pkg/compiler/test/js/js_parser_test.dart - sdk.git - Git at Google

 // Copyright (c) 2011, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 // @dart = 2.7

 import 'package:expect/expect.dart';
 import 'package:compiler/src/js/js.dart' as jsAst;
 import 'package:compiler/src/js/js.dart' show js;

 testExpression(String expression, [String expect = ""]) {
   jsAst.Node node = js(expression);
   String jsText = jsAst.prettyPrint(node, allowVariableMinification: false);
   if (expect == "") {
     Expect.stringEquals(expression, jsText);
   } else {
     Expect.stringEquals(expect, jsText);
   }
 }

 testError(String expression, [String expect = ""]) {
   bool doCheck(exception) {
     final exceptionText = '$exception';
     Expect.isTrue(exceptionText.contains(expect),
         'Missing "$expect" in "$exceptionText"');
     return true;
   }

   Expect.throws(() => js(expression), doCheck);
 }

 void main() {
   // Asterisk indicates deviations from real JS.
   // Simple var test.
   testExpression('var a = ""');
   // Parse and print will normalize whitespace.
   testExpression(' var  a  =  "" ', 'var a = ""');
   // Operator precedence.
   testExpression('x = a + b * c');
   testExpression('x = a * b + c');
   testExpression('x = a + b * c + d');
   testExpression('x = a * b + c * d');
   testExpression(
       'remaining = (remaining / 88) | 0', 'remaining = remaining / 88 | 0');
   // Binary operators have left associativity.
   testExpression('x = a + b + c');
   // We can cope with relational operators and non-relational.
   testExpression('a + b == c + d');
   // The prettyprinter will insert braces where needed.
   testExpression('a + (b == c) + d');
   // We can handle () for calls.
   testExpression('foo(bar)');
   testExpression('foo(bar, baz)');
   // Chained calls without parentheses.
   testExpression('foo(bar)(baz)');
   // Chained calls with and without new.
   testExpression('new foo(bar)(baz)');
   testExpression('new foo.bar(bar)(baz)');
   testExpression('foo.bar(bar)(baz)');
   testExpression('constructor = new Function(str)()');
   // The prettyprinter understands chained calls without extra parentheses.
   testExpression('(foo(bar))(baz)', 'foo(bar)(baz)');
   // Chains of dotting and calls.
   testExpression('foo.bar(baz)');
   // String literal.
   testExpression('var x = "fisk"');
   // String literal with \n.
   testExpression(r'var x = "\n"');
   // String literal with escaped quote.
   testExpression(r'''var x = "\""''', r"""var x = '"'""");
   // *No clever escapes.
   testError(r'var x = "\x42"', 'Hex escapes not supported');
   // Operator new.
   testExpression('new Foo()');
   // New with dotted access.
   testExpression('new Frobinator.frobinate()');
   testExpression('new Frobinator().frobinate()');
   // The prettyprinter strips some superfluous parentheses.
   testExpression(
       '(new Frobinator()).frobinate()', 'new Frobinator().frobinate()');
   // *We want a bracket on 'new'.
   testError('new Foo', 'Parentheses are required');
   testError('(new Foo)', 'Parentheses are required');
   // Bogus operators.
   testError('a +++ b', 'Unknown operator');
   // This isn't perl.  There are rules.
   testError('a <=> b', 'Unknown operator');
   // Typeof.
   testExpression('typeof foo == "number"');
   // Strange relation.
   testExpression('a < b < c');
   // Chained var.
   testExpression('var x = 0, y = 1.2, z = 42');
   // Empty object literal.
   testExpression('foo({}, {})');
   // *Can't handle non-empty object literals
   testExpression('foo({meaning: 42})');
   // Literals.
   testExpression('x(false, true, null)');
   // *We should really throw here.
   testExpression('var false = 42');
   testExpression('var new = 42');
   // Bad keyword.
   testError('var typeof = 42', "Expected ALPHA");
   // Malformed decimal/hex.
   testError('var x = 1.1.1', "Unparseable number");
   testError('var x = 0xabcdefga', "Unparseable number");
   testError('var x = 0xabcdef\$a', "Unparseable number");
   testError('var x = 0x ', "Unparseable number");
   // Good hex constants.
   testExpression('var x = 0xff');
   testExpression('var x = 0xff + 0xff');
   testExpression('var x = 0xaF + 0x0123456789abcdefA');
   // All sorts of keywords are allowed as property names in ES5.
   testExpression('x.new = 0');
   testExpression('x.delete = 0');
   testExpression('x.for = 0');
   testExpression('x.instanceof = 0');
   testExpression('x.in = 0');
   testExpression('x.void = 0');
   testExpression('x.continue = 0');
   // More unary.
   testExpression('x = !x');
   testExpression('!x == false');
   testExpression('var foo = void 0');
   testExpression('delete foo.bar');
   testExpression('delete foo');
   testExpression('x in y');
   testExpression('x instanceof y');
   testExpression('a * b in c * d');
   testExpression('a * b instanceof c * d');
   testError('x typeof y', 'Unparsed junk');
   testExpression('x &= ~mask');
   // Await is parsed as an unary prefix operator.
   testExpression('var foo = await 0');
   testExpression('await x++');
   testExpression('void (await (x++))', 'void await x++');
   testExpression('void (await x)++');
   testExpression('++(await x)++');
   // Adjacent tokens.
   testExpression('foo[x[bar]]');
   testExpression('foo[[bar]]');
   // Prefix ++ etc.
   testExpression("++x");
   testExpression("++foo.bar");
   testExpression("+x");
   testExpression("+foo.bar");
   testExpression("-x");
   testExpression("-foo.bar");
   testExpression("--x");
   testExpression("--foo.bar");
   // Postfix ++ etc.
   testExpression("x++");
   testExpression("foo.bar++");
   testExpression("x--");
   testExpression("foo.bar--");
   // Both!
   testExpression("++x++");
   testExpression("++foo.bar++");
   testExpression("--x--");
   testExpression("--foo.bar--");
   // *We can't handle stacked unary operators (apart from !).
   testError("x++ ++");
   testError("++ typeof x");
   testExpression(r"var $supportsProtoName = !!{}.__proto__");
   // ++ used as a binary operator.
   testError("x++ ++ 42");
   // Shift operators.
   testExpression("x << 5");
   testExpression("x << y + 1");
   testExpression("x <<= y + 1");
   // Array initializers.
   testExpression('x = ["foo", "bar", x[4]]');
   testExpression("[]");
   testError("[42 42]");
   testExpression('beebop([1, 2, 3])');
   // Array literals with holes in them.
   testExpression("[1,, 2]");
   testExpression("[1,]", "[1]");
   testExpression("[1,,]", "[1,,]");
   testExpression("[,]");
   testExpression("[,,]");
   testExpression("[, 42]");
   // Ternary operator.
   testExpression("x = a ? b : c");
   testExpression("y = a == null ? b : a");
   testExpression("y = a == null ? b + c : a + c");
   testExpression("foo = a ? b : c ? d : e");
   testExpression("foo = a ? b ? c : d : e");
   testExpression("foo = (a = v) ? b = w : c = x ? d = y : e = z");
   testExpression("foo = (a = v) ? b = w ? c = x : d = y : e = z");
   // Stacked assignment.
   testExpression("a = b = c");
   testExpression("var a = b = c");
 }
	// Copyright (c) 2011, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	// @dart = 2.7

	import 'package:expect/expect.dart';
	import 'package:compiler/src/js/js.dart' as jsAst;
	import 'package:compiler/src/js/js.dart' show js;

	testExpression(String expression, [String expect = ""]) {
	jsAst.Node node = js(expression);
	String jsText = jsAst.prettyPrint(node, allowVariableMinification: false);
	if (expect == "") {
	Expect.stringEquals(expression, jsText);
	} else {
	Expect.stringEquals(expect, jsText);
	}
	}

	testError(String expression, [String expect = ""]) {
	bool doCheck(exception) {
	final exceptionText = '$exception';
	Expect.isTrue(exceptionText.contains(expect),
	'Missing "$expect" in "$exceptionText"');
	return true;
	}

	Expect.throws(() => js(expression), doCheck);
	}

	void main() {
	// Asterisk indicates deviations from real JS.
	// Simple var test.
	testExpression('var a = ""');
	// Parse and print will normalize whitespace.
	testExpression(' var a = "" ', 'var a = ""');
	// Operator precedence.
	testExpression('x = a + b * c');
	testExpression('x = a * b + c');
	testExpression('x = a + b * c + d');
	testExpression('x = a * b + c * d');
	testExpression(
	'remaining = (remaining / 88) \| 0', 'remaining = remaining / 88 \| 0');
	// Binary operators have left associativity.
	testExpression('x = a + b + c');
	// We can cope with relational operators and non-relational.
	testExpression('a + b == c + d');
	// The prettyprinter will insert braces where needed.
	testExpression('a + (b == c) + d');
	// We can handle () for calls.
	testExpression('foo(bar)');
	testExpression('foo(bar, baz)');
	// Chained calls without parentheses.
	testExpression('foo(bar)(baz)');
	// Chained calls with and without new.
	testExpression('new foo(bar)(baz)');
	testExpression('new foo.bar(bar)(baz)');
	testExpression('foo.bar(bar)(baz)');
	testExpression('constructor = new Function(str)()');
	// The prettyprinter understands chained calls without extra parentheses.
	testExpression('(foo(bar))(baz)', 'foo(bar)(baz)');
	// Chains of dotting and calls.
	testExpression('foo.bar(baz)');
	// String literal.
	testExpression('var x = "fisk"');
	// String literal with \n.
	testExpression(r'var x = "\n"');
	// String literal with escaped quote.
	testExpression(r'''var x = "\""''', r"""var x = '"'""");
	// *No clever escapes.
	testError(r'var x = "\x42"', 'Hex escapes not supported');
	// Operator new.
	testExpression('new Foo()');
	// New with dotted access.
	testExpression('new Frobinator.frobinate()');
	testExpression('new Frobinator().frobinate()');
	// The prettyprinter strips some superfluous parentheses.
	testExpression(
	'(new Frobinator()).frobinate()', 'new Frobinator().frobinate()');
	// *We want a bracket on 'new'.
	testError('new Foo', 'Parentheses are required');
	testError('(new Foo)', 'Parentheses are required');
	// Bogus operators.
	testError('a +++ b', 'Unknown operator');
	// This isn't perl. There are rules.
	testError('a <=> b', 'Unknown operator');
	// Typeof.
	testExpression('typeof foo == "number"');
	// Strange relation.
	testExpression('a < b < c');
	// Chained var.
	testExpression('var x = 0, y = 1.2, z = 42');
	// Empty object literal.
	testExpression('foo({}, {})');
	// *Can't handle non-empty object literals
	testExpression('foo({meaning: 42})');
	// Literals.
	testExpression('x(false, true, null)');
	// *We should really throw here.
	testExpression('var false = 42');
	testExpression('var new = 42');
	// Bad keyword.
	testError('var typeof = 42', "Expected ALPHA");
	// Malformed decimal/hex.
	testError('var x = 1.1.1', "Unparseable number");
	testError('var x = 0xabcdefga', "Unparseable number");
	testError('var x = 0xabcdef\$a', "Unparseable number");
	testError('var x = 0x ', "Unparseable number");
	// Good hex constants.
	testExpression('var x = 0xff');
	testExpression('var x = 0xff + 0xff');
	testExpression('var x = 0xaF + 0x0123456789abcdefA');
	// All sorts of keywords are allowed as property names in ES5.
	testExpression('x.new = 0');
	testExpression('x.delete = 0');
	testExpression('x.for = 0');
	testExpression('x.instanceof = 0');
	testExpression('x.in = 0');
	testExpression('x.void = 0');
	testExpression('x.continue = 0');
	// More unary.
	testExpression('x = !x');
	testExpression('!x == false');
	testExpression('var foo = void 0');
	testExpression('delete foo.bar');
	testExpression('delete foo');
	testExpression('x in y');
	testExpression('x instanceof y');
	testExpression('a * b in c * d');
	testExpression('a * b instanceof c * d');
	testError('x typeof y', 'Unparsed junk');
	testExpression('x &= ~mask');
	// Await is parsed as an unary prefix operator.
	testExpression('var foo = await 0');
	testExpression('await x++');
	testExpression('void (await (x++))', 'void await x++');
	testExpression('void (await x)++');
	testExpression('++(await x)++');
	// Adjacent tokens.
	testExpression('foo[x[bar]]');
	testExpression('foo[[bar]]');
	// Prefix ++ etc.
	testExpression("++x");
	testExpression("++foo.bar");
	testExpression("+x");
	testExpression("+foo.bar");
	testExpression("-x");
	testExpression("-foo.bar");
	testExpression("--x");
	testExpression("--foo.bar");
	// Postfix ++ etc.
	testExpression("x++");
	testExpression("foo.bar++");
	testExpression("x--");
	testExpression("foo.bar--");
	// Both!
	testExpression("++x++");
	testExpression("++foo.bar++");
	testExpression("--x--");
	testExpression("--foo.bar--");
	// *We can't handle stacked unary operators (apart from !).
	testError("x++ ++");
	testError("++ typeof x");
	testExpression(r"var $supportsProtoName = !!{}.__proto__");
	// ++ used as a binary operator.
	testError("x++ ++ 42");
	// Shift operators.
	testExpression("x << 5");
	testExpression("x << y + 1");
	testExpression("x <<= y + 1");
	// Array initializers.
	testExpression('x = ["foo", "bar", x[4]]');
	testExpression("[]");
	testError("[42 42]");
	testExpression('beebop([1, 2, 3])');
	// Array literals with holes in them.
	testExpression("[1,, 2]");
	testExpression("[1,]", "[1]");
	testExpression("[1,,]", "[1,,]");
	testExpression("[,]");
	testExpression("[,,]");
	testExpression("[, 42]");
	// Ternary operator.
	testExpression("x = a ? b : c");
	testExpression("y = a == null ? b : a");
	testExpression("y = a == null ? b + c : a + c");
	testExpression("foo = a ? b : c ? d : e");
	testExpression("foo = a ? b ? c : d : e");
	testExpression("foo = (a = v) ? b = w : c = x ? d = y : e = z");
	testExpression("foo = (a = v) ? b = w ? c = x : d = y : e = z");
	// Stacked assignment.
	testExpression("a = b = c");
	testExpression("var a = b = c");
	}