The Qt resource system is a platform-independent mechanism for shipping resource files in an application. Use it if your application always needs a certain set of files (like icons, translation files, images), and you don't want to use system-specific means to package and locate these resources.
Most commonly, the resource files are embedded into your application executable, or in libraries and plugins that are loaded by the application executable. Alternatively, the resource files can also be stored in an exernal resource file.
The resource system is based on tight cooperation between Qt's rcc resource compiler, the build system, and the Qt runtime API.
Note: Currently, the Qt resource system does not make use of any system-specific capabilities for handling resources, such as the ones on Windows, macOS, and iOS. This might change in a future Qt release.
The Resource Compiler (rcc) command line tool reads resource files and generates either a C++ or Python source file, or an .rcc
file.
The list of files and related metadata is passed to rcc
in the form of a Qt Resource Collection File.
By default, rcc will generate C++ source code that is then compiled as part of an executable or library. The -g python
option generates Python source code instead. The -binary
option generates a
binary archive that is by convention saved in an .rcc
file and can be loaded at runtime.
Note: While it is possible to run rcc
from the command line, this is typically best left to a build system. See also the sections about qmake and CMake below.
A .qrc
file is an XML document that enumerates local files to be included as runtime resources. It serves as input to rcc
.
Here's an example .qrc
file:
<RCC> <qresource prefix="/"> <file>images/copy.png</file> <file>images/cut.png</file> <file>images/new.png</file> <file>images/open.png</file> <file>images/paste.png</file> <file>images/save.png</file> </qresource> </RCC>
Each <file>
element in the XML identifies a file in the application's source tree. The path is resolved relative to the directory containing the .qrc
file.
The path is also used by default to identify the file's content at runtime. That is, the file copy.png
will be available in the resource system as :/images/copy.png
or
qrc:/images/copy.png
. To override this default run-time name, see Prefixes and Aliases.
Qt Creator, Qt Design Studio, Qt Designer, and Qt Visual Studio Tools allow you to create, inspect and edit .qrc
files through a convenient user interface. Except for Qt
Designer, they also provide wizards for projects using the Qt resource system.
The processing of resource files with rcc
is typically done at the time the application is built. Several build tools have dedicated support for this, including CMake and
qmake.
If CMAKE_AUTORCC
is enabled, you can just add .qrc
files as sources to your executable or library. The referenced resource files will then be embedded into the binary:
set(CMAKE_AUTORCC ON) qt_add_executable(my_app application.qrc main.cpp )
See CMake's AUTORCC documentation for more details about AUTORCC.
An alternative to AUTORCC is using Qt6Core's CMake function qt_add_resources, which gives more control over the creation of resources. For example, it allows you to specify the content
of the resource directly in the project file without writing a .qrc
file first:
qt_add_resources(my_app "app_images" PREFIX "/" FILES images/copy.png images/cut.png images/new.png images/open.png images/paste.png images/save.png )
Finally, qt_add_qml_module allows you to embed Qt Quick resources into the resource system of your application. The function is defined in the Qml
component of the
Qt6
CMake package.
qmake supports handing resources with the RESOURCES variable. If you add a .qrc
file path to the variable, the listed
resource files will be embedded into the generated library or executable:
RESOURCES = application.qrc
For simple applications, it is also possible to let qmake generate the .qrc
file for you, avoiding the need for an additional file to be maintained:
resources.files = \ images/copy.png \ images/cut.png \ images/new.png \ images/open.png \ images/paste.png \ images/save.png resources.prefix = / RESOURCES = resources
This creates a resource of several .png
files, that are addressable like this: ":/images/copy.png"
.
If the directory layout of the files you want to embed into the resource doesn't match the expectations of the application, you can specify resources.base
. base
is a path prefix that denotes the
root point of the file's alias. In the example above, if resources.base
is set to "images"
, then copy.png
is addressable as ":/copy.png"
.
Qt API that deals with iterating and reading files has built-in support for the Qt Resource System. You can pass a resource path instead of a local file path to QFile and QDir, but also for instance to the QIcon, QImage, and QPixmap constructors:
cutAct = new QAction(QIcon(":/images/cut.png"), tr("Cu&t"), this);
The :
prefix makes it explicit that "/images/cut.png" should be loaded from the Qt Resource System.
You can also reference the Qt resource system through a QUrl. Use the qrc
scheme in this case:
QQmlApplicationEngine engine; engine.load(QUrl("qrc:/myapp/main.qml"));
See the Application example for an actual application that uses Qt's resource system to store its icons.
A .qrc
file can set a prefix to be added to each local file name, given in a <file>
element, to get the name by which the file shall be known within the resource system.
Prefixes allow you to structure the resources, avoiding clashes between resource files added through different .qrc
files in different libraries or plugins.
Note: The /qt
and /qt-project.org
prefixes are reserved for documented use cases in Qt. The qt.conf file is for instance looked up in
:/qt/etc/qt.conf
or qrc:/qt/etc/qt.conf
.
Sometimes it is convenient to make a resource file available under a different path at runtime. .qrc
files allow this by setting an alias
attribute:
<file alias="cut-img.png">images/cut.png</file>
The file is from the application then only accessible as :/cut-img.png
or qrc:/cut-img.png
.
Some resources need to change based on the user's locale, such as translation files or icons. Resource Collection Files support this through a lang
attribute to the qresource
tag, specifying a suitable locale string. For example:
<qresource> <file>cut.jpg</file> </qresource> <qresource lang="fr"> <file alias="cut.jpg">cut_fr.jpg</file> </qresource>
If the user's locale is French (i.e., QLocale::system().language() is French), :/cut.jpg
or qrc:/cut.jpg
becomes a reference to the cut_fr.jpg
image. For other locales, cut.jpg
is used.
See the QLocale documentation for a description of the format to use for locale strings.
See QFileSelector for an additional mechanism to select locale-specific resources.
By default, rcc
embeds the resource files into executables in the form of C++ arrays. This can be problematic especially for large resources.
If the compiler takes too long, or even fails because of memory overflow, you can opt into a special mode where the resources are embedded as part of a two-step process. The C++ compiler only reserves enough space in the target executable or library for the resources. The actual embedding of the resource file's content and metadata is then done after the compilation and linking phase, through another rcc call.
For qmake, this is enabled by adding resources_big
to the CONFIG
variable:
CONFIG += resources_big
For CMake, you need to use the qt_add_big_resources function:
qt_add_big_resources(SOURCES application.qrc) target_sources(my_app PRIVATE ${SOURCES})
An alternative to embedding the resource files into the binary is to store them in a separate .rcc
file. rcc
allows this with the -binary
option. Such a .rcc
file must then
be loaded at runtime with QResource.
For example, a set of resource data specified in a .qrc
file can be compiled in the following way:
rcc -binary myresource.qrc -o myresource.rcc
In the application, this resource would be registered with code like this:
QResource::registerResource("/path/to/myresource.rcc");
If you use CMake, you can use the qt_add_binary_resources function to schedule the rcc
call above:
qt_add_binary_resources(resources application.qrc DESTINATION application.rcc) add_dependencies(my_app resources)
The resource collection file is converted to a Python module by using the resource compiler rcc:
rcc -g python application.qrc > application_rc.py
The module can then be imported in the application:
import application_rc.py
rcc
attempts to compress the content to optimize disk space usage in the final binaries. By default, it will perform a heuristic check to determine whether compressing is worth it and will store the content
uncompressed if it fails to sufficiently compress. To control the threshold, you can use the -threshold
option, which tells rcc
the percentage of the original file size that must be gained for it to
store the file in compressed form.
rcc -threshold 25 myresources.qrc
The default value is "70", indicating that the compressed file must be 70% smaller than the original (no more than 30% of the original file size).
It is possible to turn off compression if desired. This can be useful if your resources already contain a compressed format, such as .png
files, and you do not want to incur the CPU cost at build time to confirm
that it can't be compressed. Another reason is if disk usage is not a problem and the application would prefer to keep the content as clean memory pages at runtime. You do this by giving the -no-compress
command
line argument.
rcc -no-compress myresources.qrc
rcc
also gives you some control over the compression level and compression algorithm, for example:
rcc -compress 2 -compress-algo zlib myresources.qrc
It is also possible to use threshold
, compress
, and compress-algo
as attributes in a .qrc file
tag.
<qresource> <file compress="1" compress-algo="zstd">data.txt</file> </qresource>
The above will select the zstd
algorithm with compression level 1.
rcc
supports the following compression algorithms and compression levels:
best
: use the best algorithm among the ones below, at its highest compression level, to achieve the most compression at the expense of using a lot of CPU time during compilation. This value is useful in the
XML file to indicate a file should be most compressed, regardless of which algorithms rcc
supports.zstd
: use the Zstandard library to compress contents. Valid compression levels range from 1 to 19, 1 is least compression (least CPU time) and 19 is the most
compression (most CPU time). The default level is 14. A special value of 0 tells the zstd
library to choose an implementation-defined default.
zlib
: use the zlib library to compress contents. Valid compression levels range from 1 to 9, with 1 applying the least compression (least CPU time) and 9 the most compression
(most CPU time). The special value 0 means "no compression" and should not be used. The default is implementation-defined, but usually is level 6.
none
: no compression. This is the same as the -no-compress
option.Support for both Zstandard and zlib are optional. If a given library was not detected at compile time, attempting to pass -compress-algo
for that library will result in an error. The default compression
algorithm is zstd
if it is enabled, zlib
if not.
Resources embedded in C++ executable or library code are automatically registered to the Qt resource system in a constructor of an internal global variable. Since the global variables are initialized before main() runs, the resources are available when the program starts to run.
When embedding resources in static libraries, the C++ linker might remove the static variables that register the resources. If you embed resources in a static library, you therefore need to explicitly register your
resources by calling Q_INIT_RESOURCE() with the base name of the .qrc
file. For example:
MyClass::MyClass() : BaseClass() { Q_INIT_RESOURCE(resources); QFile file(":/myfile.dat"); ... }
You can also explicitly remove registered resources from the application, for instance when unloading a plugin. Use Q_CLEANUP_RESOURCE() for this.
Note: As the resource initializers generated by rcc are declared in the global namespace, your calls to Q_INIT_RESOURCE() and Q_CLEANUP_RESOURCE() need to be done outside any namespace.