2012-04-16 14:43:27 +00:00
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// Copyright 2012 the V8 project authors. All rights reserved.
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above
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// copyright notice, this list of conditions and the following
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// disclaimer in the documentation and/or other materials provided
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// with the distribution.
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// * Neither the name of Google Inc. nor the names of its
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// contributors may be used to endorse or promote products derived
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// from this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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// Flags: --harmony-modules --harmony-scoping
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2012-07-09 08:59:03 +00:00
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// Test basic module linking and initialization.
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2012-04-16 14:43:27 +00:00
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"use strict";
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2012-07-09 08:59:03 +00:00
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module R {
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// At this point, only functions and modules are initialized.
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assertEquals(undefined, v)
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assertEquals(undefined, vv)
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assertEquals(undefined, R.v)
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assertEquals(undefined, M.v)
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assertEquals(undefined, MM.v)
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assertEquals(undefined, F.v)
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assertEquals(undefined, G.v)
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assertThrows(function() { l }, ReferenceError)
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assertThrows(function() { ll }, ReferenceError)
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assertThrows(function() { R.l }, ReferenceError)
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assertThrows(function() { M.l }, ReferenceError)
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assertThrows(function() { MM.l }, ReferenceError)
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assertThrows(function() { F.l }, ReferenceError)
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assertThrows(function() { G.l }, ReferenceError)
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assertThrows(function() { c }, ReferenceError)
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assertThrows(function() { cc }, ReferenceError)
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assertThrows(function() { R.c }, ReferenceError)
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assertThrows(function() { M.c }, ReferenceError)
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assertThrows(function() { MM.c }, ReferenceError)
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assertThrows(function() { F.c }, ReferenceError)
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assertThrows(function() { G.c }, ReferenceError)
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assertEquals(4, f())
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assertEquals(24, ff())
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assertEquals(4, R.f())
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assertEquals(14, M.f())
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assertEquals(34, MM.f())
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assertEquals(44, F.f())
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assertEquals(14, G.f())
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// All properties should already exist on the instance objects, though.
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assertTrue("v" in R)
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assertTrue("v" in RR)
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assertTrue("v" in M)
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assertTrue("v" in MM)
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assertTrue("v" in F)
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assertTrue("v" in G)
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assertTrue("l" in R)
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assertTrue("l" in RR)
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assertTrue("l" in M)
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assertTrue("l" in MM)
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assertTrue("l" in F)
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assertTrue("l" in G)
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assertTrue("c" in R)
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assertTrue("c" in RR)
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assertTrue("c" in M)
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assertTrue("c" in MM)
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assertTrue("c" in F)
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assertTrue("c" in G)
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assertTrue("f" in R)
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assertTrue("f" in RR)
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assertTrue("f" in M)
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assertTrue("f" in MM)
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assertTrue("f" in F)
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assertTrue("f" in G)
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assertTrue("M" in R)
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assertTrue("M" in RR)
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assertTrue("RR" in R)
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assertTrue("RR" in RR)
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// And aliases should be identical.
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assertSame(R, RR)
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assertSame(R, R.RR)
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assertSame(M, R.M)
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assertSame(M, G)
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// We can only assign to var.
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assertEquals(-1, v = -1)
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assertEquals(-2, R.v = -2)
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assertEquals(-2, v)
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assertEquals(-2, R.v)
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assertThrows(function() { l = -1 }, ReferenceError)
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assertThrows(function() { R.l = -2 }, ReferenceError)
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assertThrows(function() { l }, ReferenceError)
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assertThrows(function() { R.l }, ReferenceError)
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assertThrows(function() { eval("c = -1") }, SyntaxError)
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assertThrows(function() { R.c = -2 }, TypeError)
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Get rid of static module allocation, do it in code.
Modules now have their own local scope, represented by their own context.
Module instance objects have an accessor for every export that forwards
access to the respective slot from the module's context. (Exports that are
modules themselves, however, are simple data properties.)
All modules have a _hosting_ scope/context, which (currently) is the
(innermost) enclosing global scope. To deal with recursion, nested modules
are hosted by the same scope as global ones.
For every (global or nested) module literal, the hosting context has an
internal slot that points directly to the respective module context. This
enables quick access to (statically resolved) module members by 2-dimensional
access through the hosting context. For example,
module A {
let x;
module B { let y; }
}
module C { let z; }
allocates contexts as follows:
[header| .A | .B | .C | A | C ] (global)
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+------------ [header| x | B ] (module)
Here, .A, .B, .C are the internal slots pointing to the hosted module
contexts, whereas A, B, C hold the actual instance objects (note that every
module context also points to the respective instance object through its
extension slot in the header).
To deal with arbitrary recursion and aliases between modules,
they are created and initialized in several stages. Each stage applies to
all modules in the hosting global scope, including nested ones.
1. Allocate: for each module _literal_, allocate the module contexts and
respective instance object and wire them up. This happens in the
PushModuleContext runtime function, as generated by AllocateModules
(invoked by VisitDeclarations in the hosting scope).
2. Bind: for each module _declaration_ (i.e. literals as well as aliases),
assign the respective instance object to respective local variables. This
happens in VisitModuleDeclaration, and uses the instance objects created
in the previous stage.
For each module _literal_, this phase also constructs a module descriptor
for the next stage. This happens in VisitModuleLiteral.
3. Populate: invoke the DeclareModules runtime function to populate each
_instance_ object with accessors for it exports. This is generated by
DeclareModules (invoked by VisitDeclarations in the hosting scope again),
and uses the descriptors generated in the previous stage.
4. Initialize: execute the module bodies (and other code) in sequence. This
happens by the separate statements generated for module bodies. To reenter
the module scopes properly, the parser inserted ModuleStatements.
R=mstarzinger@chromium.org,svenpanne@chromium.org
BUG=
Review URL: https://codereview.chromium.org/11093074
git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@13033 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
2012-11-22 10:25:22 +00:00
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// Initialize first bunch of variables.
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2012-07-09 08:59:03 +00:00
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export var v = 1
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export let l = 2
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export const c = 3
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export function f() { return 4 }
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assertEquals(1, v)
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assertEquals(1, R.v)
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assertEquals(2, l)
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assertEquals(2, R.l)
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assertEquals(3, c)
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assertEquals(3, R.c)
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assertEquals(-3, v = -3)
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assertEquals(-4, R.v = -4)
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assertEquals(-3, l = -3)
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assertEquals(-4, R.l = -4)
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assertThrows(function() { eval("c = -3") }, SyntaxError)
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assertThrows(function() { R.c = -4 }, TypeError)
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assertEquals(-4, v)
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assertEquals(-4, R.v)
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assertEquals(-4, l)
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assertEquals(-4, R.l)
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assertEquals(3, c)
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assertEquals(3, R.c)
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// Initialize nested module.
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export module M {
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export var v = 11
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export let l = 12
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export const c = 13
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export function f() { return 14 }
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}
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assertEquals(11, M.v)
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assertEquals(11, G.v)
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assertEquals(12, M.l)
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assertEquals(12, G.l)
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assertEquals(13, M.c)
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assertEquals(13, G.c)
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// Initialize non-exported variables.
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var vv = 21
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let ll = 22
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const cc = 23
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function ff() { return 24 }
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assertEquals(21, vv)
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assertEquals(22, ll)
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assertEquals(23, cc)
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// Initialize non-exported module.
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module MM {
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export var v = 31
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export let l = 32
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export const c = 33
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export function f() { return 34 }
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}
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assertEquals(31, MM.v)
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assertEquals(32, MM.l)
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assertEquals(33, MM.c)
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// Recursive self reference.
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export module RR = R
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}
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// Initialize sibling module that was forward-used.
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module F {
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assertEquals(undefined, v)
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assertEquals(undefined, F.v)
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assertThrows(function() { l }, ReferenceError)
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assertThrows(function() { F.l }, ReferenceError)
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assertThrows(function() { c }, ReferenceError)
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assertThrows(function() { F.c }, ReferenceError)
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export var v = 41
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export let l = 42
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export const c = 43
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export function f() { return 44 }
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assertEquals(41, v)
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assertEquals(41, F.v)
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assertEquals(42, l)
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assertEquals(42, F.l)
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assertEquals(43, c)
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assertEquals(43, F.c)
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}
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// Define recursive module alias.
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module G = R.M
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// Second test with side effects and more module nesting.
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2012-04-16 14:43:27 +00:00
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let log = "";
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export let x = (log += "1");
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export module B = A.B
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export module A {
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export let x = (log += "2");
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let y = (log += "3");
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export function f() { log += "5" };
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export module B {
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module BB = B;
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export BB, x;
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let x = (log += "4");
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f();
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let y = (log += "6");
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}
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export let z = (log += "7");
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export module C {
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export let z = (log += "8");
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export module D = B
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export module C = A.C
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}
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module D {}
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}
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export module M1 {
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export module A2 = M2;
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export let x = (log += "9");
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}
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export module M2 {
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export module A1 = M1;
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export let x = (log += "0");
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}
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assertEquals("object", typeof A);
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assertTrue('x' in A);
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assertFalse('y' in A);
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assertTrue('f' in A);
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assertTrue('B' in A);
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assertTrue('z' in A);
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assertTrue('C' in A);
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assertFalse('D' in A);
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assertEquals("object", typeof B);
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assertTrue('BB' in B);
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assertTrue('x' in B);
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assertFalse('y' in B);
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assertEquals("object", typeof A.B);
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assertTrue('BB' in A.B);
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assertTrue('x' in A.B);
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assertFalse('y' in A.B);
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assertEquals("object", typeof A.B.BB);
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assertTrue('BB' in A.B.BB);
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assertTrue('x' in A.B.BB);
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assertFalse('y' in A.B.BB);
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assertEquals("object", typeof A.C);
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assertTrue('z' in A.C);
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assertTrue('D' in A.C);
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assertTrue('C' in A.C);
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assertEquals("object", typeof M1);
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assertEquals("object", typeof M2);
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assertTrue('A2' in M1);
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assertTrue('A1' in M2);
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assertEquals("object", typeof M1.A2);
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assertEquals("object", typeof M2.A1);
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assertTrue('A1' in M1.A2);
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assertTrue('A2' in M2.A1);
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assertEquals("object", typeof M1.A2.A1);
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assertEquals("object", typeof M2.A1.A2);
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assertSame(B, A.B);
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assertSame(B, B.BB);
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assertSame(B, A.C.D);
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assertSame(A.C, A.C.C);
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assertFalse(A.D === A.C.D);
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assertSame(M1, M2.A1);
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assertSame(M2, M1.A2);
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assertSame(M1, M1.A2.A1);
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assertSame(M2, M2.A1.A2);
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2012-07-09 08:59:03 +00:00
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assertEquals("1234567890", log);
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