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ima02/resources/defects4j-checkout-closure-1f/test/com/google/javascript/jscomp/PeepholeFoldConstantsTest.java

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/*
* Copyright 2004 The Closure Compiler Authors.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.google.javascript.jscomp;
import com.google.common.base.Joiner;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.ImmutableSet;
import com.google.javascript.rhino.Node;
import java.util.List;
import java.util.Map;
import java.util.Set;
/**
* Tests for {@link PeepholeFoldConstants} in isolation. Tests for
* the interaction of multiple peephole passes are in
* {@link PeepholeIntegrationTest}.
*/
public class PeepholeFoldConstantsTest extends CompilerTestCase {
private boolean late;
// TODO(user): Remove this when we no longer need to do string comparison.
private PeepholeFoldConstantsTest(boolean compareAsTree) {
super("", compareAsTree);
}
public PeepholeFoldConstantsTest() {
super("");
}
@Override
public void setUp() {
late = false;
enableLineNumberCheck(true);
}
@Override
public CompilerPass getProcessor(final Compiler compiler) {
CompilerPass peepholePass = new PeepholeOptimizationsPass(compiler,
new PeepholeFoldConstants(late));
return peepholePass;
}
@Override
protected int getNumRepetitions() {
// Reduce this to 1 if we get better expression evaluators.
return 2;
}
private void foldSame(String js) {
testSame(js);
}
private void fold(String js, String expected) {
test(js, expected);
}
private void fold(String js, String expected, DiagnosticType warning) {
test(js, expected, null, warning);
}
// TODO(user): This is same as fold() except it uses string comparison. Any
// test that needs tell us where a folding is constructing an invalid AST.
private void assertResultString(String js, String expected) {
PeepholeFoldConstantsTest scTest = new PeepholeFoldConstantsTest(false);
scTest.test(js, expected);
}
public void testUndefinedComparison1() {
fold("undefined == undefined", "true");
fold("undefined == null", "true");
fold("undefined == void 0", "true");
fold("undefined == 0", "false");
fold("undefined == 1", "false");
fold("undefined == 'hi'", "false");
fold("undefined == true", "false");
fold("undefined == false", "false");
fold("undefined === undefined", "true");
fold("undefined === null", "false");
fold("undefined === void 0", "true");
foldSame("undefined == this");
foldSame("undefined == x");
fold("undefined != undefined", "false");
fold("undefined != null", "false");
fold("undefined != void 0", "false");
fold("undefined != 0", "true");
fold("undefined != 1", "true");
fold("undefined != 'hi'", "true");
fold("undefined != true", "true");
fold("undefined != false", "true");
fold("undefined !== undefined", "false");
fold("undefined !== void 0", "false");
fold("undefined !== null", "true");
foldSame("undefined != this");
foldSame("undefined != x");
fold("undefined < undefined", "false");
fold("undefined > undefined", "false");
fold("undefined >= undefined", "false");
fold("undefined <= undefined", "false");
fold("0 < undefined", "false");
fold("true > undefined", "false");
fold("'hi' >= undefined", "false");
fold("null <= undefined", "false");
fold("undefined < 0", "false");
fold("undefined > true", "false");
fold("undefined >= 'hi'", "false");
fold("undefined <= null", "false");
fold("null == undefined", "true");
fold("0 == undefined", "false");
fold("1 == undefined", "false");
fold("'hi' == undefined", "false");
fold("true == undefined", "false");
fold("false == undefined", "false");
fold("null === undefined", "false");
fold("void 0 === undefined", "true");
fold("undefined == NaN", "false");
fold("NaN == undefined", "false");
fold("undefined == Infinity", "false");
fold("Infinity == undefined", "false");
fold("undefined == -Infinity", "false");
fold("-Infinity == undefined", "false");
fold("({}) == undefined", "false");
fold("undefined == ({})", "false");
fold("([]) == undefined", "false");
fold("undefined == ([])", "false");
fold("(/a/g) == undefined", "false");
fold("undefined == (/a/g)", "false");
fold("(function(){}) == undefined", "false");
fold("undefined == (function(){})", "false");
fold("undefined != NaN", "true");
fold("NaN != undefined", "true");
fold("undefined != Infinity", "true");
fold("Infinity != undefined", "true");
fold("undefined != -Infinity", "true");
fold("-Infinity != undefined", "true");
fold("({}) != undefined", "true");
fold("undefined != ({})", "true");
fold("([]) != undefined", "true");
fold("undefined != ([])", "true");
fold("(/a/g) != undefined", "true");
fold("undefined != (/a/g)", "true");
fold("(function(){}) != undefined", "true");
fold("undefined != (function(){})", "true");
foldSame("this == undefined");
foldSame("x == undefined");
}
public void testUndefinedComparison2() {
fold("\"123\" !== void 0", "true");
fold("\"123\" === void 0", "false");
fold("void 0 !== \"123\"", "true");
fold("void 0 === \"123\"", "false");
}
public void testUndefinedComparison3() {
fold("\"123\" !== undefined", "true");
fold("\"123\" === undefined", "false");
fold("undefined !== \"123\"", "true");
fold("undefined === \"123\"", "false");
}
public void testUndefinedComparison4() {
fold("1 !== void 0", "true");
fold("1 === void 0", "false");
fold("null !== void 0", "true");
fold("null === void 0", "false");
fold("undefined !== void 0", "false");
fold("undefined === void 0", "true");
}
public void testNullComparison1() {
fold("null == undefined", "true");
fold("null == null", "true");
fold("null == void 0", "true");
fold("null == 0", "false");
fold("null == 1", "false");
fold("null == 'hi'", "false");
fold("null == true", "false");
fold("null == false", "false");
fold("null === undefined", "false");
fold("null === null", "true");
fold("null === void 0", "false");
foldSame("null == this");
foldSame("null == x");
fold("null != undefined", "false");
fold("null != null", "false");
fold("null != void 0", "false");
fold("null != 0", "true");
fold("null != 1", "true");
fold("null != 'hi'", "true");
fold("null != true", "true");
fold("null != false", "true");
fold("null !== undefined", "true");
fold("null !== void 0", "true");
fold("null !== null", "false");
foldSame("null != this");
foldSame("null != x");
fold("null < null", "false");
fold("null > null", "false");
fold("null >= null", "true");
fold("null <= null", "true");
foldSame("0 < null"); // foldable
fold("true > null", "true");
foldSame("'hi' >= null"); // foldable
fold("null <= null", "true");
foldSame("null < 0"); // foldable
fold("null > true", "false");
foldSame("null >= 'hi'"); // foldable
fold("null <= null", "true");
fold("null == null", "true");
fold("0 == null", "false");
fold("1 == null", "false");
fold("'hi' == null", "false");
fold("true == null", "false");
fold("false == null", "false");
fold("null === null", "true");
fold("void 0 === null", "false");
fold("null == NaN", "false");
fold("NaN == null", "false");
fold("null == Infinity", "false");
fold("Infinity == null", "false");
fold("null == -Infinity", "false");
fold("-Infinity == null", "false");
fold("({}) == null", "false");
fold("null == ({})", "false");
fold("([]) == null", "false");
fold("null == ([])", "false");
fold("(/a/g) == null", "false");
fold("null == (/a/g)", "false");
fold("(function(){}) == null", "false");
fold("null == (function(){})", "false");
fold("null != NaN", "true");
fold("NaN != null", "true");
fold("null != Infinity", "true");
fold("Infinity != null", "true");
fold("null != -Infinity", "true");
fold("-Infinity != null", "true");
fold("({}) != null", "true");
fold("null != ({})", "true");
fold("([]) != null", "true");
fold("null != ([])", "true");
fold("(/a/g) != null", "true");
fold("null != (/a/g)", "true");
fold("(function(){}) != null", "true");
fold("null != (function(){})", "true");
foldSame("({a:f()}) == null");
foldSame("null == ({a:f()})");
foldSame("([f()]) == null");
foldSame("null == ([f()])");
foldSame("this == null");
foldSame("x == null");
}
public void testUnaryOps() {
// These cases are handled by PeepholeRemoveDeadCode.
foldSame("!foo()");
foldSame("~foo()");
foldSame("-foo()");
// These cases are handled here.
fold("a=!true", "a=false");
fold("a=!10", "a=false");
fold("a=!false", "a=true");
fold("a=!foo()", "a=!foo()");
fold("a=-0", "a=-0.0");
fold("a=-(0)", "a=-0.0");
fold("a=-Infinity", "a=-Infinity");
fold("a=-NaN", "a=NaN");
fold("a=-foo()", "a=-foo()");
fold("a=~~0", "a=0");
fold("a=~~10", "a=10");
fold("a=~-7", "a=6");
fold("a=+true", "a=1");
fold("a=+10", "a=10");
fold("a=+false", "a=0");
foldSame("a=+foo()");
foldSame("a=+f");
fold("a=+(f?true:false)", "a=+(f?1:0)"); // TODO(johnlenz): foldable
fold("a=+0", "a=0");
fold("a=+Infinity", "a=Infinity");
fold("a=+NaN", "a=NaN");
fold("a=+-7", "a=-7");
fold("a=+.5", "a=.5");
fold("a=~0x100000000", "a=~0x100000000",
PeepholeFoldConstants.BITWISE_OPERAND_OUT_OF_RANGE);
fold("a=~-0x100000000", "a=~-0x100000000",
PeepholeFoldConstants.BITWISE_OPERAND_OUT_OF_RANGE);
testSame("a=~.5", PeepholeFoldConstants.FRACTIONAL_BITWISE_OPERAND);
}
public void testUnaryOpsStringCompare() {
// Negatives are folded into a single number node.
assertResultString("a=-1", "a=-1");
assertResultString("a=~0", "a=-1");
assertResultString("a=~1", "a=-2");
assertResultString("a=~101", "a=-102");
}
public void testFoldLogicalOp() {
fold("x = true && x", "x = x");
foldSame("x = [foo()] && x");
fold("x = false && x", "x = false");
fold("x = true || x", "x = true");
fold("x = false || x", "x = x");
fold("x = 0 && x", "x = 0");
fold("x = 3 || x", "x = 3");
fold("x = false || 0", "x = 0");
// unfoldable, because the right-side may be the result
fold("a = x && true", "a=x&&true");
fold("a = x && false", "a=x&&false");
fold("a = x || 3", "a=x||3");
fold("a = x || false", "a=x||false");
fold("a = b ? c : x || false", "a=b?c:x||false");
fold("a = b ? x || false : c", "a=b?x||false:c");
fold("a = b ? c : x && true", "a=b?c:x&&true");
fold("a = b ? x && true : c", "a=b?x&&true:c");
// folded, but not here.
foldSame("a = x || false ? b : c");
foldSame("a = x && true ? b : c");
fold("x = foo() || true || bar()", "x = foo()||true");
fold("x = foo() || false || bar()", "x = foo()||bar()");
fold("x = foo() || true && bar()", "x = foo()||bar()");
fold("x = foo() || false && bar()", "x = foo()||false");
fold("x = foo() && false && bar()", "x = foo()&&false");
fold("x = foo() && true && bar()", "x = foo()&&bar()");
fold("x = foo() && false || bar()", "x = foo()&&false||bar()");
fold("1 && b()", "b()");
fold("a() && (1 && b())", "a() && b()");
// TODO(johnlenz): Consider folding the following to:
// "(a(),1) && b();
fold("(a() && 1) && b()", "(a() && 1) && b()");
// Really not foldable, because it would change the type of the
// expression if foo() returns something equivalent, but not
// identical, to true. Cf. FoldConstants.tryFoldAndOr().
foldSame("x = foo() && true || bar()");
foldSame("foo() && true || bar()");
}
public void testFoldBitwiseOp() {
fold("x = 1 & 1", "x = 1");
fold("x = 1 & 2", "x = 0");
fold("x = 3 & 1", "x = 1");
fold("x = 3 & 3", "x = 3");
fold("x = 1 | 1", "x = 1");
fold("x = 1 | 2", "x = 3");
fold("x = 3 | 1", "x = 3");
fold("x = 3 | 3", "x = 3");
fold("x = 1 ^ 1", "x = 0");
fold("x = 1 ^ 2", "x = 3");
fold("x = 3 ^ 1", "x = 2");
fold("x = 3 ^ 3", "x = 0");
fold("x = -1 & 0", "x = 0");
fold("x = 0 & -1", "x = 0");
fold("x = 1 & 4", "x = 0");
fold("x = 2 & 3", "x = 2");
// make sure we fold only when we are supposed to -- not when doing so would
// lose information or when it is performed on nonsensical arguments.
fold("x = 1 & 1.1", "x = 1");
fold("x = 1.1 & 1", "x = 1");
fold("x = 1 & 3000000000", "x = 0");
fold("x = 3000000000 & 1", "x = 0");
// Try some cases with | as well
fold("x = 1 | 4", "x = 5");
fold("x = 1 | 3", "x = 3");
fold("x = 1 | 1.1", "x = 1");
foldSame("x = 1 | 3E9");
fold("x = 1 | 3000000001", "x = -1294967295");
}
public void testFoldBitwiseOp2() {
fold("x = y & 1 & 1", "x = y & 1");
fold("x = y & 1 & 2", "x = y & 0");
fold("x = y & 3 & 1", "x = y & 1");
fold("x = 3 & y & 1", "x = y & 1");
fold("x = y & 3 & 3", "x = y & 3");
fold("x = 3 & y & 3", "x = y & 3");
fold("x = y | 1 | 1", "x = y | 1");
fold("x = y | 1 | 2", "x = y | 3");
fold("x = y | 3 | 1", "x = y | 3");
fold("x = 3 | y | 1", "x = y | 3");
fold("x = y | 3 | 3", "x = y | 3");
fold("x = 3 | y | 3", "x = y | 3");
fold("x = y ^ 1 ^ 1", "x = y ^ 0");
fold("x = y ^ 1 ^ 2", "x = y ^ 3");
fold("x = y ^ 3 ^ 1", "x = y ^ 2");
fold("x = 3 ^ y ^ 1", "x = y ^ 2");
fold("x = y ^ 3 ^ 3", "x = y ^ 0");
fold("x = 3 ^ y ^ 3", "x = y ^ 0");
fold("x = Infinity | NaN", "x=0");
fold("x = 12 | NaN", "x=12");
}
public void testFoldingMixTypesLate() {
late = true;
fold("x = x + '2'", "x+='2'");
fold("x = +x + +'2'", "x = +x + 2");
fold("x = x - '2'", "x-=2");
fold("x = x ^ '2'", "x^=2");
fold("x = '2' ^ x", "x^=2");
fold("x = '2' & x", "x&=2");
fold("x = '2' | x", "x|=2");
fold("x = '2' | y", "x=2|y");
fold("x = y | '2'", "x=y|2");
fold("x = y | (a && '2')", "x=y|(a&&2)");
fold("x = y | (a,'2')", "x=y|(a,2)");
fold("x = y | (a?'1':'2')", "x=y|(a?1:2)");
fold("x = y | ('x'?'1':'2')", "x=y|('x'?1:2)");
}
public void testFoldingMixTypesEarly() {
late = false;
foldSame("x = x + '2'");
fold("x = +x + +'2'", "x = +x + 2");
fold("x = x - '2'", "x = x - 2");
fold("x = x ^ '2'", "x = x ^ 2");
fold("x = '2' ^ x", "x = 2 ^ x");
fold("x = '2' & x", "x = 2 & x");
fold("x = '2' | x", "x = 2 | x");
fold("x = '2' | y", "x=2|y");
fold("x = y | '2'", "x=y|2");
fold("x = y | (a && '2')", "x=y|(a&&2)");
fold("x = y | (a,'2')", "x=y|(a,2)");
fold("x = y | (a?'1':'2')", "x=y|(a?1:2)");
fold("x = y | ('x'?'1':'2')", "x=y|('x'?1:2)");
}
public void testFoldingAdd() {
fold("x = null + true", "x=1");
foldSame("x = a + true");
}
public void testFoldBitwiseOpStringCompare() {
assertResultString("x = -1 | 0", "x=-1");
// EXPR_RESULT case is in in PeepholeIntegrationTest
}
public void testFoldBitShifts() {
fold("x = 1 << 0", "x = 1");
fold("x = -1 << 0", "x = -1");
fold("x = 1 << 1", "x = 2");
fold("x = 3 << 1", "x = 6");
fold("x = 1 << 8", "x = 256");
fold("x = 1 >> 0", "x = 1");
fold("x = -1 >> 0", "x = -1");
fold("x = 1 >> 1", "x = 0");
fold("x = 2 >> 1", "x = 1");
fold("x = 5 >> 1", "x = 2");
fold("x = 127 >> 3", "x = 15");
fold("x = 3 >> 1", "x = 1");
fold("x = 3 >> 2", "x = 0");
fold("x = 10 >> 1", "x = 5");
fold("x = 10 >> 2", "x = 2");
fold("x = 10 >> 5", "x = 0");
fold("x = 10 >>> 1", "x = 5");
fold("x = 10 >>> 2", "x = 2");
fold("x = 10 >>> 5", "x = 0");
fold("x = -1 >>> 1", "x = 2147483647"); // 0x7fffffff
fold("x = -1 >>> 0", "x = 4294967295"); // 0xffffffff
fold("x = -2 >>> 0", "x = 4294967294"); // 0xfffffffe
testSame("3000000000 << 1",
PeepholeFoldConstants.BITWISE_OPERAND_OUT_OF_RANGE);
testSame("1 << 32",
PeepholeFoldConstants.SHIFT_AMOUNT_OUT_OF_BOUNDS);
testSame("1 << -1",
PeepholeFoldConstants.SHIFT_AMOUNT_OUT_OF_BOUNDS);
testSame("3000000000 >> 1",
PeepholeFoldConstants.BITWISE_OPERAND_OUT_OF_RANGE);
testSame("1 >> 32",
PeepholeFoldConstants.SHIFT_AMOUNT_OUT_OF_BOUNDS);
testSame("1.5 << 0",
PeepholeFoldConstants.FRACTIONAL_BITWISE_OPERAND);
testSame("1 << .5",
PeepholeFoldConstants.FRACTIONAL_BITWISE_OPERAND);
testSame("1.5 >>> 0",
PeepholeFoldConstants.FRACTIONAL_BITWISE_OPERAND);
testSame("1 >>> .5",
PeepholeFoldConstants.FRACTIONAL_BITWISE_OPERAND);
testSame("1.5 >> 0",
PeepholeFoldConstants.FRACTIONAL_BITWISE_OPERAND);
testSame("1 >> .5",
PeepholeFoldConstants.FRACTIONAL_BITWISE_OPERAND);
}
public void testFoldBitShiftsStringCompare() {
// Negative numbers.
assertResultString("x = -1 << 1", "x=-2");
assertResultString("x = -1 << 8", "x=-256");
assertResultString("x = -1 >> 1", "x=-1");
assertResultString("x = -2 >> 1", "x=-1");
assertResultString("x = -1 >> 0", "x=-1");
}
public void testStringAdd() {
fold("x = 'a' + \"bc\"", "x = \"abc\"");
fold("x = 'a' + 5", "x = \"a5\"");
fold("x = 5 + 'a'", "x = \"5a\"");
fold("x = 'a' + ''", "x = \"a\"");
fold("x = \"a\" + foo()", "x = \"a\"+foo()");
fold("x = foo() + 'a' + 'b'", "x = foo()+\"ab\"");
fold("x = (foo() + 'a') + 'b'", "x = foo()+\"ab\""); // believe it!
fold("x = foo() + 'a' + 'b' + 'cd' + bar()", "x = foo()+\"abcd\"+bar()");
fold("x = foo() + 2 + 'b'", "x = foo()+2+\"b\""); // don't fold!
fold("x = foo() + 'a' + 2", "x = foo()+\"a2\"");
fold("x = '' + null", "x = \"null\"");
fold("x = true + '' + false", "x = \"truefalse\"");
fold("x = '' + []", "x = ''"); // cannot fold (but nice if we can)
}
public void testIssue821() {
foldSame("var a =(Math.random()>0.5? '1' : 2 ) + 3 + 4;");
foldSame("var a = ((Math.random() ? 0 : 1) ||" +
"(Math.random()>0.5? '1' : 2 )) + 3 + 4;");
}
public void testFoldConstructor() {
fold("x = this[new String('a')]", "x = this['a']");
fold("x = ob[new String(12)]", "x = ob['12']");
fold("x = ob[new String(false)]", "x = ob['false']");
fold("x = ob[new String(null)]", "x = ob['null']");
fold("x = 'a' + new String('b')", "x = 'ab'");
fold("x = 'a' + new String(23)", "x = 'a23'");
fold("x = 2 + new String(1)", "x = '21'");
foldSame("x = ob[new String(a)]");
foldSame("x = new String('a')");
foldSame("x = (new String('a'))[3]");
}
public void testFoldArithmetic() {
fold("x = 10 + 20", "x = 30");
fold("x = 2 / 4", "x = 0.5");
fold("x = 2.25 * 3", "x = 6.75");
fold("z = x * y", "z = x * y");
fold("x = y * 5", "x = y * 5");
fold("x = 1 / 0", "x = 1 / 0");
fold("x = 3 % 2", "x = 1");
fold("x = 3 % -2", "x = 1");
fold("x = -1 % 3", "x = -1");
fold("x = 1 % 0", "x = 1 % 0");
}
public void testFoldArithmetic2() {
foldSame("x = y + 10 + 20");
foldSame("x = y / 2 / 4");
fold("x = y * 2.25 * 3", "x = y * 6.75");
fold("z = x * y", "z = x * y");
fold("x = y * 5", "x = y * 5");
fold("x = y + (z * 24 * 60 * 60 * 1000)", "x = y + z * 864E5");
}
public void testFoldArithmetic3() {
fold("x = null * undefined", "x = NaN");
fold("x = null * 1", "x = 0");
fold("x = (null - 1) * 2", "x = -2");
fold("x = (null + 1) * 2", "x = 2");
}
public void testFoldArithmeticInfinity() {
fold("x=-Infinity-2", "x=-Infinity");
fold("x=Infinity-2", "x=Infinity");
fold("x=Infinity*5", "x=Infinity");
}
public void testFoldArithmeticStringComp() {
// Negative Numbers.
assertResultString("x = 10 - 20", "x=-10");
}
public void testFoldComparison() {
fold("x = 0 == 0", "x = true");
fold("x = 1 == 2", "x = false");
fold("x = 'abc' == 'def'", "x = false");
fold("x = 'abc' == 'abc'", "x = true");
fold("x = \"\" == ''", "x = true");
fold("x = foo() == bar()", "x = foo()==bar()");
fold("x = 1 != 0", "x = true");
fold("x = 'abc' != 'def'", "x = true");
fold("x = 'a' != 'a'", "x = false");
fold("x = 1 < 20", "x = true");
fold("x = 3 < 3", "x = false");
fold("x = 10 > 1.0", "x = true");
fold("x = 10 > 10.25", "x = false");
fold("x = y == y", "x = y==y");
fold("x = y < y", "x = false");
fold("x = y > y", "x = false");
fold("x = 1 <= 1", "x = true");
fold("x = 1 <= 0", "x = false");
fold("x = 0 >= 0", "x = true");
fold("x = -1 >= 9", "x = false");
fold("x = true == true", "x = true");
fold("x = false == false", "x = true");
fold("x = false == null", "x = false");
fold("x = false == true", "x = false");
fold("x = true == null", "x = false");
fold("0 == 0", "true");
fold("1 == 2", "false");
fold("'abc' == 'def'", "false");
fold("'abc' == 'abc'", "true");
fold("\"\" == ''", "true");
foldSame("foo() == bar()");
fold("1 != 0", "true");
fold("'abc' != 'def'", "true");
fold("'a' != 'a'", "false");
fold("1 < 20", "true");
fold("3 < 3", "false");
fold("10 > 1.0", "true");
fold("10 > 10.25", "false");
foldSame("x == x");
fold("x < x", "false");
fold("x > x", "false");
fold("1 <= 1", "true");
fold("1 <= 0", "false");
fold("0 >= 0", "true");
fold("-1 >= 9", "false");
fold("true == true", "true");
fold("false == null", "false");
fold("false == true", "false");
fold("true == null", "false");
}
// ===, !== comparison tests
public void testFoldComparison2() {
fold("x = 0 === 0", "x = true");
fold("x = 1 === 2", "x = false");
fold("x = 'abc' === 'def'", "x = false");
fold("x = 'abc' === 'abc'", "x = true");
fold("x = \"\" === ''", "x = true");
fold("x = foo() === bar()", "x = foo()===bar()");
fold("x = 1 !== 0", "x = true");
fold("x = 'abc' !== 'def'", "x = true");
fold("x = 'a' !== 'a'", "x = false");
fold("x = y === y", "x = y===y");
fold("x = true === true", "x = true");
fold("x = false === false", "x = true");
fold("x = false === null", "x = false");
fold("x = false === true", "x = false");
fold("x = true === null", "x = false");
fold("0 === 0", "true");
fold("1 === 2", "false");
fold("'abc' === 'def'", "false");
fold("'abc' === 'abc'", "true");
fold("\"\" === ''", "true");
foldSame("foo() === bar()");
// TODO(johnlenz): It would be nice to handle these cases as well.
foldSame("1 === '1'");
foldSame("1 === true");
foldSame("1 !== '1'");
foldSame("1 !== true");
fold("1 !== 0", "true");
fold("'abc' !== 'def'", "true");
fold("'a' !== 'a'", "false");
foldSame("x === x");
fold("true === true", "true");
fold("false === null", "false");
fold("false === true", "false");
fold("true === null", "false");
}
public void testFoldComparison3() {
fold("x = !1 == !0", "x = false");
fold("x = !0 == !0", "x = true");
fold("x = !1 == !1", "x = true");
fold("x = !1 == null", "x = false");
fold("x = !1 == !0", "x = false");
fold("x = !0 == null", "x = false");
fold("!0 == !0", "true");
fold("!1 == null", "false");
fold("!1 == !0", "false");
fold("!0 == null", "false");
fold("x = !0 === !0", "x = true");
fold("x = !1 === !1", "x = true");
fold("x = !1 === null", "x = false");
fold("x = !1 === !0", "x = false");
fold("x = !0 === null", "x = false");
fold("!0 === !0", "true");
fold("!1 === null", "false");
fold("!1 === !0", "false");
fold("!0 === null", "false");
}
public void testFoldGetElem() {
fold("x = [,10][0]", "x = void 0");
fold("x = [10, 20][0]", "x = 10");
fold("x = [10, 20][1]", "x = 20");
testSame("x = [10, 20][0.5]",
PeepholeFoldConstants.INVALID_GETELEM_INDEX_ERROR);
testSame("x = [10, 20][-1]",
PeepholeFoldConstants.INDEX_OUT_OF_BOUNDS_ERROR);
testSame("x = [10, 20][2]",
PeepholeFoldConstants.INDEX_OUT_OF_BOUNDS_ERROR);
foldSame("x = [foo(), 0][1]");
fold("x = [0, foo()][1]", "x = foo()");
foldSame("x = [0, foo()][0]");
}
public void testFoldComplex() {
fold("x = (3 / 1.0) + (1 * 2)", "x = 5");
fold("x = (1 == 1.0) && foo() && true", "x = foo()&&true");
fold("x = 'abc' + 5 + 10", "x = \"abc510\"");
}
public void testFoldLeft() {
foldSame("(+x - 1) + 2"); // not yet
fold("(+x + 1) + 2", "+x + 3");
}
public void testFoldArrayLength() {
// Can fold
fold("x = [].length", "x = 0");
fold("x = [1,2,3].length", "x = 3");
fold("x = [a,b].length", "x = 2");
// Not handled yet
fold("x = [,,1].length", "x = 3");
// Cannot fold
fold("x = [foo(), 0].length", "x = [foo(),0].length");
fold("x = y.length", "x = y.length");
}
public void testFoldStringLength() {
// Can fold basic strings.
fold("x = ''.length", "x = 0");
fold("x = '123'.length", "x = 3");
// Test Unicode escapes are accounted for.
fold("x = '123\u01dc'.length", "x = 4");
}
public void testFoldTypeof() {
fold("x = typeof 1", "x = \"number\"");
fold("x = typeof 'foo'", "x = \"string\"");
fold("x = typeof true", "x = \"boolean\"");
fold("x = typeof false", "x = \"boolean\"");
fold("x = typeof null", "x = \"object\"");
fold("x = typeof undefined", "x = \"undefined\"");
fold("x = typeof void 0", "x = \"undefined\"");
fold("x = typeof []", "x = \"object\"");
fold("x = typeof [1]", "x = \"object\"");
fold("x = typeof [1,[]]", "x = \"object\"");
fold("x = typeof {}", "x = \"object\"");
fold("x = typeof function() {}", "x = 'function'");
foldSame("x = typeof[1,[foo()]]");
foldSame("x = typeof{bathwater:baby()}");
}
public void testFoldInstanceOf() {
// Non object types are never instances of anything.
fold("64 instanceof Object", "false");
fold("64 instanceof Number", "false");
fold("'' instanceof Object", "false");
fold("'' instanceof String", "false");
fold("true instanceof Object", "false");
fold("true instanceof Boolean", "false");
fold("!0 instanceof Object", "false");
fold("!0 instanceof Boolean", "false");
fold("false instanceof Object", "false");
fold("null instanceof Object", "false");
fold("undefined instanceof Object", "false");
fold("NaN instanceof Object", "false");
fold("Infinity instanceof Object", "false");
// Array and object literals are known to be objects.
fold("[] instanceof Object", "true");
fold("({}) instanceof Object", "true");
// These cases is foldable, but no handled currently.
foldSame("new Foo() instanceof Object");
// These would require type information to fold.
foldSame("[] instanceof Foo");
foldSame("({}) instanceof Foo");
fold("(function() {}) instanceof Object", "true");
// An unknown value should never be folded.
foldSame("x instanceof Foo");
}
public void testDivision() {
// Make sure the 1/3 does not expand to 0.333333
fold("print(1/3)", "print(1/3)");
// Decimal form is preferable to fraction form when strings are the
// same length.
fold("print(1/2)", "print(0.5)");
}
public void testAssignOpsLate() {
late = true;
fold("x=x+y", "x+=y");
foldSame("x=y+x");
fold("x=x*y", "x*=y");
fold("x=y*x", "x*=y");
fold("x.y=x.y+z", "x.y+=z");
foldSame("next().x = next().x + 1");
fold("x=x-y", "x-=y");
foldSame("x=y-x");
fold("x=x|y", "x|=y");
fold("x=y|x", "x|=y");
fold("x=x*y", "x*=y");
fold("x=y*x", "x*=y");
fold("x.y=x.y+z", "x.y+=z");
foldSame("next().x = next().x + 1");
// This is OK, really.
fold("({a:1}).a = ({a:1}).a + 1", "({a:1}).a = 2");
}
public void testAssignOpsEarly() {
late = false;
foldSame("x=x+y");
foldSame("x=y+x");
foldSame("x=x*y");
foldSame("x=y*x");
foldSame("x.y=x.y+z");
foldSame("next().x = next().x + 1");
foldSame("x=x-y");
foldSame("x=y-x");
foldSame("x=x|y");
foldSame("x=y|x");
foldSame("x=x*y");
foldSame("x=y*x");
foldSame("x.y=x.y+z");
foldSame("next().x = next().x + 1");
// This is OK, really.
fold("({a:1}).a = ({a:1}).a + 1", "({a:1}).a = 2");
}
public void testFoldAdd1() {
fold("x=false+1","x=1");
fold("x=true+1","x=2");
fold("x=1+false","x=1");
fold("x=1+true","x=2");
}
public void testFoldLiteralNames() {
foldSame("NaN == NaN");
foldSame("Infinity == Infinity");
foldSame("Infinity == NaN");
fold("undefined == NaN", "false");
fold("undefined == Infinity", "false");
foldSame("Infinity >= Infinity");
foldSame("NaN >= NaN");
}
public void testFoldLiteralsTypeMismatches() {
fold("true == true", "true");
fold("true == false", "false");
fold("true == null", "false");
fold("false == null", "false");
// relational operators convert its operands
fold("null <= null", "true"); // 0 = 0
fold("null >= null", "true");
fold("null > null", "false");
fold("null < null", "false");
fold("false >= null", "true"); // 0 = 0
fold("false <= null", "true");
fold("false > null", "false");
fold("false < null", "false");
fold("true >= null", "true"); // 1 > 0
fold("true <= null", "false");
fold("true > null", "true");
fold("true < null", "false");
fold("true >= false", "true"); // 1 > 0
fold("true <= false", "false");
fold("true > false", "true");
fold("true < false", "false");
}
public void testFoldLeftChildConcat() {
foldSame("x +5 + \"1\"");
fold("x+\"5\" + \"1\"", "x + \"51\"");
// fold("\"a\"+(c+\"b\")","\"a\"+c+\"b\"");
fold("\"a\"+(\"b\"+c)","\"ab\"+c");
}
public void testFoldLeftChildOp() {
fold("x * Infinity * 2", "x * Infinity");
foldSame("x - Infinity - 2"); // want "x-Infinity"
foldSame("x - 1 + Infinity");
foldSame("x - 2 + 1");
foldSame("x - 2 + 3");
foldSame("1 + x - 2 + 1");
foldSame("1 + x - 2 + 3");
foldSame("1 + x - 2 + 3 - 1");
foldSame("f(x)-0");
foldSame("x-0-0");
foldSame("x+2-2+2");
foldSame("x+2-2+2-2");
foldSame("x-2+2");
foldSame("x-2+2-2");
foldSame("x-2+2-2+2");
foldSame("1+x-0-NaN");
foldSame("1+f(x)-0-NaN");
foldSame("1+x-0+NaN");
foldSame("1+f(x)-0+NaN");
foldSame("1+x+NaN"); // unfoldable
foldSame("x+2-2"); // unfoldable
foldSame("x+2"); // nothing to do
foldSame("x-2"); // nothing to do
}
public void testFoldSimpleArithmeticOp() {
foldSame("x*NaN");
foldSame("NaN/y");
foldSame("f(x)-0");
foldSame("f(x)*1");
foldSame("1*f(x)");
foldSame("0+a+b");
foldSame("0-a-b");
foldSame("a+b-0");
foldSame("(1+x)*NaN");
foldSame("(1+f(x))*NaN"); // don't fold side-effects
}
public void testFoldLiteralsAsNumbers() {
fold("x/'12'","x/12");
fold("x/('12'+'6')", "x/126");
fold("true*x", "1*x");
fold("x/false", "x/0"); // should we add an error check? :)
}
public void testNotFoldBackToTrueFalse() {
late = false;
fold("!0", "true");
fold("!1", "false");
fold("!3", "false");
late = true;
foldSame("!0");
foldSame("!1");
fold("!3", "false");
foldSame("false");
foldSame("true");
}
public void testFoldBangConstants() {
fold("1 + !0", "2");
fold("1 + !1", "1");
fold("'a ' + !1", "'a false'");
fold("'a ' + !0", "'a true'");
}
public void testFoldMixed() {
fold("''+[1]", "'1'");
foldSame("false+[]"); // would like: "\"false\""
}
public void testFoldVoid() {
foldSame("void 0");
fold("void 1", "void 0");
fold("void x", "void 0");
fold("void x()", "void x()");
}
public void testObjectLiteral() {
test("(!{})", "false");
test("(!{a:1})", "false");
testSame("(!{a:foo()})");
testSame("(!{'a':foo()})");
}
public void testArrayLiteral() {
test("(![])", "false");
test("(![1])", "false");
test("(![a])", "false");
testSame("(![foo()])");
}
public void testIssue601() {
testSame("'\\v' == 'v'");
testSame("'v' == '\\v'");
testSame("'\\u000B' == '\\v'");
}
public void testFoldObjectLiteralRef1() {
// Leave extra side-effects in place
testSame("var x = ({a:foo(),b:bar()}).a");
testSame("var x = ({a:1,b:bar()}).a");
testSame("function f() { return {b:foo(), a:2}.a; }");
// on the LHS the object act as a temporary leave it in place.
testSame("({a:x}).a = 1");
test("({a:x}).a += 1", "({a:x}).a = x + 1");
testSame("({a:x}).a ++");
testSame("({a:x}).a --");
// functions can't reference the object through 'this'.
testSame("({a:function(){return this}}).a");
testSame("({get a() {return this}}).a");
testSame("({set a(b) {return this}}).a");
// Leave unknown props alone, the might be on the prototype
testSame("({}).a");
// setters by themselves don't provide a definition
testSame("({}).a");
testSame("({set a(b) {}}).a");
// sets don't hide other definitions.
test("({a:1,set a(b) {}}).a", "1");
// get is transformed to a call (gets don't have self referential names)
test("({get a() {}}).a", "(function (){})()");
// sets don't hide other definitions.
test("({get a() {},set a(b) {}}).a", "(function (){})()");
// a function remains a function not a call.
test("var x = ({a:function(){return 1}}).a",
"var x = function(){return 1}");
test("var x = ({a:1}).a", "var x = 1");
test("var x = ({a:1, a:2}).a", "var x = 2");
test("var x = ({a:1, a:foo()}).a", "var x = foo()");
test("var x = ({a:foo()}).a", "var x = foo()");
test("function f() { return {a:1, b:2}.a; }",
"function f() { return 1; }");
// GETELEM is handled the same way.
test("var x = ({'a':1})['a']", "var x = 1");
}
public void testFoldObjectLiteralRef2() {
late = false;
test("({a:x}).a += 1", "({a:x}).a = x + 1");
late = true;
testSame("({a:x}).a += 1");
}
public void testIEString() {
testSame("!+'\\v1'");
}
public void testIssue522() {
testSame("[][1] = 1;");
}
private static final List<String> LITERAL_OPERANDS =
ImmutableList.of(
"null",
"undefined",
"void 0",
"true",
"false",
"!0",
"!1",
"0",
"1",
"''",
"'123'",
"'abc'",
"'def'",
"NaN",
"Infinity",
// TODO(nicksantos): Add more literals
"-Infinity"
//"({})",
// "[]"
//"[0]",
//"Object",
//"(function() {})"
);
public void testInvertibleOperators() {
Map<String, String> inverses = ImmutableMap.<String, String>builder()
.put("==", "!=")
.put("===", "!==")
.put("<=", ">")
.put("<", ">=")
.put(">=", "<")
.put(">", "<=")
.put("!=", "==")
.put("!==", "===")
.build();
Set<String> comparators = ImmutableSet.of("<=", "<", ">=", ">");
Set<String> equalitors = ImmutableSet.of("==", "===");
Set<String> uncomparables = ImmutableSet.of("undefined", "void 0");
List<String> operators = ImmutableList.copyOf(inverses.values());
for (int iOperandA = 0; iOperandA < LITERAL_OPERANDS.size(); iOperandA++) {
for (int iOperandB = 0;
iOperandB < LITERAL_OPERANDS.size();
iOperandB++) {
for (int iOp = 0; iOp < operators.size(); iOp++) {
String a = LITERAL_OPERANDS.get(iOperandA);
String b = LITERAL_OPERANDS.get(iOperandB);
String op = operators.get(iOp);
String inverse = inverses.get(op);
// Test invertability.
if (comparators.contains(op) &&
(uncomparables.contains(a) || uncomparables.contains(b))) {
assertSameResults(join(a, op, b), "false");
assertSameResults(join(a, inverse, b), "false");
} else if (a.equals(b) && equalitors.contains(op)) {
if (a.equals("NaN") ||
a.equals("Infinity") ||
a.equals("-Infinity")) {
foldSame(join(a, op, b));
foldSame(join(a, inverse, b));
} else {
assertSameResults(join(a, op, b), "true");
assertSameResults(join(a, inverse, b), "false");
}
} else {
assertNotSameResults(join(a, op, b), join(a, inverse, b));
}
}
}
}
}
public void testCommutativeOperators() {
late = true;
List<String> operators =
ImmutableList.of(
"==",
"!=",
"===",
"!==",
"*",
"|",
"&",
"^");
for (int iOperandA = 0; iOperandA < LITERAL_OPERANDS.size(); iOperandA++) {
for (int iOperandB = iOperandA;
iOperandB < LITERAL_OPERANDS.size();
iOperandB++) {
for (int iOp = 0; iOp < operators.size(); iOp++) {
String a = LITERAL_OPERANDS.get(iOperandA);
String b = LITERAL_OPERANDS.get(iOperandB);
String op = operators.get(iOp);
// Test commutativity.
// TODO(nicksantos): Eventually, all cases should be collapsed.
assertSameResultsOrUncollapsed(join(a, op, b), join(b, op, a));
}
}
}
}
public void testConvertToNumberNegativeInf() {
foldSame("var x = 3 * (r ? Infinity : -Infinity);");
}
private String join(String operandA, String op, String operandB) {
return operandA + " " + op + " " + operandB;
}
private void assertSameResultsOrUncollapsed(String exprA, String exprB) {
String resultA = process(exprA);
String resultB = process(exprB); // TODO: why is nothing done with this?
if (resultA.equals(print(exprA))) {
foldSame(exprA);
foldSame(exprB);
} else {
assertSameResults(exprA, exprB);
}
}
private void assertSameResults(String exprA, String exprB) {
assertEquals(
"Expressions did not fold the same\nexprA: " +
exprA + "\nexprB: " + exprB,
process(exprA), process(exprB));
}
private void assertNotSameResults(String exprA, String exprB) {
assertFalse(
"Expressions folded the same\nexprA: " +
exprA + "\nexprB: " + exprB,
process(exprA).equals(process(exprB)));
}
private String process(String js) {
return printHelper(js, true);
}
private String print(String js) {
return printHelper(js, false);
}
private String printHelper(String js, boolean runProcessor) {
Compiler compiler = createCompiler();
CompilerOptions options = getOptions();
compiler.init(
ImmutableList.<SourceFile>of(),
ImmutableList.of(SourceFile.fromCode("testcode", js)),
options);
Node root = compiler.parseInputs();
assertTrue("Unexpected parse error(s): " +
Joiner.on("\n").join(compiler.getErrors()) +
"\nEXPR: " + js,
root != null);
Node externsRoot = root.getFirstChild();
Node mainRoot = externsRoot.getNext();
if (runProcessor) {
getProcessor(compiler).process(externsRoot, mainRoot);
}
return compiler.toSource(mainRoot);
}
}