Generic Conversion module. b=72933, r=zach.

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# -*- Mode: perl; tab-width: 4; indent-tabs-mode: nil; -*-
################################
# Converter Module #
################################
# Originally by GluffiS <gluffis@mean.net>
package BotModules::Converter;
use vars qw(@ISA);
@ISA = qw(BotModules);
1;
# XXX support the suffixes "to <n> sf" or "to <n> dp"
sub Help {
my $self = shift;
my ($event) = @_;
return {
'' => 'A generic converter. Currently supports converting between positive integers in binary, octal, decimal and hexidecimal forms, converting temperatures, and converting lengths.',
'syntax' => 'To convert a number, simply give the number with units or appropriate prefixes, for example to convert from hexadecimal: \'0x2F\'',
'integers' => 'Decimal: Simply give the number. Hexadecimal: Prefix with 0x. Octal: Prefix with 0. Binary: Prefix with 0b.',
'temperature' => 'Kelvin: Suffix with K. Celsius: Suffix with C. Fahrenheit: Suffix with F.',
'length' => 'Imperial: in, ft, yd, mi. Metric: A, nm, mm, cm, m, km', # XXX should support light year, parsec, furlong; f, p, n, µ, m, -, k, M, G, T, P
# XXX should support weight, speed, volume, twips
};
}
sub Told {
my $self = shift;
my ($event, $message) = @_;
# integers
if ($message =~ m/^\s*([1-9][0-9]*|0)\s*\??\s*$/osi) {
$self->convertDecimal($event, $1);
} elsif ($message =~ m/^\s*0x([a-f0-9]+)\s*\??\s*$/osi) {
$self->convertHex($event, $1);
} elsif ($message =~ m/^\s*0([0-9]+)\s*\??\s*$/osi) {
$self->convertOctal($event, $1);
} elsif ($message =~ m/^\s*0b([0-9]+)\s*\??\s*$/osi) {
$self->convertBinary($event, $1);
# temperatures
} elsif ($message =~ m/^\s*(-?(?:[0-9]+\.?|[0-9]+\.[0-9]+|\.[0-9]+)(?:e-?[0-9]+)?)\s*(?:kelvin|K)\s*\??\s*$/osi) {
$self->convertKelvin($event, $1);
} elsif ($message =~ m/^\s*(-?(?:[0-9]+\.?|[0-9]+\.[0-9]+|\.[0-9]+)(?:e-?[0-9]+)?)\s*(?:deg(?:rees?)|[\`°])?\s*(?:cel[sc]ius|centigrade|c)\s*\??\s*$/osi) {
$self->convertCelsius($event, $1);
} elsif ($message =~ m/^\s*(-?(?:[0-9]+\.?|[0-9]+\.[0-9]+|\.[0-9]+)(?:e-?[0-9]+)?)\s*(?:deg(?:rees?)|[\`°])?\s*(?:fahrenheit|f)\s*\??\s*$/osi) {
$self->convertFahrenheit($event, $1);
# imperial lengths
} elsif ($message =~ m/^\s*(-?(?:[0-9]+\.?|[0-9]+\.[0-9]+|\.[0-9]+)(?:e-?[0-9]+)?)\s*(?:ins?|inch(?:es)?)\s*\??\s*$/osi) {
$self->convertInches($event, $1);
} elsif ($message =~ m/^\s*(-?(?:[0-9]+\.?|[0-9]+\.[0-9]+|\.[0-9]+)(?:e-?[0-9]+)?)\s*(?:ft|feet|foot)\s*\??\s*$/osi) {
$self->convertFeet($event, $1);
} elsif ($message =~ m/^\s*(-?(?:[0-9]+\.?|[0-9]+\.[0-9]+|\.[0-9]+)(?:e-?[0-9]+)?)\s*(?:yds?|yards?)\s*\??\s*$/osi) {
$self->convertYards($event, $1);
} elsif ($message =~ m/^\s*(-?(?:[0-9]+\.?|[0-9]+\.[0-9]+|\.[0-9]+)(?:e-?[0-9]+)?)\s*(?:mi|miles?)\s*\??\s*$/osi) {
$self->convertMiles($event, $1);
# metric lengths
} elsif ($message =~ m/^\s*(-?(?:[0-9]+\.?|[0-9]+\.[0-9]+|\.[0-9]+)(?:e-?[0-9]+)?)\s*(?:Å|a|angstroms?)\s*\??\s*$/osi) {
$self->convertAngstroms($event, $1);
} elsif ($message =~ m/^\s*(-?(?:[0-9]+\.?|[0-9]+\.[0-9]+|\.[0-9]+)(?:e-?[0-9]+)?)\s*(?:nms?|nanometers?|nanometres?)\s*\??\s*$/osi) {
$self->convertNanometers($event, $1);
} elsif ($message =~ m/^\s*(-?(?:[0-9]+\.?|[0-9]+\.[0-9]+|\.[0-9]+)(?:e-?[0-9]+)?)\s*(?:mms?|millimeters?|millimetres?)\s*\??\s*$/osi) {
$self->convertMillimeters($event, $1);
} elsif ($message =~ m/^\s*(-?(?:[0-9]+\.?|[0-9]+\.[0-9]+|\.[0-9]+)(?:e-?[0-9]+)?)\s*(?:cms?|centimeters?|centimetres?)\s*\??\s*$/osi) {
$self->convertCentieters($event, $1);
} elsif ($message =~ m/^\s*(-?(?:[0-9]+\.?|[0-9]+\.[0-9]+|\.[0-9]+)(?:e-?[0-9]+)?)\s*(?:m|meters?|metres?)\s*\??\s*$/osi) {
$self->convertMeters($event, $1);
} elsif ($message =~ m/^\s*(-?(?:[0-9]+\.?|[0-9]+\.[0-9]+|\.[0-9]+)(?:e-?[0-9]+)?)\s*(?:kms?|kilometers?|kilometres?|klic?ks?)\s*\??\s*$/osi) {
$self->convertKilometers($event, $1);
# oh well
} else {
return $self->SUPER::Told(@_);
}
return 0;
}
# Integers
sub convertDecimal {
my $self = shift;
my($event, $decimal) = @_;
my $hex = sprintf('%X', $decimal);
my $octal = sprintf('%o', $decimal);
my $binary = sprintf('%b', $decimal);
$self->say($event, "$event->{'from'}: $decimal = 0x$hex, 0$octal, 0b$binary");
}
sub convertHex {
my $self = shift;
my($event, $hex) = @_;
my $decimal = hex($hex);
my $hex = sprintf('%X', $decimal); # normalise
my $octal = sprintf('%o', $decimal);
my $binary = sprintf('%b', $decimal);
$self->say($event, "$event->{'from'}: 0x$hex = $decimal, 0$octal, 0b$binary");
}
sub convertOctal {
my $self = shift;
my($event, $octal) = @_;
my $decimal = oct("0$octal");
my $hex = sprintf('%X', $decimal);
my $binary = sprintf('%b', $decimal);
$self->say($event, "$event->{'from'}: 0$octal = $decimal, 0x$hex, 0b$binary");
}
sub convertBinary {
my $self = shift;
my($event, $binary) = @_;
my $decimal = oct("0b$binary");
my $hex = sprintf('%X', $decimal);
my $octal = sprintf('%o', $decimal);
$self->say($event, "$event->{'from'}: 0b$binary = $decimal, 0x$hex, 0$octal");
}
# Temperature
sub convertKelvin {
my $self = shift;
my($event, $kelvin) = @_;
my $celsius = round(1, $kelvin - 273.14);
my $fahrenheit = round(1, ($kelvin - 273.14) * 9 / 5 + 32);
my $kelvin = round(1, $kelvin); # normalise
my $prognosis = diagnoseTemperature($kelvin, $celsius, $fahrenheit);
$self->say($event, "$event->{'from'}: ${kelvin}K = $celsius°C, $fahrenheit°F, $prognosis");
}
sub convertCelsius {
my $self = shift;
my($event, $celsius) = @_;
my $kelvin = round(1, $celsius + 273.14);
my $fahrenheit = round(1, $celsius * 9 / 5 + 32);
my $celsius = round(1, $celsius); # normalise
my $prognosis = diagnoseTemperature($kelvin, $celsius, $fahrenheit);
$self->say($event, "$event->{'from'}: $celsius°C = ${kelvin}K, $fahrenheit°F, $prognosis");
}
sub convertFahrenheit {
my $self = shift;
my($event, $fahrenheit) = @_;
my $celsius = round(1, ($fahrenheit - 32) * 5 / 9);
my $kelvin = round(1, ($fahrenheit - 32) * 5 / 9 + 273.14);
my $fahrenheit = round(1, $fahrenheit); # normalise
my $prognosis = diagnoseTemperature($kelvin, $celsius, $fahrenheit);
$self->say($event, "$event->{'from'}: $fahrenheit°F = ${kelvin}K, $celsius°C, $prognosis");
}
sub diagnoseTemperature($$$) {
my($kelvin, $celsius, $fahrenheit) = @_;
return
$kelvin < 0 ? 'an impossible temperature' :
$kelvin == 0 ? 'absolute zero' :
$fahrenheit < 0 ? 'extremely cold' :
$celsius < 0 ? 'freezing cold' :
$celsius == 0 ? 'freezing point of water' :
$celsius < 18 ? 'cold' :
$celsius == 20 ? 'standard room temperature' :
$celsius < 35 ? 'warm' :
$celsius < 36 ? 'body temperature' :
$celsius < 65 ? 'hot' :
$celsius < 95 ? 'very hot' :
$celsius == 100 ? 'boiling point of water' :
$celsius < 105 ? 'boiling hot' :
'ridiculously hot';
}
# Imperial Lengths
sub convertInches {
my $self = shift;
my($event, $inches) = @_;
# imperial
# (inches)
my $feet = sigfig(3, $inches / 12.0);
my $yards = sigfig(3, $inches / 36.0);
my $miles = sigfig(3, $inches / 190080.0);
# metric
my $kilometers = sigfig(3, $inches * 0.00000254);
my $meters = sigfig(3, $inches * 0.00254);
my $centimeters = sigfig(3, $inches * 0.254);
my $millimeters = sigfig(3, $inches * 2.54);
my $nanometers = sigfig(3, $inches * 2540000.0);
my $angstroms = sigfig(3, $inches * 25400000.0);
# normalise
my $inches = sigfig(3, $inches);
$self->say($event, "$event->{'from'}: ${inches}in = ${feet}ft, ${yards}yd, ${miles}mi; ${kilometers}Km, ${meters}m, ${centimeters}cm, ${millimeters}mm, ${nanometers}nm, ${angstroms}Å (to 3sf)");
}
sub convertFeet {
my $self = shift;
my($event, $feet) = @_;
# imperial
my $inches = sigfig(3, $feet * 12.0);
# (feet)
my $yards = sigfig(3, $feet / 3.0);
my $miles = sigfig(3, $feet / 15840.0);
# metric
my $kilometers = sigfig(3, $feet * 0.00000254 * 12.0);
my $meters = sigfig(3, $feet * 0.00254 * 12.0);
my $centimeters = sigfig(3, $feet * 0.254 * 12.0);
my $millimeters = sigfig(3, $feet * 2.54 * 12.0);
my $nanometers = sigfig(3, $feet * 2540000.0 * 12.0);
my $angstroms = sigfig(3, $feet * 25400000.0 * 12.0);
# normalise
my $feet = sigfig(3, $feet);
$self->say($event, "$event->{'from'}: ${feet}ft = ${inches}in, ${yards}yd, ${miles}mi, ${kilometers}Km, ${meters}m, ${centimeters}cm, ${millimeters}mm, ${nanometers}nm, ${angstroms}Å (to 3sf)");
}
sub convertYards {
my $self = shift;
my($event, $yards) = @_;
# imperial
my $inches = sigfig(3, $yards * 36.0);
my $feet = sigfig(3, $yards * 3.0);
# (yards)
my $miles = sigfig(3, $yards / 5280.0);
# metric
my $kilometers = sigfig(3, $yards * 0.0000000254 * 36.0);
my $meters = sigfig(3, $yards * 0.00254 * 36.0);
my $centimeters = sigfig(3, $yards * 0.254 * 36.0);
my $millimeters = sigfig(3, $yards * 2.54 * 36.0);
my $nanometers = sigfig(3, $yards * 2540000.0 * 36.0);
my $angstroms = sigfig(3, $yards * 25400000.0 * 36.0);
# normalise
my $yards = sigfig(3, $yards);
$self->say($event, "$event->{'from'}: ${yards}yd = ${inches}in, ${feet}ft, ${miles}mi, ${kilometers}Km, ${meters}m, ${centimeters}cm, ${millimeters}mm, ${nanometers}nm, ${angstroms}Å (to 3sf)");
}
sub convertMiles {
my $self = shift;
my($event, $miles) = @_;
# imperial
my $inches = sigfig(3, $miles * 190080.0);
my $feet = sigfig(3, $miles * 15840.0);
my $yards = sigfig(3, $miles * 5280.0);
# (miles)
# metric
my $kilometers = sigfig(3, $miles * 0.00000254 * 190080.0);
my $meters = sigfig(3, $miles * 0.00254 * 190080.0);
my $centimeters = sigfig(3, $miles * 0.254 * 190080.0);
my $millimeters = sigfig(3, $miles * 2.54 * 190080.0);
my $nanometers = sigfig(3, $miles * 2540000.0 * 190080.0);
my $angstroms = sigfig(3, $miles * 25400000.0 * 190080.0);
# normalise
my $miles = sigfig(3, $miles);
$self->say($event, "$event->{'from'}: ${miles}mi = ${inches}in, ${feet}ft, ${yards}yd, ${kilometers}Km, ${meters}m, ${centimeters}cm, ${millimeters}mm, ${nanometers}nm, ${angstroms}Å (to 3sf)");
}
# Metric Lengths
sub convertAngstroms {
my $self = shift;
my($event, $input) = @_;
# get the number
my $accurateMeters = $input / 10000000000.0;
$self->debug("Accurate KiloMeters: ".$accurateMeters/1000);
# imperial
my $inches = sigfig(3, $accurateMeters / (0.00254 * 1.0));
my $feet = sigfig(3, $accurateMeters / (0.00254 * 12.0));
my $yards = sigfig(3, $accurateMeters / (0.00254 * 36.0));
my $miles = sigfig(3, $accurateMeters / (0.00254 * 190080.0));
# metric
my $kilometers = sigfig(3, $accurateMeters / 1000.0);
my $meters = sigfig(3, $accurateMeters);
my $centimeters = sigfig(3, $accurateMeters * 100.0);
my $millimeters = sigfig(3, $accurateMeters * 1000.0);
my $nanometers = sigfig(3, $accurateMeters * 1000000000.0);
my $angstroms = sigfig(3, $accurateMeters * 10000000000.0);
$self->say($event, "$event->{'from'}: ${angstroms}Å = ${inches}in, ${feet}ft, ${yards}yd, ${miles}mi; ${kilometers}Km, ${meters}m, ${centimeters}cm, ${millimeters}mm, ${nanometers}nm (to 3sf)");
}
sub convertNanometers {
my $self = shift;
my($event, $input) = @_;
# get the number
my $accurateMeters = $input / 1000000000.0;
# imperial
my $inches = sigfig(3, $accurateMeters / (0.00254 * 1.0));
my $feet = sigfig(3, $accurateMeters / (0.00254 * 12.0));
my $yards = sigfig(3, $accurateMeters / (0.00254 * 36.0));
my $miles = sigfig(3, $accurateMeters / (0.00254 * 190080.0));
# metric
my $kilometers = sigfig(3, $accurateMeters / 1000.0);
my $meters = sigfig(3, $accurateMeters);
my $centimeters = sigfig(3, $accurateMeters * 100.0);
my $millimeters = sigfig(3, $accurateMeters * 1000.0);
my $nanometers = sigfig(3, $accurateMeters * 1000000000.0);
my $angstroms = sigfig(3, $accurateMeters * 10000000000.0);
$self->say($event, "$event->{'from'}: ${nanometers}nm = ${inches}in, ${feet}ft, ${yards}yd, ${miles}mi; ${kilometers}Km, ${meters}m, ${centimeters}cm, ${millimeters}mm, ${angstroms}Å (to 3sf)");
}
sub convertMillimeters {
my $self = shift;
my($event, $input) = @_;
# get the number
my $accurateMeters = $input / 1000.0;
# imperial
my $inches = sigfig(3, $accurateMeters / (0.00254 * 1.0));
my $feet = sigfig(3, $accurateMeters / (0.00254 * 12.0));
my $yards = sigfig(3, $accurateMeters / (0.00254 * 36.0));
my $miles = sigfig(3, $accurateMeters / (0.00254 * 190080.0));
# metric
my $kilometers = sigfig(3, $accurateMeters / 1000.0);
my $meters = sigfig(3, $accurateMeters);
my $centimeters = sigfig(3, $accurateMeters * 100.0);
my $millimeters = sigfig(3, $accurateMeters * 1000.0);
my $nanometers = sigfig(3, $accurateMeters * 1000000000.0);
my $angstroms = sigfig(3, $accurateMeters * 10000000000.0);
$self->say($event, "$event->{'from'}: ${millimeters}mm = ${inches}in, ${feet}ft, ${yards}yd, ${miles}mi; ${kilometers}Km, ${meters}m, ${centimeters}cm, ${nanometers}nm, ${angstroms}Å (to 3sf)");
}
sub convertCentieters {
my $self = shift;
my($event, $input) = @_;
# get the number
my $accurateMeters = $input / 100.0;
# imperial
my $inches = sigfig(3, $accurateMeters / (0.00254 * 1.0));
my $feet = sigfig(3, $accurateMeters / (0.00254 * 12.0));
my $yards = sigfig(3, $accurateMeters / (0.00254 * 36.0));
my $miles = sigfig(3, $accurateMeters / (0.00254 * 190080.0));
# metric
my $kilometers = sigfig(3, $accurateMeters / 1000.0);
my $meters = sigfig(3, $accurateMeters);
my $centimeters = sigfig(3, $accurateMeters * 100.0);
my $millimeters = sigfig(3, $accurateMeters * 1000.0);
my $nanometers = sigfig(3, $accurateMeters * 1000000000.0);
my $angstroms = sigfig(3, $accurateMeters * 10000000000.0);
$self->say($event, "$event->{'from'}: ${centimeters}cm = ${inches}in, ${feet}ft, ${yards}yd, ${miles}mi; ${kilometers}Km, ${meters}m, ${millimeters}mm, ${nanometers}nm, ${angstroms}Å (to 3sf)");
}
sub convertMeters {
my $self = shift;
my($event, $input) = @_;
# get the number
my $accurateMeters = $input * 1.0;
# imperial
my $inches = sigfig(3, $accurateMeters / (0.00254 * 1.0));
my $feet = sigfig(3, $accurateMeters / (0.00254 * 12.0));
my $yards = sigfig(3, $accurateMeters / (0.00254 * 36.0));
my $miles = sigfig(3, $accurateMeters / (0.00254 * 190080.0));
# metric
my $kilometers = sigfig(3, $accurateMeters / 1000.0);
my $meters = sigfig(3, $accurateMeters);
my $centimeters = sigfig(3, $accurateMeters * 100.0);
my $millimeters = sigfig(3, $accurateMeters * 1000.0);
my $nanometers = sigfig(3, $accurateMeters * 1000000000.0);
my $angstroms = sigfig(3, $accurateMeters * 10000000000.0);
$self->say($event, "$event->{'from'}: ${meters}m = ${inches}in, ${feet}ft, ${yards}yd, ${miles}mi; ${kilometers}Km, ${centimeters}cm, ${millimeters}mm, ${nanometers}nm, ${angstroms}Å (to 3sf)");
}
sub convertKilometers {
my $self = shift;
my($event, $input) = @_;
# get the number
my $accurateMeters = $input * 1000.0;
# imperial
my $inches = sigfig(3, $accurateMeters / (0.00254 * 1.0));
my $feet = sigfig(3, $accurateMeters / (0.00254 * 12.0));
my $yards = sigfig(3, $accurateMeters / (0.00254 * 36.0));
my $miles = sigfig(3, $accurateMeters / (0.00254 * 190080.0));
# metric
my $kilometers = sigfig(3, $accurateMeters / 1000.0);
my $meters = sigfig(3, $accurateMeters);
my $centimeters = sigfig(3, $accurateMeters * 100.0);
my $millimeters = sigfig(3, $accurateMeters * 1000.0);
my $nanometers = sigfig(3, $accurateMeters * 1000000000.0);
my $angstroms = sigfig(3, $accurateMeters * 10000000000.0);
$self->say($event, "$event->{'from'}: ${kilometers}km = ${inches}in, ${feet}ft, ${yards}yd, ${miles}mi; ${meters}m, ${centimeters}cm, ${millimeters}mm, ${nanometers}nm, ${angstroms}Å (to 3sf)");
}
# Utility Functions
sub round($$) {
return sprintf("%.*f", @_);
}
sub sigfig($$) {
my($sf, $float) = @_;
my $length = length(int($float));
if ($length == $sf) {
$float = int($float);
} elsif ($length > $sf) {
my $factor = (10 ** ($length - $sf));
$float = int($float / $factor) * $factor;
} else {
my $factor = 0;
while (length(int($float * 10 ** $factor)) < $sf) {
$factor++;
}
$float = int($float * 10 ** $factor) / (10 ** $factor);
}
$float = sprintf("%g", $float);
$float =~ s/e(?:\+|(-))0*/x10^$1/os;
return $float;
}