+++ /dev/null
-package Switch;
-
-use strict;
-use vars qw($VERSION);
-use Carp;
-
-use if $] >= 5.011, 'deprecate';
-
-$VERSION = '2.16';
-
-
-# LOAD FILTERING MODULE...
-use Filter::Util::Call;
-
-sub __();
-
-# CATCH ATTEMPTS TO CALL case OUTSIDE THE SCOPE OF ANY switch
-
-$::_S_W_I_T_C_H = sub { croak "case/when statement not in switch/given block" };
-
-my $offset;
-my $fallthrough;
-my ($Perl5, $Perl6) = (0,0);
-
-sub import
-{
- $fallthrough = grep /\bfallthrough\b/, @_;
- $offset = (caller)[2]+1;
- filter_add({}) unless @_>1 && $_[1] eq 'noimport';
- my $pkg = caller;
- no strict 'refs';
- for ( qw( on_defined on_exists ) )
- {
- *{"${pkg}::$_"} = \&$_;
- }
- *{"${pkg}::__"} = \&__ if grep /__/, @_;
- $Perl6 = 1 if grep(/Perl\s*6/i, @_);
- $Perl5 = 1 if grep(/Perl\s*5/i, @_) || !grep(/Perl\s*6/i, @_);
- 1;
-}
-
-sub unimport
-{
- filter_del()
-}
-
-sub filter
-{
- my($self) = @_ ;
- local $Switch::file = (caller)[1];
-
- my $status = 1;
- $status = filter_read(1_000_000);
- return $status if $status<0;
- $_ = filter_blocks($_,$offset);
- $_ = "# line $offset\n" . $_ if $offset; undef $offset;
- return $status;
-}
-
-use Text::Balanced ':ALL';
-
-sub line
-{
- my ($pretext,$offset) = @_;
- ($pretext=~tr/\n/\n/)+($offset||0);
-}
-
-sub is_block
-{
- local $SIG{__WARN__}=sub{die$@};
- local $^W=1;
- my $ishash = defined eval 'my $hr='.$_[0];
- undef $@;
- return !$ishash;
-}
-
-my $pod_or_DATA = qr/ ^=[A-Za-z] .*? ^=cut (?![A-Za-z]) .*? $
- | ^__(DATA|END)__\n.*
- /smx;
-
-my $casecounter = 1;
-sub filter_blocks
-{
- my ($source, $line) = @_;
- return $source unless $Perl5 && $source =~ /case|switch/
- || $Perl6 && $source =~ /when|given|default/;
- pos $source = 0;
- my $text = "";
- component: while (pos $source < length $source)
- {
- if ($source =~ m/(\G\s*use\s+Switch\b)/gc)
- {
- $text .= q{use Switch 'noimport'};
- next component;
- }
- my @pos = Text::Balanced::_match_quotelike(\$source,qr/\s*/,1,0);
- if (defined $pos[0])
- {
- my $pre = substr($source,$pos[0],$pos[1]); # matched prefix
- my $iEol;
- if( substr($source,$pos[4],$pos[5]) eq '/' && # 1st delimiter
- substr($source,$pos[2],$pos[3]) eq '' && # no op like 'm'
- index( substr($source,$pos[16],$pos[17]), 'x' ) == -1 && # no //x
- ($iEol = index( $source, "\n", $pos[4] )) > 0 &&
- $iEol < $pos[8] ){ # embedded newlines
- # If this is a pattern, it isn't compatible with Switch. Backup past 1st '/'.
- pos( $source ) = $pos[6];
- $text .= $pre . substr($source,$pos[2],$pos[6]-$pos[2]);
- } else {
- $text .= $pre . substr($source,$pos[2],$pos[18]-$pos[2]);
- }
- next component;
- }
- if ($source =~ m/(\G\s*$pod_or_DATA)/gc) {
- $text .= $1;
- next component;
- }
- @pos = Text::Balanced::_match_variable(\$source,qr/\s*/);
- if (defined $pos[0])
- {
- $text .= " " if $pos[0] < $pos[2];
- $text .= substr($source,$pos[0],$pos[4]-$pos[0]);
- next component;
- }
-
- if ($Perl5 && $source =~ m/\G(\n*)(\s*)(switch)\b(?=\s*[(])/gc
- || $Perl6 && $source =~ m/\G(\n*)(\s*)(given)\b(?=\s*[(])/gc
- || $Perl6 && $source =~ m/\G(\n*)(\s*)(given)\b(.*)(?=\{)/gc)
- {
- my $keyword = $3;
- my $arg = $4;
- $text .= $1.$2.'S_W_I_T_C_H: while (1) ';
- unless ($arg) {
- @pos = Text::Balanced::_match_codeblock(\$source,qr/\s*/,qr/\(/,qr/\)/,qr/[[{(<]/,qr/[]})>]/,undef)
- or do {
- die "Bad $keyword statement (problem in the parentheses?) near $Switch::file line ", line(substr($source,0,pos $source),$line), "\n";
- };
- $arg = filter_blocks(substr($source,$pos[0],$pos[4]-$pos[0]),line(substr($source,0,$pos[0]),$line));
- }
- $arg =~ s {^\s*[(]\s*%} { ( \\\%} ||
- $arg =~ s {^\s*[(]\s*m\b} { ( qr} ||
- $arg =~ s {^\s*[(]\s*/} { ( qr/} ||
- $arg =~ s {^\s*[(]\s*qw} { ( \\qw};
- @pos = Text::Balanced::_match_codeblock(\$source,qr/\s*/,qr/\{/,qr/\}/,qr/\{/,qr/\}/,undef)
- or do {
- die "Bad $keyword statement (problem in the code block?) near $Switch::file line ", line(substr($source,0, pos $source), $line), "\n";
- };
- my $code = filter_blocks(substr($source,$pos[0],$pos[4]-$pos[0]),line(substr($source,0,$pos[0]),$line));
- $code =~ s/{/{ local \$::_S_W_I_T_C_H; Switch::switch $arg;/;
- $text .= $code . 'continue {last}';
- next component;
- }
- elsif ($Perl5 && $source =~ m/\G(\s*)(case\b)(?!\s*=>)/gc
- || $Perl6 && $source =~ m/\G(\s*)(when\b)(?!\s*=>)/gc
- || $Perl6 && $source =~ m/\G(\s*)(default\b)(?=\s*\{)/gc)
- {
- my $keyword = $2;
- $text .= $1 . ($keyword eq "default"
- ? "if (1)"
- : "if (Switch::case");
-
- if ($keyword eq "default") {
- # Nothing to do
- }
- elsif (@pos = Text::Balanced::_match_codeblock(\$source,qr/\s*/,qr/\{/,qr/\}/,qr/\{/,qr/\}/,undef)) {
- my $code = substr($source,$pos[0],$pos[4]-$pos[0]);
- $text .= " " if $pos[0] < $pos[2];
- $text .= "sub " if is_block $code;
- $text .= filter_blocks($code,line(substr($source,0,$pos[0]),$line)) . ")";
- }
- elsif (@pos = Text::Balanced::_match_codeblock(\$source,qr/\s*/,qr/[[(]/,qr/[])]/,qr/[[({]/,qr/[])}]/,undef)) {
- my $code = filter_blocks(substr($source,$pos[0],$pos[4]-$pos[0]),line(substr($source,0,$pos[0]),$line));
- $code =~ s {^\s*[(]\s*%} { ( \\\%} ||
- $code =~ s {^\s*[(]\s*m\b} { ( qr} ||
- $code =~ s {^\s*[(]\s*/} { ( qr/} ||
- $code =~ s {^\s*[(]\s*qw} { ( \\qw};
- $text .= " " if $pos[0] < $pos[2];
- $text .= "$code)";
- }
- elsif ($Perl6 && do{@pos = Text::Balanced::_match_variable(\$source,qr/\s*/)}) {
- my $code = filter_blocks(substr($source,$pos[0],$pos[4]-$pos[0]),line(substr($source,0,$pos[0]),$line));
- $code =~ s {^\s*%} { \%} ||
- $code =~ s {^\s*@} { \@};
- $text .= " " if $pos[0] < $pos[2];
- $text .= "$code)";
- }
- elsif ( @pos = Text::Balanced::_match_quotelike(\$source,qr/\s*/,1,0)) {
- my $code = substr($source,$pos[2],$pos[18]-$pos[2]);
- $code = filter_blocks($code,line(substr($source,0,$pos[2]),$line));
- $code =~ s {^\s*m} { qr} ||
- $code =~ s {^\s*/} { qr/} ||
- $code =~ s {^\s*qw} { \\qw};
- $text .= " " if $pos[0] < $pos[2];
- $text .= "$code)";
- }
- elsif ($Perl5 && $source =~ m/\G\s*(([^\$\@{])[^\$\@{]*)(?=\s*{)/gc
- || $Perl6 && $source =~ m/\G\s*([^;{]*)()/gc) {
- my $code = filter_blocks($1,line(substr($source,0,pos $source),$line));
- $text .= ' \\' if $2 eq '%';
- $text .= " $code)";
- }
- else {
- die "Bad $keyword statement (invalid $keyword value?) near $Switch::file line ", line(substr($source,0,pos $source), $line), "\n";
- }
-
- die "Missing opening brace or semi-colon after 'when' value near $Switch::file line ", line(substr($source,0,pos $source), $line), "\n"
- unless !$Perl6 || $source =~ m/\G(\s*)(?=;|\{)/gc;
-
- do{@pos = Text::Balanced::_match_codeblock(\$source,qr/\s*/,qr/\{/,qr/\}/,qr/\{/,qr/\}/,undef)}
- or do {
- if ($source =~ m/\G\s*(?=([};]|\Z))/gc) {
- $casecounter++;
- next component;
- }
- die "Bad $keyword statement (problem in the code block?) near $Switch::file line ", line(substr($source,0,pos $source),$line), "\n";
- };
- my $code = filter_blocks(substr($source,$pos[0],$pos[4]-$pos[0]),line(substr($source,0,$pos[0]),$line));
- $code =~ s/}(?=\s*\Z)/;last S_W_I_T_C_H }/
- unless $fallthrough;
- $text .= "{ while (1) $code continue { goto C_A_S_E_$casecounter } last S_W_I_T_C_H; C_A_S_E_$casecounter: }";
- $casecounter++;
- next component;
- }
-
- $source =~ m/\G(\s*(-[sm]\s+|\w+|#.*\n|\W))/gc;
- $text .= $1;
- }
- $text;
-}
-
-
-
-sub in
-{
- my ($x,$y) = @_;
- my @numy;
- for my $nextx ( @$x )
- {
- my $numx = ref($nextx) || defined $nextx && (~$nextx&$nextx) eq 0;
- for my $j ( 0..$#$y )
- {
- my $nexty = $y->[$j];
- push @numy, ref($nexty) || defined $nexty && (~$nexty&$nexty) eq 0
- if @numy <= $j;
- return 1 if $numx && $numy[$j] && $nextx==$nexty
- || $nextx eq $nexty;
-
- }
- }
- return "";
-}
-
-sub on_exists
-{
- my $ref = @_==1 && ref($_[0]) eq 'HASH' ? $_[0] : { @_ };
- [ keys %$ref ]
-}
-
-sub on_defined
-{
- my $ref = @_==1 && ref($_[0]) eq 'HASH' ? $_[0] : { @_ };
- [ grep { defined $ref->{$_} } keys %$ref ]
-}
-
-sub switch(;$)
-{
- my ($s_val) = @_ ? $_[0] : $_;
- my $s_ref = ref $s_val;
-
- if ($s_ref eq 'CODE')
- {
- $::_S_W_I_T_C_H =
- sub { my $c_val = $_[0];
- return $s_val == $c_val if ref $c_val eq 'CODE';
- return $s_val->(@$c_val) if ref $c_val eq 'ARRAY';
- return $s_val->($c_val);
- };
- }
- elsif ($s_ref eq "" && defined $s_val && (~$s_val&$s_val) eq 0) # NUMERIC SCALAR
- {
- $::_S_W_I_T_C_H =
- sub { my $c_val = $_[0];
- my $c_ref = ref $c_val;
- return $s_val == $c_val if $c_ref eq ""
- && defined $c_val
- && (~$c_val&$c_val) eq 0;
- return $s_val eq $c_val if $c_ref eq "";
- return in([$s_val],$c_val) if $c_ref eq 'ARRAY';
- return $c_val->($s_val) if $c_ref eq 'CODE';
- return $c_val->call($s_val) if $c_ref eq 'Switch';
- return scalar $s_val=~/$c_val/
- if $c_ref eq 'Regexp';
- return scalar $c_val->{$s_val}
- if $c_ref eq 'HASH';
- return;
- };
- }
- elsif ($s_ref eq "") # STRING SCALAR
- {
- $::_S_W_I_T_C_H =
- sub { my $c_val = $_[0];
- my $c_ref = ref $c_val;
- return $s_val eq $c_val if $c_ref eq "";
- return in([$s_val],$c_val) if $c_ref eq 'ARRAY';
- return $c_val->($s_val) if $c_ref eq 'CODE';
- return $c_val->call($s_val) if $c_ref eq 'Switch';
- return scalar $s_val=~/$c_val/
- if $c_ref eq 'Regexp';
- return scalar $c_val->{$s_val}
- if $c_ref eq 'HASH';
- return;
- };
- }
- elsif ($s_ref eq 'ARRAY')
- {
- $::_S_W_I_T_C_H =
- sub { my $c_val = $_[0];
- my $c_ref = ref $c_val;
- return in($s_val,[$c_val]) if $c_ref eq "";
- return in($s_val,$c_val) if $c_ref eq 'ARRAY';
- return $c_val->(@$s_val) if $c_ref eq 'CODE';
- return $c_val->call(@$s_val)
- if $c_ref eq 'Switch';
- return scalar grep {$_=~/$c_val/} @$s_val
- if $c_ref eq 'Regexp';
- return scalar grep {$c_val->{$_}} @$s_val
- if $c_ref eq 'HASH';
- return;
- };
- }
- elsif ($s_ref eq 'Regexp')
- {
- $::_S_W_I_T_C_H =
- sub { my $c_val = $_[0];
- my $c_ref = ref $c_val;
- return $c_val=~/s_val/ if $c_ref eq "";
- return scalar grep {$_=~/s_val/} @$c_val
- if $c_ref eq 'ARRAY';
- return $c_val->($s_val) if $c_ref eq 'CODE';
- return $c_val->call($s_val) if $c_ref eq 'Switch';
- return $s_val eq $c_val if $c_ref eq 'Regexp';
- return grep {$_=~/$s_val/ && $c_val->{$_}} keys %$c_val
- if $c_ref eq 'HASH';
- return;
- };
- }
- elsif ($s_ref eq 'HASH')
- {
- $::_S_W_I_T_C_H =
- sub { my $c_val = $_[0];
- my $c_ref = ref $c_val;
- return $s_val->{$c_val} if $c_ref eq "";
- return scalar grep {$s_val->{$_}} @$c_val
- if $c_ref eq 'ARRAY';
- return $c_val->($s_val) if $c_ref eq 'CODE';
- return $c_val->call($s_val) if $c_ref eq 'Switch';
- return grep {$_=~/$c_val/ && $s_val->{"$_"}} keys %$s_val
- if $c_ref eq 'Regexp';
- return $s_val==$c_val if $c_ref eq 'HASH';
- return;
- };
- }
- elsif ($s_ref eq 'Switch')
- {
- $::_S_W_I_T_C_H =
- sub { my $c_val = $_[0];
- return $s_val == $c_val if ref $c_val eq 'Switch';
- return $s_val->call(@$c_val)
- if ref $c_val eq 'ARRAY';
- return $s_val->call($c_val);
- };
- }
- else
- {
- croak "Cannot switch on $s_ref";
- }
- return 1;
-}
-
-sub case($) { local $SIG{__WARN__} = \&carp;
- $::_S_W_I_T_C_H->(@_); }
-
-# IMPLEMENT __
-
-my $placeholder = bless { arity=>1, impl=>sub{$_[1+$_[0]]} };
-
-sub __() { $placeholder }
-
-sub __arg($)
-{
- my $index = $_[0]+1;
- bless { arity=>0, impl=>sub{$_[$index]} };
-}
-
-sub hosub(&@)
-{
- # WRITE THIS
-}
-
-sub call
-{
- my ($self,@args) = @_;
- return $self->{impl}->(0,@args);
-}
-
-sub meta_bop(&)
-{
- my ($op) = @_;
- sub
- {
- my ($left, $right, $reversed) = @_;
- ($right,$left) = @_ if $reversed;
-
- my $rop = ref $right eq 'Switch'
- ? $right
- : bless { arity=>0, impl=>sub{$right} };
-
- my $lop = ref $left eq 'Switch'
- ? $left
- : bless { arity=>0, impl=>sub{$left} };
-
- my $arity = $lop->{arity} + $rop->{arity};
-
- return bless {
- arity => $arity,
- impl => sub { my $start = shift;
- return $op->($lop->{impl}->($start,@_),
- $rop->{impl}->($start+$lop->{arity},@_));
- }
- };
- };
-}
-
-sub meta_uop(&)
-{
- my ($op) = @_;
- sub
- {
- my ($left) = @_;
-
- my $lop = ref $left eq 'Switch'
- ? $left
- : bless { arity=>0, impl=>sub{$left} };
-
- my $arity = $lop->{arity};
-
- return bless {
- arity => $arity,
- impl => sub { $op->($lop->{impl}->(@_)) }
- };
- };
-}
-
-
-use overload
- "+" => meta_bop {$_[0] + $_[1]},
- "-" => meta_bop {$_[0] - $_[1]},
- "*" => meta_bop {$_[0] * $_[1]},
- "/" => meta_bop {$_[0] / $_[1]},
- "%" => meta_bop {$_[0] % $_[1]},
- "**" => meta_bop {$_[0] ** $_[1]},
- "<<" => meta_bop {$_[0] << $_[1]},
- ">>" => meta_bop {$_[0] >> $_[1]},
- "x" => meta_bop {$_[0] x $_[1]},
- "." => meta_bop {$_[0] . $_[1]},
- "<" => meta_bop {$_[0] < $_[1]},
- "<=" => meta_bop {$_[0] <= $_[1]},
- ">" => meta_bop {$_[0] > $_[1]},
- ">=" => meta_bop {$_[0] >= $_[1]},
- "==" => meta_bop {$_[0] == $_[1]},
- "!=" => meta_bop {$_[0] != $_[1]},
- "<=>" => meta_bop {$_[0] <=> $_[1]},
- "lt" => meta_bop {$_[0] lt $_[1]},
- "le" => meta_bop {$_[0] le $_[1]},
- "gt" => meta_bop {$_[0] gt $_[1]},
- "ge" => meta_bop {$_[0] ge $_[1]},
- "eq" => meta_bop {$_[0] eq $_[1]},
- "ne" => meta_bop {$_[0] ne $_[1]},
- "cmp" => meta_bop {$_[0] cmp $_[1]},
- "\&" => meta_bop {$_[0] & $_[1]},
- "^" => meta_bop {$_[0] ^ $_[1]},
- "|" => meta_bop {$_[0] | $_[1]},
- "atan2" => meta_bop {atan2 $_[0], $_[1]},
-
- "neg" => meta_uop {-$_[0]},
- "!" => meta_uop {!$_[0]},
- "~" => meta_uop {~$_[0]},
- "cos" => meta_uop {cos $_[0]},
- "sin" => meta_uop {sin $_[0]},
- "exp" => meta_uop {exp $_[0]},
- "abs" => meta_uop {abs $_[0]},
- "log" => meta_uop {log $_[0]},
- "sqrt" => meta_uop {sqrt $_[0]},
- "bool" => sub { croak "Can't use && or || in expression containing __" },
-
- # "&()" => sub { $_[0]->{impl} },
-
- # "||" => meta_bop {$_[0] || $_[1]},
- # "&&" => meta_bop {$_[0] && $_[1]},
- # fallback => 1,
- ;
-1;
-
-__END__
-
-
-=head1 NAME
-
-Switch - A switch statement for Perl
-
-=head1 SYNOPSIS
-
- use Switch;
-
- switch ($val) {
- case 1 { print "number 1" }
- case "a" { print "string a" }
- case [1..10,42] { print "number in list" }
- case (\@array) { print "number in list" }
- case /\w+/ { print "pattern" }
- case qr/\w+/ { print "pattern" }
- case (\%hash) { print "entry in hash" }
- case (\&sub) { print "arg to subroutine" }
- else { print "previous case not true" }
- }
-
-=head1 BACKGROUND
-
-[Skip ahead to L<"DESCRIPTION"> if you don't care about the whys
-and wherefores of this control structure]
-
-In seeking to devise a "Swiss Army" case mechanism suitable for Perl,
-it is useful to generalize this notion of distributed conditional
-testing as far as possible. Specifically, the concept of "matching"
-between the switch value and the various case values need not be
-restricted to numeric (or string or referential) equality, as it is in other
-languages. Indeed, as Table 1 illustrates, Perl
-offers at least eighteen different ways in which two values could
-generate a match.
-
- Table 1: Matching a switch value ($s) with a case value ($c)
-
- Switch Case Type of Match Implied Matching Code
- Value Value
- ====== ===== ===================== =============
-
- number same numeric or referential match if $s == $c;
- or ref equality
-
- object method result of method call match if $s->$c();
- ref name match if defined $s->$c();
- or ref
-
- other other string equality match if $s eq $c;
- non-ref non-ref
- scalar scalar
-
- string regexp pattern match match if $s =~ /$c/;
-
- array scalar array entry existence match if 0<=$c && $c<@$s;
- ref array entry definition match if defined $s->[$c];
- array entry truth match if $s->[$c];
-
- array array array intersection match if intersects(@$s, @$c);
- ref ref (apply this table to
- all pairs of elements
- $s->[$i] and
- $c->[$j])
-
- array regexp array grep match if grep /$c/, @$s;
- ref
-
- hash scalar hash entry existence match if exists $s->{$c};
- ref hash entry definition match if defined $s->{$c};
- hash entry truth match if $s->{$c};
-
- hash regexp hash grep match if grep /$c/, keys %$s;
- ref
-
- sub scalar return value defn match if defined $s->($c);
- ref return value truth match if $s->($c);
-
- sub array return value defn match if defined $s->(@$c);
- ref ref return value truth match if $s->(@$c);
-
-
-In reality, Table 1 covers 31 alternatives, because only the equality and
-intersection tests are commutative; in all other cases, the roles of
-the C<$s> and C<$c> variables could be reversed to produce a
-different test. For example, instead of testing a single hash for
-the existence of a series of keys (C<match if exists $s-E<gt>{$c}>),
-one could test for the existence of a single key in a series of hashes
-(C<match if exists $c-E<gt>{$s}>).
-
-=head1 DESCRIPTION
-
-The Switch.pm module implements a generalized case mechanism that covers
-most (but not all) of the numerous possible combinations of switch and case
-values described above.
-
-The module augments the standard Perl syntax with two new control
-statements: C<switch> and C<case>. The C<switch> statement takes a
-single scalar argument of any type, specified in parentheses.
-C<switch> stores this value as the
-current switch value in a (localized) control variable.
-The value is followed by a block which may contain one or more
-Perl statements (including the C<case> statement described below).
-The block is unconditionally executed once the switch value has
-been cached.
-
-A C<case> statement takes a single scalar argument (in mandatory
-parentheses if it's a variable; otherwise the parens are optional) and
-selects the appropriate type of matching between that argument and the
-current switch value. The type of matching used is determined by the
-respective types of the switch value and the C<case> argument, as
-specified in Table 1. If the match is successful, the mandatory
-block associated with the C<case> statement is executed.
-
-In most other respects, the C<case> statement is semantically identical
-to an C<if> statement. For example, it can be followed by an C<else>
-clause, and can be used as a postfix statement qualifier.
-
-However, when a C<case> block has been executed control is automatically
-transferred to the statement after the immediately enclosing C<switch>
-block, rather than to the next statement within the block. In other
-words, the success of any C<case> statement prevents other cases in the
-same scope from executing. But see L<"Allowing fall-through"> below.
-
-Together these two new statements provide a fully generalized case
-mechanism:
-
- use Switch;
-
- # AND LATER...
-
- %special = ( woohoo => 1, d'oh => 1 );
-
- while (<>) {
- chomp;
- switch ($_) {
- case (%special) { print "homer\n"; } # if $special{$_}
- case /[a-z]/i { print "alpha\n"; } # if $_ =~ /a-z/i
- case [1..9] { print "small num\n"; } # if $_ in [1..9]
- case { $_[0] >= 10 } { print "big num\n"; } # if $_ >= 10
- print "must be punctuation\n" case /\W/; # if $_ ~= /\W/
- }
- }
-
-Note that C<switch>es can be nested within C<case> (or any other) blocks,
-and a series of C<case> statements can try different types of matches
--- hash membership, pattern match, array intersection, simple equality,
-etc. -- against the same switch value.
-
-The use of intersection tests against an array reference is particularly
-useful for aggregating integral cases:
-
- sub classify_digit
- {
- switch ($_[0]) { case 0 { return 'zero' }
- case [2,4,6,8] { return 'even' }
- case [1,3,5,7,9] { return 'odd' }
- case /[A-F]/i { return 'hex' }
- }
- }
-
-
-=head2 Allowing fall-through
-
-Fall-though (trying another case after one has already succeeded)
-is usually a Bad Idea in a switch statement. However, this
-is Perl, not a police state, so there I<is> a way to do it, if you must.
-
-If a C<case> block executes an untargeted C<next>, control is
-immediately transferred to the statement I<after> the C<case> statement
-(i.e. usually another case), rather than out of the surrounding
-C<switch> block.
-
-For example:
-
- switch ($val) {
- case 1 { handle_num_1(); next } # and try next case...
- case "1" { handle_str_1(); next } # and try next case...
- case [0..9] { handle_num_any(); } # and we're done
- case /\d/ { handle_dig_any(); next } # and try next case...
- case /.*/ { handle_str_any(); next } # and try next case...
- }
-
-If $val held the number C<1>, the above C<switch> block would call the
-first three C<handle_...> subroutines, jumping to the next case test
-each time it encountered a C<next>. After the third C<case> block
-was executed, control would jump to the end of the enclosing
-C<switch> block.
-
-On the other hand, if $val held C<10>, then only the last two C<handle_...>
-subroutines would be called.
-
-Note that this mechanism allows the notion of I<conditional fall-through>.
-For example:
-
- switch ($val) {
- case [0..9] { handle_num_any(); next if $val < 7; }
- case /\d/ { handle_dig_any(); }
- }
-
-If an untargeted C<last> statement is executed in a case block, this
-immediately transfers control out of the enclosing C<switch> block
-(in other words, there is an implicit C<last> at the end of each
-normal C<case> block). Thus the previous example could also have been
-written:
-
- switch ($val) {
- case [0..9] { handle_num_any(); last if $val >= 7; next; }
- case /\d/ { handle_dig_any(); }
- }
-
-
-=head2 Automating fall-through
-
-In situations where case fall-through should be the norm, rather than an
-exception, an endless succession of terminal C<next>s is tedious and ugly.
-Hence, it is possible to reverse the default behaviour by specifying
-the string "fallthrough" when importing the module. For example, the
-following code is equivalent to the first example in L<"Allowing fall-through">:
-
- use Switch 'fallthrough';
-
- switch ($val) {
- case 1 { handle_num_1(); }
- case "1" { handle_str_1(); }
- case [0..9] { handle_num_any(); last }
- case /\d/ { handle_dig_any(); }
- case /.*/ { handle_str_any(); }
- }
-
-Note the explicit use of a C<last> to preserve the non-fall-through
-behaviour of the third case.
-
-
-
-=head2 Alternative syntax
-
-Perl 6 will provide a built-in switch statement with essentially the
-same semantics as those offered by Switch.pm, but with a different
-pair of keywords. In Perl 6 C<switch> will be spelled C<given>, and
-C<case> will be pronounced C<when>. In addition, the C<when> statement
-will not require switch or case values to be parenthesized.
-
-This future syntax is also (largely) available via the Switch.pm module, by
-importing it with the argument C<"Perl6">. For example:
-
- use Switch 'Perl6';
-
- given ($val) {
- when 1 { handle_num_1(); }
- when ($str1) { handle_str_1(); }
- when [0..9] { handle_num_any(); last }
- when /\d/ { handle_dig_any(); }
- when /.*/ { handle_str_any(); }
- default { handle anything else; }
- }
-
-Note that scalars still need to be parenthesized, since they would be
-ambiguous in Perl 5.
-
-Note too that you can mix and match both syntaxes by importing the module
-with:
-
- use Switch 'Perl5', 'Perl6';
-
-
-=head2 Higher-order Operations
-
-One situation in which C<switch> and C<case> do not provide a good
-substitute for a cascaded C<if>, is where a switch value needs to
-be tested against a series of conditions. For example:
-
- sub beverage {
- switch (shift) {
- case { $_[0] < 10 } { return 'milk' }
- case { $_[0] < 20 } { return 'coke' }
- case { $_[0] < 30 } { return 'beer' }
- case { $_[0] < 40 } { return 'wine' }
- case { $_[0] < 50 } { return 'malt' }
- case { $_[0] < 60 } { return 'Moet' }
- else { return 'milk' }
- }
- }
-
-(This is equivalent to writing C<case (sub { $_[0] < 10 })>, etc.; C<$_[0]>
-is the argument to the anonymous subroutine.)
-
-The need to specify each condition as a subroutine block is tiresome. To
-overcome this, when importing Switch.pm, a special "placeholder"
-subroutine named C<__> [sic] may also be imported. This subroutine
-converts (almost) any expression in which it appears to a reference to a
-higher-order function. That is, the expression:
-
- use Switch '__';
-
- __ < 2
-
-is equivalent to:
-
- sub { $_[0] < 2 }
-
-With C<__>, the previous ugly case statements can be rewritten:
-
- case __ < 10 { return 'milk' }
- case __ < 20 { return 'coke' }
- case __ < 30 { return 'beer' }
- case __ < 40 { return 'wine' }
- case __ < 50 { return 'malt' }
- case __ < 60 { return 'Moet' }
- else { return 'milk' }
-
-The C<__> subroutine makes extensive use of operator overloading to
-perform its magic. All operations involving __ are overloaded to
-produce an anonymous subroutine that implements a lazy version
-of the original operation.
-
-The only problem is that operator overloading does not allow the
-boolean operators C<&&> and C<||> to be overloaded. So a case statement
-like this:
-
- case 0 <= __ && __ < 10 { return 'digit' }
-
-doesn't act as expected, because when it is
-executed, it constructs two higher order subroutines
-and then treats the two resulting references as arguments to C<&&>:
-
- sub { 0 <= $_[0] } && sub { $_[0] < 10 }
-
-This boolean expression is inevitably true, since both references are
-non-false. Fortunately, the overloaded C<'bool'> operator catches this
-situation and flags it as an error.
-
-=head1 DEPENDENCIES
-
-The module is implemented using Filter::Util::Call and Text::Balanced
-and requires both these modules to be installed.
-
-=head1 AUTHOR
-
-Damian Conway (damian@conway.org). This module is now maintained by Rafael
-Garcia-Suarez (rgarciasuarez@gmail.com) and more generally by the Perl 5
-Porters (perl5-porters@perl.org), as part of the Perl core.
-
-=head1 BUGS
-
-There are undoubtedly serious bugs lurking somewhere in code this funky :-)
-Bug reports and other feedback are most welcome.
-
-=head1 LIMITATIONS
-
-Due to the heuristic nature of Switch.pm's source parsing, the presence of
-regexes with embedded newlines that are specified with raw C</.../>
-delimiters and don't have a modifier C<//x> are indistinguishable from
-code chunks beginning with the division operator C</>. As a workaround
-you must use C<m/.../> or C<m?...?> for such patterns. Also, the presence
-of regexes specified with raw C<?...?> delimiters may cause mysterious
-errors. The workaround is to use C<m?...?> instead.
-
-Due to the way source filters work in Perl, you can't use Switch inside
-an string C<eval>.
-
-If your source file is longer then 1 million characters and you have a
-switch statement that crosses the 1 million (or 2 million, etc.)
-character boundary you will get mysterious errors. The workaround is to
-use smaller source files.
-
-=head1 COPYRIGHT
-
- Copyright (c) 1997-2008, Damian Conway. All Rights Reserved.
- This module is free software. It may be used, redistributed
- and/or modified under the same terms as Perl itself.
+++ /dev/null
-use Carp;
-use Switch qw(Perl6 __ fallthrough);
-
-my($C,$M);sub ok{$C++;$M.=$_[0]?"ok $C\n":"not ok $C (line ".(caller)[2].")\n"}
-END{print"1..$C\n$M"}
-
-# NON-when THINGS;
-
-$when->{when} = { when => "when" };
-
-*when = \&when;
-
-# PREMATURE when
-
-eval { when 1 { ok(0) }; ok(0) } || ok(1);
-
-# H.O. FUNCS
-
-given __ > 2 {
-
- when 1 { ok(0) } else { ok(1) }
- when 2 { ok(0) } else { ok(1) }
- when 3 { ok(1) } else { ok(0) }
-}
-
-given (3) {
-
- eval { when __ <= 1 || __ > 2 { ok(0) } } || ok(1);
- when __ <= 2 { ok(0) };
- when __ <= 3 { ok(1) };
-}
-
-# POSSIBLE ARGS: NUMERIC, STRING, ARRAY, HASH, REGEX, CODE
-
-# 1. NUMERIC SWITCH
-
-for (1..3)
-{
- given ($_) {
- # SELF
- when ($_) { ok(1) } else { ok(0) }
-
- # NUMERIC
- when 1 { ok ($_==1) } else { ok($_!=1) }
- when (1) { ok ($_==1) } else { ok($_!=1) }
- when 3 { ok ($_==3) } else { ok($_!=3) }
- when (4) { ok (0) } else { ok(1) }
- when (2) { ok ($_==2) } else { ok($_!=2) }
-
- # STRING
- when ('a') { ok (0) } else { ok(1) }
- when 'a' { ok (0) } else { ok(1) }
- when ('3') { ok ($_ == 3) } else { ok($_ != 3) }
- when ('3.0') { ok (0) } else { ok(1) }
-
- # ARRAY
- when ([10,5,1]) { ok ($_==1) } else { ok($_!=1) }
- when [10,5,1] { ok ($_==1) } else { ok($_!=1) }
- when (['a','b']) { ok (0) } else { ok(1) }
- when (['a','b',3]) { ok ($_==3) } else { ok ($_!=3) }
- when (['a','b',2.0]) { ok ($_==2) } else { ok ($_!=2) }
- when ([]) { ok (0) } else { ok(1) }
-
- # HASH
- when ({}) { ok (0) } else { ok (1) }
- when {} { ok (0) } else { ok (1) }
- when {1,1} { ok ($_==1) } else { ok($_!=1) }
- when ({1=>1, 2=>0}) { ok ($_==1) } else { ok($_!=1) }
-
- # SUB/BLOCK
- when (sub {$_[0]==2}) { ok ($_==2) } else { ok($_!=2) }
- when {$_[0]==2} { ok ($_==2) } else { ok($_!=2) }
- when {0} { ok (0) } else { ok (1) } # ; -> SUB, NOT HASH
- when {1} { ok (1) } else { ok (0) } # ; -> SUB, NOT HASH
- }
-}
-
-
-# 2. STRING SWITCH
-
-for ('a'..'c','1')
-{
- given ($_) {
- # SELF
- when ($_) { ok(1) } else { ok(0) }
-
- # NUMERIC
- when (1) { ok ($_ !~ /[a-c]/) } else { ok ($_ =~ /[a-c]/) }
- when (1.0) { ok ($_ !~ /[a-c]/) } else { ok ($_ =~ /[a-c]/) }
-
- # STRING
- when ('a') { ok ($_ eq 'a') } else { ok($_ ne 'a') }
- when ('b') { ok ($_ eq 'b') } else { ok($_ ne 'b') }
- when ('c') { ok ($_ eq 'c') } else { ok($_ ne 'c') }
- when ('1') { ok ($_ eq '1') } else { ok($_ ne '1') }
- when ('d') { ok (0) } else { ok (1) }
-
- # ARRAY
- when (['a','1']) { ok ($_ eq 'a' || $_ eq '1') }
- else { ok ($_ ne 'a' && $_ ne '1') }
- when (['z','2']) { ok (0) } else { ok(1) }
- when ([]) { ok (0) } else { ok(1) }
-
- # HASH
- when ({}) { ok (0) } else { ok (1) }
- when ({a=>'a', 1=>1, 2=>0}) { ok ($_ eq 'a' || $_ eq '1') }
- else { ok ($_ ne 'a' && $_ ne '1') }
-
- # SUB/BLOCK
- when (sub{$_[0] eq 'a' }) { ok ($_ eq 'a') }
- else { ok($_ ne 'a') }
- when {$_[0] eq 'a'} { ok ($_ eq 'a') } else { ok($_ ne 'a') }
- when {0} { ok (0) } else { ok (1) } # ; -> SUB, NOT HASH
- when {1} { ok (1) } else { ok (0) } # ; -> SUB, NOT HASH
- }
-}
-
-
-# 3. ARRAY SWITCH
-
-my $iteration = 0;
-for ([],[1,'a'],[2,'b'])
-{
- given ($_) {
- $iteration++;
- # SELF
- when ($_) { ok(1) }
-
- # NUMERIC
- when (1) { ok ($iteration==2) } else { ok ($iteration!=2) }
- when (1.0) { ok ($iteration==2) } else { ok ($iteration!=2) }
-
- # STRING
- when ('a') { ok ($iteration==2) } else { ok ($iteration!=2) }
- when ('b') { ok ($iteration==3) } else { ok ($iteration!=3) }
- when ('1') { ok ($iteration==2) } else { ok ($iteration!=2) }
-
- # ARRAY
- when (['a',2]) { ok ($iteration>=2) } else { ok ($iteration<2) }
- when ([1,'a']) { ok ($iteration==2) } else { ok($iteration!=2) }
- when ([]) { ok (0) } else { ok(1) }
- when ([7..100]) { ok (0) } else { ok(1) }
-
- # HASH
- when ({}) { ok (0) } else { ok (1) }
- when ({a=>'a', 1=>1, 2=>0}) { ok ($iteration==2) }
- else { ok ($iteration!=2) }
-
- # SUB/BLOCK
- when {scalar grep /a/, @_} { ok ($iteration==2) }
- else { ok ($iteration!=2) }
- when (sub {scalar grep /a/, @_ }) { ok ($iteration==2) }
- else { ok ($iteration!=2) }
- when {0} { ok (0) } else { ok (1) } # ; -> SUB, NOT HASH
- when {1} { ok (1) } else { ok (0) } # ; -> SUB, NOT HASH
- }
-}
-
-
-# 4. HASH SWITCH
-
-$iteration = 0;
-for ({},{a=>1,b=>0})
-{
- given ($_) {
- $iteration++;
-
- # SELF
- when ($_) { ok(1) } else { ok(0) }
-
- # NUMERIC
- when (1) { ok (0) } else { ok (1) }
- when (1.0) { ok (0) } else { ok (1) }
-
- # STRING
- when ('a') { ok ($iteration==2) } else { ok ($iteration!=2) }
- when ('b') { ok (0) } else { ok (1) }
- when ('c') { ok (0) } else { ok (1) }
-
- # ARRAY
- when (['a',2]) { ok ($iteration==2) }
- else { ok ($iteration!=2) }
- when (['b','a']) { ok ($iteration==2) }
- else { ok ($iteration!=2) }
- when (['b','c']) { ok (0) } else { ok (1) }
- when ([]) { ok (0) } else { ok(1) }
- when ([7..100]) { ok (0) } else { ok(1) }
-
- # HASH
- when ({}) { ok (0) } else { ok (1) }
- when ({a=>'a', 1=>1, 2=>0}) { ok (0) } else { ok (1) }
-
- # SUB/BLOCK
- when {$_[0]{a}} { ok ($iteration==2) }
- else { ok ($iteration!=2) }
- when (sub {$_[0]{a}}) { ok ($iteration==2) }
- else { ok ($iteration!=2) }
- when {0} { ok (0) } else { ok (1) } # ; -> SUB, NOT HASH
- when {1} { ok (1) } else { ok (0) } # ; -> SUB, NOT HASH
- }
-}
-
-
-# 5. CODE SWITCH
-
-$iteration = 0;
-for ( sub {1},
- sub { return 0 unless @_;
- my ($data) = @_;
- my $type = ref $data;
- return $type eq 'HASH' && $data->{a}
- || $type eq 'Regexp' && 'a' =~ /$data/
- || $type eq "" && $data eq '1';
- },
- sub {0} )
-{
- given ($_) {
- $iteration++;
- # SELF
- when ($_) { ok(1) } else { ok(0) }
-
- # NUMERIC
- when (1) { ok ($iteration<=2) } else { ok ($iteration>2) }
- when (1.0) { ok ($iteration<=2) } else { ok ($iteration>2) }
- when (1.1) { ok ($iteration==1) } else { ok ($iteration!=1) }
-
- # STRING
- when ('a') { ok ($iteration==1) } else { ok ($iteration!=1) }
- when ('b') { ok ($iteration==1) } else { ok ($iteration!=1) }
- when ('c') { ok ($iteration==1) } else { ok ($iteration!=1) }
- when ('1') { ok ($iteration<=2) } else { ok ($iteration>2) }
-
- # ARRAY
- when ([1, 'a']) { ok ($iteration<=2) }
- else { ok ($iteration>2) }
- when (['b','a']) { ok ($iteration==1) }
- else { ok ($iteration!=1) }
- when (['b','c']) { ok ($iteration==1) }
- else { ok ($iteration!=1) }
- when ([]) { ok ($iteration==1) } else { ok($iteration!=1) }
- when ([7..100]) { ok ($iteration==1) }
- else { ok($iteration!=1) }
-
- # HASH
- when ({}) { ok ($iteration==1) } else { ok ($iteration!=1) }
- when ({a=>'a', 1=>1, 2=>0}) { ok ($iteration<=2) }
- else { ok ($iteration>2) }
-
- # SUB/BLOCK
- when {$_[0]->{a}} { ok (0) } else { ok (1) }
- when (sub {$_[0]{a}}) { ok (0) } else { ok (1) }
- when {0} { ok (0) } else { ok (1) } # ; -> SUB, NOT HASH
- when {1} { ok (0) } else { ok (1) } # ; -> SUB, NOT HASH
- }
-}
-
-
-# NESTED SWITCHES
-
-for my $count (1..3)
-{
- given ([9,"a",11]) {
- when (qr/\d/) {
- given ($count) {
- when (1) { ok($count==1) }
- else { ok($count!=1) }
- when ([5,6]) { ok(0) } else { ok(1) }
- }
- }
- ok(1) when 11;
- }
-}
+++ /dev/null
-use Carp;
-use Switch qw(__ fallthrough);
-
-my($C,$M);sub ok{$C++;$M.=$_[0]?"ok $C\n":"not ok $C (line ".(caller)[2].")\n"}
-END{print"1..$C\n$M"}
-
-# NON-case THINGS;
-
-$case->{case} = { case => "case" };
-
-*case = \&case;
-
-# PREMATURE case
-
-eval { case 1 { ok(0) }; ok(0) } || ok(1);
-
-# H.O. FUNCS
-
-switch (__ > 2) {
-
- case 1 { ok(0) } else { ok(1) }
- case 2 { ok(0) } else { ok(1) }
- case 3 { ok(1) } else { ok(0) }
-}
-
-switch (3) {
-
- eval { case __ <= 1 || __ > 2 { ok(0) } } || ok(1);
- case __ <= 2 { ok(0) };
- case __ <= 3 { ok(1) };
-}
-
-# POSSIBLE ARGS: NUMERIC, STRING, ARRAY, HASH, REGEX, CODE
-
-# 1. NUMERIC SWITCH
-
-for (1..3)
-{
- switch ($_) {
- # SELF
- case ($_) { ok(1) } else { ok(0) }
-
- # NUMERIC
- case (1) { ok ($_==1) } else { ok($_!=1) }
- case 1 { ok ($_==1) } else { ok($_!=1) }
- case (3) { ok ($_==3) } else { ok($_!=3) }
- case (4) { ok (0) } else { ok(1) }
- case (2) { ok ($_==2) } else { ok($_!=2) }
-
- # STRING
- case ('a') { ok (0) } else { ok(1) }
- case 'a' { ok (0) } else { ok(1) }
- case ('3') { ok ($_ == 3) } else { ok($_ != 3) }
- case ('3.0') { ok (0) } else { ok(1) }
-
- # ARRAY
- case ([10,5,1]) { ok ($_==1) } else { ok($_!=1) }
- case [10,5,1] { ok ($_==1) } else { ok($_!=1) }
- case (['a','b']) { ok (0) } else { ok(1) }
- case (['a','b',3]) { ok ($_==3) } else { ok ($_!=3) }
- case (['a','b',2.0]) { ok ($_==2) } else { ok ($_!=2) }
- case ([]) { ok (0) } else { ok(1) }
-
- # HASH
- case ({}) { ok (0) } else { ok (1) }
- case {} { ok (0) } else { ok (1) }
- case {1,1} { ok ($_==1) } else { ok($_!=1) }
- case ({1=>1, 2=>0}) { ok ($_==1) } else { ok($_!=1) }
-
- # SUB/BLOCK
- case (sub {$_[0]==2}) { ok ($_==2) } else { ok($_!=2) }
- case {$_[0]==2} { ok ($_==2) } else { ok($_!=2) }
- case {0} { ok (0) } else { ok (1) } # ; -> SUB, NOT HASH
- case {1} { ok (1) } else { ok (0) } # ; -> SUB, NOT HASH
- }
-}
-
-
-# 2. STRING SWITCH
-
-for ('a'..'c','1')
-{
- switch ($_) {
- # SELF
- case ($_) { ok(1) } else { ok(0) }
-
- # NUMERIC
- case (1) { ok ($_ !~ /[a-c]/) } else { ok ($_ =~ /[a-c]/) }
- case (1.0) { ok ($_ !~ /[a-c]/) } else { ok ($_ =~ /[a-c]/) }
-
- # STRING
- case ('a') { ok ($_ eq 'a') } else { ok($_ ne 'a') }
- case ('b') { ok ($_ eq 'b') } else { ok($_ ne 'b') }
- case ('c') { ok ($_ eq 'c') } else { ok($_ ne 'c') }
- case ('1') { ok ($_ eq '1') } else { ok($_ ne '1') }
- case ('d') { ok (0) } else { ok (1) }
-
- # ARRAY
- case (['a','1']) { ok ($_ eq 'a' || $_ eq '1') }
- else { ok ($_ ne 'a' && $_ ne '1') }
- case (['z','2']) { ok (0) } else { ok(1) }
- case ([]) { ok (0) } else { ok(1) }
-
- # HASH
- case ({}) { ok (0) } else { ok (1) }
- case ({a=>'a', 1=>1, 2=>0}) { ok ($_ eq 'a' || $_ eq '1') }
- else { ok ($_ ne 'a' && $_ ne '1') }
-
- # SUB/BLOCK
- case (sub{$_[0] eq 'a' }) { ok ($_ eq 'a') }
- else { ok($_ ne 'a') }
- case {$_[0] eq 'a'} { ok ($_ eq 'a') } else { ok($_ ne 'a') }
- case {0} { ok (0) } else { ok (1) } # ; -> SUB, NOT HASH
- case {1} { ok (1) } else { ok (0) } # ; -> SUB, NOT HASH
- }
-}
-
-
-# 3. ARRAY SWITCH
-
-my $iteration = 0;
-for ([],[1,'a'],[2,'b'])
-{
- switch ($_) {
- $iteration++;
- # SELF
- case ($_) { ok(1) }
-
- # NUMERIC
- case (1) { ok ($iteration==2) } else { ok ($iteration!=2) }
- case (1.0) { ok ($iteration==2) } else { ok ($iteration!=2) }
-
- # STRING
- case ('a') { ok ($iteration==2) } else { ok ($iteration!=2) }
- case ('b') { ok ($iteration==3) } else { ok ($iteration!=3) }
- case ('1') { ok ($iteration==2) } else { ok ($iteration!=2) }
-
- # ARRAY
- case (['a',2]) { ok ($iteration>=2) } else { ok ($iteration<2) }
- case ([1,'a']) { ok ($iteration==2) } else { ok($iteration!=2) }
- case ([]) { ok (0) } else { ok(1) }
- case ([7..100]) { ok (0) } else { ok(1) }
-
- # HASH
- case ({}) { ok (0) } else { ok (1) }
- case ({a=>'a', 1=>1, 2=>0}) { ok ($iteration==2) }
- else { ok ($iteration!=2) }
-
- # SUB/BLOCK
- case {scalar grep /a/, @_} { ok ($iteration==2) }
- else { ok ($iteration!=2) }
- case (sub {scalar grep /a/, @_ }) { ok ($iteration==2) }
- else { ok ($iteration!=2) }
- case {0} { ok (0) } else { ok (1) } # ; -> SUB, NOT HASH
- case {1} { ok (1) } else { ok (0) } # ; -> SUB, NOT HASH
- }
-}
-
-
-# 4. HASH SWITCH
-
-$iteration = 0;
-for ({},{a=>1,b=>0})
-{
- switch ($_) {
- $iteration++;
-
- # SELF
- case ($_) { ok(1) } else { ok(0) }
-
- # NUMERIC
- case (1) { ok (0) } else { ok (1) }
- case (1.0) { ok (0) } else { ok (1) }
-
- # STRING
- case ('a') { ok ($iteration==2) } else { ok ($iteration!=2) }
- case ('b') { ok (0) } else { ok (1) }
- case ('c') { ok (0) } else { ok (1) }
-
- # ARRAY
- case (['a',2]) { ok ($iteration==2) }
- else { ok ($iteration!=2) }
- case (['b','a']) { ok ($iteration==2) }
- else { ok ($iteration!=2) }
- case (['b','c']) { ok (0) } else { ok (1) }
- case ([]) { ok (0) } else { ok(1) }
- case ([7..100]) { ok (0) } else { ok(1) }
-
- # HASH
- case ({}) { ok (0) } else { ok (1) }
- case ({a=>'a', 1=>1, 2=>0}) { ok (0) } else { ok (1) }
-
- # SUB/BLOCK
- case {$_[0]{a}} { ok ($iteration==2) }
- else { ok ($iteration!=2) }
- case (sub {$_[0]{a}}) { ok ($iteration==2) }
- else { ok ($iteration!=2) }
- case {0} { ok (0) } else { ok (1) } # ; -> SUB, NOT HASH
- case {1} { ok (1) } else { ok (0) } # ; -> SUB, NOT HASH
- }
-}
-
-
-# 5. CODE SWITCH
-
-$iteration = 0;
-for ( sub {1},
- sub { return 0 unless @_;
- my ($data) = @_;
- my $type = ref $data;
- return $type eq 'HASH' && $data->{a}
- || $type eq 'Regexp' && 'a' =~ /$data/
- || $type eq "" && $data eq '1';
- },
- sub {0} )
-{
- switch ($_) {
- $iteration++;
- # SELF
- case ($_) { ok(1) } else { ok(0) }
-
- # NUMERIC
- case (1) { ok ($iteration<=2) } else { ok ($iteration>2) }
- case (1.0) { ok ($iteration<=2) } else { ok ($iteration>2) }
- case (1.1) { ok ($iteration==1) } else { ok ($iteration!=1) }
-
- # STRING
- case ('a') { ok ($iteration==1) } else { ok ($iteration!=1) }
- case ('b') { ok ($iteration==1) } else { ok ($iteration!=1) }
- case ('c') { ok ($iteration==1) } else { ok ($iteration!=1) }
- case ('1') { ok ($iteration<=2) } else { ok ($iteration>2) }
-
- # ARRAY
- case ([1, 'a']) { ok ($iteration<=2) }
- else { ok ($iteration>2) }
- case (['b','a']) { ok ($iteration==1) }
- else { ok ($iteration!=1) }
- case (['b','c']) { ok ($iteration==1) }
- else { ok ($iteration!=1) }
- case ([]) { ok ($iteration==1) } else { ok($iteration!=1) }
- case ([7..100]) { ok ($iteration==1) }
- else { ok($iteration!=1) }
-
- # HASH
- case ({}) { ok ($iteration==1) } else { ok ($iteration!=1) }
- case ({a=>'a', 1=>1, 2=>0}) { ok ($iteration<=2) }
- else { ok ($iteration>2) }
-
- # SUB/BLOCK
- case {$_[0]->{a}} { ok (0) } else { ok (1) }
- case (sub {$_[0]{a}}) { ok (0) } else { ok (1) }
- case {0} { ok (0) } else { ok (1) } # ; -> SUB, NOT HASH
- case {1} { ok (0) } else { ok (1) } # ; -> SUB, NOT HASH
- }
-}
-
-
-# NESTED SWITCHES
-
-for my $count (1..3)
-{
- switch ([9,"a",11]) {
- case (qr/\d/) {
- switch ($count) {
- case (1) { ok($count==1) }
- else { ok($count!=1) }
- case ([5,6]) { ok(0) } else { ok(1) }
- }
- }
- ok(1) case (11);
- }
-}
projects / p5sagit/p5-mst-13.2.git / commitdiff