Why not adopt me?
NAME
Math::Notation::PostfixInfix - Math Notation for Postfix and Infix Expressions
CONTENTS
SYNOPSIS
use Math::Notation::PostfixInfix;
Infix_to_Postfix
@array = Infix_to_Postfix ( "math infix expression" );
Postfix_to_Infix
$string = Postfix_to_Infix ( @postfix_array_expression );
Postfix_Test
$bolean = Postfix_Test ( \@postfix_array_expression,
[ \&external_subrot, [ \@subrot_options ]]
);
DESCRIPTION
This module was created for:
(a) Convert INFIX expressions to POSTFIX;
(b) Convert POSTFIX expressions to INFIX and;
(c) Perform POSTFIX context validations.
Context validation can be implemented in item selection routines or data context validation, when it is possible to identify data to be selected or ignored in some data analysis process.
EXAMPLES
The examples below were created in the hope that it will be useful.
Infix_to_Postfix
This exempla demonstrates how to convert an INFIX notaton to POSTFIX.
code:
use Math::Notation::PostfixInfix;
my @array = Math::Notation::PostfixInfix->Infix_to_Postfix
("a && b || c && d");
results:
@array = [ "a", "b", "&", "c", "d", "&", "|" ];
Postfix_to_Infix
This exempla demonstrates how to convert an POSTFIX notaton to INFIX.
code:
use Math::Notation::PostfixInfix;
my $string = Math::Notation::PostfixInfix->Postfix_to_Infix
( [ "a","b","&","c","d","&","|" ] );
or
my $string = Math::Notation::PostfixInfix->Infix_to_Postfix
( \@array );
results:
$string = "a and b or c and d";
Postfix_Test Bolean_value
The script below is a simple example of logical comparation using constant data.
code:
## file: /tmp/t1
use Math::Notation::PostfixInfix;
my $mymod = new Math::Notation::PostfixInfix;
my %hash = ( A=>1, B=>0, C=>1, D=>0 );
my @array =
(
[ $mymod->Infix_to_Postfix("A && B && C && D") ],
[ $mymod->Infix_to_Postfix("A && B || C && D") ],
[ $mymod->Infix_to_Postfix("A && B || C && D") ],
[ $mymod->Infix_to_Postfix("A || B && C || D") ],
[ $mymod->Infix_to_Postfix("A || B || C || D") ],
);
print "\n";
print "test1 = ".$mymod->Postfix_Test($array[0],\&subrot)."\n";
print "test2 = ".$mymod->Postfix_Test($array[1],\&subrot)."\n";
print "test3 = ".$mymod->Postfix_Test($array[2],\&subrot)."\n";
print "test4 = ".$mymod->Postfix_Test($array[3],\&subrot)."\n";
print "test5 = ".$mymod->Postfix_Test($array[4],\&subrot)."\n";
exit;
# rule = field information
# oper = operator (lt,le,eq,gt,ge,*) ('*' is no operator found)
# val1 = left part of field information (for 'oper' not '*')
# val2 = right part of field information (for 'oper' not '*')
# opts = subroutine options passed on Postfix_Test (3rd args)
sub subrot
{
my $rule = shift; # full field information
my $oper = shift; # may be: lt, le, eq, gt, ge, '*'
my $val1 = shift; # value is '0' if oper = '*'
my $val2 = shift; # value is '0' if oper = '*'
my $opts = shift; # subroution options
return $hash{$rule};
}
results:
# perl /tmp/t1
test1 = 0
test2 = 0
test3 = 0
test4 = 1
test5 = 1
Postfix_Test Hash_table
The script below was create to establish the concepts of context selection and exclusion rules based on data in HASH tables.
code:
## file: /tmp/t2
use Math::Notation::PostfixInfix;
## testing arguments
#
die "$0 argv1 is missing" if (!@ARGV);
## convertin args as string e get the postfix rule
#
my $mymod = new Math::Notation::PostfixInfix;
my @rule = $mymod->Infix_to_Postfix(join(" ",@ARGV));
print "\nrule: [ ",join(", ",@rule)," ]\n\n";
## test and select the data base the rule
#
while (my $buf = <DATA>)
{
$buf =~ s/[\n\r]//g;
## matching formated data
#
if ($buf =~ /^(.*),(.*),(.*)$/i)
{
## initialize the fields to test
#
my %test = (country=>$1, name=>$2, genre=>$3);
## apply the rules on the fields
#
($mymod->Postfix_Test(\@rule,\&subrot,\%test)) ?
print "[match]" :
print "[unmatch]";
}
## unmatching dat record
#
else {print "[regexp-error]";}
## append the data record on the status
#
print " ",$buf,"\n";
}
exit;
## my context test
#
sub subrot
{
## get the envs
#
my $rule = shift;
my $oper = shift;
my $val1 = shift;
my $val2 = shift;
my $test = shift;
## return as match if equal/match and data match
#
return 1 if ($oper eq "eq" && $test->{$val1} eq $val2);
## return as match if notequal/operator and data mismatch
#
return 1 if ($oper eq "ne" && $test->{$val1} ne $val2);
## otherwise return as umatch
#
return 0;
}
__DATA__
usa,peter,male
brazil,mary,female
france,jean,male
france,maria,female
results:
# perl /tmp/t2 country eq france
rule: [ country eq france ]
[unmatch] usa,peter,male
[unmatch] brazil,mary,female
[match] france,jean,male
[match] france,maria,female
# perl /tmp/t2 country eq france and name ne jean
rule: [ country eq france, name ne jean, & ]
[unmatch] usa,peter,male
[unmatch] brazil,mary,female
[unmatch] france,jean,male
[match] france,maria,female
DEPENDENCIES
no dependencies
AUTHOR
Carlos Celso, <ccelso@cpan.org>
COPYRIGHT
Copyright (C) 2022 by Carlos Celso
LICENSE
This package is free software; can, at your discretion, also be used, modified and redistributed under the terms of the "GPLv3 - GNU Library General Public License".
2 POD Errors
The following errors were encountered while parsing the POD:
- Around line 48:
You forgot a '=back' before '=head2'
- Around line 262:
=back without =over