'\" '\" Copyright (c) 1993-1997 Bell Labs Innovations for Lucent Technologies '\" Copyright (c) 1997 Sun Microsystems, Inc. '\" Copyright (c) 2000 Scriptics Corporation. '\" Copyright (c) 2004-2005 Donal K. Fellows. '\" '\" See the file "license.terms" for information on usage and redistribution '\" of this file, and for a DISCLAIMER OF ALL WARRANTIES. '\" .TH namespace 3tcl 8.5 Tcl "Tcl Built-In Commands" .\" The -*- nroff -*- definitions below are for supplemental macros used .\" in Tcl/Tk manual entries. .\" .\" .AP type name in/out ?indent? .\" Start paragraph describing an argument to a library procedure. .\" type is type of argument (int, etc.), in/out is either "in", "out", .\" or "in/out" to describe whether procedure reads or modifies arg, .\" and indent is equivalent to second arg of .IP (shouldn't ever be .\" needed; use .AS below instead) .\" .\" .AS ?type? ?name? .\" Give maximum sizes of arguments for setting tab stops. Type and .\" name are examples of largest possible arguments that will be passed .\" to .AP later. If args are omitted, default tab stops are used. .\" .\" .BS .\" Start box enclosure. From here until next .BE, everything will be .\" enclosed in one large box. .\" .\" .BE .\" End of box enclosure. .\" .\" .CS .\" Begin code excerpt. .\" .\" .CE .\" End code excerpt. .\" .\" .VS ?version? ?br? .\" Begin vertical sidebar, for use in marking newly-changed parts .\" of man pages. The first argument is ignored and used for recording .\" the version when the .VS was added, so that the sidebars can be .\" found and removed when they reach a certain age. If another argument .\" is present, then a line break is forced before starting the sidebar. .\" .\" .VE .\" End of vertical sidebar. .\" .\" .DS .\" Begin an indented unfilled display. .\" .\" .DE .\" End of indented unfilled display. .\" .\" .SO ?manpage? .\" Start of list of standard options for a Tk widget. The manpage .\" argument defines where to look up the standard options; if .\" omitted, defaults to "options". The options follow on successive .\" lines, in three columns separated by tabs. .\" .\" .SE .\" End of list of standard options for a Tk widget. .\" .\" .OP cmdName dbName dbClass .\" Start of description of a specific option. cmdName gives the .\" option's name as specified in the class command, dbName gives .\" the option's name in the option database, and dbClass gives .\" the option's class in the option database. .\" .\" .UL arg1 arg2 .\" Print arg1 underlined, then print arg2 normally. .\" .\" .QW arg1 ?arg2? .\" Print arg1 in quotes, then arg2 normally (for trailing punctuation). .\" .\" .PQ arg1 ?arg2? .\" Print an open parenthesis, arg1 in quotes, then arg2 normally .\" (for trailing punctuation) and then a closing parenthesis. .\" .\" # Set up traps and other miscellaneous stuff for Tcl/Tk man pages. .if t .wh -1.3i ^B .nr ^l \n(.l .ad b .\" # Start an argument description .de AP .ie !"\\$4"" .TP \\$4 .el \{\ . ie !"\\$2"" .TP \\n()Cu . el .TP 15 .\} .ta \\n()Au \\n()Bu .ie !"\\$3"" \{\ \&\\$1 \\fI\\$2\\fP (\\$3) .\".b .\} .el \{\ .br .ie !"\\$2"" \{\ \&\\$1 \\fI\\$2\\fP .\} .el \{\ \&\\fI\\$1\\fP .\} .\} .. .\" # define tabbing values for .AP .de AS .nr )A 10n .if !"\\$1"" .nr )A \\w'\\$1'u+3n .nr )B \\n()Au+15n .\" .if !"\\$2"" .nr )B \\w'\\$2'u+\\n()Au+3n .nr )C \\n()Bu+\\w'(in/out)'u+2n .. .AS Tcl_Interp Tcl_CreateInterp in/out .\" # BS - start boxed text .\" # ^y = starting y location .\" # ^b = 1 .de BS .br .mk ^y .nr ^b 1u .if n .nf .if n .ti 0 .if n \l'\\n(.lu\(ul' .if n .fi .. .\" # BE - end boxed text (draw box now) .de BE .nf .ti 0 .mk ^t .ie n \l'\\n(^lu\(ul' .el \{\ .\" Draw four-sided box normally, but don't draw top of .\" box if the box started on an earlier page. .ie !\\n(^b-1 \{\ \h'-1.5n'\L'|\\n(^yu-1v'\l'\\n(^lu+3n\(ul'\L'\\n(^tu+1v-\\n(^yu'\l'|0u-1.5n\(ul' .\} .el \}\ \h'-1.5n'\L'|\\n(^yu-1v'\h'\\n(^lu+3n'\L'\\n(^tu+1v-\\n(^yu'\l'|0u-1.5n\(ul' .\} .\} .fi .br .nr ^b 0 .. .\" # VS - start vertical sidebar .\" # ^Y = starting y location .\" # ^v = 1 (for troff; for nroff this doesn't matter) .de VS .if !"\\$2"" .br .mk ^Y .ie n 'mc \s12\(br\s0 .el .nr ^v 1u .. .\" # VE - end of vertical sidebar .de VE .ie n 'mc .el \{\ .ev 2 .nf .ti 0 .mk ^t \h'|\\n(^lu+3n'\L'|\\n(^Yu-1v\(bv'\v'\\n(^tu+1v-\\n(^Yu'\h'-|\\n(^lu+3n' .sp -1 .fi .ev .\} .nr ^v 0 .. .\" # Special macro to handle page bottom: finish off current .\" # box/sidebar if in box/sidebar mode, then invoked standard .\" # page bottom macro. .de ^B .ev 2 'ti 0 'nf .mk ^t .if \\n(^b \{\ .\" Draw three-sided box if this is the box's first page, .\" draw two sides but no top otherwise. .ie !\\n(^b-1 \h'-1.5n'\L'|\\n(^yu-1v'\l'\\n(^lu+3n\(ul'\L'\\n(^tu+1v-\\n(^yu'\h'|0u'\c .el \h'-1.5n'\L'|\\n(^yu-1v'\h'\\n(^lu+3n'\L'\\n(^tu+1v-\\n(^yu'\h'|0u'\c .\} .if \\n(^v \{\ .nr ^x \\n(^tu+1v-\\n(^Yu \kx\h'-\\nxu'\h'|\\n(^lu+3n'\ky\L'-\\n(^xu'\v'\\n(^xu'\h'|0u'\c .\} .bp 'fi .ev .if \\n(^b \{\ .mk ^y .nr ^b 2 .\} .if \\n(^v \{\ .mk ^Y .\} .. .\" # DS - begin display .de DS .RS .nf .sp .. .\" # DE - end display .de DE .fi .RE .sp .. .\" # SO - start of list of standard options .de SO 'ie '\\$1'' .ds So \\fBoptions\\fR 'el .ds So \\fB\\$1\\fR .SH "STANDARD OPTIONS" .LP .nf .ta 5.5c 11c .ft B .. .\" # SE - end of list of standard options .de SE .fi .ft R .LP See the \\*(So manual entry for details on the standard options. .. .\" # OP - start of full description for a single option .de OP .LP .nf .ta 4c Command-Line Name: \\fB\\$1\\fR Database Name: \\fB\\$2\\fR Database Class: \\fB\\$3\\fR .fi .IP .. .\" # CS - begin code excerpt .de CS .RS .nf .ta .25i .5i .75i 1i .. .\" # CE - end code excerpt .de CE .fi .RE .. .\" # UL - underline word .de UL \\$1\l'|0\(ul'\\$2 .. .\" # QW - apply quotation marks to word .de QW .ie '\\*(lq'"' ``\\$1''\\$2 .\"" fix emacs highlighting .el \\*(lq\\$1\\*(rq\\$2 .. .\" # PQ - apply parens and quotation marks to word .de PQ .ie '\\*(lq'"' (``\\$1''\\$2)\\$3 .\"" fix emacs highlighting .el (\\*(lq\\$1\\*(rq\\$2)\\$3 .. .\" # QR - quoted range .de QR .ie '\\*(lq'"' ``\\$1''\\-``\\$2''\\$3 .\"" fix emacs highlighting .el \\*(lq\\$1\\*(rq\\-\\*(lq\\$2\\*(rq\\$3 .. .\" # MT - "empty" string .de MT .QW "" .. .BS '\" Note: do not modify the .SH NAME line immediately below! .SH NAME namespace \- create and manipulate contexts for commands and variables .SH SYNOPSIS \fBnamespace \fR?\fIsubcommand\fR? ?\fIarg ...\fR? .BE .SH DESCRIPTION .PP The \fBnamespace\fR command lets you create, access, and destroy separate contexts for commands and variables. See the section \fBWHAT IS A NAMESPACE?\fR below for a brief overview of namespaces. The legal values of \fIsubcommand\fR are listed below. Note that you can abbreviate the \fIsubcommand\fRs. .TP \fBnamespace children \fR?\fInamespace\fR? ?\fIpattern\fR? . Returns a list of all child namespaces that belong to the namespace \fInamespace\fR. If \fInamespace\fR is not specified, then the children are returned for the current namespace. This command returns fully-qualified names, which start with a double colon (\fB::\fR). If the optional \fIpattern\fR is given, then this command returns only the names that match the glob-style pattern. The actual pattern used is determined as follows: a pattern that starts with double colon (\fB::\fR) is used directly, otherwise the namespace \fInamespace\fR (or the fully-qualified name of the current namespace) is prepended onto the pattern. .TP \fBnamespace code \fIscript\fR . Captures the current namespace context for later execution of the script \fIscript\fR. It returns a new script in which \fIscript\fR has been wrapped in a \fBnamespace inscope\fR command. The new script has two important properties. First, it can be evaluated in any namespace and will cause \fIscript\fR to be evaluated in the current namespace (the one where the \fBnamespace code\fR command was invoked). Second, additional arguments can be appended to the resulting script and they will be passed to \fIscript\fR as additional arguments. For example, suppose the command \fBset script [namespace code {foo bar}]\fR is invoked in namespace \fB::a::b\fR. Then \fBeval $script [list x y]\fR can be executed in any namespace (assuming the value of \fBscript\fR has been passed in properly) and will have the same effect as the command \fB::namespace eval ::a::b {foo bar x y}\fR. This command is needed because extensions like Tk normally execute callback scripts in the global namespace. A scoped command captures a command together with its namespace context in a way that allows it to be executed properly later. See the section \fBSCOPED SCRIPTS\fR for some examples of how this is used to create callback scripts. .TP \fBnamespace current\fR . Returns the fully-qualified name for the current namespace. The actual name of the global namespace is .MT (i.e., an empty string), but this command returns \fB::\fR for the global namespace as a convenience to programmers. .TP \fBnamespace delete \fR?\fInamespace namespace ...\fR? . Each namespace \fInamespace\fR is deleted and all variables, procedures, and child namespaces contained in the namespace are deleted. If a procedure is currently executing inside the namespace, the namespace will be kept alive until the procedure returns; however, the namespace is marked to prevent other code from looking it up by name. If a namespace does not exist, this command returns an error. If no namespace names are given, this command does nothing. .TP \fBnamespace ensemble\fR \fIsubcommand\fR ?\fIarg ...\fR? . Creates and manipulates a command that is formed out of an ensemble of subcommands. See the section \fBENSEMBLES\fR below for further details. .TP \fBnamespace eval\fR \fInamespace arg\fR ?\fIarg ...\fR? . Activates a namespace called \fInamespace\fR and evaluates some code in that context. If the namespace does not already exist, it is created. If more than one \fIarg\fR argument is specified, the arguments are concatenated together with a space between each one in the same fashion as the \fBeval\fR command, and the result is evaluated. .RS .PP If \fInamespace\fR has leading namespace qualifiers and any leading namespaces do not exist, they are automatically created. .RE .TP \fBnamespace exists\fR \fInamespace\fR . Returns \fB1\fR if \fInamespace\fR is a valid namespace in the current context, returns \fB0\fR otherwise. .TP \fBnamespace export \fR?\fB\-clear\fR? ?\fIpattern pattern ...\fR? . Specifies which commands are exported from a namespace. The exported commands are those that can be later imported into another namespace using a \fBnamespace import\fR command. Both commands defined in a namespace and commands the namespace has previously imported can be exported by a namespace. The commands do not have to be defined at the time the \fBnamespace export\fR command is executed. Each \fIpattern\fR may contain glob-style special characters, but it may not include any namespace qualifiers. That is, the pattern can only specify commands in the current (exporting) namespace. Each \fIpattern\fR is appended onto the namespace's list of export patterns. If the \fB\-clear\fR flag is given, the namespace's export pattern list is reset to empty before any \fIpattern\fR arguments are appended. If no \fIpattern\fRs are given and the \fB\-clear\fR flag is not given, this command returns the namespace's current export list. .TP \fBnamespace forget \fR?\fIpattern pattern ...\fR? . Removes previously imported commands from a namespace. Each \fIpattern\fR is a simple or qualified name such as \fBx\fR, \fBfoo::x\fR or \fBa::b::p*\fR. Qualified names contain double colons (\fB::\fR) and qualify a name with the name of one or more namespaces. Each .QW "qualified pattern" is qualified with the name of an exporting namespace and may have glob-style special characters in the command name at the end of the qualified name. Glob characters may not appear in a namespace name. For each .QW "simple pattern" this command deletes the matching commands of the current namespace that were imported from a different namespace. For .QW "qualified patterns" , this command first finds the matching exported commands. It then checks whether any of those commands were previously imported by the current namespace. If so, this command deletes the corresponding imported commands. In effect, this un-does the action of a \fBnamespace import\fR command. .TP \fBnamespace import \fR?\fB\-force\fR? ?\fIpattern\fR \fIpattern ...\fR? . Imports commands into a namespace, or queries the set of imported commands in a namespace. When no arguments are present, \fBnamespace import\fR returns the list of commands in the current namespace that have been imported from other namespaces. The commands in the returned list are in the format of simple names, with no namespace qualifiers at all. This format is suitable for composition with \fBnamespace forget\fR (see \fBEXAMPLES\fR below). .RS .PP When \fIpattern\fR arguments are present, each \fIpattern\fR is a qualified name like \fBfoo::x\fR or \fBa::p*\fR. That is, it includes the name of an exporting namespace and may have glob-style special characters in the command name at the end of the qualified name. Glob characters may not appear in a namespace name. When the namespace name is not fully qualified (i.e., does not start with a namespace separator) it is resolved as a namespace name in the way described in the \fBNAME RESOLUTION\fR section; it is an error if no namespace with that name can be found. .PP All the commands that match a \fIpattern\fR string and which are currently exported from their namespace are added to the current namespace. This is done by creating a new command in the current namespace that points to the exported command in its original namespace; when the new imported command is called, it invokes the exported command. This command normally returns an error if an imported command conflicts with an existing command. However, if the \fB\-force\fR option is given, imported commands will silently replace existing commands. The \fBnamespace import\fR command has snapshot semantics: that is, only requested commands that are currently defined in the exporting namespace are imported. In other words, you can import only the commands that are in a namespace at the time when the \fBnamespace import\fR command is executed. If another command is defined and exported in this namespace later on, it will not be imported. .RE .TP \fBnamespace inscope\fR \fInamespace\fR \fIscript\fR ?\fIarg ...\fR? . Executes a script in the context of the specified \fInamespace\fR. This command is not expected to be used directly by programmers; calls to it are generated implicitly when applications use \fBnamespace code\fR commands to create callback scripts that the applications then register with, e.g., Tk widgets. The \fBnamespace inscope\fR command is much like the \fBnamespace eval\fR command except that the \fInamespace\fR must already exist, and \fBnamespace inscope\fR appends additional \fIarg\fRs as proper list elements. .RS .PP .CS \fBnamespace inscope ::foo $script $x $y $z\fR .CE .PP is equivalent to .PP .CS \fBnamespace eval ::foo [concat $script [list $x $y $z]]\fR .CE .PP thus additional arguments will not undergo a second round of substitution, as is the case with \fBnamespace eval\fR. .RE .TP \fBnamespace origin \fIcommand\fR . Returns the fully-qualified name of the original command to which the imported command \fIcommand\fR refers. When a command is imported into a namespace, a new command is created in that namespace that points to the actual command in the exporting namespace. If a command is imported into a sequence of namespaces \fIa, b,...,n\fR where each successive namespace just imports the command from the previous namespace, this command returns the fully-qualified name of the original command in the first namespace, \fIa\fR. If \fIcommand\fR does not refer to an imported command, the command's own fully-qualified name is returned. .TP \fBnamespace parent\fR ?\fInamespace\fR? . Returns the fully-qualified name of the parent namespace for namespace \fInamespace\fR. If \fInamespace\fR is not specified, the fully-qualified name of the current namespace's parent is returned. .TP \fBnamespace path\fR ?\fInamespaceList\fR? . Returns the command resolution path of the current namespace. If \fInamespaceList\fR is specified as a list of named namespaces, the current namespace's command resolution path is set to those namespaces and returns the empty list. The default command resolution path is always empty. See the section \fBNAME RESOLUTION\fR below for an explanation of the rules regarding name resolution. .TP \fBnamespace qualifiers\fR \fIstring\fR . Returns any leading namespace qualifiers for \fIstring\fR. Qualifiers are namespace names separated by double colons (\fB::\fR). For the \fIstring\fR \fB::foo::bar::x\fR, this command returns \fB::foo::bar\fR, and for \fB::\fR it returns an empty string. This command is the complement of the \fBnamespace tail\fR command. Note that it does not check whether the namespace names are, in fact, the names of currently defined namespaces. .TP \fBnamespace tail\fR \fIstring\fR . Returns the simple name at the end of a qualified string. Qualifiers are namespace names separated by double colons (\fB::\fR). For the \fIstring\fR \fB::foo::bar::x\fR, this command returns \fBx\fR, and for \fB::\fR it returns an empty string. This command is the complement of the \fBnamespace qualifiers\fR command. It does not check whether the namespace names are, in fact, the names of currently defined namespaces. .TP \fBnamespace upvar\fR \fInamespace\fR ?\fIotherVar myVar \fR...? . This command arranges for zero or more local variables in the current procedure to refer to variables in \fInamespace\fR. The namespace name is resolved as described in section \fBNAME RESOLUTION\fR. The command \fBnamespace upvar $ns a b\fR has the same behaviour as \fBupvar 0 ${ns}::a b\fR, with the sole exception of the resolution rules used for qualified namespace or variable names. \fBnamespace upvar\fR returns an empty string. .TP \fBnamespace unknown\fR ?\fIscript\fR? . Sets or returns the unknown command handler for the current namespace. The handler is invoked when a command called from within the namespace cannot be found in the current namespace, the namespace's path nor in the global namespace. The \fIscript\fR argument, if given, should be a well formed list representing a command name and optional arguments. When the handler is invoked, the full invocation line will be appended to the script and the result evaluated in the context of the namespace. The default handler for all namespaces is \fB::unknown\fR. If no argument is given, it returns the handler for the current namespace. .TP \fBnamespace which\fR ?\fB\-command\fR? ?\fB\-variable\fR? \fIname\fR . Looks up \fIname\fR as either a command or variable and returns its fully-qualified name. For example, if \fIname\fR does not exist in the current namespace but does exist in the global namespace, this command returns a fully-qualified name in the global namespace. If the command or variable does not exist, this command returns an empty string. If the variable has been created but not defined, such as with the \fBvariable\fR command or through a \fBtrace\fR on the variable, this command will return the fully-qualified name of the variable. If no flag is given, \fIname\fR is treated as a command name. See the section \fBNAME RESOLUTION\fR below for an explanation of the rules regarding name resolution. .SH "WHAT IS A NAMESPACE?" .PP A namespace is a collection of commands and variables. It encapsulates the commands and variables to ensure that they will not interfere with the commands and variables of other namespaces. Tcl has always had one such collection, which we refer to as the \fIglobal namespace\fR. The global namespace holds all global variables and commands. The \fBnamespace eval\fR command lets you create new namespaces. For example, .PP .CS \fBnamespace eval\fR Counter { \fBnamespace export\fR bump variable num 0 proc bump {} { variable num incr num } } .CE .PP creates a new namespace containing the variable \fBnum\fR and the procedure \fBbump\fR. The commands and variables in this namespace are separate from other commands and variables in the same program. If there is a command named \fBbump\fR in the global namespace, for example, it will be different from the command \fBbump\fR in the \fBCounter\fR namespace. .PP Namespace variables resemble global variables in Tcl. They exist outside of the procedures in a namespace but can be accessed in a procedure via the \fBvariable\fR command, as shown in the example above. .PP Namespaces are dynamic. You can add and delete commands and variables at any time, so you can build up the contents of a namespace over time using a series of \fBnamespace eval\fR commands. For example, the following series of commands has the same effect as the namespace definition shown above: .PP .CS \fBnamespace eval\fR Counter { variable num 0 proc bump {} { variable num return [incr num] } } \fBnamespace eval\fR Counter { proc test {args} { return $args } } \fBnamespace eval\fR Counter { rename test "" } .CE .PP Note that the \fBtest\fR procedure is added to the \fBCounter\fR namespace, and later removed via the \fBrename\fR command. .PP Namespaces can have other namespaces within them, so they nest hierarchically. A nested namespace is encapsulated inside its parent namespace and can not interfere with other namespaces. .SH "QUALIFIED NAMES" .PP Each namespace has a textual name such as \fBhistory\fR or \fB::safe::interp\fR. Since namespaces may nest, qualified names are used to refer to commands, variables, and child namespaces contained inside namespaces. Qualified names are similar to the hierarchical path names for Unix files or Tk widgets, except that \fB::\fR is used as the separator instead of \fB/\fR or \fB.\fR. The topmost or global namespace has the name .MT (i.e., an empty string), although \fB::\fR is a synonym. As an example, the name \fB::safe::interp::create\fR refers to the command \fBcreate\fR in the namespace \fBinterp\fR that is a child of namespace \fB::safe\fR, which in turn is a child of the global namespace, \fB::\fR. .PP If you want to access commands and variables from another namespace, you must use some extra syntax. Names must be qualified by the namespace that contains them. From the global namespace, we might access the \fBCounter\fR procedures like this: .PP .CS Counter::bump 5 Counter::Reset .CE .PP We could access the current count like this: .PP .CS puts "count = $Counter::num" .CE .PP When one namespace contains another, you may need more than one qualifier to reach its elements. If we had a namespace \fBFoo\fR that contained the namespace \fBCounter\fR, you could invoke its \fBbump\fR procedure from the global namespace like this: .PP .CS Foo::Counter::bump 3 .CE .PP You can also use qualified names when you create and rename commands. For example, you could add a procedure to the \fBFoo\fR namespace like this: .PP .CS proc Foo::Test {args} {return $args} .CE .PP And you could move the same procedure to another namespace like this: .PP .CS rename Foo::Test Bar::Test .CE .PP There are a few remaining points about qualified names that we should cover. Namespaces have nonempty names except for the global namespace. \fB::\fR is disallowed in simple command, variable, and namespace names except as a namespace separator. Extra colons in any separator part of a qualified name are ignored; i.e. two or more colons are treated as a namespace separator. A trailing \fB::\fR in a qualified variable or command name refers to the variable or command named {}. However, a trailing \fB::\fR in a qualified namespace name is ignored. .SH "NAME RESOLUTION" .PP In general, all Tcl commands that take variable and command names support qualified names. This means you can give qualified names to such commands as \fBset\fR, \fBproc\fR, \fBrename\fR, and \fBinterp alias\fR. If you provide a fully-qualified name that starts with a \fB::\fR, there is no question about what command, variable, or namespace you mean. However, if the name does not start with a \fB::\fR (i.e., is \fIrelative\fR), Tcl follows basic rules for looking it up: .IP \(bu \fBVariable names\fR are always resolved by looking first in the current namespace, and then in the global namespace. .IP \(bu \fBCommand names\fR are always resolved by looking in the current namespace first. If not found there, they are searched for in every namespace on the current namespace's command path (which is empty by default). If not found there, command names are looked up in the global namespace (or, failing that, are processed by the appropriate \fBnamespace unknown\fR handler.) .IP \(bu \fBNamespace names\fR are always resolved by looking in only the current namespace. .PP In the following example, .PP .CS set traceLevel 0 \fBnamespace eval\fR Debug { printTrace $traceLevel } .CE .PP Tcl looks for \fBtraceLevel\fR in the namespace \fBDebug\fR and then in the global namespace. It looks up the command \fBprintTrace\fR in the same way. If a variable or command name is not found in either context, the name is undefined. To make this point absolutely clear, consider the following example: .PP .CS set traceLevel 0 \fBnamespace eval\fR Foo { variable traceLevel 3 \fBnamespace eval\fR Debug { printTrace $traceLevel } } .CE .PP Here Tcl looks for \fBtraceLevel\fR first in the namespace \fBFoo::Debug\fR. Since it is not found there, Tcl then looks for it in the global namespace. The variable \fBFoo::traceLevel\fR is completely ignored during the name resolution process. .PP You can use the \fBnamespace which\fR command to clear up any question about name resolution. For example, the command: .PP .CS \fBnamespace eval\fR Foo::Debug {\fBnamespace which\fR \-variable traceLevel} .CE .PP returns \fB::traceLevel\fR. On the other hand, the command, .PP .CS \fBnamespace eval\fR Foo {\fBnamespace which\fR \-variable traceLevel} .CE .PP returns \fB::Foo::traceLevel\fR. .PP As mentioned above, namespace names are looked up differently than the names of variables and commands. Namespace names are always resolved in the current namespace. This means, for example, that a \fBnamespace eval\fR command that creates a new namespace always creates a child of the current namespace unless the new namespace name begins with \fB::\fR. .PP Tcl has no access control to limit what variables, commands, or namespaces you can reference. If you provide a qualified name that resolves to an element by the name resolution rule above, you can access the element. .PP You can access a namespace variable from a procedure in the same namespace by using the \fBvariable\fR command. Much like the \fBglobal\fR command, this creates a local link to the namespace variable. If necessary, it also creates the variable in the current namespace and initializes it. Note that the \fBglobal\fR command only creates links to variables in the global namespace. It is not necessary to use a \fBvariable\fR command if you always refer to the namespace variable using an appropriate qualified name. .SH "IMPORTING COMMANDS" .PP Namespaces are often used to represent libraries. Some library commands are used so frequently that it is a nuisance to type their qualified names. For example, suppose that all of the commands in a package like BLT are contained in a namespace called \fBBlt\fR. Then you might access these commands like this: .PP .CS Blt::graph .g \-background red Blt::table . .g 0,0 .CE .PP If you use the \fBgraph\fR and \fBtable\fR commands frequently, you may want to access them without the \fBBlt::\fR prefix. You can do this by importing the commands into the current namespace, like this: .PP .CS \fBnamespace import\fR Blt::* .CE .PP This adds all exported commands from the \fBBlt\fR namespace into the current namespace context, so you can write code like this: .PP .CS graph .g \-background red table . .g 0,0 .CE .PP The \fBnamespace import\fR command only imports commands from a namespace that that namespace exported with a \fBnamespace export\fR command. .PP Importing \fIevery\fR command from a namespace is generally a bad idea since you do not know what you will get. It is better to import just the specific commands you need. For example, the command .PP .CS \fBnamespace import\fR Blt::graph Blt::table .CE .PP imports only the \fBgraph\fR and \fBtable\fR commands into the current context. .PP If you try to import a command that already exists, you will get an error. This prevents you from importing the same command from two different packages. But from time to time (perhaps when debugging), you may want to get around this restriction. You may want to reissue the \fBnamespace import\fR command to pick up new commands that have appeared in a namespace. In that case, you can use the \fB\-force\fR option, and existing commands will be silently overwritten: .PP .CS \fBnamespace import\fR \-force Blt::graph Blt::table .CE .PP If for some reason, you want to stop using the imported commands, you can remove them with a \fBnamespace forget\fR command, like this: .PP .CS \fBnamespace forget\fR Blt::* .CE .PP This searches the current namespace for any commands imported from \fBBlt\fR. If it finds any, it removes them. Otherwise, it does nothing. After this, the \fBBlt\fR commands must be accessed with the \fBBlt::\fR prefix. .PP When you delete a command from the exporting namespace like this: .PP .CS rename Blt::graph "" .CE .PP the command is automatically removed from all namespaces that import it. .SH "EXPORTING COMMANDS" You can export commands from a namespace like this: .PP .CS \fBnamespace eval\fR Counter { \fBnamespace export\fR bump reset variable Num 0 variable Max 100 proc bump {{by 1}} { variable Num incr Num $by Check return $Num } proc reset {} { variable Num set Num 0 } proc Check {} { variable Num variable Max if {$Num > $Max} { error "too high!" } } } .CE .PP The procedures \fBbump\fR and \fBreset\fR are exported, so they are included when you import from the \fBCounter\fR namespace, like this: .PP .CS \fBnamespace import\fR Counter::* .CE .PP However, the \fBCheck\fR procedure is not exported, so it is ignored by the import operation. .PP The \fBnamespace import\fR command only imports commands that were declared as exported by their namespace. The \fBnamespace export\fR command specifies what commands may be imported by other namespaces. If a \fBnamespace import\fR command specifies a command that is not exported, the command is not imported. .SH "SCOPED SCRIPTS" .PP The \fBnamespace code\fR command is the means by which a script may be packaged for evaluation in a namespace other than the one in which it was created. It is used most often to create event handlers, Tk bindings, and traces for evaluation in the global context. For instance, the following code indicates how to direct a variable \fBtrace\fR callback into the current namespace: .PP .CS \fBnamespace eval\fR a { variable b proc theTraceCallback { n1 n2 op } { upvar 1 $n1 var puts "the value of $n1 has changed to $var" return } trace add variable b write [\fBnamespace code\fR theTraceCallback] } set a::b c .CE .PP When executed, it prints the message: .PP .CS the value of a::b has changed to c .CE .SH ENSEMBLES .PP The \fBnamespace ensemble\fR is used to create and manipulate ensemble commands, which are commands formed by grouping subcommands together. The commands typically come from the current namespace when the ensemble was created, though this is configurable. Note that there may be any number of ensembles associated with any namespace (including none, which is true of all namespaces by default), though all the ensembles associated with a namespace are deleted when that namespace is deleted. The link between an ensemble command and its namespace is maintained however the ensemble is renamed. .PP Three subcommands of the \fBnamespace ensemble\fR command are defined: .TP \fBnamespace ensemble create\fR ?\fIoption value ...\fR? . Creates a new ensemble command linked to the current namespace, returning the fully qualified name of the command created. The arguments to \fBnamespace ensemble create\fR allow the configuration of the command as if with the \fBnamespace ensemble configure\fR command. If not overridden with the \fB\-command\fR option, this command creates an ensemble with exactly the same name as the linked namespace. See the section \fBENSEMBLE OPTIONS\fR below for a full list of options supported and their effects. .TP \fBnamespace ensemble configure \fIcommand\fR ?\fIoption\fR? ?\fIvalue ...\fR? . Retrieves the value of an option associated with the ensemble command named \fIcommand\fR, or updates some options associated with that ensemble command. See the section \fBENSEMBLE OPTIONS\fR below for a full list of options supported and their effects. .TP \fBnamespace ensemble exists\fR \fIcommand\fR . Returns a boolean value that describes whether the command \fIcommand\fR exists and is an ensemble command. This command only ever returns an error if the number of arguments to the command is wrong. .PP When called, an ensemble command takes its first argument and looks it up (according to the rules described below) to discover a list of words to replace the ensemble command and subcommand with. The resulting list of words is then evaluated (with no further substitutions) as if that was what was typed originally (i.e. by passing the list of words through \fBTcl_EvalObjv\fR) and returning the result of the command. Note that it is legal to make the target of an ensemble rewrite be another (or even the same) ensemble command. The ensemble command will not be visible through the use of the \fBuplevel\fR or \fBinfo level\fR commands. .SS "ENSEMBLE OPTIONS" .PP The following options, supported by the \fBnamespace ensemble create\fR and \fBnamespace ensemble configure\fR commands, control how an ensemble command behaves: .TP \fB\-map\fR . When non-empty, this option supplies a dictionary that provides a mapping from subcommand names to a list of prefix words to substitute in place of the ensemble command and subcommand words (in a manner similar to an alias created with \fBinterp alias\fR; the words are not reparsed after substitution); if the first word of any target is not fully qualified when set, it is assumed to be relative to the \fIcurrent\fR namespace and changed to be exactly that (that is, it is always fully qualified when read). When this option is empty, the mapping will be from the local name of the subcommand to its fully-qualified name. Note that when this option is non-empty and the \fB\-subcommands\fR option is empty, the ensemble subcommand names will be exactly those words that have mappings in the dictionary. .TP \fB\-parameters\fR .VS 8.6 This option gives a list of named arguments (the names being used during generation of error messages) that are passed by the caller of the ensemble between the name of the ensemble and the subcommand argument. By default, it is the empty list. .VE 8.6 .TP \fB\-prefixes\fR . This option (which is enabled by default) controls whether the ensemble command recognizes unambiguous prefixes of its subcommands. When turned off, the ensemble command requires exact matching of subcommand names. .TP \fB\-subcommands\fR . When non-empty, this option lists exactly what subcommands are in the ensemble. The mapping for each of those commands will be either whatever is defined in the \fB\-map\fR option, or to the command with the same name in the namespace linked to the ensemble. If this option is empty, the subcommands of the namespace will either be the keys of the dictionary listed in the \fB\-map\fR option or the exported commands of the linked namespace at the time of the invocation of the ensemble command. .TP \fB\-unknown\fR . When non-empty, this option provides a partial command (to which all the words that are arguments to the ensemble command, including the fully-qualified name of the ensemble, are appended) to handle the case where an ensemble subcommand is not recognized and would otherwise generate an error. When empty (the default) an error (in the style of \fBTcl_GetIndexFromObj\fR) is generated whenever the ensemble is unable to determine how to implement a particular subcommand. See \fBUNKNOWN HANDLER BEHAVIOUR\fR for more details. .PP The following extra option is allowed by \fBnamespace ensemble create\fR: .TP \fB\-command\fR . This write-only option allows the name of the ensemble created by \fBnamespace ensemble create\fR to be anything in any existing namespace. The default value for this option is the fully-qualified name of the namespace in which the \fBnamespace ensemble create\fR command is invoked. .PP The following extra option is allowed by \fBnamespace ensemble configure\fR: .TP \fB\-namespace\fR . This read-only option allows the retrieval of the fully-qualified name of the namespace which the ensemble was created within. .SS "UNKNOWN HANDLER BEHAVIOUR" .PP If an unknown handler is specified for an ensemble, that handler is called when the ensemble command would otherwise return an error due to it being unable to decide which subcommand to invoke. The exact conditions under which that occurs are controlled by the \fB\-subcommands\fR, \fB\-map\fR and \fB\-prefixes\fR options as described above. .PP To execute the unknown handler, the ensemble mechanism takes the specified \fB\-unknown\fR option and appends each argument of the attempted ensemble command invocation (including the ensemble command itself, expressed as a fully qualified name). It invokes the resulting command in the scope of the attempted call. If the execution of the unknown handler terminates normally, the ensemble engine reparses the subcommand (as described below) and tries to dispatch it again, which is ideal for when the ensemble's configuration has been updated by the unknown subcommand handler. Any other kind of termination of the unknown handler is treated as an error. .PP The result of the unknown handler is expected to be a list (it is an error if it is not). If the list is an empty list, the ensemble command attempts to look up the original subcommand again and, if it is not found this time, an error will be generated just as if the \fB\-unknown\fR handler was not there (i.e. for any particular invocation of an ensemble, its unknown handler will be called at most once.) This makes it easy for the unknown handler to update the ensemble or its backing namespace so as to provide an implementation of the desired subcommand and reparse. .PP When the result is a non-empty list, the words of that list are used to replace the ensemble command and subcommand, just as if they had been looked up in the \fB\-map\fR. It is up to the unknown handler to supply all namespace qualifiers if the implementing subcommand is not in the namespace of the caller of the ensemble command. Also note that when ensemble commands are chained (e.g. if you make one of the commands that implement an ensemble subcommand into an ensemble, in a manner similar to the \fBtext\fR widget's tag and mark subcommands) then the rewrite happens in the context of the caller of the outermost ensemble. That is to say that ensembles do not in themselves place any namespace contexts on the Tcl call stack. .PP Where an empty \fB\-unknown\fR handler is given (the default), the ensemble command will generate an error message based on the list of commands that the ensemble has defined (formatted similarly to the error message from \fBTcl_GetIndexFromObj\fR). This is the error that will be thrown when the subcommand is still not recognized during reparsing. It is also an error for an \fB\-unknown\fR handler to delete its namespace. .SH EXAMPLES Create a namespace containing a variable and an exported command: .PP .CS \fBnamespace eval\fR foo { variable bar 0 proc grill {} { variable bar puts "called [incr bar] times" } \fBnamespace export\fR grill } .CE .PP Call the command defined in the previous example in various ways. .PP .CS # Direct call ::foo::grill # Use the command resolution path to find the name \fBnamespace eval\fR boo { \fBnamespace path\fR ::foo grill } # Import into current namespace, then call local alias \fBnamespace import\fR foo::grill grill # Create two ensembles, one with the default name and one with a # specified name. Then call through the ensembles. \fBnamespace eval\fR foo { \fBnamespace ensemble\fR create \fBnamespace ensemble\fR create -command ::foobar } foo grill foobar grill .CE .PP Look up where the command imported in the previous example came from: .PP .CS puts "grill came from [\fBnamespace origin\fR grill]" .CE .PP Remove all imported commands from the current namespace: .PP .CS namespace forget {*}[namespace import] .CE .PP .VS 8.6 Create an ensemble for simple working with numbers, using the \fB\-parameters\fR option to allow the operator to be put between the first and second arguments. .PP .CS \fBnamespace eval\fR do { \fBnamespace export\fR * \fBnamespace ensemble\fR create -parameters x proc plus {x y} {expr { $x + $y }} proc minus {x y} {expr { $x - $y }} } # In use, the ensemble works like this: puts [do 1 plus [do 9 minus 7]] .CE .VE 8.6 .SH "SEE ALSO" interp(3tcl), upvar(3tcl), variable(3tcl) .SH KEYWORDS command, ensemble, exported, internal, variable '\" Local Variables: '\" mode: nroff '\" End: