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1// Copyright 2009 the V8 project authors. All rights reserved.
2// Redistribution and use in source and binary forms, with or without
3// modification, are permitted provided that the following conditions are
4// met:
5//
6//     * Redistributions of source code must retain the above copyright
7//       notice, this list of conditions and the following disclaimer.
8//     * Redistributions in binary form must reproduce the above
9//       copyright notice, this list of conditions and the following
10//       disclaimer in the documentation and/or other materials provided
11//       with the distribution.
12//     * Neither the name of Google Inc. nor the names of its
13//       contributors may be used to endorse or promote products derived
14//       from this software without specific prior written permission.
15//
16// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
17// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
18// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
19// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
20// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
21// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
22// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
23// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
24// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
25// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
26// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
27
28// Test fast div and mod.
29
30function divmod(div_func, mod_func, x, y) {
31  var div_answer = (div_func)(x);
32  assertEquals(x / y, div_answer, x + "/" + y);
33  var mod_answer = (mod_func)(x);
34  assertEquals(x % y, mod_answer, x + "%" + y);
35  var minus_div_answer = (div_func)(-x);
36  assertEquals(-x / y, minus_div_answer, "-" + x + "/" + y);
37  var minus_mod_answer = (mod_func)(-x);
38  assertEquals(-x % y, minus_mod_answer, "-" + x + "%" + y);
39}
40
41
42function run_tests_for(divisor) {
43  print("(function(left) { return left / " + divisor + "; })");
44  var div_func = this.eval("(function(left) { return left / " + divisor + "; })");
45  var mod_func = this.eval("(function(left) { return left % " + divisor + "; })");
46  var exp;
47  // Strange number test.
48  divmod(div_func, mod_func, 0, divisor);
49  divmod(div_func, mod_func, 1 / 0, divisor);
50  // Floating point number test.
51  for (exp = -1024; exp <= 1024; exp += 8) {
52    divmod(div_func, mod_func, Math.pow(2, exp), divisor);
53    divmod(div_func, mod_func, 0.9999999 * Math.pow(2, exp), divisor);
54    divmod(div_func, mod_func, 1.0000001 * Math.pow(2, exp), divisor);
55  }
56  // Integer number test.
57  for (exp = 0; exp <= 32; exp++) {
58    divmod(div_func, mod_func, 1 << exp, divisor);
59    divmod(div_func, mod_func, (1 << exp) + 1, divisor);
60    divmod(div_func, mod_func, (1 << exp) - 1, divisor);
61  }
62  divmod(div_func, mod_func, Math.floor(0x1fffffff / 3), divisor);
63  divmod(div_func, mod_func, Math.floor(-0x20000000 / 3), divisor);
64}
65
66
67var divisors = [
68  0,
69  1,
70  2,
71  3,
72  4,
73  5,
74  6,
75  7,
76  8,
77  9,
78  10,
79  0x1000000,
80  0x40000000,
81  12,
82  60,
83  100,
84  1000 * 60 * 60 * 24];
85
86for (var i = 0; i < divisors.length; i++) {
87  run_tests_for(divisors[i]);
88}
89
90// Test extreme corner cases of modulo.
91
92// Computes the modulo by slow but lossless operations.
93function compute_mod(dividend, divisor) {
94  // Return NaN if either operand is NaN, if divisor is 0 or
95  // dividend is an infinity. Return dividend if divisor is an infinity.
96  if (isNaN(dividend) || isNaN(divisor) || divisor == 0) { return NaN; }
97  var sign = 1;
98  if (dividend < 0) { dividend = -dividend; sign = -1; }
99  if (dividend == Infinity) { return NaN; }
100  if (divisor < 0) { divisor = -divisor; }
101  if (divisor == Infinity) { return sign * dividend; }
102  function rec_mod(a, b) {
103    // Subtracts maximal possible multiplum of b from a.
104    if (a >= b) {
105      a = rec_mod(a, 2 * b);
106      if (a >= b) { a -= b; }
107    }
108    return a;
109  }
110  return sign * rec_mod(dividend, divisor);
111}
112
113(function () {
114  var large_non_smi = 1234567891234.12245;
115  var small_non_smi = 43.2367243;
116  var repeating_decimal = 0.3;
117  var finite_decimal = 0.5;
118  var smi = 43;
119  var power_of_two = 64;
120  var min_normal = Number.MIN_VALUE * Math.pow(2, 52);
121  var max_denormal = Number.MIN_VALUE * (Math.pow(2, 52) - 1);
122
123  // All combinations of NaN, Infinity, normal, denormal and zero.
124  var example_numbers = [
125    NaN,
126    0,
127    Number.MIN_VALUE,
128    3 * Number.MIN_VALUE,
129    max_denormal,
130    min_normal,
131    repeating_decimal,
132    finite_decimal,
133    smi,
134    power_of_two,
135    small_non_smi,
136    large_non_smi,
137    Number.MAX_VALUE,
138    Infinity
139  ];
140
141  function doTest(a, b) {
142    var exp = compute_mod(a, b);
143    var act = a % b;
144    assertEquals(exp, act, a + " % " + b);
145  }
146
147  for (var i = 0; i < example_numbers.length; i++) {
148    for (var j = 0; j < example_numbers.length; j++) {
149      var a = example_numbers[i];
150      var b = example_numbers[j];
151      doTest(a,b);
152      doTest(-a,b);
153      doTest(a,-b);
154      doTest(-a,-b);
155    }
156  }
157})();
158
159
160(function () {
161  // Edge cases
162  var zero = 0;
163  var minsmi32 = -0x40000000;
164  var minsmi64 = -0x80000000;
165  var somenum = 3532;
166  assertEquals(-0, zero / -1, "0 / -1");
167  assertEquals(1, minsmi32 / -0x40000000, "minsmi/minsmi-32");
168  assertEquals(1, minsmi64 / -0x80000000, "minsmi/minsmi-64");
169  assertEquals(somenum, somenum % -0x40000000, "%minsmi-32");
170  assertEquals(somenum, somenum % -0x80000000, "%minsmi-64");
171})();
172