package kotlin.math; import androidx.constraintlayout.widget.ConstraintLayout; import androidx.media3.exoplayer.upstream.CmcdHeadersFactory; import io.sentry.protocol.MetricSummary; import io.sentry.protocol.ViewHierarchyNode; import kotlin.Metadata; import tech.rabbit.r1launcher.BuildConfig; /* JADX INFO: Access modifiers changed from: package-private */ /* compiled from: MathJVM.kt */ @Metadata(d1 = 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d2 = {"absoluteValue", "", "getAbsoluteValue$annotations", "(D)V", "getAbsoluteValue", "(D)D", "", "(F)V", "(F)F", "", "(I)V", "(I)I", "", "(J)V", "(J)J", "sign", "getSign$annotations", "getSign", "(J)I", "ulp", "getUlp$annotations", "getUlp", "abs", ViewHierarchyNode.JsonKeys.X, "n", "acos", "acosh", "asin", "asinh", "atan", "atan2", ViewHierarchyNode.JsonKeys.Y, "atanh", "cbrt", "ceil", "cos", "cosh", "exp", "expm1", "floor", "hypot", "ln", "ln1p", "log", "base", "log10", "log2", MetricSummary.JsonKeys.MAX, CmcdHeadersFactory.OBJECT_TYPE_AUDIO_ONLY, "b", MetricSummary.JsonKeys.MIN, "round", "sin", "sinh", "sqrt", "tan", "tanh", "truncate", "IEEErem", "divisor", "nextDown", "nextTowards", "to", "nextUp", "pow", "roundToInt", "roundToLong", "withSign", "kotlin-stdlib"}, k = 5, mv = {1, 9, 0}, xi = ConstraintLayout.LayoutParams.Table.LAYOUT_EDITOR_ABSOLUTEX, xs = "kotlin/math/MathKt") /* loaded from: classes3.dex */ public class MathKt__MathJVMKt extends MathKt__MathHKt { public static /* synthetic */ void getAbsoluteValue$annotations(double d) { } public static /* synthetic */ void getAbsoluteValue$annotations(float f) { } public static /* synthetic */ void getAbsoluteValue$annotations(int i) { } public static /* synthetic */ void getAbsoluteValue$annotations(long j) { } public static final int getSign(int i) { if (i < 0) { return -1; } return i > 0 ? 1 : 0; } public static final int getSign(long j) { if (j < 0) { return -1; } return j > 0 ? 1 : 0; } public static /* synthetic */ void getSign$annotations(double d) { } public static /* synthetic */ void getSign$annotations(float f) { } public static /* synthetic */ void getSign$annotations(int i) { } public static /* synthetic */ void getSign$annotations(long j) { } public static /* synthetic */ void getUlp$annotations(double d) { } public static /* synthetic */ void getUlp$annotations(float f) { } private static final double sin(double d) { return Math.sin(d); } private static final double cos(double d) { return Math.cos(d); } private static final double tan(double d) { return Math.tan(d); } private static final double asin(double d) { return Math.asin(d); } private static final double acos(double d) { return Math.acos(d); } private static final double atan(double d) { return Math.atan(d); } private static final double atan2(double d, double d2) { return Math.atan2(d, d2); } private static final double sinh(double d) { return Math.sinh(d); } private static final double cosh(double d) { return Math.cosh(d); } private static final double tanh(double d) { return Math.tanh(d); } public static final double asinh(double d) { if (d < Constants.taylor_n_bound) { return d <= (-Constants.taylor_n_bound) ? -MathKt.asinh(-d) : Math.abs(d) >= Constants.taylor_2_bound ? d - (((d * d) * d) / 6) : d; } if (d <= Constants.upper_taylor_n_bound) { return Math.log(d + Math.sqrt((d * d) + 1)); } if (d > Constants.upper_taylor_2_bound) { return Math.log(d) + Constants.LN2; } double d2 = d * 2; return Math.log(d2 + (1 / d2)); } public static final double acosh(double d) { if (d < 1.0d) { return Double.NaN; } if (d > Constants.upper_taylor_2_bound) { return Math.log(d) + Constants.LN2; } double d2 = 1; double d3 = d - d2; if (d3 >= Constants.taylor_n_bound) { return Math.log(d + Math.sqrt((d * d) - d2)); } double sqrt = Math.sqrt(d3); if (sqrt >= Constants.taylor_2_bound) { sqrt -= ((sqrt * sqrt) * sqrt) / 12; } return sqrt * Math.sqrt(2.0d); } public static final double atanh(double d) { if (Math.abs(d) < Constants.taylor_n_bound) { return Math.abs(d) > Constants.taylor_2_bound ? d + (((d * d) * d) / 3) : d; } double d2 = 1; return Math.log((d2 + d) / (d2 - d)) / 2; } private static final double hypot(double d, double d2) { return Math.hypot(d, d2); } private static final double sqrt(double d) { return Math.sqrt(d); } private static final double exp(double d) { return Math.exp(d); } private static final double expm1(double d) { return Math.expm1(d); } public static final double log(double d, double d2) { if (d2 <= BuildConfig.SENTRY_SAMPLE_RATE || d2 == 1.0d) { return Double.NaN; } return Math.log(d) / Math.log(d2); } private static final double ln(double d) { return Math.log(d); } private static final double log10(double d) { return Math.log10(d); } public static final double log2(double d) { return Math.log(d) / Constants.LN2; } private static final double ln1p(double d) { return Math.log1p(d); } private static final double ceil(double d) { return Math.ceil(d); } private static final double floor(double d) { return Math.floor(d); } public static final double truncate(double d) { if (Double.isNaN(d) || Double.isInfinite(d)) { return d; } if (d > BuildConfig.SENTRY_SAMPLE_RATE) { return Math.floor(d); } return Math.ceil(d); } private static final double round(double d) { return Math.rint(d); } private static final double abs(double d) { return Math.abs(d); } private static final double sign(double d) { return Math.signum(d); } private static final double min(double d, double d2) { return Math.min(d, d2); } private static final double max(double d, double d2) { return Math.max(d, d2); } private static final double cbrt(double d) { return Math.cbrt(d); } private static final double pow(double d, double d2) { return Math.pow(d, d2); } private static final double pow(double d, int i) { return Math.pow(d, i); } private static final double IEEErem(double d, double d2) { return Math.IEEEremainder(d, d2); } private static final double getAbsoluteValue(double d) { return Math.abs(d); } private static final double getSign(double d) { return Math.signum(d); } private static final double withSign(double d, double d2) { return Math.copySign(d, d2); } private static final double withSign(double d, int i) { return Math.copySign(d, i); } private static final double getUlp(double d) { return Math.ulp(d); } private static final double nextUp(double d) { return Math.nextUp(d); } private static final double nextDown(double d) { return Math.nextAfter(d, Double.NEGATIVE_INFINITY); } private static final double nextTowards(double d, double d2) { return Math.nextAfter(d, d2); } public static final int roundToInt(double d) { if (Double.isNaN(d)) { throw new IllegalArgumentException("Cannot round NaN value."); } if (d > 2.147483647E9d) { return Integer.MAX_VALUE; } if (d < -2.147483648E9d) { return Integer.MIN_VALUE; } return (int) Math.round(d); } public static final long roundToLong(double d) { if (Double.isNaN(d)) { throw new IllegalArgumentException("Cannot round NaN value."); } return Math.round(d); } private static final float sin(float f) { return (float) Math.sin(f); } private static final float cos(float f) { return (float) Math.cos(f); } private static final float tan(float f) { return (float) Math.tan(f); } private static final float asin(float f) { return (float) Math.asin(f); } private static final float acos(float f) { return (float) Math.acos(f); } private static final float atan(float f) { return (float) Math.atan(f); } private static final float atan2(float f, float f2) { return (float) Math.atan2(f, f2); } private static final float sinh(float f) { return (float) Math.sinh(f); } private static final float cosh(float f) { return (float) Math.cosh(f); } private static final float tanh(float f) { return (float) Math.tanh(f); } private static final float asinh(float f) { return (float) MathKt.asinh(f); } private static final float acosh(float f) { return (float) MathKt.acosh(f); } private static final float atanh(float f) { return (float) MathKt.atanh(f); } private static final float hypot(float f, float f2) { return (float) Math.hypot(f, f2); } private static final float sqrt(float f) { return (float) Math.sqrt(f); } private static final float exp(float f) { return (float) Math.exp(f); } private static final float expm1(float f) { return (float) Math.expm1(f); } public static final float log(float f, float f2) { if (f2 <= 0.0f || f2 == 1.0f) { return Float.NaN; } return (float) (Math.log(f) / Math.log(f2)); } private static final float ln(float f) { return (float) Math.log(f); } private static final float log10(float f) { return (float) Math.log10(f); } public static final float log2(float f) { return (float) (Math.log(f) / Constants.LN2); } private static final float ln1p(float f) { return (float) Math.log1p(f); } private static final float ceil(float f) { return (float) Math.ceil(f); } private static final float floor(float f) { return (float) Math.floor(f); } public static final float truncate(float f) { double ceil; if (Float.isNaN(f) || Float.isInfinite(f)) { return f; } if (f > 0.0f) { ceil = Math.floor(f); } else { ceil = Math.ceil(f); } return (float) ceil; } private static final float round(float f) { return (float) Math.rint(f); } private static final float abs(float f) { return Math.abs(f); } private static final float sign(float f) { return Math.signum(f); } private static final float min(float f, float f2) { return Math.min(f, f2); } private static final float max(float f, float f2) { return Math.max(f, f2); } private static final float cbrt(float f) { return (float) Math.cbrt(f); } private static final float pow(float f, float f2) { return (float) Math.pow(f, f2); } private static final float pow(float f, int i) { return (float) Math.pow(f, i); } private static final float IEEErem(float f, float f2) { return (float) Math.IEEEremainder(f, f2); } private static final float getAbsoluteValue(float f) { return Math.abs(f); } private static final float getSign(float f) { return Math.signum(f); } private static final float withSign(float f, float f2) { return Math.copySign(f, f2); } private static final float withSign(float f, int i) { return Math.copySign(f, i); } private static final float getUlp(float f) { return Math.ulp(f); } private static final float nextUp(float f) { return Math.nextUp(f); } private static final float nextDown(float f) { return Math.nextAfter(f, Double.NEGATIVE_INFINITY); } private static final float nextTowards(float f, float f2) { return Math.nextAfter(f, f2); } public static final int roundToInt(float f) { if (Float.isNaN(f)) { throw new IllegalArgumentException("Cannot round NaN value."); } return Math.round(f); } public static final long roundToLong(float f) { return MathKt.roundToLong(f); } private static final int abs(int i) { return Math.abs(i); } private static final int min(int i, int i2) { return Math.min(i, i2); } private static final int max(int i, int i2) { return Math.max(i, i2); } private static final int getAbsoluteValue(int i) { return Math.abs(i); } private static final long abs(long j) { return Math.abs(j); } private static final long min(long j, long j2) { return Math.min(j, j2); } private static final long max(long j, long j2) { return Math.max(j, j2); } private static final long getAbsoluteValue(long j) { return Math.abs(j); } }