1Wm(3)                 User Contributed Perl Documentation                Wm(3)
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NAME

6       Tk::Wm - Communicate with window manager
7

SYNOPSIS

9           $toplevel->method(?args?)
10

DESCRIPTION

12       The wm methods are used to interact with window managers in order to
13       control such things as the title for a window, its geometry, or the
14       increments in terms of which it may be resized.  The wm methods can
15       take any of a number of different forms, depending on the particular
16       method argument.  All of the forms expect $toplevel, which must be a
17       top-level window object.
18
19       The legal forms for the wm methods are:
20
21       $toplevel->aspect(?minNumer minDenom maxNumer maxDenom?)
22           If minNumer, minDenom, maxNumer, and maxDenom are all specified,
23           then they will be passed to the window manager and the window
24           manager should use them to enforce a range of acceptable aspect
25           ratios for $toplevel.  The aspect ratio of $toplevel (width/length)
26           will be constrained to lie between minNumer/minDenom and
27           maxNumer/maxDenom.  If minNumer etc. are all specified as empty
28           strings, then any existing aspect ratio restrictions are removed.
29           If minNumer etc. are specified, then the method returns an empty
30           string.  Otherwise, it returns a array containing four elements,
31           which are the current values of minNumer, minDenom, maxNumer, and
32           maxDenom (if no aspect restrictions are in effect, then an empty
33           string is returned).
34
35       $widget->attributes( ?args? );
36           This subcommand returns or  sets  platform  specific  attributes
37           associated with a window.
38
39           $widget->attributes;
40               Returns a list of the  platform specific  flags  and  their
41               values.
42
43           $widget->attributes( ?option? );
44               Returns  the  value for the specific option.
45
46           $widget->attributes( ?option value option value...? );
47               Sets one or more of the values. The values are as follows:
48
49               On Windows, -disabled gets or sets whether the window is in  a
50               disabled state. -toolwindow gets or sets the style of the
51               window to toolwindow (as defined in the MSDN). -topmost gets or
52               sets whether this is a topmost window (displays above all other
53               windows).
54
55               On Macintosh, there are currently no special attribute values.
56
57               On Unix, there are currently no special attribute values.
58
59       $toplevel->client(?name?)
60           If name is specified, this method stores name (which should be the
61           name of the host on which the application is executing) in
62           $toplevel's WM_CLIENT_MACHINE property for use by the window
63           manager or session manager.  The method returns an empty string in
64           this case.  If name isn't specified, the method returns the last
65           name set in a client method for $toplevel.  If name is specified as
66           an empty string, the method deletes the WM_CLIENT_MACHINE property
67           from $toplevel.
68
69       $toplevel->colormapwindows(?windowList?)
70           This method is used to manipulate the WM_COLORMAP_WINDOWS property,
71           which provides information to the window managers about windows
72           that have private colormaps.  If windowList isn't specified, the
73           method returns a list whose elements are the names of the windows
74           in the WM_COLORMAP_WINDOWS property.  If windowList is specified,
75           it consists of a list of widgets; the method overwrites the
76           WM_COLORMAP_WINDOWS property with the given windows and returns an
77           empty string.  The WM_COLORMAP_WINDOWS property should normally
78           contain a list of the internal windows within $toplevel whose
79           colormaps differ from their parents.  The order of the windows in
80           the property indicates a priority order: the window manager will
81           attempt to install as many colormaps as possible from the head of
82           this list when $widget gets the colormap focus.  If $widget is not
83           included among the windows in windowList, Tk implicitly adds it at
84           the end of the WM_COLORMAP_WINDOWS property, so that its colormap
85           is lowest in priority.  If $widget->colormapwindows is not invoked,
86           Tk will automatically set the property for each top-level window to
87           all the internal windows whose colormaps differ from their parents,
88           followed by the top-level itself;  the order of the internal
89           windows is undefined.  See the ICCCM documentation for more
90           information on the WM_COLORMAP_WINDOWS property.
91
92       $toplevel->command(?value?)
93           If value is specified, this method stores value in $toplevel's
94           WM_COMMAND property for use by the window manager or session
95           manager and returns an empty string.  Value must have proper list
96           structure;  the elements should contain the words of the command
97           used to invoke the application.  If value isn't specified then the
98           method returns the last value set in a command method for
99           $toplevel.  If value is specified as an empty string, the method
100           deletes the WM_COMMAND property from $toplevel.
101
102       $toplevel->deiconify
103           Arrange for $toplevel to be displayed in normal (non-iconified)
104           form.  This is done by mapping the window.  If the window has never
105           been mapped then this method will not map the window, but it will
106           ensure that when the window is first mapped it will be displayed in
107           de-iconified form.  Returns an empty string.
108
109       $toplevel->focusmodel(?active|passive?)
110           If active or passive is supplied as an optional argument to the
111           method, then it specifies the focus model for $toplevel.  In this
112           case the method returns an empty string.  If no additional argument
113           is supplied, then the method returns the current focus model for
114           $toplevel.  An active focus model means that $toplevel will claim
115           the input focus for itself or its descendants, even at times when
116           the focus is currently in some other application.  Passive means
117           that $toplevel will never claim the focus for itself:  the window
118           manager should give the focus to $toplevel at appropriate times.
119           However, once the focus has been given to $toplevel or one of its
120           descendants, the application may re-assign the focus among
121           $toplevel's descendants.  The focus model defaults to passive, and
122           Tk's focus method assumes a passive model of focusing.
123
124       $toplevel->frame
125           If $widget has been reparented by the window manager into a
126           decorative frame, the method returns the platform specific window
127           identifier for the outermost frame that contains $toplevel (the
128           window whose parent is the root or virtual root).  If $toplevel
129           hasn't been reparented by the window manager then the method
130           returns the platform specific window identifier for $toplevel.
131
132       $toplevel->geometry(?newGeometry?)
133           If newGeometry is specified, then the geometry of $toplevel is
134           changed and an empty string is returned.  Otherwise the current
135           geometry for $toplevel is returned (this is the most recent
136           geometry specified either by manual resizing or in a geometry
137           method).  NewGeometry has the form =widthxheight+-x+-y, where any
138           of =, widthxheight, or +-x+-y may be omitted.  Width and height are
139           positive integers specifying the desired dimensions of $toplevel.
140           If $toplevel is gridded (see "GRIDDED GEOMETRY MANAGEMENT" below)
141           then the dimensions are specified in grid units;  otherwise they
142           are specified in pixel units.  X and y specify the desired location
143           of $toplevel on the screen, in pixels.  If x is preceded by +, it
144           specifies the number of pixels between the left edge of the screen
145           and the left edge of $toplevel's border;  if preceded by - then x
146           specifies the number of pixels between the right edge of the screen
147           and the right edge of $toplevel's border.  If y is preceded by +
148           then it specifies the number of pixels between the top of the
149           screen and the top of $toplevel's border;  if y is preceded by -
150           then it specifies the number of pixels between the bottom of
151           $toplevel's border and the bottom of the screen.  If newGeometry is
152           specified as an empty string then any existing user-specified
153           geometry for $toplevel is cancelled, and the window will revert to
154           the size requested internally by its widgets.
155
156       $toplevel->wmGrid(?baseWidth,baseHeight,widthInc,heightInc?)
157           This method indicates that $toplevel is to be managed as a gridded
158           window.  It also specifies the relationship between grid units and
159           pixel units.  BaseWidth and baseHeight specify the number of grid
160           units corresponding to the pixel dimensions requested internally by
161           $toplevel using Tk_GeometryRequest.  WidthInc and heightInc specify
162           the number of pixels in each horizontal and vertical grid unit.
163           These four values determine a range of acceptable sizes for
164           $toplevel, corresponding to grid-based widths and heights that are
165           non-negative integers.  Tk will pass this information to the window
166           manager;  during manual resizing, the window manager will restrict
167           the window's size to one of these acceptable sizes.  Furthermore,
168           during manual resizing the window manager will display the window's
169           current size in terms of grid units rather than pixels.  If
170           baseWidth etc. are all specified as empty strings, then $toplevel
171           will no longer be managed as a gridded window.  If baseWidth etc.
172           are specified then the return value is an empty string.  Otherwise
173           the return value is a array containing four elements corresponding
174           to the current baseWidth, baseHeight, widthInc, and heightInc;  if
175           $toplevel is not currently gridded, then an empty string is
176           returned.  Note: this command should not be needed very often,
177           since the Tk_SetGrid library procedure and the -setgrid option
178           provide easier access to the same functionality.
179
180       $toplevel->group(?$widget?)
181           If $widget is specified, it is the the leader of a group of related
182           windows.  The window manager may use this information, for example,
183           to unmap all of the windows in a group when the group's leader is
184           iconified.  $widget may be specified as an empty string to remove
185           $toplevel from any group association.  If $widget is specified then
186           the method returns an empty string;  otherwise it returns the
187           $toplevel's current group leader, or an empty string if $toplevel
188           isn't part of any group.
189
190       $toplevel->iconbitmap(?bitmap?)
191           If bitmap is specified, then it names a bitmap in the standard
192           forms accepted by Tk (see the Tk_GetBitmap documentation for
193           details).  This black and white bitmap is passed to the window
194           manager to be displayed in $toplevel's icon, and the method returns
195           an empty string.  If an empty string is specified for bitmap, then
196           any current icon bitmap or image is cancelled for $toplevel.  If
197           bitmap is specified then the method returns an empty string.
198           Otherwise it returns the name of the current icon bitmap associated
199           with $toplevel, or an empty string if $toplevel has no icon bitmap.
200
201       $toplevel->iconify
202           Arrange for $toplevel to be iconified.  It $toplevel hasn't yet
203           been mapped for the first time, this method will arrange for it to
204           appear in the iconified state when it is eventually mapped.
205
206       $toplevel->iconimage(?image?)
207           If image is specified, then it names a normal Tk image.  This image
208           is rendered into a private coloured bitmap which is passed to the
209           window manager to be displayed in $toplevel's icon, and the method
210           returns an empty string. If an empty string is specified for image,
211           then any current icon bitmap or image is cancelled for $toplevel.
212           If image is specified then the method returns an empty string.
213           Otherwise it returns the name of the current icon image associated
214           with $toplevel, or an empty string if $toplevel has no icon image.
215           The private pixmap is not pre-cleared so images which are partly
216           "transparent" display rubbish in their transparent parts.
217
218           The sizes of images that can be used as icons in this manner are
219           platform dependant. On Win32 this sets the "large" icon, which
220           should be 32x32, it will automatically be scaled down to 16x16 for
221           use as a small icon.
222
223       $toplevel->iconmask(?bitmap?)
224           If bitmap is specified, then it names a bitmap in the standard
225           forms accepted by Tk (see the Tk_GetBitmap documentation for
226           details).  This bitmap is passed to the window manager to be used
227           as a mask in conjunction with the iconbitmap option:  where the
228           mask has zeroes no icon will be displayed;  where it has ones, the
229           bits from the icon bitmap will be displayed.  If an empty string is
230           specified for bitmap then any current icon mask is cancelled for
231           $toplevel (this is equivalent to specifying a bitmap of all ones).
232           If bitmap is specified then the method returns an empty string.
233           Otherwise it returns the name of the current icon mask associated
234           with $toplevel, or an empty string if no mask is in effect.
235
236       $toplevel->iconname(?newName?)
237           If newName is specified, then it is passed to the window manager;
238           the window manager should display newName inside the icon
239           associated with $toplevel.  In this case an empty string is
240           returned as result.  If newName isn't specified then the method
241           returns the current icon name for $toplevel, or an empty string if
242           no icon name has been specified (in this case the window manager
243           will normally display the window's title, as specified with the
244           title method).
245
246       $toplevel->iconphoto(?-default? image1 ?image2 ...?)
247           Sets the titlebar icon for  window  based  on  the  named  photo
248           images.  If -default is specified, this is applied to all future
249           created toplevels as well.  The data in the images is taken as a
250           snapshot  at  the  time  of invocation.  If the images are later
251           changed, this is not reflected to the titlebar icons.   Multiple
252           images  are  accepted to allow different images sizes (eg, 16x16
253           and 32x32) to be provided.  The window manager  may  scale  pro-
254           vided icons to an appropriate size.
255
256           On Windows, the images are packed into a Windows icon structure.
257           This will override an ico specified to wm iconbitmap,  and  vice
258           versa. [NOTE: This is not implemented yet!]
259
260           On  X, the images are arranged into the _NET_WM_ICON X property,
261           which most modern window managers support.  A wm iconbitmap  may
262           exist  simultaneously.  It is recommended to use not more than 2
263           icons, placing the larger icon first.
264
265           On Macintosh, this is currently does nothing.
266
267       $toplevel->iconposition(?x y?)
268           If x and y are specified, they are passed to the window manager as
269           a hint about where to position the icon for $toplevel.  In this
270           case an empty string is returned.  If x and y are specified as
271           empty strings then any existing icon position hint is cancelled.
272           If neither x nor y is specified, then the method returns a array
273           containing two values, which are the current icon position hints
274           (if no hints are in effect then an empty string is returned).
275
276       $toplevel->iconwindow(?$widget?)
277           If $widget is specified, it is a window to use as icon for
278           $toplevel: when $toplevel is iconified then $widget will be mapped
279           to serve as icon, and when $toplevel is de-iconified then $widget
280           will be unmapped again.  If $widget is specified as an empty string
281           then any existing icon window association for $toplevel will be
282           cancelled.  If the $widget argument is specified then an empty
283           string is returned.  Otherwise the method returns the current icon
284           window for $toplevel, or an empty string if there is no icon window
285           currently specified for $toplevel.  Button press events are
286           disabled for $toplevel as long as it is an icon window;  this is
287           needed in order to allow window managers to ``own'' those events.
288           Note: not all window managers support the notion of an icon window.
289
290       $toplevel->maxsize(?width,height?)
291           If width and height are specified, they give the maximum
292           permissible dimensions for $toplevel.  For gridded windows the
293           dimensions are specified in grid units;  otherwise they are
294           specified in pixel units.  The window manager will restrict the
295           window's dimensions to be less than or equal to width and height.
296           If width and height are specified, then the method returns an empty
297           string.  Otherwise it returns a array with two elements, which are
298           the maximum width and height currently in effect.  The maximum size
299           defaults to the size of the screen.  If resizing has been disabled
300           with the resizable method, then this method has no effect.  See the
301           sections on geometry management below for more information.
302
303       $toplevel->minsize(?width,height?)
304           If width and height are specified, they give the minimum
305           permissible dimensions for $toplevel.  For gridded windows the
306           dimensions are specified in grid units;  otherwise they are
307           specified in pixel units.  The window manager will restrict the
308           window's dimensions to be greater than or equal to width and
309           height.  If width and height are specified, then the method returns
310           an empty string.  Otherwise it returns a array with two elements,
311           which are the minimum width and height currently in effect.  The
312           minimum size defaults to one pixel in each dimension.  If resizing
313           has been disabled with the resizable method, then this method has
314           no effect.  See the sections on geometry management below for more
315           information.
316
317       $toplevel->overrideredirect(?boolean?)
318           If boolean is specified, it must have a proper boolean form and the
319           override-redirect flag for $toplevel is set to that value.  If
320           boolean is not specified then 1 or 0 is returned to indicate
321           whether or not the override-redirect flag is currently set for
322           $toplevel.  Setting the override-redirect flag for a window causes
323           it to be ignored by the window manager;  among other things, this
324           means that the window will not be reparented from the root window
325           into a decorative frame and the user will not be able to manipulate
326           the window using the normal window manager mechanisms.
327
328       $toplevel->positionfrom(?who?)
329           If who is specified, it must be either program or user, or an
330           abbreviation of one of these two.  It indicates whether $toplevel's
331           current position was requested by the program or by the user.  Many
332           window managers ignore program-requested initial positions and ask
333           the user to manually position the window;  if user is specified
334           then the window manager should position the window at the given
335           place without asking the user for assistance.  If who is specified
336           as an empty string, then the current position source is cancelled.
337           If who is specified, then the method returns an empty string.
338           Otherwise it returns user or $widget to indicate the source of the
339           window's current position, or an empty string if no source has been
340           specified yet.  Most window managers interpret ``no source'' as
341           equivalent to program.  Tk will automatically set the position
342           source to user when a geometry method is invoked, unless the source
343           has been set explicitly to program.
344
345       $toplevel->protocol(?name?,?callback?)
346           This method is used to manage window manager protocols such as
347           WM_DELETE_WINDOW.  Name is the name of an atom corresponding to a
348           window manager protocol, such as WM_DELETE_WINDOW or
349           WM_SAVE_YOURSELF or WM_TAKE_FOCUS.  If both name and callback are
350           specified, then callback is associated with the protocol specified
351           by name.  Name will be added to $toplevel's WM_PROTOCOLS property
352           to tell the window manager that the application has a protocol
353           handler for name, and callback will be invoked in the future
354           whenever the window manager sends a message to the client for that
355           protocol.  In this case the method returns an empty string.  If
356           name is specified but callback isn't, then the current callback for
357           name is returned, or an empty string if there is no handler defined
358           for name.  If callback is specified as an empty string then the
359           current handler for name is deleted and it is removed from the
360           WM_PROTOCOLS property on $toplevel;  an empty string is returned.
361           Lastly, if neither name nor callback is specified, the method
362           returns a list of all the protocols for which handlers are
363           currently defined for $toplevel.
364
365                   Tk always defines a protocol handler for WM_DELETE_WINDOW,
366                   even if you haven't asked for one with protocol.  If a
367                   WM_DELETE_WINDOW message arrives when you haven't defined a
368                   handler, then Tk handles the message by destroying the
369                   window for which it was received.
370
371       $toplevel->resizable(?width,height?)
372           This method controls whether or not the user may interactively
373           resize a top-level window.  If width and height are specified, they
374           are boolean values that determine whether the width and height of
375           $toplevel may be modified by the user.  In this case the method
376           returns an empty string.  If width and height are omitted then the
377           method returns a list with two 0/1 elements that indicate whether
378           the width and height of $toplevel are currently resizable.  By
379           default, windows are resizable in both dimensions.  If resizing is
380           disabled, then the window's size will be the size from the most
381           recent interactive resize or geometry method.  If there has been no
382           such operation then the window's natural size will be used.
383
384       $toplevel->sizefrom(?who?)
385           If who is specified, it must be either program or user, or an
386           abbreviation of one of these two.  It indicates whether $toplevel's
387           current size was requested by the program or by the user.  Some
388           window managers ignore program-requested sizes and ask the user to
389           manually size the window;  if user is specified then the window
390           manager should give the window its specified size without asking
391           the user for assistance.  If who is specified as an empty string,
392           then the current size source is cancelled.  If who is specified,
393           then the method returns an empty string.  Otherwise it returns user
394           or $widget to indicate the source of the window's current size, or
395           an empty string if no source has been specified yet.  Most window
396           managers interpret ``no source'' as equivalent to program.
397
398       $toplevel->stackorder( ?isabove|isbelow $toplevel? );
399           The stackorder command returns a list  of  toplevel  windows  in
400           stacking  order,  from lowest to highest. When a single toplevel
401           window is passed, the returned list recursively includes all  of
402           the  window's  children that are toplevels. Only those toplevels
403           that are currently mapped  to  the  screen  are  returned.   The
404           stackorder command can also be used to determine if one toplevel is
405           positioned above or below a second toplevel.  When two window
406           arguments  separated  by either isabove or isbelow are passed, a
407           boolean result indicates whether or not the first window is
408           currently above or below the second window in the stacking order.
409
410       $toplevel->state(?newstate?)
411           If newstate is specified, the window will be set to the new state,
412           otherwise it returns the current state of $toplevel: either normal,
413           iconic, withdrawn, icon, or (Windows only) zoomed. The difference
414           between iconic and icon is that iconic refers to a window that has
415           been iconified (e.g., with the iconify method) while icon refers to
416           a window whose only purpose is to serve as the icon for some other
417           window (via the iconwindow method). The icon state cannot be set.
418
419       $toplevel->title(?string?)
420           If string is specified, then it will be passed to the window
421           manager for use as the title for $toplevel (the window manager
422           should display this string in $toplevel's title bar).  In this case
423           the method returns an empty string.  If string isn't specified then
424           the method returns the current title for the $toplevel.  The title
425           for a window defaults to its name.
426
427       $toplevel->transient(?master?)
428           If master is specified, then the window manager is informed that
429           $toplevel is a transient window (e.g. pull-down menu) working on
430           behalf of master (where master is a top-level window).  Some window
431           managers will use this information to manage $toplevel specially.
432           If master is specified as an empty string then $toplevel is marked
433           as not being a transient window any more.  If master is specified,
434           then the method returns an empty string.  Otherwise the method
435           returns the path name of $toplevel's current master, or an empty
436           string if $toplevel isn't currently a transient window.
437
438       $toplevel->withdraw
439           Arranges for $toplevel to be withdrawn from the screen.  This
440           causes the window to be unmapped and forgotten about by the window
441           manager.  If the window has never been mapped, then this method
442           causes the window to be mapped in the withdrawn state.  Not all
443           window managers appear to know how to handle windows that are
444           mapped in the withdrawn state.  Note: it sometimes seems to be
445           necessary to withdraw a window and then re-map it (e.g. with
446           deiconify) to get some window managers to pay attention to changes
447           in window attributes such as group.
448
449       $toplevel->wrapper
450           Returns the window id of the wrapper window in which Tk has placed
451           $toplevel. This is the id by which window manager will know
452           $toplevel, and so is appropriate place to add X properties.
453

ICON SIZES

455       The sizes of bitmaps/images that can be used as icons in this manner
456       are platform and window manager dependant. Unix window managers are
457       typically more tolerant than Win32. It is possible that coloured
458       "iconimage" icons may cause problems on some X window managers.
459
460       ·   Win32
461
462           "iconimage" and "iconbitmap" set the "large" icon, which should be
463           32x32, it will automatically be scaled down to 16x16 for use as a
464           small icon.  Win32 ignores "iconwin" requests.
465
466       ·   KDE's "kwm"
467
468           Accepts coloured "iconimage" and black and white "iconbitmap" but
469           will scale either to a small (14x14?) icon. Kwm ignores "iconwin".
470
471       ·   Sun's "olwm" or "olvwm"
472
473           Honours "iconwin" which will override "iconimage" or "iconbitmap".
474           Coloured images work.
475
476       ·   Sun's CDE window manager
477
478           Coloured images work. ...
479

GEOMETRY MANAGEMENT

481       By default a top-level window appears on the screen in its natural
482       size, which is the one determined internally by its widgets and
483       geometry managers.  If the natural size of a top-level window changes,
484       then the window's size changes to match.  A top-level window can be
485       given a size other than its natural size in two ways.  First, the user
486       can resize the window manually using the facilities of the window
487       manager, such as resize handles.  Second, the application can request a
488       particular size for a top-level window using the geometry method.
489       These two cases are handled identically by Tk;  in either case, the
490       requested size overrides the natural size.  You can return the window
491       to its natural by invoking geometry with an empty geometry string.
492
493       Normally a top-level window can have any size from one pixel in each
494       dimension up to the size of its screen.  However, you can use the
495       minsize and maxsize methods to limit the range of allowable sizes.  The
496       range set by minsize and maxsize applies to all forms of resizing,
497       including the window's natural size as well as manual resizes and the
498       geometry method.  You can also use the method resizable to completely
499       disable interactive resizing in one or both dimensions.
500

GRIDDED GEOMETRY MANAGEMENT

502       Gridded geometry management occurs when one of the widgets of an
503       application supports a range of useful sizes.  This occurs, for
504       example, in a text editor where the scrollbars, menus, and other
505       adornments are fixed in size but the edit widget can support any number
506       of lines of text or characters per line.  In this case, it is usually
507       desirable to let the user specify the number of lines or characters-
508       per-line, either with the geometry method or by interactively resizing
509       the window.  In the case of text, and in other interesting cases also,
510       only discrete sizes of the window make sense, such as integral numbers
511       of lines and characters-per-line;  arbitrary pixel sizes are not
512       useful.
513
514       Gridded geometry management provides support for this kind of
515       application.  Tk (and the window manager) assume that there is a grid
516       of some sort within the application and that the application should be
517       resized in terms of grid units rather than pixels.  Gridded geometry
518       management is typically invoked by turning on the setGrid option for a
519       widget;  it can also be invoked with the wmGrid method or by calling
520       Tk_SetGrid.  In each of these approaches the particular widget (or
521       sometimes code in the application as a whole) specifies the
522       relationship between integral grid sizes for the window and pixel
523       sizes.  To return to non-gridded geometry management, invoke grid with
524       empty argument strings.
525
526       When gridded geometry management is enabled then all the dimensions
527       specified in minsize, maxsize, and geometry methods are treated as grid
528       units rather than pixel units.  Interactive resizing is also carried
529       out in even numbers of grid units rather than pixels.
530

BUGS

532       Most existing window managers appear to have bugs that affect the
533       operation of the wm methods.  For example, some changes won't take
534       effect if the window is already active:  the window will have to be
535       withdrawn and de-iconified in order to make the change happen.
536

SEE ALSO

538       Tk::Widget Tk::tixWm Tk::Mwm
539

KEYWORDS

541       aspect ratio, deiconify, focus model, geometry, grid, group, icon,
542       iconify, increments, position, size, title, top-level window, units,
543       window manager
544
545
546
547perl v5.16.3                      2014-06-10                             Wm(3)
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