| // Copyright 2012 the V8 project authors. All rights reserved. |
| // Redistribution and use in source and binary forms, with or without |
| // modification, are permitted provided that the following conditions are |
| // met: |
| // |
| // * Redistributions of source code must retain the above copyright |
| // notice, this list of conditions and the following disclaimer. |
| // * Redistributions in binary form must reproduce the above |
| // copyright notice, this list of conditions and the following |
| // disclaimer in the documentation and/or other materials provided |
| // with the distribution. |
| // * Neither the name of Google Inc. nor the names of its |
| // contributors may be used to endorse or promote products derived |
| // from this software without specific prior written permission. |
| // |
| // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS |
| // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT |
| // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR |
| // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT |
| // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, |
| // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT |
| // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
| // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
| // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
| // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE |
| // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
| |
| // Flags: --allow-natives-syntax --enable-sudiv --opt --noturbo-inlining |
| |
| // Use this function as reference. Make sure it is not inlined. |
| function div(a, b) { |
| return a / b; |
| } |
| |
| var limit = 0x1000000; |
| var exhaustive_limit = 100; |
| var step = 10; |
| var values = [ |
| 0x10000001, 0x12345678, |
| -0x789abcdf, // 0x87654321 |
| 0x01234567, 0x76543210, |
| -0x80000000, // 0x80000000 |
| 0x7fffffff, |
| -0x0fffffff, // 0xf0000001 |
| 0x00000010, |
| -0x01000000 // 0xff000000 |
| ]; |
| |
| function test_div() { |
| var c = 0; |
| for (var k = 0; k <= limit; k++) { |
| if (k > exhaustive_limit) { |
| c += step; |
| k += c; |
| } |
| assertEquals(Math.floor(div(k, 1)), Math.floor(k / 1)); |
| assertEquals(Math.floor(div(k, -1)), Math.floor(k / -1)); |
| assertEquals(Math.floor(div(k, 2)), Math.floor(k / 2)); |
| assertEquals(Math.floor(div(k, -2)), Math.floor(k / -2)); |
| assertEquals(Math.floor(div(k, 3)), Math.floor(k / 3)); |
| assertEquals(Math.floor(div(k, -3)), Math.floor(k / -3)); |
| assertEquals(Math.floor(div(k, 4)), Math.floor(k / 4)); |
| assertEquals(Math.floor(div(k, -4)), Math.floor(k / -4)); |
| assertEquals(Math.floor(div(k, 5)), Math.floor(k / 5)); |
| assertEquals(Math.floor(div(k, -5)), Math.floor(k / -5)); |
| assertEquals(Math.floor(div(k, 6)), Math.floor(k / 6)); |
| assertEquals(Math.floor(div(k, -6)), Math.floor(k / -6)); |
| assertEquals(Math.floor(div(k, 7)), Math.floor(k / 7)); |
| assertEquals(Math.floor(div(k, -7)), Math.floor(k / -7)); |
| assertEquals(Math.floor(div(k, 8)), Math.floor(k / 8)); |
| assertEquals(Math.floor(div(k, -8)), Math.floor(k / -8)); |
| assertEquals(Math.floor(div(k, 9)), Math.floor(k / 9)); |
| assertEquals(Math.floor(div(k, -9)), Math.floor(k / -9)); |
| assertEquals(Math.floor(div(k, 10)), Math.floor(k / 10)); |
| assertEquals(Math.floor(div(k, -10)), Math.floor(k / -10)); |
| assertEquals(Math.floor(div(k, 11)), Math.floor(k / 11)); |
| assertEquals(Math.floor(div(k, -11)), Math.floor(k / -11)); |
| assertEquals(Math.floor(div(k, 12)), Math.floor(k / 12)); |
| assertEquals(Math.floor(div(k, -12)), Math.floor(k / -12)); |
| assertEquals(Math.floor(div(k, 13)), Math.floor(k / 13)); |
| assertEquals(Math.floor(div(k, -13)), Math.floor(k / -13)); |
| assertEquals(Math.floor(div(k, 14)), Math.floor(k / 14)); |
| assertEquals(Math.floor(div(k, -14)), Math.floor(k / -14)); |
| assertEquals(Math.floor(div(k, 15)), Math.floor(k / 15)); |
| assertEquals(Math.floor(div(k, -15)), Math.floor(k / -15)); |
| assertEquals(Math.floor(div(k, 16)), Math.floor(k / 16)); |
| assertEquals(Math.floor(div(k, -16)), Math.floor(k / -16)); |
| assertEquals(Math.floor(div(k, 17)), Math.floor(k / 17)); |
| assertEquals(Math.floor(div(k, -17)), Math.floor(k / -17)); |
| assertEquals(Math.floor(div(k, 18)), Math.floor(k / 18)); |
| assertEquals(Math.floor(div(k, -18)), Math.floor(k / -18)); |
| assertEquals(Math.floor(div(k, 19)), Math.floor(k / 19)); |
| assertEquals(Math.floor(div(k, -19)), Math.floor(k / -19)); |
| assertEquals(Math.floor(div(k, 20)), Math.floor(k / 20)); |
| assertEquals(Math.floor(div(k, -20)), Math.floor(k / -20)); |
| assertEquals(Math.floor(div(k, 21)), Math.floor(k / 21)); |
| assertEquals(Math.floor(div(k, -21)), Math.floor(k / -21)); |
| assertEquals(Math.floor(div(k, 22)), Math.floor(k / 22)); |
| assertEquals(Math.floor(div(k, -22)), Math.floor(k / -22)); |
| assertEquals(Math.floor(div(k, 23)), Math.floor(k / 23)); |
| assertEquals(Math.floor(div(k, -23)), Math.floor(k / -23)); |
| assertEquals(Math.floor(div(k, 24)), Math.floor(k / 24)); |
| assertEquals(Math.floor(div(k, -24)), Math.floor(k / -24)); |
| assertEquals(Math.floor(div(k, 25)), Math.floor(k / 25)); |
| assertEquals(Math.floor(div(k, -25)), Math.floor(k / -25)); |
| assertEquals(Math.floor(div(k, 125)), Math.floor(k / 125)); |
| assertEquals(Math.floor(div(k, -125)), Math.floor(k / -125)); |
| assertEquals(Math.floor(div(k, 625)), Math.floor(k / 625)); |
| assertEquals(Math.floor(div(k, -625)), Math.floor(k / -625)); |
| } |
| c = 0; |
| for (var k = 0; k <= limit; k++) { |
| if (k > exhaustive_limit) { |
| c += step; |
| k += c; |
| } |
| assertEquals(Math.floor(div(-k, 1)), Math.floor(-k / 1)); |
| assertEquals(Math.floor(div(-k, -1)), Math.floor(-k / -1)); |
| assertEquals(Math.floor(div(-k, 2)), Math.floor(-k / 2)); |
| assertEquals(Math.floor(div(-k, -2)), Math.floor(-k / -2)); |
| assertEquals(Math.floor(div(-k, 3)), Math.floor(-k / 3)); |
| assertEquals(Math.floor(div(-k, -3)), Math.floor(-k / -3)); |
| assertEquals(Math.floor(div(-k, 4)), Math.floor(-k / 4)); |
| assertEquals(Math.floor(div(-k, -4)), Math.floor(-k / -4)); |
| assertEquals(Math.floor(div(-k, 5)), Math.floor(-k / 5)); |
| assertEquals(Math.floor(div(-k, -5)), Math.floor(-k / -5)); |
| assertEquals(Math.floor(div(-k, 6)), Math.floor(-k / 6)); |
| assertEquals(Math.floor(div(-k, -6)), Math.floor(-k / -6)); |
| assertEquals(Math.floor(div(-k, 7)), Math.floor(-k / 7)); |
| assertEquals(Math.floor(div(-k, -7)), Math.floor(-k / -7)); |
| assertEquals(Math.floor(div(-k, 8)), Math.floor(-k / 8)); |
| assertEquals(Math.floor(div(-k, -8)), Math.floor(-k / -8)); |
| assertEquals(Math.floor(div(-k, 9)), Math.floor(-k / 9)); |
| assertEquals(Math.floor(div(-k, -9)), Math.floor(-k / -9)); |
| assertEquals(Math.floor(div(-k, 10)), Math.floor(-k / 10)); |
| assertEquals(Math.floor(div(-k, -10)), Math.floor(-k / -10)); |
| assertEquals(Math.floor(div(-k, 11)), Math.floor(-k / 11)); |
| assertEquals(Math.floor(div(-k, -11)), Math.floor(-k / -11)); |
| assertEquals(Math.floor(div(-k, 12)), Math.floor(-k / 12)); |
| assertEquals(Math.floor(div(-k, -12)), Math.floor(-k / -12)); |
| assertEquals(Math.floor(div(-k, 13)), Math.floor(-k / 13)); |
| assertEquals(Math.floor(div(-k, -13)), Math.floor(-k / -13)); |
| assertEquals(Math.floor(div(-k, 14)), Math.floor(-k / 14)); |
| assertEquals(Math.floor(div(-k, -14)), Math.floor(-k / -14)); |
| assertEquals(Math.floor(div(-k, 15)), Math.floor(-k / 15)); |
| assertEquals(Math.floor(div(-k, -15)), Math.floor(-k / -15)); |
| assertEquals(Math.floor(div(-k, 16)), Math.floor(-k / 16)); |
| assertEquals(Math.floor(div(-k, -16)), Math.floor(-k / -16)); |
| assertEquals(Math.floor(div(-k, 17)), Math.floor(-k / 17)); |
| assertEquals(Math.floor(div(-k, -17)), Math.floor(-k / -17)); |
| assertEquals(Math.floor(div(-k, 18)), Math.floor(-k / 18)); |
| assertEquals(Math.floor(div(-k, -18)), Math.floor(-k / -18)); |
| assertEquals(Math.floor(div(-k, 19)), Math.floor(-k / 19)); |
| assertEquals(Math.floor(div(-k, -19)), Math.floor(-k / -19)); |
| assertEquals(Math.floor(div(-k, 20)), Math.floor(-k / 20)); |
| assertEquals(Math.floor(div(-k, -20)), Math.floor(-k / -20)); |
| assertEquals(Math.floor(div(-k, 21)), Math.floor(-k / 21)); |
| assertEquals(Math.floor(div(-k, -21)), Math.floor(-k / -21)); |
| assertEquals(Math.floor(div(-k, 22)), Math.floor(-k / 22)); |
| assertEquals(Math.floor(div(-k, -22)), Math.floor(-k / -22)); |
| assertEquals(Math.floor(div(-k, 23)), Math.floor(-k / 23)); |
| assertEquals(Math.floor(div(-k, -23)), Math.floor(-k / -23)); |
| assertEquals(Math.floor(div(-k, 24)), Math.floor(-k / 24)); |
| assertEquals(Math.floor(div(-k, -24)), Math.floor(-k / -24)); |
| assertEquals(Math.floor(div(-k, 25)), Math.floor(-k / 25)); |
| assertEquals(Math.floor(div(-k, -25)), Math.floor(-k / -25)); |
| assertEquals(Math.floor(div(-k, 125)), Math.floor(-k / 125)); |
| assertEquals(Math.floor(div(-k, -125)), Math.floor(-k / -125)); |
| assertEquals(Math.floor(div(-k, 625)), Math.floor(-k / 625)); |
| assertEquals(Math.floor(div(-k, -625)), Math.floor(-k / -625)); |
| } |
| // Test for edge cases. |
| // Use (values[key] | 0) to force the integer type. |
| for (var i = 0; i < values.length; i++) { |
| for (var j = 0; j < values.length; j++) { |
| assertEquals( |
| Math.floor(div(values[i] | 0, values[j] | 0)), |
| Math.floor((values[i] | 0) / (values[j] | 0))); |
| assertEquals( |
| Math.floor(div(-(values[i] | 0), values[j] | 0)), |
| Math.floor(-(values[i] | 0) / (values[j] | 0))); |
| assertEquals( |
| Math.floor(div(values[i] | 0, -(values[j] | 0))), |
| Math.floor((values[i] | 0) / -(values[j] | 0))); |
| assertEquals( |
| Math.floor(div(-(values[i] | 0), -(values[j] | 0))), |
| Math.floor(-(values[i] | 0) / -(values[j] | 0))); |
| } |
| } |
| }; |
| %PrepareFunctionForOptimization(test_div); |
| test_div(); |
| %OptimizeFunctionOnNextCall(test_div); |
| test_div(); |
| |
| // Test for flooring correctness. |
| var values2 = [1, 3, 10, 99, 100, 101, 0x7fffffff]; |
| function test_div2() { |
| for (var i = 0; i < values2.length; i++) { |
| for (var j = 0; j < values2.length; j++) { |
| assertEquals( |
| Math.floor(div(values2[i] | 0, values2[j] | 0)), |
| Math.floor((values2[i] | 0) / (values2[j] | 0))); |
| assertEquals( |
| Math.floor(div(-(values2[i] | 0), values2[j] | 0)), |
| Math.floor(-(values2[i] | 0) / (values2[j] | 0))); |
| assertEquals( |
| Math.floor(div(values2[i] | 0, -(values2[j] | 0))), |
| Math.floor((values2[i] | 0) / -(values2[j] | 0))); |
| assertEquals( |
| Math.floor(div(-(values2[i] | 0), -(values2[j] | 0))), |
| Math.floor(-(values2[i] | 0) / -(values2[j] | 0))); |
| } |
| } |
| }; |
| %PrepareFunctionForOptimization(test_div2); |
| test_div2(); |
| %OptimizeFunctionOnNextCall(test_div2); |
| test_div2(); |
| |
| |
| // Test for negative zero, overflow and division by 0. |
| // Separate the tests to prevent deoptimizations from making the other optimized |
| // test unreachable. |
| |
| // We box the value in an array to avoid constant propagation. |
| var neg_one_in_array = [-1]; |
| var zero_in_array = [0]; |
| var min_int_in_array = [-2147483648]; |
| |
| // Test for dividing by constant. |
| function IsNegativeZero(x) { |
| assertTrue(x == 0); // Is 0 or -0. |
| var y = 1 / x; |
| assertFalse(isFinite(y)); |
| return y < 0; |
| } |
| |
| function test_div_deopt_minus_zero() { |
| for (var i = 0; i < 2; ++i) { |
| assertTrue(IsNegativeZero(Math.floor((zero_in_array[0] | 0) / -1))); |
| } |
| }; |
| %PrepareFunctionForOptimization(test_div_deopt_minus_zero); |
| function test_div_deopt_overflow() { |
| for (var i = 0; i < 2; ++i) { |
| // We use '| 0' to force the representation to int32. |
| assertEquals( |
| -min_int_in_array[0], Math.floor((min_int_in_array[0] | 0) / -1)); |
| } |
| }; |
| %PrepareFunctionForOptimization(test_div_deopt_overflow); |
| function test_div_deopt_div_by_zero() { |
| for (var i = 0; i < 2; ++i) { |
| assertEquals(div(i, 0), Math.floor(i / 0)); |
| } |
| }; |
| %PrepareFunctionForOptimization(test_div_deopt_div_by_zero); |
| test_div_deopt_minus_zero(); |
| test_div_deopt_overflow(); |
| test_div_deopt_div_by_zero(); |
| %OptimizeFunctionOnNextCall(test_div_deopt_minus_zero); |
| %OptimizeFunctionOnNextCall(test_div_deopt_overflow); |
| %OptimizeFunctionOnNextCall(test_div_deopt_div_by_zero); |
| test_div_deopt_minus_zero(); |
| test_div_deopt_overflow(); |
| test_div_deopt_div_by_zero(); |
| |
| // Test for dividing by variable. |
| function test_div_deopt_minus_zero_v() { |
| for (var i = 0; i < 2; ++i) { |
| assertTrue(IsNegativeZero( |
| Math.floor((zero_in_array[0] | 0) / neg_one_in_array[0]))); |
| } |
| }; |
| %PrepareFunctionForOptimization(test_div_deopt_minus_zero_v); |
| function test_div_deopt_overflow_v() { |
| for (var i = 0; i < 2; ++i) { |
| // We use '| 0' to force the representation to int32. |
| assertEquals( |
| -min_int_in_array[0], |
| Math.floor((min_int_in_array[0] | 0) / neg_one_in_array[0])); |
| } |
| }; |
| %PrepareFunctionForOptimization(test_div_deopt_overflow_v); |
| function test_div_deopt_div_by_zero_v() { |
| for (var i = 0; i < 2; ++i) { |
| assertEquals(div(i, 0), Math.floor(i / zero_in_array[0])); |
| } |
| }; |
| %PrepareFunctionForOptimization(test_div_deopt_div_by_zero_v); |
| test_div_deopt_minus_zero_v(); |
| test_div_deopt_overflow_v(); |
| test_div_deopt_div_by_zero_v(); |
| %OptimizeFunctionOnNextCall(test_div_deopt_minus_zero_v); |
| %OptimizeFunctionOnNextCall(test_div_deopt_overflow_v); |
| %OptimizeFunctionOnNextCall(test_div_deopt_div_by_zero_v); |
| test_div_deopt_minus_zero_v(); |
| test_div_deopt_overflow_v(); |
| test_div_deopt_div_by_zero_v(); |
| |
| |
| // Test for flooring division with negative dividend. |
| function flooring_div_by_3(y) { |
| return Math.floor(y / 3); |
| }; |
| %PrepareFunctionForOptimization(flooring_div_by_3); |
| assertEquals(-1, flooring_div_by_3(-2)); |
| assertEquals(-1, flooring_div_by_3(-2)); |
| %OptimizeFunctionOnNextCall(flooring_div_by_3); |
| assertEquals(-1, flooring_div_by_3(-2)); |