TIP #41: PANED WINDOW TK WIDGET ================================= Version: $Revision: 1.13 $ Author: Eric Melski State: Final Type: Project Tcl-Version: 8.4a2 Vote: Done Created: Wednesday, 04 July 2001 URL: https://tip.tcl-lang.org41.html Post-History: ------------------------------------------------------------------------- ABSTRACT ========== This TIP proposes a C-based paned window widget for inclusion in the Tk core. A paned window consists of one or more vertical or horizontal "panes", each pair separated by a movable "sash" and each containing one widget, called a "slave". Paned windows are common in modern graphical user interfaces and should therefore be provided directly by the Tk core. Examples of the widget can be found in Windows Explorer; Netscape Messenger; many email clients; and virtually every graphical World Wide Web browser. RATIONALE =========== Tk has long lagged other graphical toolkits in terms of the selection of widgets provided by the toolkit. In order to keep Tk vibrant, useful, and relevant, it is imperative that the widget set be enhanced with widgets which have become commonplace in modern graphical user interfaces. One such widget is the paned window widget. A widget that makes it easy to create robust paned windows should be included with Tk. This paned window widget could be implemented in C or in Tcl; in fact, several Tcl-based paned window widgets already exist. However, these each have quirks, mostly caused by the inability to completely manage the geometry of Tk windows from Tcl (i.e. there is no way to make calls to things like /Tk_MaintainGeometry/ or /Tk_ManageGeometry/). This issue could possibly be addressed by the creation of a proper megawidget system for Tk, but that goal seems very far from reality right now. If we wait for that system before creating new widgets, it may be too late. In addition, megawidget implementations suffer from "widget bloat" - each paned window widget corresponds to, typically two widgets, plus two or more widgets for each pane after the first. For a Motif-style paned window with two panes, this means five widgets are created (one frame for the paned window container widget; one frame for each pane; one frame for the sash; one frame for the sash handle). Even assuming the existence of a proper megawidget system, we may not be able to address the widget bloat issue with a megawidget. A C-based paned window implementation will be able to address both of these issues, and should be more robust, reliable, and lightweight. A C implementation will be able to access Tk's geometry management functions. Also, it will require only one widget for each paned window, regardless of how many panes are in the window. One obvious argument is that this widget could easily be distributed as an extension, and need not be included directly in the Tk core. However, extension widget libraries have been largely unsuccessful in winning over users. Developers are reluctant to use those extension widgets because they cannot rely on their presence in an end-user's system, and because of concerns of version incompatibilities between the extension and the core. Users are reluctant to take on the responsibility of maintaining the extension in addition to the core. If this widget is to be truly useful to the Tk community and not just a programming exercise for the author, it must be included in the Tk core. In addition, Tk should be a full-featured widget toolkit on its own. Other popular GUI toolkits are ready out-of-the-box to create sophisticated, modern applications. Tk should be as well, and should not require the procurement of additional extensions to provide what are truly fundamental widgets in a modern GUI toolkit. By all means, esoteric widgets should be left to the extensions, but core widgets belong in the core. This question could be made irrelevant with the introduction of a proper "Batteries Included" distribution, but like the proper megawidget system, this seems like a goal far from reality at this time. Another possibility is to distribute the widget with the core, but have it placed in a separate package and namespace. This provides the same level of availability as direct inclusion in the core, but does not actually make the widget part of Tk directly. There are two possible arguments in favor of this approach. First, since this widget will be in its own namespace, future panedwindow widgets could be included without name conflicts. However, if each widget is put in its own namespace, the name conflict has not actually been resolved. The point of contention has simply been moved from the global command space to the global namespace space. Namespaces make sense when grouping blocks of related functions and data, but widgets have only one command. It's just as easy to pick a unique command name as a unique namespace name. The second possible advantage is that the widget could be loaded on demand, rather than automatically being pulled in with Tk. However, most machines that Tk runs on use a virtual memory system. Thus, only those pages/widgets that are actually used will be resident in memory. The benefit of incorporating this widget into the Tk distribution in this manner seem marginal. +----------++----------+ | || | | Widget#1 ++ Widget#2 | | ++ | | || | | || | | || | | || | | || | +----------++----------+ Example Panedwindow Widget SPECIFICATION =============== The manual entry for the paned window widget is included here: NAME panedwindow - Create and manipulate panedwindow widgets SYNOPSIS panedwindow pathName ?options? STANDARD OPTIONS -background -height -width -borderwidth -orient -cursor -relief See the options manual entry for details on the standard options. WIDGET-SPECIFIC OPTIONS Command-Line Name:-handlepad Database Name: handlePad Database Class: HandlePad When sash handles are drawn, specifies the distance from the top or left end of the sash (depending on the orientation of the widget) at which to draw the handle. May be any value accepted by Tk_GetPixels. Command-Line Name:-handlesize Database Name: handleSize Database Class: HandleSize Specifies the side length of a sash handle. Han- dles are always drawn as squares. May be any value accepted by Tk_GetPixels. Command-Line Name:-opaqueresize Database Name: opaqueResize Database Class: OpaqueResize Specifies whether panes should be resized as a sash is moved (true), or if resizing should be deferred until the sash is placed (false). Command-Line Name:-sashcursor Database Name: sashCursor Database Class: SashCursor Mouse cursor to use when over a sash. If null, sb_h_double_arrow will be used for horizontal panedwindows, and sb_v_double_arrow will be used for vertical panedwindows. Command-Line Name:-sashpad Database Name: sashPad Database Class: SashPad Specifies the amount of padding to leave of each side of a sash. May be any value accepted by Tk_GetPixels. Command-Line Name:-sashrelief Database Name: sashRelief Database Class: SashRelief Relief to use when drawing a sash. May be any of the standard Tk relief values. Command-Line Name:-sashwidth Database Name: sashWidth Database Class: SashWidth Specifies the width of each sash. May be any value accepted by Tk_GetPixels. Command-Line Name:-showhandle Database Name: showHandle Database Class: ShowHandle Specifies whether or not sash handles should be shown. May be any valid Tcl boolean value. DESCRIPTION The panedwindow command creates a new window (given by the pathName argument) and makes it into a panedwindow widget. Additional options, described above, may be specified on the command line or in the option database to configure aspects of the panedwindow such as its default background color and relief. The panedwindow command returns the path name of the new window. A panedwindow widget contains any number of panes, arranged horizontally or vertically, according to the value of the -orient option. Each pane contains one wid- get, and each pair of panes is separated by a moveable (via mouse movements) sash. Moving a sash causes the wid- gets on either side of the sash to be resized. WIDGET COMMAND The panedwindow command creates a new Tcl command whose name is the same as the path name of the panedwindow's window. This command may be used to invoke various opera- tions on the widget. It has the following general form: pathName option ?arg arg ...? PathName is the name of the command, which is the same as the panedwindow widget's path name. Option and the args determine the exact behavior of the command. The follow- ing commands are possible for panedwindow widgets: pathName add slave ?slave ...? ?option value ...? Add one or more slaves to the panedwindow, each in a separate pane. The arguments consist of the names of one or more slave windows followed by pairs of arguments that specify how to manage the slaves. Option may have any of the values accepted by the configure subcommand. pathName cget option Returns the current value of the configuration option given by option. Option may have any of the values accepted by the panedwindow command. pathName configure ?option? ?value option value ...? Query or modify the configuration options of the widget. If no option is specified, returns a list describing all of the available options for path- Name (see Tk_ConfigureInfo for information on the format of this list). If option is specified with no value, then the command returns a list describ- ing the one named option (this list will be identi- cal to the corresponding sublist of the value returned if no option is specified). If one or more option-value pairs are specified, then the command modifies the given widget option(s) to have the given value(s); in this case the command returns an empty string. Option may have any of the values accepted by the panedwindow command. pathName forget slave ?slave ...? Remove the pane containing slave from the panedwin- dow. All geometry management options for slave will be forgotten. pathName identify x y Identify the panedwindow component underneath the point given by x and y, in window coordinates. If the point is over a sash or a sash handle, the result is a two element list containing the index of the sash or handle, and a word indicating whether it is over a sash or a handle, such as {0 sash} or {2 handle}. If the point is over any other part of the panedwindow, the result is an empty list. pathName proxy ?args? This command is used to query and change the posi- tion of the sash proxy, used for rubberband-style pane resizing. It can take any of the following forms: pathName proxy coord Return a list containing the x and y coordi- nates of the most recent proxy location. pathname proxy forget Remove the proxy from the display. pathName proxy place x y Place the proxy at the given x and y coordinates. pathName sash ?args? This command is used to query and change the posi- tion of sashes in the panedwindow. It can take any of the following forms: pathName sash coord index Return the current x and y coordinate pair for the sash given by index. Index must be an integer between 0 and 1 less than the number of slaves in the panedwindow. The coordinates given are those of the top left corner of the region containing the sash. pathName sash dragto index x y This command computes the difference between the given coordinates and the coordinates given to the last sash coord command for the given sash. It then moves that sash the computed differ- ence. The return value is the empty string. pathName sash mark index x y Records x and y for the sash given by index; used in conjunction with later dragto com- mands to move the sash. pathName sash place index x y Place the sash given by index at the given coordinates. pathName slavecget slave option Query a management option for slave. Option may be any value allowed by the slaveconfigure subcommand. pathName slaveconfigure slave ?option? ?value option value ...? Query or modify the management options for slave. If no option is specified, returns a list describ- ing all of the available options for pathName (see Tk_ConfigureInfo for information on the format of this list). If option is specified with no value, then the command returns a list describing the one named option (this list will be identical to the corresponding sublist of the value returned if no option is specified). If one or more option-value pairs are specified, then the command modifies the given widget option(s) to have the given value(s); in this case the command returns an empty string. The following options are supported: -after slave Insert the slave after the slave specified. slave should be the name of a window already managed by pathName. -before slave Insert the slave before the slave specified. slave should be the name of a window already managed by pathName. -height size Specify a height for the slave. The height will be the outer dimension of the slave including its border, if any. If size is an empty string, or if -height is not speci- fied, then the height requested internally by the slave will be used initially; the height may later be adjusted by the movement of sashes in the panedwindow. Size may be any value accepted by Tk_GetPixels. -minsize n Specifies that the size of the slave cannot be made less than n. This constraint only affects the size of the widget in the paned dimension -- the x dimension for horizontal panedwindows, the y dimension for vertical panedwindows. May be any value accepted by Tk_GetPixels. -padx n Specifies a non-negative value indicating how much extra space to leave on each side of the slave in the X-direction. The value may have any of the forms accepted by Tk_GetPixels. -pady n Specifies a non-negative value indicating how much extra space to leave on each side of the slave in the Y-direction. The value may have any of the forms accepted by Tk_GetPixels. -sticky style If a slave's pane is larger than the requested dimensions of the slave, this option may be used to position (or stretch) the slave within its pane. Style is a string that contains zero or more of the characters n, s, e or w. The string can optionally contains spaces or commas, but they are ignored. Each letter refers to a side (north, south, east, or west) that the slave will "stick" to. If both n and s (or e and w) are specified, the slave will be stretched to fill the entire height (or width) of its cavity. -width size Specify a width for the slave. The width will be the outer dimension of the slave including its border, if any. If size is an empty string, or if -width is not specified, then the width requested internally by the slave will be used initially; the width may later be adjusted by the movement of sashes in the panedwindow. Size may be any value accepted by Tk_GetPixels. pathName slaves Returns an ordered list of the widgets managed by pathName. RESIZING PANES A pane is resized by grabbing the sash (or sash handle if present) and dragging with the mouse. This is accom- plished via mouse motion bindings on the widget. When a sash is moved, the sizes of the panes on each side of the sash, and thus the widgets in those panes, are adjusted. When a pane is resized from outside (eg, it is packed to expand and fill, and the containing toplevel is resized), space is added to the final (rightmost or bottommost) pane in the window. REFERENCE IMPLEMENTATION ========================== The widget described here has already been implemented, with documentation and a full test suite. The widget is included with the Vu widget extension, part of the /tktable/ SourceForge project at NOTES ======= Suggestions for possible future enhancements: * Allow specification of a weight for each pane, similar to the -weight option supported by grid, to be used when allocating space from a resize to panes in the widget. * Allow a bindable image to be placed on the window sash, a la Netscape's Messenger, or Java Swing, to allow one-click expand and collapse of the pane. * Integrate with the -setgrid option such that if a pane contains a -setgrided widget, the sash can only be moved in grid size steps. None of these are prohibited by the current design, and could be implemented at a later date as enhancements to the widget. COPYRIGHT =========== This document has been placed in the public domain. ------------------------------------------------------------------------- TIP AutoGenerator - written by Donal K. Fellows