thread(n) thread(n)
NAME
thread - Extension for script access to Tcl threading
SYNOPSIS
package require Tcl 8.3
package require Thread ??2.6??
thread::::create ?-joinable? ?-preserved? ?script?
thread::::preserve ?id?
thread::::release ?-wait? ?id?
thread::::id
thread::::errorproc ?procname?
thread::::unwind
thread::::exit
thread::::names
thread::::exists id
thread::::send ?-async? id script ?varname?
thread::::broadcast id script
thread::::wait
thread::::eval ?-lock mutex? arg ?arg ...?
thread::::join id
thread::::configure id ?option? ?value? ?...?
thread::::transfer id channel
thread::::detach channel
thread::::attach channel
thread::::mutex
thread::::mutex create ?-recursive?
thread::::mutex destroy mutex
thread::::mutex lock mutex
thread::::mutex unlock mutex
thread::::rwmutex
thread::::rwmutex create
thread::::rwmutex destroy mutex
thread::::rwmutex rlock mutex
thread::::rwmutex wlock mutex
thread::::rwmutex unlock mutex
thread::::cond
thread::::cond create
thread::::cond destroy cond
thread::::cond notify cond
thread::::cond wait cond mutex ?ms?
DESCRIPTION
The thread extension creates threads that contain Tcl interpreters, and
it lets you send scripts to those threads for evaluation. Additionaly,
it provides script-level access to basic thread synchronization primi-
tives, like mutexes and condition variables.
COMANDS
This section describes commands for creating and destroying threads and
sending scripts to threads for evaluation.
thread::::create ?-joinable? ?-preserved? ?script?
This command creates a thread that contains a Tcl interpreter.
The Tcl interpreter either evaluates the optional script, if
specified, or it waits in the event loop for scripts that arrive
via the thread::::send command. The result, if any, of the
optional script is never returned to the caller. The result of
thread::::create is the ID of the thread. This is the small inte-
ger handle which identifies the newly created thread for all
other package commands. The handle of the thread goes out of
scope automatically when thread is marked for exit (see the
thread::::release command below).
If the optional script argument contains the thread::::wait com-
mand the thread will enter into the event loop. If such command
is not found in the script the thread will run the script to
the end and exit. In that case, the handle may be safely ignored
since it refers to a thread which does not exists any more at
the time when the command returns.
Using flag -joinable it is possible to create a joinable thread,
i.e. one upon whose exit can be waited upon by using
thread::::join command. Note that only Tcl8.4] core supports join-
able threads. Note also that failure to join a thread created
with -joinable flag results in resource and memory leaks.
Threads created by the thread::::create cannot be destroyed force-
fully. Consequently, there is no corresponding thread destroy
command. A thread may only be released using the thread::::release
and if its internal reference count drops to zero, the thread is
marked for exit. This kicks the thread out of the event loop
servicing and the thread continues to execute commands passed in
the script argument, following the thread::::wait command. If this
was the last command in the script, as usualy the case, the
thread will exit.
It is possible to create a situation in which it may be impossi-
ble to terminate the thread, for example by putting some endless
loop after the thread::::wait or entering the event loop again by
doing an vwait-type of command. In such cases, the thread may
never exit. This is considered to be a bad practice and should
be avoided if possible. This is best illustrated by the example
below:
# You should never do ...
set tid [thread::create {
package require Http
thread::wait
vwait forever ; # <-- this!
}]
The thread created in the above example will never be able to
exit. After it has been released with the last matching
thread::::release call, the thread will jump out of the
thread::::wait and continue to execute commands following. It will
enter vwait command and wait endlessly for events. There is no
way one can terminate such thread, so you wouldn't want to do
this!
Each newly created has its internal reference counter set to 0
(zero), i.e. it is unreserved. This counter gets incremented by
a call to thread::::preserve and decremented by a call to
thread::::release command. These two commands implement simple but
effective thread reservation system and offer predictable and
controllable thread termination capabilities. It is however pos-
sible to create initialy preserved threads by using flag -pre-
served of the thread::::create command. Threads created with this
flag have the initial value of the reference counter of 1 (one),
and are thus initially marked reserved.
thread::::preserve ?id?
This command increments the thread reference counter. Each call
to this command increments the reference counter by one (1).
Command returns the value of the reference counter after the
increment. If called with the optional thread id, the command
preserves the given thread. Otherwise the current thread is pre-
served.
With reference counting, one can implement controlled access to
a shared Tcl thread. By incrementing the reference counter, the
caller signalizes that he/she wishes to use the thread for a
longer period of time. By decrementing the counter, caller sig-
nalizes that he/she has finished using the thread.
thread::::release ?-wait? ?id?
This command decrements the thread reference counter. Each call
to this command decrements the reference counter by one (1). If
called with the optional thread id, the command releases the
given thread. Otherwise, the current thread is released. Com-
mand returns the value of the reference counter after the decre-
ment. When the reference counter reaches zero (0), the target
thread is marked for termination. You should not reference the
thread after the thread::::release command returns zero or nega-
tive integer. The handle of the thread goes out of scope and
should not be used any more. Any following reference to the same
thread handle will result in Tcl error.
Optional flag -wait instructs the caller thread to wait for the
target thread to exit, if the effect of the command would result
in termination of the target thread, i.e. if the return result
would be zero (0). Without the flag, the caller thread does not
wait for the target thread to exit. Care must be taken when
using the -wait, since this may block the caller thread indefi-
nitely. This option has been implemented for users of Tcl 8.3
version only. Users of Tcl 8.4 or later should create joinable
threads, by using the -joinable option of the thread::::create
command and the thread::::join to wait for thread exit.
thread::::id
This command returns the ID of the current thread.
thread::::errorproc ?procname?
This command sets a handler for errors that occur in scripts
sent asynchronously, using the -async flag of the thread::::send
command, to other threads. If no handler is specified, the cur-
rent handler is returned. The empty string resets the handler to
default (unspecified) value. An uncaught error in a thread
causes an error message to be sent to the standard error chan-
nel. This default reporting scheme can be changed by registering
a procedure which is called to report the error. The procname is
called in the interpreter that invoked the thread::::errorproc
command. The procname is called like this:
myerrorproc threadid errorInfo
thread::::unwind
Use of this command is deprecated in favour of more advanced
thread reservation system implemented with thread::::preserve and
thread::::release commands. Support for thread::::unwind command
will dissapear in some future major release of the extension.
This command stops a prior thread::::wait command. Execution of
the script passed to newly created thread will continue from the
thread::::wait command. If thread::::wait was the last command in
the script, the thread will exit. The command returns empty
result but may trigger Tcl error with the message "target thread
died" in some situations.
thread::::exit
Use of this command is deprecated in favour of more advanced
thread reservation system implemented with thread::::preserve and
thread::::release commands. Support for thread::::exit command will
dissapear in some future major release of the extension.
This command forces a thread stuck in the thread::::wait command
to unconditionaly exit. The execution of thread::::exit command is
guaranteed to leave the program memory in the unconsistent
state, produce memory leaks and otherwise affect other sub-
sytem(s) of the Tcl application in an unpredictable manner. The
command returns empty result but may trigger Tcl error with the
message "target thread died" in some situations.
thread::::names
This command returns a list of thread IDs. These are only for
threads that have been created via thread::::create command. If
your application creates other threads at the C level, they are
not reported by this command.
thread::::exists id
Returns true (1) if thread given by the id parameter exists,
false (0) otherwise. This applies only for threads that have
been created via thread::::create command.
thread::::send ?-async? id script ?varname?
This command passes a script to another thread and, optionally,
waits for the result. If the -async flag is specified, the com-
mand does not wait for the result and it returns empty string.
The target thread must enter it's event loop in order to receive
scripts sent via this command. This is done by default for
threads created without a startup script. Threads can enter the
event loop explicitly by calling thread::::wait or any other rele-
vant Tcl/Tk command, like update, vwait, etc.
Optional varname specifies name of the variable to store the
result of the script. Without the -async flag, the command
returns the evaluation code, similarily to the standard Tcl
catch command. If, however, the -async flag is specified, the
command returns immediately and caller can later vwait on ?var-
name? to get the result of the passed script
set t1 [thread::create]
set t2 [thread::create]
thread::send -async $t1 "set a 1" result
thread::send -async $t2 "set b 2" result
for {set i 0} {$i < 2} {incr i} {
vwait result
}
In the above example, two threads were fed work and both of them
were instructed to signalize the same variable "result" in the
calling thread. The caller entered the event loop twice to get
both results. Note, however, that the order of the received
results may vary, depending on the current system load, type of
work done, etc, etc.
Many threads can simultaneously send scripts to the target
thread for execution. All of them are entered into the event
queue of the target thread and executed on the FIFO basis,
intermingled with optional other events pending in the event
queue of the target thread.
thread::::broadcast id script
This command passes a script to all threads created by the pack-
age for execution. It does not wait for response from any of the
threads.
thread::::wait
This enters the event loop so a thread can receive messages from
the thread::::send command. This command should only be used
within the script passed to the thread::::create. It should be the
very last command in the script. If this is not the case, the
exiting thread will continue executing the script lines pass the
thread::::wait which is usually not what you want and/or expect.
set t1 [thread::create {
#
# Do some initialization work here
#
thread::wait ; # Enter the event loop
}]
thread::::eval ?-lock mutex? arg ?arg ...?
This command concatenates passed arguments and evaluates the
resulting script under the mutex protection. If no mutex is
specified by using the ?-lock mutex? optional argument, the
internal static mutex is used.
thread::::join id
This command waits for the thread with ID id to exit and then
returns it's exit code. Errors will be returned for threads
which are not joinable or already waited upon by another thread.
Upon the join the handle of the thread has gone out of scope and
should not be used any more.
NOTE: This command is available only when loaded into the
Tcl8.4] shell.
thread::::configure id ?option? ?value? ?...?
This command configures various low-level aspects of the thread
with ID id in the similar way as the standard Tcl command fcon-
figure configures some Tcl channel options. Options currently
supported are: -eventmark and -unwindonerror.
The -eventmark option, when set, limits the number of asyn-
chronously posted scripts to the thread event loop. The
thread::::send -async command will block until the number of pend-
ing scripts in the event loop does not drop below the value con-
figured with -eventmark. Default value for the -eventmark is 0
(zero) which effectively disables the checking, i.e. allows for
unlimited number of posted scripts.
The -unwindonerror option, when set, causes the target thread to
unwind if the result of the script processing resulted in error.
Default value for the -unwindonerror is 0 (false), i.e. thread
continues to process scripts after one of the posted scripts
fails.
thread::::transfer id channel
This moves the specified channel from the current thread and
interpreter to the main interpreter of the thread with the given
id. After the move the current interpreter has no access to the
channel any more, but the main interpreter of the target thread
will be able to use it from now on. The command waits until the
other thread has incorporated the channel. Because of this it is
possible to deadlock the participating threads by commanding the
other through a synchronous thread::::send to transfer a channel
to us. This easily extends into longer loops of threads waiting
for each other. Other restrictions: the channel in question must
not be shared among multiple interpreters running in the sending
thread. This automatically excludes the special channels for
standard input, output and error.
Due to the internal Tcl core implementation and the restriction
on transferring shared channels, one has to take extra measures
when transferring socket channels created by accepting the con-
nection out of the socket commands callback procedures:
socket -server Accept 2200
proc Accept {s ipaddr port} {
after idle [list Accept $s $ipaddr $port]
}
proc Accept {s ipaddr port} {
set tid [thread::create]
thread::transfer $tid $s
}
NOTE: this command is available only when loaded into the
Tcl8.4] shell.
thread::::detach channel
This detaches the specified channel from the current thread and
interpreter. After that, the current interpreter has no access
to the channel any more. The channel is in the parked state
until some other (or the same) thread attaches the channel again
with thread::::attach. Restrictions: same as for transferring
shared channels with the thread::::transfer command.
NOTE: this command is available only when loaded into the
Tcl8.4] shell.
thread::::attach channel
This attaches the previously detached channel in the current
thread/interpreter. For already existing channels, the command
does nothing, i.e. it is not an error to attach the same channel
more than once. The first operation will actualy perform the
operation, while all subsequent operation will just do nothing.
Command throws error if the channel cannot be found in the list
of detached channels and/or in the current interpreter.
NOTE: this command is available only when loaded into the
Tcl8.4] shell.
thread::::mutex
Mutexes are most common thread synchronization primitives. They
are used to synchronize access from two or more threads to one
or more shared resources. This command provides script-level
access to exclusive and/or recursive mutexes. Exclusive mutexes
can be locked only once by one thread, while recursive mutexes
can be locked many times by the same thread. For recursive
mutexes, number of lock and unlock operations must match, other-
wise, the mutex will never be released, which would lead to var-
ious deadlock situations.
Care has to be taken when using mutexes in an multithreading
program. Improper use of mutexes may lead to various deadlock
situations, especially when using exclusive mutexes.
The thread::::mutex command supports following subcommands and
options:
thread::::mutex create ?-recursive?
Creates the mutex and returns it's opaque handle. This
handle should be used for any future reference to the
newly created mutex. If no optional ?-recursive? argu-
ment was specified, the command creates the exclusive
mutex. With the ?-recursive? argument, the command cre-
ates a recursive mutex.
thread::::mutex destroy mutex
Destroys the mutex. Mutex should be in unlocked state
before the destroy attempt. If the mutex is locked, the
command will throw Tcl error.
thread::::mutex lock mutex
Locks the mutex. Locking the exclusive mutex may throw
Tcl error if on attempt to lock the same mutex twice from
the same thread. If your program logic forces you to lock
the same mutex twice or more from the same thread (this
may happen in recursive procedure invocations) you should
consider using the recursive mutexes.
thread::::mutex unlock mutex
Unlocks the mutex so some other thread may lock it again.
Attempt to unlock the already unlocked mutex will throw
Tcl error.
thread::::rwmutex
This command creates many-readers/single-writer mutexes.
Reader/writer mutexes allow you to serialize access to a shared
resource more optimally. In situations where a shared resource
gets mostly read and seldom modified, you might gain some per-
formace by using reader/writer mutexes instead of exclusive or
recursive mutexes.
For reading the resource, thread should obtain a read lock on
the resource. Read lock is non-exclusive, meaning that more
than one thread can obtain a read lock to the same resource,
without waiting on other readers. For changing the resource,
however, a thread must obtain a exclusive write lock. This lock
effectively blocks all threads from gaining the read-lock while
the resource is been modified by the writer thread. Only after
the write lock has been released, the resource may be read-
locked again.
The thread::::rwmutex command supports following subcommands and
options:
thread::::rwmutex create
Creates the reader/writer mutex and returns it's opaque
handle. This handle should be used for any future refer-
ence to the newly created mutex.
thread::::rwmutex destroy mutex
Destroys the reader/writer mutex. If the mutex is already
locked, attempt to destroy it will throw Tcl error.
thread::::rwmutex rlock mutex
Locks the mutex for reading. More than one thread may
read-lock the same mutex at the same time.
thread::::rwmutex wlock mutex
Locks the mutex for writing. Only one thread may write-
lock the same mutex at the same time. Attempt to write-
lock same mutex twice from the same thread will throw Tcl
error.
thread::::rwmutex unlock mutex
Unlocks the mutex so some other thread may lock it again.
Attempt to unlock already unlocked mutex will throw Tcl
error.
thread::::cond
This command provides script-level access to condition vari-
ables. A condition variable creates a safe environment for the
program to test some condition, sleep on it when false and be
awakened when it might have become true. A condition variable is
always used in the conjuction with an exclusive mutex. If you
attempt to use other type of mutex in conjuction with the condi-
tion variable, a Tcl error will be thrown.
The command supports following subcommands and options:
thread::::cond create
Creates the condition variable and returns it's opaque
handle. This handle should be used for any future refer-
ence to newly created condition variable.
thread::::cond destroy cond
Destroys condition variable cond. Extreme care has to be
taken that nobody is using (i.e. waiting on) the condi-
tion variable, otherwise unexpected errors may happen.
thread::::cond notify cond
Wakes up all threads waiting on the condition variable
cond.
thread::::cond wait cond mutex ?ms?
This command is used to suspend program execution until
the condition variable cond has been signalled or the
optional timer has expired. The exclusive mutex must be
locked by the calling thread on entrance to this command.
If the mutex is not locked, Tcl error is thrown. While
waiting on the cond, the command releases mutex. Before
returning to the calling thread, the command re-acquires
the mutex again. Unlocking the mutex and waiting on the
condition variable cond is done atomically.
The ms command option, if given, must be an integer spec-
ifying time interval in milliseconds the command waits to
be signalled. Otherwise the command waits on condition
notify forever.
In multithreading programs, there are many situations
where a thread has to wait for some event to happen until
it is allowed to proceed. This is usually accomplished
by repeatedly testing a condition under the mutex protec-
tion and waiting on the condition variable until the con-
dition evaluates to true:
set mutex [thread::mutex create]
set cond [thread::cond create]
thread::mutex lock
while {} {
thread::cond wait $cond $mutex
}
# Do some work under mutex protection
thread::mutex unlock
Repeated testing of the condition is needed since the
condition variable may get signalled without the condi-
tion being actually changed (spurious thread wake-ups,
for example).
DISCUSION
The fundamental threading model in Tcl is that there can be one or more
Tcl interpreters per thread, but each Tcl interpreter should only be
used by a single thread which created it. A "shared memory" abstrac-
tion is awkward to provide in Tcl because Tcl makes assumptions about
variable and data ownership. Therefore this extension supports a simple
form of threading where the main thread can manage several background,
or "worker" threads. For example, an event-driven server can pass
requests to worker threads, and then await responses from worker
threads or new client requests. Everything goes through the common Tcl
event loop, so message passing between threads works naturally with
event-driven I/O, vwait on variables, and so forth. For the transfer of
bulk information it is possible to move channels between the threads.
For advanced multithreading scripts, script-level access to two basic
synchronization primitives, mutex and condition variables, is also sup-
ported.
SEE ALSO
http://www.tcl.tk/doc/howto/threadmodel.html, tpool, tsv, ttrace
KEYWORDS
events, message passing, mutex, synchronization, thread
Tcl Threading 2.6 thread(n)
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