1 |
dl |
1.1 |
/* |
2 |
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* Written by Doug Lea with assistance from members of JCP JSR-166 |
3 |
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* Expert Group and released to the public domain, as explained at |
4 |
jsr166 |
1.8 |
* http://creativecommons.org/publicdomain/zero/1.0/ |
5 |
dl |
1.1 |
*/ |
6 |
jsr166 |
1.20 |
|
7 |
jsr166 |
1.10 |
import java.util.concurrent.ThreadLocalRandom; |
8 |
jsr166 |
1.11 |
import java.util.concurrent.atomic.AtomicLong; |
9 |
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import java.util.concurrent.atomic.AtomicReference; |
10 |
dl |
1.1 |
|
11 |
jsr166 |
1.20 |
import junit.framework.Test; |
12 |
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import junit.framework.TestSuite; |
13 |
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dl |
1.1 |
public class ThreadLocalRandomTest extends JSR166TestCase { |
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16 |
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public static void main(String[] args) { |
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jsr166 |
1.21 |
main(suite(), args); |
18 |
dl |
1.1 |
} |
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public static Test suite() { |
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jsr166 |
1.4 |
return new TestSuite(ThreadLocalRandomTest.class); |
21 |
dl |
1.1 |
} |
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|
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jsr166 |
1.13 |
/* |
24 |
dl |
1.1 |
* Testing coverage notes: |
25 |
jsr166 |
1.2 |
* |
26 |
dl |
1.1 |
* We don't test randomness properties, but only that repeated |
27 |
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* calls, up to NCALLS tries, produce at least one different |
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* result. For bounded versions, we sample various intervals |
29 |
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* across multiples of primes. |
30 |
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*/ |
31 |
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|
32 |
jsr166 |
1.14 |
// max numbers of calls to detect getting stuck on one value |
33 |
dl |
1.1 |
static final int NCALLS = 10000; |
34 |
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35 |
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// max sampled int bound |
36 |
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static final int MAX_INT_BOUND = (1 << 28); |
37 |
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|
38 |
jsr166 |
1.14 |
// max sampled long bound |
39 |
dl |
1.1 |
static final long MAX_LONG_BOUND = (1L << 42); |
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|
41 |
dl |
1.15 |
// Number of replications for other checks |
42 |
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static final int REPS = 20; |
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44 |
dl |
1.1 |
/** |
45 |
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* setSeed throws UnsupportedOperationException |
46 |
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*/ |
47 |
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public void testSetSeed() { |
48 |
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try { |
49 |
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ThreadLocalRandom.current().setSeed(17); |
50 |
jsr166 |
1.3 |
shouldThrow(); |
51 |
jsr166 |
1.5 |
} catch (UnsupportedOperationException success) {} |
52 |
dl |
1.1 |
} |
53 |
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54 |
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/** |
55 |
jsr166 |
1.22 |
* Repeated calls to next (only accessible via reflection) produce |
56 |
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* at least two distinct results, and repeated calls produce all |
57 |
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* possible values. |
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*/ |
59 |
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public void testNext() throws ReflectiveOperationException { |
60 |
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ThreadLocalRandom rnd = ThreadLocalRandom.current(); |
61 |
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try { |
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java.lang.reflect.Method m |
63 |
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= ThreadLocalRandom.class.getDeclaredMethod( |
64 |
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"next", new Class[] { int.class }); |
65 |
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m.setAccessible(true); |
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67 |
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int i; |
68 |
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{ |
69 |
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int val = new java.util.Random().nextInt(4); |
70 |
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for (i = 0; i < NCALLS; i++) { |
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int q = (int) m.invoke(rnd, new Object[] { 2 }); |
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if (val == q) break; |
73 |
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} |
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assertTrue(i < NCALLS); |
75 |
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} |
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{ |
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int r = (int) m.invoke(rnd, new Object[] { 3 }); |
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for (i = 0; i < NCALLS; i++) { |
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int q = (int) m.invoke(rnd, new Object[] { 3 }); |
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assertTrue(q < (1<<3)); |
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if (r != q) break; |
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} |
84 |
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assertTrue(i < NCALLS); |
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} |
86 |
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} catch (SecurityException acceptable) {} |
87 |
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} |
88 |
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89 |
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/** |
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jsr166 |
1.14 |
* Repeated calls to nextInt produce at least two distinct results |
91 |
dl |
1.1 |
*/ |
92 |
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public void testNextInt() { |
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int f = ThreadLocalRandom.current().nextInt(); |
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int i = 0; |
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while (i < NCALLS && ThreadLocalRandom.current().nextInt() == f) |
96 |
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++i; |
97 |
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assertTrue(i < NCALLS); |
98 |
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} |
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100 |
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/** |
101 |
jsr166 |
1.14 |
* Repeated calls to nextLong produce at least two distinct results |
102 |
dl |
1.1 |
*/ |
103 |
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public void testNextLong() { |
104 |
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long f = ThreadLocalRandom.current().nextLong(); |
105 |
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int i = 0; |
106 |
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while (i < NCALLS && ThreadLocalRandom.current().nextLong() == f) |
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++i; |
108 |
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assertTrue(i < NCALLS); |
109 |
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} |
110 |
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111 |
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/** |
112 |
jsr166 |
1.14 |
* Repeated calls to nextBoolean produce at least two distinct results |
113 |
dl |
1.1 |
*/ |
114 |
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public void testNextBoolean() { |
115 |
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boolean f = ThreadLocalRandom.current().nextBoolean(); |
116 |
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int i = 0; |
117 |
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while (i < NCALLS && ThreadLocalRandom.current().nextBoolean() == f) |
118 |
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++i; |
119 |
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assertTrue(i < NCALLS); |
120 |
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} |
121 |
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122 |
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/** |
123 |
jsr166 |
1.14 |
* Repeated calls to nextFloat produce at least two distinct results |
124 |
dl |
1.1 |
*/ |
125 |
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public void testNextFloat() { |
126 |
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float f = ThreadLocalRandom.current().nextFloat(); |
127 |
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int i = 0; |
128 |
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while (i < NCALLS && ThreadLocalRandom.current().nextFloat() == f) |
129 |
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++i; |
130 |
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assertTrue(i < NCALLS); |
131 |
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} |
132 |
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133 |
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/** |
134 |
jsr166 |
1.14 |
* Repeated calls to nextDouble produce at least two distinct results |
135 |
dl |
1.1 |
*/ |
136 |
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public void testNextDouble() { |
137 |
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double f = ThreadLocalRandom.current().nextDouble(); |
138 |
jsr166 |
1.14 |
int i = 0; |
139 |
dl |
1.1 |
while (i < NCALLS && ThreadLocalRandom.current().nextDouble() == f) |
140 |
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++i; |
141 |
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assertTrue(i < NCALLS); |
142 |
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} |
143 |
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144 |
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/** |
145 |
jsr166 |
1.14 |
* Repeated calls to nextGaussian produce at least two distinct results |
146 |
dl |
1.1 |
*/ |
147 |
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public void testNextGaussian() { |
148 |
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double f = ThreadLocalRandom.current().nextGaussian(); |
149 |
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int i = 0; |
150 |
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while (i < NCALLS && ThreadLocalRandom.current().nextGaussian() == f) |
151 |
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++i; |
152 |
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assertTrue(i < NCALLS); |
153 |
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} |
154 |
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155 |
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/** |
156 |
jsr166 |
1.19 |
* nextInt(non-positive) throws IllegalArgumentException |
157 |
dl |
1.1 |
*/ |
158 |
jsr166 |
1.19 |
public void testNextIntBoundNonPositive() { |
159 |
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ThreadLocalRandom rnd = ThreadLocalRandom.current(); |
160 |
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for (int bound : new int[] { 0, -17, Integer.MIN_VALUE }) { |
161 |
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try { |
162 |
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rnd.nextInt(bound); |
163 |
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shouldThrow(); |
164 |
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} catch (IllegalArgumentException success) {} |
165 |
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} |
166 |
dl |
1.1 |
} |
167 |
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|
168 |
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/** |
169 |
jsr166 |
1.14 |
* nextInt(least >= bound) throws IllegalArgumentException |
170 |
dl |
1.1 |
*/ |
171 |
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public void testNextIntBadBounds() { |
172 |
jsr166 |
1.19 |
int[][] badBoundss = { |
173 |
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{ 17, 2 }, |
174 |
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{ -42, -42 }, |
175 |
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{ Integer.MAX_VALUE, Integer.MIN_VALUE }, |
176 |
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}; |
177 |
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ThreadLocalRandom rnd = ThreadLocalRandom.current(); |
178 |
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for (int[] badBounds : badBoundss) { |
179 |
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try { |
180 |
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rnd.nextInt(badBounds[0], badBounds[1]); |
181 |
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shouldThrow(); |
182 |
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} catch (IllegalArgumentException success) {} |
183 |
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} |
184 |
dl |
1.1 |
} |
185 |
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186 |
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/** |
187 |
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* nextInt(bound) returns 0 <= value < bound; |
188 |
jsr166 |
1.14 |
* repeated calls produce at least two distinct results |
189 |
dl |
1.1 |
*/ |
190 |
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public void testNextIntBounded() { |
191 |
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// sample bound space across prime number increments |
192 |
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for (int bound = 2; bound < MAX_INT_BOUND; bound += 524959) { |
193 |
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int f = ThreadLocalRandom.current().nextInt(bound); |
194 |
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assertTrue(0 <= f && f < bound); |
195 |
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int i = 0; |
196 |
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int j; |
197 |
jsr166 |
1.2 |
while (i < NCALLS && |
198 |
dl |
1.1 |
(j = ThreadLocalRandom.current().nextInt(bound)) == f) { |
199 |
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assertTrue(0 <= j && j < bound); |
200 |
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++i; |
201 |
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} |
202 |
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assertTrue(i < NCALLS); |
203 |
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} |
204 |
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} |
205 |
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206 |
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/** |
207 |
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* nextInt(least, bound) returns least <= value < bound; |
208 |
jsr166 |
1.14 |
* repeated calls produce at least two distinct results |
209 |
dl |
1.1 |
*/ |
210 |
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public void testNextIntBounded2() { |
211 |
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for (int least = -15485863; least < MAX_INT_BOUND; least += 524959) { |
212 |
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for (int bound = least + 2; bound > least && bound < MAX_INT_BOUND; bound += 49979687) { |
213 |
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int f = ThreadLocalRandom.current().nextInt(least, bound); |
214 |
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assertTrue(least <= f && f < bound); |
215 |
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int i = 0; |
216 |
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int j; |
217 |
jsr166 |
1.2 |
while (i < NCALLS && |
218 |
dl |
1.1 |
(j = ThreadLocalRandom.current().nextInt(least, bound)) == f) { |
219 |
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assertTrue(least <= j && j < bound); |
220 |
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++i; |
221 |
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} |
222 |
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assertTrue(i < NCALLS); |
223 |
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} |
224 |
|
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} |
225 |
|
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} |
226 |
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227 |
|
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/** |
228 |
jsr166 |
1.19 |
* nextLong(non-positive) throws IllegalArgumentException |
229 |
dl |
1.1 |
*/ |
230 |
jsr166 |
1.19 |
public void testNextLongBoundNonPositive() { |
231 |
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ThreadLocalRandom rnd = ThreadLocalRandom.current(); |
232 |
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for (long bound : new long[] { 0L, -17L, Long.MIN_VALUE }) { |
233 |
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try { |
234 |
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rnd.nextLong(bound); |
235 |
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shouldThrow(); |
236 |
|
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} catch (IllegalArgumentException success) {} |
237 |
|
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} |
238 |
dl |
1.1 |
} |
239 |
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|
240 |
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/** |
241 |
jsr166 |
1.14 |
* nextLong(least >= bound) throws IllegalArgumentException |
242 |
dl |
1.1 |
*/ |
243 |
|
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public void testNextLongBadBounds() { |
244 |
jsr166 |
1.19 |
long[][] badBoundss = { |
245 |
|
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{ 17L, 2L }, |
246 |
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{ -42L, -42L }, |
247 |
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{ Long.MAX_VALUE, Long.MIN_VALUE }, |
248 |
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}; |
249 |
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ThreadLocalRandom rnd = ThreadLocalRandom.current(); |
250 |
|
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for (long[] badBounds : badBoundss) { |
251 |
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try { |
252 |
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rnd.nextLong(badBounds[0], badBounds[1]); |
253 |
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shouldThrow(); |
254 |
|
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} catch (IllegalArgumentException success) {} |
255 |
|
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} |
256 |
dl |
1.1 |
} |
257 |
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|
258 |
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/** |
259 |
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* nextLong(bound) returns 0 <= value < bound; |
260 |
jsr166 |
1.14 |
* repeated calls produce at least two distinct results |
261 |
dl |
1.1 |
*/ |
262 |
|
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public void testNextLongBounded() { |
263 |
|
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for (long bound = 2; bound < MAX_LONG_BOUND; bound += 15485863) { |
264 |
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long f = ThreadLocalRandom.current().nextLong(bound); |
265 |
|
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assertTrue(0 <= f && f < bound); |
266 |
|
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int i = 0; |
267 |
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long j; |
268 |
jsr166 |
1.2 |
while (i < NCALLS && |
269 |
dl |
1.1 |
(j = ThreadLocalRandom.current().nextLong(bound)) == f) { |
270 |
|
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assertTrue(0 <= j && j < bound); |
271 |
|
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++i; |
272 |
|
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} |
273 |
|
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assertTrue(i < NCALLS); |
274 |
|
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} |
275 |
|
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} |
276 |
|
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|
277 |
|
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/** |
278 |
|
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* nextLong(least, bound) returns least <= value < bound; |
279 |
jsr166 |
1.14 |
* repeated calls produce at least two distinct results |
280 |
dl |
1.1 |
*/ |
281 |
|
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public void testNextLongBounded2() { |
282 |
|
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for (long least = -86028121; least < MAX_LONG_BOUND; least += 982451653L) { |
283 |
|
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for (long bound = least + 2; bound > least && bound < MAX_LONG_BOUND; bound += Math.abs(bound * 7919)) { |
284 |
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long f = ThreadLocalRandom.current().nextLong(least, bound); |
285 |
|
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assertTrue(least <= f && f < bound); |
286 |
|
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int i = 0; |
287 |
|
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long j; |
288 |
jsr166 |
1.2 |
while (i < NCALLS && |
289 |
dl |
1.1 |
(j = ThreadLocalRandom.current().nextLong(least, bound)) == f) { |
290 |
|
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assertTrue(least <= j && j < bound); |
291 |
|
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++i; |
292 |
|
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} |
293 |
|
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assertTrue(i < NCALLS); |
294 |
|
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} |
295 |
|
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} |
296 |
|
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} |
297 |
|
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|
298 |
|
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/** |
299 |
jsr166 |
1.19 |
* nextDouble(non-positive) throws IllegalArgumentException |
300 |
|
|
*/ |
301 |
|
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public void testNextDoubleBoundNonPositive() { |
302 |
|
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ThreadLocalRandom rnd = ThreadLocalRandom.current(); |
303 |
|
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double[] badBounds = { |
304 |
|
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0.0d, |
305 |
|
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-17.0d, |
306 |
|
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-Double.MIN_VALUE, |
307 |
|
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Double.NEGATIVE_INFINITY, |
308 |
|
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Double.NaN, |
309 |
|
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}; |
310 |
|
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for (double bound : badBounds) { |
311 |
|
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try { |
312 |
|
|
rnd.nextDouble(bound); |
313 |
|
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shouldThrow(); |
314 |
|
|
} catch (IllegalArgumentException success) {} |
315 |
|
|
} |
316 |
|
|
} |
317 |
|
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|
318 |
|
|
/** |
319 |
dl |
1.1 |
* nextDouble(least, bound) returns least <= value < bound; |
320 |
jsr166 |
1.14 |
* repeated calls produce at least two distinct results |
321 |
dl |
1.1 |
*/ |
322 |
|
|
public void testNextDoubleBounded2() { |
323 |
|
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for (double least = 0.0001; least < 1.0e20; least *= 8) { |
324 |
|
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for (double bound = least * 1.001; bound < 1.0e20; bound *= 16) { |
325 |
|
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double f = ThreadLocalRandom.current().nextDouble(least, bound); |
326 |
|
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assertTrue(least <= f && f < bound); |
327 |
|
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int i = 0; |
328 |
|
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double j; |
329 |
jsr166 |
1.2 |
while (i < NCALLS && |
330 |
dl |
1.1 |
(j = ThreadLocalRandom.current().nextDouble(least, bound)) == f) { |
331 |
|
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assertTrue(least <= j && j < bound); |
332 |
|
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++i; |
333 |
|
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} |
334 |
|
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assertTrue(i < NCALLS); |
335 |
|
|
} |
336 |
|
|
} |
337 |
|
|
} |
338 |
|
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|
339 |
jsr166 |
1.11 |
/** |
340 |
|
|
* Different threads produce different pseudo-random sequences |
341 |
|
|
*/ |
342 |
|
|
public void testDifferentSequences() { |
343 |
|
|
// Don't use main thread's ThreadLocalRandom - it is likely to |
344 |
|
|
// be polluted by previous tests. |
345 |
|
|
final AtomicReference<ThreadLocalRandom> threadLocalRandom = |
346 |
|
|
new AtomicReference<ThreadLocalRandom>(); |
347 |
|
|
final AtomicLong rand = new AtomicLong(); |
348 |
|
|
|
349 |
|
|
long firstRand = 0; |
350 |
|
|
ThreadLocalRandom firstThreadLocalRandom = null; |
351 |
|
|
|
352 |
jsr166 |
1.18 |
Runnable getRandomState = new CheckedRunnable() { |
353 |
jsr166 |
1.11 |
public void realRun() { |
354 |
|
|
ThreadLocalRandom current = ThreadLocalRandom.current(); |
355 |
|
|
assertSame(current, ThreadLocalRandom.current()); |
356 |
dl |
1.12 |
// test bug: the following is not guaranteed and not true in JDK8 |
357 |
|
|
// assertNotSame(current, threadLocalRandom.get()); |
358 |
jsr166 |
1.11 |
rand.set(current.nextLong()); |
359 |
|
|
threadLocalRandom.set(current); |
360 |
|
|
}}; |
361 |
|
|
|
362 |
|
|
Thread first = newStartedThread(getRandomState); |
363 |
|
|
awaitTermination(first); |
364 |
|
|
firstRand = rand.get(); |
365 |
|
|
firstThreadLocalRandom = threadLocalRandom.get(); |
366 |
|
|
|
367 |
|
|
for (int i = 0; i < NCALLS; i++) { |
368 |
|
|
Thread t = newStartedThread(getRandomState); |
369 |
|
|
awaitTermination(t); |
370 |
|
|
if (firstRand != rand.get()) |
371 |
|
|
return; |
372 |
|
|
} |
373 |
|
|
fail("all threads generate the same pseudo-random sequence"); |
374 |
|
|
} |
375 |
|
|
|
376 |
dl |
1.1 |
} |