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Results 1 - 10 of 22 for HALF_DOWN (0.22 sec)
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guava-tests/test/com/google/common/math/BigDecimalMathTest.java
double twoToThe53 = Math.pow(2, 53); // the representable doubles are 2^53 and 2^53 + 2. // 2^53+1 is halfway between, so HALF_UP will go up and HALF_DOWN will go down. new RoundToDoubleTester(BigDecimal.valueOf((1L << 53) + 1)) .setExpectation(twoToThe53, DOWN, FLOOR, HALF_DOWN, HALF_EVEN) .setExpectation(Math.nextUp(twoToThe53), CEILING, UP, HALF_UP) .roundUnnecessaryShouldThrow() .test(); }
Java - Registered: Fri Apr 12 12:43:09 GMT 2024 - Last Modified: Wed Sep 06 17:04:31 GMT 2023 - 10.6K bytes - Viewed (0) -
android/guava-tests/test/com/google/common/math/BigDecimalMathTest.java
double twoToThe53 = Math.pow(2, 53); // the representable doubles are 2^53 and 2^53 + 2. // 2^53+1 is halfway between, so HALF_UP will go up and HALF_DOWN will go down. new RoundToDoubleTester(BigDecimal.valueOf((1L << 53) + 1)) .setExpectation(twoToThe53, DOWN, FLOOR, HALF_DOWN, HALF_EVEN) .setExpectation(Math.nextUp(twoToThe53), CEILING, UP, HALF_UP) .roundUnnecessaryShouldThrow() .test(); }
Java - Registered: Fri May 03 12:43:13 GMT 2024 - Last Modified: Wed Sep 06 17:04:31 GMT 2023 - 10.6K bytes - Viewed (0) -
guava-tests/test/com/google/common/math/BigIntegerMathTest.java
double twoToThe53 = Math.pow(2, 53); // the representable doubles are 2^53 and 2^53 + 2. // 2^53+1 is halfway between, so HALF_UP will go up and HALF_DOWN will go down. new RoundToDoubleTester(BigInteger.valueOf((1L << 53) + 1)) .setExpectation(twoToThe53, DOWN, FLOOR, HALF_DOWN, HALF_EVEN) .setExpectation(Math.nextUp(twoToThe53), CEILING, UP, HALF_UP) .roundUnnecessaryShouldThrow() .test(); }
Java - Registered: Fri Apr 12 12:43:09 GMT 2024 - Last Modified: Wed Feb 07 17:50:39 GMT 2024 - 28.2K bytes - Viewed (0) -
android/guava-tests/test/com/google/common/math/BigIntegerMathTest.java
double twoToThe53 = Math.pow(2, 53); // the representable doubles are 2^53 and 2^53 + 2. // 2^53+1 is halfway between, so HALF_UP will go up and HALF_DOWN will go down. new RoundToDoubleTester(BigInteger.valueOf((1L << 53) + 1)) .setExpectation(twoToThe53, DOWN, FLOOR, HALF_DOWN, HALF_EVEN) .setExpectation(Math.nextUp(twoToThe53), CEILING, UP, HALF_UP) .roundUnnecessaryShouldThrow() .test(); }
Java - Registered: Fri May 03 12:43:13 GMT 2024 - Last Modified: Wed Feb 07 17:50:39 GMT 2024 - 28.2K bytes - Viewed (0) -
android/guava/src/com/google/common/math/ToDoubleRounder.java
checkNotNull(mode, "mode"); double roundArbitrarily = roundToDoubleArbitrarily(x); if (Double.isInfinite(roundArbitrarily)) { switch (mode) { case DOWN: case HALF_EVEN: case HALF_DOWN: case HALF_UP: return Double.MAX_VALUE * sign(x); case FLOOR: return (roundArbitrarily == Double.POSITIVE_INFINITY) ? Double.MAX_VALUE
Java - Registered: Fri Apr 26 12:43:10 GMT 2024 - Last Modified: Wed Feb 07 17:50:39 GMT 2024 - 5.8K bytes - Viewed (0) -
guava-tests/benchmark/com/google/common/math/DoubleMathRoundingBenchmark.java
private static final double[] doubleInLongRange = new double[ARRAY_SIZE]; private static final double[] positiveDoubles = new double[ARRAY_SIZE]; @Param({"DOWN", "UP", "FLOOR", "CEILING", "HALF_EVEN", "HALF_UP", "HALF_DOWN"}) RoundingMode mode; @BeforeExperiment void setUp() { for (int i = 0; i < ARRAY_SIZE; i++) { doubleInIntRange[i] = randomDouble(Integer.SIZE - 2);
Java - Registered: Fri Apr 19 12:43:09 GMT 2024 - Last Modified: Mon Dec 04 17:37:03 GMT 2017 - 2.6K bytes - Viewed (0) -
android/guava-tests/benchmark/com/google/common/math/IntMathRoundingBenchmark.java
nonzero[i] = randomNonZeroBigInteger(Integer.SIZE - 2).intValue(); ints[i] = RANDOM_SOURCE.nextInt(); } } @Param({"DOWN", "UP", "FLOOR", "CEILING", "HALF_EVEN", "HALF_UP", "HALF_DOWN"}) RoundingMode mode; @Benchmark int log2(int reps) { int tmp = 0; for (int i = 0; i < reps; i++) { int j = i & ARRAY_MASK; tmp += IntMath.log2(positive[j], mode); }
Java - Registered: Fri May 03 12:43:13 GMT 2024 - Last Modified: Mon Dec 04 17:37:03 GMT 2017 - 2.6K bytes - Viewed (0) -
android/guava/src/com/google/common/math/BigIntegerMath.java
case DOWN: case FLOOR: return logFloor; case UP: case CEILING: return isPowerOfTwo(x) ? logFloor : logFloor + 1; case HALF_DOWN: case HALF_UP: case HALF_EVEN: if (logFloor < SQRT2_PRECOMPUTE_THRESHOLD) { BigInteger halfPower = SQRT2_PRECOMPUTED_BITS.shiftRight(SQRT2_PRECOMPUTE_THRESHOLD - logFloor);
Java - Registered: Fri Apr 26 12:43:10 GMT 2024 - Last Modified: Wed Feb 07 17:50:39 GMT 2024 - 18.9K bytes - Viewed (0) -
guava-tests/benchmark/com/google/common/math/IntMathRoundingBenchmark.java
nonzero[i] = randomNonZeroBigInteger(Integer.SIZE - 2).intValue(); ints[i] = RANDOM_SOURCE.nextInt(); } } @Param({"DOWN", "UP", "FLOOR", "CEILING", "HALF_EVEN", "HALF_UP", "HALF_DOWN"}) RoundingMode mode; @Benchmark int log2(int reps) { int tmp = 0; for (int i = 0; i < reps; i++) { int j = i & ARRAY_MASK; tmp += IntMath.log2(positive[j], mode); }
Java - Registered: Fri Apr 19 12:43:09 GMT 2024 - Last Modified: Mon Dec 04 17:37:03 GMT 2017 - 2.6K bytes - Viewed (0) -
guava-tests/benchmark/com/google/common/math/LongMathRoundingBenchmark.java
/** * Benchmarks for the rounding methods of {@code LongMath}. * * @author Louis Wasserman */ public class LongMathRoundingBenchmark { @Param({"DOWN", "UP", "FLOOR", "CEILING", "HALF_EVEN", "HALF_UP", "HALF_DOWN"}) RoundingMode mode; private static final long[] positive = new long[ARRAY_SIZE]; private static final long[] nonzero = new long[ARRAY_SIZE]; private static final long[] longs = new long[ARRAY_SIZE];
Java - Registered: Fri Apr 19 12:43:09 GMT 2024 - Last Modified: Mon Dec 04 17:37:03 GMT 2017 - 2.6K bytes - Viewed (0)