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The Google Closure Library is a collection of JavaScript code
designed for use with the Google Closure JavaScript Compiler.
This non-official distribution was prepared by the ClojureScript
team at http://clojure.org/
// Copyright 2008 The Closure Library Authors. All Rights Reserved.
//
// 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.
goog.provide('goog.module.ModuleManagerTest');
goog.setTestOnly('goog.module.ModuleManagerTest');
goog.require('goog.array');
goog.require('goog.functions');
goog.require('goog.module.BaseModule');
goog.require('goog.module.ModuleManager');
goog.require('goog.testing');
goog.require('goog.testing.MockClock');
goog.require('goog.testing.jsunit');
goog.require('goog.testing.recordFunction');
var clock;
var requestCount = 0;
function tearDown() {
clock.dispose();
}
function setUp() {
clock = new goog.testing.MockClock(true);
requestCount = 0;
}
function getModuleManager(infoMap) {
var mm = new goog.module.ModuleManager();
mm.setAllModuleInfo(infoMap);
mm.isModuleLoaded = function(id) {
return this.getModuleInfo(id).isLoaded();
};
return mm;
}
function createSuccessfulBatchLoader(moduleMgr) {
return {
loadModules: function(
ids, moduleInfoMap, opt_successFn, opt_errFn, opt_timeoutFn) {
requestCount++;
setTimeout(goog.bind(this.onLoad, this, ids.concat(), 0), 5);
},
onLoad: function(ids, idxLoaded) {
moduleMgr.beforeLoadModuleCode(ids[idxLoaded]);
moduleMgr.setLoaded(ids[idxLoaded]);
moduleMgr.afterLoadModuleCode(ids[idxLoaded]);
var idx = idxLoaded + 1;
if (idx < ids.length) {
setTimeout(goog.bind(this.onLoad, this, ids, idx), 2);
}
}
};
}
function createSuccessfulNonBatchLoader(moduleMgr) {
return {
loadModules: function(
ids, moduleInfoMap, opt_successFn, opt_errFn, opt_timeoutFn) {
requestCount++;
setTimeout(function() {
moduleMgr.beforeLoadModuleCode(ids[0]);
moduleMgr.setLoaded(ids[0]);
moduleMgr.afterLoadModuleCode(ids[0]);
if (opt_successFn) {
opt_successFn();
}
}, 5);
}
};
}
function createUnsuccessfulLoader(moduleMgr, status) {
return {
loadModules: function(
ids, moduleInfoMap, opt_successFn, opt_errFn, opt_timeoutFn) {
moduleMgr.beforeLoadModuleCode(ids[0]);
setTimeout(function() { opt_errFn(status); }, 5);
}
};
}
function createUnsuccessfulBatchLoader(moduleMgr, status) {
return {
loadModules: function(
ids, moduleInfoMap, opt_successFn, opt_errFn, opt_timeoutFn) {
setTimeout(function() { opt_errFn(status); }, 5);
}
};
}
function createTimeoutLoader(moduleMgr, status) {
return {
loadModules: function(
ids, moduleInfoMap, opt_successFn, opt_errFn, opt_timeoutFn) {
setTimeout(function() { opt_timeoutFn(status); }, 5);
}
};
}
/**
* Tests loading a module under different conditions i.e. unloaded
* module, already loaded module, module loaded through user initiated
* actions, synchronous callback for a module that has been already
* loaded. Test both batch and non-batch loaders.
*/
function testExecOnLoad() {
var mm = getModuleManager({'a': [], 'b': [], 'c': []});
mm.setLoader(createSuccessfulNonBatchLoader(mm));
execOnLoad_(mm);
mm = getModuleManager({'a': [], 'b': [], 'c': []});
mm.setLoader(createSuccessfulBatchLoader(mm));
mm.setBatchModeEnabled(true);
execOnLoad_(mm);
}
/**
* Tests execOnLoad with the specified module manager.
* @param {goog.module.ModuleManager} mm The module manager.
*/
function execOnLoad_(mm) {
// When module is unloaded, execOnLoad is async.
var execCalled1 = false;
mm.execOnLoad('a', function() { execCalled1 = true; });
assertFalse('module "a" should not be loaded', mm.isModuleLoaded('a'));
assertTrue('module "a" should be loading', mm.isModuleLoading('a'));
assertFalse('execCalled1 should not be set yet', execCalled1);
assertTrue('ModuleManager should be active', mm.isActive());
assertFalse('ModuleManager should not be user active', mm.isUserActive());
clock.tick(5);
assertTrue('module "a" should be loaded', mm.isModuleLoaded('a'));
assertFalse('module "a" should not be loading', mm.isModuleLoading('a'));
assertTrue('execCalled1 should be set', execCalled1);
assertFalse('ModuleManager should not be active', mm.isActive());
assertFalse('ModuleManager should not be user active', mm.isUserActive());
// When module is already loaded, execOnLoad is still async unless
// specified otherwise.
var execCalled2 = false;
mm.execOnLoad('a', function() { execCalled2 = true; });
assertTrue('module "a" should be loaded', mm.isModuleLoaded('a'));
assertFalse('module "a" should not be loading', mm.isModuleLoading('a'));
assertFalse('execCalled2 should not be set yet', execCalled2);
clock.tick(5);
assertTrue('execCalled2 should be set', execCalled2);
// When module is unloaded, execOnLoad is async (user active).
var execCalled5 = false;
mm.execOnLoad('c', function() { execCalled5 = true; }, null, null, true);
assertFalse('module "c" should not be loaded', mm.isModuleLoaded('c'));
assertTrue('module "c" should be loading', mm.isModuleLoading('c'));
assertFalse('execCalled1 should not be set yet', execCalled5);
assertTrue('ModuleManager should be active', mm.isActive());
assertTrue('ModuleManager should be user active', mm.isUserActive());
clock.tick(5);
assertTrue('module "c" should be loaded', mm.isModuleLoaded('c'));
assertFalse('module "c" should not be loading', mm.isModuleLoading('c'));
assertTrue('execCalled1 should be set', execCalled5);
assertFalse('ModuleManager should not be active', mm.isActive());
assertFalse('ModuleManager should not be user active', mm.isUserActive());
// When module is already loaded, execOnLoad is still synchronous when
// so specified
var execCalled6 = false;
mm.execOnLoad('c', function() {
execCalled6 = true;
}, undefined, undefined, undefined, true);
assertTrue('module "c" should be loaded', mm.isModuleLoaded('c'));
assertFalse('module "c" should not be loading', mm.isModuleLoading('c'));
assertTrue('execCalled6 should be set', execCalled6);
clock.tick(5);
assertTrue('execCalled6 should still be set', execCalled6);
}
/**
* Test aborting the callback called on module load.
*/
function testExecOnLoadAbort() {
var mm = getModuleManager({'a': [], 'b': [], 'c': []});
mm.setLoader(createSuccessfulNonBatchLoader(mm));
// When module is unloaded and abort is called, module still gets
// loaded, but callback is cancelled.
var execCalled1 = false;
var callback1 = mm.execOnLoad('b', function() { execCalled1 = true; });
callback1.abort();
clock.tick(5);
assertTrue('module "b" should be loaded', mm.isModuleLoaded('b'));
assertFalse('execCalled3 should not be set', execCalled1);
// When module is already loaded, execOnLoad is still async, so calling
// abort should still cancel the callback.
var execCalled2 = false;
var callback2 = mm.execOnLoad('a', function() { execCalled2 = true; });
callback2.abort();
clock.tick(5);
assertFalse('execCalled2 should not be set', execCalled2);
}
/**
* Test preloading modules and ensure that the before load, after load
* and set load called are called only once per module.
*/
function testExecOnLoadWhilePreloadingAndViceVersa() {
var mm = getModuleManager({'c': [], 'd': []});
mm.setLoader(createSuccessfulNonBatchLoader(mm));
execOnLoadWhilePreloadingAndViceVersa_(mm);
mm = getModuleManager({'c': [], 'd': []});
mm.setLoader(createSuccessfulBatchLoader(mm));
mm.setBatchModeEnabled(true);
execOnLoadWhilePreloadingAndViceVersa_(mm);
}
/**
* Perform tests with the specified module manager.
* @param {goog.module.ModuleManager} mm The module manager.
*/
function execOnLoadWhilePreloadingAndViceVersa_(mm) {
var mm = getModuleManager({'c': [], 'd': []});
mm.setLoader(createSuccessfulNonBatchLoader(mm));
var origSetLoaded = mm.setLoaded;
var calls = [0, 0, 0];
mm.beforeLoadModuleCode = function(id) { calls[0]++; };
mm.setLoaded = function(id) {
calls[1]++;
origSetLoaded.call(mm, id);
};
mm.afterLoadModuleCode = function(id) { calls[2]++; };
mm.preloadModule('c', 2);
assertFalse('module "c" should not be loading yet', mm.isModuleLoading('c'));
clock.tick(2);
assertTrue('module "c" should now be loading', mm.isModuleLoading('c'));
mm.execOnLoad('c', function() {});
assertTrue('module "c" should still be loading', mm.isModuleLoading('c'));
clock.tick(5);
assertFalse('module "c" should be done loading', mm.isModuleLoading('c'));
assertEquals('beforeLoad should only be called once for "c"', 1, calls[0]);
assertEquals('setLoaded should only be called once for "c"', 1, calls[1]);
assertEquals('afterLoad should only be called once for "c"', 1, calls[2]);
mm.execOnLoad('d', function() {});
assertTrue('module "d" should now be loading', mm.isModuleLoading('d'));
mm.preloadModule('d', 2);
clock.tick(5);
assertFalse('module "d" should be done loading', mm.isModuleLoading('d'));
assertTrue('module "d" should now be loaded', mm.isModuleLoaded('d'));
assertEquals('beforeLoad should only be called once for "d"', 2, calls[0]);
assertEquals('setLoaded should only be called once for "d"', 2, calls[1]);
assertEquals('afterLoad should only be called once for "d"', 2, calls[2]);
}
/**
* Tests that multiple callbacks on the same module don't cause
* confusion about the active state after the module is finally loaded.
*/
function testUserInitiatedExecOnLoadEventuallyLeavesManagerIdle() {
var mm = getModuleManager({'c': [], 'd': []});
mm.setLoader(createSuccessfulNonBatchLoader(mm));
var calledBack1 = false;
var calledBack2 = false;
mm.execOnLoad(
'c', function() { calledBack1 = true; }, undefined, undefined, true);
mm.execOnLoad(
'c', function() { calledBack2 = true; }, undefined, undefined, true);
mm.load('c');
assertTrue(
'Manager should be active while waiting for load', mm.isUserActive());
clock.tick(5);
assertTrue('First callback should be called', calledBack1);
assertTrue('Second callback should be called', calledBack2);
assertFalse(
'Manager should be inactive after loading is complete',
mm.isUserActive());
}
/**
* Tests loading a module by requesting a Deferred object.
*/
function testLoad() {
var mm = getModuleManager({'a': [], 'b': [], 'c': []});
mm.setLoader(createSuccessfulNonBatchLoader(mm));
var calledBack = false;
var error = null;
var d = mm.load('a');
d.addCallback(function(ctx) { calledBack = true; });
d.addErrback(function(err) { error = err; });
assertFalse(calledBack);
assertNull(error);
assertFalse(mm.isUserActive());
clock.tick(5);
assertTrue(calledBack);
assertNull(error);
}
/**
* Tests loading 2 modules asserting that the loads happen in parallel
* in one unit of time.
*/
function testLoad_concurrent() {
var mm = getModuleManager({'a': [], 'b': [], 'c': []});
mm.setConcurrentLoadingEnabled(true);
mm.setLoader(createSuccessfulNonBatchLoader(mm));
var calledBack = false;
var error = null;
mm.load('a');
mm.load('b');
assertEquals(2, requestCount);
// Only time for one serialized download.
clock.tick(5);
assertTrue(mm.getModuleInfo('a').isLoaded());
assertTrue(mm.getModuleInfo('b').isLoaded());
}
function testLoad_concurrentSecondIsDepOfFist() {
var mm = getModuleManager({'a': [], 'b': [], 'c': []});
mm.setBatchModeEnabled(true);
mm.setConcurrentLoadingEnabled(true);
mm.setLoader(createSuccessfulBatchLoader(mm));
var calledBack = false;
var error = null;
mm.loadMultiple(['a', 'b']);
mm.load('b');
assertEquals('No 2nd request expected', 1, requestCount);
// Only time for one serialized download.
clock.tick(5);
clock.tick(2); // Makes second module come in from batch requst.
assertTrue(mm.getModuleInfo('a').isLoaded());
assertTrue(mm.getModuleInfo('b').isLoaded());
}
function testLoad_nonConcurrent() {
var mm = getModuleManager({'a': [], 'b': [], 'c': []});
mm.setLoader(createSuccessfulNonBatchLoader(mm));
var calledBack = false;
var error = null;
mm.load('a');
mm.load('b');
assertEquals(1, requestCount);
// Only time for one serialized download.
clock.tick(5);
assertTrue(mm.getModuleInfo('a').isLoaded());
assertFalse(mm.getModuleInfo('b').isLoaded());
}
function testLoadUnknown() {
var mm = getModuleManager({'a': [], 'b': [], 'c': []});
mm.setLoader(createSuccessfulNonBatchLoader(mm));
var e = assertThrows(function() { mm.load('DoesNotExist'); });
assertEquals('Unknown module: DoesNotExist', e.message);
}
/**
* Tests loading multiple modules by requesting a Deferred object.
*/
function testLoadMultiple() {
var mm = getModuleManager({'a': [], 'b': [], 'c': []});
mm.setBatchModeEnabled(true);
mm.setLoader(createSuccessfulBatchLoader(mm));
var calledBack = false;
var error = null;
var calledBack2 = false;
var error2 = null;
var dMap = mm.loadMultiple(['a', 'b']);
dMap['a'].addCallback(function(ctx) { calledBack = true; });
dMap['a'].addErrback(function(err) { error = err; });
dMap['b'].addCallback(function(ctx) { calledBack2 = true; });
dMap['b'].addErrback(function(err) { error2 = err; });
assertFalse(calledBack);
assertFalse(calledBack2);
clock.tick(5);
assertTrue(calledBack);
assertFalse(calledBack2);
assertTrue('module "a" should be loaded', mm.isModuleLoaded('a'));
assertFalse('module "b" should not be loaded', mm.isModuleLoaded('b'));
assertFalse('module "c" should not be loaded', mm.isModuleLoaded('c'));
clock.tick(2);
assertTrue(calledBack);
assertTrue(calledBack2);
assertTrue('module "a" should be loaded', mm.isModuleLoaded('a'));
assertTrue('module "b" should be loaded', mm.isModuleLoaded('b'));
assertFalse('module "c" should not be loaded', mm.isModuleLoaded('c'));
assertNull(error);
assertNull(error2);
}
/**
* Tests loading multiple modules with deps by requesting a Deferred object.
*/
function testLoadMultipleWithDeps() {
var mm = getModuleManager({'a': [], 'b': ['c'], 'c': []});
mm.setBatchModeEnabled(true);
mm.setLoader(createSuccessfulBatchLoader(mm));
var calledBack = false;
var error = null;
var calledBack2 = false;
var error2 = null;
var dMap = mm.loadMultiple(['a', 'b']);
dMap['a'].addCallback(function(ctx) { calledBack = true; });
dMap['a'].addErrback(function(err) { error = err; });
dMap['b'].addCallback(function(ctx) { calledBack2 = true; });
dMap['b'].addErrback(function(err) { error2 = err; });
assertFalse(calledBack);
assertFalse(calledBack2);
clock.tick(5);
assertTrue(calledBack);
assertFalse(calledBack2);
assertTrue('module "a" should be loaded', mm.isModuleLoaded('a'));
assertFalse('module "b" should not be loaded', mm.isModuleLoaded('b'));
assertFalse('module "c" should not be loaded', mm.isModuleLoaded('c'));
clock.tick(2);
assertFalse(calledBack2);
assertTrue('module "a" should be loaded', mm.isModuleLoaded('a'));
assertFalse('module "b" should not be loaded', mm.isModuleLoaded('b'));
assertTrue('module "c" should be loaded', mm.isModuleLoaded('c'));
clock.tick(2);
assertTrue(calledBack2);
assertTrue('module "a" should be loaded', mm.isModuleLoaded('a'));
assertTrue('module "b" should be loaded', mm.isModuleLoaded('b'));
assertTrue('module "c" should be loaded', mm.isModuleLoaded('c'));
assertNull(error);
assertNull(error2);
}
/**
* Tests loading multiple modules by requesting a Deferred object when
* a server error occurs.
*/
function testLoadMultipleWithErrors() {
var mm = getModuleManager({'a': [], 'b': [], 'c': []});
mm.setBatchModeEnabled(true);
mm.setLoader(createUnsuccessfulLoader(mm, 500));
var calledBack = false;
var error = null;
var calledBack2 = false;
var error2 = null;
var calledBack3 = false;
var error3 = null;
var dMap = mm.loadMultiple(['a', 'b', 'c']);
dMap['a'].addCallback(function(ctx) { calledBack = true; });
dMap['a'].addErrback(function(err) { error = err; });
dMap['b'].addCallback(function(ctx) { calledBack2 = true; });
dMap['b'].addErrback(function(err) { error2 = err; });
dMap['c'].addCallback(function(ctx) { calledBack3 = true; });
dMap['c'].addErrback(function(err) { error3 = err; });
assertFalse(calledBack);
assertFalse(calledBack2);
assertFalse(calledBack3);
clock.tick(4);
// A module request is now underway using the unsuccessful loader.
// We substitute a successful loader for future module load requests.
mm.setLoader(createSuccessfulBatchLoader(mm));
clock.tick(1);
assertFalse(calledBack);
assertFalse(calledBack2);
assertFalse(calledBack3);
assertFalse('module "a" should not be loaded', mm.isModuleLoaded('a'));
assertFalse('module "b" should not be loaded', mm.isModuleLoaded('b'));
assertFalse('module "c" should not be loaded', mm.isModuleLoaded('c'));
// Retry should happen after a backoff
clock.tick(5 + mm.getBackOff_());
assertTrue(calledBack);
assertFalse(calledBack2);
assertFalse(calledBack3);
assertTrue('module "a" should be loaded', mm.isModuleLoaded('a'));
assertFalse('module "b" should not be loaded', mm.isModuleLoaded('b'));
assertFalse('module "c" should not be loaded', mm.isModuleLoaded('c'));
clock.tick(2);
assertTrue(calledBack2);
assertFalse(calledBack3);
assertTrue('module "b" should be loaded', mm.isModuleLoaded('b'));
assertFalse('module "c" should not be loaded', mm.isModuleLoaded('c'));
clock.tick(2);
assertTrue(calledBack3);
assertTrue('module "c" should be loaded', mm.isModuleLoaded('c'));
assertNull(error);
assertNull(error2);
assertNull(error3);
}
/**
* Tests loading multiple modules by requesting a Deferred object when
* consecutive server error occur and the loader falls back to serial
* loads.
*/
function testLoadMultipleWithErrorsFallbackOnSerial() {
var mm = getModuleManager({'a': [], 'b': [], 'c': []});
mm.setBatchModeEnabled(true);
mm.setLoader(createUnsuccessfulLoader(mm, 500));
var calledBack = false;
var error = null;
var calledBack2 = false;
var error2 = null;
var calledBack3 = false;
var error3 = null;
var dMap = mm.loadMultiple(['a', 'b', 'c']);
dMap['a'].addCallback(function(ctx) { calledBack = true; });
dMap['a'].addErrback(function(err) { error = err; });
dMap['b'].addCallback(function(ctx) { calledBack2 = true; });
dMap['b'].addErrback(function(err) { error2 = err; });
dMap['c'].addCallback(function(ctx) { calledBack3 = true; });
dMap['c'].addErrback(function(err) { error3 = err; });
assertFalse(calledBack);
assertFalse(calledBack2);
assertFalse(calledBack3);
clock.tick(5);
assertFalse(calledBack);
assertFalse(calledBack2);
assertFalse(calledBack3);
assertFalse('module "a" should not be loaded', mm.isModuleLoaded('a'));
assertFalse('module "b" should not be loaded', mm.isModuleLoaded('b'));
assertFalse('module "c" should not be loaded', mm.isModuleLoaded('c'));
// Retry should happen and fail after a backoff
clock.tick(5 + mm.getBackOff_());
assertFalse(calledBack);
assertFalse(calledBack2);
assertFalse(calledBack3);
assertFalse('module "a" should not be loaded', mm.isModuleLoaded('a'));
assertFalse('module "b" should not be loaded', mm.isModuleLoaded('b'));
assertFalse('module "c" should not be loaded', mm.isModuleLoaded('c'));
// A second retry should happen after a backoff
clock.tick(4 + mm.getBackOff_());
// The second retry is now underway using the unsuccessful loader.
// We substitute a successful loader for future module load requests.
mm.setLoader(createSuccessfulBatchLoader(mm));
clock.tick(1);
// A second retry should fail now
assertFalse(calledBack);
assertFalse(calledBack2);
assertFalse(calledBack3);
assertFalse('module "a" should not be loaded', mm.isModuleLoaded('a'));
assertFalse('module "b" should not be loaded', mm.isModuleLoaded('b'));
assertFalse('module "c" should not be loaded', mm.isModuleLoaded('c'));
// Each module should be loaded individually now, each taking 5 ticks
clock.tick(5);
assertTrue(calledBack);
assertFalse(calledBack2);
assertFalse(calledBack3);
assertTrue('module "a" should be loaded', mm.isModuleLoaded('a'));
assertFalse('module "b" should not be loaded', mm.isModuleLoaded('b'));
assertFalse('module "c" should not be loaded', mm.isModuleLoaded('c'));
clock.tick(5);
assertTrue(calledBack2);
assertFalse(calledBack3);
assertTrue('module "b" should be loaded', mm.isModuleLoaded('b'));
assertFalse('module "c" should not be loaded', mm.isModuleLoaded('c'));
clock.tick(5);
assertTrue(calledBack3);
assertTrue('module "c" should be loaded', mm.isModuleLoaded('c'));
assertNull(error);
assertNull(error2);
assertNull(error3);
}
/**
* Tests loading a module by user action by requesting a Deferred object.
*/
function testLoadForUser() {
var mm = getModuleManager({'a': [], 'b': [], 'c': []});
mm.setLoader(createSuccessfulNonBatchLoader(mm));
var calledBack = false;
var error = null;
var d = mm.load('a', true);
d.addCallback(function(ctx) { calledBack = true; });
d.addErrback(function(err) { error = err; });
assertFalse(calledBack);
assertNull(error);
assertTrue(mm.isUserActive());
clock.tick(5);
assertTrue(calledBack);
assertNull(error);
}
/**
* Tests that preloading a module calls back the deferred object.
*/
function testPreloadDeferredWhenNotLoaded() {
var mm = getModuleManager({'a': []});
mm.setLoader(createSuccessfulNonBatchLoader(mm));
var calledBack = false;
var d = mm.preloadModule('a');
d.addCallback(function(ctx) { calledBack = true; });
// First load should take five ticks.
assertFalse('module "a" should not be loaded yet', calledBack);
clock.tick(5);
assertTrue('module "a" should be loaded', calledBack);
}
/**
* Tests preloading an already loaded module.
*/
function testPreloadDeferredWhenLoaded() {
var mm = getModuleManager({'a': []});
mm.setLoader(createSuccessfulNonBatchLoader(mm));
var calledBack = false;
mm.preloadModule('a');
clock.tick(5);
var d = mm.preloadModule('a');
d.addCallback(function(ctx) { calledBack = true; });
// Module is already loaded, should be called back after the setTimeout
// in preloadModule.
assertFalse('deferred for module "a" should not be called yet', calledBack);
clock.tick(1);
assertTrue('module "a" should be loaded', calledBack);
}
/**
* Tests preloading a module that is currently loading.
*/
function testPreloadDeferredWhenLoading() {
var mm = getModuleManager({'a': []});
mm.setLoader(createSuccessfulNonBatchLoader(mm));
mm.preloadModule('a');
clock.tick(1);
// 'b' is in the middle of loading, should get called back when it's done.
var calledBack = false;
var d = mm.preloadModule('a');
d.addCallback(function(ctx) { calledBack = true; });
assertFalse('module "a" should not be loaded yet', calledBack);
clock.tick(4);
assertTrue('module "a" should be loaded', calledBack);
}
/**
* Tests that load doesn't trigger another load if a module is already
* preloading.
*/
function testLoadWhenPreloading() {
var mm = getModuleManager({'a': [], 'b': [], 'c': []});
mm.setLoader(createSuccessfulNonBatchLoader(mm));
var origSetLoaded = mm.setLoaded;
var calls = [0, 0, 0];
mm.beforeLoadModuleCode = function(id) { calls[0]++; };
mm.setLoaded = function(id) {
calls[1]++;
origSetLoaded.call(mm, id);
};
mm.afterLoadModuleCode = function(id) { calls[2]++; };
var calledBack = false;
var error = null;
mm.preloadModule('c', 2);
assertFalse('module "c" should not be loading yet', mm.isModuleLoading('c'));
clock.tick(2);
assertTrue('module "c" should now be loading', mm.isModuleLoading('c'));
var d = mm.load('c');
d.addCallback(function(ctx) { calledBack = true; });
d.addErrback(function(err) { error = err; });
assertTrue('module "c" should still be loading', mm.isModuleLoading('c'));
clock.tick(5);
assertFalse('module "c" should be done loading', mm.isModuleLoading('c'));
assertEquals('beforeLoad should only be called once for "c"', 1, calls[0]);
assertEquals('setLoaded should only be called once for "c"', 1, calls[1]);
assertEquals('afterLoad should only be called once for "c"', 1, calls[2]);
assertTrue(calledBack);
assertNull(error);
}
/**
* Tests that load doesn't trigger another load if a module is already
* preloading.
*/
function testLoadMultipleWhenPreloading() {
var mm = getModuleManager({'a': [], 'b': ['d'], 'c': [], 'd': []});
mm.setLoader(createSuccessfulBatchLoader(mm));
mm.setBatchModeEnabled(true);
var origSetLoaded = mm.setLoaded;
var calls = {'a': [0, 0, 0], 'b': [0, 0, 0], 'c': [0, 0, 0], 'd': [0, 0, 0]};
mm.beforeLoadModuleCode = function(id) { calls[id][0]++; };
mm.setLoaded = function(id) {
calls[id][1]++;
origSetLoaded.call(mm, id);
};
mm.afterLoadModuleCode = function(id) { calls[id][2]++; };
var calledBack = false;
var error = null;
var calledBack2 = false;
var error2 = null;
var calledBack3 = false;
var error3 = null;
mm.preloadModule('c', 2);
mm.preloadModule('d', 3);
assertFalse('module "c" should not be loading yet', mm.isModuleLoading('c'));
assertFalse('module "d" should not be loading yet', mm.isModuleLoading('d'));
clock.tick(2);
assertTrue('module "c" should now be loading', mm.isModuleLoading('c'));
clock.tick(1);
assertTrue('module "d" should now be loading', mm.isModuleLoading('d'));
var dMap = mm.loadMultiple(['a', 'b', 'c']);
dMap['a'].addCallback(function(ctx) { calledBack = true; });
dMap['a'].addErrback(function(err) { error = err; });
dMap['b'].addCallback(function(ctx) { calledBack2 = true; });
dMap['b'].addErrback(function(err) { error2 = err; });
dMap['c'].addCallback(function(ctx) { calledBack3 = true; });
dMap['c'].addErrback(function(err) { error3 = err; });
assertTrue('module "a" should be loading', mm.isModuleLoading('a'));
assertTrue('module "b" should be loading', mm.isModuleLoading('b'));
assertTrue('module "c" should still be loading', mm.isModuleLoading('c'));
clock.tick(4);
assertTrue(calledBack3);
assertFalse('module "c" should be done loading', mm.isModuleLoading('c'));
assertTrue('module "d" should still be loading', mm.isModuleLoading('d'));
clock.tick(5);
assertFalse('module "d" should be done loading', mm.isModuleLoading('d'));
assertFalse(calledBack);
assertFalse(calledBack2);
assertTrue('module "a" should still be loading', mm.isModuleLoading('a'));
assertTrue('module "b" should still be loading', mm.isModuleLoading('b'));
clock.tick(7);
assertTrue(calledBack);
assertTrue(calledBack2);
assertFalse('module "a" should be done loading', mm.isModuleLoading('a'));
assertFalse('module "b" should be done loading', mm.isModuleLoading('b'));
assertEquals(
'beforeLoad should only be called once for "a"', 1, calls['a'][0]);
assertEquals(
'setLoaded should only be called once for "a"', 1, calls['a'][1]);
assertEquals(
'afterLoad should only be called once for "a"', 1, calls['a'][2]);
assertEquals(
'beforeLoad should only be called once for "b"', 1, calls['b'][0]);
assertEquals(
'setLoaded should only be called once for "b"', 1, calls['b'][1]);
assertEquals(
'afterLoad should only be called once for "b"', 1, calls['b'][2]);
assertEquals(
'beforeLoad should only be called once for "c"', 1, calls['c'][0]);
assertEquals(
'setLoaded should only be called once for "c"', 1, calls['c'][1]);
assertEquals(
'afterLoad should only be called once for "c"', 1, calls['c'][2]);
assertEquals(
'beforeLoad should only be called once for "d"', 1, calls['d'][0]);
assertEquals(
'setLoaded should only be called once for "d"', 1, calls['d'][1]);
assertEquals(
'afterLoad should only be called once for "d"', 1, calls['d'][2]);
assertNull(error);
assertNull(error2);
assertNull(error3);
}
/**
* Tests that the deferred is still called when loadMultiple loads modules
* that are already preloading.
*/
function testLoadMultipleWhenPreloadingSameModules() {
var mm = getModuleManager({'a': [], 'b': ['d'], 'c': [], 'd': []});
mm.setLoader(createSuccessfulBatchLoader(mm));
mm.setBatchModeEnabled(true);
var origSetLoaded = mm.setLoaded;
var calls = {'c': [0, 0, 0], 'd': [0, 0, 0]};
mm.beforeLoadModuleCode = function(id) { calls[id][0]++; };
mm.setLoaded = function(id) {
calls[id][1]++;
origSetLoaded.call(mm, id);
};
mm.afterLoadModuleCode = function(id) { calls[id][2]++; };
var calledBack = false;
var error = null;
var calledBack2 = false;
var error2 = null;
mm.preloadModule('c', 2);
mm.preloadModule('d', 3);
assertFalse('module "c" should not be loading yet', mm.isModuleLoading('c'));
assertFalse('module "d" should not be loading yet', mm.isModuleLoading('d'));
clock.tick(2);
assertTrue('module "c" should now be loading', mm.isModuleLoading('c'));
clock.tick(1);
assertTrue('module "d" should now be loading', mm.isModuleLoading('d'));
var dMap = mm.loadMultiple(['c', 'd']);
dMap['c'].addCallback(function(ctx) { calledBack = true; });
dMap['c'].addErrback(function(err) { error = err; });
dMap['d'].addCallback(function(ctx) { calledBack2 = true; });
dMap['d'].addErrback(function(err) { error2 = err; });
assertTrue('module "c" should still be loading', mm.isModuleLoading('c'));
clock.tick(4);
assertFalse('module "c" should be done loading', mm.isModuleLoading('c'));
assertTrue('module "d" should still be loading', mm.isModuleLoading('d'));
clock.tick(5);
assertFalse('module "d" should be done loading', mm.isModuleLoading('d'));
assertTrue(calledBack);
assertTrue(calledBack2);
assertEquals(
'beforeLoad should only be called once for "c"', 1, calls['c'][0]);
assertEquals(
'setLoaded should only be called once for "c"', 1, calls['c'][1]);
assertEquals(
'afterLoad should only be called once for "c"', 1, calls['c'][2]);
assertEquals(
'beforeLoad should only be called once for "d"', 1, calls['d'][0]);
assertEquals(
'setLoaded should only be called once for "d"', 1, calls['d'][1]);
assertEquals(
'afterLoad should only be called once for "d"', 1, calls['d'][2]);
assertNull(error);
assertNull(error2);
}
/**
* Tests loading a module via load when the module is already
* loaded. The deferred's callback should be called immediately.
*/
function testLoadWhenLoaded() {
var mm = getModuleManager({'a': [], 'b': [], 'c': []});
mm.setLoader(createSuccessfulNonBatchLoader(mm));
var calledBack = false;
var error = null;
mm.preloadModule('b', 2);
clock.tick(10);
assertFalse('module "b" should be done loading', mm.isModuleLoading('b'));
var d = mm.load('b');
d.addCallback(function(ctx) { calledBack = true; });
d.addErrback(function(err) { error = err; });
assertTrue(calledBack);
assertNull(error);
}
/**
* Tests that the deferred's errbacks are called if the module fails to load.
*/
function testLoadWithFailingModule() {
var mm = getModuleManager({'a': [], 'b': [], 'c': []});
mm.setLoader(createUnsuccessfulLoader(mm, 401));
mm.registerCallback(
goog.module.ModuleManager.CallbackType.ERROR,
function(callbackType, id, cause) {
assertEquals(
'Failure cause was not as expected',
goog.module.ModuleManager.FailureType.UNAUTHORIZED, cause);
firedLoadFailed = true;
});
var calledBack = false;
var error = null;
var d = mm.load('a');
d.addCallback(function(ctx) { calledBack = true; });
d.addErrback(function(err) { error = err; });
assertFalse(calledBack);
assertNull(error);
clock.tick(500);
assertFalse(calledBack);
// NOTE: Deferred always calls errbacks with an Error object. For now the
// module manager just passes the FailureType which gets set as the Error
// object's message.
assertEquals(
'Failure cause was not as expected',
goog.module.ModuleManager.FailureType.UNAUTHORIZED,
Number(error.message));
}
/**
* Tests that the deferred's errbacks are called if a module fails to load.
*/
function testLoadMultipleWithFailingModule() {
var mm = getModuleManager({'a': [], 'b': [], 'c': []});
mm.setLoader(createUnsuccessfulLoader(mm, 401));
mm.setBatchModeEnabled(true);
mm.registerCallback(
goog.module.ModuleManager.CallbackType.ERROR,
function(callbackType, id, cause) {
assertEquals(
'Failure cause was not as expected',
goog.module.ModuleManager.FailureType.UNAUTHORIZED, cause);
});
var calledBack11 = false;
var error11 = null;
var calledBack12 = false;
var error12 = null;
var calledBack21 = false;
var error21 = null;
var calledBack22 = false;
var error22 = null;
var dMap = mm.loadMultiple(['a', 'b']);
dMap['a'].addCallback(function(ctx) { calledBack11 = true; });
dMap['a'].addErrback(function(err) { error11 = err; });
dMap['b'].addCallback(function(ctx) { calledBack12 = true; });
dMap['b'].addErrback(function(err) { error12 = err; });
var dMap2 = mm.loadMultiple(['b', 'c']);
dMap2['b'].addCallback(function(ctx) { calledBack21 = true; });
dMap2['b'].addErrback(function(err) { error21 = err; });
dMap2['c'].addCallback(function(ctx) { calledBack22 = true; });
dMap2['c'].addErrback(function(err) { error22 = err; });
assertFalse(calledBack11);
assertFalse(calledBack12);
assertFalse(calledBack21);
assertFalse(calledBack22);
assertNull(error11);
assertNull(error12);
assertNull(error21);
assertNull(error22);
clock.tick(5);
assertFalse(calledBack11);
assertFalse(calledBack12);
assertFalse(calledBack21);
assertFalse(calledBack22);
// NOTE: Deferred always calls errbacks with an Error object. For now the
// module manager just passes the FailureType which gets set as the Error
// object's message.
assertEquals(
'Failure cause was not as expected',
goog.module.ModuleManager.FailureType.UNAUTHORIZED,
Number(error11.message));
assertEquals(
'Failure cause was not as expected',
goog.module.ModuleManager.FailureType.UNAUTHORIZED,
Number(error12.message));
// The first deferred of the second load should be called since it asks for
// one of the failed modules.
assertEquals(
'Failure cause was not as expected',
goog.module.ModuleManager.FailureType.UNAUTHORIZED,
Number(error21.message));
// The last deferred should be dropped so it is neither called back nor an
// error.
assertFalse(calledBack22);
assertNull(error22);
}
/**
* Tests that the right dependencies are cancelled on a loadMultiple failure.
*/
function testLoadMultipleWithFailingModuleDependencies() {
var mm =
getModuleManager({'a': [], 'b': [], 'c': ['b'], 'd': ['c'], 'e': []});
mm.setLoader(createUnsuccessfulLoader(mm, 401));
mm.setBatchModeEnabled(true);
var cancelledIds = [];
mm.registerCallback(
goog.module.ModuleManager.CallbackType.ERROR,
function(callbackType, id, cause) {
assertEquals(
'Failure cause was not as expected',
goog.module.ModuleManager.FailureType.UNAUTHORIZED, cause);
cancelledIds.push(id);
});
var calledBack11 = false;
var error11 = null;
var calledBack12 = false;
var error12 = null;
var calledBack21 = false;
var error21 = null;
var calledBack22 = false;
var error22 = null;
var calledBack23 = false;
var error23 = null;
var dMap = mm.loadMultiple(['a', 'b']);
dMap['a'].addCallback(function(ctx) { calledBack11 = true; });
dMap['a'].addErrback(function(err) { error11 = err; });
dMap['b'].addCallback(function(ctx) { calledBack12 = true; });
dMap['b'].addErrback(function(err) { error12 = err; });
var dMap2 = mm.loadMultiple(['c', 'd', 'e']);
dMap2['c'].addCallback(function(ctx) { calledBack21 = true; });
dMap2['c'].addErrback(function(err) { error21 = err; });
dMap2['d'].addCallback(function(ctx) { calledBack22 = true; });
dMap2['d'].addErrback(function(err) { error22 = err; });
dMap2['e'].addCallback(function(ctx) { calledBack23 = true; });
dMap2['e'].addErrback(function(err) { error23 = err; });
assertFalse(calledBack11);
assertFalse(calledBack12);
assertFalse(calledBack21);
assertFalse(calledBack22);
assertFalse(calledBack23);
assertNull(error11);
assertNull(error12);
assertNull(error21);
assertNull(error22);
assertNull(error23);
clock.tick(5);
assertFalse(calledBack11);
assertFalse(calledBack12);
assertFalse(calledBack21);
assertFalse(calledBack22);
assertFalse(calledBack23);
// NOTE: Deferred always calls errbacks with an Error object. For now the
// module manager just passes the FailureType which gets set as the Error
// object's message.
assertEquals(
'Failure cause was not as expected',
goog.module.ModuleManager.FailureType.UNAUTHORIZED,
Number(error11.message));
assertEquals(
'Failure cause was not as expected',
goog.module.ModuleManager.FailureType.UNAUTHORIZED,
Number(error12.message));
// Check that among the failed modules, 'c' and 'd' are also cancelled
// due to dependencies.
assertTrue(goog.array.equals(['a', 'b', 'c', 'd'], cancelledIds.sort()));
}
/**
* Tests that when loading multiple modules, the input array is not modified
* when it has duplicates.
*/
function testLoadMultipleWithDuplicates() {
var mm = getModuleManager({'a': [], 'b': []});
mm.setBatchModeEnabled(true);
mm.setLoader(createSuccessfulBatchLoader(mm));
var listWithDuplicates = ['a', 'a', 'b'];
mm.loadMultiple(listWithDuplicates);
assertArrayEquals(
'loadMultiple should not modify its input', ['a', 'a', 'b'],
listWithDuplicates);
}
/**
* Test loading dependencies transitively.
*/
function testLoadingDepsInNonBatchMode1() {
var mm =
getModuleManager({'i': [], 'j': [], 'k': ['j'], 'l': ['i', 'j', 'k']});
mm.setLoader(createSuccessfulNonBatchLoader(mm));
mm.preloadModule('j');
clock.tick(5);
assertTrue('module "j" should be loaded', mm.isModuleLoaded('j'));
assertFalse('module "i" should not be loaded (1)', mm.isModuleLoaded('i'));
assertFalse('module "k" should not be loaded (1)', mm.isModuleLoaded('k'));
assertFalse('module "l" should not be loaded (1)', mm.isModuleLoaded('l'));
// When loading a module in non-batch mode, its dependencies should be
// requested independently, and in dependency order.
mm.preloadModule('l');
clock.tick(5);
assertTrue('module "i" should be loaded', mm.isModuleLoaded('i'));
assertFalse('module "k" should not be loaded (2)', mm.isModuleLoaded('k'));
assertFalse('module "l" should not be loaded (2)', mm.isModuleLoaded('l'));
clock.tick(5);
assertTrue('module "k" should be loaded', mm.isModuleLoaded('k'));
assertFalse('module "l" should not be loaded (3)', mm.isModuleLoaded('l'));
clock.tick(5);
assertTrue('module "l" should be loaded', mm.isModuleLoaded('l'));
}
/**
* Test loading dependencies transitively and in dependency order.
*/
function testLoadingDepsInNonBatchMode2() {
var mm = getModuleManager({
'h': [],
'i': ['h'],
'j': ['i'],
'k': ['j'],
'l': ['i', 'j', 'k'],
'm': ['l']
});
mm.setLoader(createSuccessfulNonBatchLoader(mm));
// When loading a module in non-batch mode, its dependencies should be
// requested independently, and in dependency order. The order in this
// case should be h,i,j,k,l,m.
mm.preloadModule('m');
clock.tick(5);
assertTrue('module "h" should be loaded', mm.isModuleLoaded('h'));
assertFalse('module "i" should not be loaded (1)', mm.isModuleLoaded('i'));
assertFalse('module "j" should not be loaded (1)', mm.isModuleLoaded('j'));
assertFalse('module "k" should not be loaded (1)', mm.isModuleLoaded('k'));
assertFalse('module "l" should not be loaded (1)', mm.isModuleLoaded('l'));
assertFalse('module "m" should not be loaded (1)', mm.isModuleLoaded('m'));
clock.tick(5);
assertTrue('module "i" should be loaded', mm.isModuleLoaded('i'));
assertFalse('module "j" should not be loaded (2)', mm.isModuleLoaded('j'));
assertFalse('module "k" should not be loaded (2)', mm.isModuleLoaded('k'));
assertFalse('module "l" should not be loaded (2)', mm.isModuleLoaded('l'));
assertFalse('module "m" should not be loaded (2)', mm.isModuleLoaded('m'));
clock.tick(5);
assertTrue('module "j" should be loaded', mm.isModuleLoaded('j'));
assertFalse('module "k" should not be loaded (3)', mm.isModuleLoaded('k'));
assertFalse('module "l" should not be loaded (3)', mm.isModuleLoaded('l'));
assertFalse('module "m" should not be loaded (3)', mm.isModuleLoaded('m'));
clock.tick(5);
assertTrue('module "k" should be loaded', mm.isModuleLoaded('k'));
assertFalse('module "l" should not be loaded (4)', mm.isModuleLoaded('l'));
assertFalse('module "m" should not be loaded (4)', mm.isModuleLoaded('m'));
clock.tick(5);
assertTrue('module "l" should be loaded', mm.isModuleLoaded('l'));
assertFalse('module "m" should not be loaded (5)', mm.isModuleLoaded('m'));
clock.tick(5);
assertTrue('module "m" should be loaded', mm.isModuleLoaded('m'));
}
function testLoadingDepsInBatchMode() {
var mm =
getModuleManager({'e': [], 'f': [], 'g': ['f'], 'h': ['e', 'f', 'g']});
mm.setLoader(createSuccessfulBatchLoader(mm));
mm.setBatchModeEnabled(true);
mm.preloadModule('f');
clock.tick(5);
assertTrue('module "f" should be loaded', mm.isModuleLoaded('f'));
assertFalse('module "e" should not be loaded (1)', mm.isModuleLoaded('e'));
assertFalse('module "g" should not be loaded (1)', mm.isModuleLoaded('g'));
assertFalse('module "h" should not be loaded (1)', mm.isModuleLoaded('h'));
// When loading a module in batch mode, its not-yet-loaded dependencies
// should be requested at the same time, and in dependency order.
mm.preloadModule('h');
clock.tick(5);
assertTrue('module "e" should be loaded', mm.isModuleLoaded('e'));
assertFalse('module "g" should not be loaded (2)', mm.isModuleLoaded('g'));
assertFalse('module "h" should not be loaded (2)', mm.isModuleLoaded('h'));
clock.tick(2);
assertTrue('module "g" should be loaded', mm.isModuleLoaded('g'));
assertFalse('module "h" should not be loaded (3)', mm.isModuleLoaded('h'));
clock.tick(2);
assertTrue('module "h" should be loaded', mm.isModuleLoaded('h'));
}
/**
* Test unauthorized errors while loading modules.
*/
function testUnauthorizedLoading() {
var mm = getModuleManager({'m': [], 'n': [], 'o': ['n']});
mm.setLoader(createUnsuccessfulLoader(mm, 401));
// Callback checks for an unauthorized error
var firedLoadFailed = false;
mm.registerCallback(
goog.module.ModuleManager.CallbackType.ERROR,
function(callbackType, id, cause) {
assertEquals(
'Failure cause was not as expected',
goog.module.ModuleManager.FailureType.UNAUTHORIZED, cause);
firedLoadFailed = true;
});
mm.execOnLoad('o', function() {});
assertTrue('module "o" should be loading', mm.isModuleLoading('o'));
assertTrue('module "n" should be loading', mm.isModuleLoading('n'));
clock.tick(5);
assertTrue(
'should have called unauthorized module callback', firedLoadFailed);
assertFalse('module "o" should not be loaded', mm.isModuleLoaded('o'));
assertFalse('module "o" should not be loading', mm.isModuleLoading('o'));
assertFalse('module "n" should not be loaded', mm.isModuleLoaded('n'));
assertFalse('module "n" should not be loading', mm.isModuleLoading('n'));
}
/**
* Test error loading modules which are retried.
*/
function testErrorLoadingModule() {
var mm = getModuleManager({'p': ['q'], 'q': [], 'r': ['q', 'p']});
mm.setLoader(createUnsuccessfulLoader(mm, 500));
mm.preloadModule('r');
clock.tick(4);
// A module request is now underway using the unsuccessful loader.
// We substitute a successful loader for future module load requests.
mm.setLoader(createSuccessfulNonBatchLoader(mm));
clock.tick(1);
assertFalse('module "q" should not be loaded (1)', mm.isModuleLoaded('q'));
assertFalse('module "p" should not be loaded (1)', mm.isModuleLoaded('p'));
assertFalse('module "r" should not be loaded (1)', mm.isModuleLoaded('r'));
// Failed loads are automatically retried after a backOff.
clock.tick(5 + mm.getBackOff_());
assertTrue('module "q" should be loaded', mm.isModuleLoaded('q'));
assertFalse('module "p" should not be loaded (2)', mm.isModuleLoaded('p'));
assertFalse('module "r" should not be loaded (2)', mm.isModuleLoaded('r'));
// A successful load decrements the backOff.
clock.tick(5);
assertTrue('module "p" should be loaded', mm.isModuleLoaded('p'));
assertFalse('module "r" should not be loaded (3)', mm.isModuleLoaded('r'));
clock.tick(5);
assertTrue('module "r" should be loaded', mm.isModuleLoaded('r'));
}
/**
* Tests error loading modules which are retried.
*/
function testErrorLoadingModule_batchMode() {
var mm = getModuleManager({'p': ['q'], 'q': [], 'r': ['q', 'p']});
mm.setLoader(createUnsuccessfulBatchLoader(mm, 500));
mm.setBatchModeEnabled(true);
mm.preloadModule('r');
clock.tick(4);
// A module request is now underway using the unsuccessful loader.
// We substitute a successful loader for future module load requests.
mm.setLoader(createSuccessfulBatchLoader(mm));
clock.tick(1);
assertFalse('module "q" should not be loaded (1)', mm.isModuleLoaded('q'));
assertFalse('module "p" should not be loaded (1)', mm.isModuleLoaded('p'));
assertFalse('module "r" should not be loaded (1)', mm.isModuleLoaded('r'));
// Failed loads are automatically retried after a backOff.
clock.tick(5 + mm.getBackOff_());
assertTrue('module "q" should be loaded', mm.isModuleLoaded('q'));
clock.tick(2);
assertTrue('module "p" should not be loaded (2)', mm.isModuleLoaded('p'));
clock.tick(2);
assertTrue('module "r" should not be loaded (2)', mm.isModuleLoaded('r'));
}
/**
* Test consecutive errors in loading modules.
*/
function testConsecutiveErrors() {
var mm = getModuleManager({'s': []});
mm.setLoader(createUnsuccessfulLoader(mm, 500));
// Register an error callback for consecutive failures.
var firedLoadFailed = false;
mm.registerCallback(
goog.module.ModuleManager.CallbackType.ERROR,
function(callbackType, id, cause) {
assertEquals(
'Failure cause was not as expected',
goog.module.ModuleManager.FailureType.CONSECUTIVE_FAILURES, cause);
firedLoadFailed = true;
});
mm.preloadModule('s');
assertFalse('module "s" should not be loaded (0)', mm.isModuleLoaded('s'));
// Fail twice.
for (var i = 0; i < 2; i++) {
clock.tick(5 + mm.getBackOff_());
assertFalse('module "s" should not be loaded (1)', mm.isModuleLoaded('s'));
assertFalse('should not fire failed callback (1)', firedLoadFailed);
}
// Fail a third time and check that the callback is fired.
clock.tick(5 + mm.getBackOff_());
assertFalse('module "s" should not be loaded (2)', mm.isModuleLoaded('s'));
assertTrue('should have fired failed callback', firedLoadFailed);
// Check that it doesn't attempt to load the module anymore after it has
// failed.
var triedLoad = false;
mm.setLoader({
loadModules: function(ids, moduleInfoMap, opt_successFn, opt_errFn) {
triedLoad = true;
}
});
// Also reset the failed callback flag and make sure it isn't called
// again.
firedLoadFailed = false;
clock.tick(10 + mm.getBackOff_());
assertFalse('module "s" should not be loaded (3)', mm.isModuleLoaded('s'));
assertFalse('No more loads should have been tried', triedLoad);
assertFalse(
'The load failed callback should be fired only once', firedLoadFailed);
}
/**
* Test loading errors due to old code.
*/
function testOldCodeGoneError() {
var mm = getModuleManager({'s': []});
mm.setLoader(createUnsuccessfulLoader(mm, 410));
// Callback checks for an old code failure
var firedLoadFailed = false;
mm.registerCallback(
goog.module.ModuleManager.CallbackType.ERROR,
function(callbackType, id, cause) {
assertEquals(
'Failure cause was not as expected',
goog.module.ModuleManager.FailureType.OLD_CODE_GONE, cause);
firedLoadFailed = true;
});
mm.preloadModule('s', 0);
assertFalse('module "s" should not be loaded (0)', mm.isModuleLoaded('s'));
clock.tick(5);
assertFalse('module "s" should not be loaded (1)', mm.isModuleLoaded('s'));
assertTrue('should have called old code gone callback', firedLoadFailed);
}
/**
* Test timeout.
*/
function testTimeout() {
var mm = getModuleManager({'s': []});
mm.setLoader(createTimeoutLoader(mm));
// Callback checks for timeout
var firedTimeout = false;
mm.registerCallback(
goog.module.ModuleManager.CallbackType.ERROR,
function(callbackType, id, cause) {
assertEquals(
'Failure cause was not as expected',
goog.module.ModuleManager.FailureType.TIMEOUT, cause);
firedTimeout = true;
});
mm.preloadModule('s', 0);
assertFalse('module "s" should not be loaded (0)', mm.isModuleLoaded('s'));
clock.tick(5);
assertFalse('module "s" should not be loaded (1)', mm.isModuleLoaded('s'));
assertTrue('should have called timeout callback', firedTimeout);
}
/**
* Tests that an error during execOnLoad will trigger the error callback.
*/
function testExecOnLoadError() {
// Expect two callbacks, each of which will be called with callback type
// ERROR, the right module id and failure type INIT_ERROR.
var errorCallback1 = goog.testing.createFunctionMock('callback1');
errorCallback1(
goog.module.ModuleManager.CallbackType.ERROR, 'b',
goog.module.ModuleManager.FailureType.INIT_ERROR);
var errorCallback2 = goog.testing.createFunctionMock('callback2');
errorCallback2(
goog.module.ModuleManager.CallbackType.ERROR, 'b',
goog.module.ModuleManager.FailureType.INIT_ERROR);
errorCallback1.$replay();
errorCallback2.$replay();
var mm = new goog.module.ModuleManager();
mm.setLoader(createSuccessfulNonBatchLoader(mm));
// Register the first callback before setting the module info map.
mm.registerCallback(
goog.module.ModuleManager.CallbackType.ERROR, errorCallback1);
mm.setAllModuleInfo({'a': [], 'b': [], 'c': []});
// Register the second callback after setting the module info map.
mm.registerCallback(
goog.module.ModuleManager.CallbackType.ERROR, errorCallback2);
var execOnLoadBCalled = false;
mm.execOnLoad('b', function() {
execOnLoadBCalled = true;
throw new Error();
});
assertThrows(function() { clock.tick(5); });
assertTrue(
'execOnLoad should have been called on module b.', execOnLoadBCalled);
errorCallback1.$verify();
errorCallback2.$verify();
}
/**
* Tests that an error during execOnLoad will trigger the error callback.
* Uses setAllModuleInfoString rather than setAllModuleInfo.
*/
function testExecOnLoadErrorModuleInfoString() {
// Expect a callback to be called with callback type ERROR, the right module
// id and failure type INIT_ERROR.
var errorCallback = goog.testing.createFunctionMock('callback');
errorCallback(
goog.module.ModuleManager.CallbackType.ERROR, 'b',
goog.module.ModuleManager.FailureType.INIT_ERROR);
errorCallback.$replay();
var mm = new goog.module.ModuleManager();
mm.setLoader(createSuccessfulNonBatchLoader(mm));
// Register the first callback before setting the module info map.
mm.registerCallback(
goog.module.ModuleManager.CallbackType.ERROR, errorCallback);
mm.setAllModuleInfoString('a/b/c');
var execOnLoadBCalled = false;
mm.execOnLoad('b', function() {
execOnLoadBCalled = true;
throw new Error();
});
assertThrows(function() { clock.tick(5); });
assertTrue(
'execOnLoad should have been called on module b.', execOnLoadBCalled);
errorCallback.$verify();
}
/**
* Make sure ModuleInfo objects in moduleInfoMap_ get disposed.
*/
function testDispose() {
var mm = getModuleManager({'a': [], 'b': [], 'c': []});
var moduleInfoA = mm.getModuleInfo('a');
assertNotNull(moduleInfoA);
var moduleInfoB = mm.getModuleInfo('b');
assertNotNull(moduleInfoB);
var moduleInfoC = mm.getModuleInfo('c');
assertNotNull(moduleInfoC);
mm.dispose();
assertTrue(moduleInfoA.isDisposed());
assertTrue(moduleInfoB.isDisposed());
assertTrue(moduleInfoC.isDisposed());
}
function testDependencyOrderingWithSimpleDeps() {
var mm = getModuleManager({
'a': ['b', 'c'],
'b': ['d'],
'c': ['e', 'f'],
'd': [],
'e': [],
'f': []
});
var ids = mm.getNotYetLoadedTransitiveDepIds_('a');
assertDependencyOrder(ids, mm);
assertArrayEquals(['d', 'e', 'f', 'b', 'c', 'a'], ids);
}
function testDependencyOrderingWithCommonDepsInDeps() {
// Tests to make sure that if dependencies of the root are loaded before
// their common dependencies.
var mm = getModuleManager({'a': ['b', 'c'], 'b': ['d'], 'c': ['d'], 'd': []});
var ids = mm.getNotYetLoadedTransitiveDepIds_('a');
assertDependencyOrder(ids, mm);
assertArrayEquals(['d', 'b', 'c', 'a'], ids);
}
function testDependencyOrderingWithCommonDepsInRoot1() {
// Tests the case where a dependency of the root depends on another
// dependency of the root. Regardless of ordering in the root's
// deps.
var mm = getModuleManager({'a': ['b', 'c'], 'b': ['c'], 'c': []});
var ids = mm.getNotYetLoadedTransitiveDepIds_('a');
assertDependencyOrder(ids, mm);
assertArrayEquals(['c', 'b', 'a'], ids);
}
function testDependencyOrderingWithCommonDepsInRoot2() {
// Tests the case where a dependency of the root depends on another
// dependency of the root. Regardless of ordering in the root's
// deps.
var mm = getModuleManager({'a': ['b', 'c'], 'b': [], 'c': ['b']});
var ids = mm.getNotYetLoadedTransitiveDepIds_('a');
assertDependencyOrder(ids, mm);
assertArrayEquals(['b', 'c', 'a'], ids);
}
function testDependencyOrderingWithGmailExample() {
// Real dependency graph taken from gmail.
var mm = getModuleManager({
's': ['dp', 'ml', 'md'],
'dp': ['a'],
'ml': ['ld', 'm'],
'ld': ['a'],
'm': ['ad', 'mh', 'n'],
'md': ['mh', 'ld'],
'a': [],
'mh': [],
'ad': [],
'n': []
});
mm.setLoaded('a');
mm.setLoaded('m');
mm.setLoaded('n');
mm.setLoaded('ad');
mm.setLoaded('mh');
var ids = mm.getNotYetLoadedTransitiveDepIds_('s');
assertDependencyOrder(ids, mm);
assertArrayEquals(['ld', 'dp', 'ml', 'md', 's'], ids);
}
function assertDependencyOrder(list, mm) {
var seen = {};
for (var i = 0; i < list.length; i++) {
var id = list[i];
seen[id] = true;
var deps = mm.getModuleInfo(id).getDependencies();
for (var j = 0; j < deps.length; j++) {
var dep = deps[j];
assertTrue(
'Unresolved dependency [' + dep + '] for [' + id + '].',
seen[dep] || mm.getModuleInfo(dep).isLoaded());
}
}
}
function testRegisterInitializationCallback() {
var initCalled = 0;
var mm = getModuleManager({'a': [], 'b': [], 'c': []});
mm.setLoader(
createSuccessfulNonBatchLoaderWithRegisterInitCallback(
mm, function() { ++initCalled; }));
execOnLoad_(mm);
// execOnLoad_ loads modules a and c
assertTrue(initCalled == 2);
}
function createSuccessfulNonBatchLoaderWithRegisterInitCallback(moduleMgr, fn) {
return {
loadModules: function(
ids, moduleInfoMap, opt_successFn, opt_errFn, opt_timeoutFn) {
moduleMgr.beforeLoadModuleCode(ids[0]);
moduleMgr.registerInitializationCallback(fn);
setTimeout(function() {
moduleMgr.setLoaded(ids[0]);
moduleMgr.afterLoadModuleCode(ids[0]);
if (opt_successFn) {
opt_successFn();
}
}, 5);
}
};
}
function testSetModuleConstructor() {
var initCalled = 0;
var mm = getModuleManager({'a': [], 'b': [], 'c': []});
var info = {
'a': {ctor: AModule, count: 0},
'b': {ctor: BModule, count: 0},
'c': {ctor: CModule, count: 0}
};
function AModule() {
++info['a'].count;
goog.module.BaseModule.call(this);
}
goog.inherits(AModule, goog.module.BaseModule);
function BModule() {
++info['b'].count;
goog.module.BaseModule.call(this);
}
goog.inherits(BModule, goog.module.BaseModule);
function CModule() {
++info['c'].count;
goog.module.BaseModule.call(this);
}
goog.inherits(CModule, goog.module.BaseModule);
mm.setLoader(createSuccessfulNonBatchLoaderWithConstructor(mm, info));
execOnLoad_(mm);
assertTrue(info['a'].count == 1);
assertTrue(info['b'].count == 0);
assertTrue(info['c'].count == 1);
assertTrue(mm.getModuleInfo('a').getModule() instanceof AModule);
assertTrue(mm.getModuleInfo('c').getModule() instanceof CModule);
}
/**
* Tests that a call to load the loading module during module initialization
* doesn't trigger a second load.
*/
function testLoadWhenInitializing() {
var mm = getModuleManager({'a': []});
mm.setLoader(createSuccessfulNonBatchLoader(mm));
var info = {'a': {ctor: AModule, count: 0}};
function AModule() {
++info['a'].count;
goog.module.BaseModule.call(this);
}
goog.inherits(AModule, goog.module.BaseModule);
AModule.prototype.initialize = function() { mm.load('a'); };
mm.setLoader(createSuccessfulNonBatchLoaderWithConstructor(mm, info));
mm.preloadModule('a');
clock.tick(5);
assertEquals(info['a'].count, 1);
}
function testErrorInEarlyCallback() {
var errback = goog.testing.recordFunction();
var callback = goog.testing.recordFunction();
var mm = getModuleManager({'a': [], 'b': ['a']});
mm.getModuleInfo('a').registerEarlyCallback(goog.functions.error('error'));
mm.getModuleInfo('a').registerCallback(callback);
mm.getModuleInfo('a').registerErrback(errback);
mm.setLoader(
createSuccessfulNonBatchLoaderWithConstructor(
mm, createModulesFor('a', 'b')));
mm.preloadModule('b');
var e = assertThrows(function() { clock.tick(5); });
assertEquals('error', e.message);
assertEquals(0, callback.getCallCount());
assertEquals(1, errback.getCallCount());
assertEquals(
goog.module.ModuleManager.FailureType.INIT_ERROR,
errback.getLastCall().getArguments()[0]);
assertTrue(mm.getModuleInfo('a').isLoaded());
assertFalse(mm.getModuleInfo('b').isLoaded());
clock.tick(5);
assertTrue(mm.getModuleInfo('b').isLoaded());
}
function testErrorInNormalCallback() {
var earlyCallback = goog.testing.recordFunction();
var errback = goog.testing.recordFunction();
var mm = getModuleManager({'a': [], 'b': ['a']});
mm.getModuleInfo('a').registerEarlyCallback(earlyCallback);
mm.getModuleInfo('a').registerEarlyCallback(goog.functions.error('error'));
mm.getModuleInfo('a').registerErrback(errback);
mm.setLoader(
createSuccessfulNonBatchLoaderWithConstructor(
mm, createModulesFor('a', 'b')));
mm.preloadModule('b');
var e = assertThrows(function() { clock.tick(10); });
clock.tick(10);
assertEquals('error', e.message);
assertEquals(1, errback.getCallCount());
assertEquals(
goog.module.ModuleManager.FailureType.INIT_ERROR,
errback.getLastCall().getArguments()[0]);
assertTrue(mm.getModuleInfo('a').isLoaded());
assertTrue(mm.getModuleInfo('b').isLoaded());
}
function testErrorInErrback() {
var mm = getModuleManager({'a': [], 'b': ['a']});
mm.getModuleInfo('a').registerCallback(goog.functions.error('error1'));
mm.getModuleInfo('a').registerErrback(goog.functions.error('error2'));
mm.setLoader(
createSuccessfulNonBatchLoaderWithConstructor(
mm, createModulesFor('a', 'b')));
mm.preloadModule('a');
var e = assertThrows(function() { clock.tick(10); });
assertEquals('error1', e.message);
var e = assertThrows(function() { clock.tick(10); });
assertEquals('error2', e.message);
assertTrue(mm.getModuleInfo('a').isLoaded());
}
function createModulesFor(var_args) {
var result = {};
for (var i = 0; i < arguments.length; i++) {
var key = arguments[i];
result[key] = {ctor: goog.module.BaseModule};
}
return result;
}
function createSuccessfulNonBatchLoaderWithConstructor(moduleMgr, info) {
return {
loadModules: function(
ids, moduleInfoMap, opt_successFn, opt_errFn, opt_timeoutFn) {
setTimeout(function() {
moduleMgr.beforeLoadModuleCode(ids[0]);
moduleMgr.setModuleConstructor(info[ids[0]].ctor);
moduleMgr.setLoaded(ids[0]);
moduleMgr.afterLoadModuleCode(ids[0]);
if (opt_successFn) {
opt_successFn();
}
}, 5);
}
};
}
function testInitCallbackInBaseModule() {
var mm = new goog.module.ModuleManager();
var called = false;
var context;
mm.registerInitializationCallback(function(mcontext) {
called = true;
context = mcontext;
});
mm.setAllModuleInfo({'a': [], 'b': ['a']});
assertTrue('Base initialization not called', called);
assertNull('Context should still be null', context);
var mm = new goog.module.ModuleManager();
called = false;
mm.registerInitializationCallback(function(mcontext) {
called = true;
context = mcontext;
});
var appContext = {};
mm.setModuleContext(appContext);
assertTrue('Base initialization not called after setModuleContext', called);
assertEquals('Did not receive module context', appContext, context);
}
function testSetAllModuleInfoString() {
var info = 'base/one:0/two:0/three:0,1,2/four:0,3/five:';
var mm = new goog.module.ModuleManager();
mm.setAllModuleInfoString(info);
assertNotNull('Base should exist', mm.getModuleInfo('base'));
assertNotNull('One should exist', mm.getModuleInfo('one'));
assertNotNull('Two should exist', mm.getModuleInfo('two'));
assertNotNull('Three should exist', mm.getModuleInfo('three'));
assertNotNull('Four should exist', mm.getModuleInfo('four'));
assertNotNull('Five should exist', mm.getModuleInfo('five'));
assertArrayEquals(
['base', 'one', 'two'], mm.getModuleInfo('three').getDependencies());
assertArrayEquals(
['base', 'three'], mm.getModuleInfo('four').getDependencies());
assertArrayEquals([], mm.getModuleInfo('five').getDependencies());
}
function testSetAllModuleInfoStringWithEmptyString() {
var mm = new goog.module.ModuleManager();
var called = false;
var context;
mm.registerInitializationCallback(function(mcontext) {
called = true;
context = mcontext;
});
mm.setAllModuleInfoString('');
assertTrue('Initialization not called', called);
}
function testBackOffAmounts() {
var mm = new goog.module.ModuleManager();
assertEquals(0, mm.getBackOff_());
mm.consecutiveFailures_++;
assertEquals(5000, mm.getBackOff_());
mm.consecutiveFailures_++;
assertEquals(20000, mm.getBackOff_());
}
/**
* Tests that the IDLE callbacks are executed for active->idle transitions
* after setAllModuleInfoString with currently loading modules.
*/
function testIdleCallbackWithInitialModules() {
var callback = goog.testing.recordFunction();
var mm = new goog.module.ModuleManager();
mm.setAllModuleInfoString('a', ['a']);
mm.registerCallback(goog.module.ModuleManager.CallbackType.IDLE, callback);
assertTrue(mm.isActive());
mm.beforeLoadModuleCode('a');
assertEquals(0, callback.getCallCount());
mm.setLoaded('a');
mm.afterLoadModuleCode('a');
assertFalse(mm.isActive());
assertEquals(1, callback.getCallCount());
}
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