Qt::QtWidgets ============= A Raku module and native wrapper providing an interface to the Qt5 GUI. ## CONTENT - 1\. DESCRIPTION - 2\. LIMITATIONS - 3\. IMPLEMENTED FUNCTIONALITIES - 4\. DOCUMENTATION - 4.1 Classes and methods - 4.2 Instantiation - 4.3 Calling a method - 4.4 Enums - 4.5 Signals and slots - 4.6 Connect - 4.7 Disconnect - 4.8 Emit a QtSignal - 4.9 Subclassing a Qt object - 5\. EXAMPLES - 5.1 clock_fixedSize.raku - 5.2 clock_resizable.raku - 5.3 2deg_eqn_solver.raku - 5.4 sketch_board.raku - 6\. TOOL - 7\. PREREQUISITES - 8\. INSTALLATION - 9\. SOURCE CODE - 10\. AUTHOR - 11\. COPYRIGHT AND LICENSE ## 1. DESCRIPTION This module defines Raku classes trying to mimic the Qt GUI C++ classes. Qt objects are created and used through the Raku classes with native calls. This is a work in progress and, currently, only a few classes and methods are defined. Nevertheless, this module is already usable (see paragraph 5 *EXAMPLES* below). ## 2. LIMITATIONS Currently, this module is only working with Linux. Although already usable, this interface is still limited to a few of the most basic objects of the Qt GUI. ## 3. IMPLEMENTED FUNCTIONALITIES The list of Qt classes and methods already ported is given in the file doc/Qt/QtWidgets/Classes.html included in the distribution. ## 4. DOCUMENTATION ### 4.1 Classes and methods The Raku API aims to be as close as possible to the C++ one. Classes defined by the Raku API implement the Qt C++ classes and the Raku methods have the same arguments as their related C++ methods. Therefore the Qt C++ documentation should apply to its Raku interface. This documentation is available here: . The Raku API hides the C++ passing mode of the parameters. Each class resides in its own compunit. So, before using a class, an **use** instruction have to be provided for the related module. For example, the following line: ``` use Qt::QtWidgets::QPushButton; ``` has to be issued before using any instruction related to a QPushButton. The script **guessuse** is provided to help writing the needed **use** instructions. See the paragraph 6 *TOOL* below. ### 4.2 Instantiation To instantiate a Qt class object from Raku, just use new with the same arguments than the C++ constructor. For example the C++ call of a QPushButton constructor is : `QPushButton * button = new QPushButton("some text");` the raku equivalent is: `my $button = QPushButton.new("some text");` ### 4.3 Calling a method Raku methods are called exactly as the original C++ method. The C++ code : `button->setDisable(true);` is translated to Raku as : `$button.setDisable(True);` ### 4.4 Enums Similarly the C++ enums have their Raku equivalent : the C++ code : `QPen * pen = new QPen(Qt::DashLine);` is translated to Raku as : `my $pen = QPen.new(Qt::DashLine);` ### 4.5 Signals and slots The signals and slots mechanism used by Qt allows unrelated objects to communicate. A C++ Qt object can have **slots** and/or **signals** if it inherits from the C++ class **QObject**. Similarly, a Raku object can have **QtSlots** and/or **QtSignals** if it inherits from the Raku class **QtObject**. The class **QtObject** and the related subroutines **connect** and **disconnect** are exported from the compunit **Qt::QtWidgets** and have to be imported with: `use Qt::QtWidgets;` A Raku Qt::QtWidgets **Qtslot** is an ordinary method defined with the trait **is QtSlot**. ``` class MyClass is Qt::QtWidgetsObject { ... # Some code method mySlot(...) is QtSlot { ... # Some code } ... # Some code } ``` As well, a Raku Qt::QtWidgets **Qtsignal** is a method defined with the trait **is QtSignal**. Its associated code will never be executed. So a stub should be used when defining the method. ``` class MyClass2 is Qt::QtWidgetsObject { ... # Some code method mySignal(...) is QtSignal { ... } ... # Some code } ``` ### 4.6 Connect The subroutine **connect** connects a QtSignal to a QtSlot (or to another QtSignal). `sub connect(QtObject $src, Str $signal, QtObject $dst, Str $slot)` The names of signal and slot are passed to connect in strings. The signal and slot must have compatible signatures. > TODO: explanations needed Example: ``` my $src = MyClass2.new; my $dst = MyClass.new; connect $src, "mySignal", $dst, "mySlot"; ``` ### 4.7 Disconnect The subroutine **disconnect** does the opposite of **connect**. `sub disconnect(QtObject $src, Str $signal, QtObject $dst, Str $slot)` Example: `disconnect $src, "mySignal", $dst, "mySlot";` ### 4.8 Emit a QtSignal In C++ Qt, the keyword **emit** is used to emit a signal. `emit mySignal(some_arg);` In Raku Qt::QtWidgets, you only have to execute the method to emit the associated **QtSignal**. `self.mySignal(some_arg);` ### 4.9 Subclassing a Qt object When programming with Qt and C++, some features can only be accessed by overriding a Qt C++ virtual method. A parallel mechanism is implemented in the Qt::QtWidgets module. Subclassing a Qt object needs three steps: - Define a Raku class inheriting the Qt class - Call the **subClass** method of the parent class from the BUILD or TWEAK submethod of the new class. - Override the virtual methods. The overriding method must have the same name and signature that the overrided method and doesn't need any specific syntax. The first and third steps are obvious. The second one is used to instantiate the C++ counterpart of the Raku class and to pass it the parameters its constructor needs. In this second step, the parent class whose the subClass method is called must be explicitely specified: `self.ParentClass::subClass($param, ...);` The following example shows how to subclass a QLabel and override its QMousePressEvent method. **Pure C++ version:** ``` C++ #include class MyLabel : public QLabel { public : MyLabel(const QString txt) : QLabel(txt) { } void mousePressEvent(QMouseEvent* event) { // Do something when the mouse is pressed on the label } }; ... // Instantiation of the label in the main function : MyLabel * label = new MyLabel("text on the label"); ``` **Raku version:** ``` Raku use Qt::QtWidgets; use Qt::QtWidgets::QLabel; use Qt::QtWidgets::QMouseEvent; class MyLabel is QLabel { has Str $.txt; submethod TWEAK { self.QLabel::subClass($!txt); } method mousePressEvent(QMouseEvent $event) { # Do something when the mouse is pressed on the label } } ... # Instantiation of the label in the main program : my $label = MyLabel.new(txt => "text on the label"); ``` ## 5. EXAMPLES ### 5.1 clock_fixedSize.raku A very simple clock displaying the current time. `raku examples/clock_fixedSize.raku` ### 5.2 clock_resizable.raku The same clock with a resizable window. `raku examples/clock_resizable.raku` ### 5.3 2deg_eqn_solver.raku A graphical interface to solve quadratic equations. `raku examples/2deg_eqn_solver.raku` ### 5.4 sketch_board.raku A small example showing how to draw with the mouse and how to get file names using QFileDialog methods. `raku examples/sketch_board.raku` ## 6. TOOL Ideally, inserting "use Qt::QtWidgets;" at the beginning of a script should be sufficient to import all the elements of the Qt::QtWidgets module. Unfortunately it's not the case and seems not to be possible with the current version of Raku (except by gathering all the classes of this API inside a single huge source file). Currently a specific **use** instruction is needed for each Qt class used in a script. That's why a tool named **guessuse** is provided to help the user to find what **use** instructions a given script needs. When called with the name of a raku file as argument, it writes out the list of **use** instructions related to **Qt::QtWidgets** needed by this script. For example, the command: ``` guessUse examples/sketch_board.raku ``` prints out the following lines: ``` use Qt::QtWidgets; use Qt::QtWidgets::QAction; use Qt::QtWidgets::QApplication; use Qt::QtWidgets::QBrush; use Qt::QtWidgets::QColor; use Qt::QtWidgets::QFileDialog; use Qt::QtWidgets::QHBoxLayout; use Qt::QtWidgets::QMenu; use Qt::QtWidgets::QMouseEvent; use Qt::QtWidgets::QPaintEvent; use Qt::QtWidgets::QPainter; use Qt::QtWidgets::QPen; use Qt::QtWidgets::QPushButton; use Qt::QtWidgets::QVBoxLayout; use Qt::QtWidgets::QWidget; use Qt::QtWidgets::Qt; ``` Beware that this tool, when scanning a source file, doesn't make any difference between code, comments and character strings and may very well print out "use" instruction for some unneeded compunit. **guessuse** resides in the the bin directory of the distribution and is installed by **zef** along with the **Qt::QtWidgets** module. ## 7. PREREQUISITES * Linux OS * Qt5 development package * C++ compiler This module has been tested with **Qt 5.9.4** and **gcc 5.5.0** and with **Qt 5.15.2** and **gcc 10.3.0**. Many other versions should be usable as well. ## 8. INSTALLATION `zef install Qt::QtWidgets` ## 9. SOURCE CODE The source code is available here: Given the large number of Qt Classes and methods, manually writing such a code is very tedious and error prone. That's why this source and its associated documentation have been automatically generated from the Qt C++ headers files coming with the Qt development package. The building tools are available here: ## 10. AUTHOR Yves Guillemot \<\> ## 11. COPYRIGHT AND LICENSE Copyright (C) 2021 Yves Guillemot This software is free: you can redistribute and/or modify it under the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This software is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see .