/*
* Copyright (c) 2021, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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*/
package org.openjdk.bench.java.lang;
import java.util.concurrent.TimeUnit;
import org.openjdk.jmh.annotations.Benchmark;
import org.openjdk.jmh.annotations.BenchmarkMode;
import org.openjdk.jmh.annotations.Fork;
import org.openjdk.jmh.annotations.Measurement;
import org.openjdk.jmh.annotations.Mode;
import org.openjdk.jmh.annotations.OutputTimeUnit;
import org.openjdk.jmh.annotations.Scope;
import org.openjdk.jmh.annotations.State;
import org.openjdk.jmh.annotations.Warmup;
@Warmup(iterations = 5, time = 1, timeUnit = TimeUnit.SECONDS)
@Measurement(iterations = 5, time = 1, timeUnit = TimeUnit.SECONDS)
@Fork(2)
@OutputTimeUnit(TimeUnit.MILLISECONDS)
@BenchmarkMode(Mode.Throughput)
@State(Scope.Thread)
public class StrictMathBench {
public int int1 = 1, int2 = 2, int42 = 42, int5 = 5;
public long long1 = 1L, long2 = 2L, long747 = 747L, long13 = 13L;
public float float1 = 1.0f, float2 = 2.0f, floatNegative99 = -99.0f, float7 = 7.0f, eFloat = 2.718f;
public double double1 = 1.0d, double2 = 2.0d, double81 = 81.0d, doubleNegative12 = -12.0d, double4Dot1 = 4.1d;
@Benchmark
public double absDouble() {
return StrictMath.abs(doubleNegative12);
}
@Benchmark
public int absExactInt() {
return StrictMath.absExact(int2);
}
@Benchmark
public long absExactLong() {
return StrictMath.absExact(long2);
}
@Benchmark
public float absFloat() {
return StrictMath.abs(floatNegative99);
}
@Benchmark
public int absInt() {
return StrictMath.abs(int42);
}
@Benchmark
public long absLong() {
return StrictMath.abs(long13);
}
@Benchmark
public double acosDouble() {
return StrictMath.acos(double1);
}
@Benchmark
public int addExactInt() {
return StrictMath.addExact(int42, int5);
}
@Benchmark
public long addExactLong() {
return StrictMath.addExact(long2, long13);
}
@Benchmark
public double asinDouble() {
return StrictMath.asin(double1);
}
@Benchmark
public double atanDouble() {
return StrictMath.atan(double1);
}
@Benchmark
public double atan2Double() {
return StrictMath.atan2(double1, double2);
}
@Benchmark
public double cbrt() {
return StrictMath.cbrt(double81);
}
@Benchmark
public double ceilDouble() {
return StrictMath.ceil(double4Dot1);
}
@Benchmark
public double copySignDouble() {
return StrictMath.copySign(double81, doubleNegative12);
}
@Benchmark
public float copySignFloat() {
return StrictMath.copySign(floatNegative99, float1);
}
@Benchmark
public double cosDouble() {
return StrictMath.cos(double1);
}
@Benchmark
public double coshDouble() {
return StrictMath.cosh(double2);
}
@Benchmark
public int decrementExactInt() {
return StrictMath.decrementExact(int42);
}
@Benchmark
public long decrementExactLong() {
return StrictMath.decrementExact(long747);
}
@Benchmark
public double expDouble() {
return StrictMath.exp(double4Dot1);
}
@Benchmark
public double expm1() {
return StrictMath.expm1(doubleNegative12);
}
@Benchmark
public double floorDouble() {
return StrictMath.floor(doubleNegative12);
}
@Benchmark
public int floorDivIntInt() {
return StrictMath.floorDiv(int42, int5);
}
@Benchmark
public long floorDivLongInt() {
return StrictMath.floorDiv(long747, int42);
}
@Benchmark
public long floorDivLongLong() {
return StrictMath.floorDiv(long747, long13);
}
@Benchmark
public int floorModIntInt() {
return StrictMath.floorMod(int42, int5);
}
@Benchmark
public int floorModLongInt() {
return StrictMath.floorMod(long747, int5);
}
@Benchmark
public long floorModLongLong() {
return StrictMath.floorMod(long747, long13);
}
@Benchmark
public double fmaDouble() {
return StrictMath.fma(double2, double81, double4Dot1);
}
@Benchmark
public float fmaFloat() {
return StrictMath.fma(float2, floatNegative99, float7);
}
@Benchmark
public int getExponentDouble() {
return StrictMath.getExponent(double81);
}
@Benchmark
public int getExponentFloat() {
return StrictMath.getExponent(float7);
}
@Benchmark
public double hypotDouble() {
return StrictMath.hypot(double2, double4Dot1);
}
@Benchmark
public double IEEERemainderDouble() {
return StrictMath.IEEEremainder(double81, double4Dot1);
}
@Benchmark
public int IncrementExactInt() {
return StrictMath.incrementExact(int42);
}
@Benchmark
public long IncrementExactLong() {
return StrictMath.incrementExact(long747);
}
@Benchmark
public double logDouble() {
return StrictMath.log(double81);
}
@Benchmark
public double log10Double() {
return StrictMath.log10(double81);
}
@Benchmark
public double log1pDouble() {
return StrictMath.log1p(double81);
}
@Benchmark
public int maxInt() {
return StrictMath.max(int1, int2);
}
@Benchmark
public long maxLong() {
return StrictMath.max(long1, long2);
}
@Benchmark
public float maxFloat() {
return StrictMath.max(float1, float2);
}
@Benchmark
public double maxDouble() {
return StrictMath.max(double1, doubleNegative12);
}
@Benchmark
public int minInt() {
return StrictMath.min(int1, int2);
}
@Benchmark
public long minLong() {
return StrictMath.min(long1, long2);
}
@Benchmark
public float minFloat() {
return StrictMath.min(float1, floatNegative99);
}
@Benchmark
public double minDouble() {
return StrictMath.min(double4Dot1, double2);
}
@Benchmark
public int multiplyExactInt() {
return StrictMath.multiplyExact(int42, int5);
}
@Benchmark
public long multiplyExactLongInt() {
return StrictMath.multiplyExact(long747, int42);
}
@Benchmark
public long multiplyExactLongLong() {
return StrictMath.multiplyExact(long747, long13);
}
@Benchmark
public long multiplyFullIntInt() {
return StrictMath.multiplyFull(int42, int5);
}
@Benchmark
public long multiplyHighLongLog() {
return StrictMath.multiplyHigh(long747, long13);
}
@Benchmark
public int negateExactInt() {
return StrictMath.negateExact(int42);
}
@Benchmark
public long negateExactLong() {
return StrictMath.negateExact(long747);
}
@Benchmark
public double nextAfterDoubleDouble() {
return StrictMath.nextAfter(double81, double4Dot1);
}
@Benchmark
public float nextAfterFloatDouble() {
return StrictMath.nextAfter(float7, doubleNegative12);
}
@Benchmark
public double nextDownDouble() {
return StrictMath.nextDown(float7);
}
@Benchmark
public float nextDownFloat() {
return StrictMath.nextDown(floatNegative99);
}
@Benchmark
public double nextUpDouble() {
return StrictMath.nextUp(double81);
}
@Benchmark
public float nextUpFloat() {
return StrictMath.nextUp(float7);
}
@Benchmark
public double powDouble() {
return StrictMath.pow(double4Dot1, double2);
}
@Benchmark
public double random() {
return StrictMath.random();
}
@Benchmark
public double rintDouble() {
return StrictMath.rint(double4Dot1);
}
@Benchmark
public long roundDouble() {
return StrictMath.round( StrictMath.PI);
}
@Benchmark
public int roundFloat() {
return StrictMath.round(eFloat);
}
@Benchmark
public double scalbDoubleInt() {
return StrictMath.scalb(double81, int2);
}
@Benchmark
public float scalbFloatInt() {
return StrictMath.scalb(float7, int2);
}
@Benchmark
public double sigNumDouble() {
return StrictMath.signum(double4Dot1);
}
@Benchmark
public double signumFloat() {
return StrictMath.signum(floatNegative99);
}
@Benchmark
public double sinDouble() {
return StrictMath.sin(double1);
}
@Benchmark
public double sinhDouble() {
return StrictMath.sinh(double4Dot1);
}
@Benchmark
public double sqrtDouble() {
return StrictMath.sqrt(double4Dot1);
}
@Benchmark
public double subtractExactIntInt() {
return StrictMath.subtractExact(int42,int5);
}
@Benchmark
public double subtractExactLongLong() {
return StrictMath.subtractExact(long747,long13);
}
@Benchmark
public double tanDouble() {
return StrictMath.tan(double1);
}
@Benchmark
public double tanhDouble() {
return StrictMath.tanh(double1);
}
@Benchmark
public double toDegreesDouble() {
return StrictMath.toDegrees(double81);
}
@Benchmark
public double toIntExactLong() {
return StrictMath.toIntExact(long747);
}
@Benchmark
public double toRadiansDouble() {
return StrictMath.toRadians(double81);
}
@Benchmark
public double ulpDouble() {
return StrictMath.ulp(double4Dot1);
}
@Benchmark
public double ulpFloat() {
return StrictMath.ulp(float7);
}
}