NAME¶
CLI::Framework::Command - CLIF Command superclass
SYNOPSIS¶
# The code below shows a few of the methods your command classes are likely
# to override...
package My::Journal::Command::Search;
use base qw( CLI::Framework::Command );
sub usage_text { q{
search [--titles-only] <search regex>: search a journal
} }
sub option_spec { (
[ 'titles-only' => 'search only journal titles' ],
) }
sub validate {
my $self, $opts, @args) = @_;
die "exactly one argument required (search regex)" unless @args == 1;
}
sub run {
my ($self, $opts, @args) = @_;
my $db = $self->cache->get( 'db' )
# perform search against $db...
# $search_results = ...
return $search_results;
}
DESCRIPTION¶
CLI::Framework::Command (command class for use with CLI::Framework::Application)
is the base class for CLIF commands. All CLIF commands inherit from this
class.
CONCEPTS¶
- Subcommands
- Commands can have "subcommands," which are also objects of
CLI::Framework::Command. Subcommands can, in turn, have their own
subcommands, and this pattern may repeat indefinitely.
Note that in this documentation, the term "command" may be
used to refer to both commands and subcommands.
- Registration of subcommands
- Subcommands are "registered" with their parent commands. The
parent commands can then forward subcommand responsibilities as
appropriate.
- File-based commands vs. inline commands
- Command classes (which inherit from CLI::Framework::Command) can be
defined in their own package files or they may be declared inline in
another package (e.g. a command package file could include the declaration
of a subcommand package or command packages could be declared inline in
the package file where the application is declared). As long as the
classes have been loaded (making their way into the symbol table), CLIF
can use the commands.
OBJECT CONSTRUCTION¶
manufacture( $command_package )¶
# (manufacture MyApp::Command::Go and any subcommand trees beneath it)
my $go = CLI::Framework::Command->manufacture( 'MyApp::Command::Go' );
CLI::Framework::Command is an abstract factory; "manufacture()" is the
factory method that constructs and returns an object of the specific command
class that is requested.
After instantiating an object of the requested command package,
"manufacture()" attempts to load subcommands in the following 2
steps:
- 1.
- Attempt to find package files representing subcommands. For every
subcommand S, S is registered as a child of the parent command. Next,
steps 1 and 2 repeat, this time being invoked on S (i.e. with S as the
parent in an attempt to find subcommands of S).
- 2.
- Attempt to find and register pre-compiled subcommands defined
inline. Only pre-compiled subcommands are considered for
registration (i.e. package files are not considered in this step). For
every subcommand S, any pre-compiled subcommands that inherit
directly from S are found and step 2 repeats for those
classes.
Note the following rules about command class definition:
- •
- If a command class is defined inline, its subcommand classes must be
defined inline as well.
- •
- If a command class is file-based, each of its subcommand classes can be
either file-based or inline. Furthermore, it is not necessary for all of
these subcommand classes to be defined in the same way -- a mixture of
file-based and inline styles can be used for the subcommands of a given
command.
new()¶
$object = $cli_framework_command_subclass->new();
Basic constructor.
SHARED CACHE DATA¶
CLIF commands may need to share data with other commands and with their
associated application. These methods support those needs.
set_cache( $cache_object )¶
Set the internal cache object for this instance.
See cache.
cache()¶
Retrieve the internal cache object for this instance.
See cache for an explanation of how to use this simple cache object.
COMMAND DISPATCHING¶
get_default_usage() / set_default_usage( $default_usage_text )¶
Get or set the default usage message for the command. This message is used by
usage.
Note: "get_default_usage()" merely retrieves the usage data
that has already been set. CLIF only sets the default usage message for a
command when processing a run request for the command. Therefore, the default
usage message for a command may be empty (if a run request for the command has
not been given and you have not otherwise set the default usage message).
$cmd->set_default_usage( ... );
$usage_msg = $cmd->get_default_usage();
usage( $subcommand_name, @subcommand_chain )¶
# Command usage...
print $cmd->usage();
# Subcommand usage (to any level of depth)...
$subcommand_name = 'list';
@subcommand_chain = qw( completed );
print $cmd->usage( $subcommand_name, @subcommand_chain );
Attempts to find and return a usage message for a command or subcommand.
If a subcommand is given, returns a usage message for that subcommand. If no
subcommand is given or if the subcommand cannot produce a usage message,
returns a general usage message for the command.
Logically, here is how the usage message is produced:
- •
- If registered subcommand(s) are given, attempt to get usage message from a
subcommand ( Note that a sequence of subcommands could be given,
e.g. "$cmd->usage('list' 'completed')", which would result in
the usage message for the final subcommand, 'completed'). If no usage
message is defined for the subcommand, the usage message for the command
is used instead.
- •
- If the command has implemented usage_text, its return value is used as the
usage message.
- •
- Finally, if no usage message has been found, the default usage message
produced by get_default_usage is returned.
dispatch( $cmd_opts, @args )¶
For the given command request, "dispatch" performs any applicable
validation and initialization with respect to supplied options $cmd_opts and
arguments @args, then runs the command.
@args may indicate the request for a subcommand:
{ <subcmd> [subcmd-opts] {...} } [subcmd-args]
...as in the following command (where "usage" is the <subcmd>):
$ gen-report --html stats --role=admin usage --time='2d' '/tmp/stats.html'
If a subcommand registered under the indicated command is requested, the
subcommand is initialized and dispatched with its options
"[subcmd-opts]" and arguments. Otherwise, the command itself is run.
This means that a request for a subcommand will result in the "run"
method of only the deepest-nested subcommand (because "dispatch"
will keep forwarding to successive subcommands until the args no longer
indicate that a subcommand is requested). Furthermore, the only command that
can receive args is the final subcommand in the chain (but all commands in the
chain can receive options). However,
Note that each command in the
chain can affect the execution process through its
notify_of_subcommand_dispatch method.
COMMAND REGISTRATION¶
registered_subcommand_names()¶
@registered_subcommands = $cmd->registered_subcommand_names();
Return a list of the currently-registered subcommands.
registered_subcommand_object( $subcommand_name )¶
$subcmd_obj = $cmd->get_registered_subcommand( 'lock' );
Given the name of a registered subcommand, return a reference to the subcommand
object. If the subcommand is not registered, returns undef.
register_subcommand( $subcmd_obj )¶
$cmd->register_subcommand( $subcmd_obj );
Register $subcmd_obj as a subcommand under master command $cmd.
If $subcmd_obj is not a CLI::Framework::Command, returns undef. Otherwise,
returns $subcmd_obj.
package_is_registered( $package_name )¶
Return a true value if the named class is registered as a subcommand. Returns a
false value otherwise.
name()¶
$s = My::Command::Squeak->new();
$s->name(); # => 'squeak'
"name()" takes no arguments and returns the name of the command. This
method uses the normalized base name of the package as the command name, e.g.
the command defined by the package My::Application::Command::Xyz would be
named 'xyz'.
COMMAND SUBCLASS HOOKS¶
Just as CLIF Applications have hooks that subclasses can use, CLIF Commands are
able to influence the command dispatch process via several hooks. Except where
noted, all hooks are optional -- subclasses may choose whether or not to
override them.
option_spec()¶
This method should return an option specification as expected by
Getopt::Long::Descriptive (see Getopt::Long::Descriptive). The option
specification is a list of arrayrefs that defines recognized options, types,
multiplicities, etc. and specifies textual strings that are used as
descriptions of each option:
sub option_spec {
[ "verbose|v" => "be verbose" ],
[ "logfile=s" => "path to log file" ],
}
Subclasses should override this method if commands accept options (otherwise,
the command will not recognize any options).
subcommand_alias()¶
sub subcommand_alias {
rm => 'remove',
new => 'create',
j => 'jump',
r => 'run',
}
Subcommands can have aliases to support shorthand versions of subcommand names.
Subclasses should override this method if subcommand aliases are desired.
Otherwise, the subcommands will only be recognized by their full command
names.
validate( $cmd_opts, @args )¶
To provide strict validation of a command request, a subclass may override this
method. Otherwise, validation is skipped.
$cmd_opts is an options hash with the received command options as keys and their
values as hash values.
@args is a list of the received command arguments.
"validate()" is called in void context. It is expected to throw an
exception if validation fails. This allows your validation routine to provide
a context-specific failure message.
Note that Getop::Long::Descriptive performs some validation of its own
based on the option_spec. However, "validate()" allows more
flexibility in validating command options and also allows validation of
arguments.
notify_of_subcommand_dispatch( $subcommand, $cmd_opts, @args )¶
If a request for a subcommand is received, the master command itself does not
"run()". Instead, its "notify_of_subcommand_dispatch()"
method is called. This gives the master command a chance to act before the
subcommand is run.
For example, suppose some (admittedly contrived) application, 'queue', has a
command hierarchy with multiple commands:
enqueue
dequeue
print
property
constraint
maxlen
behavior
...
In this case, "$ queue property constraint maxlen" might set the max
length property for a queue. If the command hierarchy was built this way,
"maxlen" would be the only command to "run" in response to
that request. If "constraint", the master command of
"maxlen", needs to hook into this execution path,
"notify_of_subcommand_dispatch()" could be overridden in the command
class that implements "constraint".
"notify_of_subcommand_dispatch()" would then be called just before
"dispatch"ing "maxlen".
The "notify_of_subcommand_dispatch()" method is called in void
context.
$subcommand is the subcommand object.
$cmd_opts is the options hash for the subcommand.
@args is the argument list for the subcommand.
usage_text()¶
sub usage_text {
q{
dequeue: remove item from queue
}
}
If implemented, this method should simply return a string containing usage
information for the command. It is used automatically to provide
context-specific help.
Implementing this method is optional. See usage for details on how usage
information is generated within the context of a CLIF application.
Users are encouraged to override this method.
run( $cmd_opts, @args )¶
This method is responsible for the main execution of a command. It is called
with the following parameters:
$cmd_opts is a pre-validated options hash with command options as keys and their
user-provided values as hash values.
@args is a list of the command arguments.
The default implementation of this method simply calls usage to show help
information for the command. Therefore, subclasses will usually override
"run()" (Occasionally, it is useful to have a command that does
little or nothing on its own but has subcommands that define the real
behavior. In such occasional cases, it may not be necessary to override
"run()").
If an error occurs during the execution of a command via its "run()"
method, the "run()" method code should throw an exception. The
exception will be caught and handled appropriately by CLIF.
The return value of "run()" is treated as data to be processed by the
render method in your CLIF Application class.
Note that nothing should be
printed directly in your implementation of
"run". If no output is to be produced, your
"run()" method should return "undef" or empty string.
DIAGNOSTICS¶
- "Error: failed to instantiate command package '<command pkg>'
via new()"
- manufacture was asked to manufacture an object of class <command
pkg>, but failed while trying to invoke its constructor.
- "Error: failed to instantiate subcommand '<class>' via method
new()"
- Object construction for the subcommand <class> (whose package has
already been "require()d") was unsuccessful.
- "cannot opendir <dir>"
- While trying to manufacture subcommands in a directory tree, calling
"opendir()" on the subdirectory with the name of the parent
command failed.
CONFIGURATION & ENVIRONMENT¶
No special configuration requirements.
DEPENDENCIES¶
Carp
Getopt::Long::Descriptive
Exception::Class::TryCatch
Class::Inspector
CLI::Framework::Exceptions
SEE ALSO¶
CLI::Framework
CLI::Framework::Application
CLI::Framework::Tutorial
LICENSE AND COPYRIGHT¶
Copyright (c) 2009 Karl Erisman (kerisman@cpan.org). All rights reserved.
This is free software; you can redistribute it and/or modify it under the same
terms as Perl itself. See perlartistic.
AUTHOR¶
Karl Erisman (kerisman@cpan.org)