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|
texinode(Completion System)(Zftp Function System)(Zsh Modules)(Top)
chapter(Completion System)
cindex(completion system)
cindex(completion, programmable)
cindex(completion, controlling)
sect(Description)
This describes the shell code for the new completion system. It consists
of various shell functions; those beginning `tt(comp)' are to be called
directly by the user, while those beginning `tt(_)' are called by the
completion code. The shell functions of the second set which implement
completion behaviour and which may be bound to keystrokes, are referred to
as `widgets'.
Note that with the function-based completions described here, it
is also possible to use the `tt(compctl -M ...)' mechanism to specify
global matching control, such as case-insensitivity (`tt(abc)' will complete
to a string beginning `tt(ABC)'), or wildcard behaviour on
certain anchors (`tt(a-d)' will complete to abc-def as if there were a
`tt(*)' after the `a'). See
ifzman(the section `Matching Control' in zmanref(zshcompctl))\
ifnzman(noderef(Matching Control))
for further details.
startmenu()
menu(Initialization)
menu(Control Functions)
menu(Completion Functions)
menu(Completion Directories)
menu(Bindable Commands)
endmenu()
texinode(Initialization)(Control Functions)()(Completion System)
sect(Initialization)
findex(compinstall)
cindex(completion system, installing)
The function tt(compinstall) can be run by a user to set up the completion
system for use, which also provides options for more advanced usage.
However, if the system was installed completely, it should be enough to
call the shell function tt(compinit) from your initialization file; see the
next section.
Usually, tt(compinstall) will insert code into tt(.zshrc), although if
that is not writable it will save it in another file and tell you that
file's location. Note that it is up to you to make sure that the lines
added to tt(.zshrc) are actually run; you may, for example, need to move
them to an earlier place in the file if tt(.zshrc) usually returns early.
So long as you keep them all together (including the comment lines at the
start and finish), you can rerun tt(compinstall) and it will correctly
locate and modify these lines. Note, however, that any code you add to
this section by hand is likely to be lost if you rerun tt(compinstall).
The new code will take effect next time you start the shell, or run
tt(.zshrc) by hand.
To run it, you will need to make sure it is in a directory mentioned in your
tt($fpath) parameter, and that it is autoloaded (`tt(autoload -U
compinstall)' is recommended). It will ask you various questions about how
you would like completion set up. It is in two parts; the basic part
locates the completion files and decides where to put your personal
dumpfile, used to speed up initialization after the first time. After
that, you will be asked if you wish to go on to the advanced set-up; if you
answer tt(n), you can rerun tt(compinstall) later without having to
re-enter any of the basic settings.
You can abort the installation any time you are being prompted for
information, and your tt(.zshrc) will not be altered at all.
After initialization all the builtin completion widgets such as
tt(expand-or-complete) will be redefined to use the new completion system.
Should you need to, you can still bind keys to the old functions by putting
a `tt(.)' in front, e.g. `tt(.expand-or-complete)'.
subsect(Use of compinit)
findex(compinit)
cindex(completion system, initializing)
This section describes the use of tt(compinit) to initialize completion for
the current session when run directly by the user; if you have run
tt(compinstall) it will be called automatically from your tt(.zshrc).
To initialize the system, the function tt(compinit) should be in a
directory mentioned in the tt($fpath) variable, and should be autoloaded
(`tt(autoload -U compinit)' is recommended). When run, it will define a
few utility functions, arrange for all the necessary shell functions to be
autoloaded, and will then re-bind all keys that do completion to use the
new system.
To speed up the running of tt(compinit), it can be made to produce a dumped
configuration which will be read in on future invocations; this is the
default, although it can be turned off by calling tt(compinit) with the
option tt(-D). The dumped file is tt(.zcompdump) in the same
directory as the startup files (i.e. tt($ZDOTDIR) or tt($HOME));
alternatively, an explicit file name can be given by `tt(compinit -d)
var(dumpfile)'. On the next call to tt(compinit), the dumped file will be
read instead of a full initialization.
If the number of completion files changes, tt(compinit) will recognise this
and produce a new dump file. However, if the name of a function or the
arguments in the first line of a tt(#compdef) function (as described below)
change, it is easiest to delete the dump file by hand so that the next time
tt(compinit) will re-create it.
The dumping is actually done by another function, tt(compdump), but you
will only need to run this yourself if you change the configuration
(e.g. using tt(compdef)) and then want to dump the new one. The name of
the old dumped file will be remembered for this purpose.
If the parameter tt(_compdir) is set, tt(compinit) uses it as a directory
where completion functions can be found; this is only necessary if they are
not already in the function search path.
subsect(Autoloaded files)
cindex(completion system, autoloaded functions)
The convention for autoloaded functions used in completion is that they
start with an underscore; as already mentioned, the tt(fpath/FPATH)
parameter must contain the directory in which they are stored. If tt(zsh)
was properly installed on your system, then tt(fpath/FPATH) automatically
contains the required directories.
For incomplete installations, if tt(compinit) does not find enough files
beginning with an underscore (fewer than twenty) in the search path, it
will try to find more by adding the directory tt(_compdir) to the search
path; if you have run tt(compinstall), this will be set automatically.
Furthermore, if the directory in question ends in the path segment
tt(Core), or has a subdirectory named tt(Core), tt(compinit) will add all
subdirectories of the directory where tt(Core) is to the path: this allows
the functions to be in the same format as in the tt(zsh) source
distribution.
When tt(compinit) is run, it searches all such files accessible via
tt(fpath/FPATH) and reads the first line of each of them. This line should
contain one of the tags described below. Files whose first line does not
start with one of these tags are not considered to be part of the
completion system and will not be treated specially.
The tags are:
startitem()
item(tt(#compdef) var(names...))(
The file will be made autoloadable and the function defined
in it will be called when completing var(names), each of which is
either the name of a command whose arguments are to be completed or one of
a number of special contexts in the form tt(-)var(context)tt(-) described
below for the tt(_complete) function.
)
item(tt(#compdef -p) var(pattern))(
The file will be made autoloadable and the function defined in it will be
called when completing for a command whose name matches the given
var(pattern) (a standard globbing pattern). Note that only one
var(pattern) may be given.
)
item(tt(#compdef -P) var(pattern))(
Like the previous one, but the function will be called only if no
completion function for the command on the line could be found.
)
item(tt(#compdef -k) var(style key-sequences...))(
This can be used to bind special completion functions to the
var(key-sequences). It creates a widget behaving like the builtin widget
var(style), which must be one of those that perform completion, namely
tt(complete-word), tt(delete-char-or-list), tt(expand-or-complete),
tt(expand-or-complete-prefix), tt(list-choices), tt(menu-complete),
tt(menu-expand-or-complete), or tt(reverse-menu-complete). If the
tt(complist) module is loaded (see
ifzman(zmanref(zshmodules))\
ifnzman(noderef(The complist Module))\
), the tt(menu-select) widget can be used, too. If the option tt(-n) is
also given, the bindings will not be used if the key is already bound (that
is, is bound to something other than tt(undefined-key)).
The widget is then bound to all the var(key-sequences) given, if any: when
one of the var(key-sequences) is typed, the function in the file will
be invoked to generate the matches. The widget created has the same
name as the file and can also be bound to other keys using tt(bindkey)
as usual.
)
item(tt(#autoload))(
This is used for files defining utility function that are not to be
called directly as completion functions but should be loaded automatically
when invoked. Typically they are to be called from within one of the
completion functions.
)
enditem()
Note that the tt(#) is part of the tag name and no white space is allowed
after it. The tt(#compdef) tags use the tt(compdef) function defined
below; the main difference is that the name of the function is supplied
implicitly.
subsect(Functions)
The tt(compinit) file defines the following functions, which may
also be called directly by the user.
findex(compdef)
cindex(completion system, adding definitions)
startitem()
xitem(tt(compdef) [ tt(-an) ] var(function names...))
xitem(tt(compdef -d) var(names...))
xitem(tt(compdef -p) [ tt(-a) ] var(function pattern))
xitem(tt(compdef -P) [ tt(-a) ] var(function pattern))
item(tt(compdef -k) [ tt(-a) ] var(function style key-sequences...))(
The first form tells the completion system to call the given
var(function) when completing for the contexts or commands
whose var(names) are given: this is like the tt(#compdef) tag. If the
tt(-n) option is given, any existing completion behaviour for particular
contexts or commands will not be altered. These definitions can be deleted
by giving the tt(-d) option as in the second form.
The third form is similar to the first, but var(function) will be called
for all commands whose name matches the var(pattern); this is like the
tt(#compdef -p) function tag.
The fourth form is like the third, but the var(function) will be
called only if no function for the command itself was found or if one
was found and it set the tt(_compskip) parameter to a value em(not)
containing the sub-string `tt(patterns)'.
The fifth form defines a widget with the same name as the var(function)
which will be called for each of the var(key-sequences); this is like the
tt(#compdef -k) tag. The function should generate the completions needed
and will otherwise behave like the builtin widget whose name is given as
the var(style) argument. The widgets usable for this are:
tt(complete-word), tt(delete-char-or-list), tt(expand-or-complete),
tt(expand-or-complete-prefix), tt(list-choices), tt(menu-complete),
tt(menu-expand-or-complete), and tt(reverse-menu-complete), as well as
tt(menu-select) if the tt(complist) module is loaded. The option tt(-n)
prevents the key being bound if it is already to bound to something other
than tt(undefined-key).
In each of the forms supporting it the tt(-a) option makes the
var(function) autoloadable (exactly equivalent to
tt(autoload )var(function)).
)
findex(compconf)
cindex(completion system, configuring)
xitem(tt(compconf) var(definitions...))
xitem(tt(compconf) [ tt(-L) ] )
item(tt(compconf) [ tt(-l) ] [ tt(-L) ] var(keys...))(
vindex(compconfig)
Several aspects of the completion system can be configured by the
user. The configuration values are stored under the keys described
below in the associative array `tt(compconfig)'. After sourcing
tt(compinit), configuration values can either be set directly as in
`tt(compconfig[completer]=_complete)' or by calling this utility function.
Each var(definition) may be either a simple `var(key)', which sets this
key in the tt(compconfig) array to an empty string, or of the form
`var(key=value)' which stores the `var(value)' under key `var(key)'.
Since the completion system also uses the array for internal purposes,
you should not set all values at once by doing `tt(compconfig=(...))'.
In the second form (without arguments), this function lists all keys
and their values. If given the tt(-l) option as its first argument, as
in the last form, the other arguments are taken as names of keys and
the values of these keys are printed one per line. In either case, if the
tt(-L) option is given, the keys and values are printed as calls to this
function, usable to be put in a setup script.
)
enditem()
texinode(Control Functions)(Completion Functions)(Initialization)(Completion System)
sect(Control Functions)
cindex(completion system, choosing completers)
The initialization script tt(compinit) redefines all the widgets
which perform completion to call the supplied widget
function tt(_main_complete). This function acts as a wrapper calling
the so-called `completer' functions that generate matches. If
tt(_main_complete) is
called with arguments, these are taken as the names of completer
functions to be called in the order given. If no arguments are given, the
set of functions to try is taken from the colon-separated list in the
configuration key tt(completer). For example, to use normal
completion and correction if that doesn't generate any matches:
example(compconf completer=_complete:_correct)
after sourcing tt(compinit). The default value for this configuration key
set up in tt(compinit) is `tt(_complete)', i.e. normally only ordinary
completion is tried. The tt(_main_complete) function uses the return value
of the completer functions to decide if other completers should be
called. If the return value is zero, no other completers are tried and the
tt(_main_complete) function returns.
The widget function tt(_main_complete) also uses the configuration key
tt(last_prompt). If this is set to tt(always), the cursor is moved up
to the last prompt after printing a list of matches even if a numeric
argument was given.
The following completer functions are contained in the distribution (users
may write their own):
cindex(completion system, completers)
startitem()
item(tt(_complete))(
This completer generates all possible completions in a context-sensitive
manner, i.e. using the tt(compdef) function
explained above and the current settings of all special parameters.
To complete arguments of commands, tt(_complete) uses the utility function
tt(_normal), which is in turn responsible for finding the particular
function; it is described below. Various contexts of the form
tt(-)var(context)tt(-), as mentioned above for the tt(#compdef) tag, are
handled specially. These are:
startitem()
item(tt(-equal-))(
for completion after an equal sign, other than one occurring in a
shell-variable assignment.
)
item(tt(-tilde-))(
for completion after a tilde (`tt(~)') character, but before a slash.
)
item(tt(-redirect-))(
for completion after a redirection operator.
)
item(tt(-math-))(
for completion inside mathematical contexts, such as
`tt(LPAR()LPAR())...tt(RPAR()RPAR())'.
)
item(tt(-subscript-))(
for completion inside subscripts.
)
item(tt(-value-))(
for completion on the right hand side of an assignment.
)
item(tt(-array-value-))(
for completion on the right hand side of an array-assignment
(`tt(foo=LPAR()...RPAR())').
)
item(tt(-condition-))(
for completion inside conditions (`tt([[...]])').
)
item(tt(-parameter-))(
for completing the name of a parameter expansion (`tt($...)').
)
item(tt(-brace-parameter-))(
for completing the name of a parameter expansion within braces
(`tt(${...})').
)
item(tt(-first-))(
for adding completions before any other other completion functions are
tried (similar to the `tt(-T)' flag of tt(compctl)); if this
function sets the tt(_compskip) parameter to `tt(all)', no other
completion functions will be called, if it is set to a string
containing `tt(patterns)', no pattern completion functions will be
called, and if it is set to a string containing `tt(default)' the
function for the `tt(-default-)' context will not be called, but
functions defined for commands will.
)
item(tt(-default-))(
for generating completions when no special completion function is used
(similar to the `tt(-D)' option of tt(compctl)).
)
item(tt(-command-))(
for completing in a command position (as with the `tt(-C)' option of
tt(compctl)).
)
enditem()
Default implementations are supplied for each of these
contexts, in most cases named after the context itself
(e.g. completion for the `tt(-tilde-)' context is done by the function
named `tt(_tilde)').
Before trying to find a function for a specific context, tt(_complete)
checks if the parameter `tt(compcontext)' is set to a non-empty
value. If it is, the value is taken as the name of the context to use
and the function defined for that context will be called.
)
item(tt(_approximate))(
This completer function uses the tt(_complete) completer to generate
a list of strings for the context the cursor is currently in, allowing
you to specify a maximum number of errors: see the description of
approximate matching in
ifzman(\
zmanref(zshexpn)
)\
ifnzman(\
noderef(Filename Generation)
)\
for how errors are
counted. The resulting list of corrected and completed strings is then
presented to the user. The intended use of this completer function is to
try after the normal tt(_complete) completer by setting:
example(compconf completer=_complete:_approximate)
This will give correcting completion if and only if
normal completion doesn't yield any possible completions. When
corrected completions are found, the completer will normally start
menucompletion allowing you to cycle through these strings.
The exact behavior of this completer can be changed by using the
following configuration keys:
startitem()
item(tt(approximate_accept))(
This should be set to the number of errors the correction code should
accept. The completer will try to generate completions by first allowing
one error, then two errors, and so on, until either a match
was found or the maximum number of errors given by this key has
been reached.
If the value for this key contains a lower- or upper-case `tt(n)', the
completer function will take any numeric argument as the
maximum number of errors allowed. For example, with
example(compconf approximate_accept=2n)
two errors will be allowed if no numeric argument is given. However,
with a numeric argument of six (as in `tt(ESC-6 TAB)'), up to six
errors are accepted. Hence with a value of `tt(0n)', no correcting
completion will be attempted unless a numeric argument is given.
If the value contains `tt(n)' or `tt(N)' and an exclamation mark
(`tt(!)'), tt(_approximate) will var(not) try to generate corrected
completions when given a numeric argument, so in this case the number given
should be greater than zero. For example, `tt(2n!)' specifies that
correcting completion with two errors will usually be performed, but if a
numeric argument is given, correcting completion will not be performed.
)
item(tt(approximate_original))(
This key is used to specify whether the original string on which correcting
completion was attempted is to be included in the list of possible
corrections. If it is set to any non-empty string, the original string
will be offered when cycling through the completions. Normally it will
appear as the first string, so that the command line does not change
immediately; consecutive completion attempts will cycle through the
corrected strings. If the value for this key contains the substring
`tt(last)', the original string will be the last one in the list, so
that it appears just before wrapping around to the first corrected
string again. Also, if the value contains the substring `tt(always)',
the original string will always be included; normally it is
included only if more than one possible correction was generated.
)
item(tt(approximate_prompt))(
This can be set to a string to be displayed on top of the
corrected strings generated when cycling through them. This string
may contain the control sequences `tt(%n)', `tt(%B)', etc. known from
the `tt(-X)' option of tt(compctl). Also, the sequence `tt(%e)' will
be replaced by the number of errors accepted to generate the corrected
strings.
)
item(tt(approximate_insert))(
If this is set to a string starting with `tt(unambig)', the code will try
to insert a usable unambiguous string in the command line instead of
always cycling through the corrected strings. If such a unambiguous
string could be found, the original string is not used, independent of
the setting of tt(approximate_original). If no sensible string could be
found, one can cycle through the corrected strings as usual.
)
enditem()
If any of these keys is not set, but the the same key with the prefix
`tt(correct)' instead of `tt(approximate)' is set, that value will be
used. The forms beginning with `tt(correct)' are also used by the
tt(_correct) completer function.
The keys with the `tt(approximate)' prefix have no default values, but
tt(compinit) defines default values for tt(correct_accept) (which
is set to `tt(2n)'), and tt(correct_prompt).
)
item(tt(_correct))(
Generate corrections (but not completions) for the current word; this is
similar to spell-checking. This calls tt(_approximate), but only the
configuration parameters beginning tt(correct_) are used.
For example, with:
example(compconf completer=_complete:_correct:_approximate
compconf correct_accept='2n!' approximate_accept=3n)
correction will accept up to two errors. If a numeric argument is
given, correction will not be performed, but correcting completion will be,
and will accept as many errors as given by the numeric argument.
Without a numeric argument, first correction and then correcting
completion will be tried, with the first one accepting two errors
and the second one accepting three errors.
This completer function is intended to be used without the
tt(_approximate) completer or, as in the example, just before
it. Using it after the tt(_approximate) completer is useless since
tt(_approximate) will at least generate the corrected strings
generated by the tt(_correct) completer -- and probably more.
)
item(tt(_match))(
This completer is intended to be used after the tt(_complete)
completer. It allows one to give patterns on the command line and
to complete all strings matching these patterns from the set of possible
completions for the context the cursor is in, without having to set
the tt(GLOB_COMPLETE) option.
Normally this will be done by taking the pattern from the line,
inserting a `tt(*)' at the cursor position and comparing the resulting
pattern with the possible completions generated. However, if the
configuration key tt(match_original) has a value of `tt(only)', no
`tt(*)' will be inserted. If tt(match_original) has any other non-empty
string as its value, this completer will first try to generate matches
without, then with a `tt(*)' inserted at the cursor position.
The generated matches will be offered in a menucompletion unless the
tt(match_insert) configuration key is set to a string starting with
`tt(unambig)'. In this case menucompletion will only be started if no
unambiguous string could be generated that is at least as long as the
original string.
)
item(tt(_expand))(
This completer function does not really do completion, but instead
checks if the word on the command line is eligible for expansion and,
if it is, gives detailed control over how this expansion is done. When
using this, one should not use the tt(expand-or-complete) widget, but
instead use tt(complete-word), as otherwise tt(expand-or-complete)
will expand the string on the line before the completion widget is
called. Also, this completer should be called before the tt(_complete)
completer function.
Control over how the expanded string will be treated is possible with the
following configuration keys:
startitem()
item(tt(expand_substitute))(
If this is unset or set to the empty string, the code will first try
to expand all substitutions in the string (such as
`tt($LPAR()...RPAR())' and `tt(${...})'). If this is set to an
non-empty string it should be an expression usable inside a `tt($((...)))'
arithmetical expression. In this case, expansion of substitutions will
be done if the expression evaluates to `tt(1)'. For example, with
example(compconf expand_substitute='${NUMERIC:-1} != 1')
substitution will be performed only if given an explicit numeric
argument other than `tt(1)', as by typing `tt(ESC 2 TAB)'.
)
item(tt(expand_glob))(
If this is unset or set to an empty string, globbing will be attempted
on the word resulting from substitution or the original string. The
values accepted for this key are the same as for tt(expand_substitute).
)
item(tt(expand_menu))(
If this is unset or set to the empty string, the words resulting from
expansion (if any) will simply be inserted in the command line,
replacing the original string. However, if this key is set to a
non-empty string, the user can cycle through the expansion as in
menucompletion. Unless the value contains the substring `tt(only)',
the user will still be offered all expansions at once as one of the
strings to insert in the command line; normally, this possibility is
offered first, but if the value contains the
substring `tt(last)', it is offered last. Finally, if the value contains
the substring `tt(sort)', the expansions will be sorted alphabetically,
normally they are kept in the order the expansion produced them in.
)
item(tt(expand_original))(
If this is set to an non-empty string, the original string from the
line will be included in the list of strings the user can cycle
through as in a menucompletion. If the value contains the substring
`tt(last)', the original string will appear as the last string, with
other values it is inserted as the first one (so that the command line
does not change immediately).
)
item(tt(expand_prompt))(
This may be set to a string that should be displayed before the
possible expansions. This is passed to the `tt(-X)' option of
tt(compadd) and thus may contain the control sequences `tt(%n)',
`tt(%B)', etc. Also, the sequence `tt(%o)' in this string will be
replaced by the original string.
)
enditem()
None of these configuration keys has a default value.
)
item(tt(_list))(
This completer allows one to delay the insertion of matches until
completion is attempted a second time without the word on the line
being changed. On the first attempt, only the list of matches will be
shown. Configuration keys understood are:
startitem()
item(tt(list_condition))(
If this key is unset or set to the empty string, the insertion of
matches will be delayed unconditionally. If this value is set, it
should be set to an expression usable inside a `tt($((...)))'
arithmetical expression. In this case, delaying will be done if the
expression evaluates to `tt(1)'. For example, with
example(compconf list_condition='NUMERIC != 1')
delaying will be done only if given an explicit numeric argument
other than `tt(1)'.
)
item(tt(list_word))(
To find out if listing should be performed on its own, the code normally
compares the contents of the line with the contents the line had at the
time of the last invocation. If this key is set to an non-empty string,
comparison is done using only the current word. So if it is set,
attempting completion on a word equal to the one when completion was called
the last time will not delay the generation of matches.
)
enditem()
)
item(tt(_menu))(
This completer is a simple example function implemented to show how
menucompletion can be done in shell code. It should be used as the
first completer and has the effect of making the code perform
menucompletion. Note that this is independent of the setting of the
tt(MENU_COMPLETE) option and does not work with the other
menucompletion widgets such as tt(reverse-menu-complete), or
tt(accept-and-menu-complete).
)
item(tt(_oldlist))(
This completer controls how the standard completion widgets behave when
there is an existing list of completions which may have been generated by a
special completion (i.e. a separately-bound completion command). It should
appear in the list of completers before any of the widgets which generate
matches. It understands two configuration keys:
startitem()
item(tt(oldlist_list))(
If this is set to tt(always), then standard widgets which perform listing
will retain the current list of matches, however they were generated. If
it is set to tt(never), this will not be done (the behaviour without the
tt(_oldlist) completer). If it is unset, or any other value, then the
existing list of completions will be displayed if it is not already;
otherwise, the standard completion list will be generated: this is the
default behaviour of tt(_oldlist). However, if there is an old list
and this key contains the name of the completer function that
generated the list, then the old list will be used even if it was
generated by a widget which does not do listing.
For example, suppose you type tt(^Xc) to use the tt(_correct_word)
widget, which generates a list of corrections for the word under the
cursor. Usually, typing tt(^D) would generate a standard list of
completions for the word on the command line, and show that. With
tt(_oldlist), it will instead show the list of corrections already
generated.
As another example consider the tt(_match) completer: with the
tt(match_insert) key set to tt(unambig) it inserts only an
unambiguous prefix string if there is any. But since this may remove
parts of the original pattern, attempting completion again may result
in more matches than on the first attempt. But by using the
tt(_oldlist) completer and setting this key to tt(_match), the list of
matches generated on the first attempt will be used again.
)
item(tt(oldlist_menu))(
Controls how menu completion behaves when a completion has already been
inserted and the user types a standard completion key type such as tt(TAB).
The default behaviour of tt(_oldlist) is that menu completion always
continues with the existing list of completions. If this key is set to
tt(never), however, a new completion is started if the old list was
generated by a different completion command (the behaviour without the
tt(_oldlist) completer).
For example, suppose you type tt(^Xc) to generate a list of corrections,
and menu completion is started in one of the usual ways. Usually, typing
tt(TAB) at this point would start trying to complete the line as it now
appears. With tt(_oldlist), it will instead continue to cycle through the
list of completions.
)
enditem()
)
enditem()
texinode(Completion Functions)(Completion Directories)(Control Functions)(Completion System)
sect(Utility Functions)
cindex(completion system, utility functions)
Descriptions follow for utility functions that may be
useful when writing completion functions. Most of these reside in the
tt(Core) subdirectory except where noted. Like the example
functions for commands in the distribution, the utility functions
generating matches all follow the convention of returning zero if they
generated completions and non-zero if no matching completions could be
added.
startitem()
item(tt(_compalso))(
This function looks up the definitions for the context and command
names given as arguments and calls the handler functions for them if
there is a definition (given with the tt(compdef) function). For
example, the function completing inside subscripts might use
`tt(_compalso -math-)' to include the completions generated for
mathematical environments.
)
item(tt(_normal))(
This function is used for normal command completion. If
completion is attempted on the first word, command names are
completed. Otherwise, the arguments are completed by calling the
functions defined for this command, including those functions defined
for patterns matching the command name. This function can also be
called by other completion functions if they have to complete a range
of words as a separate command. For example, the function to complete after
the pre-command specifiers such as tt(nohup) removes the first word from
the tt(words) array, decrements the tt(CURRENT) parameter, then calls this
function.
When calling a function defined for a pattern, this function also
checks if the parameter tt(_compskip) is set and uses the value in the
same way it is used after calling the completion function for the
tt(-first-) context. With this
one can write a pattern completion function that keeps other functions
from being tried simply by setting this parameter to any value.
)
item(tt(_description))(
This function gets two arguments: the name of an array and a
string. It tests if the configuration key tt(description_format) is
set and if it is, it stores some options in the array that can then be
given to the tt(compadd) and tt(compgen) builtin commands to make the
value of the tt(description_format) key (with the sequence `tt(%d)'
replaced by the string given as the second argument) be displayed
above the matches added. These options also will make sure that the
matches are placed in a separate group (the second argument is used as
the name of the group) if the configuration key tt(group_matches) is
set to a non-empty string. Normally a sorted group will be used for this
(with the `tt(-J)' option), but if the option `tt(-V)' is given, a
unsorted group will be used instead.
In most cases, this function will be used like this:
example(local expl
_description expl file
compadd "$expl[@]" - "$files[@]")
)
item(tt(_message))(
This function takes one argument which is used like the second
argument to the tt(_description) function. However, the resulting
string will always be shown, not only if some matches were
generated. This is useful to display help texts in places where no
completions can be generated automatically.
This function also uses the configuration key tt(message_format) in
preference to tt(description_format). The latter is used only if the
former is unset or set to the empty string.
)
item(tt(_multi_parts))(
This function gets two arguments: a separator character and an
array. As usual, the array may be either the
name of an array parameter or a literal array in the form
`tt(LPAR()foo bar)tt(RPAR())' (i.e. a list of words separated by white
space in parentheses). With these arguments, this function will
complete to strings from the array where the parts separated by the
separator character are completed independently. For example, the
tt(_tar) function from the distribution caches the pathnames from the
tar file in an array and then calls this function to complete these
names in the way normal filenames are completed by the
tt(_path_files) function.
Like other utility functions, this function accepts the `tt(-V)',
`tt(-J)', and `tt(-X)' options with an argument and passes them to the
tt(compadd) builtin.
)
item(tt(_sep_parts))(
This function gets as arguments alternating arrays and separators.
The arrays specify completions for parts of strings to be separated by the
separators. The arrays may be the names of array parameters or
a quoted list of words in parentheses. For example, with the array
`tt(hosts=(ftp news))' the call `tt(_sep_parts '(foo bar)' @ hosts)' will
complete the string `tt(f)' to `tt(foo)' and the string `tt(b@n)' to
`tt(bar@news)'.
This function passes the `tt(-V)', `tt(-J)', and `tt(-X)' options and
their arguments to the tt(compadd) builtin used to add the matches.
)
item(tt(_path_files) and tt(_files))(
The function tt(_path_files) is used throughout the shell code
to complete filenames. The advantage over the builtin
completion functions is that it allows completion of partial paths. For
example, the string `tt(/u/i/s/sig)' may be completed to
`tt(/usr/include/sys/signal.h)'. The options `tt(-/)', `tt(-f)', `tt(-g)',
and `tt(-W)' are available as for the tt(compctl)
and tt(compgen) builtins; tt(-f) is the default. Additionally, the `tt(-F)'
option from the tt(compadd) builtin is supported, giving direct control
over which filenames should be ignored as done by the tt(fignore)
parameter in normal completion.
The function tt(_files) calls tt(_path_files) with all the arguments
it was passed and, if that generated no matches, calls tt(_path_files) again
without any tt(-g) or tt(-/) option, thus generating all filenames.
These functions also accept the `tt(-J)', `tt(-V)', `tt(-X)', `tt(-P)',
`tt(-S)', `tt(-q)', `tt(-r)', and `tt(-R)' options from the
tt(compadd) builtin.
Finally, the tt(_path_files) function supports two configuration keys.
startitem()
item(tt(path_expand))(
If this is set to any non-empty string, the partially
typed path from the line will be expanded as far as possible even if
trailing pathname components can not be completed.
)
item(tt(path_cursor))(
If this is set to a non-empty string, the cursor will be left
after the first ambiguous pathname component even when menucompletion
is used.
)
enditem()
)
item(tt(_parameters))(
This should be used to complete parameter names if you need some of the
extra options of tt(compadd). All arguments are passed unchanged to
the tt(compadd) builtin.
)
item(tt(_options))(
This can be used to complete option names. The difference to the
`tt(-o)' option of tt(compgen) is that this function uses a matching
specification that ignores a leading `tt(no)', ignores underscores and
allows the user to type upper-case letters, making them match their
lower-case counterparts. All arguments passed to this function are
propagated unchanged to the tt(compgen) builtin.
)
item(tt(_set_options) and tt(_unset_options))(
These functions complete only set or unset options, with the same
matching specification used in the tt(_options) function.
Note that you need to uncomment a few lines in the tt(_main_complete)
function for these functions to work properly. The lines in question
are used to store the option settings in effect before the completion
widget locally sets the options it needs.
)
item(tt(_long_options))(
This function resides in the tt(Base) subdirectory of the example
completion system because it is not used by the core system.
This function is used to complete long options for commands that
support the `tt(--help)' option as, for example, most of the GNU
commands do. For this it invokes the command from the line with the
`tt(--help)' option and then parses the output to find possible option
names. Note that this means that you should be careful to make sure
that this function is not called for a command that does not support
this option.
For options that get an argument after a `tt(=)', the function also tries
to automatically find out what should be completed as the argument.
The possible completions for option-arguments can be described with
the arguments to this function. Each argument contains one description
of the form <pattern>:<message>:<action>. The message will be printed
above the possible completion if the `description_format' configuration
key is set (see above). The actions specify what
should be done to complete arguments of those options that match
the pattern. The action may be a list of words in brackets or in
parentheses, separated by spaces. A list in brackets denotes
possible values for an optional argument, a list in parentheses
gives words to complete for mandatory arguments. If the action does
not start with a bracket or parentheses, it should be the name of a
command (probably with arguments) that should be invoked to complete
after the equal sign. E.g.:
example(_long_options '*\*' '(yes no)' \
'*=FILE*' '_files' \
'*=DIR*' '_files -/')
Here, `tt(yes)' and `tt(no)' will be completed as the argument of
options whose description ends in a star, file names for options that
contain the substring `tt(=FILE)' in the description, and paths for
options whose description contains `tt(=DIR)'. In fact, the last two
patterns are not needed since this function always completes files
for option descriptions containing `tt(=FILE)' and paths for option
descriptions that contain `tt(=DIR)' or `tt(=PATH)'. These builtin
patterns can be overridden by patterns given as arguments, however.
If the
option `tt(-t)' is given, completion is only done on words starting
with two hyphens. The option `tt(-i) var(patterns)' can be used to
give patterns for options which should not be completed. The patterns
can be given as the name of an array parameter or as a literal list in
parentheses. E.g. `tt(-i "(--(en|dis)able-FEATURE*)")' will ignore the
options `tt(--enable-FEATURE)' and `tt(--disable-FEATURE)'. Finally,
the option `tt(-s) var(pairs)' can be used to describe options
aliases. Each var(pair) consists of a pattern and a
replacement. E.g. some tt(configure)-scripts describe options only as
`tt(--enable-foo)', but also accept `tt(disable-foo)'. To allow
completion of the second form, one would use
`tt(-s "(#--enable- --disable-)")'.
)
item(tt(_arguments))(
Like tt(_long_options), this function is in the tt(Base) subdirectory.
This function can be used to complete words on the line by simply
describing the arguments the command on the line gets. The description
is given as arguments to this function, with each argument describing
one option or normal argument of the command. The descriptions
understood are:
startitem()
item(var(n)tt(:)var(message)tt(:)var(action))(
This describes the var(n)'th normal argument. The var(message) will be
printed above the matches generated and the var(action) says what can
be completed in this position (see below).
)
item(tt(:)var(message)tt(:)var(action))(
Like the previous one, but describing the em(next) argument. I.e. if
you want to describe all arguments a command can get, you can leave
out the numbers in the description and just use this form to describe
them one after another in the order they have to appear on the line.
)
item(tt(*:)var(message)tt(:)var(action))(
This describes how arguments are to be completed for which no
description with one of the first two forms was given. This also means
that any number of arguments can be completed.
)
item(var(opt-spec)[var(description) ...])(
This describes an option and (if at least one var(description) is
given) the arguments that have to come after the option. If no
var(description) is given, this will only be used to offer the option
name as a possible completion in the right places. Each
var(description) has to be of the form
`tt(:)var(message)tt(:)var(action)' or
`tt(::)var(message)tt(:)var(action)', where the second form describes
an optional argument and the first one describes a mandatory argument.
In the simplest form the var(opt-spec) is just the option name
beginning with a minus or a plus sign, such as `tt(-foo)'. In this
case, the first argument for the option (if any) has to come as a
separate word directly after the option and the option may appear only
once on the line (and if it is already on the line, the option name
will not be offered as a possible completion again). If the first
argument for the option has to come directly after the option name
em(in the same word), a minus sign should be added to the end of the
var(opt-spec), as in `tt(-foo-)'. If the first argument may be given
in one string with the option name, but may also be given as a
separate argument after the option, a plus sign should be used
instead. Finally, if the option may be given more than once, a star
(`tt(*)') should be added in front of the var(opt-spec).
enditem()
In each of the cases above, the var(action) says how the possible
completions should be generated. In cases where only one of a fixed
set of strings can be completed, these string can directly be given as
a list in parentheses, as in `tt(:foo:(foo bar baz))'. If the
var(action) does not begin with an opening parentheses, it will be
split into separate words and executed. If the var(action) starts with
a space, this list of words will be invoked unchanged, otherwise it
will be invoked with some extra string placed after the first word
which can be given as arguments to the tt(compadd) and tt(compgen)
builtins and which make sure that the var(message) given in the
description will be shown above the matches.
Finally, this function can be made to automatically call the
tt(_long_options) function where appropriate by giving it the string
`tt(--)' as an argument. All arguments after this will be given
unchanged to the tt(_long_options) function.
Example:
example(_arguments '-l+:left border:' \
'-format:paper size:(letter A4)' \
'*-copy:output file:_files::resolution:(300 600)' \
':postscript file:_files -g *.(ps|eps)' \
'*:page number:')
This describes three options `tt(-l)', `tt(-format)', and
`tt(-copy)'. The first one gets one argument described as `var(left
border)' for which no completion will be offered because of the empty
action. The argument may come directly after the `tt(-l)' or it may be
given as the next word on the line. The `tt(-format)' option gets one
argument (in the next word) described as `var(paper size)' for which
only the strings `tt(letter)' and `tt(A4)' will be completed. The
`tt(-copy)' option differs from the first two in that it may appear
more than once on the command line and in that it accepts two
arguments. The first one is mandatory and will be completed as a
filename. The second one is optional (because of the second colon
before the description `var(resolution)') and will be completed from
the strings `tt(300)' and `tt(600)'.
The last two descriptions say what should be completed as
arguments. The first one describes the first argument as a
`var(postscript file)' and makes files ending in `tt(ps)' or `tt(eps)'
be completed. The last description says that all other arguments are
`var(page numbers)' but does not give possible completions.
)
enditem()
texinode(Completion Directories)(Bindable Commands)(Completion Functions)(Completion System)
sect(Completion Directories)
cindex(completion system, directory structure)
In the source distribution, the files are contained in various
subdirectories of the tt(Completion) directory. They may have been
installed in the same structure, or into one single function directory.
The following is a description of the files found in the original directory
structure. If you wish to alter an installed file, you will need to copy
it to some directory which appears earlier in your tt(fpath) than the
standard directory where it appears.
startitem()
item(tt(Core))(
The core scripts and functions. You will certainly need these, though will
probably not need to alter them. Many of these are documented above.
)
item(tt(Base))(
Other functions you will almost certainly want if you are going to use
any of the standard completion functions. You may want to edit some of
these files.
)
item(tt(Builtins))(
Functions for completing arguments of shell builtin commands.
)
item(tt(User))(
Functions for completing arguments of external commands and suites of
commands. They may need modifying for your system.
)
item(tt(Commands))(
Functions which implement special types of completion to be bound to
keystrokes rather than called by context.
)
enditem()
texinode(Bindable Commands)()(Completion Directories)(Completion System)
sect(Bindable Commands)
cindex(completion system, bindable commands)
In addition to the context-dependent completions provided, which are
expected to work in an intuitively obvious way, there are a few widgets
implementing special behaviour which can be bound separately to keys. The
following is a list of these and their default bindings.
startitem()
item(tt(_correct_filename (^XC)))(
Correct the filename path at the cursor position. Allows up to six errors
in the name. Can also be called with an argument to correct
a filename path, independently of zle; the correction is printed on
standard output.
)
item(tt(_correct_word) (^Xc))(
Performs correction of the current argument using the usual contextual
completions as possible choices.
)
item(tt(_expand_word (^Xe)))(
Performs expansion on the current word: equivalent to the standard
tt(expand-word) command, but using all the `tt(expand_*)' configuration
keys described previously. In addition, each such key can be overridden by
a key starting with the string `tt(expandword_)'; for example, the
tt(expandword_substitute) key if defined overrides the
tt(expand_substitute) key.
)
item(tt(_history_complete_word) (\e/))(
Complete words from the shell's command history.
)
item(tt(_most_recent_file (^Xm)))(
Complete the name of the most recently modified file matching the pattern
on the command line (which may be blank). If given a numeric argument
var(N), complete the var(N)th most recently modified file. Note the
completion, if any, is always unique.
)
item(tt(_read_comp (^X^R)))(
Prompt the user for a string, and use that to perform completion on the
current word. There are two possibilities for the string. First, it can
be a set of words beginning `tt(_)', for example `tt(_files -/)', in which
case the function with any arguments will be called to generate the
completions. Unambiguous parts of the function name will be completed
automatically (normal completion is not available at this point) until a
space is typed.
Otherwise, any other string, for example `tt(-b)', will be passed as
arguments to tt(compgen) and should hence be a set of flags specifying the
type of completion.
A very restricted set of editing commands is available when reading the
string: `tt(DEL)' and `tt(^H)' delete the last character; `tt(^U)' deletes
the line, and `tt(^C)' and `tt(^G)' abort the function, while `tt(RET)'
accepts the completion. Note the string is used verbatim as a command
line, so arguments must be quoted in accordance with standard shell rules.
Once a string has been read, the next call to tt(_read_comp) will use the
existing string instead of reading a new one. To force a new string to be
read, call tt(_read_comp) with a numeric argument.
)
enditem()
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