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User Interface Toolkits

213: User Interface Design and Development. User Interface Toolkits. Lecture #10 - March 19th, 2009. Today’s Outline. Model-View-Controller (MVC) Widgets UI Toolkits Internationalization. Model-View-Controller (MVC). Model-View-Controller (MVC).

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User Interface Toolkits

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  1. 213: User Interface Design and Development User Interface Toolkits Lecture #10 - March 19th, 2009

  2. Today’s Outline • Model-View-Controller (MVC) • Widgets • UI Toolkits • Internationalization

  3. Model-View-Controller (MVC)

  4. Model-View-Controller (MVC) Architecture for developing programs with modular, reusable components Originally conceived in Smalltalk-80, immortalized in Design Patterns book Allows separation of application state (model) from display (view) and logic (controller)

  5. Source: Krasner and Pope, “A Description of the Model-View-Controller User Interface Paradigm in Smalltalk-80”

  6. Model-View-Controller (MVC) Model • Maintains application data • Provides methods to access and modify data • Notifies observers when data changes View • Maintains application display • Updates view by listening to and querying model • Can have multiple views for the same model Controller • Handles user input • Mediates between view and model • Manages lifecycle of other objects • Views, models and controllers can be reusable across applications

  7. Example: A Text Field Screen Keyboard Keystroke handler Text display get text Controller View edit text change events Mutable string Model Adapted from Rob Miller

  8. Example: Web Browser Screen Mouse Hyperlink handler Page view get nodes Controller View load page change events Document Model (DOM) Model Adapted from Rob Miller

  9. Observer Pattern Used to decouple model from views (can support multiple simultaneous views of one model) graph View A query Model update update View B stock market data query table Adapted from Rob Miller

  10. Observer Pattern Observer Model register interface Model { void register(Observer) void unregister(Observer) Object get() void modify() } interface Observer { void update(Event) } modify update gets return Adapted from Rob Miller

  11. View-Controller In practice, it is often difficult to separate the view and the controller • Output is closely tied to Input • View needs to update itself based on controller state (currently depressed button, currently selected text, etc.) MVC has largely been superseded by MV - Model-View View encapsulated as reusable GUI components providing both input and output (also called widgets) Adapted from Rob Miller

  12. Widgets

  13. Widgets Reusable user interface components • Also called components, controls, interactors, etc. • Handle both input and output Includes a view, a controller, and possibly a model • Embedded model - data included in widget; needs to be copied in and out • Linked model - data stored in model object, which provides interface for accessing and editing • Allows binding of widgets to data objects Adapted from Rob Miller

  14. Kinds of Widgets Text boxes Buttons Scrollbars Menubars Containers Etc…

  15. Widgets for 1-of-N Choices Radio buttons Drop-down menu Single-selectionlistbox Toggle buttons Adapted from Rob Miller

  16. Widgets for Boolean Choices Checkbox Toggle button Adapted from Rob Miller

  17. Widgets for K-of-N Choices N checkboxes Multiple-selectionlistbox Two listboxes Adapted from Rob Miller

  18. Widgets for Commands Menubar Toolbar Context menu (right-click) Push button Hyperlink www.ischool.berkeley.edu Adapted from Rob Miller

  19. Widgets for Organizing Content Tabbed Pane Scrolled Pane Listbox + Pane Split Pane Adapted from Rob Miller

  20. Widgets for Dialogs Dialog Box (Modal or Modeless) Sidebar Adapted from Rob Miller

  21. View Hierarchy Views can be arranged into hierarchies of containers and components • Containers: Window, Frame, Panel, etc. • Components / Widgets: Canvas, Text Box, Button, etc. • Containers are also components / widgets This hierarchy is used to delegate handling of input, output and layout Adapted from Rob Miller

  22. View Hierarchy: Output Drawing • Draw requests are passed top-down through the hierarchy Clipping • Parent container prevents its child components from drawing outside its extent Z-order • Children are (usually) drawn on top of parents • Child order dictates drawing order between siblings Coordinate system • Every container has its own coordinate system • Child positions are expressed in terms of parent coordinates Adapted from Rob Miller

  23. View Hierarchy: Input Raw input events (key presses, mouse movements, mouse clicks) are sent to lowest component Event propagates up the hierarchy until some component handles it This component has the focus (which it can choose to delegate / pass on to its ancestors) Adapted from Rob Miller

  24. View Hierarchy: Layout Children can be automatically positioned and sized relative to their parents and siblings • Allows window-resizing • Can handle internationalization and platform differences (window size, font size, etc.) • Reduces requirement for programmer to manage sizing and positioning (usually requires fiddling to achieve graphic design requirements) Adapted from Rob Miller

  25. Pros and Cons of Widgets Pros • Reduce development effort - designing, coding, testing, maintaining, etc. • Maintain consistency across platforms and/or applications Cons • Constrains designer’s thinking • Encourages form and menu-based styles as opposed to more direct manipulation Further Reading • Jeff Johnson, GUI Bloopers 2.0: Common User Interface Design Don'ts and Dos Adapted from Rob Miller

  26. User Interface Toolkits Software architecture: • Usually MV, or MVC Output: • View hierarchy • Stroke drawing • Pixel-level access Input: • Event handling Widgets: • Buttons, menus, containers, etc. Adapted from Rob Miller

  27. Toolkit Examples Win32Java SwingHTML components windows JComponents elements strokes GDI Graphics <canvas> pixels bitmaps Image <img> input messages listeners Javascript window proc event handlers widgets button, menu, JButton, JMenu, <button>, textbox, … JTextField, … <input>, … Adapted from Rob Miller

  28. Cross-Platform Toolkits: Swing Java Swing Java AWT Windows Motif OS X XLib Adapted from Rob Miller

  29. Cross-Platform Toolkits: HTML HTML IE Firefox Safari MS Windows GTK+ Mac OS XLib Adapted from Rob Miller

  30. Cross-Platform Toolkits AWT, HTML • Use native widgets, but only those common to all platforms • Consistent look-and-feel with native applications, because they use the same underlying code • Sometimes misses some widgets Swing: • Reimplement all widgets • Not constrained by least common denominator • Provides consistent look-and-feel across platforms SWT: • Use native widgets where possible • Reimplement missing widgets Adapted from Rob Miller

  31. Themes for Successful Toolkits Address the Important Parts of the UI Provide a Low Threshold and a High Ceiling Make it Easy to do the Right Thing, and Hard to Do the Wrong Thing Make the Behavior of Your Toolkit Predictable Make Sure the Target of your Toolkit is Stable and Well-defined Source: Myers, Hudson and Pausch “Past, Present and Future of User Interface Software Tools”

  32. Internationalization(i18n)

  33. Internationalization Adapted from Rob Miller

  34. Challenges of i18n Translations • Have to translate every visible word in the application • Requires specialists who are not only fluent in the language, but are aware of local culture, conventions and standards Right-to-left languages (arabic, hebrew, etc.) • Affects drawing, screen layout, icon shapes Adapted from Rob Miller

  35. Challenges of i18n Encodings • Can vary across (and even within) languages • Fonts and input methods both support specific encodings Sorting (collation) • Uppercase / lowercase, accents, different letters - all affect sorting in different languages Numbers • 172,350.55 (US), 172.350,55 (Germany) • 1,72,350.55 (India) Dates • 3/6/8 (US) vs. 6/3/8 (everywhere else) Adapted from Rob Miller

  36. Challenges of i18n Colors • Does white represent a wedding or a funeral? Icons Adapted from Rob Miller

  37. Toolkit Support for i18n Message files • Separate messages from source code • “OK” vs. gettext(“OK”) • Human translators generate a message file for each supported locale Skins • Separates images, icons, presentation rules from source code Formatting support • Numbers, dates, currency Bidirectional layout Adapted from Rob Miller

  38. For Next Time Heuristic evaluation is due the Monday you get back! Two more assignments posted - Interactive Prototype 2, and Experiment Design Have a good Spring Break!!!

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