NAME
Cheat::Sheet::Util - Cheat sheet for utility modules
VERSION
This document describes Cheat::Sheet::Util version 0.0.5
SYNOPSIS
$ vim Cheat/Sheet::Util.perl
:syn onDESCRIPTION
I only had a high school education and believe me, I had to cheat to get that. --Sparky Anderson
This is a collection of "cheat sheets": highly compressed, abbreviated documentation for various modules. Each module within the bundle covers a top-level namespace or a set of otherwise closely-related modules.
For each module, a paragraph is given, generally:
Some::Module # Short description
qw( various exportable symbols if any );
routine( $placeholder, @arguments );
$context = function( @arguments);
$object->method();You should be able to copy and paste this into your own code, delete what you don't need, and be on your way.
CHEATS
Scalar::Util
use Scalar::Util; # General-utility scalar subroutines
use Scalar::Util qw(
weaken isweak reftype refaddr blessed isvstring readonly tainted
dualvar looks_like_number openhandle set_prototype
);
weaken $ref; # $ref will not keep @$ref, %$ref, etc. from GC
# note: copies of weak refs are not weak
$bool = isweak $ref; # true if $ref is a weak reference
$type = reftype $ref; # 'SCALAR', 'ARRAY', 'HASH', or undef
$addr = refaddr $ref; # machine address of $ref or undef
$got = blessed $ref; # class of blessed ref or undef
$bool = isvstring $s; # true if $s is a v-string
$bool = readonly $s; # true if $s is a readonly scalar
$bool = tainted $s; # true if $s is tainted
$got = dualvar $num, $string; # $got is $num or $string in context
$bool = looks_like_number $n; # true if $n can be a number
$fh = openhandle $t_fh; # $h if $t_fh is a tied or open filehandle
set_prototype $cref, $proto; # sets prototype of &$cref to $proto
## Scalar::UtilList::Util
use List::Util; # General-utility list subroutines
use List::Util qw( max maxstr min minstr first reduce shuffle sum );
$got = max @a; # returns item > than all the rest
$got = maxstr @a; # returns item gt than all the rest
$got = min @a; # returns item < than all the rest
$got = minstr @a; # returns item lt than all the rest
$got = first {$_} @a; # ~grep but returns only first true item
$got = reduce { $bool?$a:$b } @a; # returns one item; last man standing
$got = sum @a; # sum of all elements
@gots = shuffle @a; # pseudo-randomizes order of @a
# "The following are additions that have been requested..."
sub any { $_ && return 1 for @_; 0 }; # One argument is true
sub all { $_ || return 0 for @_; 1 }; # All arguments are true
sub none { $_ && return 0 for @_; 1 }; # All arguments are false
sub notall { $_ || return 1 for @_; 0 }; # One argument is false
sub true { scalar grep { $_ } @_ }; # How many elements are true
sub false { scalar grep { !$_ } @_ }; # How many elements are false
## List::UtilList::MoreUtils
use List::MoreUtils ':all'; # The stuff missing in List::Util
use List::MoreUtils qw(
any all none notall true false firstidx first_index
lastidx last_index insert_after insert_after_string
apply after after_incl before before_incl indexes
firstval first_value lastval last_value each_array
each_arrayref pairwise natatime mesh zip uniq minmax
);
# These operators take a block (~grep), setting $_ to each item in @a
# Your block should test $_ and return a $bool
$bool = any {$_} @a; # true if any test is true ( $A || $B )
$bool = all {$_} @a; # true if all tests are true ( $A && $B )
$bool = none {$_} @a; # true if all tests are false ( !$A && !$B )
$bool = notall {$_} @a; # true if any test is false ( !$A || !$B )
# # # # # # De Morgan's Laws: # # # # # # # #
# ( !$A && !$B ) == !( $A || $B ) and ( !$A || !$B ) == !( $A && $B )
# ( $A && $B ) == !( !$A || !$B ) and ( $A || $B ) == !( !$A && !$B )
$count = true {$_} @a; # how many true tests
$count = false {$_} @a; # how many false tests
$got = firstidx{$_} @a; # first item with true test
$got = first_index # ditto; alias firstidx
$got = lastidx {$_} @a; # last item with true test
$got = last_index # ditto; alias lastidx
$got = insert_after {$_} $v => @a; # put $v in @a after first true test
$got = insert_after_string $s, $v => @a; # insert after first item eq $s
@gots = apply {$_} @a; # ~ map but doesn't modify @a
@gots = after {$_} @a; # ( c ) ~~ after {/b/} (a, b, c)
@gots = after_incl {$_} @a; # ( b, c ) ~~ after_incl {/b/} (a, b, c)
@gots = before {$_} @a; # ( a ) ~~ before {/b/} (a, b, c)
@gots = before_incl {$_} @a; # ( a, b ) ~~ before_incl {/b/} (a, b, c)
@gots = indexes {$_} @a; # ( 1 ) ~~ indexes {/b/} (a, b, c)
$got = firstval {$_} @a; # ~List::Util::first() but -1 on fail
$got = first_value # ditto; alias firstval
$got = lastval {$_} @a; # last item testing true
$got = last_value # ditto; alias lastval
$cref = each_array @a, @b, @c; # creates an n-tuplewise iterator closure
while ( my ($A, $B, $C) = $cref->() ) { # returns empty list
# Your code here # when all lists exhausted
};
$cref = each_arrayref @a, @b, @c; # iterator returns refs to arg lists
$cref = natatime $n, @a; # creates $n-at-a-time iterator from one list
@gots = pairwise {$_} @a, @b; # ~map over two arrays
@gots = mesh @a, @b, @c; # ( $a[0], $b[0], $c[0], $a[1], $b[1], $c[1] )
@gots = zip @a, @b, @c; # ditto; alias mesh
@gots = uniq @a; # returns *only* unique elements
( $min, $max ) = minmax @a; # ~( List::Util::min(@a), ::max(@a) )
@refs = part { $p = f($_) } @a; # partitions @a into multiple lists
# you return integer $p as index of @refs; @refs is a list of arrayrefs
## List::MoreUtilsList::AllUtils
use List::AllUtils qw( :all ); # Everything from List::Util, List::MoreUtilsList::Compare
use List::Compare; # Compare elements of two or more lists
# This object-oriented module is highly orthogonal,
# so that nearly any selection or choice may be combined with any other.
# Most methods are equally okay for ( just two ) or ( three or more ) lists;
# some will Carp if called inappropriately.
# === Options/Modes ===
# Regular: (default) Two lists, sorted results, many method calls ok
# Unsorted: Don't sort method results ( faster )
# Accelerated: Only one method call possible per $lc ( faster )
# Multiple: Three or more lists in constructor
# ! (specify $ix to refer to a given list; default 0; omit for only two lists)
# Seen-hash: Use hashrefs instead of arrayrefs:
# [ 11, 12, 14, 14, 14, 15 ] ~~ { 11 => 1, 12 => 1, 14 => 3, 15 => 1 }
#
# Construct a work-object
my $lc = List::Compare->new( \@a, \@b, @c ); # default
my $lc = List::Compare->new( '-u', \@a, \@b, @c ); # unsorted
my $lc = List::Compare->new( '-a', \@a, \@b, @c ); # accelerated
my $lc = List::Compare->new( '-u', '-a', \@a, \@b, @c ); #! -u before -a
# Wrap constructor arguments in a hashref
my $lc = List::Compare->new({
unsorted => 1,
accelerated => 1,
lists => [ \@a, \@b, @c ],
});
# Methods return lists of results
@gots = $lc->get_intersection; # found in each/both list(s)
@gots = $lc->get_union; # found in any/either list
@gots = $lc->get_bag; # ~get_union but also duplicates
@gots = $lc->get_unique($ix); # found only in list $ix
@gots = $lc->get_complement($ix); # not found in $ix, but elsewhere
@gots = $lc->get_symmetric_difference; # found in only one list
$gots = $lc->get_intersection_ref; # ~methods above but
$gots = $lc->get_union_ref; # returns \@gots
$gots = $lc->get_bag_ref; # "
$gots = $lc->get_unique_ref($ix); # "
$gots = $lc->get_complement_ref($ix); # "
$gots = $lc->get_symmetric_difference_ref; # "
# Methods return boolean truth # ( $ixL, $ixR ) default to ( 0, 1 )
$bool = $lc->is_LsubsetR( $ixL, $ixR ); # true if all L in R
$bool = $lc->is_RsubsetL( $ixL, $ixR ); # true if all R in L
$bool = $lc->is_LequivalentR( $ixL, $ixR ); # true if same items in L, R
$bool = $lc->is_LdisjointR( $ixL, $ixR ); # true if no items in common
# Methods return list of which lists ($ix) satisfying conditions
@ixs = $lc->is_member_which($string); # some item in $ix eq $string
@ixs = $lc->are_members_which(\@strings); # ~prev but eq any in @strings
# Dump
$lc->print_subset_chart; # pretty-print tables showing some
$lc->print_equivalence_chart; # relationships; row/col as $ix
# List::CompareHash::Util
use Hash::Util; # Hash locking, key locking, value locking
use Hash::Util qw(
lock_keys lock_keys_plus unlock_keys
lock_value unlock_value
lock_hash unlock_hash lock_hash_recurse unlock_hash_recurse
hash_locked hidden_keys legal_keys all_keys
);
# Restrict %hash to a set of keys; can delete but can't add other keys
\%hash = lock_keys ( %hash ); # current keys %hash
\%hash = lock_keys ( %hash, @keys ); # @keys; subset of keys @hash
\%hash = lock_keys_plus( %hash, @keys ); # superset
\%hash = unlock_keys ( %hash ); # remove restrictions
# Cannot alter value of $key but can delete the k/v pair
\%hash = lock_value ( %hash, $key );
\%hash = unlock_value ( %hash, $key );
# Lock the whole %hash; can't add, delete, or change value at all
\%hash = lock_hash ( %hash );
\%hash = unlock_hash ( %hash );
\%hash = lock_hash_recurse ( %hash ); # HoHoH... only
\%hash = unlock_hash_recurse ( %hash ); # ditto
# Other functions...
$bool = hash_unlocked ( %hash ); # true if %hash is unlocked
@keys = legal_keys ( %hash ); # list of keys allowed
@keys = hidden_keys ( %hash ); # see docs; experimental feature
\%hash = all_keys( %hash, @keys, @hidden ); # experimental feature
# Just like Daddy but take hashref arguments
\%hash = lock_ref_keys ( \%hash );
\%hash = lock_ref_keys ( \%hash, @keys );
\%hash = lock_ref_keys_plus ( \%hash, @keys );
\%hash = unlock_ref_keys ( \%hash );
\%hash = lock_ref_value ( \%hash, $key );
\%hash = unlock_ref_value ( \%hash, $key );
\%hash = lock_hashref ( \%hash );
\%hash = unlock_hashref ( \%hash );
\%hash = lock_hashref_recurse ( \%hash );
\%hash = unlock_hashref_recurse ( \%hash );
$bool = hash_ref_unlocked ( \%hash );
@keys = legal_ref_keys ( \%hash );
@keys = hidden_ref_keys ( \%hash );
## Hash::UtilSEE ALSO
FUNCTIONS/METHODS
None. This module contains only POD. Don't try to load it.
INTERFACE
Open the cheat (the *.perl file) in your editor. Copy out whatever you like.
If you look at the *.pod file, you'll see POD verbatim paragraphs. Your choice.
You can also get the same content in your pager with:
perldoc Cheat::Sheet::UtilBUGS AND LIMITATIONS
No cheat sheet will teach you anything. It's only a reminder. You must consult each module's own full documentation at least before using it. I hope.
This module does not contain magic to squirt code into your module. Copy and paste.
No boilerplate code will work right away. Edit it to your needs.
THANKS
To about 8500 authors who have uploaded about 85,000 modules to the CPAN.
AUTHOR
Xiong Changnian <xiong@cpan.org>
LICENSE
Copyright (C) 2010 Xiong Changnian <xiong@cpan.org>
This library and its contents are released under Artistic License 2.0: