How to Install and Uninstall perl-Switch Package on openSUSE Leap

Last updated: May 18,2024

1. Install "perl-Switch" package

Please follow the instructions below to install perl-Switch on openSUSE Leap


    
        
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                sudo zypper refresh
            
                    
    
    Copied


    
        
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                sudo zypper install
            
                        
                perl-Switch
            
                    
    
    Copied

2. Uninstall "perl-Switch" package

Please follow the guidelines below to uninstall perl-Switch on openSUSE Leap:


    
        
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                sudo zypper remove
            
                        
                perl-Switch
            
                    
    
    Copied

3. Information about the perl-Switch package on openSUSE Leap

Information for package perl-Switch:
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Repository : Main Repository
Name : perl-Switch
Version : 2.17-3.2.1
Arch : noarch
Vendor : SUSE LLC
Installed Size : 38.7 KiB
Installed : No
Status : not installed
Source package : perl-Switch-2.17-3.2.1.src
Upstream URL : http://search.cpan.org/dist/Switch/
Summary : A switch statement for Perl, do not use if you can use given/when
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: 'switch' and 'case'. The 'switch' statement takes a single
scalar argument of any type, specified in parentheses. '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 'case' statement described below). The block is
unconditionally executed once the switch value has been cached.
A '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 'case' argument, as specified in Table 1. If the
match is successful, the mandatory block associated with the 'case'
statement is executed.
In most other respects, the 'case' statement is semantically identical to
an 'if' statement. For example, it can be followed by an 'else' clause, and
can be used as a postfix statement qualifier.
However, when a 'case' block has been executed control is automatically
transferred to the statement after the immediately enclosing 'switch'
block, rather than to the next statement within the block. In other words,
the success of any 'case' statement prevents other cases in the same scope
from executing. But see the "Allowing fall-through" manpage below.
Together these two new statements provide a fully generalized case
mechanism:
use Switch;
%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 $_ ~= /\W/
}
}
Note that 'switch'es can be nested within 'case' (or any other) blocks, and
a series of 'case' statements can try different types of matches -- hash
membership, pattern match, array intersection, simple equality, etc. --
against the same switch value.
The use of intersection tests against an array reference is particularly
useful for aggregating integral cases:
sub classify_digit
{
switch ($_[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' }
}
}