/*
* Copyright ( C ) 2014 The Android Open Source Project
*
* Licensed under the Apache License , Version 2 . 0 ( the " License " ) ;
* you may not use this file except in compliance with the License .
* You may obtain a copy of the License at
*
* http : //www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing , software
* distributed under the License is distributed on an " AS IS " BASIS ,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND , either express or implied .
* See the License for the specific language governing permissions and
* limitations under the License .
*/
public class Main {
public static void main(String[] args) {
remFloat();
remDouble();
}
private static void remFloat() {
expectApproxEquals(1 .98 F, $opt$Rem(1 .98 F, 2 F));
expectApproxEquals(0 F, $opt$Rem(2 F, 0 .5 F));
expectApproxEquals(0 .09999 F, $opt$Rem(1 .0 F, 0 .1 F));
expectApproxEquals(1 .9 F, $opt$Rem(6 .5 F, 2 .3 F));
expectApproxEquals(0 .48 F, $opt$Rem(1 .98 F, 1 .5 F));
expectApproxEquals(0 .9999 F, $opt$Rem(0 .9999 F, 1 .222 F));
expectApproxEquals(0 .9999 F, $opt$Rem(0 .9999 F, 1 .0001 F));
expectApproxEquals(-1 .98 F, $opt$Rem(-1 .98 F, 2 F));
expectApproxEquals(-0 F, $opt$Rem(-2 F, 0 .5 F));
expectApproxEquals(-0 .09999 F, $opt$Rem(-1 .0 F, 0 .1 F));
expectApproxEquals(-1 .9 F, $opt$Rem(-6 .5 F, 2 .3 F));
expectApproxEquals(-0 .48 F, $opt$Rem(-1 .98 F, 1 .5 F));
expectApproxEquals(-0 .9999 F, $opt$Rem(-0 .9999 F, 1 .222 F));
expectApproxEquals(-0 .9999 F, $opt$Rem(-0 .9999 F, 1 .0001 F));
expectApproxEquals(1 .98 F, $opt$Rem(1 .98 F, -2 F));
expectApproxEquals(0 F, $opt$Rem(2 F, -0 .5 F));
expectApproxEquals(0 .09999 F, $opt$Rem(1 .0 F, -0 .1 F));
expectApproxEquals(1 .9 F, $opt$Rem(6 .5 F, -2 .3 F));
expectApproxEquals(0 .48 F, $opt$Rem(1 .98 F, -1 .5 F));
expectApproxEquals(0 .9999 F, $opt$Rem(0 .9999 F, -1 .222 F));
expectApproxEquals(0 .9999 F, $opt$Rem(0 .9999 F, -1 .0001 F));
expectApproxEquals(-1 .98 F, $opt$Rem(-1 .98 F, -2 F));
expectApproxEquals(-0 F, $opt$Rem(-2 F, -0 .5 F));
expectApproxEquals(-0 .09999 F, $opt$Rem(-1 .0 F, -0 .1 F));
expectApproxEquals(-1 .9 F, $opt$Rem(-6 .5 F, -2 .3 F));
expectApproxEquals(-0 .48 F, $opt$Rem(-1 .98 F, -1 .5 F));
expectApproxEquals(-0 .9999 F, $opt$Rem(-0 .9999 F, -1 .222 F));
expectApproxEquals(-0 .9999 F, $opt$Rem(-0 .9999 F, -1 .0001 F));
expectApproxEquals(1 .68267 e-18 F, $opt$Rem(61615 .2 F, -2 .48699 e-17 F));
expectApproxEquals(-8 .63819 e-09 F, $opt$Rem(-1 .73479 e+14 F, 3 .11154 e-08 F));
expectApproxEquals(1 .10911 e-12 F, $opt$Rem(338122 F, 4 .57572 e-12 F));
expectApproxEquals(2 F, $opt$RemConst(6 F));
expectApproxEquals(2 F, $opt$Rem(5 .1 F, 3 .1 F));
expectApproxEquals(2 .1 F, $opt$Rem(5 .1 F, 3 F));
expectApproxEquals(-2 F, $opt$Rem(-5 .1 F, 3 .1 F));
expectApproxEquals(-2 .1 F, $opt$Rem(-5 .1 F, -3 F));
expectApproxEquals(2 F, $opt$Rem(6 F, 4 F));
expectApproxEquals(2 F, $opt$Rem(6 F, -4 F));
expectApproxEquals(0 F, $opt$Rem(6 F, 3 F));
expectApproxEquals(0 F, $opt$Rem(6 F, -3 F));
expectApproxEquals(0 F, $opt$Rem(6 F, 1 F));
expectApproxEquals(0 F, $opt$Rem(6 F, -1 F));
expectApproxEquals(-1 F, $opt$Rem(-7 F, 3 F));
expectApproxEquals(-1 F, $opt$Rem(-7 F, -3 F));
expectApproxEquals(0 F, $opt$Rem(6 F, 6 F));
expectApproxEquals(0 F, $opt$Rem(-6 F, -6 F));
expectApproxEquals(7 F, $opt$Rem(7 F, 9 F));
expectApproxEquals(7 F, $opt$Rem(7 F, -9 F));
expectApproxEquals(-7 F, $opt$Rem(-7 F, 9 F));
expectApproxEquals(-7 F, $opt$Rem(-7 F, -9 F));
expectApproxEquals(0 F, $opt$Rem(Float .MAX_VALUE, 1 F));
expectApproxEquals(0 F, $opt$Rem(Float .MAX_VALUE, -1 F));
expectApproxEquals(0 F, $opt$Rem(Float .MIN_VALUE, 1 F));
expectApproxEquals(0 F, $opt$Rem(Float .MIN_VALUE, -1 F));
expectApproxEquals(0 F, $opt$Rem(0 F, 7 F));
expectApproxEquals(0 F, $opt$Rem(0 F, Float .MAX_VALUE));
expectApproxEquals(0 F, $opt$Rem(0 F, Float .MIN_VALUE));
expectApproxEquals(0 F, $opt$Rem(0 F, Float .POSITIVE_INFINITY));
expectApproxEquals(0 F, $opt$Rem(0 F, Float .NEGATIVE_INFINITY));
expectApproxEquals(4 F, $opt$Rem(4 F, Float .POSITIVE_INFINITY));
expectApproxEquals(4 F, $opt$Rem(4 F, Float .NEGATIVE_INFINITY));
expectApproxEquals(-4 F, $opt$Rem(-4 F, Float .POSITIVE_INFINITY));
expectApproxEquals(-4 F, $opt$Rem(-4 F, Float .NEGATIVE_INFINITY));
expectApproxEquals(0 F, $opt$Rem(Float .MIN_NORMAL, Float .MIN_VALUE));
expectApproxEquals(0 F, $opt$Rem(Float .MIN_NORMAL, Float .MIN_NORMAL));
expectApproxEquals(0 F, $opt$Rem(Float .MIN_VALUE, Float .MIN_VALUE));
expectApproxEquals(0 F, $opt$Rem(Float .MAX_VALUE, Float .MIN_VALUE));
expectApproxEquals(0 F, $opt$Rem(Float .MAX_VALUE, Float .MAX_VALUE));
expectApproxEquals(0 F, $opt$Rem(Float .MAX_VALUE, Float .MIN_NORMAL));
expectApproxEquals(Float .MIN_NORMAL, $opt$Rem(Float .MIN_NORMAL, Float .MAX_VALUE));
expectApproxEquals(Float .MIN_NORMAL, $opt$Rem(Float .MIN_NORMAL, Float .NEGATIVE_INFINITY));
expectApproxEquals(Float .MIN_NORMAL, $opt$Rem(Float .MIN_NORMAL, Float .POSITIVE_INFINITY));
expectApproxEquals(Float .MIN_VALUE, $opt$Rem(Float .MIN_VALUE, Float .MAX_VALUE));
expectApproxEquals(Float .MIN_VALUE, $opt$Rem(Float .MIN_VALUE, Float .MIN_NORMAL));
expectApproxEquals(Float .MIN_VALUE, $opt$Rem(Float .MIN_VALUE, Float .NEGATIVE_INFINITY));
expectApproxEquals(Float .MIN_VALUE, $opt$Rem(Float .MIN_VALUE, Float .POSITIVE_INFINITY));
expectApproxEquals(Float .MAX_VALUE, $opt$Rem(Float .MAX_VALUE, Float .NEGATIVE_INFINITY));
expectApproxEquals(Float .MAX_VALUE, $opt$Rem(Float .MAX_VALUE, Float .POSITIVE_INFINITY));
expectNaN($opt$Rem(Float .NaN, 3 F));
expectNaN($opt$Rem(3 F, Float .NaN));
expectNaN($opt$Rem(3 F, 0 F));
expectNaN($opt$Rem(1 F, 0 F));
expectNaN($opt$Rem(-1 F, 0 F));
expectNaN($opt$Rem(Float .NEGATIVE_INFINITY, Float .MIN_VALUE));
expectNaN($opt$Rem(Float .NEGATIVE_INFINITY, Float .MAX_VALUE));
expectNaN($opt$Rem(Float .NEGATIVE_INFINITY, Float .MIN_NORMAL));
expectNaN($opt$Rem(Float .NEGATIVE_INFINITY, Float .NEGATIVE_INFINITY));
expectNaN($opt$Rem(Float .NEGATIVE_INFINITY, Float .POSITIVE_INFINITY));
expectNaN($opt$Rem(Float .POSITIVE_INFINITY, Float .MIN_VALUE));
expectNaN($opt$Rem(Float .POSITIVE_INFINITY, Float .MAX_VALUE));
expectNaN($opt$Rem(Float .POSITIVE_INFINITY, Float .MIN_NORMAL));
expectNaN($opt$Rem(Float .POSITIVE_INFINITY, Float .NEGATIVE_INFINITY));
expectNaN($opt$Rem(Float .POSITIVE_INFINITY, Float .POSITIVE_INFINITY));
}
private static void remDouble() {
expectApproxEquals(1 .98 D, $opt$Rem(1 .98 D, 2 D));
expectApproxEquals(0 D, $opt$Rem(2 D, 0 .5 D));
expectApproxEquals(0 .09999 D, $opt$Rem(1 .0 D, 0 .1 D));
expectApproxEquals(1 .9 D, $opt$Rem(6 .5 D, 2 .3 D));
expectApproxEquals(0 .48 D, $opt$Rem(1 .98 D, 1 .5 D));
expectApproxEquals(0 .9999 D, $opt$Rem(0 .9999 D, 1 .222 D));
expectApproxEquals(0 .9999 D, $opt$Rem(0 .9999 D, 1 .0001 D));
expectApproxEquals(-1 .98 D, $opt$Rem(-1 .98 D, 2 D));
expectApproxEquals(-0 D, $opt$Rem(-2 D, 0 .5 D));
expectApproxEquals(-0 .09999 D, $opt$Rem(-1 .0 D, 0 .1 D));
expectApproxEquals(-1 .9 D, $opt$Rem(-6 .5 D, 2 .3 D));
expectApproxEquals(-0 .48 D, $opt$Rem(-1 .98 D, 1 .5 D));
expectApproxEquals(-0 .9999 D, $opt$Rem(-0 .9999 D, 1 .222 D));
expectApproxEquals(-0 .9999 D, $opt$Rem(-0 .9999 D, 1 .0001 D));
expectApproxEquals(1 .98 D, $opt$Rem(1 .98 D, -2 D));
expectApproxEquals(0 D, $opt$Rem(2 D, -0 .5 D));
expectApproxEquals(0 .09999 D, $opt$Rem(1 .0 D, -0 .1 D));
expectApproxEquals(1 .9 D, $opt$Rem(6 .5 D, -2 .3 D));
expectApproxEquals(0 .48 D, $opt$Rem(1 .98 D, -1 .5 D));
expectApproxEquals(0 .9999 D, $opt$Rem(0 .9999 D, -1 .222 D));
expectApproxEquals(0 .9999 D, $opt$Rem(0 .9999 D, -1 .0001 D));
expectApproxEquals(-1 .98 D, $opt$Rem(-1 .98 D, -2 D));
expectApproxEquals(-0 D, $opt$Rem(-2 D, -0 .5 D));
expectApproxEquals(-0 .09999 D, $opt$Rem(-1 .0 D, -0 .1 D));
expectApproxEquals(-1 .9 D, $opt$Rem(-6 .5 D, -2 .3 D));
expectApproxEquals(-0 .48 D, $opt$Rem(-1 .98 D, -1 .5 D));
expectApproxEquals(-0 .9999 D, $opt$Rem(-0 .9999 D, -1 .222 D));
expectApproxEquals(-0 .9999 D, $opt$Rem(-0 .9999 D, -1 .0001 D));
expectApproxEquals(2 D, $opt$RemConst(6 D));
expectApproxEquals(2 D, $opt$Rem(5 .1 D, 3 .1 D));
expectApproxEquals(2 .1 D, $opt$Rem(5 .1 D, 3 D));
expectApproxEquals(-2 D, $opt$Rem(-5 .1 D, 3 .1 D));
expectApproxEquals(-2 .1 D, $opt$Rem(-5 .1 D, -3 D));
expectApproxEquals(2 D, $opt$Rem(6 D, 4 D));
expectApproxEquals(2 D, $opt$Rem(6 D, -4 D));
expectApproxEquals(0 D, $opt$Rem(6 D, 3 D));
expectApproxEquals(0 D, $opt$Rem(6 D, -3 D));
expectApproxEquals(0 D, $opt$Rem(6 D, 1 D));
expectApproxEquals(0 D, $opt$Rem(6 D, -1 D));
expectApproxEquals(-1 D, $opt$Rem(-7 D, 3 D));
expectApproxEquals(-1 D, $opt$Rem(-7 D, -3 D));
expectApproxEquals(0 D, $opt$Rem(6 D, 6 D));
expectApproxEquals(0 D, $opt$Rem(-6 D, -6 D));
expectApproxEquals(7 D, $opt$Rem(7 D, 9 D));
expectApproxEquals(7 D, $opt$Rem(7 D, -9 D));
expectApproxEquals(-7 D, $opt$Rem(-7 D, 9 D));
expectApproxEquals(-7 D, $opt$Rem(-7 D, -9 D));
expectApproxEquals(0 D, $opt$Rem(Double .MAX_VALUE, 1 D));
expectApproxEquals(0 D, $opt$Rem(Double .MAX_VALUE, -1 D));
expectApproxEquals(0 D, $opt$Rem(Double .MIN_VALUE, 1 D));
expectApproxEquals(0 D, $opt$Rem(Double .MIN_VALUE, -1 D));
expectApproxEquals(0 D, $opt$Rem(0 D, 7 D));
expectApproxEquals(0 D, $opt$Rem(0 D, Double .MAX_VALUE));
expectApproxEquals(0 D, $opt$Rem(0 D, Double .MIN_VALUE));
expectApproxEquals(0 D, $opt$Rem(0 D, Double .POSITIVE_INFINITY));
expectApproxEquals(0 D, $opt$Rem(0 D, Double .NEGATIVE_INFINITY));
expectApproxEquals(4 D, $opt$Rem(4 D, Double .POSITIVE_INFINITY));
expectApproxEquals(4 D, $opt$Rem(4 D, Double .NEGATIVE_INFINITY));
expectApproxEquals(-4 D, $opt$Rem(-4 D, Double .POSITIVE_INFINITY));
expectApproxEquals(-4 D, $opt$Rem(-4 D, Double .NEGATIVE_INFINITY));
expectApproxEquals(0 D, $opt$Rem(Double .MIN_NORMAL, Double .MIN_VALUE));
expectApproxEquals(0 D, $opt$Rem(Double .MIN_NORMAL, Double .MIN_NORMAL));
expectApproxEquals(0 D, $opt$Rem(Double .MIN_VALUE, Double .MIN_VALUE));
expectApproxEquals(0 D, $opt$Rem(Double .MAX_VALUE, Double .MIN_VALUE));
expectApproxEquals(0 D, $opt$Rem(Double .MAX_VALUE, Double .MAX_VALUE));
expectApproxEquals(0 D, $opt$Rem(Double .MAX_VALUE, Double .MIN_NORMAL));
expectApproxEquals(Double .MIN_NORMAL, $opt$Rem(Double .MIN_NORMAL, Double .MAX_VALUE));
expectApproxEquals(Double .MIN_NORMAL, $opt$Rem(Double .MIN_NORMAL, Double .NEGATIVE_INFINITY));
expectApproxEquals(Double .MIN_NORMAL, $opt$Rem(Double .MIN_NORMAL, Double .POSITIVE_INFINITY));
expectApproxEquals(Double .MIN_VALUE, $opt$Rem(Double .MIN_VALUE, Double .MAX_VALUE));
expectApproxEquals(Double .MIN_VALUE, $opt$Rem(Double .MIN_VALUE, Double .MIN_NORMAL));
expectApproxEquals(Double .MIN_VALUE, $opt$Rem(Double .MIN_VALUE, Double .NEGATIVE_INFINITY));
expectApproxEquals(Double .MIN_VALUE, $opt$Rem(Double .MIN_VALUE, Double .POSITIVE_INFINITY));
expectApproxEquals(Double .MAX_VALUE, $opt$Rem(Double .MAX_VALUE, Double .NEGATIVE_INFINITY));
expectApproxEquals(Double .MAX_VALUE, $opt$Rem(Double .MAX_VALUE, Double .POSITIVE_INFINITY));
expectNaN($opt$Rem(Double .NaN, 3 D));
expectNaN($opt$Rem(3 D, Double .NaN));
expectNaN($opt$Rem(3 D, 0 D));
expectNaN($opt$Rem(1 D, 0 D));
expectNaN($opt$Rem(-1 D, 0 D));
expectNaN($opt$Rem(Double .NEGATIVE_INFINITY, Double .MIN_VALUE));
expectNaN($opt$Rem(Double .NEGATIVE_INFINITY, Double .MAX_VALUE));
expectNaN($opt$Rem(Double .NEGATIVE_INFINITY, Double .MIN_NORMAL));
expectNaN($opt$Rem(Double .NEGATIVE_INFINITY, Double .NEGATIVE_INFINITY));
expectNaN($opt$Rem(Double .NEGATIVE_INFINITY, Double .POSITIVE_INFINITY));
expectNaN($opt$Rem(Double .POSITIVE_INFINITY, Double .MIN_VALUE));
expectNaN($opt$Rem(Double .POSITIVE_INFINITY, Double .MAX_VALUE));
expectNaN($opt$Rem(Double .POSITIVE_INFINITY, Double .MIN_NORMAL));
expectNaN($opt$Rem(Double .POSITIVE_INFINITY, Double .NEGATIVE_INFINITY));
expectNaN($opt$Rem(Double .POSITIVE_INFINITY, Double .POSITIVE_INFINITY));
}
static float $opt$Rem(float a, float b) {
return a % b;
}
static float $opt$RemConst(float a) {
return a % 4 F;
}
static double $opt$Rem(double a, double b) {
return a % b;
}
static double $opt$RemConst(double a) {
return a % 4 D;
}
public static void expectApproxEquals(float a, float b) {
float maxDelta = 0 .00001 F;
boolean aproxEquals = (a > b) ? ((a - b) < maxDelta) : ((b - a) < maxDelta);
if (!aproxEquals) {
throw new Error("Expected: " + a + ", found: " + b
+ ", with delta: " + maxDelta + " " + (a - b));
}
}
public static void expectApproxEquals(double a, double b) {
double maxDelta = 0 .00001 D;
boolean aproxEquals = (a > b) ? ((a - b) < maxDelta) : ((b - a) < maxDelta);
if (!aproxEquals) {
throw new Error("Expected: " + a + ", found: "
+ b + ", with delta: " + maxDelta + " " + (a - b));
}
}
public static void expectNaN(float a) {
if (a == a) {
throw new Error("Expected NaN: " + a);
}
}
public static void expectNaN(double a) {
if (a == a) {
throw new Error("Expected NaN: " + a);
}
}
}
Messung V0.5 in Prozent C=85 H=97 G=91
¤ Dauer der Verarbeitung: 0.10 Sekunden
(vorverarbeitet am 2026-06-29)
¤
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