Shell Widgets
Shell widgets hold an application's top-level widgets to allow them to
communicate with the window manager and session manager.
Shells have been designed to be as nearly invisible as possible.
Clients have to create them,
but they should never have to worry about their sizes.
If a shell widget is resized from the outside (typically by a window manager),
the shell widget also resizes its managed child widget automatically.
Similarly, if the shell's child widget needs to change size,
it can make a geometry request to the shell,
and the shell negotiates the size change with the outer environment.
Clients should never attempt to change the size of their shells directly.
The five types of public shells are:
OverrideShell
Used for shell windows that completely bypass the window manager
(for example, pop-up menu shells).
TransientShell
Used for shell windows that have the
WM_TRANSIENT_FOR
property set. The effect of this property is dependent upon the
window manager being used.
TopLevelShell
Used for normal top-level windows
(for example, any additional top-level widgets an application needs).
ApplicationShell
Formerly used for the single main top-level window that
the window manager identifies as an application instance and
made obsolete by SessionShell.
SessionShell
Used for the single main top-level window that
the window manager identifies as an application instance and
that interacts with the session manager.
Shell Widget Definitions
Widgets negotiate their size and position with their parent widget,
that is, the widget that directly contains them.
Widgets at the top of the hierarchy do not have parent widgets.
Instead, they must deal with the outside world.
To provide for this,
each top-level widget is encapsulated in a special widget, called a
shell widget.
Shell
widgets, whose class is a subclass of the
Composite class,
encapsulate other widgets and can allow a widget to avoid the
geometry clipping imposed by the parent-child window relationship.
They also can provide a layer of communication with the window manager.
The eight different types of shells are:
Shell
The base class for shell widgets; provides the
fields needed for all types of shells. Shell
is a direct subclass of
compositeWidgetClass.
OverrideShell
A subclass of Shell; used for shell windows that completely
bypass the window manager.
WMShell
A subclass of Shell; contains fields needed by the
common window manager protocol.
VendorShell
A subclass of WMShell; contains fields used by
vendor-specific window managers.
TransientShell
A subclass of VendorShell; used for shell windows that
desire the WM_TRANSIENT_FOR
property.
TopLevelShell
A subclass of VendorShell; used for normal top-level windows.
ApplicationShell
A subclass of TopLevelShell; may be used for an application's additional
root windows.
SessionShell
A subclass of ApplicationShell; used for an application's
main root window.
Note that the classes
Shell,
WMShell,
and
VendorShell
are internal and should not be instantiated or subclassed.
Only
OverrrideShell,
TransientShell,
TopLevelShell,
ApplicationShell,
and
SessionShell
are intended for public use.
ShellClassPart Definitions
Only the Shell
class has additional class fields, which are all contained in the
ShellClassExtensionRec.
None of the other Shell classes have any additional class fields:
typedef struct {
XtPointer extension;
} ShellClassPart, OverrideShellClassPart,
WMShellClassPart, VendorShellClassPart, TransientShellClassPart,
TopLevelShellClassPart, ApplicationShellClassPart, SessionShellClassPart;
The full Shell class record definitions are:
typedef struct _ShellClassRec {
CoreClassPart core_class;
CompositeClassPart composite_class;
ShellClassPart shell_class;
} ShellClassRec;
typedef struct { See
XtPointer next_extension;
XrmQuark record_type;
long version;
Cardinal record_size;
XtGeometryHandler root_geometry_manager; See below
} ShellClassExtensionRec, *ShellClassExtension;
typedef struct _OverrideShellClassRec {
CoreClassPart core_class;
CompositeClassPart composite_class;
ShellClassPart shell_class;
OverrideShellClassPart override_shell_class;
} OverrideShellClassRec;
typedef struct _WMShellClassRec {
CoreClassPart core_class;
CompositeClassPart composite_class;
ShellClassPart shell_class;
WMShellClassPart wm_shell_class;
} WMShellClassRec;
typedef struct _VendorShellClassRec {
CoreClassPart core_class;
CompositeClassPart composite_class;
ShellClassPart shell_class;
WMShellClassPart wm_shell_class;
VendorShellClassPart vendor_shell_class;
} VendorShellClassRec;
typedef struct _TransientShellClassRec {
CoreClassPart core_class;
CompositeClassPart composite_class;
ShellClassPart shell_class;
WMShellClassPart wm_shell_class;
VendorShellClassPart vendor_shell_class;
TransientShellClassPart transient_shell_class;
} TransientShellClassRec;
typedef struct _TopLevelShellClassRec {
CoreClassPart core_class;
CompositeClassPart composite_class;
ShellClassPart shell_class;
WMShellClassPart wm_shell_class;
VendorShellClassPart vendor_shell_class;
TopLevelShellClassPart top_level_shell_class;
} TopLevelShellClassRec;
typedef struct _ApplicationShellClassRec {
CoreClassPart core_class;
CompositeClassPart composite_class;
ShellClassPart shell_class;
WMShellClassPart wm_shell_class;
VendorShellClassPart vendor_shell_class;
TopLevelShellClassPart top_level_shell_class;
ApplicationShellClassPart application_shell_class;
} ApplicationShellClassRec;
typedef struct _SessionShellClassRec {
CoreClassPart core_class;
CompositeClassPart composite_class;
ShellClassPart shell_class;
WMShellClassPart wm_shell_class;
VendorShellClassPart vendor_shell_class;
TopLevelShellClassPart top_level_shell_class;
ApplicationShellClassPart application_shell_class;
SessionShellClassPart session_shell_class;
} SessionShellClassRec;
The single occurrences of the class records and pointers for creating
instances of shells are:
extern ShellClassRec shellClassRec;
extern OverrideShellClassRec overrideShellClassRec;
extern WMShellClassRec wmShellClassRec;
extern VendorShellClassRec vendorShellClassRec;
extern TransientShellClassRec transientShellClassRec;
extern TopLevelShellClassRec topLevelShellClassRec;
extern ApplicationShellClassRec applicationShellClassRec;
extern SessionShellClassRec sessionShellClassRec;
extern WidgetClass shellWidgetClass;
extern WidgetClass overrideShellWidgetClass;
extern WidgetClass wmShellWidgetClass;
extern WidgetClass vendorShellWidgetClass;
extern WidgetClass transientShellWidgetClass;
extern WidgetClass topLevelShellWidgetClass;
extern WidgetClass applicationShellWidgetClass;
extern WidgetClass sessionShellWidgetClass;
The following opaque types and opaque variables are defined
for generic operations on widgets whose class is a subclass of
Shell.
Types
Variables
ShellWidget
shellWidgetClass
OverrideShellWidget
overrideShellWidgetClass
WMShellWidget
wmShellWidgetClass
VendorShellWidget
vendorShellWidgetClass
TransientShellWidget
transientShellWidgetClass
TopLevelShellWidget
topLevelShellWidgetClass
ApplicationShellWidget
applicationShellWidgetClass
SessionShellWidget
sessionShellWidgetClass
ShellWidgetClass
OverrideShellWidgetClass
WMShellWidgetClass
VendorShellWidgetClass
TransientShellWidgetClass
TopLevelShellWidgetClass
ApplicationShellWidgetClass
SessionShellWidgetClass
The declarations for all Intrinsics-defined shells except
VendorShell appear in
and
.
VendorShell has separate public and private .h files which are included by
and
.
uses incomplete structure definitions to ensure that the
compiler catches attempts to access private data in any of the Shell
instance or class data structures.
The symbolic constant for the
ShellClassExtension
version identifier is
XtShellExtensionVersion
(see ).
The root_geometry_manager procedure acts as
the parent geometry manager for geometry requests made by shell
widgets. When a shell widget calls either
or
,
the root_geometry_manager procedure is invoked to
negotiate the new geometry with the window manager. If the window
manager permits the new geometry, the root_geometry_manager
procedure should
return
XtGeometryYes;
if the window manager denies the geometry
request or does not change the window geometry within some timeout
interval (equal to wm_timeout in the case of WMShells), the
root_geometry_manager procedure should return
XtGeometryNo.
If the window manager makes some alternative geometry change, the
root_geometry_manager procedure may return either
XtGeometryNo
and handle the new geometry as a resize or
XtGeometryAlmost
in anticipation that the shell will accept the compromise. If the
compromise is not accepted, the new size must then be handled as a
resize. Subclasses of
Shell
that wish to provide their own
root_geometry_manager procedures are strongly encouraged to use enveloping to
invoke their superclass's root_geometry_manager procedure under most
situations, as the window manager interaction may be very complex.
If no
ShellClassPart
extension record is declared with record_type
equal to
NULLQUARK,
then
XtInheritRootGeometryManager
is assumed.
ShellPart Definition
The various shell widgets have the following additional instance
fields defined in
their widget records:
typedef struct {
String geometry;
XtCreatePopupChildProc create_popup_child_proc;
XtGrabKind grab_kind;
Boolean spring_loaded;
Boolean popped_up;
Boolean allow_shell_resize;
Boolean client_specified;
Boolean save_under;
Boolean override_redirect;
XtCallbackList popup_callback;
XtCallbackList popdown_callback;
Visual * visual;
} ShellPart;
typedef struct {
int empty;
} OverrideShellPart;
typedef struct {
String title;
int wm_timeout;
Boolean wait_for_wm;
Boolean transient;
Boolean urgency;
Widget client_leader;
String window_role;
struct _OldXSizeHints {
long flags;
int x, y;
int width, height;
int min_width, min_height;
int max_width, max_height;
int width_inc, height_inc;
struct {
int x;
int y;
} min_aspect, max_aspect;
} size_hints;
XWMHints wm_hints;
int base_width, base_height, win_gravity;
Atom title_encoding;
} WMShellPart;
typedef struct {
int vendor_specific;
} VendorShellPart;
typedef struct {
Widget transient_for;
} TransientShellPart;
typedef struct {
String icon_name;
Boolean iconic;
Atom icon_name_encoding;
} TopLevelShellPart;
typedef struct {
char * class;
XrmClass xrm_class;
int argc;
char ** argv;
} ApplicationShellPart;
typedef struct {
SmcConn connection;
String session_id;
String * restart_command;
String * clone_command;
String * discard_command;
String * resign_command;
String * shutdown_command;
String * environment;
String current_dir;
String program_path;
unsigned char restart_style;
Boolean join_session;
XtCallbackList save_callbacks;
XtCallbackList interact_callbacks;
XtCallbackList cancel_callbacks;
XtCallbackList save_complete_callbacks;
XtCallbackList die_callbacks;
XtCallbackList error_callbacks;
} SessionShellPart;
The full shell widget instance record definitions are:
typedef struct {
CorePart core;
CompositePart composite;
ShellPart shell;
} ShellRec, *ShellWidget;
typedef struct {
CorePart core;
CompositePart composite;
ShellPart shell;
OverrideShellPart override;
} OverrideShellRec, *OverrideShellWidget;
typedef struct {
CorePart core;
CompositePart composite;
ShellPart shell;
WMShellPart wm;
} WMShellRec, *WMShellWidget;
typedef struct {
CorePart core;
CompositePart composite;
ShellPart shell;
WMShellPart wm;
VendorShellPart vendor;
} VendorShellRec, *VendorShellWidget;
typedef struct {
CorePart core;
CompositePart composite;
ShellPart shell;
WMShellPart wm;
VendorShellPart vendor;
TransientShellPart transient;
} TransientShellRec, *TransientShellWidget;
typedef struct {
CorePart core;
CompositePart composite;
ShellPart shell;
WMShellPart wm;
VendorShellPart vendor;
TopLevelShellPart topLevel;
} TopLevelShellRec, *TopLevelShellWidget;
typedef struct {
CorePart core;
CompositePart composite;
ShellPart shell;
WMShellPart wm;
VendorShellPart vendor;
TopLevelShellPart topLevel;
ApplicationShellPart application;
} ApplicationShellRec, *ApplicationShellWidget;
typedef struct {
CorePart core;
CompositePart composite;
ShellPart shell;
WMShellPart wm;
VendorShellPart vendor;
TopLevelShellPart topLevel;
ApplicationShellPart application;
SessionShellPart session;
} SessionShellRec, *SessionShellWidget;
Shell Resources
The resource names, classes, and representation types specified in
the
shellClassRec
resource list are:
Name
Class
Representation
XtNallowShellResize
XtCAllowShellResize
XtRBoolean
XtNcreatePopupChildProc
XtCCreatePopupChildProc
XtRFunction
XtNgeometry
XtCGeometry
XtRString
XtNoverrideRedirect
XtCOverrideRedirect
XtRBoolean
XtNpopdownCallback
XtCCallback
XtRCallback
XtNpopupCallback
XtCCallback
XtRCallback
XtNsaveUnder
XtCSaveUnder
XtRBoolean
XtNvisual
XtCVisual
XtRVisual
OverrideShell
declares no additional resources beyond those defined by
Shell.
The resource names, classes, and representation types specified in
the
wmShellClassRec
resource list are:
Name
Class
Representation
XtNbaseHeight
XtCBaseHeight
XtRInt
XtNbaseWidth
XtCBaseWidth
XtRInt
XtNclientLeader
XtCClientLeader
XtRWidget
XtNheightInc
XtCHeightInc
XtRInt
XtNiconMask
XtCIconMask
XtRBitmap
XtNiconPixmap
XtCIconPixmap
XtRBitmap
XtNiconWindow
XtCIconWindow
XtRWindow
XtNiconX
XtCIconX
XtRInt
XtNiconY
XtCIconY
XtRInt
XtNinitialState
XtCInitialState
XtRInitialState
XtNinput
XtCInput
XtRBool
XtNmaxAspectX
XtCMaxAspectX
XtRInt
XtNmaxAspectY
XtCMaxAspectY
XtRInt
XtNmaxHeight
XtCMaxHeight
XtRInt
XtNmaxWidth
XtCMaxWidth
XtRInt
XtNminAspectX
XtCMinAspectX
XtRInt
XtNminAspectY
XtCMinAspectY
XtRInt
XtNminHeight
XtCMinHeight
XtRInt
XtNminWidth
XtCMinWidth
XtRInt
XtNtitle
XtCTitle
XtRString
XtNtitleEncoding
XtCTitleEncoding
XtRAtom
XtNtransient
XtCTransient
XtRBoolean
XtNwaitforwm, XtNwaitForWm
XtCWaitforwm, XtCWaitForWm
XtRBoolean
XtNwidthInc
XtCWidthInc
XtRInt
XtNwindowRole
XtCWindowRole
XtRString
XtNwinGravity
XtCWinGravity
XtRGravity
XtNwindowGroup
XtCWindowGroup
XtRWindow
XtNwmTimeout
XtCWmTimeout
XtRInt
XtNurgency
XtCUrgency
XtRBoolean
The class resource list for
VendorShell
is implementation-defined.
The resource names, classes, and representation types that are specified in the
transientShellClassRec
resource list are:
Name
Class
Representation
XtNtransientFor
XtCTransientFor
XtRWidget
The resource names, classes, and representation types that are specified in the
topLevelShellClassRec
resource list are:
Name
Class
Representation
XtNiconName
XtCIconName
XtRString
XtNiconNameEncoding
XtCIconNameEncoding
XtRAtom
XtNiconic
XtCIconic
XtRBoolean
The resource names, classes, and representation types that are specified in the
applicationShellClassRec
resource list are:
Name
Class
Representation
XtNargc
XtCArgc
XtRInt
XtNargv
XtCArgv
XtRStringArray
The resource names, classes, and representation types that are specified
in the
sessionShellClassRec
resource list are:
Name
Class
Representation
XtNcancelCallback
XtCCallback
XtRCallback
XtNcloneCommand
XtCCloneCommand
XtRCommandArgArray
XtNconnection
XtCConnection
XtRSmcConn
XtNcurrentDirectory
XtCCurrentDirectory
XtRDirectoryString
XtNdieCallback
XtCCallback
XtRCallback
XtNdiscardCommand
XtCDiscardCommand
XtRCommandArgArray
XtNenvironment
XtCEnvironment
XtREnvironmentArray
XtNerrorCallback
XtCCallback
XtRCallback
XtNinteractCallback
XtCCallback
XtRCallback
XtNjoinSession
XtCJoinSession
XtRBoolean
XtNprogramPath
XtCProgramPath
XtRString
XtNresignCommand
XtCResignCommand
XtRCommandArgArray
XtNrestartCommand
XtCRestartCommand
XtRCommandArgArray
XtNrestartStyle
XtCRestartStyle
XtRRestartStyle
XtNsaveCallback
XtCCallback
XtRCallback
XtNsaveCompleteCallback
XtCCallback
XtRCallback
XtNsessionID
XtCSessionID
XtRString
XtNshutdownCommand
XtCShutdownCommand
XtRCommandArgArray
ShellPart Default Values
The default values for fields common to all classes of public shells
(filled in by the
Shell
resource lists and the
Shell
initialize procedures) are:
Field
Default Value
geometry
NULL
create_popup_child_proc
NULL
grab_kind
(none)
spring_loaded
(none)
popped_up
False
allow_shell_resize
False
client_specified
(internal)
save_under
True
for OverrideShell and TransientShell,
False
otherwise
override_redirect
True
for OverrideShell,
False
otherwise
popup_callback
NULL
popdown_callback
NULL
visual
CopyFromParent
The geometry field specifies the size and position
and is usually given only on a command line or in a defaults file.
If the geometry field is non-NULL when
a widget of class WMShell
is realized, the geometry specification is parsed using
XWMGeometry
with a default geometry
string constructed from the values of x, y, width,
height, width_inc,
and height_inc and the size and position flags in the window manager
size hints are set. If the geometry specifies an x or y position,
then
USPosition
is set. If the geometry specifies a width or height, then
USSize
is set. Any fields in the geometry specification
override the corresponding values in the
Core x, y, width, and height fields.
If geometry is NULL or contains only a partial specification, then the
Core x, y, width, and height fields are used and
PPosition
and
PSize
are set as appropriate.
The geometry string is not copied by any of the Intrinsics
Shell classes; a client specifying the string in an arglist
or varargs list must ensure
that the value remains valid until the shell widget is realized.
For further information on the geometry string, see
Parsing the Window Geometry
in Xlib — C Language X Interface.
The create_popup_child_proc procedure is called by the
procedure and may remain NULL.
The grab_kind, spring_loaded,
and popped_up fields maintain widget
state information as described under
,
,
,
and
.
The allow_shell_resize field controls whether the widget contained
by the shell is allowed to try to resize itself.
If allow_shell_resize is
False,
any geometry requests made by the child will always return
XtGeometryNo
without interacting with the window manager.
Setting save_under
True
instructs the server to attempt
to save the contents of windows obscured by the shell when it is mapped
and to restore those contents automatically when the shell is unmapped.
It is useful for pop-up menus.
Setting override_redirect
True
determines
whether the window manager can intercede when the shell window
is mapped.
For further information on override_redirect,
see Window Attributes in
Xlib — C Language X Interface
and
Pop-up Windows and
Redirection of Operations in the
Inter-Client Communication Conventions Manual.
The pop-up and pop-down callbacks are called during
and
.
The default value of the visual resource is the symbolic value
CopyFromParent.
The Intrinsics do not need to query the parent's visual type when the
default value is used; if a client using
to examine the visual type receives the value
CopyFromParent,
it must then use
XGetWindowAttributes
if it needs the actual visual type.
The default values for Shell fields in
WMShell
and its subclasses are:
Field
Default Value
title
Icon name, if specified, otherwise the application's name
wm_timeout
Five seconds, in units of milliseconds
wait_for_wm
True
transient
True
for TransientShell,
False
otherwise
urgency
False
client_leader
NULL
window_role
NULL
min_width
XtUnspecifiedShellInt
min_height
XtUnspecifiedShellInt
max_width
XtUnspecifiedShellInt
max_height
XtUnspecifiedShellInt
width_inc
XtUnspecifiedShellInt
height_inc
XtUnspecifiedShellInt
min_aspect_x
XtUnspecifiedShellInt
min_aspect_y
XtUnspecifiedShellInt
max_aspect_x
XtUnspecifiedShellInt
max_aspect_y
XtUnspecifiedShellInt
input
False
initial_state
Normal
icon_pixmap
None
icon_window
None
icon_x
XtUnspecifiedShellInt
icon_y
XtUnspecifiedShellInt
icon_mask
None
window_group
XtUnspecifiedWindow
base_width
XtUnspecifiedShellInt
base_height
XtUnspecifiedShellInt
win_gravity
XtUnspecifiedShellInt
title_encoding
See text
The title and
title_encoding fields are stored in the
WM_NAME
property on the shell's window by the WMShell realize procedure.
If the title_encoding field is
None,
the title string is assumed to be in the encoding of the current
locale and the encoding of the
WM_NAME
property is set to
XStdICCTextStyle.
If a language procedure has not been set
the default value of title_encoding is
XA_STRING, otherwise the default value is
None.
The wm_timeout field specifies, in milliseconds,
the amount of time a shell is to wait for
confirmation of a geometry request to the window manager.
If none comes back within that time,
the shell assumes the window manager is not functioning properly
and sets wait_for_wm to
False
(later events may reset this value).
When wait_for_wm is
False,
the shell does not wait for a response, but relies on asynchronous
notification.
If transient is
True,
the
WM_TRANSIENT_FOR
property
will be stored on the shell window with a value as specified below.
The interpretation of this property is specific to the window manager
under which the application is run; see the
Inter-Client Communication Conventions Manual
for more details.
The realize and set_values procedures of WMShell store the
WM_CLIENT_LEADER
property on the shell window.
When client_leader is not NULL and the client leader widget is
realized, the property will be created with the value of the window of the
client leader widget.
When client_leader is NULL and the shell widget has a NULL parent,
the widget's window is used as the value of the
property.
When client_leader is NULL and the shell widget has a non-NULL parent,
a search is made for the closest shell ancestor
with a non-NULL client_leader,
and if none is found the shell ancestor with a NULL parent is the result.
If the resulting widget is realized, the property is created
with the value of the widget's window.
When the value of window_role is not NULL, the
realize and set_values procedures store the
WM_WINDOW_ROLE
property on the shell's window with the value of the resource.
All other resources specify fields in the window manager hints
and the window manager size hints.
The realize and set_values procedures of
WMShell
set the corresponding flag bits in the
hints if any of the fields contain nondefault values. In addition, if
a flag bit is set that refers to a field with the value
XtUnspecifiedShellInt,
the value of the field is modified as follows:
Field
Replacement
base_width, base_height
0
width_inc, height_inc
1
max_width, max_height
32767
min_width, min_height
1
min_aspect_x, min_aspect_y
-1
max_aspect_x, max_aspect_y
-1
icon_x, icon_y
-1
win_gravity
Value returned by
XWMGeometry
if called,
else NorthWestGravity
If the shell widget has a non-NULL parent, then the
realize and set_values procedures replace the value
XtUnspecifiedWindow
in the window_group field with the window id of the root widget
of the widget tree if the
root widget is realized. The symbolic constant
XtUnspecifiedWindowGroup
may be used to indicate that the window_group hint flag bit is not
to be set. If transient is
True,
the shell's class is not a subclass of
TransientShell,
and window_group is not
XtUnspecifiedWindowGroup,
the WMShell realize and set_values procedures then store the
WM_TRANSIENT_FOR
property with the value of window_group.
Transient
shells have the following additional resource:
Field
Replacement
transient_for
NULL
The realize and set_values procedures of
TransientShell
store the
WM_TRANSIENT_FOR
property on the shell window if transient is
True.
If transient_for is non-NULL and the widget specified by
transient_for is realized, then its window is used as the value of the
WM_TRANSIENT_FOR
property; otherwise, the value of window_group is used.
TopLevel
shells have the the following additional resources:
Field
Default Value
icon_name
Shell widget's name
iconic
False
icon_name_encoding
See text
The icon_name
and icon_name_encoding fields are stored in the
WM_ICON_NAME
property on the shell's window by the TopLevelShell realize
procedure.
If the icon_name_encoding field is
None,
the icon_name string is assumed to be in the encoding of the
current locale and the encoding of the
WM_ICON_NAME
property is set to
XStdICCTextStyle.
If a language procedure has not been set,
the default value of icon_name_encoding is
XA_STRING, otherwise the default value is
None.
The iconic field may be used by a client to request
that the window manager iconify or deiconify the shell; the
TopLevelShell
set_values procedure will send the appropriate
WM_CHANGE_STATE
message (as specified by the Inter-Client Communication Conventions Manual)
if this resource is changed from
False
to
True
and will call
specifying grab_kind as
XtGrabNone
if iconic is changed from
True
to
False.
The XtNiconic resource is also an alternative way to set
the XtNinitialState resource
to indicate that a shell should be initially displayed as an icon; the
TopLevelShell
initialize procedure will set initial_state to
IconicState
if iconic is
True.
Application
shells have the following additional resources:
Field
Default Value
argc
0
argv
NULL
The argc and argv fields are used to initialize
the standard property
WM_COMMAND. See the
Inter-Client Communication Conventions Manual
for more information.
The default values for the SessionShell instance fields,
which are filled in from the resource lists and by the
initialize procedure, are
Field
Default Value
cancel_callbacks
NULL
clone_command
See text
connection
NULL
current_dir
NULL
die_callbacks
NULL
discard_command
NULL
environment
NULL
error_callbacks
NULL
interact_callbacks
NULL
join_session
True
program_path
NULL
resign_command
NULL
restart_command
See text
restart_style
SmRestartIfRunning
save_callbacks
NULL
save_complete_callbacks
NULL
session_id
NULL
shutdown_command
NULL
The connection field contains the session connection object or NULL
if a session connection is not being managed by this widget.
The session_id is an identification assigned to the session
participant by the session manager.
The session_id will be passed to the session
manager as the client identifier of the previous session.
When a connection is established with the session manager,
the client id assigned by the session manager is stored
in the session_id field.
When not NULL, the session_id of the Session shell widget that
is at the root of the widget tree of the client leader widget will be
used to create the
SM_CLIENT_ID
property on the client leader's window.
If join_session is
False,
the widget will not attempt to establish a
connection to the session manager at shell creation time.
See and
for more information on the functionality of this resource.
The restart_command, clone_command, discard_command,
resign_command, shutdown_command, environment,
current_dir, program_path, and
restart_style fields contain standard session properties.
When a session connection is established or newly managed by the shell,
the shell initialize and set_values methods check the values of the
restart_command,
clone_command,
and program_path
resources. At that time, if restart_command is NULL, the value
of the argv resource will be copied to restart_command.
Whether or not restart_command was NULL,
if “-xtsessionID” “<session id>” does not
already appear in the restart_command, it will be added by the
initialize and set_values methods at the beginning of the command arguments;
if the “-xtsessionID” argument already appears with an incorrect
session id in the following argument, that argument
will be replaced with the current session id.
After this, the shell initialize and set_values procedures check the
clone_command. If clone_command is NULL,
restart_command will be copied to clone_command,
except the “-xtsessionID” and following argument will not be copied.
Finally, the shell initialize and set_values procedures check the
program_path. If program_path is NULL, the
first element of restart_command is copied to program_path.
The possible values of restart_style are
SmRestartIfRunning,
SmRestartAnyway,
SmRestartImmediately,
and
SmRestartNever.
A resource converter is registered for this resource;
for the strings that it recognizes,
see .
The resource type EnvironmentArray is a NULL-terminated array of
pointers to strings;
each string has the format “name=value”.
The `=' character may not appear in the name,
and the string is terminated by a null character.
Session Participation
Applications can participate in a user's session, exchanging messages
with the session manager as described in the
X Session Management Protocol and the
X Session Management Library.
When a widget of
sessionShellWidgetClass
or a subclass is created, the widget provides support for the application
as a session participant and continues to provide support until the
widget is destroyed.
Joining a Session
When a Session shell is created,
if connection is NULL,
and if join_session is
True,
and if argv or restart_command is not NULL,
and if in POSIX environments the
SESSION_MANAGER
environment variable is defined,
the shell will attempt to establish a new connection with the session manager.
To transfer management of an existing session connection from an
application to the shell at widget creation time, pass the existing
session connection ID as the connection resource value
when creating the Session shell,
and if the other creation-time conditions on session participation are met,
the widget will maintain the connection with the session manager.
The application must ensure that only one
Session shell manages the connection.
In the Session shell set_values procedure,
if join_session changes from
False
to
True
and connection is NULL and when in POSIX environments the
SESSION_MANAGER
environment variable is defined,
the shell will attempt to open a connection to the session manager.
If connection changes from NULL to non-NULL, the
Session shell
will take over management of that session connection and will set
join_session to
True.
If join_session changes from
False
to
True
and connection is not NULL, the
Session shell will take over management of the session connection.
When a successful connection has been established, connection
contains the session connection ID for the session participant.
When the shell begins to manage the connection, it will call
to register the handler which watches for protocol messages
from the session manager.
When the attempt to connect fails, a warning message is issued
and connection is set to NULL.
While the connection is being managed, if a
SaveYourself,
SaveYourselfPhase2,
Interact,
ShutdownCancelled,
SaveComplete,
or
Die
message is received from the session manager, the Session shell will
call out to application callback procedures registered
on the respective callback list of the Session shell and will
send
SaveYourselfPhase2Request,
InteractRequest,
InteractDone,
SaveYourselfDone,
and
ConnectionClosed
messages as appropriate.
Initially, all of the client's session properties are undefined.
When any of the session property resource values are defined or change,
the Session shell initialize and set_values procedures
will update the client's session property value by a
SetProperties
or a
DeleteProperties
message, as appropriate.
The session ProcessID and UserID properties are always set by the shell
when it is possible to determine the value of these properties.
Saving Application State
The session manager instigates an application checkpoint by sending a
SaveYourself
request.
Applications are responsible for saving their state in response to the
request.
When the
SaveYourself
request arrives, the procedures registered on the
Session shell's save callback list are called.
If the application does not register any save callback procedures on
the save callback list, the shell will report to the session manager
that the application failed to save its state.
Each procedure on the save callback list receives a token
in the call_data parameter.
The checkpoint token in the call_data parameter is of type
XtCheckpointToken.
typedef struct {
int save_type;
int interact_style;
Boolean shutdown;
Boolean fast;
Boolean cancel_shutdown
int phase;
int interact_dialog_type; /* return */
Boolean request_cancel; /* return */
Boolean request_next_phase; /* return */
Boolean save_success; /* return */
} XtCheckpointTokenRec, *XtCheckpointToken;
The save_type, interact_style, shutdown, and fast
fields of the token contain the parameters of the
SaveYourself
message.
The possible values of save_type are
SmSaveLocal,
SmSaveGlobal,
and
SmSaveBoth;
these indicate the type of information to be saved.
The possible values of interact_style are
SmInteractStyleNone,
SmInteractStyleErrors,
and
SmInteractStyleAny;
these indicate whether user interaction would be permitted
and, if so, what kind of interaction.
If shutdown is
True,
the checkpoint is being performed in preparation for the end of the session.
If fast is
True,
the client should perform the checkpoint as quickly as possible.
If cancel_shutdown is
True,
a
ShutdownCancelled
message has been received for the current save operation.
(See .)
The phase is used by manager clients, such as a window manager,
to distinguish between the first and second phase of a save operation.
The phase will be either 1 or 2.
The remaining fields in the checkpoint token structure are provided for
the application to communicate with the shell.
Upon entry to the first application save callback procedure, the return
fields in the token have the following initial values:
interact_dialog_type is
SmDialogNormal;
request_cancel is
False;
request_next_phase is
False;
and save_success is
True.
When a token is returned with any of the four return fields containing
a noninitial value, and when the field is applicable, subsequent tokens
passed to the application during the current save operation
will always contain the noninitial value.
The purpose of the token's save_success field is to
indicate the outcome of the entire operation to the
session manager and ultimately, to the user.
Returning
False
indicates some portion of the application state
could not be successfully saved. If any token is returned
to the shell with save_success
False,
tokens subsequently received
by the application for the current save operation will show
save_success as
False.
When the shell sends the final status of the checkpoint to the
session manager, it will indicate failure to save application state
if any token was returned with save_success
False.
Session participants that manage and save the state of other clients
should structure their save or interact callbacks to
set request_next_phase to
True
when phase is 1, which will cause the shell to send the
SaveYourselfPhase2Request
when the first phase is complete. When the
SaveYourselfPhase2
message is received, the shell will invoke the save callbacks a
second time with phase equal to 2.
Manager clients should save the state of other clients
when the callbacks are invoked the second time and phase equal to 2.
The application may request additional tokens while a checkpoint is under way,
and these additional tokens must be returned by an explicit call.
To request an additional token for a save callback response that has a
deferred outcome, use
.
XtCheckpointToken XtSessionGetToken
Widget widget
widget
Specifies the Session shell widget which manages session participation.
The
function will return NULL if no checkpoint operation is currently under way.
To indicate the completion of checkpoint processing including user
interaction, the application must signal the Session shell
by returning all tokens.
(See and
).
To return a token, use
.
void XtSessionReturnToken
XtCheckpointToken token
token
Specifies a token that was received as the call_data by a procedure
on the interact callback list or a token that was received by a call to
.
Tokens passed as call_data to save callbacks are implicitly
returned when the save callback procedure returns.
A save callback procedure should not call
on the token passed in its call_data.
Requesting Interaction
When the token interact_style allows user interaction,
the application may
interact with the user during the checkpoint, but must wait for permission
to interact.
Applications request permission to interact with the user during the
checkpointing operation by registering a procedure on the Session
shell's interact callback list. When all save callback procedures have
returned, and each time a token that was granted by a call to
is returned, the Session shell examines the interact callback list.
If interaction is permitted and the interact callback list is not empty,
the shell will send an
InteractRequest
to the session manager when an interact request is not already outstanding
for the application.
The type of interaction dialog that will be requested is specified by
the interact_dialog_type field in the checkpoint token.
The possible values for interact_dialog_type are
SmDialogError
and
SmDialogNormal.
If a token is returned with interact_dialog_type containing
SmDialogError,
the interact request and any subsequent interact requests will be for
an error dialog; otherwise, the request will be for a normal dialog with
the user.
When a token is returned with save_success
False
or interact_dialog_type
SmDialogError,
tokens subsequently passed to callbacks during the same active
SaveYourself
response will reflect these changed values, indicating that
an error condition has occurred during the checkpoint.
The request_cancel field is a return value for interact callbacks only.
Upon return from a procedure on the save callback list, the value
of the token's request_cancel field is not examined by the shell.
This is also true of tokens received through a call to
.
Interacting with the User during a Checkpoint
When the session manager grants the application's request for user interaction,
the Session shell receives an
Interact
message.
The procedures registered on the interact callback list are executed,
but not as if executing a typical callback list.
These procedures are individually executed in
sequence, with a checkpoint token functioning as the sequencing mechanism.
Each step in the sequence begins by removing a procedure
from the interact callback list
and executing it with a token passed in the call_data.
The interact callback will typically pop up a dialog box and return.
When the user interaction and associated application checkpointing has
completed, the application must return the token by calling
.
Returning the token completes the current step and triggers the next step
in the sequence.
During interaction the client may request cancellation of a shutdown.
When a token passed as call_data to an interact procedure is returned,
if shutdown is
True
and cancel_shutdown is
False,
request_cancel indicates whether the
application requests that the pending shutdown be cancelled.
If request_cancel is
True,
the field will also be
True
in any tokens subsequently granted during the checkpoint operation.
When a token is returned requesting cancellation of
the session shutdown, pending interact procedures will still be
called by the Session shell.
When all interact procedures have been removed from the interact callback
list, executed, and the final interact token returned to the shell, an
InteractDone
message is sent to the session manager, indicating whether
a pending session shutdown is requested to be cancelled.
Responding to a Shutdown Cancellation
Callbacks registered on the cancel callback list are invoked when the
Session shell processes a
ShutdownCancelled
message from the session manager. This may occur during the
processing of save callbacks, while waiting for interact permission,
during user interaction, or after the save operation is complete and
the application is expecting a
SaveComplete
or a
Die
message.
The call_data for these callbacks is NULL.
When the shell notices that a pending shutdown has been cancelled,
the token cancel_shutdown field will be
True
in tokens subsequently given to the application.
Receiving notice of a shutdown cancellation does not cancel the
pending execution of save callbacks or interact callbacks.
After the cancel callbacks execute, if interact_style is not
SmInteractStyleNone
and the interact list is not empty,
the procedures on the interact callback list will be executed
and passed a token with interact_style
SmInteractStyleNone.
The application should not interact with the user, and the Session shell
will not send an
InteractDone
message.
Completing a Save
When there is no user interaction, the shell regards the application
as having finished saving state when all callback procedures
on the save callback list have returned, and any additional tokens
passed out by
have been returned by corresponding calls to
.
If the save operation involved user interaction,
the above completion conditions apply, and in addition, all requests for
interaction have been granted or cancelled,
and all tokens passed to interact callbacks have been returned
through calls to
.
If the save operation involved a manager client that requested the
second phase, the above conditions apply to both the first and second
phase of the save operation.
When the application has finished saving state,
the Session shell will report the result to the session manager by
sending the
SaveYourselfDone
message.
If the session is continuing, the shell will receive the
SaveComplete
message when all applications have completed saving state.
This message indicates that applications may again allow changes
to their state. The shell will execute the save_complete callbacks.
The call_data for these callbacks is NULL.
Responding to a Shutdown
Callbacks registered on the die callback list are invoked when the
session manager sends a
Die
message.
The callbacks on this list should do whatever is appropriate to quit
the application.
Before executing procedures on the die callback list,
the Session shell will close the connection to the session manager
and will remove the handler that watches for protocol messages.
The call_data for these callbacks is NULL.
Resigning from a Session
When the Session shell widget is destroyed, the destroy method will
close the connection to the session manager by sending a
ConnectionClosed
protocol message and will remove the input callback
that was watching for session protocol messages.
When
is used to set join_session to
False,
the set_values method of the Session shell will close the
connection to the session manager if one exists by sending a
ConnectionClosed
message, and connection will be set to NULL.
Applications that exit in response to user actions and that do not
wait for phase 2 destroy to complete on
the Session shell should set join_session to
False
before exiting.
When
is used to set connection to NULL,
the Session shell will stop managing the connection, if one exists.
However, that session connection will not be closed.
Applications that wish to ensure continuation of a session connection
beyond the destruction of the shell should first retrieve the
connection resource value,
then set the connection resource to NULL,
and then they may safely destroy the widget without losing control
of the session connection.
The error callback list will be called if an unrecoverable
communications error occurs while the shell is managing the connection.
The shell will close the connection, set connection to NULL,
remove the input callback, and
call the procedures registered on the error callback list.
The call_data for these callbacks is NULL.