package kotlin.random; import io.flutter.embedding.android.KeyboardMap; import java.io.Serializable; import kotlin.Metadata; import kotlin.internal.PlatformImplementationsKt; import kotlin.jvm.internal.DefaultConstructorMarker; import kotlin.jvm.internal.Intrinsics; import kotlin.ranges.IntRange; import tech.rabbit.r1launcher.BuildConfig; /* compiled from: Random.kt */ @Metadata(d1 = {"\u0000:\n\u0002\u0018\u0002\n\u0002\u0010\u0000\n\u0002\b\u0002\n\u0002\u0010\b\n\u0002\b\u0002\n\u0002\u0010\u000b\n\u0000\n\u0002\u0010\u0012\n\u0002\b\u0005\n\u0002\u0010\u0006\n\u0002\b\u0003\n\u0002\u0010\u0007\n\u0002\b\u0002\n\u0002\u0010\t\n\u0002\b\u0002\b'\u0018\u0000 \u00172\u00020\u0001:\u0001\u0017B\u0005¢\u0006\u0002\u0010\u0002J\u0010\u0010\u0003\u001a\u00020\u00042\u0006\u0010\u0005\u001a\u00020\u0004H&J\b\u0010\u0006\u001a\u00020\u0007H\u0016J\u0010\u0010\b\u001a\u00020\t2\u0006\u0010\n\u001a\u00020\tH\u0016J$\u0010\b\u001a\u00020\t2\u0006\u0010\n\u001a\u00020\t2\b\b\u0002\u0010\u000b\u001a\u00020\u00042\b\b\u0002\u0010\f\u001a\u00020\u0004H\u0016J\u0010\u0010\b\u001a\u00020\t2\u0006\u0010\r\u001a\u00020\u0004H\u0016J\b\u0010\u000e\u001a\u00020\u000fH\u0016J\u0010\u0010\u000e\u001a\u00020\u000f2\u0006\u0010\u0010\u001a\u00020\u000fH\u0016J\u0018\u0010\u000e\u001a\u00020\u000f2\u0006\u0010\u0011\u001a\u00020\u000f2\u0006\u0010\u0010\u001a\u00020\u000fH\u0016J\b\u0010\u0012\u001a\u00020\u0013H\u0016J\b\u0010\u0014\u001a\u00020\u0004H\u0016J\u0010\u0010\u0014\u001a\u00020\u00042\u0006\u0010\u0010\u001a\u00020\u0004H\u0016J\u0018\u0010\u0014\u001a\u00020\u00042\u0006\u0010\u0011\u001a\u00020\u00042\u0006\u0010\u0010\u001a\u00020\u0004H\u0016J\b\u0010\u0015\u001a\u00020\u0016H\u0016J\u0010\u0010\u0015\u001a\u00020\u00162\u0006\u0010\u0010\u001a\u00020\u0016H\u0016J\u0018\u0010\u0015\u001a\u00020\u00162\u0006\u0010\u0011\u001a\u00020\u00162\u0006\u0010\u0010\u001a\u00020\u0016H\u0016¨\u0006\u0018"}, d2 = {"Lkotlin/random/Random;", "", "()V", "nextBits", "", "bitCount", "nextBoolean", "", "nextBytes", "", "array", "fromIndex", "toIndex", "size", "nextDouble", "", "until", "from", "nextFloat", "", "nextInt", "nextLong", "", "Default", "kotlin-stdlib"}, k = 1, mv = {1, 9, 0}, xi = 48) /* loaded from: classes3.dex */ public abstract class Random { /* renamed from: Default, reason: from kotlin metadata */ public static final Companion INSTANCE = new Companion(null); private static final Random defaultRandom = PlatformImplementationsKt.IMPLEMENTATIONS.defaultPlatformRandom(); public abstract int nextBits(int bitCount); public int nextInt() { return nextBits(32); } public int nextInt(int until) { return nextInt(0, until); } public int nextInt(int from, int until) { int nextInt; int i; int i2; RandomKt.checkRangeBounds(from, until); int i3 = until - from; if (i3 > 0 || i3 == Integer.MIN_VALUE) { if (((-i3) & i3) == i3) { i2 = nextBits(RandomKt.fastLog2(i3)); return from + i2; } do { nextInt = nextInt() >>> 1; i = nextInt % i3; } while ((nextInt - i) + (i3 - 1) < 0); i2 = i; return from + i2; } while (true) { int nextInt2 = nextInt(); if (from <= nextInt2 && nextInt2 < until) { return nextInt2; } } } public long nextLong() { return (nextInt() << 32) + nextInt(); } public long nextLong(long until) { return nextLong(0L, until); } public long nextLong(long from, long until) { long nextLong; long j; long j2; int nextInt; RandomKt.checkRangeBounds(from, until); long j3 = until - from; if (j3 > 0) { if (((-j3) & j3) == j3) { int i = (int) j3; int i2 = (int) (j3 >>> 32); if (i != 0) { nextInt = nextBits(RandomKt.fastLog2(i)); } else if (i2 == 1) { nextInt = nextInt(); } else { j2 = (nextBits(RandomKt.fastLog2(i2)) << 32) + (nextInt() & KeyboardMap.kValueMask); return from + j2; } j2 = nextInt & KeyboardMap.kValueMask; return from + j2; } do { nextLong = nextLong() >>> 1; j = nextLong % j3; } while ((nextLong - j) + (j3 - 1) < 0); j2 = j; return from + j2; } while (true) { long nextLong2 = nextLong(); if (from <= nextLong2 && nextLong2 < until) { return nextLong2; } } } public boolean nextBoolean() { return nextBits(1) != 0; } public double nextDouble() { return PlatformRandomKt.doubleFromParts(nextBits(26), nextBits(27)); } public double nextDouble(double until) { return nextDouble(BuildConfig.SENTRY_SAMPLE_RATE, until); } public double nextDouble(double from, double until) { double nextDouble; RandomKt.checkRangeBounds(from, until); double d = until - from; if (Double.isInfinite(d) && !Double.isInfinite(from) && !Double.isNaN(from) && !Double.isInfinite(until) && !Double.isNaN(until)) { double d2 = 2; double nextDouble2 = nextDouble() * ((until / d2) - (from / d2)); nextDouble = from + nextDouble2 + nextDouble2; } else { nextDouble = from + (nextDouble() * d); } return nextDouble >= until ? Math.nextAfter(until, Double.NEGATIVE_INFINITY) : nextDouble; } public float nextFloat() { return nextBits(24) / 1.6777216E7f; } public static /* synthetic */ byte[] nextBytes$default(Random random, byte[] bArr, int i, int i2, int i3, Object obj) { if (obj != null) { throw new UnsupportedOperationException("Super calls with default arguments not supported in this target, function: nextBytes"); } if ((i3 & 2) != 0) { i = 0; } if ((i3 & 4) != 0) { i2 = bArr.length; } return random.nextBytes(bArr, i, i2); } public byte[] nextBytes(byte[] array, int fromIndex, int toIndex) { Intrinsics.checkNotNullParameter(array, "array"); if (!new IntRange(0, array.length).contains(fromIndex) || !new IntRange(0, array.length).contains(toIndex)) { throw new IllegalArgumentException(("fromIndex (" + fromIndex + ") or toIndex (" + toIndex + ") are out of range: 0.." + array.length + '.').toString()); } if (fromIndex > toIndex) { throw new IllegalArgumentException(("fromIndex (" + fromIndex + ") must be not greater than toIndex (" + toIndex + ").").toString()); } int i = (toIndex - fromIndex) / 4; for (int i2 = 0; i2 < i; i2++) { int nextInt = nextInt(); array[fromIndex] = (byte) nextInt; array[fromIndex + 1] = (byte) (nextInt >>> 8); array[fromIndex + 2] = (byte) (nextInt >>> 16); array[fromIndex + 3] = (byte) (nextInt >>> 24); fromIndex += 4; } int i3 = toIndex - fromIndex; int nextBits = nextBits(i3 * 8); for (int i4 = 0; i4 < i3; i4++) { array[fromIndex + i4] = (byte) (nextBits >>> (i4 * 8)); } return array; } public byte[] nextBytes(byte[] array) { Intrinsics.checkNotNullParameter(array, "array"); return nextBytes(array, 0, array.length); } public byte[] nextBytes(int size) { return nextBytes(new byte[size]); } /* compiled from: Random.kt */ @Metadata(d1 = {"\u0000H\n\u0002\u0018\u0002\n\u0002\u0018\u0002\n\u0002\u0018\u0002\n\u0002\u0018\u0002\n\u0002\b\u0003\n\u0002\u0010\b\n\u0002\b\u0002\n\u0002\u0010\u000b\n\u0000\n\u0002\u0010\u0012\n\u0002\b\u0005\n\u0002\u0010\u0006\n\u0002\b\u0003\n\u0002\u0010\u0007\n\u0002\b\u0002\n\u0002\u0010\t\n\u0000\n\u0002\u0010\u0000\n\u0002\b\u0002\b\u0086\u0003\u0018\u00002\u00020\u00012\u00060\u0002j\u0002`\u0003:\u0001\u001cB\u0007\b\u0002¢\u0006\u0002\u0010\u0004J\u0010\u0010\u0006\u001a\u00020\u00072\u0006\u0010\b\u001a\u00020\u0007H\u0016J\b\u0010\t\u001a\u00020\nH\u0016J\u0010\u0010\u000b\u001a\u00020\f2\u0006\u0010\r\u001a\u00020\fH\u0016J \u0010\u000b\u001a\u00020\f2\u0006\u0010\r\u001a\u00020\f2\u0006\u0010\u000e\u001a\u00020\u00072\u0006\u0010\u000f\u001a\u00020\u0007H\u0016J\u0010\u0010\u000b\u001a\u00020\f2\u0006\u0010\u0010\u001a\u00020\u0007H\u0016J\b\u0010\u0011\u001a\u00020\u0012H\u0016J\u0010\u0010\u0011\u001a\u00020\u00122\u0006\u0010\u0013\u001a\u00020\u0012H\u0016J\u0018\u0010\u0011\u001a\u00020\u00122\u0006\u0010\u0014\u001a\u00020\u00122\u0006\u0010\u0013\u001a\u00020\u0012H\u0016J\b\u0010\u0015\u001a\u00020\u0016H\u0016J\b\u0010\u0017\u001a\u00020\u0007H\u0016J\u0010\u0010\u0017\u001a\u00020\u00072\u0006\u0010\u0013\u001a\u00020\u0007H\u0016J\u0018\u0010\u0017\u001a\u00020\u00072\u0006\u0010\u0014\u001a\u00020\u00072\u0006\u0010\u0013\u001a\u00020\u0007H\u0016J\b\u0010\u0018\u001a\u00020\u0019H\u0016J\u0010\u0010\u0018\u001a\u00020\u00192\u0006\u0010\u0013\u001a\u00020\u0019H\u0016J\u0018\u0010\u0018\u001a\u00020\u00192\u0006\u0010\u0014\u001a\u00020\u00192\u0006\u0010\u0013\u001a\u00020\u0019H\u0016J\b\u0010\u001a\u001a\u00020\u001bH\u0002R\u000e\u0010\u0005\u001a\u00020\u0001X\u0082\u0004¢\u0006\u0002\n\u0000¨\u0006\u001d"}, d2 = {"Lkotlin/random/Random$Default;", "Lkotlin/random/Random;", "Ljava/io/Serializable;", "Lkotlin/io/Serializable;", "()V", "defaultRandom", "nextBits", "", "bitCount", "nextBoolean", "", "nextBytes", "", "array", "fromIndex", "toIndex", "size", "nextDouble", "", "until", "from", "nextFloat", "", "nextInt", "nextLong", "", "writeReplace", "", "Serialized", "kotlin-stdlib"}, k = 1, mv = {1, 9, 0}, xi = 48) /* renamed from: kotlin.random.Random$Default, reason: from kotlin metadata */ /* loaded from: classes3.dex */ public static final class Companion extends Random implements Serializable { public /* synthetic */ Companion(DefaultConstructorMarker defaultConstructorMarker) { this(); } private Companion() { } /* compiled from: Random.kt */ @Metadata(d1 = {"\u0000\u001c\n\u0002\u0018\u0002\n\u0002\u0018\u0002\n\u0002\u0018\u0002\n\u0002\b\u0002\n\u0002\u0010\t\n\u0000\n\u0002\u0010\u0000\n\u0000\bÂ\u0002\u0018\u00002\u00060\u0001j\u0002`\u0002B\u0007\b\u0002¢\u0006\u0002\u0010\u0003J\b\u0010\u0006\u001a\u00020\u0007H\u0002R\u000e\u0010\u0004\u001a\u00020\u0005X\u0082T¢\u0006\u0002\n\u0000¨\u0006\b"}, d2 = {"Lkotlin/random/Random$Default$Serialized;", "Ljava/io/Serializable;", "Lkotlin/io/Serializable;", "()V", "serialVersionUID", "", "readResolve", "", "kotlin-stdlib"}, k = 1, mv = {1, 9, 0}, xi = 48) /* renamed from: kotlin.random.Random$Default$Serialized */ /* loaded from: classes3.dex */ private static final class Serialized implements Serializable { public static final Serialized INSTANCE = new Serialized(); private static final long serialVersionUID = 0; private Serialized() { } private final Object readResolve() { return Random.INSTANCE; } } private final Object writeReplace() { return Serialized.INSTANCE; } @Override // kotlin.random.Random public int nextBits(int bitCount) { return Random.defaultRandom.nextBits(bitCount); } @Override // kotlin.random.Random public int nextInt() { return Random.defaultRandom.nextInt(); } @Override // kotlin.random.Random public int nextInt(int until) { return Random.defaultRandom.nextInt(until); } @Override // kotlin.random.Random public int nextInt(int from, int until) { return Random.defaultRandom.nextInt(from, until); } @Override // kotlin.random.Random public long nextLong() { return Random.defaultRandom.nextLong(); } @Override // kotlin.random.Random public long nextLong(long until) { return Random.defaultRandom.nextLong(until); } @Override // kotlin.random.Random public long nextLong(long from, long until) { return Random.defaultRandom.nextLong(from, until); } @Override // kotlin.random.Random public boolean nextBoolean() { return Random.defaultRandom.nextBoolean(); } @Override // kotlin.random.Random public double nextDouble() { return Random.defaultRandom.nextDouble(); } @Override // kotlin.random.Random public double nextDouble(double until) { return Random.defaultRandom.nextDouble(until); } @Override // kotlin.random.Random public double nextDouble(double from, double until) { return Random.defaultRandom.nextDouble(from, until); } @Override // kotlin.random.Random public float nextFloat() { return Random.defaultRandom.nextFloat(); } @Override // kotlin.random.Random public byte[] nextBytes(byte[] array) { Intrinsics.checkNotNullParameter(array, "array"); return Random.defaultRandom.nextBytes(array); } @Override // kotlin.random.Random public byte[] nextBytes(int size) { return Random.defaultRandom.nextBytes(size); } @Override // kotlin.random.Random public byte[] nextBytes(byte[] array, int fromIndex, int toIndex) { Intrinsics.checkNotNullParameter(array, "array"); return Random.defaultRandom.nextBytes(array, fromIndex, toIndex); } } }