package com.google.common.math; import com.google.common.base.Preconditions; import io.sentry.protocol.ViewHierarchyNode; import java.lang.Comparable; import java.lang.Number; import java.math.RoundingMode; @ElementTypesAreNonnullByDefault /* loaded from: classes3.dex */ abstract class ToDoubleRounder> { abstract X minus(X x, X x2); abstract double roundToDoubleArbitrarily(X x); abstract int sign(X x); abstract X toX(double d, RoundingMode roundingMode); /* JADX INFO: Access modifiers changed from: package-private */ public final double roundToDouble(X x, RoundingMode roundingMode) { X x2; double d; Preconditions.checkNotNull(x, ViewHierarchyNode.JsonKeys.X); Preconditions.checkNotNull(roundingMode, "mode"); double roundToDoubleArbitrarily = roundToDoubleArbitrarily(x); if (Double.isInfinite(roundToDoubleArbitrarily)) { switch (AnonymousClass1.$SwitchMap$java$math$RoundingMode[roundingMode.ordinal()]) { case 1: case 2: case 3: case 4: return sign(x) * Double.MAX_VALUE; case 5: return roundToDoubleArbitrarily == Double.POSITIVE_INFINITY ? Double.MAX_VALUE : Double.NEGATIVE_INFINITY; case 6: return roundToDoubleArbitrarily == Double.POSITIVE_INFINITY ? Double.POSITIVE_INFINITY : -1.7976931348623157E308d; case 7: return roundToDoubleArbitrarily; case 8: String valueOf = String.valueOf(x); throw new ArithmeticException(new StringBuilder(String.valueOf(valueOf).length() + 44).append(valueOf).append(" cannot be represented precisely as a double").toString()); } } X x3 = toX(roundToDoubleArbitrarily, RoundingMode.UNNECESSARY); int compareTo = ((Comparable) x).compareTo(x3); switch (AnonymousClass1.$SwitchMap$java$math$RoundingMode[roundingMode.ordinal()]) { case 1: return sign(x) >= 0 ? compareTo >= 0 ? roundToDoubleArbitrarily : DoubleUtils.nextDown(roundToDoubleArbitrarily) : compareTo <= 0 ? roundToDoubleArbitrarily : Math.nextUp(roundToDoubleArbitrarily); case 2: case 3: case 4: if (compareTo >= 0) { d = Math.nextUp(roundToDoubleArbitrarily); if (d == Double.POSITIVE_INFINITY) { return roundToDoubleArbitrarily; } x2 = toX(d, RoundingMode.CEILING); } else { double nextDown = DoubleUtils.nextDown(roundToDoubleArbitrarily); if (nextDown == Double.NEGATIVE_INFINITY) { return roundToDoubleArbitrarily; } X x4 = toX(nextDown, RoundingMode.FLOOR); x2 = x3; x3 = x4; d = roundToDoubleArbitrarily; roundToDoubleArbitrarily = nextDown; } int compareTo2 = ((Comparable) minus(x, x3)).compareTo(minus(x2, x)); if (compareTo2 < 0) { return roundToDoubleArbitrarily; } if (compareTo2 > 0) { return d; } int i = AnonymousClass1.$SwitchMap$java$math$RoundingMode[roundingMode.ordinal()]; if (i == 2) { return (Double.doubleToRawLongBits(roundToDoubleArbitrarily) & 1) == 0 ? roundToDoubleArbitrarily : d; } if (i == 3) { return sign(x) >= 0 ? roundToDoubleArbitrarily : d; } if (i == 4) { return sign(x) >= 0 ? d : roundToDoubleArbitrarily; } throw new AssertionError("impossible"); case 5: return compareTo >= 0 ? roundToDoubleArbitrarily : DoubleUtils.nextDown(roundToDoubleArbitrarily); case 6: return compareTo <= 0 ? roundToDoubleArbitrarily : Math.nextUp(roundToDoubleArbitrarily); case 7: return sign(x) >= 0 ? compareTo <= 0 ? roundToDoubleArbitrarily : Math.nextUp(roundToDoubleArbitrarily) : compareTo >= 0 ? roundToDoubleArbitrarily : DoubleUtils.nextDown(roundToDoubleArbitrarily); case 8: MathPreconditions.checkRoundingUnnecessary(compareTo == 0); return roundToDoubleArbitrarily; default: throw new AssertionError("impossible"); } } /* renamed from: com.google.common.math.ToDoubleRounder$1, reason: invalid class name */ /* loaded from: classes3.dex */ static /* synthetic */ class AnonymousClass1 { static final /* synthetic */ int[] $SwitchMap$java$math$RoundingMode; static { int[] iArr = new int[RoundingMode.values().length]; $SwitchMap$java$math$RoundingMode = iArr; try { iArr[RoundingMode.DOWN.ordinal()] = 1; } catch (NoSuchFieldError unused) { } try { $SwitchMap$java$math$RoundingMode[RoundingMode.HALF_EVEN.ordinal()] = 2; } catch (NoSuchFieldError unused2) { } try { $SwitchMap$java$math$RoundingMode[RoundingMode.HALF_DOWN.ordinal()] = 3; } catch (NoSuchFieldError unused3) { } try { $SwitchMap$java$math$RoundingMode[RoundingMode.HALF_UP.ordinal()] = 4; } catch (NoSuchFieldError unused4) { } try { $SwitchMap$java$math$RoundingMode[RoundingMode.FLOOR.ordinal()] = 5; } catch (NoSuchFieldError unused5) { } try { $SwitchMap$java$math$RoundingMode[RoundingMode.CEILING.ordinal()] = 6; } catch (NoSuchFieldError unused6) { } try { $SwitchMap$java$math$RoundingMode[RoundingMode.UP.ordinal()] = 7; } catch (NoSuchFieldError unused7) { } try { $SwitchMap$java$math$RoundingMode[RoundingMode.UNNECESSARY.ordinal()] = 8; } catch (NoSuchFieldError unused8) { } } } }