ref: 9168a29f28f1680289c9fecf0d876c3e4dd3b435
dir: /external/fltk/documentation/src/fluid.dox/
/** <!-- Warning: \p .fl does not work but <tt>.fl</tt> does --> <!-- Warning: \p .h does not work but <tt>.h</tt> does --> <!-- Warning: \p .cxx does not work but <tt>.cxx</tt> does --> \page fluid Programming with FLUID This chapter shows how to use the Fast Light User-Interface Designer ("FLUID") to create your GUIs. Subchapters: \li \ref fluid_what_is_fluid \li \ref fluid_fluid_under_unix \li \ref fluid_fluid_under_windows \li \ref fluid_compiling_fl_files \li \ref fluid_tutorial \li \ref fluid_references \li \ref fluid_i18n \li \ref fluid_limitations \section fluid_what_is_fluid What is FLUID? The Fast Light User Interface Designer, or FLUID, is a graphical editor that is used to produce FLTK source code. FLUID edits and saves its state in <tt>.fl</tt> files. These files are text, and you can (with care) edit them in a text editor, perhaps to get some special effects. FLUID can "compile" the <tt>.fl</tt> file into a <tt>.cxx</tt> and a <tt>.h</tt> file. The <tt>.cxx</tt> file defines all the objects from the <tt>.fl</tt> file and the <tt>.h</tt> file declares all the global ones. FLUID also supports localization (\ref fluid_i18n "Internationalization") of label strings using message files and the GNU gettext or POSIX catgets interfaces. A simple program can be made by putting all your code (including a \p main() function) into the <tt>.fl</tt> file and thus making the <tt>.cxx</tt> file a single source file to compile. Most programs are more complex than this, so you write other <tt>.cxx</tt> files that call the FLUID functions. These <tt>.cxx</tt> files must \p \#include the <tt>.h</tt> file or they can \p \#include the <tt>.cxx</tt> file so it still appears to be a single source file. \image html fluid-org.png "Figure 9-1: FLUID organization" \image latex fluid-org.png "FLUID organization" width=12cm Normally the FLUID file defines one or more functions or classes which output C++ code. Each function defines one or more FLTK windows, and all the widgets that go inside those windows. Widgets created by FLUID are either "named", "complex named" or "unnamed". A named widget has a legal C++ variable identifier as its name (i.e. only alphanumeric and underscore). In this case FLUID defines a global variable or class member that will point at the widget after the function defining it is called. A complex named object has punctuation such as <tt>'.'</tt> or <tt>'->'</tt> or any other symbols in its name. In this case FLUID assigns a pointer to the widget to the name, but does not attempt to declare it. This can be used to get the widgets into structures. An unnamed widget has a blank name and no pointer is stored. Widgets may either call a named callback function that you write in another source file, or you can supply a small piece of C++ source and FLUID will write a private callback function into the <tt>.cxx</tt> file. \section fluid_fluid_under_unix Running FLUID Under UNIX To run FLUID under UNIX, type: \code fluid filename.fl & \endcode to edit the <tt>.fl</tt> file <tt>filename.fl</tt>. If the file does not exist you will get an error pop-up, but if you dismiss it you will be editing a blank file of that name. You can run FLUID without any name, in which case you will be editing an unnamed blank setup (but you can use save-as to write it to a file). You can provide any of the standard FLTK switches before the filename: \code -display host:n.n -geometry WxH+X+Y -title windowtitle -name classname -iconic -fg color -bg color -bg2 color -scheme schemename \endcode Changing the colors may be useful to see what your interface will look at if the user calls it with the same switches. Similarly, using "-scheme plastic" will show how the interface will look using the "plastic" scheme. In the current version, if you don't put FLUID into the background with <tt>'&'</tt> then you will be able to abort FLUID by typing <tt>CTRL-C</tt> on the terminal. It will exit immediately, losing any changes. \section fluid_fluid_under_windows Running FLUID Under Microsoft Windows To run FLUID under WIN32, double-click on the \e FLUID.exe file. You can also run FLUID from the Command Prompt window. FLUID always runs in the background under WIN32. \section fluid_compiling_fl_files Compiling .fl files FLUID can also be called as a command-line "compiler" to create the <tt>.cxx</tt> and <tt>.h</tt> file from a <tt>.fl</tt> file. To do this type: \code fluid -c filename.fl \endcode This is the same as the menu 'File/Write Code...'. It will read the <tt>filename.fl</tt> file and write <tt>filename.cxx</tt> and <tt>filename.h</tt>. Any leading directory on <tt>filename.fl</tt> will be stripped, so they are always written to the current directory. If there are any errors reading or writing the files, FLUID will print the error and exit with a non-zero code. You can use the following lines in a makefile to automate the creation of the source and header files: \code my_panels.h my_panels.cxx: my_panels.fl fluid -c my_panels.fl \endcode Most versions of make support rules that cause <tt>.fl</tt> files to be compiled: \code .SUFFIXES: .fl .cxx .h .fl.h .fl.cxx: fluid -c $< \endcode If you use \code fluid -cs filename.fl \endcode FLUID will also write the "strings" for internationalization in file 'filename.txt' (menu: 'File/Write Strings...'). Finally there is another option which is useful for program developers who have many .fl files and want to upgrade them to the current FLUID version. FLUID will read the \p filename.fl file, save it, and exit immediately. This writes the file with current syntax and options and the current FLTK version in the header of the file. Use \code fluid -u filename.fl \endcode to 'upgrade' \p filename.fl . You may combine this with '-c' or '-cs'. \note All these commands overwrite existing files w/o warning. You should particularly take care when running 'fluid -u' since this overwrites the original .fl source file. \section fluid_tutorial A Short Tutorial FLUID is an amazingly powerful little program. However, this power comes at a price as it is not always obvious how to accomplish seemingly simple tasks with it. This tutorial will show you how to generate a complete user interface class with FLUID that is used for the CubeView program provided with FLTK. \image html cubeview.png "Figure 9-2: CubeView demo" \image latex cubeview.png "CubeView demo" width=10cm The window is of class CubeViewUI, and is completely generated by FLUID, including class member functions. The central display of the cube is a separate subclass of Fl_Gl_Window called CubeView. CubeViewUI manages CubeView using callbacks from the various sliders and rollers to manipulate the viewing angle and zoom of CubeView. At the completion of this tutorial you will (hopefully) understand how to: -# Use FLUID to create a complete user interface class, including constructor and any member functions necessary. -# Use FLUID to set callbacks member functions of a custom widget classes. -# Subclass an Fl_Gl_Window to suit your purposes. \subsection fluid_cubeview The CubeView Class The CubeView class is a subclass of Fl_Gl_Window. It has methods for setting the zoom, the \e x and \e y pan, and the rotation angle about the \e x and \e y axes. You can safely skip this section as long as you realize that CubeView is a sublass of Fl_Gl_Window and will respond to calls from CubeViewUI, generated by FLUID. \par The CubeView Class Definition Here is the CubeView class definition, as given by its header file "test/CubeView.h": \code class CubeView : public Fl_Gl_Window { public: CubeView(int x,int y,int w,int h,const char *l=0); // this value determines the scaling factor used to draw the cube. double size; /* Set the rotation about the vertical (y ) axis. * * This function is called by the horizontal roller in CubeViewUI * and the initialize button in CubeViewUI. */ void v_angle(float angle){vAng=angle;}; // Return the rotation about the vertical (y ) axis. float v_angle(){return vAng;}; /* Set the rotation about the horizontal (x ) axis. * * This function is called by the vertical roller in CubeViewUI and the * initialize button in CubeViewUI. */ void h_angle(float angle){hAng=angle;}; // the rotation about the horizontal (x ) axis. float h_angle(){return hAng;}; /* Sets the x shift of the cube view camera. * * This function is called by the slider in CubeViewUI and the * initialize button in CubeViewUI. */ void panx(float x){xshift=x;}; /* Sets the y shift of the cube view camera. * * This function is called by the slider in CubeViewUI and the * initialize button in CubeViewUI. */ void pany(float y){yshift=y;}; /* The widget class draw() override. * The draw() function initialize Gl for another round of * drawing then calls specialized functions for drawing each * of the entities displayed in the cube view. */ void draw(); private: /* Draw the cube boundaries * Draw the faces of the cube using the boxv[] vertices, using * GL_LINE_LOOP for the faces. The color is #defined by * CUBECOLOR. */ void drawCube(); float vAng,hAng; float xshift,yshift; float boxv0[3];float boxv1[3]; float boxv2[3];float boxv3[3]; float boxv4[3];float boxv5[3]; float boxv6[3];float boxv7[3]; }; \endcode \par The CubeView Class Implementation Here is the CubeView implementation. It is very similar to the "cube" demo included with FLTK. \code #include "CubeView.h" #include <math.h> CubeView::CubeView(int x,int y,int w,int h,const char *l) : Fl_Gl_Window(x,y,w,h,l) { vAng = 0.0; hAng=0.0; size=10.0; /* The cube definition. These are the vertices of a unit cube * centered on the origin.*/ boxv0[0] = -0.5; boxv0[1] = -0.5; boxv0[2] = -0.5; boxv1[0] = 0.5; boxv1[1] = -0.5; boxv1[2] = -0.5; boxv2[0] = 0.5; boxv2[1] = 0.5; boxv2[2] = -0.5; boxv3[0] = -0.5; boxv3[1] = 0.5; boxv3[2] = -0.5; boxv4[0] = -0.5; boxv4[1] = -0.5; boxv4[2] = 0.5; boxv5[0] = 0.5; boxv5[1] = -0.5; boxv5[2] = 0.5; boxv6[0] = 0.5; boxv6[1] = 0.5; boxv6[2] = 0.5; boxv7[0] = -0.5; boxv7[1] = 0.5; boxv7[2] = 0.5; }; // The color used for the edges of the bounding cube. #define CUBECOLOR 255,255,255,255 void CubeView::drawCube() { /* Draw a colored cube */ #define ALPHA 0.5 glShadeModel(GL_FLAT); glBegin(GL_QUADS); glColor4f(0.0, 0.0, 1.0, ALPHA); glVertex3fv(boxv0); glVertex3fv(boxv1); glVertex3fv(boxv2); glVertex3fv(boxv3); glColor4f(1.0, 1.0, 0.0, ALPHA); glVertex3fv(boxv0); glVertex3fv(boxv4); glVertex3fv(boxv5); glVertex3fv(boxv1); glColor4f(0.0, 1.0, 1.0, ALPHA); glVertex3fv(boxv2); glVertex3fv(boxv6); glVertex3fv(boxv7); glVertex3fv(boxv3); glColor4f(1.0, 0.0, 0.0, ALPHA); glVertex3fv(boxv4); glVertex3fv(boxv5); glVertex3fv(boxv6); glVertex3fv(boxv7); glColor4f(1.0, 0.0, 1.0, ALPHA); glVertex3fv(boxv0); glVertex3fv(boxv3); glVertex3fv(boxv7); glVertex3fv(boxv4); glColor4f(0.0, 1.0, 0.0, ALPHA); glVertex3fv(boxv1); glVertex3fv(boxv5); glVertex3fv(boxv6); glVertex3fv(boxv2); glEnd(); glColor3f(1.0, 1.0, 1.0); glBegin(GL_LINES); glVertex3fv(boxv0); glVertex3fv(boxv1); glVertex3fv(boxv1); glVertex3fv(boxv2); glVertex3fv(boxv2); glVertex3fv(boxv3); glVertex3fv(boxv3); glVertex3fv(boxv0); glVertex3fv(boxv4); glVertex3fv(boxv5); glVertex3fv(boxv5); glVertex3fv(boxv6); glVertex3fv(boxv6); glVertex3fv(boxv7); glVertex3fv(boxv7); glVertex3fv(boxv4); glVertex3fv(boxv0); glVertex3fv(boxv4); glVertex3fv(boxv1); glVertex3fv(boxv5); glVertex3fv(boxv2); glVertex3fv(boxv6); glVertex3fv(boxv3); glVertex3fv(boxv7); glEnd(); };//drawCube void CubeView::draw() { if (!valid()) { glLoadIdentity(); glViewport(0,0,w(),h()); glOrtho(-10,10,-10,10,-20000,10000); glEnable(GL_BLEND); glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); } glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT); glPushMatrix(); glTranslatef(xshift, yshift, 0); glRotatef(hAng,0,1,0); glRotatef(vAng,1,0,0); glScalef(float(size),float(size),float(size)); drawCube(); glPopMatrix(); }; \endcode \subsection fluid_cubevieui The CubeViewUI Class We will completely construct a window to display and control the CubeView defined in the previous section using FLUID. \par Defining the CubeViewUI Class Once you have started FLUID, the first step in defining a class is to create a new class within FLUID using the <b>New->Code->Class</b> menu item. Name the class "CubeViewUI" and leave the subclass blank. We do not need any inheritance for this window. You should see the new class declaration in the FLUID browser window. \image html fluid1.png "Figure 9-3: FLUID file for CubeView" \image latex fluid1.png "FLUID file for CubeView" width=10cm \par Adding the Class Constructor Click on the CubeViewUI class in the FLUID window and add a new method by selecting <b>New->Code->Function/Method.</b> The name of the function will also be CubeViewUI. FLUID will understand that this will be the constructor for the class and will generate the appropriate code. Make sure you declare the constructor public. Then add a window to the CubeViewUI class. Highlight the name of the constructor in the FLUID browser window and click on <b>New->Group->Window</b>. In a similar manner add the following to the CubeViewUI constructor: \li A horizontal roller named \p hrot \li A vertical roller named \p vrot \li A horizontal slider named \p xpan \li A vertical slider named \p ypan \li A horizontal value slider named \p zoom None of these additions need be public. And they shouldn't be unless you plan to expose them as part of the interface for CubeViewUI. When you are finished you should have something like this: \image html fluid2.png "Figure 9-4: FLUID window containing CubeView demo" \image latex fluid2.png "FLUID window containing CubeView demo" width=10cm We will talk about the \p show() method that is highlighted shortly. \par Adding the CubeView Widget What we have is nice, but does little to show our cube. We have already defined the CubeView class and we would like to show it within the CubeViewUI. The CubeView class inherits the Fl_Gl_Window class, which is created in the same way as a Fl_Box widget. Use <b>New->Other->Box</b> to add a square box to the main window. This will be no ordinary box, however. The Box properties window will appear. The key to letting CubeViewUI display CubeView is to enter CubeView in the <b>Class:</b> text entry box. This tells FLUID that it is not an Fl_Box, but a similar widget with the same constructor. In the <b>Extra Code:</b> field enter <tt>\#include "CubeView.h"</tt> This \p \#include is important, as we have just included CubeView as a member of CubeViewUI, so any public CubeView methods are now available to CubeViewUI. \image html fluid3-cxx.png "Figure 9-5: CubeView methods" \image latex fluid3-cxx.png "CubeView methods" width=10cm \par Defining the Callbacks Each of the widgets we defined before adding CubeView can have callbacks that call CubeView methods. You can call an external function or put in a short amount of code in the <b>Callback</b> field of the widget panel. For example, the callback for the \p ypan slider is: \code cube->pany(((Fl_Slider *)o)->value()); cube->redraw(); \endcode We call <tt>cube->redraw()</tt> after changing the value to update the CubeView window. CubeView could easily be modified to do this, but it is nice to keep this exposed. In the case where you may want to do more than one view change only redrawing once saves a lot of time. There is no reason to wait until after you have added CubeView to enter these callbacks. FLUID assumes you are smart enough not to refer to members or functions that don't exist. \par Adding a Class Method You can add class methods within FLUID that have nothing to do with the GUI. As an example add a show function so that CubeViewUI can actually appear on the screen. Make sure the top level CubeViewUI is selected and select <b>New->Code->Function/Method</b>. Just use the name \p show(). We don't need a return value here, and since we will not be adding any widgets to this method FLUID will assign it a return type of \p void. \image html fluid4.png "Figure 9-6: CubeView constructor" \image latex fluid4.png "CubeView constructor" width=10cm Once the new method has been added, highlight its name and select <b>New->Code->Code.</b> Enter the method's code in the code window. \subsection fluid_addconst Adding Constructor Initialization Code If you need to add code to initialize a class, for example setting initial values of the horizontal and vertical angles in the CubeView, you can simply highlight the constructor and select <b>New->Code->Code</b>. Add any required code. \subsection fluid_gencode Generating the Code Now that we have completely defined the CubeViewUI, we have to generate the code. There is one last trick to ensure this all works. Open the preferences dialog from <b>Edit->Preferences</b>. At the bottom of the preferences dialog box is the key: <b>"Include Header from Code"</b>. Select that option and set your desired file extensions and you are in business. You can include the CubeViewUI.h (or whatever extension you prefer) as you would any other C++ class. <!-- NEW PAGE --> \section fluid_references FLUID Reference The following sections describe each of the windows in FLUID. \subsection fluid_browser The Widget Browser The main window shows a menu bar and a scrolling browser of all the defined widgets. The name of the <tt>.fl</tt> file being edited is shown in the window title. The widgets are stored in a hierarchy. You can open and close a level by clicking the "triangle" at the left of a widget. The leftmost widgets are the \e parents, and all the widgets listed below them are their \e children. Parents don't have to have any children. The top level of the hierarchy is composed of \e functions and \e classes. Each of these will produce a single C++ public function or class in the output <tt>.cxx</tt> file. Calling the function or instantiating the class will create all of the child widgets. The second level of the hierarchy contains the \e windows. Each of these produces an instance of class Fl_Window. Below that are either \e widgets (subclasses of Fl_Widget) or \e groups of widgets (including other groups). Plain groups are for layout, navigation, and resize purposes. <i>Tab groups</i> provide the well-known file-card tab interface. Widgets are shown in the browser by either their \e name (such as "main_panel" in the example), or by their \e type and \e label (such as "Button "the green""). You \e select widgets by clicking on their names, which highlights them (you can also select widgets from any displayed window). You can select many widgets by dragging the mouse across them, or by using Shift+Click to toggle them on and off. To select no widgets, click in the blank area under the last widget. Note that hidden children may be selected even when there is no visual indication of this. You \e open widgets by double-clicking on them, or (to open several widgets you have picked) by typing the F1 key. A control panel will appear so you can change the widget(s). \subsection fluid_menu_items Menu Items The menu bar at the top is duplicated as a pop-up menu on any displayed window. The shortcuts for all the menu items work in any window. The menu items are: \par File/Open... (Ctrl+o) \par Discards the current editing session and reads in a different <tt>.fl</tt> file. You are asked for confirmation if you have changed the current file. \par FLUID can also read <tt>.fd</tt> files produced by the Forms and XForms "fdesign" programs. It is best to File/Merge them instead of opening them. FLUID does not understand everything in a <tt>.fd</tt> file, and will print a warning message on the controlling terminal for all data it does not understand. You will probably need to edit the resulting setup to fix these errors. Be careful not to save the file without changing the name, as FLUID will write over the <tt>.fd</tt> file with its own format, which fdesign cannot read! \par File/Insert... (Ctrl+i) \par Inserts the contents of another <tt>.fl</tt> file, without changing the name of the current <tt>.fl</tt> file. All the functions (even if they have the same names as the current ones) are added, and you will have to use cut/paste to put the widgets where you want. \par File/Save (Ctrl+s) \par Writes the current data to the <tt>.fl</tt> file. If the file is unnamed then FLUID will ask for a filename. \par File/Save As... (Ctrl+Shift+S) \par Asks for a new filename and saves the file. \par File/Write Code (Ctrl+Shift+C) \par "Compiles" the data into a <tt>.cxx</tt> and <tt>.h</tt> file. These are exactly the same as the files you get when you run FLUID with the \c -c switch. \par The output file names are the same as the <tt>.fl</tt> file, with the leading directory and trailing ".fl" stripped, and ".h" or ".cxx" appended. \par File/Write Strings (Ctrl+Shift+W) \par Writes a message file for all of the text labels defined in the current file. \par The output file name is the same as the <tt>.fl</tt> file, with the leading directory and trailing ".fl" stripped, and ".txt", ".po", or ".msg" appended depending on the \ref fluid_i18n "Internationalization Mode". \par File/Quit (Ctrl+q) \par Exits FLUID. You are asked for confirmation if you have changed the current file. \par Edit/Undo (Ctrl+z) \par This isn't implemented yet. You should do save often so you can recover from any mistakes you make. \par Edit/Cut (Ctrl+x) \par Deletes the selected widgets and all of their children. These are saved to a "clipboard" file and can be pasted back into any FLUID window. \par Edit/Copy (Ctrl+c) \par Copies the selected widgets and all of their children to the "clipboard" file. \par Edit/Paste (Ctrl+c) \par Pastes the widgets from the clipboard file. \par If the widget is a window, it is added to whatever function is selected, or contained in the current selection. \par If the widget is a normal widget, it is added to whatever window or group is selected. If none is, it is added to the window or group that is the parent of the current selection. \par To avoid confusion, it is best to select exactly one widget before doing a paste. \par Cut/paste is the only way to change the parent of a widget. \par Edit/Select All (Ctrl+a) \par Selects all widgets in the same group as the current selection. \par If they are all selected already then this selects all widgets in that group's parent. Repeatedly typing Ctrl+a will select larger and larger groups of widgets until everything is selected. \par Edit/Open... (F1 or double click) \par Displays the current widget in the attributes panel. If the widget is a window and it is not visible then the window is shown instead. \par Edit/Sort \par Sorts the selected widgets into left to right, top to bottom order. You need to do this to make navigation keys in FLTK work correctly. You may then fine-tune the sorting with "Earlier" and "Later". This does not affect the positions of windows or functions. \par Edit/Earlier (F2) \par Moves all of the selected widgets one earlier in order among the children of their parent (if possible). This will affect navigation order, and if the widgets overlap it will affect how they draw, as the later widget is drawn on top of the earlier one. You can also use this to reorder functions, classes, and windows within functions. \par Edit/Later (F3) \par Moves all of the selected widgets one later in order among the children of their parent (if possible). \par Edit/Group (F7) \par Creates a new Fl_Group and make all the currently selected widgets children of it. \par Edit/Ungroup (F8) \par Deletes the parent group if all the children of a group are selected. \par Edit/Overlays on/off (Ctrl+Shift+O) \par Toggles the display of the red overlays off, without changing the selection. This makes it easier to see box borders and how the layout looks. The overlays will be forced back on if you change the selection. \par Edit/Project Settings... (Alt+p) \par Displays the project settings panel. \par Under the "Output" tab you control the extensions or names of the files that are generated by FLUID. If you check the "Include Header from Code" button the code file will include the header file automatically. \par Under the "Internationalization" tab are the \ref fluid_i18n "internationalization" options, described later in this chapter. \image html fluid-edit-proj-settings.png "Figure 9-7: FLUID Project Settings Window" \image latex fluid-edit-proj-settings.png "FLUID Project Settings Window" width=10cm \par Edit/GUI Settings... (Shift+Alt+p) \par Displays the GUI Settings panel, used to control the user interface settings. \image html fluid-edit-gui-settings.png "Figure 9-7a: FLUID GUI Settings Window" \image latex fluid-edit-gui-settings.png "FLUID GUI Settings Window" width=10cm \par Edit/Global FLTK Settings... (Shift+Alt+g) \par Displays the FLTK Global Settings ("Preferences") panel, used to control fluid's user specific and/or system wide settings. \par Tooltips provide descriptions of each option. \par At the lower-right, "User Settings" causes changes to only affect the current user, "System Settings" causes changes to be applied to all users on the current machine. \image html fluid-edit-global-fltk-settings.png "Figure 9-7b: FLUID Global Settings Window" \image latex fluid-edit-global-fltk-settings.png "FLUID Global Settings Window" width=10cm \par New/Code/Function \par Creates a new C function. You will be asked for a name for the function. This name should be a legal C++ function template, without the return type. You can pass arguments which can be referred to by code you type into the individual widgets. \par If the function contains any unnamed windows, it will be declared as returning a Fl_Window pointer. The unnamed window will be returned from it (more than one unnamed window is useless). If the function contains only named windows, it will be declared as returning nothing (\c void ). \par It is possible to make the <tt>.cxx</tt> output be a self-contained program that can be compiled and executed. This is done by deleting the function name so \p main(argc,argv) is used. The function will call \p show() on all the windows it creates and then call \p Fl::run(). This can also be used to test resize behavior or other parts of the user interface. \par You can change the function name by double-clicking on the function. \par New/Window \par Creates a new Fl_Window widget. The window is added to the currently selected function, or to the function containing the currently selected item. The window will appear, sized to 100x100. You can resize it to whatever size you require. \par The widget panel will also appear and is described later in this chapter. \par New/... \par All other items on the New menu are subclasses of Fl_Widget. Creating them will add them to the currently selected group or window, or the group or window containing the currently selected widget. The initial dimensions and position are chosen by copying the current widget, if possible. \par When you create the widget you will get the widget's control panel, which is described later in this chapter. \par Layout/Align/... \par Align all selected widgets to the first widget in the selection. \par Layout/Space Evenly/... \par Space all selected widgets evenly inside the selected space. Widgets will be sorted from first to last. \par Layout/Make Same Size/... \par Make all selected widgets the same size as the first selected widget. \par Layout/Center in Group/... \par Center all selected widgets relative to their parent widget \par Layout/Grid and Size Settings... (Ctrl+g) \par Displays the grid settings panel. \par This panel controls the grid that all widgets snap to when you move and resize them, and for the "snap" which is how far a widget has to be dragged from its original position to actually change. \image html fluid-layout-grid-and-size-settings.png "Figure 9-7c: FLUID Layout/Grid Settings Window" \image latex fluid-layout-grid-and-size-settings.png "FLUID Layout/Grid Settings Window" width=10cm \par Shell/Execute Command... (Alt+x) \par Displays the shell command panel. The shell command is commonly used to run a 'make' script to compile the FLTK output. \par Shell/Execute Again (Alt+g) \par Run the shell command again. \par Help/About FLUID \par Pops up a panel showing the version of FLUID. \par Help/On FLUID \par Shows this chapter of the manual. \par Help/Manual \par Shows the contents page of the manual \subsection fluid_widget_panel The Widget Panel When you double-click on a widget or a set of widgets you will get the "widget attribute panel". When you change attributes using this panel, the changes are reflected immediately in the window. It is useful to hit the "no overlay" button (or type Ctrl+Shift+O) to hide the red overlay so you can see the widgets more accurately, especially when setting the box type. If you have several widgets selected, they may have different values for the fields. In this case the value for \e one of the widgets is shown. But if you change this value, \e all of the selected widgets are changed to the new value. Hitting "OK" makes the changes permanent. Selecting a different widget also makes the changes permanent. FLUID checks for simple syntax errors such as mismatched parenthesis in any code before saving any text. "Revert" or "Cancel" put everything back to when you last brought up the panel or hit OK. However in the current version of FLUID, changes to "visible" attributes (such as the color, label, box) are not undone by revert or cancel. Changes to code like the callbacks are undone, however. <!-- NEW PAGE --> \image html fluid_widget_gui.png "Figure 9-8: The FLUID widget GUI attributes" \image latex fluid_widget_gui.png "The FLUID widget GUI attributes" width=10cm \section fluid_widget_attributes GUI Attributes \par Label (text field) \par String to print next to or inside the button. You can put newlines into the string to make multiple lines. The easiest way is by typing Ctrl+j. \par \ref common_labels "Symbols" can be added to the label using the at sign ("@"). \par Label (pull down menu) \par How to draw the label. Normal, shadowed, engraved, and embossed change the appearance of the text. \par Image \par The active image for the widget. Click on the \b Browse... button to pick an image file using the file chooser. \par Inactive \par The inactive image for the widget. Click on the \b Browse... button to pick an image file using the file chooser. \par Alignment (buttons) \par Where to draw the label. The arrows put it on that side of the widget, you can combine them to put it in the corner. The "box" button puts the label inside the widget, rather than outside. \par The \b clip button clips the label to the widget box, the \b wrap button wraps any text in the label, and the <b>text image</b> button puts the text over the image instead of under the image. \par Position (text fields) \par The position fields show the current position and size of the widget box. Enter new values to move and/or resize a widget. \par Values (text fields) \par The values and limits of the current widget. Depending on the type of widget, some or all of these fields may be inactive. \par Shortcut \par The shortcut key to activate the widget. Click on the shortcut button and press any key sequence to set the shortcut. \par Attributes (buttons) \par The \b Visible button controls whether the widget is visible (on) or hidden (off) initially. Don't change this for windows or for the immediate children of a Tabs group. \par The \b Active button controls whether the widget is activated (on) or deactivated (off) initially. Most widgets appear greyed out when deactivated. \par The \b Resizable button controls whether the window is resizeable. In addition all the size changes of a window or group will go "into" the resizable child. If you have a large data display surrounded by buttons, you probably want that data area to be resizable. You can get more complex behavior by making invisible boxes the resizable widget, or by using hierarchies of groups. Unfortunately the only way to test it is to compile the program. Resizing the FLUID window is \e not the same as what will happen in the user program. \par The \b Hotspot button causes the parent window to be positioned with that widget centered on the mouse. This position is determined <i>when the FLUID function is called</i>, so you should call it immediately before showing the window. If you want the window to hide and then reappear at a new position, you should have your program set the hotspot itself just before \p show(). \par The \b Border button turns the window manager border on or off. On most window managers you will have to close the window and reopen it to see the effect. \par X Class (text field) \par The string typed into here is passed to the X window manager as the class. This can change the icon or window decorations. On most (all?) window managers you will have to close the window and reopen it to see the effect. \image html fluid_widget_style.png "Figure 9-9: The FLUID widget Style attributes" \image latex fluid_widget_style.png "The FLUID widget Style attributes" width=10cm \subsection fluid_style_attributes Style Attributes \par Label Font (pulldown menu) \par Font to draw the label in. Ignored by symbols, bitmaps, and pixmaps. Your program can change the actual font used by these "slots" in case you want some font other than the 16 provided. \par Label Size (pulldown menu) \par Pixel size (height) for the font to draw the label in. Ignored by symbols, bitmaps, and pixmaps. To see the result without dismissing the panel, type the new number and then Tab. \par Label Color (button) \par Color to draw the label. Ignored by pixmaps (bitmaps, however, do use this color as the foreground color). \par Box (pulldown menu) \par The boxtype to draw as a background for the widget. \par Many widgets will work, and draw faster, with a "frame" instead of a "box". A frame does not draw the colored interior, leaving whatever was already there visible. Be careful, as FLUID may draw this ok but the real program may leave unwanted stuff inside the widget. \par If a window is filled with child widgets, you can speed up redrawing by changing the window's box type to "NO_BOX". FLUID will display a checkerboard for any areas that are not colored in by boxes. Note that this checkerboard is not drawn by the resulting program. Instead random garbage will be displayed. \par Down Box (pulldown menu) \par The boxtype to draw when a button is pressed or for some parts of other widgets like scrollbars and valuators. \par Color (button) \par The color to draw the box with. \par Select Color (button) \par Some widgets will use this color for certain parts. FLUID does not always show the result of this: this is the color buttons draw in when pushed down, and the color of input fields when they have the focus. \par Text Font, Size, and Color \par Some widgets display text, such as input fields, pull-down menus, and browsers. \image html fluid_widget_cxx.png "Figure 9-10: The FLUID widget C++ attributes" \image latex fluid_widget_cxx.png "The FLUID widget C++ attributes" width=10cm \subsection fluid_cpp_attributes C++ Attributes \par Class \par This is how you use your own subclasses of Fl_Widget. Whatever identifier you type in here will be the class that is instantiated. \par In addition, no \p \#include header file is put in the <tt>.h</tt> file. You must provide a \p \#include line as the first line of the "Extra Code" which declares your subclass. \par The class must be similar to the class you are spoofing. It does not have to be a subclass. It is sometimes useful to change this to another FLTK class. Currently the only way to get a double-buffered window is to change this field for the window to "Fl_Double_Window" and to add \code #include <FL/Fl_Double_Window.h> \endcode to the extra code. \par Type (upper-right pulldown menu) \par Some classes have subtypes that modify their appearance or behavior. You pick the subtype off of this menu. \par Name (text field) \par Name of a variable to declare, and to store a pointer to this widget into. This variable will be of type "<class>*". If the name is blank then no variable is created. \par You can name several widgets with "name[0]", "name[1]", "name[2]", etc. This will cause FLUID to declare an array of pointers. The array is big enough that the highest number found can be stored. All widgets in the array must be the same type. \par Public (button) \par Controls whether the widget is publicly accessible. When embedding widgets in a C++ class, this controls whether the widget is \p public or \p private in the class. Otherwise it controls whether the widget is declared \p static or global (\p extern ). \par Extra Code (text fields) \par These four fields let you type in literal lines of code to dump into the <tt>.h</tt> or <tt>.cxx</tt> files. \par If the text starts with a <tt>\#</tt> or the word \p extern then FLUID thinks this is an "include" line, and it is written to the <tt>.h</tt> file. If the same include line occurs several times then only one copy is written. \par All other lines are "code" lines. The current widget is pointed to by the local variable \p o. The window being constructed is pointed to by the local variable \p w. You can also access any arguments passed to the function here, and any named widgets that are before this one. \par FLUID will check for matching parenthesis, braces, and quotes, but does not do much other error checking. Be careful here, as it may be hard to figure out what widget is producing an error in the compiler. If you need more than four lines you probably should call a function in your own <tt>.cxx</tt> code. \par Callback (text field) \par This can either be the name of a function, or a small snippet of code. If you enter anything other than letters, numbers, and the underscore then FLUID treats it as code. \par A name refers to a function in your own code. It must be declared as <tt>void name(<class>*,void*)</tt>. \par A code snippet is inserted into a static function in the <tt>.cxx</tt> output file. The function prototype is <tt>void name(class *o, void *v)</tt> so that you can refer to the widget as \p o and the \p user_data() as \p v. FLUID will check for matching parenthesis, braces, and quotes, but does not do much other error checking. Be careful here, as it may be hard to figure out what widget is producing an error in the compiler. \par If the callback is blank then no callback is set. \par User Data (text field) \par This is a value for the \p user_data() of the widget. If blank the default value of zero is used. This can be any piece of C code that can be cast to a \p void pointer. \par Type (text field) \par The \p void* in the callback function prototypes is replaced with this. You may want to use \p long for old XForms code. Be warned that anything other than \p void* is not guaranteed to work! However on most architectures other pointer types are ok, and \p long is usually ok, too. \par When (pulldown menu) \par When to do the callback. This can be \b Never, \b Changed, \b Release, or \b Enter Key. The value of <b>Enter Key</b> is only useful for text input fields. \par There are other rare but useful values for the \p when() field that are not in the menu. You should use the extra code fields to put these values in. \par No Change (button) \par The <b>No Change</b> button means the callback is done on the matching event even if the data is not changed. \section fluid_selecting_moving Selecting and Moving Widgets Double-clicking a window name in the browser will display it, if not displayed yet. From this display you can select widgets, sets of widgets, and move or resize them. To close a window either double-click it or type \c ESC. To select a widget, click it. To select several widgets drag a rectangle around them. Holding down shift will toggle the selection of the widgets instead. You cannot pick hidden widgets. You also cannot choose some widgets if they are completely overlapped by later widgets. Use the browser to select these widgets. The selected widgets are shown with a red "overlay" line around them. You can move the widgets by dragging this box. Or you can resize them by dragging the outer edges and corners. Hold down the Alt key while dragging the mouse to defeat the snap-to-grid effect for fine positioning. If there is a tab box displayed you can change which child is visible by clicking on the file tabs. The child you pick is selected. The arrow, tab, and shift+tab keys "navigate" the selection. Left, right, tab, or shift+tab move to the next or previous widgets in the hierarchy. Hit the right arrow enough and you will select every widget in the window. Up/down widgets move to the previous/next widgets that overlap horizontally. If the navigation does not seem to work you probably need to "Sort" the widgets. This is important if you have input fields, as FLTK uses the same rules when using arrow keys to move between input fields. To "open" a widget, double click it. To open several widgets select them and then type F1 or pick "Edit/Open" off the pop-up menu. Type Ctrl+o to temporarily toggle the overlay off without changing the selection, so you can see the widget borders. You can resize the window by using the window manager border controls. FLTK will attempt to round the window size to the nearest multiple of the grid size and makes it big enough to contain all the widgets (it does this using illegal X methods, so it is possible it will barf with some window managers!). Notice that the actual window in your program may not be resizable, and if it is, the effect on child widgets may be different. The panel for the window (which you get by double-clicking it) is almost identical to the panel for any other Fl_Widget. There are three extra items: \section fluid_images Image Labels The \e contents of the image files in the \b Image and \b Inactive text fields are written to the <tt>.cxx</tt> file. If many widgets share the same image then only one copy is written. Since the image data is embedded in the generated source code, you need only distribute the C++ code and not the image files themselves. However, the \e filenames are stored in the <tt>.fl</tt> file so you will need the image files as well to read the <tt>.fl</tt> file. Filenames are relative to the location of the <tt>.fl</tt> file and not necessarily the current directory. We recommend you either put the images in the same directory as the <tt>.fl</tt> file, or use absolute path names. \par Notes for All Image Types \par FLUID runs using the default visual of your X server. This may be 8 bits, which will give you dithered images. You may get better results in your actual program by adding the code "Fl::visual(FL_RGB)" to your code right before the first window is displayed. \par All widgets with the same image on them share the same code and source X pixmap. Thus once you have put an image on a widget, it is nearly free to put the same image on many other widgets. \par If you edit an image at the same time you are using it in FLUID, the only way to convince FLUID to read the image file again is to remove the image from all widgets that are using it or re-load the <tt>.fl</tt> file. \par Don't rely on how FLTK crops images that are outside the widget, as this may change in future versions! The cropping of inside labels will probably be unchanged. \par To more accurately place images, make a new "box" widget and put the image in that as the label. \par XBM (X Bitmap) Files \par FLUID reads X bitmap files which use C source code to define a bitmap. Sometimes they are stored with the ".h" or ".bm" extension rather than the standard ".xbm" extension. \par FLUID writes code to construct an Fl_Bitmap image and use it to label the widget. The '1' bits in the bitmap are drawn using the label color of the widget. You can change this color in the FLUID widget attributes panel. The '0' bits are transparent. \par The program "bitmap" on the X distribution does an adequate job of editing bitmaps. \par XPM (X Pixmap) Files \par FLUID reads X pixmap files as used by the \p libxpm library. These files use C source code to define a pixmap. The filenames usually have the ".xpm" extension. \par FLUID writes code to construct an Fl_Pixmap image and use it to label the widget. The label color of the widget is ignored, even for 2-color images that could be a bitmap. XPM files can mark a single color as being transparent, and FLTK uses this information to generate a transparency mask for the image. \par We have not found any good editors for small iconic pictures. For pixmaps we have used <A href="http://home.worldonline.dk/~torsten/xpaint/index.html">XPaint</A> and the KDE icon editor. \par BMP Files \par FLUID reads Windows BMP image files which are often used in WIN32 applications for icons. FLUID converts BMP files into (modified) XPM format and uses a Fl_BMP_Image image to label the widget. Transparency is handled the same as for XPM files. All image data is uncompressed when written to the source file, so the code may be much bigger than the <tt>.bmp</tt> file. \par GIF Files \par FLUID reads GIF image files which are often used in HTML documents to make icons. FLUID converts GIF files into (modified) XPM format and uses a Fl_GIF_Image image to label the widget. Transparency is handled the same as for XPM files. All image data is uncompressed when written to the source file, so the code may be much bigger than the <tt>.gif</tt> file. Only the first image of an animated GIF file is used. \par JPEG Files \par If FLTK is compiled with JPEG support, FLUID can read JPEG image files which are often used for digital photos. FLUID uses a Fl_JPEG_Image image to label the widget, and writes uncompressed RGB or grayscale data to the source file. \par PNG (Portable Network Graphics) Files \par If FLTK is compiled with PNG support, FLUID can read PNG image files which are often used in HTML documents. FLUID uses a Fl_PNG_Image image to label the widget, and writes uncompressed RGB or grayscale data to the source file. PNG images can provide a full alpha channel for partial transparency, and FLTK supports this as best as possible on each platform. \section fluid_i18n Internationalization with FLUID FLUID supports internationalization (I18N for short) of label strings used by widgets. The preferences window (<tt>Ctrl+p</tt>) provides access to the I18N options. \subsection fluid_i18n_methods I18N Methods FLUID supports three methods of I18N: use none, use GNU gettext, and use POSIX catgets. The "use none" method is the default and just passes the label strings as-is to the widget constructors. The "GNU gettext" method uses GNU gettext (or a similar text-based I18N library) to retrieve a localized string before calling the widget constructor. The "POSIX catgets" method uses the POSIX catgets function to retrieve a numbered message from a message catalog before calling the widget constructor. \subsection fluid_gettext_i18n Using GNU gettext for I18N FLUID's code support for GNU gettext is limited to calling a function or macro to retrieve the localized label; you still need to call \p setlocale() and \p textdomain() or \p bindtextdomain() to select the appropriate language and message file. To use GNU gettext for I18N, open the preferences window and choose "GNU gettext" from the \b Use: chooser. Two new input fields will then appear to control the include file and function/macro name to use when retrieving the localized label strings. \image html fluid-gettext.png "Figure 9-11: Internationalization using GNU gettext" \image latex fluid-gettext.png "Internationalization using GNU gettext" width=10cm The \b \#include field controls the header file to include for I18N; by default this is \b <libintl.h>, the standard I18N file for GNU gettext. The \b Function: field controls the function (or macro) that will retrieve the localized message; by default the \p gettext function will be called. \subsection fluid_catgets_i18n Using POSIX catgets for I18N FLUID's code support for POSIX catgets allows you to use a global message file for all interfaces or a file specific to each <tt>.fl</tt> file; you still need to call \p setlocale() to select the appropriate language. To use POSIX catgets for I18N, open the preferences window and choose "POSIX catgets" from the \b Use: chooser. Three new input fields will then appear to control the include file, catalog file, and set number for retrieving the localized label strings. \image html fluid-catgets.png "Figure 9-12: Internationalization using POSIX catgets" \image latex fluid-catgets.png "Internationalization using POSIX catgets" width=10cm The \b \#include field controls the header file to include for I18N; by default this is \b <nl_types.h>, the standard I18N file for POSIX catgets. The \b File: field controls the name of the catalog file variable to use when retrieving localized messages; by default the file field is empty which forces a local (static) catalog file to be used for all of the windows defined in your <tt>.fl</tt> file. The \b Set: field controls the set number in the catalog file. The default set is 1 and rarely needs to be changed. \section fluid_limitations Known limitations Declaration Blocks can be used to temporarily block out already designed code using <tt>\#if 0</tt> and <tt>\#endif</tt> type construction. This will effectively avoid compilation of blocks of code. However, static code and data generated by this segment (menu items, images, include statements, etc.) will still be generated and likely cause compile-time warnings. \htmlonly <hr> <table summary="navigation bar" width="100%" border="0"> <tr> <td width="45%" align="LEFT"> <a class="el" href="opengl.html"> [Prev] Using OpenGL </a> </td> <td width="10%" align="CENTER"> <a class="el" href="index.html">[Index]</a> </td> <td width="45%" align="RIGHT"> <a class="el" href="advanced.html"> Advanced FLTK [Next] </a> </td> </tr> </table> \endhtmlonly */