v8/test/mjsunit/strong/declaration-after-use.js
adamk 5ceb4feca3 Remove always-on --harmony-rest-parameters flag
It shipped in Chrome 47.

Review URL: https://codereview.chromium.org/1519073004

Cr-Commit-Position: refs/heads/master@{#32816}
2015-12-12 00:00:38 +00:00

256 lines
7.5 KiB
JavaScript

// Copyright 2015 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// Flags: --strong-mode
// Note that it's essential for these tests that the reference is inside dead
// code (because we already produce ReferenceErrors for run-time unresolved
// variables and don't want to confuse those with strong mode errors). But the
// errors should *not* be inside lazy, unexecuted functions, since lazy parsing
// doesn't produce strong mode scoping errors).
// In addition, assertThrows will call eval and that changes variable binding
// types (see e.g., UNBOUND_EVAL_SHADOWED). We can avoid unwanted side effects
// by wrapping the code to be tested inside an outer function.
function assertThrowsHelper(code) {
"use strict";
let prologue = "(function outer() { if (false) { ";
let epilogue = " } })();";
assertThrows("'use strong'; " + prologue + code + epilogue, ReferenceError);
// Make sure the error happens only in strong mode (note that we need strict
// mode here because of let).
assertDoesNotThrow("'use strict'; " + prologue + code + epilogue);
}
(function DeclarationAfterUse() {
// Note that these tests only test cases where the declaration is found but is
// after the use. In particular, we cannot yet detect cases where the use can
// possibly bind to a global variable.
assertThrowsHelper("x; let x = 0;");
assertThrowsHelper("function f() { x; let x = 0; }");
assertThrowsHelper("function f() { x; } let x = 0;");
assertThrowsHelper("x; const x = 0;");
assertThrowsHelper("function f() { x; const x = 0; }");
assertThrowsHelper("function f() { x; } const x = 0;");
// These tests needs to be done a bit more manually, since var is not allowed
// in strong mode:
assertThrows(
`(function outer() {
function f() { 'use strong'; if (false) { x; } } var x = 0; f();
})()`,
ReferenceError);
assertDoesNotThrow(
"(function outer() {\n" +
" function f() { if (false) { x; } } var x = 0; f(); \n" +
"})()");
assertThrows(
"(function outer() {\n" +
" function f() { 'use strong'; if (false) { x; } } var x; f(); \n" +
"})()",
ReferenceError);
assertDoesNotThrow(
"(function outer() {\n" +
" function f() { if (false) { x; } } var x; f(); \n" +
"})()");
// Use occurring in the initializer of the declaration:
assertThrowsHelper("let x = x + 1;");
assertThrowsHelper("let x = x;");
assertThrowsHelper("let x = y, y = 4;");
assertThrowsHelper("let x = function() { x; }");
assertThrowsHelper("let x = a => { x; }");
assertThrowsHelper("function f(x) { return x; }; let x = f(x);");
assertThrowsHelper("const x = x;");
assertThrowsHelper("const x = function() { x; }");
assertThrowsHelper("const x = a => { x; }");
assertThrowsHelper("function f(x) {return x}; const x = f(x);");
assertThrowsHelper("for (let x = x; ; ) { }");
assertThrowsHelper("for (const x = x; ; ) { }");
assertThrowsHelper("for (let x = y, y; ; ) { }");
assertThrowsHelper("for (const x = y, y = 0; ; ) { }");
// Computed property names
assertThrowsHelper("let o = { 'a': 'b', [o.a]: 'c'};");
})();
(function DeclarationAfterUseInClasses() {
// Referring to a variable declared later
assertThrowsHelper("class C { m() { x; } } let x = 0;");
assertThrowsHelper("class C { static m() { x; } } let x = 0;");
assertThrowsHelper("class C { [x]() { } } let x = 0;");
assertThrowsHelper("class C { m() { x; } } const x = 0;");
assertThrowsHelper("class C { static m() { x; } } const x = 0;");
assertThrowsHelper("class C { [x]() { } } const x = 0;");
// Referring to the class name.
assertThrowsHelper("class C extends C { }");
assertThrowsHelper("let C = class C2 extends C { }");
assertThrowsHelper("let C = class C2 extends C2 { }");
assertThrowsHelper("let C = class C2 { constructor() { C; } }");
assertThrowsHelper("let C = class C2 { method() { C; } }");
assertThrowsHelper("let C = class C2 { *generator_method() { C; } }");
assertThrowsHelper(
`let C = class C2 {
static a() { return 'A'; }
[C.a()]() { return 'B'; }
};`);
assertThrowsHelper(
`let C = class C2 {
static a() { return 'A'; }
[C2.a()]() { return 'B'; }
};`);
assertThrowsHelper(
`let C = class C2 {
[(function() { C; return 'A';})()]() { return 'B'; }
};`);
// The reference to C or C2 is inside a function, but not a method.
assertThrowsHelper(
`let C = class C2 {
[(function() { C2; return 'A';})()]() { return 'B'; }
};`);
assertThrowsHelper(
`let C = class C2 {
[(function() { C; return 'A';})()]() { return 'B'; }
};`);
// The reference to C or C2 is inside a method, but it's not a method of the
// relevant class (C2).
assertThrowsHelper(
`let C = class C2 {
[(new (class D { m() { C2; return 'A'; } })).m()]() {
return 'B';
}
}`);
assertThrowsHelper(
`let C = class C2 {
[(new (class D { m() { C; return 'A'; } })).m()]() {
return 'B';
}
}`);
assertThrowsHelper(
`let C = class C2 {
[({m() { C2; return 'A'; }}).m()]() { return 'B'; }
}`);
assertThrowsHelper(
`let C = class C2 {
[({m() { C; return 'A'; }}).m()]() { return 'B'; }
}`);
assertThrowsHelper(
`class COuter {
m() {
class CInner {
[({ m() { CInner; return 'A'; } }).m()]() {
return 'B';
}
}
}
}`);
})();
(function UsesWhichAreFine() {
"use strong";
let var1 = 0;
var1;
let var2a = 0, var2b = var2a + 1, var2c = 2 + var2b;
for (let var3 = 0; var3 < 1; var3++) {
var3;
}
for (let var4a = 0, var4b = var4a; var4a + var4b < 4; var4a++, var4b++) {
var4a;
var4b;
}
let var5 = 5;
for (; var5 < 10; ++var5) { }
let arr = [1, 2];
for (let i of arr) {
i;
}
try {
throw "error";
} catch (e) {
e;
}
function func1() { func1; this; }
func1();
func1;
function * func2() { func2; this; }
func2();
func2;
function func4(p, ...rest) { p; rest; this; func2; }
// TODO(arv): The arity checking is not correct with rest parameters.
func4(1, 2);
let func5 = (p1, p2) => { p1; p2; };
func5(1, 2);
let func5b = p1 => p1;
func5b(1);
function func6() {
var1, var2a, var2b, var2c;
}
class C1 { constructor() { C1; } }; new C1();
let C2 = class C3 { constructor() { C3; } }; new C2();
class C4 { method() { C4; } *generator_method() { C4; } }; new C4();
let C5 = class C6 { method() { C6; } *generator_method() { C6; } }; new C5();
class C7 { static method() { C7; } }; new C7();
let C8 = class C9 { static method() { C9; } }; new C8();
class C10 { get x() { C10; } }; new C10();
let C11 = class C12 { get x() { C12; } }; new C11();
// Regression test for unnamed classes.
let C13 = class { m() { var1; } };
class COuter {
m() {
class CInner {
// Here we can refer to COuter but not to CInner (see corresponding
// assertion test):
[({ m() { COuter; return 'A'; } }).m()]() { return 'B'; }
// And here we can refer to both:
n() { COuter; CInner; }
}
return new CInner();
}
}
(new COuter()).m().n();
// Making sure the check which is supposed to prevent "object literal inside
// computed property name references the class name" is not too generic:
class C14 { m() { let obj = { n() { C14 } }; obj.n(); } }; (new C14()).m();
})();