MODULEFILE(4) | Modules | MODULEFILE(4) |
modulefile - files containing Tcl code for the Modules package
modulefiles are written in the Tool Command Language, Tcl(n) and are interpreted by the modulecmd.tcl program via the module(1) user interface. modulefiles can be loaded, unloaded, or switched on-the-fly while the user is working; and can be used to implement site policies regarding the access and use of applications.
A modulefile begins with the #%Module file signature, also called the Modules magic cookie. A version number may be placed after this string. The version number is useful as the modulefile format may change thus it reflects the minimum version of modulecmd.tcl required to interpret the modulefile. If a version number doesn't exist, then modulecmd.tcl will assume the modulefile is compatible. Files without the magic cookie or with a version number greater than the current version of modulecmd.tcl will not be interpreted. If the mcookie_version_check configuration is disabled the version number set is not checked.
Each modulefile contains the changes to a user's environment needed to access an application. Tcl is a simple programming language which permits modulefiles to be arbitrarily complex, depending upon the application's and the modulefile writer's needs. If support for extended tcl (tclX) has been configured for your installation of the Modules package, you may use all the extended commands provided by tclX, too.
A typical modulefile is a simple bit of code that set or add entries to the PATH, MANPATH, or other environment variables. A Modulefile is evaluated against current modulecmd.tcl's mode which leads to specific evaluation results. For instance if the modulefile sets a value to an environment variable, this variable is set when modulefile is loaded and unset when modulefile is unloaded.
Tcl has conditional statements that are evaluated when the modulefile is interpreted. This is very effective for managing path or environment changes due to different OS releases or architectures. The user environment information is encapsulated into a single modulefile kept in a central location. The same modulefile is used by every user on any machine. So, from the user's perspective, starting an application is exactly the same irrespective of the machine or platform they are on.
modulefiles also hide the notion of different types of shells. From the user's perspective, changing the environment for one shell looks exactly the same as changing the environment for another shell. This is useful for new or novice users and eliminates the need for statements such as "if you're using the C Shell do this ..., otherwise if you're using the Bourne shell do this ...". Announcing and accessing new software is uniform and independent of the user's shell. From the modulefile writer's perspective, this means one set of information will take care of every type of shell.
The Modules Package uses commands which are extensions to the "standard" Tool Command Language Tcl(n) package. Unless otherwise specified, the Module commands return the empty string. Some commands behave differently when a modulefile is loaded or unloaded. The command descriptions assume the modulefile is being loaded.
modulefile is declared as a requirement of currently loading module. This command acts as an alias of module load command. If more than one modulefile are specified, then this list acts as a Boolean AND operation, which means all specified modulefiles are required.
When the --optional option is set, each specified modulefile is declared as an optional requirement. A modulefile that cannot be loaded, will not stop the evaluation.
The --tag option accepts a list of module tags to apply to modulefile once loaded in addition to the keep-loaded tag. taglist corresponds to the concatenation of multiple tags separated by colon character. taglist should not contain tags inherited from modulefile state or from other modulefile commands. If module is already loaded, tags from taglist are added to the list of tags already applied to this module.
An example: Suppose that a full selection of modulefiles are needed for various different architectures, but some of the modulefiles are not needed and the user should be alerted. Having the unnecessary modulefile be a link to the following notavail modulefile will perform the task as required.
#%Module1.0 ## notavail modulefile ## proc ModulesHelp { } {
puts stderr "This module does nothing but alert the user"
puts stderr "that the [module-info name] module is not available" } module-whatis "Notifies user that module is not available." set curMod [module-info name] if { [ module-info mode load ] } {
puts stderr "Note: '$curMod' is not available for [uname sysname]." } break
The following shells are supported: bash, tcsh, bash and fish. Please refer to the documentation of these shells to learn how to define completion. The command is ignored if an unsupported shell is specified.
If an argument for conflict is a directory and any other modulefile from that directory has been loaded, then a conflict will occur. For example, specifying X11 as a conflict will stop X11/R4 and X11/R5 from being loaded at the same time.
The parameter modulefile may also be a symbolic modulefile name or a modulefile alias. It may also leverage a specific syntax to finely select module version (see Advanced module version specifiers section below).
family corresponds to the definition of a conflict on name and the definition of a module-alias name targeting currently loading module.
In addition, the MODULES_FAMILY_<NAME> environment variable is defined and set to the currently loading module name minus version. This variable helps to know what module provides for the family name in the currently loaded environment. For instance if loading modulefile foo/1.0 defines being member of the bar family, the MODULES_FAMILY_BAR will be set to the foo value. For compatibility, the LMOD_FAMILY_<NAME> environment variable is also defined and set to the same value than MODULES_FAMILY_<NAME>.
name should be a non-empty string only containing characters that could be part of an environment variable name (i.e., [a-zA-Z0-9_]).
When modulefile is evaluated in display mode, getenv returns variable name prefixed with dollar sign (e.g., $variable) unless if the --return-value option is set. When this option is set the value of environment variable or defined fallback value is returned in display mode.
When modulefile is evaluated in display mode, getvariant returns variant name enclosed in curly braces (e.g., {variant}) unless if the --return-value option is set. When this option is set the value of variant or defined fallback value is returned in display mode.
The parameter modulefile may also be a symbolic modulefile name or a modulefile alias. It may also leverage a specific syntax to finely select module version (see Advanced module version specifiers section below).
The parameter modulefile may also be a symbolic modulefile name or a modulefile alias. It may also leverage a specific syntax to finely select module version (see Advanced module version specifiers section below).
If MODULES_COLLECTION_TARGET is set, a suffix equivalent to the value of this variable is appended to the passed collection name. In case no collection argument is provided, a true value will only be returned if a collection matching currently set target exists.
The --not-req option may be set for the load, try-load, load-any, unload and switch sub-commands to inhibit the definition of an implicit prereq or conflict requirement onto specified modules.
On try-load sub-command, if specified modulefile is not found thus loaded, no implicit prereq requirement is defined over this module.
The load-any sub-command loads one modulefile from the specified list. An error is obtained if no modulefile from the list can be loaded. No operation is performed if a modulefile from the list is found already loaded.
The unuse sub-command accepts the --remove-on-unload, --noop-on-unload, --append-on-unload and --prepend-on-unload options to control the behavior to apply when modulefile is unloaded. See remove-path for further explanation.
The load, try-load, load-any and switch sub-commands accept the --tag option to apply specified tags to modulefile once loaded. Option accepts a concatenation of multiple module tags separated by colon character. taglist should not contain tags inherited from modulefile state or from other modulefile commands. If module is already loaded, tags from taglist are added to the list of tags already applied to this module.
Command line switches --auto, --no-auto and --force are ignored when passed to a module command set in a modulefile.
Not all the sub-commands described in the Module Sub-Commands section of the module(1) man page are available when module is used as a Modules specific Tcl command. The following table summarizes the different sub-commands available for each interpretation context.
Sub-commands available from modulefile interpretation | Sub-commands available from initrc configuration file and sourced script file | Sub-commands available from run-command (rc) file interpretation |
load, load-any, switch, try-load, unload, unuse, use. Also available but not recommended for use from regular modulefile: aliases, avail, display, initadd, initclear, initlist, initprepend, initrm, initswitch, list, purge, reload, restore, save, savelist, saverm, saveshow, search, test, whatis | Same sub-commands available than for modulefile and config sub-command. | None |
The parameter modulefile may be either
module-forbid command accepts the following options:
If --after option is set, forbidding is only effective after specified date time. Following the same principle, if --before option is set, forbidding is only effective before specified date time. Accepted date time format is YYYY-MM-DD[THH:MM]. If no time (HH:MM) is specified, 00:00 is assumed. --after and --before options are not supported on Tcl versions prior to 8.5.
If --not-user option is set, forbidding is not applied if the username of the user currently running modulecmd.tcl is part of the list of username specified. Following the same approach, if --not-group option is set, forbidding is not applied if current user is member of one the group specified. When both options are set, forbidding is not applied if a match is found for --not-user or --not-group.
Error message returned when trying to evaluate a forbidden module can be supplemented with the text message set through --message option.
If --after option is set, modules are considered nearly forbidden during a number of days defined by the nearly_forbidden_days modulecmd.tcl configuration option (see MODULES_NEARLY_FORBIDDEN_DAYS), prior reaching the expiry date fixed by --after option. When a nearly forbidden module is evaluated a warning message is issued to inform module will soon be forbidden. This warning message can be supplemented with the text message set through --nearly-message option.
If a module-forbid command applies to a modulefile also targeted by a module-hide --hard command, this module is unveiled when precisely named to return an access error.
Forbidden modules included in the result of an avail sub-command are reported with a forbidden tag applied to them. Nearly forbidden modules included in the result of an avail or a list sub-command are reported with a nearly-forbidden tag applied to them. See Module tags section in module(1).
The parameter modulefile may leverage a specific syntax to finely select module version (see Advanced module version specifiers section below).
module-hide command accepts the following options:
When --soft option is set, modulefile is also set hidden, but hiding is disabled when search or selection query's root name matches module's root name. This soft hiding mode enables to hide modulefiles from bare module availability listing yet keeping the ability to select such module for load with the regular resolution mechanism (i.e., no need to use module exact name to select it)
When --hard option is set, modulefile is also set hidden and stays hidden even if search or selection query refers to modulefile by its exact name.
When --hidden-loaded option is set, hidden state also applies to the modulefile when it is loaded. Hidden loaded modules do not appear on list sub-command output, unless --all option is set. Their loading or unloading informational messages are not reported unless the verbosity of Modules is set to a level higher than verbose. Hidden loaded modules are detected in any cases by state query commands like is-loaded.
If --after option is set, hiding is only effective after specified date time. Following the same principle, if --before option is set, hiding is only effective before specified date time. Accepted date time format is YYYY-MM-DD[THH:MM]. If no time (HH:MM) is specified, 00:00 is assumed. --after and --before options are not supported on Tcl versions prior to 8.5.
If --not-user option is set, hiding is not applied if the username of the user currently running modulecmd.tcl is part of the list of username specified. Following the same approach, if --not-group option is set, hiding is not applied if current user is member of one the group specified. When both options are set, hiding is not applied if a match is found for --not-user or --not-group.
If the --all option is set on avail, aliases, whatis or search sub-commands, hiding is disabled thus hidden modulefiles are included in module search. Hard-hidden modules (i.e., declared hidden with --hard option) are not affected by --all and stay hidden even if option is set. --all option does not apply to module selection sub-commands like load. Thus in such context a hidden module should always be referred by its exact full name (e.g., foo/1.2.3 not foo) unless if it has been hidden in --soft mode. A hard-hidden module cannot be unveiled or selected in any case.
If several module-hide commands target the same modulefile, the strongest hiding level is retained which means if both a regular, a --soft hiding command match a given module, regular hiding mode is considered. If both a regular and a --hard hiding command match a given module, hard hiding mode is retained. A set --hidden-loaded option is retained even if the module-hide statement on which it is declared is superseded by a stronger module-hide statement with no --hidden-loaded option set.
Hidden modules included in the result of an avail sub-command are reported with a hidden tag applied to them. Hidden loaded modules included in the result of a list sub-command are reported with a hidden-loaded tag applied to them. This tag is not reported on avail sub-command context. See Module tags section in module(1).
The parameter modulefile may also be a symbolic modulefile name or a modulefile alias. It may also leverage a specific syntax to finely select module version (see Advanced module version specifiers section below).
module-info alias name
module-info command [commandname]
Returns 1 if modulecmd.tcl's command is commandname. commandname can be: load, unload, refresh, reload, source, switch, display, avail, aliases, list, whatis, search, purge, restore, help, test, try-load, load-any, mod-to-sh, reset, stash or stashpop.
module-info loaded modulefile
This command only returns the name and version of designated loaded module. The defined variants of the loaded module are not included in the returned string.
module-info mode [modetype]
Returns 1 if modulecmd.tcl's mode is modetype. modetype can be: load, unload, remove (alias of unload), switch, refresh, nonpersist (alias of refresh), display, help, test or whatis.
module-info name
This command only returns the name and version of currently evaluating modulefile. The defined variants are not included in the returned string. See getvariant command or ModuleVariant array variable to get defined variant values for currently evaluating modulefile.
module-info shell [shellname]
If a shellname is given, returns 1 if modulecmd.tcl's current shell is shellname, returns 0 otherwise. shellname can be: sh, bash, ksh, zsh, csh, tcsh, fish, cmd, tcl, perl, python, ruby, lisp, cmake, r.
module-info shelltype [shelltypename]
If a shelltypename is given, returns 1 if modulecmd.tcl's current shell type is shelltypename, returns 0 otherwise. shelltypename can be: sh, csh, fish, cmd, tcl, perl, python, ruby, lisp, cmake, r.
module-info specified
module-info symbols modulefile
module-info tags [tag]
When tags are assigned to specific module variants, they are returned only if this variant is the one currently evaluated.
Returns 1 if one of the tags applying to currently evaluated modulefile is tag. Returns 0 otherwise.
module-info type
module-info usergroups [name]
Returns 1 if one of the group current user running modulecmd.tcl is member of is name. Returns 0 otherwise.
If the Modules Tcl extension library is disabled, the id(1) command is invoked to fetch groups of current user.
module-info username [name]
Returns 1 if username of current user running modulecmd.tcl is name. Returns 0 otherwise.
If the Modules Tcl extension library is disabled, the id(1) command is invoked to fetch username of current user.
module-info version modulefile
module-tag command accepts the following options:
If --not-user option is set, the tag is not applied if the username of the user currently running modulecmd.tcl is part of the list of username specified. Following the same approach, if --not-group option is set, the tag is not applied if current user is member of one the group specified. When both options are set, the tag is not applied if a match is found for --not-user or --not-group.
The parameter modulefile may also be a symbolic modulefile name or a modulefile alias. It may also leverage a specific syntax to finely select module version (see Advanced module version specifiers section below).
Tags inherited from other modulefile commands or module states cannot be set with module-tag. Otherwise an error is returned. Those special tags are: auto-loaded, forbidden, hidden, hidden-loaded, loaded and nearly-forbidden.
When tag equals sticky or super-sticky, designated modulefile is defined Sticky modules.
When tag equals keep-loaded, designated modulefile is not automatically unloaded when it has been auto-loaded and its dependent modules are getting unloaded.
The special version-name default specifies the default version to be used for module commands, if no specific version is given. This replaces the definitions made in the .version file in former modulecmd.tcl releases.
The parameter modulefile may be either
A virtual module stands for a module name associated to a modulefile. The modulefile is the script interpreted when loading or unloading the virtual module which appears or can be found with its virtual name.
The parameter modulefile corresponds to the relative or absolute file location of a modulefile.
The string parameter has to be enclosed in double-quotes if there's more than one word specified. Words are defined to be separated by whitespace characters (space, tab, cr).
A reference counter environment variable is also set to know the number of times value has been added to environment variable when it is added more than one time. This reference counter environment variable is named by prefixing variable by __MODULES_SHARE_.
When value is already defined in environment variable, it is not added again or moved at the end or at the beginning of variable. Exception is made when the --duplicates option is set in which case value is added again to variable.
If the variable is not set, it is created. When a modulefile is unloaded, append-path and prepend-path become remove-path.
If value corresponds to the concatenation of multiple elements separated by colon, or delimiter, character, each element is treated separately.
If an argument for prereq is a directory and any modulefile from the directory has been loaded, then the prerequisite is met. For example, specifying X11 as a prereq means that any version of X11, X11/R4 or X11/R5, must be loaded before proceeding.
The parameter modulefile may also be a symbolic modulefile name or a modulefile alias. It may also leverage a specific syntax to finely select module version (see Advanced module version specifiers section below).
When the --optional option is set, the whole list of specified modulefiles is declared as an optional requirement list. Evaluation is not stopped if no modulefile from the list is loaded.
If the auto_handling configuration option is enabled prereq will attempt to load specified modulefile if not found loaded yet (see MODULES_AUTO_HANDLING in module(1)).
The --tag option accepts a list of module tags to apply to modulefile once loaded. taglist corresponds to the concatenation of multiple tags separated by colon character. taglist should not contain tags inherited from modulefile state or from other modulefile commands. If module is already loaded, tags from taglist are added to the list of tags already applied to this module.
When the --optional option is set, each specified modulefile is declared as an optional requirement. A modulefile that cannot be loaded, will not stop the evaluation.
When modulefile is unloaded, the value saved from the pushenv command of this modulefile is removed from saved value stack list. variable is then set to the remaining value on top of the stack or it is unset if stack becomes empty.
Saved value stack list for variable is stored in an environment variable which is named by prefixing variable by __MODULES_PUSHENV_.
Content written to the stderr channel is rendered as output message produced by modulefile. Content written to the stdout channel is rendered as shell command evaluated in the user current shell environment. Content sent to stdout is spooled to be rendered after the environment changes made by modulefile.
When channelId equals prestdout, content is rendered as shell command evaluated in current shell environment. This content is spooled and rendered prior any other environment changes.
remove-path command accepts the following options:
See prepend-path or append-path for further explanation of using an arbitrary delimiter. Every string between colons, or delimiters, in variable is compared to value. If the two match, value is removed from variable if its reference counter is equal to 1 or unknown.
When --index option is set, value refers to an index in variable list. The string element pointed by this index is set for removal.
When modulefile is unloaded, no operation is performed by default or if the --noop-on-unload option is set. If the --remove-on-unload option is set, value is removed. If the --append-on-unload option is set, append back value removed at load time or specific value if any set. If the --prepend-on-unload option is set, prepend back value removed at load time or specific value if any set. These options cannot be set if --index option is also set.
Reference counter of value in variable denotes the number of times value has been added to variable. This information is stored in environment __MODULES_SHARE_variable. When attempting to remove value from variable, relative reference counter is checked and value is removed only if counter is equal to 1 or not defined. Otherwise value is kept in variable and reference counter is decreased by 1. If counter equals 1 after being decreased, value and its counter are removed from reference counter variable.
If value corresponds to the concatenation of multiple elements separated by colon, or delimiter, character, each element is treated separately.
When the --set-if-undef option is set, environment variable is defined when modulefile is loaded only if not yet defined.
When modulefile is unloaded, environment changes done are reserved by evaluating in the unload context the resulting modulefile commands, which were recorded in the __MODULES_LMSOURCESH environment variable at load time.
Changes on environment variables, shell aliases, shell functions, shell completions and current working directory are tracked.
Changes made on environment variable intended for Modules private use (e.g., LOADEDMODULES, _LMFILES_, __MODULES_*) are ignored.
Shell could be specified as a command name or a fully qualified pathname. The following shells are supported: sh, dash, csh, tcsh, bash, ksh, ksh93, zsh and fish.
uname will invoke the uname(1) command in order to get the operating system version and domainname(1) to figure out the name of the domain.
field values are:
The following shells are supported: bash, tcsh and fish.
If the --noop-on-unload option is set, no operation is performed when modulefile is unloaded. If the --unset-on-unload option is set, environment variable is also unset when modulefile is unloaded. These behaviors are applied even if an optional value is defined.
Variant's value is selected through the module designation that leads to the modulefile evaluation. See Advanced module version specifiers section to learn how variants could be specified.
Selected variant value is transmitted to the evaluating modulefile. A value must be specified for variant name and it must corresponds to a value in the accepted value list if such list is defined. Otherwise an error is raised. An exception is made if modulefile is evaluated in display mode: no error is raised if no value is specified for a given variant and variant is not instantiated in the ModuleVariant array variable. When no list of accepted value is defined, variant could be set to any value.
When the --default option is set, variant name is set to the value associated with this option in case no value is specified for variant in module designation.
If the --boolean option is set, variant name is defined as a Boolean variant. No list of accepted value should be defined in this case. All values recognized as Boolean value in Tcl are accepted (i.e., 1, true, t, yes, y, on, 0, false, f, no, n or off). Boolean variants are instantiated in ModuleVariant using Tcl canonical form of Boolean value (i.e., 0 or 1).
A variant which is not defined as a Boolean variant cannot define Boolean values in its accepted value list, exception made for the 0 and 1 integers. An error is raised otherwise.
A variant cannot be named version. An error is raised otherwise.
modulefiles that use this command, should in most cases contain one or more x-resource lines, each defining one X11 resource. The DISPLAY environment variable should be properly set and the X11 server should be accessible. If x-resource can't manipulate the X11 resource database, the modulefile will exit with an error message.
Examples:
x-resource /u2/staff/leif/.xres/Ileaf
x-resource [glob ~/.xres/ileaf]
x-resource {Ileaf.popup.saveUnder: True}
Modulefiles and run-command (rc) files are differently interpreted. A limited number of the Modules specific Tcl commands are available for rc files interpretation since such files are intended to set parameters for modulefiles (like defining alias, hiding, tagging, etc) and not to change user environment. The following table summarizes the different commands available for each interpretation context.
Commands available from modulefile interpretation | Commands available from run-command (rc) file interpretation |
All the Modules specific and standard Tcl commands | is-loaded, is-used, module-alias, module-forbid, module-hide, module-info, module-tag, module-version, module-virtual, system, uname, versioncmp and standard Tcl commands |
NOTE:
The list of the currently defined variants can be retrieved with [array names ModuleVariant] Tcl code.
Every directory in MODULEPATH is searched to find the modulefile. A directory in MODULEPATH can have an arbitrary number of sub-directories. If the user names a modulefile to be loaded which is actually a directory, the directory is opened and a search begins for an actual modulefile. First, modulecmd.tcl looks for a file with the name .modulerc in the directory. If this file exists, its contents will be evaluated as if it was a modulefile to be loaded. You may place module-version, module-alias and module-virtual commands inside this file.
Additionally, before seeking for .modulerc files in the module directory, the global modulerc file and the .modulerc file found at the root of the modulepath directory are sourced, too. If a named version default now exists for the modulefile to be loaded, the assigned modulefile now will be sourced. Otherwise the file .version is looked up in the module directory.
If the .version file exists, it is opened and interpreted as Tcl code and takes precedence over a .modulerc file in the same directory. If the Tcl variable ModulesVersion is set by the .version file, modulecmd.tcl will use the name as if it specifies a modulefile in this directory. This will become the default modulefile in this case. ModulesVersion cannot refer to a modulefile located in a different directory.
If ModulesVersion is a directory, the search begins anew down that directory. If the name does not match any files located in the current directory, the search continues through the remaining directories in MODULEPATH.
Every .version and .modulerc file found is interpreted as Tcl code. The difference is that .version only applies to the current directory, and the .modulerc applies to the current directory and all subdirectories. Changes made in these files will affect the subsequently interpreted modulefile.
If no default version may be figured out, an implicit default is selected when this behavior is enabled (see MODULES_IMPLICIT_DEFAULT in module(1)). If disabled, module names should be fully qualified when no explicit default is defined for them, otherwise no default version is found and an error is returned. If enabled, then the highest numerically sorted modulefile, virtual module or module alias under the directory will be used. The dictionary comparison method of the lsort(n) Tcl command is used to achieve this sort. If highest numerically sorted element is an alias, search continues on its modulefile target.
For example, it is possible for a user to have a directory named X11 which simply contains a .version file specifying which version of X11 is to be loaded. Such a file would look like:
#%Module1.0 ## ## The desired version of X11 ## set ModulesVersion "R4"
The equivalent .modulerc would look like:
#%Module1.0 ## ## The desired version of X11 ## module-version "./R4" default
If the extended default mechanism is enabled (see MODULES_EXTENDED_DEFAULT in module(1)) the module version specified is matched against starting portion of existing module versions, where portion is a substring separated from the rest of version string by a . character.
When the implicit default mechanism and the Advanced module version specifiers are both enabled, a default and latest symbolic versions are automatically defined for each module name (also at each directory level in case of deep modulefile). Unless a symbolic version, alias, or regular module version already exists for these version names.
Every file in searched directories is checked to see if it begins with the Modules magic cookie (i.e., #%Module file signature) to determine if it is a modulefile (see DESCRIPTION section). When the mcookie_check configuration is set to eval, this check is skipped and all files in search directories are considered modulefiles.
If user names a modulefile that cannot be found in the first modulepath directory, modulefile will be searched in next modulepath directory and so on until a matching modulefile is found. If search goes through a module alias or a symbolic version, this alias or symbol is resolved by first looking at the modulefiles in the modulepath where this alias or symbol is defined. If not found, resolution looks at the other modulepaths in their definition order.
When locating modulefiles, if a .modulerc, a .version, a directory or a modulefile cannot be read during the search it is simply ignored with no error message produced. Visibility of modulefiles can thus be adapted to the rights the user has been granted. Exception is made when trying to directly access a directory or a modulefile. In this case, the access issue is returned as an error message.
Depending on their name, their file permissions or the use of specific modulefile commands, modulefile, virtual module, module alias or symbolic version may be set hidden which impacts available modules search or module selection processes (see Hiding modulefiles section below).
A modulefile, virtual module, module alias or symbolic version whose name or element in their name starts with a dot character (.) or who are targeted by a module-hide command are considered hidden. Hidden modules are not displayed or taken into account except if they are explicitly named (e.g., foo/1.2.3 or foo/.2.0 not foo). If module has been hidden with the --soft option of the module-hide command set, it is not considered hidden if the root name of the query to search it matches module root name (e.g., searching foo will return a foo/1.2.3 modulefile targeted by a module-hide --soft command). If module has been hidden with the --hard option of the module-hide command set, it is always considered hidden thus it is never displayed nor taken into account even if it is explicitly named.
A modulefile, virtual module, module alias or symbolic version who are targeted by a module-hide --hard command and a module-forbid command or whose file access permissions are restricted are considered hard-hidden and forbidden. Such modules are not displayed or taken into account. When explicitly named for evaluation selection, such modules are unveiled to return an access error.
NOTE:
A symbolic version-name assigned to a hidden module is displayed or taken into account only if explicitly named and if module is not hard-hidden. Non-hidden module alias targeting a hidden modulefile appears like any other non-hidden module alias. Finally, a hidden symbolic version targeting a non-hidden module is displayed or taken into account only if not hard-hidden and explicitly named to refer to its non-hidden target.
The automatic version symbols (e.g., default and latest) are unaffected by hiding. Moreover when a regular default or latest version is set hidden, the corresponding automatic version symbol takes the left spot. For instance, if foo/default which targets foo/1.2.3 is set hard-hidden, the default automatic version symbol will be set onto foo/2.1.3, the highest available version of foo.
When loading a modulefile or a virtual module targeted by a module-hide --hidden-loaded command, this module inherits the hidden-loaded tag. Hidden loaded modules are not reported among list sub-command results.
If the --all is set on avail, aliases, whatis or search sub-commands, hidden modules are taken into account in search. Hard-hidden modules are unaffected by this option.
If the --all is set on list sub-command, hidden loaded modules are included in result output.
When the advanced module version specifiers mechanism is enabled (see MODULES_ADVANCED_VERSION_SPEC in module(1)), the specification of modulefile passed on Modules specific Tcl commands changes. After the module name a version constraint and variants may be added.
After the module name a version constraint prefixed by the @ character may be added. It could be directly appended to the module name or separated from it with a space character.
Constraints can be expressed to refine the selection of module version to:
Advanced specification of single version or list of versions may benefit from the activation of the extended default mechanism (see MODULES_EXTENDED_DEFAULT in module(1)) to use an abbreviated notation like @1 to refer to more precise version numbers like 1.2.3. Range of versions on its side natively handles abbreviated versions.
In order to be specified in a range of versions or compared to a range of versions, the version major element should corresponds to a number. For instance 10a, 1.2.3, 1.foo are versions valid for range comparison whereas default or foo.2 versions are invalid for range comparison.
Range of versions can be specified in version list, for instance foo@:1.2,1.4:1.6,1.8:. Such specification helps to exclude specific versions, like versions 1.3 and 1.7 in previous example.
If the implicit default mechanism is also enabled (see MODULES_IMPLICIT_DEFAULT in module(1)), a default and latest symbolic versions are automatically defined for each module name (also at each directory level for deep modulefiles). These automatic version symbols are defined unless a symbolic version, alias, or regular module version already exists for these default or latest version names. Using the mod@latest (or mod/latest) syntax ensures highest available version will be selected.
After the module name, variants can be specified. Module variants are alternative evaluation of the same modulefile. A variant is specified by associating a value to its name. This specification is then transmitted to the evaluating modulefile which instantiates the variant in the ModuleVariant array variable when reaching the variant modulefile command declaring this variant.
Variant can be specified with the name=value syntax where name is the declared variant name and value, the value this variant is set to when evaluating the modulefile.
Boolean variants can be specified with the +name syntax to set this variant on and with the -name or ~name syntaxes to set this variant off. The -name syntax is not supported on ml(1) command as the minus sign already means to unload designated module. The ~name and +name syntaxes could also be defined appended to another specification word (e.g., the module name, version or another variant specification), whereas -name syntax must be the start of a new specification word.
Boolean variants may also be specified with the name=value syntax. value should be set to 1, true, t, yes, y or on to enable the variant or it should be set to 0, false, f, no, n or off to disable the variant.
Shortcuts may be used to abbreviate variant specification. The variant_shortcut configuration option associates shortcut character to variant name. With a shortcut defined, variant could be specified with the <shortcut>value syntax. For instance if character % is set as a shortcut for variant foo, the %value syntax is equivalent to the foo=value syntax.
Specific characters used in variant specification syntax cannot be used as part of the name of a module. These specific characters are +, ~, = and all characters set as variant shortcut. Exception is made for + character which could be set one or several consecutive times at the end of module name (e.g., name+ or name++).
A modulefile may express dependencies on other modulefiles. Two kind of dependency exist: pre-requirement and conflict. The former means specified modulefiles should be loaded prior the modulefile that express the requirement. The latter means specified modulefiles should not be loaded for the modulefile that express the conflict to be loaded too.
Pre-requirement could be expressed with prereq, prereq-any, prereq-all, depends-on, always-load, module load, module switch, module try-load or module load-any modulefile commands. When the auto_handling configuration option is disabled, required modulefile should be manually loaded prior their dependent modulefile when expressed with the prereq, prereq-any, prereq-all or depends-on modulefile commands. For other commands or when auto_handling is enabled, pre-required modulefiles are automatically loaded.
Conflict is expressed with conflict or module unload modulefile commands. A conflicting loaded modulefile should be manually unloaded prior loading the modulefile that express such conflict when defined with conflict. It is automatically unloaded when expressed with module unload.
It is strongly advised to define dependencies prior environment changes in a modulefile. Dependency resolution should be done before any environment change to ensure the environment is getting set in the same order whether pre-requirements are already loaded, or if they are automatically loaded when loading the modulefile which depends on them, or if all loaded modules are reloaded or refreshed. This is especially important when the modulefile updates an environment variable also altered by other modulefiles like PATH. As the order of the path elements in such variable defines priority, it is important that this order does not change depending on the way the modulefiles are loaded.
module keeps environment consistent which means a modulefile cannot be loaded if its requirements are not loaded or if a conflicting module is loaded. In addition a loaded module cannot be unloaded if other loaded modules depends on it. The automated module handling mechanisms attempt to solve the dependencies expressed by loading or unloading additional modulefiles. When the --no-auto option is set on module command when loading or unload modulefile, automated module handling mechanisms are disabled and dependencies have to be solved manually. When dependencies are not satisfied, modulefile fails to load or unload.
Adding the --not-req option when expressing dependencies in modulefile with the module command will attempt to load or unload the designated modulefile but it will not mark them as pre-requirement or conflict.
Adding the --optional option on prereq, prereq-any, prereq-all, depends-on or always-load modulefile commands declares the pre-requirement as optional. If an optional pre-requirement is not found loaded or cannot be automatically loaded, the dependency expressed is yet considered satisfied. When an optional requirement is loaded afterward, the dependent module will get automatically reloaded if the auto_handling configuration option is enabled.
By adding the --force option to the module command when loading or unloading modulefile, the consistency checks are by-passed. This option cannot be used when expressing dependencies in modulefiles. If a module has been force loaded whereas its requirements are not loaded or whereas a conflicting module is also loaded, the user environment is said inconsistent.
Note that a pre-requirement should be found in the loaded module list prior its dependent module. User environment is considered inconsistent if pre-requirement module is found loaded after dependent module, as the environment changes may have been done in the wrong priority order.
When user environment is considered inconsistent global operations achieved by refresh, reload and save sub-commands cannot perform. This mechanism is there to avoid the situation to worsen by re-evaluating all loaded modules or recording this environment.
When the auto_handling configuration option is enabled, if missing pre-requirement modulefile gets loaded or conflicting modulefile gets unloaded the inconsistent loaded module will be automatically reloaded to make user environment consistent again.
Users can request help about a specific modulefile through the module(1) command. The modulefile can print helpful information or start help oriented programs by defining a ModulesHelp subroutine. The subroutine will be called when the module help modulefile command is used.
Users can request test of a specific modulefile through the module(1) command. The modulefile can perform some sanity checks on its definition or on its underlying programs by defining a ModulesTest subroutine. The subroutine will be called when the module test modulefile command is used. The subroutine should return 1 in case of success. If no or any other value is returned, test is considered failed.
The module display modulefile command will detail all changes that will be made to the environment. After displaying all of the environment changes modulecmd.tcl will call the ModulesDisplay subroutine. The ModulesDisplay subroutine is a good place to put additional descriptive information about the modulefile.
The modulecmd.tcl program supports Tcl modulefile written for Lmod, the alternative module implementation developed in Lua. Such modulefiles can be evaluated by Modules without raising error. Differences between the two implementations are listed below.
The add-property, remove-property and extensions modulefile commands are evaluated as a no-operation command. No error is obtained if these commands are used in modulefiles but no change occurs.
The break command does not accept any argument. A msg argument can be set on Lmod to provide a customized break error message.
Use of reportError command aborts modulefile evaluation on Lmod. This command only reports an error message on Modules.
The require-fullname command only aborts load modulefile evaluation whereas the Lmod implementation also aborts unload and display evaluations.
When processing a family command, the LMOD_FAMILY_<NAME> environment variable is also defined to be compatible with modulefiles or scripts relying on such variable.
When unloading a modulefile, the pushenv command does not update the value of the environment variable if this modulefile was not defining the value currently in use.
The third optional argument of append-path and prepend-path commands corresponds to a priority specification on Lmod whereas these two commands accept multiple path element arguments on Modules.
The prereq command is equivalent to the prereq-any command on Modules whereas on Lmod it is equivalent to the prereq-all command.
If the auto_handling configuration option is disabled, the requirements defined with the depends-on command are not automatically loaded and an error is raised if none of these requirements are found loaded.
On module load-any sub-command and modulefile command, a modulefile evaluation error is not reported and module load-any continues to the next modulefile instead of aborting the whole process. No attempt to load listed modulefiles is made if one of these modulefiles is found already loaded.
On module try-load modulefile command, each modulefile specified is considered an optional pre-requirement. If it is loaded afterward and if the auto_handling configuration option is enabled, the dependent module will get automatically reloaded.
The modulecmd.tcl program that evaluates modulefiles supports a variety of shells or languages: sh family shells (sh, bash, ksh and zsh), csh family shells (csh and tcsh), fish, cmd, python, perl, ruby, tcl, cmake, r, and lisp.
Modulefiles produce environment changes when evaluated, like defining an environment variable. The modulecmd.tcl program outputs the corresponding code for the selected "shell". Thereafter this code is evaluated by the module alias or function to update the current environment.
Depending on the "shell" kind, not all the environment changes that can be defined in modulefiles are supported. The following table summarizes the changes that are supported by the shells supported by modulecmd.tcl.
Environment variables (setenv, unsetenv, pushenv, append-path, prepend-path, remove-path) | Shell alias (set-alias, unset-alias) | Shell functions (set-function, unset-function) | Command completion (complete, uncomplete) | chdir | x-resource | |
sh | ⦁ | ⦁ | ⦁ | ⦁ | ⦁ | |
bash | ⦁ | ⦁ | ⦁ | ⦁ | ⦁ | ⦁ |
ksh | ⦁ | ⦁ | ⦁ | ⦁ | ⦁ | |
zsh | ⦁ | ⦁ | ⦁ | ⦁ | ⦁ | |
csh | ⦁ | ⦁ | ⦁ | ⦁ | ||
tcsh | ⦁ | ⦁ | ⦁ | ⦁ | ⦁ | |
fish | ⦁ | ⦁ | ⦁ | ⦁ | ⦁ | ⦁ |
cmd | ⦁ | ⦁ | ⦁ | |||
python | ⦁ | ⦁ | ⦁ | |||
perl | ⦁ | ⦁ | ⦁ | |||
ruby | ⦁ | ⦁ | ⦁ | |||
tcl | ⦁ | ⦁ | ⦁ | |||
cmake | ⦁ | ⦁ | ||||
r | ⦁ | ⦁ | ⦁ | |||
lisp | ⦁ | ⦁ | ⦁ |
The source-sh command evaluates a shell script and produces the modulefile commands corresponding to the environment changes made by this script. source-sh is able to evaluate sh, bash, ksh, zsh, csh, tcsh and fish shell scripts. source-sh produces environment changes corresponding to the kinds listed in the above table. Based on the evaluated script, refer to the above table to know the environment changes that will be rendered for the shell specified to modulecmd.tcl program.
See the ENVIRONMENT section in the module(1) man page.
module(1), ml(1), Tcl(n), TclX(n), id(1), xrdb(1), exec(n), uname(1), domainname(1), tclvars(n), lsort(n)
Tcl was developed by John Ousterhout at the University of California at Berkeley.
TclX was developed by Karl Lehenbauer and Mark Diekhans.
1996-1999 John L. Furlani & Peter W. Osel, 1998-2017 R.K.Owen, 2002-2004 Mark Lakata, 2004-2017 Kent Mein, 2016-2022 Xavier Delaruelle
2022-11-08 | 5.2.0 |