Version: 3.3.0
XML Based Resource System (XRC)

The XML-based resource system, known as XRC, allows user interface elements such as dialogs, menu bars and toolbars, to be stored in text files and loaded into the application at run-time.

XRC files can also be compiled into binary XRS files or C++ code (the former makes it possible to store all resources in a single file and the latter is useful when you want to embed the resources into the executable).

There are several advantages to using XRC resources:

  • Recompiling and linking an application is not necessary if the resources change.
  • If you use a dialog designer that generates C++ code, it can be hard to reintegrate this into existing C++ code. Separation of resources and code is a more elegant solution.
  • You can choose between different alternative resource files at run time, if necessary.
  • The XRC format uses sizers for flexibility, allowing dialogs to be resizable and highly portable.
  • The XRC format is a wxWidgets standard, and can be generated or postprocessed by any program that understands it. As it is based on the XML standard, existing XML editors can be used for simple editing purposes.

XRC was written by Vaclav Slavik.

See also
wxXmlResource, wxXmlResourceHandler, XRC File Format

Getting Started with XRC

Creating an XRC file

You will need to write an XRC file. Though this can be done by hand in a text editor, for all but the smallest files it is advisable to use a specialised tool. Examples of these include:

Non-free:

Free:

There's a more complete list at https://wiki.wxwidgets.org/Tools

This small demonstration XRC file contains a simple dialog:

<?xml version="1.0" ?>
<resource version="2.3.0.1">
<object class="wxDialog" name="SimpleDialog">
<title>Simple dialog</title>
<object class="wxBoxSizer">
<orient>wxVERTICAL</orient>
<object class="sizeritem">
<object class="wxTextCtrl" name="text"/>
<option>1</option>
<flag>wxALL|wxEXPAND</flag>
<border>10</border>
</object>
<object class="sizeritem">
<object class="wxBoxSizer">
<object class="sizeritem">
<object class="wxButton" name="clickme_btn">
<label>Click</label>
</object>
<flag>wxRIGHT</flag>
<border>10</border>
</object>
<object class="sizeritem">
<object class="wxButton" name="wxID_OK">
<label>OK</label>
</object>
<flag>wxLEFT</flag>
<border>10</border>
</object>
<orient>wxHORIZONTAL</orient>
</object>
<flag>wxALL|wxALIGN_CENTRE</flag>
<border>10</border>
</object>
</object>
</object>
</resource>
@ wxVERTICAL
Definition: defs.h:28
@ wxHORIZONTAL
Definition: defs.h:27
@ wxEXPAND
Definition: defs.h:115
@ wxALIGN_CENTRE
Definition: defs.h:89
@ wxALL
Definition: defs.h:57
@ wxRIGHT
Definition: defs.h:45
@ wxLEFT
Definition: defs.h:44

You can keep all your XRC elements together in one file, or split them between several.

Loading XRC files

Before you can use XRC in an app, it must first be loaded. This code fragment shows how to load a single XRC file "resource.xrc" from the current working directory, plus all the *.xrc files contained in the subdirectory "rc".

#include "wx/xrc/xmlres.h"
bool MyApp::OnInit()
{
...
wxXmlResource::Get()->Load("resource.xrc");
...
}
void InitAllHandlers()
Initializes handlers for all supported controls/windows.
bool LoadAllFiles(const wxString &dirname)
Loads all .xrc files from directory dirname.
bool Load(const wxString &filemask)
Loads resources from XML files that match given filemask.
static wxXmlResource * Get()
Gets the global resources object or creates one if none exists.

It's normal to load any XRC files at the beginning of an app. Though it is possible to unload a file later, it's seldom necessary.

Using an XRC item

The XRC file(s) are now loaded into the app's virtual filesystem. From there, you must do another sort of load when you want to use an individual object. Yes, it's confusingly named, but you first Load() the file, and later load each top-level object when its needed.

This is how you would use the above simple dialog in your code.

void MyClass::ShowDialog()
{
wxDialog dlg;
if (wxXmlResource::Get()->LoadDialog(&dlg, nullptr, "SimpleDialog"))
dlg.ShowModal();
}
A dialog box is a window with a title bar and sometimes a system menu, which can be moved around the ...
Definition: dialog.h:159
virtual int ShowModal()
Shows an application-modal dialog.

See how simple the code is. All the instantiation is done invisibly by the XRC system.

Though you'll most often use wxXmlResource::LoadDialog, there are also equivalents that load a frame, a menu etc; and the generic wxXmlResource::LoadObject. See wxXmlResource for more details.

Accessing XRC child controls

The last section showed how to load top-level windows like dialogs, but what about child windows like the wxTextCtrl named "text" that the dialog contains? You can't 'load' an individual child control in the same way. Instead you use the XRCCTRL macro to get a pointer to the child. To expand the previous code:

void MyClass::ShowDialog()
{
wxDialog dlg;
if (!wxXmlResource::Get()->LoadDialog(&dlg, nullptr, "SimpleDialog"))
return;
wxTextCtrl* pText = XRCCTRL(dlg, "text", wxTextCtrl);
if (pText)
pText->ChangeValue("This is a simple dialog");
dlg.ShowModal();
}
A text control allows text to be displayed and edited.
Definition: textctrl.h:1442
virtual void ChangeValue(const wxString &value)
Sets the new text control value.

XRCCTRL takes a reference to the parent container and uses wxWindow::FindWindow to search inside it for a wxWindow with the supplied name (here "text"). It returns a pointer to that control, cast to the type in the third parameter; so a similar effect could be obtained by writing:

pText = (wxTextCtrl*)(dlg.FindWindowByName("text"));
static wxWindow * FindWindowByName(const wxString &name, const wxWindow *parent=0)
Find a window by its name (as given in a window constructor or Create() function call).

XRC and IDs

The ID of a control is often needed, e.g. for use in an event table or with wxEvtHandler::Bind. It can easily be found by passing the name of the control to the XRCID macro:

void MyClass::ShowDialog()
{
wxDialog dlg;
if (!wxXmlResource::Get()->LoadDialog(&dlg, nullptr, "SimpleDialog"))
return;
XRCCTRL(dlg, "text", wxTextCtrl)->Bind(wxEVT_TEXT,
wxTextEventHandler(MyClass::OnTextEntered), this, XRCID("text"));
XRCCTRL(dlg, "clickme_btn", wxButton)->Bind(wxEVT_BUTTON,
wxCommandEventHandler(MyClass::OnClickme), this, XRCID("clickme_btn"));
dlg.ShowModal();
}
A button is a control that contains a text string, and is one of the most common elements of a GUI.
Definition: button.h:103
void Bind(const EventTag &eventType, Functor functor, int id=wxID_ANY, int lastId=wxID_ANY, wxObject *userData=nullptr)
Binds the given function, functor or method dynamically with the event.
wxEventType wxEVT_BUTTON
Definition: event.h:5148
wxEventType wxEVT_TEXT
Definition: textctrl.h:2009

A few points to note:

  • The value of the int returned by XRCID("foo") is guaranteed to be unique within an app.
  • However that value isn't predictable, and you shouldn't rely on it being consistent between runs. It certainly won't be the same in different apps.
  • Stock Items such as wxID_OK work correctly without requiring XRCID (because, internally, XRCID("wxID_OK") is mapped to wxID_OK).
  • Both XRCID and XRCCTRL use the 'name' of the control (as in wxWindow::GetName). This is different from the label that the user sees on e.g. a wxButton.

Subclassing in XRC

You will often want to use subclassed wx controls in your code. There are three ways to do this from XRC:

Suppose you wanted the wxTextCtrl named "text" to be created as your derived class MyTextCtrl. The only change needed in the XRC file would be in this line:

<object class="wxTextCtrl" name="text" subclass="MyTextCtrl"/>

The only change in your code would be to use MyTextCtrl in XRCCTRL. However for the subclass to be created successfully, it's important to ensure that it uses wxWidget's RTTI mechanism: see Subclassing for the details.

The XRC sample

A major resource for learning how to use XRC is the XRC Sample. This demonstrates all of the standard uses of XRC, and some of the less common ones. It is strongly suggested that you run it, and look at the well-commented source code to see how it works.

Binary Resource Files

To compile binary resource files, use the command-line wxrc utility. It takes one or more file parameters (the input XRC files) and the following switches and options:

  • -h (--help): Show a help message.
  • -v (--verbose): Show verbose logging information.
  • -c (--cpp-code): Write C++ source rather than a XRS file.
  • -e (--extra-cpp-code): If used together with -c, generates C++ header file containing class definitions for the windows defined by the XRC file (see special subsection).
  • -u (--uncompressed): Do not compress XML files (C++ only).
  • -g (--gettext): Output underscore-wrapped strings that poEdit or gettext can scan. Outputs to stdout, or a file if -o is used.
  • -n (--function) <name>: Specify C++ function name (use with -c).
  • -o (--output) <filename>: Specify the output file, such as resource.xrs or resource.cpp.
  • -l (--list-of-handlers) <filename>: Output a list of necessary handlers to this file.

For example:

$ wxrc resource.xrc
$ wxrc resource.xrc -o resource.xrs
$ wxrc resource.xrc -v -c -o resource.cpp
Note
XRS file is essentially a renamed ZIP archive which means that you can manipulate it with standard ZIP tools. Note that if you are using XRS files, you have to initialize the wxFileSystem archive handler first! It is a simple thing to do:
#include <wx/filesys.h>
#include <wx/fs_arc.h>
...
wxFileSystem::AddHandler(new wxArchiveFSHandler);
A file system handler for accessing files inside of archives.
Definition: fs_arc.h:15

Using Embedded Resources

It is sometimes useful to embed resources in the executable itself instead of loading an external file (e.g. when your app is small and consists only of one exe file). XRC provides means to convert resources into regular C++ file that can be compiled and included in the executable.

Use the -c switch to wxrc utility to produce C++ file with embedded resources. This file will contain a function called InitXmlResource (unless you override this with a command line switch). Use it to load the resource:

extern void InitXmlResource(); // defined in generated file
...
wxXmlResource::Get()->InitAllHandlers();
InitXmlResource();
...

C++ header file generation

Using the -e switch together with -c, a C++ header file is written containing class definitions for the GUI windows defined in the XRC file. This code generation can make it easier to use XRC and automate program development. The classes can be used as basis for development, freeing the programmer from dealing with most of the XRC specifics (e.g. XRCCTRL).

For each top level window defined in the XRC file a C++ class definition is generated, containing as class members the named widgets of the window. A default constructor for each class is also generated. Inside the constructor all XRC loading is done and all class members representing widgets are initialized.

A simple example will help understand how the scheme works. Suppose you have a XRC file defining a top level window TestWnd_Base, which subclasses wxFrame (any other class like wxDialog will do also), and has subwidgets wxTextCtrl A and wxButton B.

The XRC file and corresponding class definition in the header file will be something like:

<?xml version="1.0"?>
<resource version="2.3.0.1">
<object class="wxFrame" name="TestWnd_Base">
<size>-1,-1</size>
<title>Test</title>
<object class="wxBoxSizer">
<orient>wxHORIZONTAL</orient>
<object class="sizeritem">
<object class="wxTextCtrl" name="A">
<label>Test label</label>
</object>
</object>
<object class="sizeritem">
<object class="wxButton" name="B">
<label>Test button</label>
</object>
</object>
</object>
</object>
</resource>
class TestWnd_Base : public wxFrame
{
protected:
private:
void InitWidgetsFromXRC()
{
wxXmlResource::Get()->LoadObject(this, nullptr, "TestWnd", "wxFrame");
A = XRCCTRL(*this, "A", wxTextCtrl);
B = XRCCTRL(*this, "B", wxButton);
}
public:
TestWnd::TestWnd()
{
InitWidgetsFromXRC();
}
};
A frame is a window whose size and position can (usually) be changed by the user.
Definition: frame.h:166
wxObject * LoadObject(wxWindow *parent, const wxString &name, const wxString &classname)
Load an object from the resource specifying both the resource name and the class name.

The generated window class can be used as basis for the full window class. The class members which represent widgets may be accessed by name instead of using XRCCTRL every time you wish to reference them (note that they are protected class members), though you must still use XRCID to refer to widget IDs in the event table.

Example:

#include "resource.h"
class TestWnd : public TestWnd_Base
{
public:
TestWnd()
{
// A, B already initialised at this point
A->SetValue("Updated in TestWnd::TestWnd");
B->SetValue("Nice :)");
}
void OnBPressed(wxEvent& event)
{
Close();
}
};
wxBEGIN_EVENT_TABLE(TestWnd,TestWnd_Base)
EVT_BUTTON(XRCID("B"), TestWnd::OnBPressed)
An event is a structure holding information about an event passed to a callback or member function.
Definition: event.h:93
virtual void SetValue(const wxString &value)
Sets the new text control value.
#define wxEND_EVENT_TABLE()
Use this macro in a source file to end listing static event handlers for a specific class.
Definition: event.h:5112
#define wxBEGIN_EVENT_TABLE(theClass, baseClass)
Use this macro in a source file to start listing static event handlers for a specific class.
Definition: event.h:5102
#define wxDECLARE_EVENT_TABLE()
Use this macro inside a class declaration to declare a static event table for that class.
Definition: event.h:5092

It is also possible to access the wxSizerItem of a sizer that is part of a resource. This can be done using XRCSIZERITEM as shown.

The resource file can have something like this for a sizer item.

<object class="spacer" name="area">
<size>400, 300</size>
</object>

The code can then access the sizer item by using XRCSIZERITEM and XRCID together.

wxSizerItem* item = XRCSIZERITEM(*this, "area");
The wxSizerItem class is used to track the position, size and other attributes of each item managed b...
Definition: sizer.h:1088

Adding New Resource Handlers

Adding a new resource handler is pretty easy.

Typically, to add an handler for the MyControl class, you'll want to create the xh_mycontrol.h and xh_mycontrol.cpp files.

The header needs to contains the MyControlXmlHandler class definition:

class MyControlXmlHandler : public wxXmlResourceHandler
{
public:
// Constructor.
MyControlXmlHandler();
// Creates the control and returns a pointer to it.
// Returns true if we know how to create a control for the given node.
virtual bool CanHandle(wxXmlNode *node);
// Register with wxWidgets' dynamic class subsystem.
wxDECLARE_DYNAMIC_CLASS(MyControlXmlHandler);
};
This is the root class of many of the wxWidgets classes.
Definition: object.h:233
Represents a node in an XML document.
Definition: xml.h:71
wxSizerXmlHandler is a class for resource handlers capable of creating a wxSizer object from an XML n...
Definition: xmlres.h:530
virtual wxObject * DoCreateResource()=0
Called from CreateResource after variables were filled.
virtual bool CanHandle(wxXmlNode *node)=0
Returns true if it understands this node and can create a resource from it, false otherwise.
#define wxDECLARE_DYNAMIC_CLASS(className)
Used inside a class declaration to make the class known to wxWidgets RTTI system and also declare tha...
Definition: object.h:730

The implementation of your custom XML handler will typically look as:

// Register with wxWidgets' dynamic class subsystem.
MyControlXmlHandler::MyControlXmlHandler()
{
// this call adds support for all wxWidgets class styles
// (e.g. wxBORDER_SIMPLE, wxBORDER_SUNKEN, wxWS_EX_* etc etc)
AddWindowStyles();
// if MyControl class supports e.g. MYCONTROL_DEFAULT_STYLE
// you should use:
// XRC_ADD_STYLE(MYCONTROL_DEFAULT_STYLE);
}
wxObject *MyControlXmlHandler::DoCreateResource()
{
// the following macro will init a pointer named "control"
// with a new instance of the MyControl class, but will NOT
// Create() it!
XRC_MAKE_INSTANCE(control, MyControl)
// this is the point where you'll typically need to do the most
// important changes: here the control is created and initialized.
// You'll want to use the wxXmlResourceHandler's getters to
// do most of your work.
// If e.g. the MyControl::Create function looks like:
//
// bool MyControl::Create(wxWindow *parent, int id,
// const wxBitmap &first, const wxPoint &posFirst,
// const wxBitmap &second, const wxPoint &posSecond,
// const wxString &theTitle, const wxFont &titleFont,
// const wxPoint &pos, const wxSize &size,
// long style = MYCONTROL_DEFAULT_STYLE,
// const wxString &name = "MyControl");
//
// Then the XRC for your component should look like:
//
// <object class="MyControl" name="some_name">
// <first-bitmap>first.xpm</first-bitmap>
// <second-bitmap>text.xpm</second-bitmap>
// <first-pos>3,3</first-pos>
// <second-pos>4,4</second-pos>
// <the-title>a title</the-title>
// <title-font>
// <!-- Standard XRC tags for a font: <size>, <style>, <weight>, etc -->
// </title-font>
// <!-- XRC also accepts other usual tags for wxWindow-derived classes:
// like e.g. <name>, <style>, <size>, <position>, etc -->
// </object>
//
// And the code to read your custom tags from the XRC file is just:
control->Create(m_parentAsWindow, GetID(),
GetBitmap("first-bitmap"),
GetPosition("first-pos"),
GetBitmap("second-bitmap"),
GetPosition("second-pos"),
GetText("the-title"),
GetFont("title-font"),
GetPosition(), GetSize(), GetStyle(), GetName());
SetupWindow(control);
return control;
}
bool MyControlXmlHandler::CanHandle(wxXmlNode *node)
{
// this function tells XRC system that this handler can parse
// the <object class="MyControl"> tags
return IsOfClass(node, "MyControl");
}
#define wxIMPLEMENT_DYNAMIC_CLASS(className, baseClassName)
Used in a C++ implementation file to complete the declaration of a class that has run-time type infor...
Definition: object.h:788

You may want to check the wxXmlResourceHandler documentation to see how many built-in getters it contains. It's very easy to retrieve also complex structures out of XRC files using them.