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Code Editor : CalcPP.pm
#!/usr/bin/perl package Math::Base::Convert::CalcPP; use strict; use vars qw($VERSION); $VERSION = do { my @r = (q$Revision: 0.03 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; # test number < 2^32 is NOT power of 2 # sub isnotp2 { my $ref = ref $_[0]; shift if ref $_[0] || $_[0] =~ /\D/; # class? $_[0] & $_[0] -1; } # add a long n*32 bit number toa number < 65536 # add 'n' to array digits and propagate carry, return carry # sub addbaseno { my($ap,$n) = @_; foreach (@$ap) { $_ += $n; return 0 unless $_ > 0xffffffff; $n = 1; $_ -= 4294967296; } 1; # carry is one on exit, else would have taken return 0 branch } # multiply a register of indeterminate length by a number < 65535 # # ap pointer to multiplicand array # multiplier # sub multiply { my($ap,$m) = @_; # $m is always 2..65535 # $m &= 0xffff; # max value 65535 already done by VETTING # # perl uses doubles for arithmetic, $m << 65536 will fit my $carry = 0; foreach ( @$ap) { $_ *= $m; $_ += $carry; if ($_ > 0xffffffff) { $carry = int($_ / 4294967296); $_ %= 4294967296; } else { $carry = 0; } } push @$ap, $carry if $carry; } sub dividebybase { my($np,$divisor) = @_; my @dividend = @$np; # 3% improvement while ($#dividend) { # 3% improvement last if $dividend[0]; shift @dividend; } my $remainder = 0; my @quotient; while (@dividend) { my $work = ($dividend[0] += ($remainder * 4294967296)); push @quotient, int($work / $divisor); $remainder = $work % $divisor; shift @dividend; } return (\@quotient,$remainder); } # simple versions of conversion, works for N < ~2^49 or 10^16 # #sub frombase { # my($hsh,$base,$str) = @_; # my $number = 0; # for( $str =~ /./g ) { # $number *= $base; # $number += $hsh->{$_}; # } # return $number; #} #sub tobase { #sub to_base # my($bp,$base,$num) = @_; # my $base = shift; # return $bp->[0] if $num == 0; # my $str = ''; # while( $num > 0 ) { # $str = $bp->[$num % $base] . $str; # $num = int( $num / $base ); # } # return $str; #} # convert a number from its base to 32*N bit representation # sub useFROMbaseto32wide { my $bc = shift; my($ary,$hsh,$base,$str) = @{$bc}{qw(from fhsh fbase nstr)}; # check if decimal and interger from within perl's 32bit double representation # cutoff is 999,999,999,999,999 -- a bit less than 2^50 # # convert directly to base 2^32 arrays # my @result = (0); if ($base == 10 && length($str) < 16) { # unless ($str > 999999999999999) { # maximum 32 bit double float integer representation $result[0] = $str % 4294967296; my $quotient = int($str / 4294967296); $result[1] = $quotient if $quotient; $bc->{b32str} = \@result; } else { for ($str =~ /./g) { multiply(\@result,$base); push @result, 1 if addbaseno(\@result,$hsh->{$_}); # propagate carry } # my @rv = reverse @result; $bc->{b32str} = \@result; } $bc; } #my %used = map {$_,0}(0..255); # convert 32*N bit representation to any base < 65536 # sub use32wideTObase { my $bc = shift; my($ary,$base,$rquot) = @{$bc}{qw(to tbase b32str)}; my @quotient = reverse(@$rquot); my $quotient = \@quotient; my @answer; my $remainder; do { ($quotient,$remainder) = dividebybase($quotient,$base); # these commented out print statements are for convert.t DO NOT REMOVE! #$used{$remainder} = 1; #print $remainder; #print " *" if $remainder > 86; #print "\n"; unshift @answer, $ary->[$remainder]; } while grep {$_} @$quotient; #foreach (sort {$b <=> $a} keys %used) { #print " $_,\n" if $used{$_} && $_ > 85; #print "\t$_\t=> \n" if !$used{$_} && $_ < 86; #} join '', @answer; } 1; __END__ =head1 NAME Math::Base::Convert::CalcPP - standard methods used by Math::Base::Convert =head1 DESCRIPTION This module contains the standard methods used by B<Math::Base::Convert> to convert from one base number to another base number. =over 4 =item * $carry = addbaseno($reg32ptr,$int) This function adds an integer < 65536 to a long n*32 bit register and returns the carry. =item * multiply($reg32ptr,$int) This function multiplies a long n*32 bit register by an integer < 65536 =item * ($qptr,$remainder) = dividebybase($reg32ptr,$int) this function divides a long n*32 bit register by an integer < 65536 and returns a pointer to a long n*32 bit quotient and an integer remainder. =item * $bc->useFROMbaseto32wide This method converts FROM an input base string to a long n*32 bit register using an algorithim like: $longnum = 0; for $char ( $in_str =~ /./g ) { $longnum *= $base; $longnum += $value{$char) } return $number; =item * $output = $bc->use32wideTObase This method converts a long n*32 bit register TO a base number using an algorithim like: $output = ''; while( $longnum > 0 ) { $output = ( $longnum % $base ) . $output; $num = int( $longnum / $base ); } return $output; =back =head1 AUTHOR Michael Robinton, michael@bizsystems.com =head1 COPYRIGHT Copyright 2012-15, Michael Robinton This program is free software; you may redistribute it and/or modify it under the same terms as Perl itself. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. =cut 1;
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