So far the lessons have dealt with programming within the Tcl interpreter. However, Tcl is also useful as a scripting language to tie other packages or programs together. To accomplish this function, Tcl has two ways to start another program:
open
...... run a new program with I/O connected to a file descriptorexec
...... run a new program as a subprocess
The
open
call is the same call that is used to open a file. If the first character in the file name argument is a "pipe" symbol (|
), then open
will treat the rest of the argument as a program name, and will run that program with thestandard input or output connected to a file descriptor. This "pipe" connection can be used to read the output from that other program or to write fresh input data to it or both.
If the "pipe" is opened for both reading and writing you must be aware that the pipes are buffered. The output from a
puts
command will be saved in an I/O buffer until the buffer is full, or until you execute a flush
command to force it to be transmitted to the other program. The output of this other program will not be available to a read
or gets
until its output buffer is filled up or flushed explicitly.
(Note: as this is internal to this other program, there is no way that your Tcl script can influence that. The other program simply must cooperate. Well, that is not entirely true: the
expect
extension actually works around this limitation by exploiting deep system features.)
The
exec
call is similar to invoking a program (or a set of programs piped together) from the prompt in an interactive shell or a DOS-box or in a UNIX/Linux shell script. It supports several styles of output redirection, or it can return the output of the other program(s) as the return value of the exec
call.open
|
progName
?access?
- Returns a file descriptor for the pipe. The
progName
argument must start with the pipe symbol. IfprogName
is enclosed in quotes or braces, it can include arguments to the subprocess. exec
?switches?
arg1
?arg2?
...?argN?
exec
treats its arguments as the names and arguments for a set of programs to run. If the firstargs
start with a"-"
, then they are treated asswitches
to theexec
command, instead of being invoked as subprocesses or subprocess options.
switches
are:-keepnewline
- Retains a trailing newline in the pipeline's output. Normally a trailing newline will be deleted.
--
- Marks the end of the switches. The next string will be treated as
arg1
, even if it starts with a "-
"
arg1
...argN
can be one of:- the name of a program to execute
- a command line argument for the subprocess
- an I/O redirection instruction.
- an instruction to put the new program in the background:
exec myprog &
will start the programmyprog
in the background, and return immediately. There is no connection between that program and the Tcl script, both can run on independently.The & must be the last argument - you can use all other types of arguments in front of it.[NOTE: add information on how to wait for the program to finish?]
There are many I/O redirection commands. The main subset of these commands is:|
- Pipes the standard output of the command preceding the pipe symbol into the standard input of the command following the pipe symbol.
< fileName
- The first program in the pipe will read input from
fileName
. <@ fileID
- The first program in the pipe will read input from the Tcl descriptor
fileID
.fileID
is the value returned from anopen
...
"r"
command. << value
- The first program in the pipe will read
value
as its input. > fileName
- The output of the last program in the pipe will be sent to
fileName
. Any previous contents offileName
will be lost. >> fileName
- The output of the last program in the pipe will be appended to
fileName
. 2> fileName
- The standard error from all the programs in the pipe will be sent to
fileName
. Any previous contents offileName
will be lost. 2>> fileName
- The standard error from all the programs in the pipe will be appended to
fileName
. >@ fileID
- The output from the last program in the pipe will be written to
fileID
.fileID
is the value returned from anopen
...
"w"
command.
If you are familiar with shell programming, there are a few differences to be aware of when you are writing Tcl scripts that use the
exec
and open
calls.- You don't need the quotes that you would put around arguments to escape them from the shell expanding them. In the example, the argument to the
sed
command is not put in quotes. If it were put in quotes, the quotes would be passed tosed
, instead of being stripped off (as the shell does), andsed
would report an error. - If you use the
open
|cmd
"r+"
construct, you must follow each puts with a flush to force Tcl to send the command from its buffer to the program. The output from the program itself may be buffered in its output buffer.
You can sometimes force the output from the external program to flush by sending anexit
command to the process.You can also use thefconfigure
command to make a connection (channel) unbuffered.
As already mentioned,expect
extension to Tcl provides a much better interface to other programs, which in particular handles the buffering problem.[NOTE: add good reference to expect] - If one of the commands in an
open
|cmd
fails theopen
does not return an error. However, attempting to read input from the file descriptor withgets
$file
will return an empty string. Using thegets
$file
input
construct will return a character count of -1. - Tcl does not expand file names like the UNIX/Linux shells do. So:
exec ls *.tcl
will fail - there is most probably no file with the literal name "*.tcl".If you need such an expansion, you should use theglob
command:eval exec ls [glob *.tcl]
or, from Tcl 8.5 onwards:exec ls {expand}[glob *.tcl]
where the{expand}
prefix is used to force the list to become individual arguments. - If one of the commands in an
exec
call fails to execute, theexec
will return an error, and the error output will include the last line describing the error.
The
exec
treats any output to standard error to be an indication that the external program failed. This is simply a conservative assumption: many programs behave that way and they are sloppy in setting return codes.
Some programs however write to standard error without intending this as an indication of an error. You can guard against this from upsetting your script by using the
catch
command:if { [catch { exec ls *.tcl } msg] } {puts "Something seems to have gone wrong but we will ignore it"}
To inspect the return code from a program and the possible reason for failure, you can use the global
errorInfo
variable:if { [catch { exec ls *.tcl } msg] } {puts "Something seems to have gone wrong:"puts "Information about it: $::errorInfo"}
Example
## Write a Tcl script to get a platform-independent program:# # Create a unique (mostly) file name for a Tcl programet TMPDIR $::env(set TMPDIR "/tmp" if { [info exists ::env(TMP)] } { sTMP) } set tempFileName "$TMPDIR/invert_[pid].tcl"set outfl [open $tempFile# Open the output file, and # write the program to i tName w] puts $outfl { set len [gets stdin line]n-1}]} {$i >= 0} {incr i -1if {$len < 5} {exit -1} for {set i [expr {$l e} { append l2 [string range $line $i $i] } puts $l2 exit 0 }# Flush and close the file flush $outfl close $outfl # # Run the new Tcl script : # # Open a pipe to the program (for both reading and writing: r+) #string to the new program # *MUST FLUSH* puts $io "Thset io [open "|[info nameofexecutable] $tempFileName" r+] # # send a is will come back backwards." flush $io # Get the reply, and display it. set len [gets $io line]n characters long" # Run the program with input defputs "To reverse: 'This will come back backwards.'" puts "Reversed is: $line" puts "The line is $l eined in an exec call set invert [exec [info nameofexecutable] $tempFileName << \ "ABLE WAS I ERE I SAW ELBA"] # display the resultsputs "The inversion of 'ABLE WAS I ERE I SAW ELBA' is \n $invert" # Clean upfile delete $tempFileName
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