The command enforces the restriction that no path may be an ancestor directory of any other path on the list. If any of the new paths violates this restriction an error will be raised, before any of the paths have been added. In other words, if only one path argument violates the restriction then none will be added.
If a path is already present as is, no error will be raised and no action will be taken.
Paths are searched later in the order of their appearance in the list. As they are added to the front of the list they are searched in reverse order of addition. In other words, the paths added last are looked at first.
This command is used internally by the system to set up the system-specific default paths.
The command has been exposed to allow a build system to define additional root paths beyond those described by this document.
source module_file
The load command is not directly used. This restriction is not an actual limitation, as some may believe. Ever since 8.4 the Tcl source command reads only until the first ^Z character. This allows us to combine an arbitrary Tcl script with arbitrary binary data into one file, where the script processes the attached data in any it chooses to fully import and activate the package.
The name of a module file has to match the regular expression:
([_[:alpha:]][:_[:alnum:]]*)-([[:digit:]].*)\.tm
The first capturing parentheses provides the name of the package, the second clause its version. In addition to matching the pattern, the extracted version number must not raise an error when used in the command:
package vcompare $version 0
Tcl Modules are searched for in all directories listed in the result of the command ::tcl::tm::path list. This is called the Module path. Neither the auto_path nor the tcl_pkgPath variables are used. All directories on the module path have to obey one restriction:
For any two directories, neither is an ancestor directory of the other.
This is required to avoid ambiguities in package naming. If for example the two directories “foo/” and “foo/cool” were on the path a package named cool::ice could be found via the names cool::ice or ice, the latter potentially obscuring a package named ice, unqualified.
Before the search is started, the name of the requested package is translated into a partial path, using the following algorithm:
All occurrences of “::” in the package name are replaced by the appropriate directory separator character for the platform we are on. On Unix, for example, this is “/”.
Example:
The requested package is encoding::base64. The generated partial path is “encoding/base64”.
After this translation the package is looked for in all module paths, by combining them one-by-one, first to last with the partial path to form a complete search pattern. Note that the search algorithm rejects all files where the filename does not match the regular expression given in the section MODULE DEFINITION. For the remaining files provide scripts are generated and added to the package ifneeded database.
The algorithm falls back to the previous unknown handler when none of the found module files satisfy the request. If the request was satisfied the fall-back is ignored.
Note that packages in module form have no control over the index and provide scripts entered into the package database for them. For a module file MF the index script is always:
package ifneeded PNAME PVERSION [list source MF]
and the provide script embedded in the above is:
source MF
Both package name PNAME and package version PVERSION are extracted from the filename MF according to the definition below:
MF = /module_path/PNAME′-PVERSION.tm
Where PNAME′ is the partial path of the module as defined in section FINDING MODULES, and translated into PNAME by changing all directory separators to “::”, and module_path is the path (from the list of paths to search) that we found the module file under.
Note also that we are here creating a connection between package names and paths. Tcl is case-sensitive when it comes to comparing package names, but there are filesystems which are not, like NTFS. Luckily these filesystems do store the case of the name, despite not using the information when comparing.
Given the above we allow the names for packages in Tcl modules to have mixed-case, but also require that there are no collisions when comparing names in a case-insensitive manner. In other words, if a package Foo is deployed in the form of a Tcl Module, packages like foo, fOo, etc. are not allowed anymore.
All the default paths are added to the module path, even those paths which do not exist. Non-existent paths are filtered out during actual searches. This enables a user to create one of the paths searched when needed and all running applications will automatically pick up any modules placed in them.
The paths are added in the order as they are listed below, and for lists of paths defined by an environment variable in the order they are found in the variable.
For example for Tcl 8.4 the paths searched are:
[info library]/../tcl8/8.4 [info library]/../tcl8/8.3 [info library]/../tcl8/8.2 [info library]/../tcl8/8.1 [info library]/../tcl8/8.0
This definition assumes that a package defined for Tcl X.y can also be used by all interpreters which have the same major number X and a minor number greater than y.
This sets of paths is handled equivalently to the set coming before, except that it is anchored in EXEC_PREFIX. For a build with PREFIX = EXEC_PREFIX the two sets are identical.
These paths are seen and therefore shared by all Tcl shells in the $::env(PATH) of the user.
Note that X and y follow the general rules set out above. In other words, Tcl 9.1, for example, will look at these 4 environment variables:
$::env(TCL9.1_TM_PATH) $::env(TCL9_1_TM_PATH) $::env(TCL9.0_TM_PATH) $::env(TCL9_0_TM_PATH)
Paths initialized from the environment variables undergo tilde substitution (see filename). Any path whose tilde substitution fails because the user is unknown will be omitted from search paths.