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Please review the following information to ensure ** the GNU Free Documentation License version 1.3 requirements ** will be met: https://www.gnu.org/licenses/fdl-1.3.html. ** $QT_END_LICENSE$ ** ****************************************************************************/ /*! \page qtqml-javascript-hostenvironment.html \title JavaScript Host Environment \brief Description of the JavaScript host environment provided by the QML engine QML provides a JavaScript host environment tailored to writing QML applications. This environment is different from the host environment provided by a browser or a server-side JavaScript environment such as Node.js. For example, QML does not provide a \c window object or \c{DOM API} as commonly found in a browser environment. \section1 Common Base Like a browser or server-side JavaScript environment, the QML runtime implements the \l{ECMA-262}{ECMAScript Language Specification} standard. This provides access to all of the built-in types and functions defined by the standard, such as Object, Array, and Math. The QML runtime implements the 7th edition of the standard. The standard ECMAScript built-ins are not explicitly documented in the QML documentation. For more information on their use, please refer to the ECMA-262 7th edition standard or one of the many online JavaScript reference and tutorial sites, such as the \l{W3Schools JavaScript Reference} (JavaScript Objects Reference section). Many sites focus on JavaScript in the browser, so in some cases you may need to double check the specification to determine whether a given function or object is part of standard ECMAScript or specific to the browser environment. In the case of the W3Schools link above, the \c{JavaScript Objects Reference} section generally covers the standard, while the \c{Browser Objects Reference} and \c{HTML DOM Objects Reference} sections are browser specific (and thus not applicable to QML). \section1 QML Global Object The QML JavaScript host environment implements a number of host objects and functions, as detailed in the \l{QML Global Object} documentation. These host objects and functions are always available, regardless of whether any modules have been imported. \section1 JavaScript Objects and Functions A list of the JavaScript objects, functions and properties supported by the QML engine can be found in the \l{List of JavaScript Objects and Functions}. Note that QML makes the following modifications to native objects: \list \li An \l {String::arg}{arg()} function is added to the \l String prototype. \li Locale-aware conversion functions are added to the \l Date and \l Number prototypes. \endlist In addition, QML also extends the behavior of the instanceof function to allow for type checking against QML types. This means that you may use it to verify that a variable is indeed the type you expect, for example: \qml var v = something(); if (!v instanceof Item) { throw new TypeError("I need an Item type!"); } ... \endqml \section1 JavaScript Environment Restrictions QML implements the following restrictions for JavaScript code: \list \li JavaScript code written in a \c .qml file cannot modify the global object. JavaScript code in a .js file can modify the global object, and those modifications will be visible to the .qml file when \l {Importing a JavaScript Resource from a QML Document}{imported}. In QML, the global object is constant - existing properties cannot be modified or deleted, and no new properties may be created. Most JavaScript programs do not intentionally modify the global object. However, JavaScript's automatic creation of undeclared variables is an implicit modification of the global object, and is prohibited in QML. Assuming that the \c a variable does not exist in the scope chain, the following code is illegal in QML: \code // Illegal modification of undeclared variable a = 1; for (var ii = 1; ii < 10; ++ii) a = a * ii; console.log("Result: " + a); \endcode It can be trivially modified to this legal code. \code var a = 1; for (var ii = 1; ii < 10; ++ii) a = a * ii; console.log("Result: " + a); \endcode Any attempt to modify the global object - either implicitly or explicitly - will cause an exception. If uncaught, this will result in a warning being printed, that includes the file and line number of the offending code. \li Global code is run in a reduced scope. During startup, if a QML file includes an external JavaScript file with "global" code, it is executed in a scope that contains only the external file itself and the global object. That is, it will not have access to the QML objects and properties it \l {Scope and Naming Resolution}{normally would}. Global code that only accesses script local variables is permitted. This is an example of valid global code. \code var colors = [ "red", "blue", "green", "orange", "purple" ]; \endcode Global code that accesses QML objects will not run correctly. \code // Invalid global code - the "rootObject" variable is undefined var initialPosition = { rootObject.x, rootObject.y } \endcode This restriction exists as the QML environment is not yet fully established. To run code after the environment setup has completed, see \l {JavaScript in Application Startup Code}. \li The value of \c this is undefined in QML in the majority of contexts. The \c this keyword is supported when binding properties from JavaScript. In QML binding expressions, QML signal handlers, and QML declared functions, \c this refers to the scope object. In all other situations, the value of \c this is undefined in QML. To refer to a specific object, provide an \c id. For example: \qml Item { width: 200; height: 100 function mouseAreaClicked(area) { console.log("Clicked in area at: " + area.x + ", " + area.y); } // This will pass area to the function MouseArea { id: area y: 50; height: 50; width: 200 onClicked: mouseAreaClicked(area) } } \endqml \sa {Scope and Naming Resolution} \endlist */