ref: b76e8ecc732cb311ceee6fd6c807b7e784d3fe31
dir: /sys/src/ape/X11/lib/Xt/man/XtAppNextEvent.man/
.\" $Xorg: XtAppNEv.man,v 1.3 2000/08/17 19:41:58 cpqbld Exp $ .\" .\" Copyright 1993 X Consortium .\" .\" Permission is hereby granted, free of charge, to any person obtaining .\" a copy of this software and associated documentation files (the .\" "Software"), to deal in the Software without restriction, including .\" without limitation the rights to use, copy, modify, merge, publish, .\" distribute, sublicense, and/or sell copies of the Software, and to .\" permit persons to whom the Software is furnished to do so, subject to .\" the following conditions: .\" .\" The above copyright notice and this permission notice shall be .\" included in all copies or substantial portions of the Software. .\" .\" THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, .\" EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF .\" MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. .\" IN NO EVENT SHALL THE X CONSORTIUM BE LIABLE FOR ANY CLAIM, DAMAGES OR .\" OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, .\" ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR .\" OTHER DEALINGS IN THE SOFTWARE. .\" .\" Except as contained in this notice, the name of the X Consortium shall .\" not be used in advertising or otherwise to promote the sale, use or .\" other dealings in this Software without prior written authorization .\" from the X Consortium. .\" $XFree86: xc/doc/man/Xt/XtAppNEv.man,v 1.5 2001/01/27 18:20:24 dawes Exp $ .\" .ds tk X Toolkit .ds xT X Toolkit Intrinsics \- C Language Interface .ds xI Intrinsics .ds xW X Toolkit Athena Widgets \- C Language Interface .ds xL Xlib \- C Language X Interface .ds xC Inter-Client Communication Conventions Manual .ds Rn 3 .ds Vn 2.2 .hw XtApp-Next-Event XtApp-Pending XtApp-Peek-Event XtApp-Process-Event Xt-Dispatch-Event XtApp-Main-Loop wid-get .na .de Ds .nf .\\$1D \\$2 \\$1 .ft 1 .ps \\n(PS .\".if \\n(VS>=40 .vs \\n(VSu .\".if \\n(VS<=39 .vs \\n(VSp .. .de De .ce 0 .if \\n(BD .DF .nr BD 0 .in \\n(OIu .if \\n(TM .ls 2 .sp \\n(DDu .fi .. .de FD .LP .KS .TA .5i 3i .ta .5i 3i .nf .. .de FN .fi .KE .LP .. .de IN \" send an index entry to the stderr .. .de C{ .KS .nf .D .\" .\" choose appropriate monospace font .\" the imagen conditional, 480, .\" may be changed to L if LB is too .\" heavy for your eyes... .\" .ie "\\*(.T"480" .ft L .el .ie "\\*(.T"300" .ft L .el .ie "\\*(.T"202" .ft PO .el .ie "\\*(.T"aps" .ft CW .el .ft R .ps \\n(PS .ie \\n(VS>40 .vs \\n(VSu .el .vs \\n(VSp .. .de C} .DE .R .. .de Pn .ie t \\$1\fB\^\\$2\^\fR\\$3 .el \\$1\fI\^\\$2\^\fP\\$3 .. .de ZN .ie t \fB\^\\$1\^\fR\\$2 .el \fI\^\\$1\^\fP\\$2 .. .de NT .ne 7 .ds NO Note .if \\n(.$>$1 .if !'\\$2'C' .ds NO \\$2 .if \\n(.$ .if !'\\$1'C' .ds NO \\$1 .ie n .sp .el .sp 10p .TB .ce \\*(NO .ie n .sp .el .sp 5p .if '\\$1'C' .ce 99 .if '\\$2'C' .ce 99 .in +5n .ll -5n .R .. . \" Note End -- doug kraft 3/85 .de NE .ce 0 .in -5n .ll +5n .ie n .sp .el .sp 10p .. .ny0 .TH XtAppNextEvent __libmansuffix__ __xorgversion__ "XT FUNCTIONS" .SH NAME XtAppNextEvent, XtAppPending, XtAppPeekEvent, XtAppProcessEvent, XtDispatchEvent, XtAppMainLoop \- query and process events and input .SH SYNTAX .HP void XtAppNextEvent(XtAppContext \fIapp_context\fP, XEvent *\fIevent_return\fP); .HP Boolean XtAppPeekEvent(XtAppContext \fIapp_context\fP, XEvent *\fIevent_return\fP); .HP XtInputMask XtAppPending(XtAppContext \fIapp_context\fP); .HP void XtAppProcessEvent(XtAppContext \fIapp_context\fP, XtInputMask \fImask\fP); .HP Boolean XtDispatchEvent(XEvent *\fIevent\fP); .HP void XtAppMainLoop(XtAppContext \fIapp_context\fP); .SH ARGUMENTS .ds Co that identifies the application .IP \fIapp_context\fP 1i Specifies the application context \*(Co. .IP \fIevent\fP 1i Specifies a pointer to the event structure that is to be dispatched to the appropriate event handler. .IP \fIevent_return\fP 1i Returns the event information to the specified event structure. .IP \fImask\fP 1i Specifies what types of events to process. The mask is the bitwise inclusive OR of any combination of .ZN XtIMXEvent , .ZN XtIMTimer , .ZN XtIMAlternateInput , and .ZN XtIMSignal . As a convenience, the \*(tk defines the symbolic name .ZN XtIMAll to be the bitwise inclusive OR of all event types. .SH DESCRIPTION If the X event queue is empty, .ZN XtAppNextEvent flushes the X output buffers of each Display in the application context and waits for an event while looking at the other input sources, timeout timeout values, and signal handlers and calling any callback procedures triggered by them. This wait time can be used for background processing (see Section 7.8). .LP If there is an event in the queue, .ZN XtAppPeekEvent fills in the event and returns a nonzero value. If no X input is on the queue, .ZN XtAppPeekEvent flushes the output buffer and blocks until input is available (possibly calling some timeout callbacks in the process). If the input is an event, .ZN XtAppPeekEvent fills in the event and returns a nonzero value. Otherwise, the input is for an alternate input source, and .ZN XtAppPeekEvent returns zero. .LP The .ZN XtAppPending function returns a nonzero value if there are events pending from the X server, timer pending, or other input sources pending. The value returned is a bit mask that is the OR of .ZN XtIMXEvent , .ZN XtIMTimer , .ZN XtIMAlternateInput , and .ZN XtIMSignal (see .ZN XtAppProcessEvent ). If there are no events pending, .ZN XtAppPending flushes the output buffer and returns zero. .LP The .ZN XtAppProcessEvent function processes one timer, alternate input, signal source, or X event. If there is nothing of the appropriate type to process, .ZN XtAppProcessEvent blocks until there is. If there is more than one type of thing available to process, it is undefined which will get processed. Usually, this procedure is not called by client applications (see .ZN XtAppMainLoop ). .ZN XtAppProcessEvent processes timer events by calling any appropriate timer callbacks, alternate input by calling any appropriate alternate input callbacks, signal source by calling any appropriate signal callbacks, and X events by calling .ZN XtDispatchEvent . .LP When an X event is received, it is passed to .ZN XtDispatchEvent , which calls the appropriate event handlers and passes them the widget, the event, and client-specific data registered with each procedure. If there are no handlers for that event registered, the event is ignored and the dispatcher simply returns. The order in which the handlers are called is undefined. .LP The .ZN XtDispatchEvent function sends those events to the event handler functions that have been previously registered with the dispatch routine. .ZN XtDispatchEvent returns .ZN True if it dispatched the event to some handler and .ZN False if it found no handler to dispatch the event to. The most common use of .ZN XtDispatchEvent is to dispatch events acquired with the .ZN XtAppNextEvent procedure. However, it also can be used to dispatch user-constructed events. .ZN XtDispatchEvent also is responsible for implementing the grab semantics for .ZN XtAddGrab . .LP The .ZN XtAppMainLoop function first reads the next incoming X event by calling .ZN XtAppNextEvent and then it dispatches the event to the appropriate registered procedure by calling .ZN XtDispatchEvent . This constitutes the main loop of \*(tk applications, and, as such, it does not return unless .ZN XtAppSetExitFlag is called. Applications are expected to exit in response to some user action. There is nothing special about .ZN XtAppMainLoop ; it is simply an loop that calls .ZN XtAppNextEvent and then .ZN XtDispatchEvent , until .ZN XtAppGetExitFlag () returns true. .LP Applications can provide their own version of this loop, which tests some global termination flag or tests that the number of top-level widgets is larger than zero before circling back to the call to .ZN XtAppNextEvent . .SH "SEE ALSO" .br \fI\*(xT\fP .br \fI\*(xL\fP