162 lines
6.6 KiB
Groff
162 lines
6.6 KiB
Groff
'\"
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'\" Copyright (c) 1989-1993 The Regents of the University of California.
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'\" Copyright (c) 1994-1996 Sun Microsystems, Inc.
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'\"
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'\" See the file "license.terms" for information on usage and redistribution
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'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
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'\"
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.TH Tcl_AsyncCreate 3 7.0 Tcl "Tcl Library Procedures"
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.so man.macros
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.BS
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.SH NAME
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Tcl_AsyncCreate, Tcl_AsyncMark, Tcl_AsyncInvoke, Tcl_AsyncDelete, Tcl_AsyncReady \- handle asynchronous events
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.SH SYNOPSIS
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.nf
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\fB#include <tcl.h>\fR
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.sp
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Tcl_AsyncHandler
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\fBTcl_AsyncCreate\fR(\fIproc, clientData\fR)
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.sp
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\fBTcl_AsyncMark\fR(\fIasync\fR)
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.sp
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int
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\fBTcl_AsyncInvoke\fR(\fIinterp, code\fR)
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.sp
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\fBTcl_AsyncDelete\fR(\fIasync\fR)
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.sp
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int
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\fBTcl_AsyncReady\fR()
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.SH ARGUMENTS
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.AS Tcl_AsyncHandler clientData
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.AP Tcl_AsyncProc *proc in
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Procedure to invoke to handle an asynchronous event.
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.AP ClientData clientData in
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One-word value to pass to \fIproc\fR.
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.AP Tcl_AsyncHandler async in
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Token for asynchronous event handler.
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.AP Tcl_Interp *interp in
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Tcl interpreter in which command was being evaluated when handler was
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invoked, or NULL if handler was invoked when there was no interpreter
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active.
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.AP int code in
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Completion code from command that just completed in \fIinterp\fR,
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or 0 if \fIinterp\fR is NULL.
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.BE
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.SH DESCRIPTION
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.PP
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These procedures provide a safe mechanism for dealing with
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asynchronous events such as signals.
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If an event such as a signal occurs while a Tcl script is being
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evaluated then it is not safe to take any substantive action to
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process the event.
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For example, it is not safe to evaluate a Tcl script since the
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interpreter may already be in the middle of evaluating a script;
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it may not even be safe to allocate memory, since a memory
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allocation could have been in progress when the event occurred.
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The only safe approach is to set a flag indicating that the event
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occurred, then handle the event later when the world has returned
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to a clean state, such as after the current Tcl command completes.
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.PP
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\fBTcl_AsyncCreate\fR, \fBTcl_AsyncDelete\fR, and \fBTcl_AsyncReady\fR
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are thread sensitive. They access and/or set a thread-specific data
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structure in the event of a core built with \fI\-\-enable\-threads\fR. The token
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created by \fBTcl_AsyncCreate\fR contains the needed thread information it
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was called from so that calling \fBTcl_AsyncMark\fR(\fItoken\fR) will only yield
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the origin thread into the asynchronous handler.
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.PP
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\fBTcl_AsyncCreate\fR creates an asynchronous handler and returns
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a token for it.
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The asynchronous handler must be created before
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any occurrences of the asynchronous event that it is intended
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to handle (it is not safe to create a handler at the time of
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an event).
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When an asynchronous event occurs the code that detects the event
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(such as a signal handler) should call \fBTcl_AsyncMark\fR with the
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token for the handler.
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\fBTcl_AsyncMark\fR will mark the handler as ready to execute, but it
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will not invoke the handler immediately.
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Tcl will call the \fIproc\fR associated with the handler later, when
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the world is in a safe state, and \fIproc\fR can then carry out
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the actions associated with the asynchronous event.
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\fIProc\fR should have arguments and result that match the
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type \fBTcl_AsyncProc\fR:
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.PP
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.CS
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typedef int \fBTcl_AsyncProc\fR(
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ClientData \fIclientData\fR,
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Tcl_Interp *\fIinterp\fR,
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int \fIcode\fR);
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.CE
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.PP
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The \fIclientData\fR will be the same as the \fIclientData\fR
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argument passed to \fBTcl_AsyncCreate\fR when the handler was
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created.
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If \fIproc\fR is invoked just after a command has completed
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execution in an interpreter, then \fIinterp\fR will identify
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the interpreter in which the command was evaluated and
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\fIcode\fR will be the completion code returned by that
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command.
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The command's result will be present in the interpreter's result.
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When \fIproc\fR returns, whatever it leaves in the interpreter's result
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will be returned as the result of the command and the integer
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value returned by \fIproc\fR will be used as the new completion
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code for the command.
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.PP
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It is also possible for \fIproc\fR to be invoked when no interpreter
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is active.
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This can happen, for example, if an asynchronous event occurs while
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the application is waiting for interactive input or an X event.
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In this case \fIinterp\fR will be NULL and \fIcode\fR will be
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0, and the return value from \fIproc\fR will be ignored.
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.PP
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The procedure \fBTcl_AsyncInvoke\fR is called to invoke all of the
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handlers that are ready.
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The procedure \fBTcl_AsyncReady\fR will return non-zero whenever any
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asynchronous handlers are ready; it can be checked to avoid calls
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to \fBTcl_AsyncInvoke\fR when there are no ready handlers.
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Tcl calls \fBTcl_AsyncReady\fR after each command is evaluated
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and calls \fBTcl_AsyncInvoke\fR if needed.
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Applications may also call \fBTcl_AsyncInvoke\fR at interesting
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times for that application.
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For example, Tcl's event handler calls \fBTcl_AsyncReady\fR
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after each event and calls \fBTcl_AsyncInvoke\fR if needed.
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The \fIinterp\fR and \fIcode\fR arguments to \fBTcl_AsyncInvoke\fR
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have the same meaning as for \fIproc\fR: they identify the active
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interpreter, if any, and the completion code from the command
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that just completed.
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.PP
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\fBTcl_AsyncDelete\fR removes an asynchronous handler so that
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its \fIproc\fR will never be invoked again.
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A handler can be deleted even when ready, and it will still
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not be invoked.
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.PP
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If multiple handlers become active at the same time, the
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handlers are invoked in the order they were created (oldest
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handler first).
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The \fIcode\fR and the interpreter's result for later handlers
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reflect the values returned by earlier handlers, so that
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the most recently created handler has last say about
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the interpreter's result and completion code.
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If new handlers become ready while handlers are executing,
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\fBTcl_AsyncInvoke\fR will invoke them all; at each point it
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invokes the highest-priority (oldest) ready handler, repeating
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this over and over until there are no longer any ready handlers.
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.SH WARNING
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.PP
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It is almost always a bad idea for an asynchronous event
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handler to modify the interpreter's result or return a code different
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from its \fIcode\fR argument.
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This sort of behavior can disrupt the execution of scripts in
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subtle ways and result in bugs that are extremely difficult
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to track down.
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If an asynchronous event handler needs to evaluate Tcl scripts
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then it should first save the interpreter's state by calling
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\fBTcl_SaveInterpState\fR, passing in the \fIcode\fR argument.
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When the asynchronous handler is finished it should restore
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the interpreter's state by calling \fBTcl_RestoreInterpState\fR,
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and then returning the \fIcode\fR argument.
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.SH KEYWORDS
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asynchronous event, handler, signal, Tcl_SaveInterpState, thread
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