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1 /*
2  * Copyright (C) 2016 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 public class Main {
18 
19   /// CHECK-START: int Main.round32(float) builder (after)
20   /// CHECK-DAG: <<Result:i\d+>> InvokeStaticOrDirect intrinsic:MathRoundFloat
21   /// CHECK-DAG:                 Return [<<Result>>]
round32(float f)22   private static int round32(float f) {
23     return Math.round(f);
24   }
25 
26   /// CHECK-START: long Main.round64(double) builder (after)
27   /// CHECK-DAG: <<Result:j\d+>> InvokeStaticOrDirect intrinsic:MathRoundDouble
28   /// CHECK-DAG:                 Return [<<Result>>]
round64(double d)29   private static long round64(double d) {
30     return Math.round(d);
31   }
32 
main(String args[])33   public static void main(String args[]) {
34     // A few obvious numbers.
35     expectEquals32(-2147483648, round32(Float.NEGATIVE_INFINITY));
36     expectEquals32(-2, round32(-1.51f));
37     expectEquals32(-1, round32(-1.2f));
38     expectEquals32(-1, round32(-1.0f));
39     expectEquals32(-1, round32(-0.5000001f));
40     expectEquals32(0, round32(-0.5f));
41     expectEquals32(0, round32(-0.2f));
42     expectEquals32(0, round32(-0.0f));
43     expectEquals32(0, round32(+0.0f));
44     expectEquals32(0, round32(+0.2f));
45     expectEquals32(1, round32(+0.5f));
46     expectEquals32(1, round32(+1.0f));
47     expectEquals32(1, round32(+1.2f));
48     expectEquals32(2, round32(+1.5f));
49     expectEquals32(2147483647, round32(Float.POSITIVE_INFINITY));
50 
51     // Near minint.
52     expectEquals32(-2147483648, round32(Math.nextAfter(-2147483648.0f, Float.NEGATIVE_INFINITY)));
53     expectEquals32(-2147483648, round32(-2147483648.0f));
54     expectEquals32(-2147483520, round32(Math.nextAfter(-2147483648.0f, Float.POSITIVE_INFINITY)));
55 
56     // Near maxint.
57     expectEquals32(2147483520, round32(Math.nextAfter(2147483648.0f, Float.NEGATIVE_INFINITY)));
58     expectEquals32(2147483647, round32(2147483648.0f));
59     expectEquals32(2147483647, round32(Math.nextAfter(2147483648.0f, Float.POSITIVE_INFINITY)));
60 
61     // Some others.
62     for (int i = -100; i <= 100; ++i) {
63       expectEquals32(i - 1, round32((float) i - 0.51f));
64       expectEquals32(i, round32((float) i - 0.5f));
65       expectEquals32(i, round32((float) i));
66       expectEquals32(i + 1, round32((float) i + 0.5f));
67       expectEquals32(i + 1, round32((float) i + 0.51f));
68     }
69     for (float f = -1.5f; f <= -1.499f; f = Math.nextAfter(f, Float.POSITIVE_INFINITY)) {
70       expectEquals32(-1, round32(f));
71     }
72 
73     // Some harder.
74     float[] fvals = {
75       -16777215.5f,
76       -16777215.0f,
77       -0.49999998f,
78       -0.4999999701976776123046875f,
79       0.4999999701976776123046875f,
80       0.49999998f,
81       16777215.0f,
82       16777215.5f
83     };
84     int[] ivals = {
85       -16777216,
86       -16777215,
87       0,
88       0,
89       0,
90       0,
91       16777215,
92       16777216
93     };
94     for (int i = 0; i < fvals.length; i++) {
95       expectEquals32(ivals[i], round32(fvals[i]));
96     }
97 
98     // A few NaN numbers.
99     float[] fnans = {
100       Float.intBitsToFloat(0x7f800001),
101       Float.intBitsToFloat(0x7fa00000),
102       Float.intBitsToFloat(0x7fc00000),
103       Float.intBitsToFloat(0x7fffffff),
104       Float.intBitsToFloat(0xff800001),
105       Float.intBitsToFloat(0xffa00000),
106       Float.intBitsToFloat(0xffc00000),
107       Float.intBitsToFloat(0xffffffff)
108     };
109     for (int i = 0; i < fnans.length; i++) {
110       expectEquals32(0, round32(fnans[i]));
111     }
112 
113     // A few obvious numbers.
114     expectEquals64(-9223372036854775808L, round64(Double.NEGATIVE_INFINITY));
115     expectEquals64(-2L, round64(-1.51d));
116     expectEquals64(-1L, round64(-1.2d));
117     expectEquals64(-1L, round64(-1.0d));
118     expectEquals64(-1L, round64(-0.5000001f));
119     expectEquals64(0L, round64(-0.5d));
120     expectEquals64(0L, round64(-0.2d));
121     expectEquals64(0L, round64(-0.0d));
122     expectEquals64(0L, round64(+0.0d));
123     expectEquals64(0L, round64(+0.2d));
124     expectEquals64(1L, round64(+0.5d));
125     expectEquals64(1L, round64(+1.0d));
126     expectEquals64(1L, round64(+1.2d));
127     expectEquals64(2L, round64(+1.5d));
128     expectEquals64(9223372036854775807L, round64(Double.POSITIVE_INFINITY));
129 
130     // Near minlong.
131     expectEquals64(-9223372036854775808L,
132         round64(Math.nextAfter(-9223372036854775808.0, Double.NEGATIVE_INFINITY)));
133     expectEquals64(-9223372036854775808L, round64(-9223372036854775808.0));
134     expectEquals64(-9223372036854774784L,
135         round64(Math.nextAfter(-9223372036854775809.0, Double.POSITIVE_INFINITY)));
136 
137     // Near maxlong.
138     expectEquals64(9223372036854774784L,
139         round64(Math.nextAfter(9223372036854775808.0, Double.NEGATIVE_INFINITY)));
140     expectEquals64(9223372036854775807L, round64(9223372036854775808.0));
141     expectEquals64(9223372036854775807L,
142         round64(Math.nextAfter(9223372036854775808.0, Double.POSITIVE_INFINITY)));
143 
144     // Some others.
145     for (long l = -100; l <= 100; ++l) {
146       expectEquals64(l - 1, round64((double) l - 0.51d));
147       expectEquals64(l, round64((double) l - 0.5d));
148       expectEquals64(l, round64((double) l));
149       expectEquals64(l + 1, round64((double) l + 0.5d));
150       expectEquals64(l + 1, round64((double) l + 0.51d));
151     }
152     for (double d = -1.5d; d <= -1.49999999999d; d = Math.nextAfter(d, Double.POSITIVE_INFINITY)) {
153       expectEquals64(-1L, round64(d));
154     }
155 
156     // Some harder.
157     double[] dvals = {
158       -9007199254740991.5d,
159       -9007199254740991.0d,
160       -0.49999999999999997d,
161       -0.49999999999999994d,
162       0.49999999999999994d,
163       0.49999999999999997d,
164       9007199254740991.0d,
165       9007199254740991.5d
166     };
167     long[] lvals = {
168       -9007199254740992L,
169       -9007199254740991L,
170       0L,
171       0L,
172       0L,
173       0L,
174       9007199254740991L,
175       9007199254740992L
176     };
177     for (int i = 0; i < dvals.length; i++) {
178       expectEquals64(lvals[i], round64(dvals[i]));
179     }
180 
181     // A few NaN numbers.
182     double[] dnans = {
183       Double.longBitsToDouble(0x7ff0000000000001L),
184       Double.longBitsToDouble(0x7ff4000000000000L),
185       Double.longBitsToDouble(0x7ff8000000000000L),
186       Double.longBitsToDouble(0x7fffffffffffffffL),
187       Double.longBitsToDouble(0xfff0000000000001L),
188       Double.longBitsToDouble(0xfff4000000000000L),
189       Double.longBitsToDouble(0xfff8000000000000L),
190       Double.longBitsToDouble(0xffffffffffffffffL)
191     };
192     for (int i = 0; i < dnans.length; i++) {
193       expectEquals64(0L, round64(dnans[i]));
194     }
195 
196     System.out.println("passed");
197   }
198 
expectEquals32(int expected, int result)199   private static void expectEquals32(int expected, int result) {
200     if (expected != result) {
201       throw new Error("Expected: " + expected + ", found: " + result);
202     }
203   }
204 
expectEquals64(long expected, long result)205   private static void expectEquals64(long expected, long result) {
206     if (expected != result) {
207       throw new Error("Expected: " + expected + ", found: " + result);
208     }
209   }
210 }
211