X-Git-Url: http://wagnertech.de/gitweb/gitweb.cgi/mfinanz.git/blobdiff_plain/add0f69be977025f141c7ddb4803f642980a87a0..38044b51d435d611d602dfb1f80ea95543416ab4:/SL/Form.pm diff --git a/SL/Form.pm b/SL/Form.pm index 7cbf60f8c..9d032bf69 100644 --- a/SL/Form.pm +++ b/SL/Form.pm @@ -41,11 +41,13 @@ use Carp; use Data::Dumper; use Carp; +use Config; use CGI; use Cwd; use Encode; use File::Copy; use IO::File; +use Math::BigInt; use SL::Auth; use SL::Auth::DB; use SL::Auth::LDAP; @@ -950,41 +952,33 @@ sub parse_amount { sub round_amount { my ($self, $amount, $places) = @_; - # Rounding like "Kaufmannsrunden" (see http://de.wikipedia.org/wiki/Rundung ) - - # If you search for rounding in Perl, you'll likely get the first version of - # this algorithm: - # - # ($amount <=> 0) * int(abs($amount) * 10**$places) + .5) / 10**$places - # - # That doesn't work. It falls apart for certain values that are exactly 0.5 - # over the cutoff, because the internal IEEE754 representation is slightly - # below the cutoff. Perl makes matters worse in that it really, really tries to - # recognize exact values for presentation to you, even if they are not. - # - # Example: take the value 64.475 and round to 2 places. - # - # printf("%.20f\n", 64.475) gives you 64.47499999999999431566 - # - # Then 64.475 * 100 + 0.5 is 6447.99999999999909050530, and - # int(64.475 * 100 + 0.5) / 100 = 64.47 - # - # Trying to round with more precision first only shifts the problem to rarer - # cases, which nevertheless exist. - # - # Now we exploit the presentation rounding of Perl. Since it really tries hard - # to recognize integers, we double $amount, and let Perl give us a representation. - # If Perl recognizes it as a slightly too small integer, and rounds up to the - # next odd integer, we follow suit and treat the fraction as .5 or greater. - - my $sign = $amount <=> 0; - $amount = abs $amount; - - my $shift = 10 ** ($places); - my $shifted_and_double = $amount * $shift * 2; - my $rounding_bias = sprintf('%f', $shifted_and_double) % 2; - $amount = int($amount * $shift) + $rounding_bias; - $amount = $amount / $shift * $sign; + # We use Perl's knowledge of string representation for + # rounding. First, convert the floating point number to a string + # with a high number of places. Then split the string on the decimal + # sign and use integer calculation for rounding the decimal places + # part. If an overflow occurs then apply that overflow to the part + # before the decimal sign as well using integer arithmetic again. + + my $amount_str = sprintf '%.*f', $places + 10, abs($amount); + + return $amount unless $amount_str =~ m{^(\d+)\.(\d+)$}; + + my ($pre, $post) = ($1, $2); + my $decimals = '1' . substr($post, 0, $places); + + my $propagation_limit = $Config{i32size} == 4 ? 7 : 18; + my $add_for_rounding = substr($post, $places, 1) >= 5 ? 1 : 0; + + if ($places > $propagation_limit) { + $decimals = Math::BigInt->new($decimals)->badd($add_for_rounding); + $pre = Math::BigInt->new($decimals)->badd(1) if substr($decimals, 0, 1) eq '2'; + + } else { + $decimals += $add_for_rounding; + $pre += 1 if substr($decimals, 0, 1) eq '2'; + } + + $amount = ("${pre}." . substr($decimals, 1)) * ($amount <=> 0); return $amount; } @@ -2159,7 +2153,7 @@ sub _get_taxzones { $key = "all_taxzones" unless ($key); my $tzfilter = ""; - $tzfilter = "WHERE obsolete is FALSE" if $key eq 'ALL_ACTIVE_TAXZONES'; + $tzfilter = "WHERE obsolete is FALSE" if $key eq 'ALL_ACTIVE_TAXZONES'; my $query = qq|SELECT * FROM tax_zones $tzfilter ORDER BY sortkey|;