Provided by: libapp-info-perl_0.57-2_all 
NAME
App::Info - Information about software packages on a system
SYNOPSIS
use App::Info::Category::FooApp;
my $app = App::Info::Category::FooApp->new;
if ($app->installed) {
print "App name: ", $app->name, "\n";
print "Version: ", $app->version, "\n";
print "Bin dir: ", $app->bin_dir, "\n";
} else {
print "App not installed on your system. :-(\n";
}
DESCRIPTION
App::Info is an abstract base class designed to provide a generalized interface for
subclasses that provide meta data about software packages installed on a system. The idea
is that these classes can be used in Perl application installers in order to determine
whether software dependencies have been fulfilled, and to get necessary meta data about
those software packages.
App::Info provides an event model for handling events triggered by App::Info subclasses.
The events are classified as "info", "error", "unknown", and "confirm" events, and
multiple handlers may be specified to handle any or all of these event types. This allows
App::Info clients to flexibly handle events in any way they deem necessary. Implementing
new event handlers is straight-forward, and use the triggering of events by App::Info
subclasses is likewise kept easy-to-use.
A few sample subclasses are provided with the distribution, but others are invited to
write their own subclasses and contribute them to the CPAN. Contributors are welcome to
extend their subclasses to provide more information relevant to the application for which
data is to be provided (see App::Info::HTTPD::Apache for an example), but are encouraged
to, at a minimum, implement the abstract methods defined here and in the category abstract
base classes (e.g., App::Info::HTTPD and App::Info::Lib). See Subclassing for more
information on implementing new subclasses.
INTERFACE
This section documents the public interface of App::Info.
Constructor
new
my $app = App::Info::Category::FooApp->new(@params);
Constructs an App::Info object and returns it. The @params arguments define attributes
that can be used to help the App::Info object search for application information on the
file system, as well as how the App::Info object will respond to certain events. The event
parameters correspond to their like-named methods. See the "Event Handler Object Methods"
section for more information on App::Info events and how to handle them. The search
parameters that can be passed to "new()" are:
search_exe_names
An array reference of possible names for binary executables. These may be used by
subclasses to search for application programs that can be used to retrieve application
information, such as version numbers. The subclasses generally provide reasonable
defaults for most cases.
search_bin_dirs
An array reference of local directories in which to search for executables. These may
be used to search for the value of the "bin_dir" attribute in addition to and in
preference to the defaults used by each subclass.
search_lib_names
An array reference of possible names for library files. These may be used by
subclasses to search for library files for the application. The subclasses generally
provide reasonable defaults for most cases.
search_so_lib_names
An array reference of possible names for shared object library files. These may be
used by subclasses to search for shared object library files for the application. The
subclasses generally provide reasonable defaults for most cases.
search_lib_dirs
An array reference of local directories in which to search for libraries. These may
be used to search for the value of the "lib_dir" and "so_lib_dir" attributes in
addition to and in preference to the defaults used by each subclass.
search_inc_names
An array reference of possible names for include files. These may be used by
subclasses to search for include files for the application. The subclasses generally
provide reasonable defaults for most cases.
search_inc_dirs
An array reference of local directories in which to search for include files. These
may be used to search for the value of the "inc_dir" attribute in addition to and in
preference to the defaults used by each subclass.
The parameters to "new()" for the different types of App::Info events are:
on_info
on_error
on_unknown
on_confirm
When passing event handlers to "new()", the list of handlers for each type should be an
anonymous array, for example:
my $app = App::Info::Category::FooApp->new( on_info => \@handlers );
Meta Data Object Methods
These are abstract methods in App::Info and must be provided by its subclasses. They
provide the essential meta data of the software package supported by the App::Info
subclass.
key_name
my $key_name = $app->key_name;
Returns a string that uniquely identifies the software for which the App::Info subclass
provides data. This value should be unique across all App::Info classes. Typically, it's
simply the name of the software.
installed
if ($app->installed) {
print "App is installed.\n"
} else {
print "App is not installed.\n"
}
Returns a true value if the application is installed, and a false value if it is not.
name
my $name = $app->name;
Returns the name of the application.
version
my $version = $app->version;
Returns the full version number of the application.
major_version
my $major_version = $app->major_version;
Returns the major version number of the application. For example, if "version()" returns
"7.1.2", then this method returns "7".
minor_version
my $minor_version = $app->minor_version;
Returns the minor version number of the application. For example, if "version()" returns
"7.1.2", then this method returns "1".
patch_version
my $patch_version = $app->patch_version;
Returns the patch version number of the application. For example, if "version()" returns
"7.1.2", then this method returns "2".
bin_dir
my $bin_dir = $app->bin_dir;
Returns the full path the application's bin directory, if it exists.
executable
my $executable = $app->executable;
Returns the full path the application's bin directory, if it exists.
inc_dir
my $inc_dir = $app->inc_dir;
Returns the full path the application's include directory, if it exists.
lib_dir
my $lib_dir = $app->lib_dir;
Returns the full path the application's lib directory, if it exists.
so_lib_dir
my $so_lib_dir = $app->so_lib_dir;
Returns the full path the application's shared library directory, if it exists.
home_url
my $home_url = $app->home_url;
The URL for the software's home page.
download_url
my $download_url = $app->download_url;
The URL for the software's download page.
Search Attributes
These methods return lists of things to look for on the local file system when searching
for application programs, library files, and include files. They are empty by default,
since each subclass generally relies on its own settings, but you can add your own as
preferred search parameters by specifying them as parameters to the "new()" constructor.
exe_names
my @search_exe_names = $app->search_exe_names;
Returns a list of possible names for an executable. Typically used by the "new()"
constructor to search for an executable to execute and collect application info.
search_bin_dirs
my @search_bin_dirs = $app->search_bin_dirs;
Returns a list of possible directories in which to search an executable. Typically used
by the "new()" constructor to find an executable to execute and collect application info.
The found directory will also generally then be returned by the "bin_dir" method.
lib_names
my @search_lib_names = $app->search_lib_names;
Returns a list of possible names for library files. Typically used by the "lib_dir()"
method to find library files.
so_lib_names
my @search_so_lib_names = $app->search_so_lib_names;
Returns a list of possible names for library files. Typically used by the "so_lib_dir()"
method to find shared object library files.
search_lib_dirs
my @search_lib_dirs = $app->search_lib_dirs;
Returns a list of possible directories in which to search for libraries. Typically used
by the "lib_dir()" and "so_lib_dir()" methods to find library files.
inc_names
my @search_inc_names = $app->search_inc_names;
Returns a list of possible names for include files. Typically used by the "inc_dir()"
method to find include files.
search_inc_dirs
my @search_inc_dirs = $app->search_inc_dirs;
Returns a list of possible directories in which to search for includes. Typically used by
the "inc_dir()" method to find include files.
Event Handler Object Methods
These methods provide control over App::Info event handling. Events can be handled by one
or more objects of subclasses of App::Info::Handler. The first to return a true value will
be the last to execute. This approach allows handlers to be stacked, and makes it
relatively easy to create new handlers. App::Info::Handler for information on writing
event handlers.
Each of the event handler methods takes a list of event handlers as its arguments. If none
are passed, the existing list of handlers for the relevant event type will be returned. If
new handlers are passed in, they will be returned.
The event handlers may be specified as one or more objects of the App::Info::Handler class
or subclasses, as one or more strings that tell App::Info construct such handlers itself,
or a combination of the two. The strings can only be used if the relevant
App::Info::Handler subclasses have registered strings with App::Info. For example, the
App::Info::Handler::Print class included in the App::Info distribution registers the
strings "stderr" and "stdout" when it starts up. These strings may then be used to tell
App::Info to construct App::Info::Handler::Print objects that print to STDERR or to
STDOUT, respectively. See the App::Info::Handler subclasses for what strings they register
with App::Info.
on_info
my @handlers = $app->on_info;
$app->on_info(@handlers);
Info events are triggered when the App::Info subclass wants to send an informational
status message. By default, these events are ignored, but a common need is for such
messages to simply print to STDOUT. Use the App::Info::Handler::Print class included with
the App::Info distribution to have info messages print to STDOUT:
use App::Info::Handler::Print;
$app->on_info('stdout');
# Or:
my $stdout_handler = App::Info::Handler::Print->new('stdout');
$app->on_info($stdout_handler);
on_error
my @handlers = $app->on_error;
$app->on_error(@handlers);
Error events are triggered when the App::Info subclass runs into an unexpected but not
fatal problem. (Note that fatal problems will likely throw an exception.) By default,
these events are ignored. A common way of handling these events is to print them to
STDERR, once again using the App::Info::Handler::Print class included with the App::Info
distribution:
use App::Info::Handler::Print;
my $app->on_error('stderr');
# Or:
my $stderr_handler = App::Info::Handler::Print->new('stderr');
$app->on_error($stderr_handler);
Another approach might be to turn such events into fatal exceptions. Use the included
App::Info::Handler::Carp class for this purpose:
use App::Info::Handler::Carp;
my $app->on_error('croak');
# Or:
my $croaker = App::Info::Handler::Carp->new('croak');
$app->on_error($croaker);
on_unknown
my @handlers = $app->on_unknown;
$app->on_uknown(@handlers);
Unknown events are triggered when the App::Info subclass cannot find the value to be
returned by a method call. By default, these events are ignored. A common way of handling
them is to have the application prompt the user for the relevant data. The
App::Info::Handler::Prompt class included with the App::Info distribution can do just
that:
use App::Info::Handler::Prompt;
my $app->on_unknown('prompt');
# Or:
my $prompter = App::Info::Handler::Prompt;
$app->on_unknown($prompter);
See App::Info::Handler::Prompt for information on how it works.
on_confirm
my @handlers = $app->on_confirm;
$app->on_confirm(@handlers);
Confirm events are triggered when the App::Info subclass has found an important piece of
information (such as the location of the executable it'll use to collect information for
the rest of its methods) and wants to confirm that the information is correct. These
events will most often be triggered during the App::Info subclass object construction.
Here, too, the App::Info::Handler::Prompt class included with the App::Info distribution
can help out:
use App::Info::Handler::Prompt;
my $app->on_confirm('prompt');
# Or:
my $prompter = App::Info::Handler::Prompt;
$app->on_confirm($prompter);
SUBCLASSING
As an abstract base class, App::Info is not intended to be used directly. Instead, you'll
use concrete subclasses that implement the interface it defines. These subclasses each
provide the meta data necessary for a given software package, via the interface outlined
above (plus any additional methods the class author deems sensible for a given
application).
This section describes the facilities App::Info provides for subclassing. The goal of the
App::Info design has been to make subclassing straight-forward, so that developers can
focus on gathering the data they need for their application and minimize the work
necessary to handle unknown values or to confirm values. As a result, there are
essentially three concepts that developers need to understand when subclassing App::Info:
organization, utility methods, and events.
Organization
The organizational idea behind App::Info is to name subclasses by broad software
categories. This approach allows the categories themselves to function as abstract base
classes that extend App::Info, so that they can specify more methods for all of their base
classes to implement. For example, App::Info::HTTPD has specified the "httpd_root()"
abstract method that its subclasses must implement. So as you get ready to implement your
own subclass, think about what category of software you're gathering information about.
New categories can be added as necessary.
Utility Methods
Once you've decided on the proper category, you can start implementing your App::Info
concrete subclass. As you do so, take advantage of App::Info::Util, wherein I've tried to
encapsulate common functionality to make subclassing easier. I found that most of what I
was doing repetitively was looking for files and directories, and searching through files.
Thus, App::Info::Util subclasses File::Spec in order to offer easy access to commonly-used
methods from that class, e.g., "path()". Plus, it has several of its own methods to assist
you in finding files and directories in lists of files and directories, as well as methods
for searching through files and returning the values found in those files. See
App::Info::Util for more information, and the App::Info subclasses in this distribution
for usage examples.
I recommend the use of a package-scoped lexical App::Info::Util object. That way it's nice
and handy when you need to carry out common tasks. If you find you're doing something over
and over that's not already addressed by an App::Info::Util method, consider submitting a
patch to App::Info::Util to add the functionality you need.
Events
Use the methods described below to trigger events. Events are designed to provide a simple
way for App::Info subclass developers to send status messages and errors, to confirm data
values, and to request a value when the class cannot determine a value itself. Events may
optionally be handled by module users who assign App::Info::Handler subclass objects to
your App::Info subclass object using the event handling methods described in the "Event
Handler Object Methods" section.
info
$self->info(@message);
Use this method to display status messages for the user. You may wish to use it to inform
users that you're searching for a particular file, or attempting to parse a file or some
other resource for the data you need. For example, a common use might be in the object
constructor: generally, when an App::Info object is created, some important initial piece
of information is being sought, such as an executable file. That file may be in one of
many locations, so it makes sense to let the user know that you're looking for it:
$self->info("Searching for executable");
Note that, due to the nature of App::Info event handlers, your informational message may
be used or displayed any number of ways, or indeed not at all (as is the default
behavior).
The @message will be joined into a single string and stored in the "message" attribute of
the App::Info::Request object passed to info event handlers.
error
$self->error(@error);
Use this method to inform the user that something unexpected has happened. An example
might be when you invoke another program to parse its output, but it's output isn't what
you expected:
$self->error("Unable to parse version from `/bin/myapp -c`");
As with all events, keep in mind that error events may be handled in any number of ways,
or not at all.
The @erorr will be joined into a single string and stored in the "message" attribute of
the App::Info::Request object passed to error event handlers. If that seems confusing,
think of it as an "error message" rather than an "error error." :-)
unknown
my $val = $self->unknown(@params);
Use this method when a value is unknown. This will give the user the option -- assuming
the appropriate handler handles the event -- to provide the needed data. The value entered
will be returned by "unknown()". The parameters are as follows:
key The "key" parameter uniquely identifies the data point in your class, and is used by
App::Info to ensure that an unknown event is handled only once, no matter how many
times the method is called. The same value will be returned by subsequent calls to
"unknown()" as was returned by the first call, and no handlers will be activated.
Typical values are "version" and "lib_dir".
prompt
The "prompt" parameter is the prompt to be displayed should an event handler decide to
prompt for the appropriate value. Such a prompt might be something like "Path to your
httpd executable?". If this parameter is not provided, App::Info will construct one
for you using your class' "key_name()" method and the "key" parameter. The result
would be something like "Enter a valid FooApp version". The "prompt" parameter value
will be stored in the "message" attribute of the App::Info::Request object passed to
event handlers.
callback
Assuming a handler has collected a value for your unknown data point, it might make
sense to validate the value. For example, if you prompt the user for a directory
location, and the user enters one, it makes sense to ensure that the directory
actually exists. The "callback" parameter allows you to do this. It is a code
reference that takes the new value or values as its arguments, and returns true if the
value is valid, and false if it is not. For the sake of convenience, the first
argument to the callback code reference is also stored in $_ .This makes it easy to
validate using functions or operators that, er, operate on $_ by default, but still
allows you to get more information from @_ if necessary. For the directory example, a
good callback might be "sub { -d }". The "callback" parameter code reference will be
stored in the "callback" attribute of the App::Info::Request object passed to event
handlers.
error
The error parameter is the error message to display in the event that the "callback"
code reference returns false. This message may then be used by the event handler to
let the user know what went wrong with the data she entered. For example, if the
unknown value was a directory, and the user entered a value that the "callback"
identified as invalid, a message to display might be something like "Invalid directory
path". Note that if the "error" parameter is not provided, App::Info will supply the
generic error message "Invalid value". This value will be stored in the "error"
attribute of the App::Info::Request object passed to event handlers.
This may be the event method you use most, as it should be called in every meta data
method if you cannot provide the data needed by that method. It will typically be the last
part of the method. Here's an example demonstrating each of the above arguments:
my $dir = $self->unknown( key => 'lib_dir',
prompt => "Enter lib directory path",
callback => sub { -d },
error => "Not a directory");
confirm
my $val = $self->confirm(@params);
This method is very similar to "unknown()", but serves a different purpose. Use this
method for significant data points where you've found an appropriate value, but want to
ensure it's really the correct value. A "significant data point" is usually a value
essential for your class to collect meta data values. For example, you might need to
locate an executable that you can then call to collect other data. In general, this will
only happen once for an object -- during object construction -- but there may be cases in
which it is needed more than that. But hopefully, once you've confirmed in the constructor
that you've found what you need, you can use that information to collect the data needed
by all of the meta data methods and can assume that they'll be right because that first,
significant data point has been confirmed.
Other than where and how often to call "confirm()", its use is quite similar to that of
"unknown()". Its parameters are as follows:
key Same as for "unknown()", a string that uniquely identifies the data point in your
class, and ensures that the event is handled only once for a given key. The same
value will be returned by subsequent calls to "confirm()" as was returned by the first
call for a given key.
prompt
Same as for "unknown()". Although "confirm()" is called to confirm a value, typically
the prompt should request the relevant value, just as for "unknown()". The difference
is that the handler should use the "value" parameter as the default should the user
not provide a value. The "prompt" parameter will be stored in the "message" attribute
of the App::Info::Request object passed to event handlers.
value
The value to be confirmed. This is the value you've found, and it will be provided to
the user as the default option when they're prompted for a new value. This value will
be stored in the "value" attribute of the App::Info::Request object passed to event
handlers.
callback
Same as for "unknown()". Because the user can enter data to replace the default value
provided via the "value" parameter, you might want to validate it. Use this code
reference to do so. The callback will be stored in the "callback" attribute of the
App::Info::Request object passed to event handlers.
error
Same as for "unknown()": an error message to display in the event that a value entered
by the user isn't validated by the "callback" code reference. This value will be
stored in the "error" attribute of the App::Info::Request object passed to event
handlers.
Here's an example usage demonstrating all of the above arguments:
my $exe = $self->confirm( key => 'shell',
prompt => 'Path to your shell?',
value => '/bin/sh',
callback => sub { -x },
error => 'Not an executable');
Event Examples
Below I provide some examples demonstrating the use of the event methods. These are meant
to emphasize the contexts in which it's appropriate to use them.
Let's start with the simplest, first. Let's say that to find the version number for an
application, you need to search a file for the relevant data. Your App::Info concrete
subclass might have a private method that handles this work, and this method is the
appropriate place to use the "info()" and, if necessary, "error()" methods.
sub _find_version {
my $self = shift;
# Try to find the revelant file. We cover this method below.
# Just return if we cant' find it.
my $file = $self->_find_file('version.conf') or return;
# Send a status message.
$self->info("Searching '$file' file for version");
# Search the file. $util is an App::Info::Util object.
my $ver = $util->search_file($file, qr/^Version\s+(.*)$/);
# Trigger an error message, if necessary. We really think we'll have the
# value, but we have to cover our butts in the unlikely event that we're
# wrong.
$self->error("Unable to find version in file '$file'") unless $ver;
# Return the version number.
return $ver;
}
Here we've used the "info()" method to display a status message to let the user know what
we're doing. Then we used the "error()" method when something unexpected happened, which
in this case was that we weren't able to find the version number in the file.
Note the "_find_file()" method we've thrown in. This might be a method that we call
whenever we need to find a file that might be in one of a list of directories. This
method, too, will be an appropriate place for an "info()" method call. But rather than
call the "error()" method when the file can't be found, you might want to give an event
handler a chance to supply that value for you. Use the "unknown()" method for a case such
as this:
sub _find_file {
my ($self, $file) = @_;
# Send a status message.
$self->info("Searching for '$file' file");
# Look for the file. See App::Info:Utility for its interface.
my @paths = qw(/usr/conf /etc/conf /foo/conf);
my $found = $util->first_cat_path($file, @paths);
# If we didn't find it, trigger an unknown event to
# give a handler a chance to get the value.
$found ||= $self->unknown( key => "file_$file",
prompt => "Location of '$file' file?",
callback => sub { -f },
error => "Not a file");
# Now return the file name, regardless of whether we found it or not.
return $found;
}
Note how in this method, we've tried to locate the file ourselves, but if we can't find
it, we trigger an unknown event. This allows clients of our App::Info subclass to try to
establish the value themselves by having an App::Info::Handler subclass handle the event.
If a value is found by an App::Info::Handler subclass, it will be returned by "unknown()"
and we can continue. But we can't assume that the unknown event will even be handled, and
thus must expect that an unknown value may remain unknown. This is why the
"_find_version()" method above simply returns if "_find_file()" doesn't return a file
name; there's no point in searching through a file that doesn't exist.
Attentive readers may be left to wonder how to decide when to use "error()" and when to
use "unknown()". To a large extent, this decision must be based on one's own understanding
of what's most appropriate. Nevertheless, I offer the following simple guidelines: Use
"error()" when you expect something to work and then it just doesn't (as when a file
exists and should contain the information you seek, but then doesn't). Use "unknown()"
when you're less sure of your processes for finding the value, and also for any of the
values that should be returned by any of the meta data object methods. And of course,
"error()" would be more appropriate when you encounter an unexpected condition and don't
think that it could be handled in any other way.
Now, more than likely, a method such "_find_version()" would be called by the "version()"
method, which is a meta data method mandated by the App::Info abstract base class. This is
an appropriate place to handle an unknown version value. Indeed, every one of your meta
data methods should make use of the "unknown()" method. The "version()" method then should
look something like this:
sub version {
my $self = shift;
unless (exists $self->{version}) {
# Try to find the version number.
$self->{version} = $self->_find_version ||
$self->unknown( key => 'version',
prompt => "Enter the version number");
}
# Now return the version number.
return $self->{version};
}
Note how this method only tries to find the version number once. Any subsequent calls to
"version()" will return the same value that was returned the first time it was called. Of
course, thanks to the "key" parameter in the call to "unknown()", we could have have tried
to enumerate the version number every time, as "unknown()" will return the same value
every time it is called (as, indeed, should "_find_version()". But by checking for the
"version" key in $self ourselves, we save some of the overhead.
But as I said before, every meta data method should make use of the "unknown()" method.
Thus, the "major()" method might looks something like this:
sub major {
my $self = shift;
unless (exists $self->{major}) {
# Try to get the major version from the full version number.
($self->{major}) = $self->version =~ /^(\d+)\./;
# Handle an unknown value.
$self->{major} = $self->unknown( key => 'major',
prompt => "Enter major version",
callback => sub { /^\d+$/ },
error => "Not a number")
unless defined $self->{major};
}
return $self->{version};
}
Finally, the "confirm()" method should be used to verify core pieces of data that
significant numbers of other methods rely on. Typically such data are executables or
configuration files from which will be drawn other meta data. Most often, such major data
points will be sought in the object constructor. Here's an example:
sub new {
# Construct the object so that handlers will work properly.
my $self = shift->SUPER::new(@_);
# Try to find the executable.
$self->info("Searching for executable");
if (my $exe = $util->first_exe('/bin/myapp', '/usr/bin/myapp')) {
# Confirm it.
$self->{exe} =
$self->confirm( key => 'binary',
prompt => 'Path to your executable?',
value => $exe,
callback => sub { -x },
error => 'Not an executable');
} else {
# Handle an unknown value.
$self->{exe} =
$self->unknown( key => 'binary',
prompt => 'Path to your executable?',
callback => sub { -x },
error => 'Not an executable');
}
# We're done.
return $self;
}
By now, most of what's going on here should be quite familiar. The use of the "confirm()"
method is quite similar to that of "unknown()". Really the only difference is that the
value is known, but we need verification or a new value supplied if the value we found
isn't correct. Such may be the case when multiple copies of the executable have been
installed on the system, we found /bin/myapp, but the user may really be interested in
/usr/bin/myapp. Thus the "confirm()" event gives the user the chance to change the value
if the confirm event is handled.
The final thing to note about this constructor is the first line:
my $self = shift->SUPER::new(@_);
The first thing an App::Info subclass should do is execute this line to allow the super
class to construct the object first. Doing so allows any event handling arguments to set
up the event handlers, so that when we call "confirm()" or "unknown()" the event will be
handled as the client expects.
If we needed our subclass constructor to take its own parameter argument, the approach is
to specify the same "key =" $arg> syntax as is used by App::Info's "new()" method. Say we
wanted to allow clients of our App::Info subclass to pass in a list of alternate
executable locations for us to search. Such an argument would most make sense as an array
reference. So we specify that the key be "alt_paths" and allow the user to construct an
object like this:
my $app = App::Info::Category::FooApp->new( alt_paths => \@paths );
This approach allows the super class constructor arguments to pass unmolested (as long as
we use unique keys!):
my $app = App::Info::Category::FooApp->new( on_error => \@handlers,
alt_paths => \@paths );
Then, to retrieve these paths inside our "new()" constructor, all we need do is access
them directly from the object:
my $self = shift->SUPER::new(@_);
my $alt_paths = $self->{alt_paths};
Subclassing Guidelines
To summarize, here are some guidelines for subclassing App::Info.
• Always subclass an App::Info category subclass. This will help to keep the App::Info
name space well-organized. New categories can be added as needed.
• When you create the "new()" constructor, always call "SUPER::new(@_)". This ensures
that the event handling methods methods defined by the App::Info base classes (e.g.,
"error()") will work properly.
• Use a package-scoped lexical App::Info::Util object to carry out common tasks. If you
find you're doing something over and over that's not already addressed by an
App::Info::Util method, and you think that others might find your solution useful,
consider submitting a patch to App::Info::Util to add the functionality you need. See
App::Info::Util for complete documentation of its interface.
• Use the "info()" event triggering method to send messages to users of your subclass.
• Use the "error()" event triggering method to alert users of unexpected conditions.
Fatal errors should still be fatal; use "Carp::croak()" to throw exceptions for fatal
errors.
• Use the "unknown()" event triggering method when a meta data or other important value
is unknown and you want to give any event handlers the chance to provide the data.
• Use the "confirm()" event triggering method when a core piece of data is known (such
as the location of an executable in the "new()" constructor) and you need to make sure
that you have the correct information.
• Be sure to implement all of the abstract methods defined by App::Info and by your
category abstract base class -- even if they don't do anything. Doing so ensures that
all App::Info subclasses share a common interface, and can, if necessary, be used
without regard to subclass. Any method not implemented but called on an object will
generate a fatal exception.
Otherwise, have fun! There are a lot of software packages for which relevant information
might be collected and aggregated into an App::Info concrete subclass (witness all of the
Automake macros in the world!), and folks who are knowledgeable about particular software
packages or categories of software are warmly invited to contribute. As more subclasses
are implemented, it will make sense, I think, to create separate distributions based on
category -- or even, when necessary, on a single software package. Broader categories can
then be aggregated in Bundle distributions.
But I get ahead of myself...
SUPPORT
This module is stored in an open GitHub repository <http://github.com/theory/app-info/>.
Feel free to fork and contribute!
Please file bug reports via GitHub Issues <http://github.com/theory/app-info/issues/> or
by sending mail to bug-App-Info@rt.cpan.org <mailto:bug-App-Info@rt.cpan.org>.
AUTHOR
David E. Wheeler <david@justatheory.com>
SEE ALSO
The following classes define a few software package categories in which App::Info
subclasses can be placed. Check them out for ideas on how to create new category
subclasses.
App::Info::HTTP
App::Info::RDBMS
App::Info::Lib
The following classes implement the App::Info interface for various software packages.
Check them out for examples of how to implement new App::Info concrete subclasses.
App::Info::HTTPD::Apache
App::Info::RDBMS::PostgreSQL
App::Info::Lib::Expat
App::Info::Lib::Iconv
App::Info::Util provides utility methods for App::Info subclasses.
App::Info::Handler defines an interface for event handlers to subclass. Consult its
documentation for information on creating custom event handlers.
The following classes implement the App::Info::Handler interface to offer some simple
event handling. Check them out for examples of how to implement new App::Info::Handler
subclasses.
App::Info::Handler::Print
App::Info::Handler::Carp
App::Info::Handler::Prompt
COPYRIGHT AND LICENSE
Copyright (c) 2002-2011, David E. Wheeler. Some Rights Reserved.
This module is free software; you can redistribute it and/or modify it under the same
terms as Perl itself.