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QT – Introduction

QT – Introduction. C++ GUI Programming with Qt 4 Blanchette and Summerfield, Ch. 1 Miller, 2004. Overview. About UI programming systems, or toolkits View hierarchy, stroke drawing, pixel model, input handling, widgets They are all alike and all different A software layer

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QT – Introduction

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  1. QT – Introduction C++ GUI Programming with Qt 4 Blanchette and Summerfield, Ch. 1 Miller, 2004

  2. Overview • About UI programming systems, or toolkits • View hierarchy, stroke drawing, pixel model, input handling, widgets • They are all alike and all different • A software layer • Qt, as software layer “above” Windows api, provides a different view • Makes most day to day things easier • “Slots” and “signals” for event handling and inter-dialog communication • Widget styles • Window system native, or common across platforms • Qt ide and resources

  3. About UI Programming Systems • UI programming systems, or “toolkits”, consist of these elements • E.g., MS windows (below), Swing (AWT for Java), Motif (X-windows), Qt (cross-platform • Components (view hierarchy) • Windows and child windows • Stroke drawing package • GDI • Pixel model • Bitmaps • Input handling • Messages sent to a window procedure • Widgets • Buttons, menus, text boxes

  4. Examples • All programming systems have these basic elements

  5. Widgets • Widget: again, “window gadget” (Qt), etc. • Controls, interactors, gizmos, gadgets • At core of Qt programming paradigm • Reusable user interface components • Examples • Buttons, checkboxes, radio buttons • List boxes, combo boxes, drop-downs • Menus, toolbars • Scrollbars, splitters, zoomers • One-line text, multiline text, rich text • Trees, tables • Simple dialogs

  6. Widgets • Success (or unsuccess) story for user interface programming • Advantages • Reuse of development effort • Coding, testing, debugging, maintenance • Design, iteration and evaluation • External consistency • Disadvantages • Constrain designer’s thinking • Encourage menu & forms style, rather than richer direct manipulation style • May be used inappropriately • E.g., instructions in title bar • Is WIMP all there is? • Long record of mediocre (but not really bad) interfaces

  7. Widget Data • Data used in widgets • Embedded model • Application data must be copied into the widget • Changes must be copied out’ • Linked model • Or, data binding • Application provides model satisfying an interface • Enables “data-bound” widgets, e.g. a table showing thousands of database rows, or a combo box with thousands of choices

  8. UI Toolkits • Often built on top of other toolkits • Can provide cross-platform portability • May add more powerful features • E.g., X Windows • XLib provides view hierarchy, stroke drawing, input handling • Xlibnotprovide widgets • Toolkits do

  9. UI Toolkits - Qt • Cross-platform portability • Re-implements native system look and feel • Or, can have (program) internal consistency • Extends widget set, e.g., spin boxes • Qt provides C++, Java, and Python language bindings • Also, allows direct access to other swapi’s/layers, e.g., OpenGL • As well as, allows direct access to MS Windows API • But, is much more efficient to program in

  10. Qt is easy …in many ways • Remember this?

  11. Hello World 1: ~60 lines –WinMain HELLOWIN.C – Petzold --- (main just sets things up – quite a few things – very low level) #include <windows.h> LRESULT CALLBACK WndProc (HWND, UINT, WPARAM, LPARAM) ; int WINAPI WinMain (HINSTANCE hInstance, HINSTANCE hPrevInstance, PSTR szCmdLine, int iCmdShow) { static TCHAR szAppName[] = TEXT ("HelloWin") ; HWND hwnd ; MSG msg ; WNDCLASS wndclass ; wndclass.style = CS_HREDRAW | CS_VREDRAW ; wndclass.lpfnWndProc = WndProc ; wndclass.cbClsExtra = 0 ; wndclass.cbWndExtra = 0 ; wndclass.hInstance = hInstance ; wndclass.hIcon = LoadIcon (NULL, IDI_APPLICATION) ; wndclass.hCursor = LoadCursor (NULL, IDC_ARROW) ; wndclass.hbrBackground = (HBRUSH) GetStockObject (WHITE_BRUSH) ; wndclass.lpszMenuName = NULL ; wndclass.lpszClassName = szAppName ; if (!RegisterClass (&wndclass)) { MessageBox (NULL, TEXT ("This program requires Windows NT!"), szAppName, MB_ICONERROR) ; return 0 ; } (cont’d)

  12. Old Familiar WinMain (cont’d) hwnd = CreateWindow (szAppName, // window class name TEXT ("The Hello Program"), // window caption WS_OVERLAPPEDWINDOW, // window style CW_USEDEFAULT, // initial x position CW_USEDEFAULT, // initial y position CW_USEDEFAULT, // initial x size CW_USEDEFAULT, // initial y size NULL, // parent win handle NULL, // window menu handle hInstance, // prog inst handle NULL) ; // creation parameters ShowWindow (hwnd, iCmdShow) ; UpdateWindow (hwnd) ; while (GetMessage (&msg, NULL, 0, 0)) { TranslateMessage (&msg) ; DispatchMessage (&msg) ; } return msg.wParam ; }

  13. Hello World: WinProc, the Message Handler Note similarity to paradigm message handler of any event driven architecture: LRESULT CALLBACK WndProc (HWND hwnd, UINT message, WPARAM wParam, L… lParam) { HDC hdc ; PAINTSTRUCT ps ; RECT rect ; switch (message) { case WM_CREATE: PlaySound (TEXT("hellowin.wav"), NULL, SND_FILENAME | SND_ASYNC) ; return 0 ; case WM_PAINT: // “window redraws itself!” hdc = BeginPaint (hwnd, &ps) ; GetClientRect (hwnd, &rect) ; DrawText (hdc, TEXT ("Hello, Windows 98!"), -1, &rect, DT_SINGLELINE | DT_CENTER | DT_VCENTER) ; EndPaint (hwnd, &ps) ; return 0 ; case WM_DESTROY: PostQuitMessage (0) ; return 0 ; } return DefWindowProc (hwnd, message, wParam, lParam) ; // DefWindProc handles all message not handled in WndProc }

  14. LOTS of “Windows functions” Calls Windows Function Calls HELLOWIN - 18 Windows functions:LoadIcon Loads an icon for use by a program. • LoadCursor Loads a mouse cursor for use by a program. • GetStockObjectObtains a graphic object, in this case a brush used for painting the window's background. • RegisterClass Registers a window class for the program's window. • MessageBox Displays a message box. • CreateWindow Creates a window based on a window class. • ShowWindow Shows the window on the screen. • UpdateWindow Directs the window to paint itself. • GetMessage Obtains a message from the message queue. • TranslateMessage Translates some keyboard messages. • DispatchMessage Sends a message to a window procedure. • PlaySound Plays a sound file. • BeginPaint Initiates the beginning of window painting. • GetClientRect Obtains the dimensions of the window's client area. • DrawText Displays a text string. • EndPaint Ends window painting. • PostQuitMessage Inserts a "quit" message into the message queue. • DefWindowProc Performs default processing of messages.

  15. Hello, Qt!

  16. Hello, Qt!9 lines! #include <QApplication> #include <QLabel> int main(int argc, char *argv[]) { QApplication app(argc, argv); QLabel *label = new QLabel("Hello Qt!"); label->show(); return app.exec(); } • A bit for dramatic effect, but there will be advantages • Just a label in a field with no real “main window” • Will look at some basics tonight • Slots and signals (vs. event queues), and layouts (this is a GUI builder),

  17. Hello, Qt!the details #include <QApplication> // Definitions of QApplication and #include <QLabel> // QLabel classes // Qt is truly object-oriented int main(int argc, char *argv[]) { QApplication app(argc, argv); // Creates a QApplication object to // manage app-wide resources QLabel *label = new QLabel("Hello Qt!"); // Creates a QApplication widget (used as // a window) that displays string label->show(); // Make label (window) visible return app.exec(); // Passes control to Qt } // (would also delete QLabel)

  18. Handling Events: Signals and Slots • Qt not handle events (or event queue) directly • Qt widgets emit signals when user action or change of state occurs • Signal can be connected to a function, or slot • When signal emitted the slot, or function, is executed • In example, will connect button’s clicked signal to slot, the function quit() • quit() is “built-in” QApplication function (object)

  19. A Signal and A Slot #include <QApplication> // Include class definitions #include <QPushButton> int main(int argc, char *argv[]) { QApplication app(argc, argv); // Create QApplication object QPushButton *button = new QPushButton("Quit"); // Create labeled button // Associate (connect) a particular signal of this application with a slot QObject::connect ( button, SIGNAL(clicked()), &app, SLOT(quit()) ); button->show(); return app.exec(); // Pass control to QT }

  20. Synchronization & Layout of 2 WidgetsBook example – can be complex • Example code creates three widgets: • QSpinbox, QSlider, QWidget (application’s main window, will be parent of others) • Using signals and slots of the QSpinbox and QSlider, set value of one depending on value set in the other • E.g., change spinbox value to 70, slider will move to appropriate position • Change slider to some position, spinbox value will be changed based on position • “Layout manager” object will set size and position of widgets

  21. “Setting up”, 1/3 #include <QApplication> // Include class definitions for #include <QHBoxLayout> // layout, #include <QSlider> // slider, #include <QSpinBox> // and spinbox int main(int argc, char *argv[]) { QApplication app(argc, argv); QWidget *window = new QWidget; // Again, window will be widget window->setWindowTitle("Enter Your Age"); // Not good interface design!

  22. Create & Synchronize Widgets, 2/3A little “tricky” … QSpinBox *spinBox = new QSpinBox; // Create spinbox and slider QSlider *slider = new QSlider(Qt::Horizontal); spinBox->setRange(0, 130); // Set/define range of each slider->setRange(0, 130); // As before, a particular widget signal causes a function (slot) to be called // here, when the value in the spinbox is changed, the function to set the value in the // slider is called, and passed the new value of the spinbox to be the new value of the slider QObject::connect(spinBox, SIGNAL(valueChanged(int)), slider, SLOT(setValue(int))); // … and vice versa QObject::connect(slider, SIGNAL(valueChanged(int)), spinBox, SLOT(setValue(int))); spinBox->setValue(35); // Set initial value for spinbox, slider will then get set

  23. Layout of Widgets by Qt, 3/3 // Qt manages the relative positioning of the child windows, here, as BoxLayout QHBoxLayout *layout = new QHBoxLayout; layout->addWidget(spinBox); // Place widgets in set to be layout->addWidget(slider); // poistioned window->setLayout(layout); // Installs layout manager on win window->show(); return app.exec(); }

  24. Widget Styles • Recall, Qt is cross-platform • Can have Qt applications in windowing system style where executed (external consistency) or in same style across windowing systems (internal consistency)

  25. Qt IDE • Works fine

  26. Qt IDE • Open project • Open file

  27. Help • Works fine

  28. Help • Works fine

  29. End • .

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