// Copyright 2010 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. const SMI_MAX = (1 << 29) - 1 + (1 << 29); // Create without overflowing. const SMI_MIN = -SMI_MAX - 1; // Create without overflowing. const ONE = 1; const ONE_HUNDRED = 100; const OBJ_42 = new (function() { this.valueOf = function() { return 42; }; })(); assertEquals(42, OBJ_42.valueOf()); function Add1(x) { return x + 1; } function Add100(x) { return x + 100; } function Add1Reversed(x) { return 1 + x; } function Add100Reversed(x) { return 100 + x; } assertEquals(1, Add1(0)); // fast case assertEquals(1, Add1Reversed(0)); // fast case assertEquals(SMI_MAX + ONE, Add1(SMI_MAX), "smimax + 1"); assertEquals(SMI_MAX + ONE, Add1Reversed(SMI_MAX), "1 + smimax"); assertEquals(42 + ONE, Add1(OBJ_42)); // non-smi assertEquals(42 + ONE, Add1Reversed(OBJ_42)); // non-smi assertEquals(100, Add100(0)); // fast case assertEquals(100, Add100Reversed(0)); // fast case assertEquals(SMI_MAX + ONE_HUNDRED, Add100(SMI_MAX), "smimax + 100"); assertEquals(SMI_MAX + ONE_HUNDRED, Add100Reversed(SMI_MAX), " 100 + smimax"); assertEquals(42 + ONE_HUNDRED, Add100(OBJ_42)); // non-smi assertEquals(42 + ONE_HUNDRED, Add100Reversed(OBJ_42)); // non-smi function Sub1(x) { return x - 1; } function Sub100(x) { return x - 100; } function Sub1Reversed(x) { return 1 - x; } function Sub100Reversed(x) { return 100 - x; } assertEquals(0, Sub1(1)); // fast case assertEquals(-1, Sub1Reversed(2)); // fast case assertEquals(SMI_MIN - ONE, Sub1(SMI_MIN)); // overflow assertEquals(ONE - SMI_MIN, Sub1Reversed(SMI_MIN)); // overflow assertEquals(42 - ONE, Sub1(OBJ_42)); // non-smi assertEquals(ONE - 42, Sub1Reversed(OBJ_42)); // non-smi assertEquals(0, Sub100(100)); // fast case assertEquals(1, Sub100Reversed(99)); // fast case assertEquals(SMI_MIN - ONE_HUNDRED, Sub100(SMI_MIN)); // overflow assertEquals(ONE_HUNDRED - SMI_MIN, Sub100Reversed(SMI_MIN)); // overflow assertEquals(42 - ONE_HUNDRED, Sub100(OBJ_42)); // non-smi assertEquals(ONE_HUNDRED - 42, Sub100Reversed(OBJ_42)); // non-smi function Shr1(x) { return x >>> 1; } function Shr100(x) { return x >>> 100; } function Shr1Reversed(x) { return 1 >>> x; } function Shr100Reversed(x) { return 100 >>> x; } function Sar1(x) { return x >> 1; } function Sar100(x) { return x >> 100; } function Sar1Reversed(x) { return 1 >> x; } function Sar100Reversed(x) { return 100 >> x; } assertEquals(0, Shr1(1)); assertEquals(0, Sar1(1)); assertEquals(0, Shr1Reversed(2)); assertEquals(0, Sar1Reversed(2)); assertEquals(1610612736, Shr1(SMI_MIN)); assertEquals(-536870912, Sar1(SMI_MIN)); assertEquals(1, Shr1Reversed(SMI_MIN)); assertEquals(1, Sar1Reversed(SMI_MIN)); assertEquals(21, Shr1(OBJ_42)); assertEquals(21, Sar1(OBJ_42)); assertEquals(0, Shr1Reversed(OBJ_42)); assertEquals(0, Sar1Reversed(OBJ_42)); assertEquals(6, Shr100(100), "100 >>> 100"); assertEquals(6, Sar100(100), "100 >> 100"); assertEquals(12, Shr100Reversed(99)); assertEquals(12, Sar100Reversed(99)); assertEquals(201326592, Shr100(SMI_MIN)); assertEquals(-67108864, Sar100(SMI_MIN)); assertEquals(100, Shr100Reversed(SMI_MIN)); assertEquals(100, Sar100Reversed(SMI_MIN)); assertEquals(2, Shr100(OBJ_42)); assertEquals(2, Sar100(OBJ_42)); assertEquals(0, Shr100Reversed(OBJ_42)); assertEquals(0, Sar100Reversed(OBJ_42)); function Xor1(x) { return x ^ 1; } function Xor100(x) { return x ^ 100; } function Xor1Reversed(x) { return 1 ^ x; } function Xor100Reversed(x) { return 100 ^ x; } assertEquals(0, Xor1(1)); assertEquals(3, Xor1Reversed(2)); assertEquals(SMI_MIN + 1, Xor1(SMI_MIN)); assertEquals(SMI_MIN + 1, Xor1Reversed(SMI_MIN)); assertEquals(43, Xor1(OBJ_42)); assertEquals(43, Xor1Reversed(OBJ_42)); assertEquals(0, Xor100(100)); assertEquals(7, Xor100Reversed(99)); assertEquals(-1073741724, Xor100(SMI_MIN)); assertEquals(-1073741724, Xor100Reversed(SMI_MIN)); assertEquals(78, Xor100(OBJ_42)); assertEquals(78, Xor100Reversed(OBJ_42)); var x = 0x23; var y = 0x35; assertEquals(0x16, x ^ y); // Bitwise not. var v = 0; assertEquals(-1, ~v); v = SMI_MIN; assertEquals(0x3fffffff, ~v, "~smimin"); v = SMI_MAX; assertEquals(-0x40000000, ~v, "~smimax"); // Overflowing ++ and --. v = SMI_MAX; v++; assertEquals(0x40000000, v, "smimax++"); v = SMI_MIN; v--; assertEquals(-0x40000001, v, "smimin--"); // Check that comparisons of numbers separated by MIN_SMI work. assertFalse(SMI_MIN > 0); assertFalse(SMI_MIN + 1 > 1); assertFalse(SMI_MIN + 1 > 2); assertFalse(SMI_MIN + 2 > 1); assertFalse(0 < SMI_MIN); assertTrue(-1 < SMI_MAX); assertFalse(SMI_MAX < -1); // Not actually Smi operations. // Check that relations on unary ops work. var v = -1.2; assertTrue(v == v); assertTrue(v === v); assertTrue(v <= v); assertTrue(v >= v); assertFalse(v < v); assertFalse(v > v); assertFalse(v != v); assertFalse(v !== v); // Right hand side of unary minus is overwritable. v = 1.5 assertEquals(-2.25, -(v * v)); // Smi input to bitop gives non-smi result where the rhs is a float that // can be overwritten. var x1 = 0x10000000; var x2 = 0x40000002; var x3 = 0x40000000; assertEquals(0x40000000, x1 << (x2 - x3), "0x10000000<<1(1)"); // Smi input to bitop gives non-smi result where the rhs could be overwritten // if it were a float, but it isn't. x1 = 0x10000000 x2 = 4 x3 = 2 assertEquals(0x40000000, x1 << (x2 - x3), "0x10000000<<2(2)"); // Test shift operators on non-smi inputs, giving smi and non-smi results. function testShiftNonSmis() { var pos_non_smi = 2000000000; var neg_non_smi = -pos_non_smi; var pos_smi = 1000000000; var neg_smi = -pos_smi; // Begin block A assertEquals(pos_non_smi, (pos_non_smi) >> 0); assertEquals(pos_non_smi, (pos_non_smi) >>> 0); assertEquals(pos_non_smi, (pos_non_smi) << 0); assertEquals(neg_non_smi, (neg_non_smi) >> 0); assertEquals(neg_non_smi + 0x100000000, (neg_non_smi) >>> 0); assertEquals(neg_non_smi, (neg_non_smi) << 0); assertEquals(pos_smi, (pos_smi) >> 0, "possmi >> 0"); assertEquals(pos_smi, (pos_smi) >>> 0, "possmi >>>0"); assertEquals(pos_smi, (pos_smi) << 0, "possmi << 0"); assertEquals(neg_smi, (neg_smi) >> 0, "negsmi >> 0"); assertEquals(neg_smi + 0x100000000, (neg_smi) >>> 0, "negsmi >>> 0"); assertEquals(neg_smi, (neg_smi) << 0), "negsmi << 0"; assertEquals(pos_non_smi / 2, (pos_non_smi) >> 1); assertEquals(pos_non_smi / 2, (pos_non_smi) >>> 1); assertEquals(-0x1194D800, (pos_non_smi) << 1); assertEquals(pos_non_smi / 8, (pos_non_smi) >> 3); assertEquals(pos_non_smi / 8, (pos_non_smi) >>> 3); assertEquals(-0x46536000, (pos_non_smi) << 3); assertEquals(0x73594000, (pos_non_smi) << 4); assertEquals(pos_non_smi, (pos_non_smi + 0.5) >> 0); assertEquals(pos_non_smi, (pos_non_smi + 0.5) >>> 0); assertEquals(pos_non_smi, (pos_non_smi + 0.5) << 0); assertEquals(pos_non_smi / 2, (pos_non_smi + 0.5) >> 1); assertEquals(pos_non_smi / 2, (pos_non_smi + 0.5) >>> 1); assertEquals(-0x1194D800, (pos_non_smi + 0.5) << 1); assertEquals(pos_non_smi / 8, (pos_non_smi + 0.5) >> 3); assertEquals(pos_non_smi / 8, (pos_non_smi + 0.5) >>> 3); assertEquals(-0x46536000, (pos_non_smi + 0.5) << 3); assertEquals(0x73594000, (pos_non_smi + 0.5) << 4); assertEquals(neg_non_smi / 2, (neg_non_smi) >> 1, "negnonsmi >> 1"); assertEquals(neg_non_smi / 2 + 0x100000000 / 2, (neg_non_smi) >>> 1, "negnonsmi >>> 1"); assertEquals(0x1194D800, (neg_non_smi) << 1); assertEquals(neg_non_smi / 8, (neg_non_smi) >> 3); assertEquals(neg_non_smi / 8 + 0x100000000 / 8, (neg_non_smi) >>> 3); assertEquals(0x46536000, (neg_non_smi) << 3); assertEquals(-0x73594000, (neg_non_smi) << 4); assertEquals(neg_non_smi, (neg_non_smi - 0.5) >> 0); assertEquals(neg_non_smi + 0x100000000, (neg_non_smi - 0.5) >>> 0, "negnonsmi.5 >>> 0"); assertEquals(neg_non_smi, (neg_non_smi - 0.5) << 0); assertEquals(neg_non_smi / 2, (neg_non_smi - 0.5) >> 1); assertEquals(neg_non_smi / 2 + 0x100000000 / 2, (neg_non_smi - 0.5) >>> 1, "negnonsmi.5 >>> 1"); assertEquals(0x1194D800, (neg_non_smi - 0.5) << 1); assertEquals(neg_non_smi / 8, (neg_non_smi - 0.5) >> 3); assertEquals(neg_non_smi / 8 + 0x100000000 / 8, (neg_non_smi - 0.5) >>> 3); assertEquals(0x46536000, (neg_non_smi - 0.5) << 3); assertEquals(-0x73594000, (neg_non_smi - 0.5) << 4); assertEquals(pos_smi / 2, (pos_smi) >> 1); assertEquals(pos_smi / 2, (pos_smi) >>> 1); assertEquals(pos_non_smi, (pos_smi) << 1); assertEquals(pos_smi / 8, (pos_smi) >> 3); assertEquals(pos_smi / 8, (pos_smi) >>> 3); assertEquals(-0x2329b000, (pos_smi) << 3); assertEquals(0x73594000, (pos_smi) << 5); assertEquals(pos_smi, (pos_smi + 0.5) >> 0, "possmi.5 >> 0"); assertEquals(pos_smi, (pos_smi + 0.5) >>> 0, "possmi.5 >>> 0"); assertEquals(pos_smi, (pos_smi + 0.5) << 0, "possmi.5 << 0"); assertEquals(pos_smi / 2, (pos_smi + 0.5) >> 1); assertEquals(pos_smi / 2, (pos_smi + 0.5) >>> 1); assertEquals(pos_non_smi, (pos_smi + 0.5) << 1); assertEquals(pos_smi / 8, (pos_smi + 0.5) >> 3); assertEquals(pos_smi / 8, (pos_smi + 0.5) >>> 3); assertEquals(-0x2329b000, (pos_smi + 0.5) << 3); assertEquals(0x73594000, (pos_smi + 0.5) << 5); assertEquals(neg_smi / 2, (neg_smi) >> 1); assertEquals(neg_smi / 2 + 0x100000000 / 2, (neg_smi) >>> 1); assertEquals(neg_non_smi, (neg_smi) << 1); assertEquals(neg_smi / 8, (neg_smi) >> 3); assertEquals(neg_smi / 8 + 0x100000000 / 8, (neg_smi) >>> 3); assertEquals(0x46536000, (neg_smi) << 4); assertEquals(-0x73594000, (neg_smi) << 5); assertEquals(neg_smi, (neg_smi - 0.5) >> 0, "negsmi.5 >> 0"); assertEquals(neg_smi + 0x100000000, (neg_smi - 0.5) >>> 0, "negsmi.5 >>> 0"); assertEquals(neg_smi, (neg_smi - 0.5) << 0, "negsmi.5 << 0"); assertEquals(neg_smi / 2, (neg_smi - 0.5) >> 1); assertEquals(neg_smi / 2 + 0x100000000 / 2, (neg_smi - 0.5) >>> 1); assertEquals(neg_non_smi, (neg_smi - 0.5) << 1); assertEquals(neg_smi / 8, (neg_smi - 0.5) >> 3); assertEquals(neg_smi / 8 + 0x100000000 / 8, (neg_smi - 0.5) >>> 3); assertEquals(0x46536000, (neg_smi - 0.5) << 4); assertEquals(-0x73594000, (neg_smi - 0.5) << 5); // End block A // Repeat block A with 2^32 added to positive numbers and // 2^32 subtracted from negative numbers. // Begin block A repeat 1 var two_32 = 0x100000000; var neg_32 = -two_32; assertEquals(pos_non_smi, (two_32 + pos_non_smi) >> 0); assertEquals(pos_non_smi, (two_32 + pos_non_smi) >>> 0); assertEquals(pos_non_smi, (two_32 + pos_non_smi) << 0); assertEquals(neg_non_smi, (neg_32 + neg_non_smi) >> 0); assertEquals(neg_non_smi + 0x100000000, (neg_32 + neg_non_smi) >>> 0); assertEquals(neg_non_smi, (neg_32 + neg_non_smi) << 0); assertEquals(pos_smi, (two_32 + pos_smi) >> 0, "2^32+possmi >> 0"); assertEquals(pos_smi, (two_32 + pos_smi) >>> 0, "2^32+possmi >>> 0"); assertEquals(pos_smi, (two_32 + pos_smi) << 0, "2^32+possmi << 0"); assertEquals(neg_smi, (neg_32 + neg_smi) >> 0, "2^32+negsmi >> 0"); assertEquals(neg_smi + 0x100000000, (neg_32 + neg_smi) >>> 0); assertEquals(neg_smi, (neg_32 + neg_smi) << 0, "2^32+negsmi << 0"); assertEquals(pos_non_smi / 2, (two_32 + pos_non_smi) >> 1); assertEquals(pos_non_smi / 2, (two_32 + pos_non_smi) >>> 1); assertEquals(-0x1194D800, (two_32 + pos_non_smi) << 1); assertEquals(pos_non_smi / 8, (two_32 + pos_non_smi) >> 3); assertEquals(pos_non_smi / 8, (two_32 + pos_non_smi) >>> 3); assertEquals(-0x46536000, (two_32 + pos_non_smi) << 3); assertEquals(0x73594000, (two_32 + pos_non_smi) << 4); assertEquals(pos_non_smi, (two_32 + pos_non_smi + 0.5) >> 0); assertEquals(pos_non_smi, (two_32 + pos_non_smi + 0.5) >>> 0); assertEquals(pos_non_smi, (two_32 + pos_non_smi + 0.5) << 0); assertEquals(pos_non_smi / 2, (two_32 + pos_non_smi + 0.5) >> 1); assertEquals(pos_non_smi / 2, (two_32 + pos_non_smi + 0.5) >>> 1); assertEquals(-0x1194D800, (two_32 + pos_non_smi + 0.5) << 1); assertEquals(pos_non_smi / 8, (two_32 + pos_non_smi + 0.5) >> 3); assertEquals(pos_non_smi / 8, (two_32 + pos_non_smi + 0.5) >>> 3); assertEquals(-0x46536000, (two_32 + pos_non_smi + 0.5) << 3); assertEquals(0x73594000, (two_32 + pos_non_smi + 0.5) << 4); assertEquals(neg_non_smi / 2, (neg_32 + neg_non_smi) >> 1); assertEquals(neg_non_smi / 2 + 0x100000000 / 2, (neg_32 + neg_non_smi) >>> 1); assertEquals(0x1194D800, (neg_32 + neg_non_smi) << 1); assertEquals(neg_non_smi / 8, (neg_32 + neg_non_smi) >> 3); assertEquals(neg_non_smi / 8 + 0x100000000 / 8, (neg_32 + neg_non_smi) >>> 3); assertEquals(0x46536000, (neg_32 + neg_non_smi) << 3); assertEquals(-0x73594000, (neg_32 + neg_non_smi) << 4); assertEquals(neg_non_smi, (neg_32 + neg_non_smi - 0.5) >> 0); assertEquals(neg_non_smi + 0x100000000, (neg_32 + neg_non_smi - 0.5) >>> 0); assertEquals(neg_non_smi, (neg_32 + neg_non_smi - 0.5) << 0); assertEquals(neg_non_smi / 2, (neg_32 + neg_non_smi - 0.5) >> 1); assertEquals(neg_non_smi / 2 + 0x100000000 / 2, (neg_32 + neg_non_smi - 0.5) >>> 1); assertEquals(0x1194D800, (neg_32 + neg_non_smi - 0.5) << 1); assertEquals(neg_non_smi / 8, (neg_32 + neg_non_smi - 0.5) >> 3); assertEquals(neg_non_smi / 8 + 0x100000000 / 8, (neg_32 + neg_non_smi - 0.5) >>> 3); assertEquals(0x46536000, (neg_32 + neg_non_smi - 0.5) << 3); assertEquals(-0x73594000, (neg_32 + neg_non_smi - 0.5) << 4); assertEquals(pos_smi / 2, (two_32 + pos_smi) >> 1); assertEquals(pos_smi / 2, (two_32 + pos_smi) >>> 1); assertEquals(pos_non_smi, (two_32 + pos_smi) << 1); assertEquals(pos_smi / 8, (two_32 + pos_smi) >> 3); assertEquals(pos_smi / 8, (two_32 + pos_smi) >>> 3); assertEquals(-0x2329b000, (two_32 + pos_smi) << 3); assertEquals(0x73594000, (two_32 + pos_smi) << 5); assertEquals(pos_smi, (two_32 + pos_smi + 0.5) >> 0); assertEquals(pos_smi, (two_32 + pos_smi + 0.5) >>> 0); assertEquals(pos_smi, (two_32 + pos_smi + 0.5) << 0); assertEquals(pos_smi / 2, (two_32 + pos_smi + 0.5) >> 1); assertEquals(pos_smi / 2, (two_32 + pos_smi + 0.5) >>> 1); assertEquals(pos_non_smi, (two_32 + pos_smi + 0.5) << 1); assertEquals(pos_smi / 8, (two_32 + pos_smi + 0.5) >> 3); assertEquals(pos_smi / 8, (two_32 + pos_smi + 0.5) >>> 3); assertEquals(-0x2329b000, (two_32 + pos_smi + 0.5) << 3); assertEquals(0x73594000, (two_32 + pos_smi + 0.5) << 5); assertEquals(neg_smi / 2, (neg_32 + neg_smi) >> 1); assertEquals(neg_smi / 2 + 0x100000000 / 2, (neg_32 + neg_smi) >>> 1); assertEquals(neg_non_smi, (neg_32 + neg_smi) << 1); assertEquals(neg_smi / 8, (neg_32 + neg_smi) >> 3); assertEquals((neg_smi + 0x100000000) / 8, (neg_32 + neg_smi) >>> 3); assertEquals(0x46536000, (neg_32 + neg_smi) << 4); assertEquals(-0x73594000, (neg_32 + neg_smi) << 5); assertEquals(neg_smi, (neg_32 + neg_smi - 0.5) >> 0, "-2^32+negsmi.5 >> 0"); assertEquals(neg_smi + 0x100000000, (neg_32 + neg_smi - 0.5) >>> 0); assertEquals(neg_smi, (neg_32 + neg_smi - 0.5) << 0, "-2^32+negsmi.5 << 0"); assertEquals(neg_smi / 2, (neg_32 + neg_smi - 0.5) >> 1); assertEquals(neg_smi / 2 + 0x100000000 / 2, (neg_32 + neg_smi - 0.5) >>> 1); assertEquals(neg_non_smi, (neg_32 + neg_smi - 0.5) << 1); assertEquals(neg_smi / 8, (neg_32 + neg_smi - 0.5) >> 3); assertEquals(neg_smi / 8 + 0x100000000 / 8, (neg_32 + neg_smi - 0.5) >>> 3); assertEquals(0x46536000, (neg_32 + neg_smi - 0.5) << 4); assertEquals(-0x73594000, (neg_32 + neg_smi - 0.5) << 5); // End block A repeat 1 // Repeat block A with shift amounts in variables initialized with // a constant. var zero = 0; var one = 1; var three = 3; var four = 4; var five = 5; // Begin block A repeat 2 assertEquals(pos_non_smi, (pos_non_smi) >> zero); assertEquals(pos_non_smi, (pos_non_smi) >>> zero); assertEquals(pos_non_smi, (pos_non_smi) << zero); assertEquals(neg_non_smi, (neg_non_smi) >> zero); assertEquals(neg_non_smi + 0x100000000, (neg_non_smi) >>> zero); assertEquals(neg_non_smi, (neg_non_smi) << zero); assertEquals(pos_smi, (pos_smi) >> zero); assertEquals(pos_smi, (pos_smi) >>> zero); assertEquals(pos_smi, (pos_smi) << zero); assertEquals(neg_smi, (neg_smi) >> zero, "negsmi >> zero"); assertEquals(neg_smi + 0x100000000, (neg_smi) >>> zero); assertEquals(neg_smi, (neg_smi) << zero, "negsmi << zero"); assertEquals(pos_non_smi / 2, (pos_non_smi) >> one); assertEquals(pos_non_smi / 2, (pos_non_smi) >>> one); assertEquals(-0x1194D800, (pos_non_smi) << one); assertEquals(pos_non_smi / 8, (pos_non_smi) >> three); assertEquals(pos_non_smi / 8, (pos_non_smi) >>> three); assertEquals(-0x46536000, (pos_non_smi) << three); assertEquals(0x73594000, (pos_non_smi) << four); assertEquals(pos_non_smi, (pos_non_smi + 0.5) >> zero); assertEquals(pos_non_smi, (pos_non_smi + 0.5) >>> zero); assertEquals(pos_non_smi, (pos_non_smi + 0.5) << zero); assertEquals(pos_non_smi / 2, (pos_non_smi + 0.5) >> one); assertEquals(pos_non_smi / 2, (pos_non_smi + 0.5) >>> one); assertEquals(-0x1194D800, (pos_non_smi + 0.5) << one); assertEquals(pos_non_smi / 8, (pos_non_smi + 0.5) >> three); assertEquals(pos_non_smi / 8, (pos_non_smi + 0.5) >>> three); assertEquals(-0x46536000, (pos_non_smi + 0.5) << three); assertEquals(0x73594000, (pos_non_smi + 0.5) << four); assertEquals(neg_non_smi / 2, (neg_non_smi) >> one); assertEquals(neg_non_smi / 2 + 0x100000000 / 2, (neg_non_smi) >>> one); assertEquals(0x1194D800, (neg_non_smi) << one); assertEquals(neg_non_smi / 8, (neg_non_smi) >> three); assertEquals(neg_non_smi / 8 + 0x100000000 / 8, (neg_non_smi) >>> three); assertEquals(0x46536000, (neg_non_smi) << three); assertEquals(-0x73594000, (neg_non_smi) << four); assertEquals(neg_non_smi, (neg_non_smi - 0.5) >> zero); assertEquals(neg_non_smi + 0x100000000, (neg_non_smi - 0.5) >>> zero); assertEquals(neg_non_smi, (neg_non_smi - 0.5) << zero); assertEquals(neg_non_smi / 2, (neg_non_smi - 0.5) >> one); assertEquals(neg_non_smi / 2 + 0x100000000 / 2, (neg_non_smi - 0.5) >>> one); assertEquals(0x1194D800, (neg_non_smi - 0.5) << one); assertEquals(neg_non_smi / 8, (neg_non_smi - 0.5) >> three); assertEquals(neg_non_smi / 8 + 0x100000000 / 8, (neg_non_smi - 0.5) >>> three); assertEquals(0x46536000, (neg_non_smi - 0.5) << three); assertEquals(-0x73594000, (neg_non_smi - 0.5) << four); assertEquals(pos_smi / 2, (pos_smi) >> one); assertEquals(pos_smi / 2, (pos_smi) >>> one); assertEquals(pos_non_smi, (pos_smi) << one); assertEquals(pos_smi / 8, (pos_smi) >> three); assertEquals(pos_smi / 8, (pos_smi) >>> three); assertEquals(-0x2329b000, (pos_smi) << three); assertEquals(0x73594000, (pos_smi) << five); assertEquals(pos_smi, (pos_smi + 0.5) >> zero); assertEquals(pos_smi, (pos_smi + 0.5) >>> zero); assertEquals(pos_smi, (pos_smi + 0.5) << zero); assertEquals(pos_smi / 2, (pos_smi + 0.5) >> one); assertEquals(pos_smi / 2, (pos_smi + 0.5) >>> one); assertEquals(pos_non_smi, (pos_smi + 0.5) << one); assertEquals(pos_smi / 8, (pos_smi + 0.5) >> three); assertEquals(pos_smi / 8, (pos_smi + 0.5) >>> three); assertEquals(-0x2329b000, (pos_smi + 0.5) << three); assertEquals(0x73594000, (pos_smi + 0.5) << five); assertEquals(neg_smi / 2, (neg_smi) >> one); assertEquals(neg_smi / 2 + 0x100000000 / 2, (neg_smi) >>> one); assertEquals(neg_non_smi, (neg_smi) << one); assertEquals(neg_smi / 8, (neg_smi) >> three); assertEquals(neg_smi / 8 + 0x100000000 / 8, (neg_smi) >>> three); assertEquals(0x46536000, (neg_smi) << four); assertEquals(-0x73594000, (neg_smi) << five); assertEquals(neg_smi, (neg_smi - 0.5) >> zero); assertEquals(neg_smi + 0x100000000, (neg_smi - 0.5) >>> zero); assertEquals(neg_smi, (neg_smi - 0.5) << zero); assertEquals(neg_smi / 2, (neg_smi - 0.5) >> one); assertEquals(neg_smi / 2 + 0x100000000 / 2, (neg_smi - 0.5) >>> one); assertEquals(neg_non_smi, (neg_smi - 0.5) << one); assertEquals(neg_smi / 8, (neg_smi - 0.5) >> three); assertEquals(neg_smi / 8 + 0x100000000 / 8, (neg_smi - 0.5) >>> three); assertEquals(0x46536000, (neg_smi - 0.5) << four); assertEquals(-0x73594000, (neg_smi - 0.5) << five); // End block A repeat 2 // Repeat previous block, with computed values in the shift variables. five = 0; while (five < 5 ) ++five; four = five - one; three = four - one; one = four - three; zero = one - one; // Begin block A repeat 3 assertEquals(pos_non_smi, (pos_non_smi) >> zero); assertEquals(pos_non_smi, (pos_non_smi) >>> zero); assertEquals(pos_non_smi, (pos_non_smi) << zero); assertEquals(neg_non_smi, (neg_non_smi) >> zero); assertEquals(neg_non_smi + 0x100000000, (neg_non_smi) >>> zero); assertEquals(neg_non_smi, (neg_non_smi) << zero); assertEquals(pos_smi, (pos_smi) >> zero); assertEquals(pos_smi, (pos_smi) >>> zero); assertEquals(pos_smi, (pos_smi) << zero); assertEquals(neg_smi, (neg_smi) >> zero, "negsmi >> zero(2)"); assertEquals(neg_smi + 0x100000000, (neg_smi) >>> zero); assertEquals(neg_smi, (neg_smi) << zero, "negsmi << zero(2)"); assertEquals(pos_non_smi / 2, (pos_non_smi) >> one); assertEquals(pos_non_smi / 2, (pos_non_smi) >>> one); assertEquals(-0x1194D800, (pos_non_smi) << one); assertEquals(pos_non_smi / 8, (pos_non_smi) >> three); assertEquals(pos_non_smi / 8, (pos_non_smi) >>> three); assertEquals(-0x46536000, (pos_non_smi) << three); assertEquals(0x73594000, (pos_non_smi) << four); assertEquals(pos_non_smi, (pos_non_smi + 0.5) >> zero); assertEquals(pos_non_smi, (pos_non_smi + 0.5) >>> zero); assertEquals(pos_non_smi, (pos_non_smi + 0.5) << zero); assertEquals(pos_non_smi / 2, (pos_non_smi + 0.5) >> one); assertEquals(pos_non_smi / 2, (pos_non_smi + 0.5) >>> one); assertEquals(-0x1194D800, (pos_non_smi + 0.5) << one); assertEquals(pos_non_smi / 8, (pos_non_smi + 0.5) >> three); assertEquals(pos_non_smi / 8, (pos_non_smi + 0.5) >>> three); assertEquals(-0x46536000, (pos_non_smi + 0.5) << three); assertEquals(0x73594000, (pos_non_smi + 0.5) << four); assertEquals(neg_non_smi / 2, (neg_non_smi) >> one); assertEquals(neg_non_smi / 2 + 0x100000000 / 2, (neg_non_smi) >>> one); assertEquals(0x1194D800, (neg_non_smi) << one); assertEquals(neg_non_smi / 8, (neg_non_smi) >> three); assertEquals(neg_non_smi / 8 + 0x100000000 / 8, (neg_non_smi) >>> three); assertEquals(0x46536000, (neg_non_smi) << three); assertEquals(-0x73594000, (neg_non_smi) << four); assertEquals(neg_non_smi, (neg_non_smi - 0.5) >> zero); assertEquals(neg_non_smi + 0x100000000, (neg_non_smi - 0.5) >>> zero); assertEquals(neg_non_smi, (neg_non_smi - 0.5) << zero); assertEquals(neg_non_smi / 2, (neg_non_smi - 0.5) >> one); assertEquals(neg_non_smi / 2 + 0x100000000 / 2, (neg_non_smi - 0.5) >>> one); assertEquals(0x1194D800, (neg_non_smi - 0.5) << one); assertEquals(neg_non_smi / 8, (neg_non_smi - 0.5) >> three); assertEquals(neg_non_smi / 8 + 0x100000000 / 8, (neg_non_smi - 0.5) >>> three); assertEquals(0x46536000, (neg_non_smi - 0.5) << three); assertEquals(-0x73594000, (neg_non_smi - 0.5) << four); assertEquals(pos_smi / 2, (pos_smi) >> one); assertEquals(pos_smi / 2, (pos_smi) >>> one); assertEquals(pos_non_smi, (pos_smi) << one); assertEquals(pos_smi / 8, (pos_smi) >> three); assertEquals(pos_smi / 8, (pos_smi) >>> three); assertEquals(-0x2329b000, (pos_smi) << three); assertEquals(0x73594000, (pos_smi) << five); assertEquals(pos_smi, (pos_smi + 0.5) >> zero); assertEquals(pos_smi, (pos_smi + 0.5) >>> zero); assertEquals(pos_smi, (pos_smi + 0.5) << zero); assertEquals(pos_smi / 2, (pos_smi + 0.5) >> one); assertEquals(pos_smi / 2, (pos_smi + 0.5) >>> one); assertEquals(pos_non_smi, (pos_smi + 0.5) << one); assertEquals(pos_smi / 8, (pos_smi + 0.5) >> three); assertEquals(pos_smi / 8, (pos_smi + 0.5) >>> three); assertEquals(-0x2329b000, (pos_smi + 0.5) << three); assertEquals(0x73594000, (pos_smi + 0.5) << five); assertEquals(neg_smi / 2, (neg_smi) >> one); assertEquals(neg_smi / 2 + 0x100000000 / 2, (neg_smi) >>> one); assertEquals(neg_non_smi, (neg_smi) << one); assertEquals(neg_smi / 8, (neg_smi) >> three); assertEquals(neg_smi / 8 + 0x100000000 / 8, (neg_smi) >>> three); assertEquals(0x46536000, (neg_smi) << four); assertEquals(-0x73594000, (neg_smi) << five); assertEquals(neg_smi, (neg_smi - 0.5) >> zero, "negsmi.5 >> zero"); assertEquals(neg_smi + 0x100000000, (neg_smi - 0.5) >>> zero); assertEquals(neg_smi, (neg_smi - 0.5) << zero, "negsmi.5 << zero"); assertEquals(neg_smi / 2, (neg_smi - 0.5) >> one); assertEquals(neg_smi / 2 + 0x100000000 / 2, (neg_smi - 0.5) >>> one); assertEquals(neg_non_smi, (neg_smi - 0.5) << one); assertEquals(neg_smi / 8, (neg_smi - 0.5) >> three); assertEquals(neg_smi / 8 + 0x100000000 / 8, (neg_smi - 0.5) >>> three); assertEquals(0x46536000, (neg_smi - 0.5) << four); assertEquals(-0x73594000, (neg_smi - 0.5) << five); // End block A repeat 3 // Test non-integer shift value assertEquals(5, 20.5 >> 2.4); assertEquals(5, 20.5 >> 2.7); var shift = 2.4; assertEquals(5, 20.5 >> shift); assertEquals(5, 20.5 >> shift + 0.3); shift = shift + zero; assertEquals(5, 20.5 >> shift); assertEquals(5, 20.5 >> shift + 0.3); } testShiftNonSmis(); function intConversion() { function foo(x) { assertEquals(x, (x * 1.0000000001) | 0, "foo more " + x); assertEquals(x, x | 0, "foo " + x); if (x > 0) { assertEquals(x - 1, (x * 0.9999999999) | 0, "foo less " + x); } else { assertEquals(x + 1, (x * 0.9999999999) | 0, "foo less " + x); } } for (var i = 1; i < 0x80000000; i *= 2) { foo(i); foo(-i); } for (var i = 1; i < 1/0; i *= 2) { assertEquals(i | 0, (i * 1.0000000000000001) | 0, "b" + i); assertEquals(-i | 0, (i * -1.0000000000000001) | 0, "c" + i); } for (var i = 0.5; i > 0; i /= 2) { assertEquals(0, i | 0, "d" + i); assertEquals(0, -i | 0, "e" + i); } } intConversion(); // Verify that we handle the (optimized) corner case of shifting by // zero even for non-smis. function shiftByZero(n) { return n << 0; } assertEquals(3, shiftByZero(3.1415)); // Verify that the static type information of x >>> 32 is computed correctly. function LogicalShiftRightByMultipleOf32(x) { x = x >>> 32; return x + x; } assertEquals(4589934592, LogicalShiftRightByMultipleOf32(-2000000000)); assertEquals(4589934592, LogicalShiftRightByMultipleOf32(-2000000000)); // Verify that the shift amount is reduced modulo 32, not modulo 64. function LeftShiftThreeBy(x) {return 3 << x;} assertEquals(24, LeftShiftThreeBy(3)); assertEquals(24, LeftShiftThreeBy(35)); assertEquals(24, LeftShiftThreeBy(67)); assertEquals(24, LeftShiftThreeBy(-29)); // Regression test for a bug in the ARM code generator. For some register // allocations we got the Smi overflow case wrong. function f(x, y) { return y + ( 1 << (x & 31)); } assertEquals(-2147483647, f(31, 1)); // Regression test for correct handling of overflow in smi comparison. assertTrue(-0x40000000 < 42);