XPCOMUtils.jsm
は JS コンポーネントローダによって読み込まれる JavaScript コンポーネントのためのユーティリティを含んだモジュールです。
To use this, you first need to import the code module into your JavaScript scope:
Components.utils.import("resource://gre/modules/XPCOMUtils.jsm");
Using XPCOMUtils
Exposing a JavaScript class as a component using these utility methods requires four key steps:
- Import
XPCOMUtils.jsm
, as explained previously. - Declare the class (or multiple classes) implementing the component(s).
- Create an array of component constructors.
- Define the
NSGetFactory()
orNSGetModule()
entry point.
Pseudocode
This section provides some pseudocode that demonstrates how to put together a JavaScript class based on the steps listed above.
Constructor
The constructor is a simple method that handles any required initialization tasks.
function MyComponent() {
// initialize the component here
}
Class declaration
Declare the class prototype, using a form similar to this.
MyComponent.prototype = {
// properties required for XPCOM registration:
classDescription: "unique text description",
classID: Components.ID("{xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx}"),
contractID: "@example.com/xxx;1",
// [optional] custom factory (an object implementing nsIFactory). If not
// provided, the default factory is used, which returns
// |(new MyComponent()).QueryInterface(iid)| in its createInstance().
_xpcom_factory: { ... },
// [optional] an array of categories to register this component in.
_xpcom_categories: [{
// Each object in the array specifies the parameters to pass to
// nsICategoryManager.addCategoryEntry(). 'true' is passed for
// both aPersist and aReplace params.
category: "some-category",
// optional, defaults to the object's classDescription
entry: "entry name",
// optional, defaults to the object's contractID (unless
// 'service' is specified)
value: "...",
// optional, defaults to false. When set to true, and only if 'value'
// is not specified, the concatenation of the string "service," and the
// object's contractID is passed as aValue parameter of addCategoryEntry.
service: true,
// optional array of applications' IDs in the form:
// [ "{xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx}", ... ]
// If this is defined, the component is registered in this
// category only on the specified applications.
apps: [ ... ]
}],
// QueryInterface implementation, e.g. using the generateQI helper
QueryInterface: XPCOMUtils.generateQI(
[Components.interfaces.nsIObserver,
Components.interfaces.nsIMyInterface,
"nsIFoo",
"nsIBar" ]),
// [optional] classInfo implementation, e.g. using the generateCI helper.
// Will be automatically returned from QueryInterface if that was
// generated with the generateQI helper.
classInfo: XPCOMUtils.generateCI(
{classID: Components.ID("{xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx}"),
contractID: "@example.com/xxx;1",
classDescription: "unique text description",
interfaces: [Components.interfaces.nsIObserver,
Components.interfaces.nsIMyInterface,
"nsIFoo",
"nsIBar"],
flags: Ci.nsIClassInfo.SINGLETON}),
// ...component implementation...
};
Note: The ability to register the component in a category only on specific applications by adding the apps field to a category entry was added in Gecko 2.0.
Notice that the QueryInterface()
method implemented by the component simply calls the generateQI()
method provided by the XPCOMUtils code module.
Create an array of component constructors
You need to create an array that lists the constructors for each component. This array can of course have just one entry:
var components = [MyComponent];
Here, we're calling the array components
.
Create the NSGetFactory() or NSGetModule() entry point
Finally, you need to implement the NSGetModule()
entry point so Gecko can start up your component:
// "components" is the array created in the previous section
if ("generateNSGetFactory" in XPCOMUtils)
var NSGetFactory = XPCOMUtils.generateNSGetFactory(components); // Gecko 2.0+
else
var NSGetModule = XPCOMUtils.generateNSGetModule(components); // Gecko 1.9.x
Method overview
function defineLazyGetter(aObject, aName, aLambda); |
function defineLazyModuleGetter(aObject, aName, aResource, [optional] aSymbol); |
function defineLazyServiceGetter(aObject, aName, aContract, aInterfaceName); |
nsIModule generateModule(componentsArray, postRegister, preUnregister); 廃止 Gecko 2.0 |
function generateNSGetFactory(componentsArray); |
function generateNSGetModule(componentsArray, postRegister, preUnregister); 廃止 Gecko 2.0 |
function generateCI(classInfo); |
function generateQI(interfaces); |
void importRelative(that, path, scope); |
generator IterSimpleEnumerator(enumerator, interface); |
generator IterStringEnumerator(enumerator); |
Attributes
Attribute | Type | Description |
categoryManager |
nsICategoryManager |
Returns a reference to nsICategoryManager . |
Methods
defineLazyGetter()
Getter functions in JavaScript give you a way to define a property of an object, but not calculate the property's value until it is accessed. A getter defers the cost of calculating the value until the value is needed, and if it is never needed, you never pay the cost.
A "lazy getter" provides an additional optimization: the value is calculated the first time the getter is called, and is then cached (or memoized), so subsequent accesses return the cached value without recalculating it.
This means that you shouldn't use a lazy getter for a property whose value you expect to change, because the getter will not recalculate the value.
defineLazyGetter
takes three arguments:
- the object to define the property on
- the name of the property defined
- the getter function itself, which returns the value and which will be called just once, the first time code tries to access the property.
Example for this is seen at bottom of this page here.
function defineLazyGetter(
aObject,
aName,
aLambda
);
Parameters
aObject
- The object into which to add the new lazy getter function.
aName
- The name of the getter function to create.
aLambda
- A function that returns the value the getter should return. This function is called exactly once.
this
will referenceaObject
during execution of the function.
defineLazyModuleGetter()
Defines a getter on a specified object for a module. The module will not be imported until first use.
function defineLazyModuleGetter(
aObject,
aName,
aResource,
aSymbol
);
Parameters
aObject
- The object to define the lazy getter on.
aName
- The name of the getter to define on
aObject
for the module. aResource
- The URL used to obtain the module.
aSymbol
- The name of the symbol exported by the module. This parameter is optional and defaults to
aName
.
defineLazyServiceGetter()
Defines a function on a specified object which acts as a getter for a service. The service isn't obtained until the first time it's used.
function defineLazyServiceGetter(
aObject,
aName,
aContract,
aInterfaceName
);
Parameters
aObject
- The object into which to add the new lazy service getter function.
aName
- The name of the getter function to create.
aContract
- The contract to use to obtain the service.
aInterfaceName
- The name of the interface to query the service to.
generateModule()
廃止 Gecko 2.0 (Firefox 4 / Thunderbird 3.3 / SeaMonkey 2.1)Generates a module implementation.
nsIModule generateModule(
componentsArray,
postRegister,
preUnregister
);
Parameters
componentsArray
- An array of component constructors.
postRegister
- An optional function that is called after the module is registered. See Post-registration callback.
preUnregister
- An optional function that's called before the module is unregistered. See Pre-unregistration callback.
Return value
An nsIModule
that implements the module.
generateNSGetFactory()
Generates the NSGetFactory()
function along with the factory definition.
Function generateNSGetFactory(
componentsArray
);
Parameters
componentsArray
- An array of component constructors.
Return value
A function that will return the factory for the components and can be assigned to NSGetFactory
global variable.
generateNSGetModule()
廃止 Gecko 2.0 (Firefox 4 / Thunderbird 3.3 / SeaMonkey 2.1)Generates the NSGetModule()
function along with the module definition. You can use this instead of generateModule()
to create both the module and the NSGetModule()
function at the same time.
nsIModule generateNSGetModule(
componentsArray,
postRegister,
preUnregister
);
Parameters
componentsArray
- An array of component constructors.
postRegister
- An optional function that is called after the module is registered. See Post-registration callback.
preUnregister
- An optional function that's called before the module is unregistered. See Pre-unregistration callback.
Return value
An nsIModule
that implements the module.
generateCI()
Generates an nsIClassInfo
implementation for a component. The returned object should be assigned to the classInfo
property of a JS object, the QueryInterface()
function generated by generateQI
will return it automatically then.
function generateCI(
classInfo
);
Parameters
- classInfo
- An object containing the optional properties
interfaces
,contractID
,classDescription
,classID
,flags
. This parameter should not be the component itself because that would cause a memory leak.
Return value
An nsIClassInfo
implementation returning the values of the properties from the classInfo
parameter in its various properties.
Exceptions thrown
This method throws an exception with the message "In generateCI, don't use a component for generating classInfo" if classInfo
parameter is an XPCOM component.
generateQI()
Generates a QueryInterface()
function implementation. You need to assign the returned function to the QueryInterface
property of a JavaScript object.
When the generated method is invoked on that object, it checks to see if the specified IID is listed in the array specified by the interfaces
parameter; if it is, this
(that is, the object itself) is returned. Otherwise, null
is returned.
function generateQI(
interfaces
);
Parameters
- interfaces
- An array of interfaces implemented by the component.
Return value
A QueryInterface()
function implementation.
Remarks
When you implement an interface that inherits from another one, you should generally list all the base interfaces explicitly, except for nsISupports
. For example, if your component implements nsIStreamConverter
:
MyComponent.prototype = {
QueryInterface: XPCOMUtils.generateQI([
Components.interfaces.nsIRequestObserver,
Components.interfaces.nsIStreamListener,
Components.interfaces.nsIStreamConverter,
]),
// ...methods...
}
importRelative()
Imports a JavaScript code module given the calling JavaScript code module's global object (you should specify this
) and a path relative to that module. This lets modules bundled in a package load one another without having to hard-code full paths.
void importRelative(
that,
path,
scope
);
Parameters
that
- The JavaScript Object of the calling JavaScript code module's global scope. You should simply pass
this
. path
- The relative path of the JavaScript code module to import.
scope
- An optional object to import into; if omitted, the object passed in for the
that
parameter is used.
Remarks
This lets an extension bundle its own JavaScript code modules within itself and have them load one another. For example, if an extension named "MyExtension" bundles foo.jsm
and bar.jsm
, and foo.jsm needs to load bar.jsm
, it can do so like this:
Components.utils.import("resource://gre/modules/XPCOMUtils.jsm");
XPCOMUtils.importRelative(this, "bar.jsm");
In other words: importRelative
will only work from other code modules (such as JSM files). It will NOT work from overlay scripts or bootstrap.js
or etc. Details can be found here: バグ 628669
IterSimpleEnumerator()
Wraps an nsISimpleEnumerator
instance into a JavaScript generator that can be easily iterated over.
generator IterSimpleEnumerator(
enumerator,
interface
);
Parameters
enumerator
- The
nsISimpleEnumerator
instance to iterate over. interface
- The expected interface for each element.
Return value
A generator yielding enumerated objects.
Example
const nsIFile = Components.interfaces.nsIFile;
for (var file in XPCOMUtils.IterSimpleEnumerator(dir.directoryEntries, nsIFile))
console.log(file.path);
IterStringEnumerator()
Wraps an nsIStringEnumerator
or nsIUTF8StringEnumerator
instance into a JavaScript generator that can be easily iterated over.
generator IterStringEnumerator(
enumerator
);
Parameters
enumerator
- The
nsIStringEnumerator
ornsIUTF8StringEnumerator
instance to iterate over.
Return value
A generator yielding enumerated strings.
Example
for (var section in XPCOMUtils.IterStringEnumerator(iniParser.getSections()))
console.log(section);
Post-registration callback
The post-registration callback called by generateModule()
should have the following signature:
postRegister(
nsIComponentManager compMgr,
nsIFile fileSpec,
componentsArray
);
Parameters
compMgr
- An
nsIComponentManager
instance to use for managing the component. fileSpec
- An
nsIFile
instance for... what? componentsArray
- An array of the components, as passed to
generateModule()
.
The function doesn't need to return a value.
Pre-unregistration callback
The pre-unregistration callback passed to generateModule()
should have the following signature:
preUnregister(
nsIComponentManager compMgr,
nsIFile fileSpec,
componentsArray
);
Parameters
compMgr
- The
nsIComponentManager
instance to use for managing the component. fileSpec
- An
nsIFile
instance for... what? componentsArray
- The array of components passed to
generateModule()
.
This function doesn't need to return a value.
Examples
defineLazyGetter
var myServices = {};
Cu.import('resource://gre/modules/XPCOMUtils.jsm');
//set it up
XPCOMUtils.defineLazyGetter(myServices, 'as', function () { return Cc['@mozilla.org/alerts-service;1'].getService(Ci.nsIAlertsService) });
//when you need to use it
myServices.as.showAlertNotification('chrome://branding/content/icon64.png', 'this was lazyloaded', 'this is a notification from myServices.as', null, null);