QJSEngine#
The QJSEngine
class provides an environment for evaluating JavaScript code. More…
Inherited by: QQmlEngine, QQmlApplicationEngine
Synopsis#
Properties#
uiLanguage
- The language to be used for translating user interface strings
Functions#
def
catchError
()def
collectGarbage
()def
evaluate
(program[, fileName=””[, lineNumber=1[, exceptionStackTrace=None]]])def
globalObject
()def
hasError
()def
importModule
(fileName)def
installExtensions
(extensions[, object=QJSValue()])def
isInterrupted
()def
newArray
([length=0])def
newErrorObject
(errorType[, message=””])def
newObject
()def
newQMetaObject
(metaObject)def
newQObject
(object)def
newSymbol
(name)def
registerModule
(moduleName, value)def
setInterrupted
(interrupted)def
setUiLanguage
(language)def
throwError
(errorType[, message=””])def
throwError
(error)def
throwError
(message)def
toScriptValue
(arg__1)def
uiLanguage
()
Signals#
def
uiLanguageChanged
()
Static functions#
def
objectOwnership
(arg__1)def
setObjectOwnership
(arg__1, arg__2)
Note
This documentation may contain snippets that were automatically translated from C++ to Python. We always welcome contributions to the snippet translation. If you see an issue with the translation, you can also let us know by creating a ticket on https:/bugreports.qt.io/projects/PYSIDE
Detailed Description#
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
Evaluating Scripts#
Use evaluate()
to evaluate script code.
myEngine = QJSEngine() three = myEngine.evaluate("1 + 2")
evaluate()
returns a QJSValue
that holds the result of the evaluation. The QJSValue
class provides functions for converting the result to various C++ types (e.g. toString()
and toNumber()
).
The following code snippet shows how a script function can be defined and then invoked from C++ using call()
:
QJSValue fun = myEngine.evaluate("(function(a, b) { return a + b; })") args = QJSValueList() args << 1 << 2 threeAgain = fun.call(args)
As can be seen from the above snippets, a script is provided to the engine in the form of a string. One common way of loading scripts is by reading the contents of a file and passing it to evaluate()
:
fileName = "helloworld.qs" scriptFile = QFile(fileName) if not scriptFile.open(QIODevice.ReadOnly): # handle error stream = QTextStream(scriptFile) contents = stream.readAll() scriptFile.close() myEngine.evaluate(contents, fileName)
Here we pass the name of the file as the second argument to evaluate()
. This does not affect evaluation in any way; the second argument is a general-purpose string that is stored in the Error
object for debugging purposes.
For larger pieces of functionality, you may want to encapsulate your code and data into modules. A module is a file that contains script code, variables, etc., and uses export statements to describe its interface towards the rest of the application. With the help of import statements, a module can refer to functionality from other modules. This allows building a scripted application from smaller connected building blocks in a safe way. In contrast, the approach of using evaluate()
carries the risk that internal variables or functions from one evaluate()
call accidentally pollute the global object and affect subsequent evaluations.
The following example provides a module that can add numbers:
export function sum(left, right) { return left + right }
This module can be loaded with QJSEngine::import() if it is saved under the name math.mjs
:
QJSvalue module = myEngine.importModule("./math.mjs"); QJSValue sumFunction = module.property("sum"); QJSValue result = sumFunction.call(args);
Modules can also use functionality from other modules using import statements:
import { sum } from "./math.mjs"; export function addTwice(left, right) { return sum(left, right) * 2; }
Modules don’t have to be files. They can be values registered with registerModule()
:
import version from "version"; export function getVersion() { return version; }QJSValue version(610); myEngine.registerModule("version", version); QJSValue module = myEngine.importModule("./myprint.mjs"); QJSValue getVersion = module.property("getVersion"); QJSValue result = getVersion.call();
Named exports are supported, but because they are treated as members of an object, the default export must be an ECMAScript object. Most of the newXYZ functions in QJSValue
will return an object.
QJSValue name("Qt6"); QJSValue obj = myEngine.newObject(); obj.setProperty("name", name); myEngine.registerModule("info", obj);import { name } from "info"; export function getName() { return name; }
Engine Configuration#
The globalObject()
function returns the Global Object associated with the script engine. Properties of the Global Object are accessible from any script code (i.e. they are global variables). Typically, before evaluating “user” scripts, you will want to configure a script engine by adding one or more properties to the Global Object:
myEngine.globalObject().setProperty("myNumber", 123) ... myNumberPlusOne = myEngine.evaluate("myNumber + 1")
Adding custom properties to the scripting environment is one of the standard means of providing a scripting API that is specific to your application. Usually these custom properties are objects created by the newQObject()
or newObject()
functions.
Script Exceptions#
evaluate()
can throw a script exception (e.g. due to a syntax error). If it does, then evaluate()
returns the value that was thrown (typically an Error
object). Use isError()
to check for exceptions.
For detailed information about the error, use toString()
to obtain an error message, and use property()
to query the properties of the Error
object. The following properties are available:
name
message
fileName
lineNumber
stack
result = myEngine.evaluate(...) if result.isError(): print( cout) << "Uncaught exception at line" << result.property("lineNumber").toInt() << ":" << result.toString()
Script Object Creation#
Use newObject()
to create a JavaScript object; this is the C++ equivalent of the script statement new Object()
. You can use the object-specific functionality in QJSValue
to manipulate the script object (e.g. setProperty()
). Similarly, use newArray()
to create a JavaScript array object.
QObject Integration#
Use newQObject()
to wrap a QObject (or subclass) pointer. newQObject()
returns a proxy script object; properties, children, and signals and slots of the QObject are available as properties of the proxy object. No binding code is needed because it is done dynamically using the Qt meta object system.
button = QPushButton() scriptButton = myEngine.newQObject(button) myEngine.globalObject().setProperty("button", scriptButton) myEngine.evaluate("button.checkable = True") print(scriptButton.property("checkable").toBool()) scriptButton.property("show").call() # call the show() slot
Use newQMetaObject()
to wrap a QMetaObject; this gives you a “script representation” of a QObject-based class. newQMetaObject()
returns a proxy script object; enum values of the class are available as properties of the proxy object.
Constructors exposed to the meta-object system (using Q_INVOKABLE) can be called from the script to create a new QObject instance with JavaScriptOwnership
. For example, given the following class definition:
class MyObject(QObject): Q_OBJECT # public Q_INVOKABLE MyObject() {}
The staticMetaObject
for the class can be exposed to JavaScript like so:
jsMetaObject = engine.newQMetaObject(MyObject::staticMetaObject) engine.globalObject().setProperty("MyObject", jsMetaObject)
Instances of the class can then be created in JavaScript:
engine.evaluate("var myObject = MyObject()")
Note
Currently only classes using the Q_OBJECT macro are supported; it is not possible to expose the staticMetaObject
of a Q_GADGET class to JavaScript.
Dynamic QObject Properties#
Dynamic QObject properties are not supported. For example, the following code will not work:
engine = QJSEngine() myQObject = QObject() myQObject.setProperty("dynamicProperty", 3) myScriptQObject = engine.newQObject(myQObject) engine.globalObject().setProperty("myObject", myScriptQObject) print(engine.evaluate("myObject.dynamicProperty").toInt())
Extensions#
QJSEngine
provides a compliant ECMAScript implementation. By default, familiar utilities like logging are not available, but they can be installed via the installExtensions()
function.
- class PySide6.QtQml.QJSEngine#
PySide6.QtQml.QJSEngine(parent)
- Parameters:
parent –
PySide6.QtCore.QObject
Constructs a QJSEngine
object.
The globalObject()
is initialized to have properties as described in ECMA-262 , Section 15.1.
Constructs a QJSEngine
object with the given parent
.
The globalObject()
is initialized to have properties as described in ECMA-262 , Section 15.1.
Note
Properties can be used directly when from __feature__ import true_property
is used or via accessor functions otherwise.
- property PᅟySide6.QtQml.QJSEngine.uiLanguage: str#
This property holds the language to be used for translating user interface strings.
This property holds the name of the language to be used for user interface string translations. It is exposed for reading and writing as Qt.uiLanguage
when the TranslationExtension
is installed on the engine. It is always exposed in instances of QQmlEngine
.
You can set the value freely and use it in bindings. It is recommended to set it after installing translators in your application. By convention, an empty string means no translation from the language used in the source code is intended to occur.
- Access functions:
uiLanguage
()setUiLanguage
(language)Signal
uiLanguageChanged
()
- PySide6.QtQml.QJSEngine.ObjectOwnership#
ObjectOwnership controls whether or not the JavaScript memory manager automatically destroys the QObject when the corresponding JavaScript object is garbage collected by the engine. The two ownership options are:
Constant
Description
QJSEngine.CppOwnership
The object is owned by C++ code and the JavaScript memory manager will never delete it. The JavaScript destroy() method cannot be used on these objects. This option is similar to QScriptEngine::QtOwnership.
QJSEngine.JavaScriptOwnership
The object is owned by JavaScript. When the object is returned to the JavaScript memory manager as the return value of a method call, the JavaScript memory manager will track it and delete it if there are no remaining JavaScript references to it and it has no QObject::parent(). An object tracked by one
QJSEngine
will be deleted during thatQJSEngine
‘s destructor. Thus, JavaScript references between objects with JavaScriptOwnership from two different engines will not be valid if one of these engines is deleted. This option is similar to QScriptEngine::ScriptOwnership.
Generally an application doesn’t need to set an object’s ownership explicitly. The JavaScript memory manager uses a heuristic to set the default ownership. By default, an object that is created by the JavaScript memory manager has JavaScriptOwnership. The exception to this are the root objects created by calling create()
or beginCreate()
, which have CppOwnership by default. The ownership of these root-level objects is considered to have been transferred to the C++ caller.
Objects not-created by the JavaScript memory manager have CppOwnership by default. The exception to this are objects returned from C++ method calls; their ownership will be set to JavaScriptOwnership. This applies only to explicit invocations of Q_INVOKABLE methods or slots, but not to property getter invocations.
Calling setObjectOwnership()
overrides the default ownership.
See also
Data Ownership
- PySide6.QtQml.QJSEngine.Extension#
(inherits enum.Flag
) This enum is used to specify extensions to be installed via installExtensions()
.
Constant
Description
QJSEngine.TranslationExtension
Indicates that translation functions (
qsTr()
, for example) should be installed. This also installs the Qt.uiLanguage
property.QJSEngine.ConsoleExtension
Indicates that console functions (
console.log()
, for example) should be installed.QJSEngine.GarbageCollectionExtension
Indicates that garbage collection functions (
gc()
, for example) should be installed.QJSEngine.AllExtensions
Indicates that all extension should be installed.
TranslationExtension
The relation between script translation functions and C++ translation functions is described in the following table:
Script Function
Corresponding C++ Function
qsTr()
QObject::tr()
QT_TR_NOOP()
QT_TR_NOOP()
qsTranslate()
QCoreApplication::translate()
QT_TRANSLATE_NOOP()
QT_TRANSLATE_NOOP()
qsTrId()
qtTrId()
QT_TRID_NOOP()
QT_TRID_NOOP()
This flag also adds an arg()
function to the string prototype.
For more information, see the Internationalization with Qt documentation.
ConsoleExtension
The console object implements a subset of the Console API , which provides familiar logging functions, such as console.log()
.
The list of functions added is as follows:
console.assert()
console.debug()
console.exception()
console.info()
console.log()
(equivalent toconsole.debug()
)
console.error()
console.time()
console.timeEnd()
console.trace()
console.count()
console.warn()
print()
(equivalent toconsole.debug()
)
For more information, see the Console API documentation.
GarbageCollectionExtension
The gc()
function is equivalent to calling collectGarbage()
.
- PySide6.QtQml.QJSEngine.catchError()#
- Return type:
If an exception is currently pending, catches it and returns it as a QJSValue
. Otherwise returns undefined as QJSValue
. After calling this method hasError()
returns false
.
- PySide6.QtQml.QJSEngine.collectGarbage()#
Runs the garbage collector.
The garbage collector will attempt to reclaim memory by locating and disposing of objects that are no longer reachable in the script environment.
Normally you don’t need to call this function; the garbage collector will automatically be invoked when the QJSEngine
decides that it’s wise to do so (i.e. when a certain number of new objects have been created). However, you can call this function to explicitly request that garbage collection should be performed as soon as possible.
- PySide6.QtQml.QJSEngine.evaluate(program[, fileName=""[, lineNumber=1[, exceptionStackTrace=None]]])#
- Parameters:
program – str
fileName – str
lineNumber – int
exceptionStackTrace – list of strings
- Return type:
Evaluates program
, using lineNumber
as the base line number, and returns the result of the evaluation.
The script code will be evaluated in the context of the global object.
Note
If you need to evaluate inside a QML context, use QQmlExpression
instead.
The evaluation of program
can cause an exception
in the engine; in this case the return value will be the exception that was thrown (typically an Error
object; see isError()
).
lineNumber
is used to specify a starting line number for program
; line number information reported by the engine that pertains to this evaluation will be based on this argument. For example, if program
consists of two lines of code, and the statement on the second line causes a script exception, the exception line number would be lineNumber
plus one. When no starting line number is specified, line numbers will be 1-based.
fileName
is used for error reporting. For example, in error objects the file name is accessible through the “fileName” property if it is provided with this function.
exceptionStackTrace
is used to report whether an uncaught exception was thrown. If you pass a non-null pointer to a QStringList to it, it will set it to list of “stackframe messages” if the script threw an unhandled exception, or an empty list otherwise. A stackframe message has the format function name:line number:column:file name
Note
In some cases, e.g. for native functions, function name and file name can be empty and line number and column can be -1.
Note
If an exception was thrown and the exception value is not an Error instance (i.e., isError()
returns false
), the exception value will still be returned. Use exceptionStackTrace->isEmpty()
to distinguish whether the value was a normal or an exceptional return value.
See also
- PySide6.QtQml.QJSEngine.globalObject()#
- Return type:
Returns this engine’s Global Object.
By default, the Global Object contains the built-in objects that are part of ECMA-262 , such as Math, Date and String. Additionally, you can set properties of the Global Object to make your own extensions available to all script code. Non-local variables in script code will be created as properties of the Global Object, as well as local variables in global code.
- PySide6.QtQml.QJSEngine.hasError()#
- Return type:
bool
Returns true
if the last JavaScript execution resulted in an exception or if throwError()
was called. Otherwise returns false
. Mind that evaluate()
catches any exceptions thrown in the evaluated code.
- PySide6.QtQml.QJSEngine.importModule(fileName)#
- Parameters:
fileName – str
- Return type:
Imports the module located at fileName
and returns a module namespace object that contains all exported variables, constants and functions as properties.
If this is the first time the module is imported in the engine, the file is loaded from the specified location in either the local file system or the Qt resource system and evaluated as an ECMAScript module. The file is expected to be encoded in UTF-8 text.
Subsequent imports of the same module will return the previously imported instance. Modules are singletons and remain around until the engine is destroyed.
The specified fileName
will internally be normalized using QFileInfo::canonicalFilePath(). That means that multiple imports of the same file on disk using different relative paths will load the file only once.
Note
If an exception is thrown during the loading of the module, the return value will be the exception (typically an Error
object; see isError()
).
See also
- PySide6.QtQml.QJSEngine.installExtensions(extensions[, object=QJSValue()])#
- Parameters:
extensions – Combination of
QJSEngine.Extension
object –
PySide6.QtQml.QJSValue
Installs JavaScript extensions
to add functionality that is not available in a standard ECMAScript implementation.
The extensions are installed on the given object
, or on the Global Object
if no object is specified.
Several extensions can be installed at once by OR
-ing the enum values:
installExtensions(QJSEngine::TranslationExtension | QJSEngine::ConsoleExtension);See also
Extension
- PySide6.QtQml.QJSEngine.isInterrupted()#
- Return type:
bool
Returns whether JavaScript execution is currently interrupted.
See also
- PySide6.QtQml.QJSEngine.newArray([length=0])#
- Parameters:
length – int
- Return type:
Creates a JavaScript object of class Array with the given length
.
See also
- PySide6.QtQml.QJSEngine.newErrorObject(errorType[, message=""])#
- Parameters:
errorType –
ErrorType
message – str
- Return type:
Creates a JavaScript object of class Error, with message
as the error message.
The prototype of the created object will be errorType
.
See also
- PySide6.QtQml.QJSEngine.newObject()#
- Return type:
Creates a JavaScript object of class Object.
The prototype of the created object will be the Object prototype object.
See also
- PySide6.QtQml.QJSEngine.newQMetaObject(metaObject)#
- Parameters:
metaObject –
PySide6.QtCore.QMetaObject
- Return type:
Creates a JavaScript object that wraps the given QMetaObject The metaObject
must outlive the script engine. It is recommended to only use this method with static metaobjects.
When called as a constructor, a new instance of the class will be created. Only constructors exposed by Q_INVOKABLE will be visible from the script engine.
See also
newQObject()
QObject Integration
- PySide6.QtQml.QJSEngine.newQObject(object)#
- Parameters:
object –
PySide6.QtCore.QObject
- Return type:
Creates a JavaScript object that wraps the given QObject object
, using JavaScriptOwnership
.
Signals and slots, properties and children of object
are available as properties of the created QJSValue
.
If object
is a null pointer, this function returns a null value.
If a default prototype has been registered for the object
's class (or its superclass, recursively), the prototype of the new script object will be set to be that default prototype.
If the given object
is deleted outside of the engine’s control, any attempt to access the deleted QObject’s members through the JavaScript wrapper object (either by script code or C++) will result in a script exception
.
See also
- PySide6.QtQml.QJSEngine.newSymbol(name)#
- Parameters:
name – str
- Return type:
Creates a JavaScript object of class Symbol, with value name
.
The prototype of the created object will be the Symbol prototype object.
See also
- static PySide6.QtQml.QJSEngine.objectOwnership(arg__1)#
- Parameters:
arg__1 –
PySide6.QtCore.QObject
- Return type:
Returns the ownership of object
.
See also
setObjectOwnership()
ObjectOwnership
- PySide6.QtQml.QJSEngine.registerModule(moduleName, value)#
- Parameters:
moduleName – str
value –
PySide6.QtQml.QJSValue
- Return type:
bool
Registers a QJSValue
to serve as a module. After this function is called, all modules that import moduleName
will import the value of value
instead of loading moduleName
from the filesystem.
Any valid QJSValue
can be registered, but named exports (i.e. import { name } from "info"
are treated as members of an object, so the default export must be created with one of the newXYZ methods of QJSEngine
.
Because this allows modules that do not exist on the filesystem to be imported, scripting applications can use this to provide built-in modules, similar to Node.js.
Returns true
on success, false
otherwise.
Note
The QJSValue
value
is not called or read until it is used by another module. This means that there is no code to evaluate, so no errors will be seen until another module throws an exception while trying to load this module.
Warning
Attempting to access a named export from a QJSValue
that is not an object will trigger a exception
.
See also
- PySide6.QtQml.QJSEngine.setInterrupted(interrupted)#
- Parameters:
interrupted – bool
Interrupts or re-enables JavaScript execution.
If interrupted
is true
, any JavaScript executed by this engine immediately aborts and returns an error object until this function is called again with a value of false
for interrupted
.
This function is thread safe. You may call it from a different thread in order to interrupt, for example, an infinite loop in JavaScript.
See also
- static PySide6.QtQml.QJSEngine.setObjectOwnership(arg__1, arg__2)#
- Parameters:
arg__1 –
PySide6.QtCore.QObject
arg__2 –
ObjectOwnership
Sets the ownership
of object
.
An object with JavaScriptOwnership
is not garbage collected as long as it still has a parent, even if there are no references to it.
See also
objectOwnership()
ObjectOwnership
- PySide6.QtQml.QJSEngine.setUiLanguage(language)#
- Parameters:
language – str
See also
Setter of property uiLanguage
.
- PySide6.QtQml.QJSEngine.throwError(errorType[, message=""])#
- Parameters:
errorType –
ErrorType
message – str
This function overloads throwError()
.
Throws a run-time error (exception) with the given errorType
and message
.
// Assuming that DataEntry is a QObject-derived class that has been // registered as a singleton type and provides an invokable method // setAge(). void DataEntry::setAge(int age) { if (age < 0 || age > 200) { jsEngine->throwError(QJSValue::RangeError, "Age must be between 0 and 200"); } ... }See also
Script Exceptions
newErrorObject()
- PySide6.QtQml.QJSEngine.throwError(error)
- Parameters:
error –
PySide6.QtQml.QJSValue
This function overloads throwError()
.
Throws a pre-constructed run-time error
(exception). This way you can use newErrorObject()
to create the error and customize it as necessary.
See also
Script Exceptions
newErrorObject()
- PySide6.QtQml.QJSEngine.throwError(message)
- Parameters:
message – str
Throws a run-time error (exception) with the given message
.
This method is the C++ counterpart of a throw()
expression in JavaScript. It enables C++ code to report run-time errors to QJSEngine
. Therefore it should only be called from C++ code that was invoked by a JavaScript function through QJSEngine
.
When returning from C++, the engine will interrupt the normal flow of execution and call the next pre-registered exception handler with an error object that contains the given message
. The error object will point to the location of the top-most context on the JavaScript caller stack; specifically, it will have properties lineNumber
, fileName
and stack
. These properties are described in Script Exceptions
.
In the following example a C++ method in FileAccess.cpp throws an error in qmlFile.qml at the position where readFileAsText()
is called:
// qmlFile.qml function someFunction() { ... var text = FileAccess.readFileAsText("/path/to/file.txt"); }// FileAccess.cpp // Assuming that FileAccess is a QObject-derived class that has been // registered as a singleton type and provides an invokable method // readFileAsText() QJSValue FileAccess::readFileAsText(const QString & filePath) { QFile file(filePath); if (!file.open(QIODevice::ReadOnly)) { jsEngine->throwError(file.errorString()); return QString(); } ... return content; }
It is also possible to catch the thrown error in JavaScript:
// qmlFile.qml function someFunction() { ... var text; try { text = FileAccess.readFileAsText("/path/to/file.txt"); } catch (error) { console.warn("In " + error.fileName + ":" + "error.lineNumber" + ": " + error.message); } }
If you need a more specific run-time error to describe an exception, you can use the ErrorType errorType, const QString &message)
overload.
See also
Script Exceptions
- PySide6.QtQml.QJSEngine.toScriptValue(arg__1)#
- Parameters:
arg__1 – object
- Return type:
- PySide6.QtQml.QJSEngine.uiLanguage()#
- Return type:
str
See also
Getter of property uiLanguage
.
- PySide6.QtQml.QJSEngine.uiLanguageChanged()#
Notification signal of property uiLanguage
.