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587 lines
17 KiB
Markdown
587 lines
17 KiB
Markdown
---
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language: Tcl
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contributors:
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- ["Poor Yorick", "https://pooryorick.com/"]
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filename: learntcl.tcl
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---
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Tcl was created by [John Ousterhout](https://wiki.tcl-lang.org/page/John+Ousterhout) as a
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reusable scripting language for circuit design tools that he authored. In 1997 he
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was awarded the [ACM Software System
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Award](https://en.wikipedia.org/wiki/ACM_Software_System_Award) for Tcl. Tcl
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can be used both as an embeddable scripting language and as a general
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programming language. It can also be used as a portable C library, even in
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cases where no scripting capability is needed, as it provides data structures
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such as dynamic strings, lists, and hash tables. The C library also provides
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portable functionality for loading dynamic libraries, string formatting and
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code conversion, filesystem operations, network operations, and more. Various
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features of Tcl stand out:
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* Convenient cross-platform networking API
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* Fully virtualized filesystem
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* Stackable I/O channels
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* Asynchronous to the core
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* Full coroutines
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* A threading model recognized as robust and easy to use
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Tcl has much in common with Lisp, but instead of lists, Tcl uses strings as the
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currency of the language. All values are strings. A list is a string with a
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defined format, and the body of a procedure (a script) is also a string rather
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than a block. To achieve performance, Tcl internally caches structured
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representations of these values. list routines, for example, operate on
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the internal cached representation, and Tcl takes care of updating the string
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representation if it is ever actually needed in the script. The copy-on-write
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design of Tcl allows script authors to pass around large data values without
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actually incurring additional memory overhead. Procedures are automatically
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byte-compiled unless they use the more dynamic routines such as "uplevel",
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"upvar", and "trace".
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Tcl is a pleasure to program in. It will appeal to hacker types who find Lisp,
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Forth, or Smalltalk interesting, as well as to engineers and scientists who
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just want to get down to business with a tool that bends to their will. Its
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discipline of exposing all programmatic functionality as routines, including
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things like looping and mathematical operations that are usually baked into the
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syntax of other languages, allows it to fade into the background of whatever
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domain-specific functionality a project needs. Its syntax, which is even
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lighter than that of Lisp, just gets out of the way.
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```tcl
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#! /bin/env tclsh
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###############################################################################
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## 1. Guidelines
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###############################################################################
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# Tcl is not Sh or C! This needs to be said because standard shell quoting
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# habits almost work in Tcl and it is common for people to pick up Tcl and try
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# to get by with syntax they know from another language. It works at first,
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# but soon leads to frustration when scripts become more complex.
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# Braces are a quoting mechanism, not syntax for the construction of code
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# blocks or lists. Tcl doesn't have either of those things. Braces are used to
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# escape special characters, which makes them well-suited for quoting procedure
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# bodies and strings that should be interpreted as lists.
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###############################################################################
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## 2. Syntax
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###############################################################################
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# A script is made up of commands delimited by newlines or semicolons. Each
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# command is a call to a routine. The first word is the name of a routine to
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# call, and subsequent words are arguments to the routine. Words are delimited
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# by whitespace. Since each argument is a word in the command it is already a
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# string, and may be unquoted:
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set part1 Sal
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set part2 ut; set part3 ations
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# a dollar sign introduces variable substitution:
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set greeting $part1$part2$part3
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# When "set" is given only the name of a variable, it returns the
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# value of that variable:
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set part3 ;# Returns the value of the variable.
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# Left and right brackets embed a script to be evaluated for a result to
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# substitute into the word:
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set greeting $part1$part2[set part3]
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# An embedded script may be composed of multiple commands, the last of which provides
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# the result for the substitution:
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set greeting $greeting[
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incr i
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incr i
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incr i
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]
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puts $greeting ;# The output is "Salutations3"
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# Every word in a command is a string, including the name of the routine, so
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# substitutions can be used on it as well. Given this variable
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# assignment,
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set action pu
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# , the following three commands are equivalent:
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puts $greeting
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${action}ts $greeting
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[set action]ts $greeting
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# backslash suppresses the special meaning of characters:
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set amount \$16.42
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# backslash adds special meaning to certain characters:
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puts lots\nof\n\n\n\n\n\nnewlines
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# A word enclosed in braces is not subject to any special interpretation or
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# substitutions, except that a backslash before a brace is not counted when
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# looking for the closing brace:
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set somevar {
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This is a literal $ sign, and this \} escaped
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brace remains uninterpreted
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}
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# In a word enclosed in double quotes, whitespace characters lose their special
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# meaning:
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set name Neo
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set greeting "Hello, $name"
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# A variable name can be any string:
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set {first name} New
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# The braced form of variable substitution handles more complex variable names:
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set greeting "Hello, ${first name}"
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# "set" can always be used instead of variable substitution, and can handle all
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# variable names:
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set greeting "Hello, [set {first name}]"
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# To unpack a list into the command, use the expansion operator, "{*}". These
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# two commands are equivalent:
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set name Neo
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set {*}{name Neo}
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# An array is a special variable that is a container for other variables.
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set person(name) Neo
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set person(destiny) {The One}
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set greeting "Hello, $person(name)"
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# "variable" can be used to declare or set variables. In contrast with "set",
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# which uses both the global namespace and the current namespace to resolve a
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# variable name, "variable" uses only the current namespace:
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variable name New
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# "namespace eval" creates a new namespace if it doesn't exist. A namespace
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# can contain both routines and variables:
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namespace eval people {
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namespace eval person1 {
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variable name Neo
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}
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}
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# Use two or more colons to delimit namespace components in variable names:
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namespace eval people {
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set greeting "Hello $person1::name"
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}
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# Two or more colons also delimit namespace components in routine names:
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proc people::person1::speak {} {
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puts {I am The One.}
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}
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# Fully-qualified names begin with two colons:
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set greeting "Hello $::people::person1::name"
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###############################################################################
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## 3. No More Syntax
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###############################################################################
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# All other functionality is implemented via routines. From this point on,
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# there is no new syntax. Everything else there is to learn about
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# Tcl is about the behaviour of individual routines and what meaning they
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# assign to their arguments.
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###############################################################################
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## 4. Variables and Namespaces
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###############################################################################
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# Each variable and routine is associated with some namespace.
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# To end up with an interpreter that can do nothing, delete the global
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# namespace. It's not very useful to do such a thing, but it illustrates the
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# nature of Tcl. The name of the global namespace is actually the empty
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# string, but the only way to represent it is as a fully-qualified name. To
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# try it out call this routine:
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proc delete_global_namespace {} {
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namespace delete ::
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}
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# Because "set" always keeps its eye on both the global namespace and the
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# current namespace, it's safer to use "variable" to declare a variable or
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# assign a value to a variable. If a variable called "name" already exists in
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# the global namespace, using "set" here will assign a value to the global
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# variable instead of to a variable in the current namespace, whereas
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# "variable" operates only on the current namespace.
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namespace eval people {
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namespace eval person1 {
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variable name Neo
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}
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}
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# Once a variable is declared in a namespace, [set] sees it instead of seeing
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# an identically-named variable in the global namespace:
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namespace eval people {
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namespace eval person1 {
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variable name
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set name Neo
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}
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}
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# But if "set" has to create a new variable, it always does it relative to the
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# current namespace:
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unset name
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namespace eval people {
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namespace eval person1 {
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set name neo
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}
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}
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set people::person1::name
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# An absolute name always begins with the name of the global namespace (the
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# empty string), followed by two colons:
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set ::people::person1::name Neo
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# Within a procedure, the "variable" links a variable in the current namespace
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# into the local scope:
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namespace eval people::person1 {
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proc fly {} {
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variable name
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puts "$name is flying!"
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}
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}
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###############################################################################
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## 5. Built-in Routines
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###############################################################################
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# Math can be done with the "expr":
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set a 3
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set b 4
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set c [expr {$a + $b}]
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# Since "expr" performs variable substitution on its own, brace the expression
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# to prevent Tcl from performing variable substitution first. See
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# "https://wiki.tcl-lang.org/page/Brace+your+expr-essions" for details.
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# "expr" understands variable and script substitution:
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set c [expr {$a + [set b]}]
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# "expr" provides a set of mathematical functions:
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set c [expr {pow($a,$b)}]
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# Mathematical operators are available as routines in the ::tcl::mathop
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# namespace:
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::tcl::mathop::+ 5 3
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# Routines can be imported from other namespaces:
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namespace import ::tcl::mathop::+
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set result [+ 5 3]
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# Non-numeric values must be quoted, and operators like "eq" can be used to
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# constrain the operation to string comparison:
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set name Neo
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expr {{Bob} eq $name}
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# The general operators fall back to string comparison if numeric
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# operation isn't feasible:
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expr {{Bob} == $name}
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# "proc" creates new routines:
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proc greet name {
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return "Hello, $name!"
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}
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#multiple parameters can be specified:
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proc greet {greeting name} {
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return "$greeting, $name!"
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}
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# As noted earlier, braces do not construct a code block. Every value, even
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# the third argument to "proc", is a string. The previous command
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# can be rewritten using no braces:
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proc greet greeting\ name return\ \"\$greeting,\ \$name!\"
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# "
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# When the last parameter is the literal value "args", all extra arguments
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# passed to the routine are collected into a list and assigned to "args":
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proc fold {cmd first args} {
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foreach arg $args {
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set first [$cmd $first $arg]
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}
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return $first
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}
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fold ::tcl::mathop::* 5 3 3 ;# -> 45
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# Conditional execution is implemented as a routine:
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if {3 > 4} {
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puts {This will never happen}
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} elseif {4 > 4} {
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puts {This will also never happen}
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} else {
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puts {This will always happen}
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}
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# Loops are implemented as routines. The first and third arguments to
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# "for" are treated as scripts, while the second argument is treated as
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# an expression:
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set res 0
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for {set i 0} {$i < 10} {incr i} {
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set res [expr {$res + $i}]
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}
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unset res
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# The first argument to "while" is also treated as an expression:
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set i 0
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while {$i < 10} {
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incr i 2
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}
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# A list is a string, and items in the list are delimited by whitespace:
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set amounts 10\ 33\ 18
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set amount [lindex $amounts 1]
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# Whitespace in a list item must be quoted:
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set inventory {"item 1" item\ 2 {item 3}}
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# It's generally a better idea to use list routines when modifying lists:
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lappend inventory {item 1} {item 2} {item 3}
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# Braces and backslash can be used to format more complex values in a list. A
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# list looks exactly like a script, except that the newline character and the
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# semicolon character lose their special meanings, and there is no script or
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# variable substitution. This feature makes Tcl homoiconic. There are three
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# items in the following list:
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set values {
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one\ two
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{three four}
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five\{six
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}
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# Since, like all values, a list is a string, string operations could be
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# performed on it, at the risk of corrupting the formatting of the list:
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set values {one two three four}
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set values [string map {two \{} $values] ;# $values is no-longer a \
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properly-formatted list
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# The sure-fire way to get a properly-formatted list is to use "list" routines:
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set values [list one \{ three four]
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lappend values { } ;# add a single space as an item in the list
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# Use "eval" to evaluate a value as a script:
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eval {
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set name Neo
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set greeting "Hello, $name"
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}
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# A list can always be passed to "eval" as a script composed of a single
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# command:
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eval {set name Neo}
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eval [list set greeting "Hello, $name"]
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# Therefore, when using "eval", use "list" to build up the desired command:
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set command {set name}
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lappend command {Archibald Sorbisol}
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eval $command
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# A common mistake is not to use list functions when building up a command:
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set command {set name}
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append command { Archibald Sorbisol}
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try {
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eval $command ;# The error here is that there are too many arguments \
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to "set" in {set name Archibald Sorbisol}
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} on error {result eoptions} {
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puts [list {received an error} $result]
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}
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# This mistake can easily occur with "subst":
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set replacement {Archibald Sorbisol}
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set command {set name $replacement}
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set command [subst $command]
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try {
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eval $command ;# The same error as before: too many arguments to "set" in \
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{set name Archibald Sorbisol}
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} trap {TCL WRONGARGS} {result options} {
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puts [list {received another error} $result]
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}
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# "list" correctly formats a value for substitution:
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set replacement [list {Archibald Sorbisol}]
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set command {set name $replacement}
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set command [subst $command]
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eval $command
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# "list" is commonly used to format values for substitution into scripts: There
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# are several examples of this, below.
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# "apply" evaluates a two-item list as a routine:
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set cmd {{greeting name} {
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return "$greeting, $name!"
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}}
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apply $cmd Whaddup Neo
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# A third item can be used to specify the namespace to apply the routine in:
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set cmd [list {greeting name} {
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return "$greeting, $name!"
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} [namespace current]]
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apply $cmd Whaddup Neo
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# "uplevel" evaluates a script at some higher level in the call stack:
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proc greet {} {
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uplevel {puts "$greeting, $name"}
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}
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proc set_double {varname value} {
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if {[string is double $value]} {
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uplevel [list variable $varname $value]
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} else {
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error [list {not a double} $value]
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}
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}
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# "upvar" links a variable at the current level in the call stack to a variable
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# at some higher level:
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proc set_double {varname value} {
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if {[string is double $value]} {
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upvar 1 $varname var
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set var $value
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} else {
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error [list {not a double} $value]
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}
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}
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# Get rid of the built-in "while" routine, and use "proc" to define a new one:
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rename ::while {}
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# handling is left as an exercise:
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proc while {condition script} {
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if {[uplevel 1 [list expr $condition]]} {
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uplevel 1 $script
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tailcall [namespace which while] $condition $script
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}
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}
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# "coroutine" creates a new call stack, a new routine to enter that call stack,
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# and then calls that routine. "yield" suspends evaluation in that stack and
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# returns control to the calling stack:
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proc countdown count {
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# send something back to the creator of the coroutine, effectively pausing
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# this call stack for the time being.
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yield [info coroutine]
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while {$count > 1} {
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yield [incr count -1]
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}
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return 0
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}
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coroutine countdown1 countdown 3
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coroutine countdown2 countdown 5
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puts [countdown1] ;# -> 2
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puts [countdown2] ;# -> 4
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puts [countdown1] ;# -> 1
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puts [countdown1] ;# -> 0
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catch {
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puts [coundown1] ;# -> invalid command name "countdown1"
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} cres copts
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puts $cres
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puts [countdown2] ;# -> 3
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# Coroutine stacks can yield control to each other:
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proc pass {whom args} {
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return [yieldto $whom {*}$args]
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}
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coroutine a apply {{} {
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yield
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set result [pass b {please pass the salt}]
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puts [list got the $result]
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set result [pass b {please pass the pepper}]
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puts [list got the $result]
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}}
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coroutine b apply {{} {
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set request [yield]
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while 1 {
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set response [pass c $request]
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puts [list [info coroutine] is now yielding]
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set request [pass a $response]
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}
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}}
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coroutine c apply {{} {
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set request [yield]
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while 1 {
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if {[string match *salt* $request]} {
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set request [pass b salt]
|
|
} else {
|
|
set request [pass b huh?]
|
|
}
|
|
}
|
|
}}
|
|
|
|
# get things moving
|
|
a
|
|
```
|
|
|
|
## Reference
|
|
|
|
[Official Tcl Documentation](https://www.tcl-lang.org)
|
|
|
|
[Tcl Wiki](https://wiki.tcl-lang.org)
|
|
|
|
[Tcl Subreddit](http://www.reddit.com/r/Tcl)
|