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Child interpreters
For most applications, a single interpreter and subroutines are quite sufficient. However, if you are building a client-server system (for example) you may need to have several interpreters talking to different clients, and maintaining their state. You can do this with state variables, naming conventions, or swapping state to and from disk, but that gets messy.
The interp
command creates new
child interpreters within an existing interpreter. The child
interpreters can have their own sets of variables, commands and
open files, or they can be given access to items in the parent
interpreter.
If the child is created with the -safe
option, it will not be able to access the file system, or otherwise
damage your system. This feature allows a script to evaluate code
from an unknown (and untrusted) source.
The names of child interpreters are a hierarchical list. If
interpreter foo
is a child of
interpreter bar
, then it can be
accessed from the toplevel interpreter as {bar foo}
.
The primary interpreter (what you get when you type tclsh) is
the empty list {}
.
The interp
command has several
subcommands and options. A critical subset is:
interp create
-safe
name
- Creates a new interpreter and returns the name. If the
-safe
option is used, the new interpreter will be unable to access certain dangerous system facilities. interp delete
name
- Deletes the named child interpreter.
interp eval
args
- This is similar to the regular
eval
command, except that it evaluates the script in the child interpreter instead of the primary interpreter. Theinterp eval
command concatenates the args into a string, and ships that line to the child interpreter to evaluate. interp alias
srcPath srcCmd targetPath targetCmd
arg arg
- The
interp alias
command allows a script to share procedures between child interpreters or between a child and the primary interpreter.
Note that slave interpreters have a separate state and namespace, but do not have separate event loops. These are not threads, and they will not execute independently. If one slave interpreter gets stopped by a blocking I/O request, for instance, no other interpreters will be processed until it has unblocked.
The example below shows two child interpreters being created
under the primary interpreter {}
. Each
of these interpreters is given a variable name
which contains the name of the
interpreter.
Note that the alias command causes the procedure to be evaluated
in the interpreter in which the procedure was defined, not the
interpreter in which it was evaluated. If you need a procedure to
exist within an interpreter, you must interp
eval
a proc
command within that
interpreter. If you want an interpreter to be able to call back to
the primary interpreter (or other interpreter) you can use the
interp alias
command.
Example
set i1 [interp create firstChild] set i2 [interp create secondChild] puts "first child interp: $i1" puts "second child interp: $i2\n" # Set a variable "name" in each child interp, and # create a procedure within each interp # to return that value foreach int [list $i1 $i2] { interp eval $int [list set name $int] interp eval $int {proc nameis {} {global name; return "nameis: $name";} } } foreach int [list $i1 $i2] { interp eval $int "puts \"EVAL IN $int: name is \$name\"" puts "Return from 'nameis' is: [interp eval $int nameis]" } # # A short program to return the value of "name" # proc rtnName {} { global name return "rtnName is: $name" } # # Alias that procedure to a proc in $i1 interp alias $i1 rtnName {} rtnName puts "" # This is an error. The alias causes the evaluation # to happen in the {} interpreter, where name is # not defined. puts "firstChild reports [interp eval $i1 rtnName]"