constraintWidget.setMaxHeight(i6); } Object obj4 = this.mInitialValue; if (obj4 == WRAP_DIMENSION) { constraintWidget.setVerticalDimensionBehaviour(ConstraintWidget.DimensionBehaviour.WRAP_CONTENT); return; } if (obj4 == PARENT_DIMENSION) { constraintWidget.setVerticalDimensionBehaviour(ConstraintWidget.DimensionBehaviour.MATCH_PARENT); } else if (obj4 == null) { constraintWidget.setVerticalDimensionBehaviour(ConstraintWidget.DimensionBehaviour.FIXED); constraintWidget.setHeight(this.mValue); } } }