test/loops/LoopHelpers.java

/*
 * Written by Doug Lea with assistance from members of JCP JSR-166
 * Expert Group and released to the public domain, as explained at
 * http://creativecommons.org/publicdomain/zero/1.0/
 */
/**
 * Misc utilities in JSR166 performance tests
 */

import java.util.concurrent.*;
import java.util.concurrent.atomic.*;

class LoopHelpers {

    static final SimpleRandom staticRNG = new SimpleRandom();

    // Some mindless computation to do between synchronizations...

    /**
     * generates 32 bit pseudo-random numbers.
     * Adapted from http://www.snippets.org
     */
    public static int compute1(int x) {
        int lo = 16807 * (x & 0xFFFF);
        int hi = 16807 * (x >>> 16);
        lo += (hi & 0x7FFF) << 16;
        if ((lo & 0x80000000) != 0) {
            lo &= 0x7fffffff;
            ++lo;
        }
        lo += hi >>> 15;
        if (lo == 0 || (lo & 0x80000000) != 0) {
            lo &= 0x7fffffff;
            ++lo;
        }
        return lo;
    }

    /**
     *  Computes a linear congruential random number a random number
     *  of times.
     */
    public static int compute2(int x) {
        int loops = (x >>> 4) & 7;
        while (loops-- > 0) {
            x = (x * 2147483647) % 16807;
        }
        return x;
    }

    /**
     * Yet another random number generator
     */
    public static int compute3(int x) {
        int t = (x % 127773) * 16807 - (x / 127773) * 2836;
        return (t > 0) ? t : t + 0x7fffffff;
    }

    /**
     * Yet another random number generator
     */
    public static int compute4(int x) {
        return x * 134775813 + 1;
    }


    /**
     * Yet another random number generator
     */
    public static int compute5(int x) {
        return 36969 * (x & 65535) + (x >> 16);
    }

    /**
     * Marsaglia xorshift (1, 3, 10)
     */
    public static int compute6(int seed) {
        seed ^= seed << 1;
        seed ^= seed >>> 3;
        seed ^= (seed << 10);
        return seed;
    }

    /**
     * Marsaglia xorshift (6, 21, 7)
     */
    public static int compute7(int y) {
        y ^= y << 6;
        y ^= y >>> 21;
        y ^= (y << 7);
        return y;
    }

    // FNV: (x ^ 0x811c9dc5) * 0x01000193;  15485863;

    /**
     * Marsaglia xorshift for longs
     */
    public static long compute8(long x) {
        x ^= x << 13;
        x ^= x >>> 7;
        x ^= (x << 17);
        return x;
    }

    public static final class XorShift32Random {
        static final AtomicInteger seq = new AtomicInteger(8862213);
        int x = -1831433054;
        public XorShift32Random(int seed) { x = seed; }
        public XorShift32Random() {
            this((int) System.nanoTime() + seq.getAndAdd(129));
        }
        public int next() {
            x ^= x << 6;
            x ^= x >>> 21;
            x ^= (x << 7);
            return x;
        }
    }


    /** Multiplication-free RNG from Marsaglia "Xorshift RNGs" paper */
    public static final class MarsagliaRandom {
        static final AtomicInteger seq = new AtomicInteger(3122688);
        int x;
        int y = 842502087;
        int z = -715159705;
        int w = 273326509;
        public MarsagliaRandom(int seed) { x = seed; }
        public MarsagliaRandom() {
            this((int) System.nanoTime() + seq.getAndAdd(129));
        }
        public int next() {
            int t = x ^ (x << 11);
            x = y;
            y = z;
            z = w;
            return w = (w ^ (w >>> 19) ^ (t ^ (t >>> 8)));
        }
    }

    /**
     * Unsynchronized version of java.util.Random algorithm.
     */
    public static final class SimpleRandom {
        private static final long multiplier = 0x5DEECE66DL;
        private static final long addend = 0xBL;
        private static final long mask = (1L << 48) - 1;
        static final AtomicLong seq = new AtomicLong( -715159705);
        private long seed;

        SimpleRandom(long s) {
            seed = s;
        }

        SimpleRandom() {
            seed = System.nanoTime() + seq.getAndAdd(129);
        }

        public void setSeed(long s) {
            seed = s;
        }

        public int next() {
            long nextseed = (seed * multiplier + addend) & mask;
            seed = nextseed;
            return ((int) (nextseed >>> 17)) & 0x7FFFFFFF;
        }
    }

    public static class BarrierTimer implements Runnable {
        volatile boolean started;
        volatile long startTime;
        volatile long endTime;
        public void run() {
            long t = System.nanoTime();
            if (!started) {
                started = true;
                startTime = t;
            } else
                endTime = t;
        }
        public void clear() {
            started = false;
        }
        public long getTime() {
            return endTime - startTime;
        }
    }

    public static String rightJustify(long n) {
        // There's probably a better way to do this...
        String field = "         ";
        String num = Long.toString(n);
        if (num.length() >= field.length())
            return num;
        StringBuffer b = new StringBuffer(field);
        b.replace(b.length()-num.length(), b.length(), num);
        return b.toString();
    }

}
Revision:	1.12
Committed:	Mon Dec 5 04:08:46 2011 UTC (12 years, 5 months ago) by jsr166
Branch:	MAIN
Changes since 1.11:	+1 -1 lines
Log Message:	whitespace
#	Content
1	/*
2	* Written by Doug Lea with assistance from members of JCP JSR-166
3	* Expert Group and released to the public domain, as explained at
4	* http://creativecommons.org/publicdomain/zero/1.0/
5	*/
6	/**
7	* Misc utilities in JSR166 performance tests
8	*/
9
10	import java.util.concurrent.*;
11	import java.util.concurrent.atomic.*;
12
13	class LoopHelpers {
14
15	static final SimpleRandom staticRNG = new SimpleRandom();
16
17	// Some mindless computation to do between synchronizations...
18
19	/**
20	* generates 32 bit pseudo-random numbers.
21	* Adapted from http://www.snippets.org
22	*/
23	public static int compute1(int x) {
24	int lo = 16807 * (x & 0xFFFF);
25	int hi = 16807 * (x >>> 16);
26	lo += (hi & 0x7FFF) << 16;
27	if ((lo & 0x80000000) != 0) {
28	lo &= 0x7fffffff;
29	++lo;
30	}
31	lo += hi >>> 15;
32	if (lo == 0 \|\| (lo & 0x80000000) != 0) {
33	lo &= 0x7fffffff;
34	++lo;
35	}
36	return lo;
37	}
38
39	/**
40	* Computes a linear congruential random number a random number
41	* of times.
42	*/
43	public static int compute2(int x) {
44	int loops = (x >>> 4) & 7;
45	while (loops-- > 0) {
46	x = (x * 2147483647) % 16807;
47	}
48	return x;
49	}
50
51	/**
52	* Yet another random number generator
53	*/
54	public static int compute3(int x) {
55	int t = (x % 127773) * 16807 - (x / 127773) * 2836;
56	return (t > 0) ? t : t + 0x7fffffff;
57	}
58
59	/**
60	* Yet another random number generator
61	*/
62	public static int compute4(int x) {
63	return x * 134775813 + 1;
64	}
65
66
67	/**
68	* Yet another random number generator
69	*/
70	public static int compute5(int x) {
71	return 36969 * (x & 65535) + (x >> 16);
72	}
73
74	/**
75	* Marsaglia xorshift (1, 3, 10)
76	*/
77	public static int compute6(int seed) {
78	seed ^= seed << 1;
79	seed ^= seed >>> 3;
80	seed ^= (seed << 10);
81	return seed;
82	}
83
84	/**
85	* Marsaglia xorshift (6, 21, 7)
86	*/
87	public static int compute7(int y) {
88	y ^= y << 6;
89	y ^= y >>> 21;
90	y ^= (y << 7);
91	return y;
92	}
93
94	// FNV: (x ^ 0x811c9dc5) * 0x01000193; 15485863;
95
96	/**
97	* Marsaglia xorshift for longs
98	*/
99	public static long compute8(long x) {
100	x ^= x << 13;
101	x ^= x >>> 7;
102	x ^= (x << 17);
103	return x;
104	}
105
106	public static final class XorShift32Random {
107	static final AtomicInteger seq = new AtomicInteger(8862213);
108	int x = -1831433054;
109	public XorShift32Random(int seed) { x = seed; }
110	public XorShift32Random() {
111	this((int) System.nanoTime() + seq.getAndAdd(129));
112	}
113	public int next() {
114	x ^= x << 6;
115	x ^= x >>> 21;
116	x ^= (x << 7);
117	return x;
118	}
119	}
120
121
122	/** Multiplication-free RNG from Marsaglia "Xorshift RNGs" paper */
123	public static final class MarsagliaRandom {
124	static final AtomicInteger seq = new AtomicInteger(3122688);
125	int x;
126	int y = 842502087;
127	int z = -715159705;
128	int w = 273326509;
129	public MarsagliaRandom(int seed) { x = seed; }
130	public MarsagliaRandom() {
131	this((int) System.nanoTime() + seq.getAndAdd(129));
132	}
133	public int next() {
134	int t = x ^ (x << 11);
135	x = y;
136	y = z;
137	z = w;
138	return w = (w ^ (w >>> 19) ^ (t ^ (t >>> 8)));
139	}
140	}
141
142	/**
143	* Unsynchronized version of java.util.Random algorithm.
144	*/
145	public static final class SimpleRandom {
146	private static final long multiplier = 0x5DEECE66DL;
147	private static final long addend = 0xBL;
148	private static final long mask = (1L << 48) - 1;
149	static final AtomicLong seq = new AtomicLong( -715159705);
150	private long seed;
151
152	SimpleRandom(long s) {
153	seed = s;
154	}
155
156	SimpleRandom() {
157	seed = System.nanoTime() + seq.getAndAdd(129);
158	}
159
160	public void setSeed(long s) {
161	seed = s;
162	}
163
164	public int next() {
165	long nextseed = (seed * multiplier + addend) & mask;
166	seed = nextseed;
167	return ((int) (nextseed >>> 17)) & 0x7FFFFFFF;
168	}
169	}
170
171	public static class BarrierTimer implements Runnable {
172	volatile boolean started;
173	volatile long startTime;
174	volatile long endTime;
175	public void run() {
176	long t = System.nanoTime();
177	if (!started) {
178	started = true;
179	startTime = t;
180	} else
181	endTime = t;
182	}
183	public void clear() {
184	started = false;
185	}
186	public long getTime() {
187	return endTime - startTime;
188	}
189	}
190
191	public static String rightJustify(long n) {
192	// There's probably a better way to do this...
193	String field = " ";
194	String num = Long.toString(n);
195	if (num.length() >= field.length())
196	return num;
197	StringBuffer b = new StringBuffer(field);
198	b.replace(b.length()-num.length(), b.length(), num);
199	return b.toString();
200	}
201
202	}