use std::iter::Peekable;
use std::str::FromStr;
use decimal::d128;
use crate::Token;
use crate::Operator::{Caret, Divide, LeftParen, Minus, Modulo, Multiply, Plus, RightParen};
use crate::UnaryOperator::{Percent, Factorial};
use crate::TextOperator::{Of, To};
use crate::NamedNumber::*;
use crate::Constant::{E, Pi};
use crate::LexerKeyword::{In, PercentChar, Per, Mercury, Hg, PoundForce, Force, DoubleQuotes, Revolution};
use crate::FunctionIdentifier::{Cbrt, Ceil, Cos, Exp, Abs, Floor, Ln, Log, Round, Sin, Sqrt, Tan};
use crate::units::Unit;
use crate::units::Unit::*;
use unicode_segmentation::{Graphemes, UnicodeSegmentation};
fn is_word_char_str(input: &str) -> bool {
let x = match input {
"A" | "B" | "C" | "D" | "E" | "F" | "G" | "H" | "I" | "J" | "K" | "L"
| "M" | "N" | "O" | "P" | "Q" | "R" | "S" | "T" | "U" | "V" | "W" | "X"
| "Y" | "Z" => true,
"a" | "b" | "c" | "d" | "e" | "f" | "g" | "h" | "i" | "j" | "k" | "l"
| "m" | "n" | "o" | "p" | "q" | "r" | "s" | "t" | "u" | "v" | "w" | "x"
| "y" | "z" => true,
"Ω" | "Ω" | "µ" | "μ" => true,
_ => false,
};
return x;
}
fn is_numeric_str(input: &str) -> bool {
match input {
"." => true,
"0" | "1" | "2" | "3" | "4" | "5" | "6" | "7" | "8" | "9" => true,
_ => false,
}
}
fn read_word_plain(chars: &mut Peekable<Graphemes>) -> String {
let mut word = String::new();
while let Some(next_char) = chars.peek() {
if is_word_char_str(&next_char) {
word += chars.next().unwrap();
} else {
break;
}
}
return word;
}
fn read_word(first_c: &str, lexer: &mut Lexer) -> String {
let chars = &mut lexer.chars;
let mut word = first_c.trim().to_owned();
if word == "" {
while let Some(current_char) = chars.peek() {
if current_char.trim().is_empty() {
chars.next();
} else {
break;
}
}
}
while let Some(next_char) = chars.peek() {
if is_word_char_str(&next_char) {
word += chars.next().unwrap();
} else {
break;
}
}
if word != "" {
match *chars.peek().unwrap_or(&"") {
"2" | "²" => {
word += "2";
chars.next();
},
"3" | "³" => {
word += "3";
chars.next();
},
_ => {},
}
}
return word;
}
fn parse_token(c: &str, lexer: &mut Lexer) -> Result<(), String> {
let tokens = &mut lexer.tokens;
match c {
value if value.trim().is_empty() => {},
value if is_word_char_str(&value) => {
parse_word(read_word(c, lexer).as_str(), lexer)?;
},
value if is_numeric_str(value) => {
let mut number_string = value.to_owned();
while let Some(number_char) = lexer.chars.peek() {
if is_numeric_str(number_char) {
number_string += number_char;
lexer.chars.next();
} else {
break;
}
}
d128::set_status(decimal::Status::empty());
match d128::from_str(&number_string) {
Ok(number) => {
if d128::get_status().is_empty() {
tokens.push(Token::Number(number));
} else {
return Err(format!("Error lexing d128 number: {}", number_string));
}
},
Err(_e) => {
return Err(format!("Error lexing d128 number: {}", number_string));
}
};
},
"+" => tokens.push(Token::Operator(Plus)),
"-" => tokens.push(Token::Operator(Minus)),
"*" => tokens.push(Token::Operator(Multiply)),
"/" | "÷" => tokens.push(Token::Operator(Divide)),
"%" => tokens.push(Token::LexerKeyword(PercentChar)),
"^" => tokens.push(Token::Operator(Caret)),
"!" => tokens.push(Token::UnaryOperator(Factorial)),
"(" => {
tokens.push(Token::Operator(LeftParen));
},
")" => {
tokens.push(Token::Operator(RightParen));
},
"π" => tokens.push(Token::Constant(Pi)),
"'" => tokens.push(Token::Unit(Foot)),
"\"" | "“" | "”" | "″" => tokens.push(Token::LexerKeyword(DoubleQuotes)),
_ => {
return Err(format!("Invalid character: {}", c));
},
}
Ok(())
}
fn parse_word_if_non_empty(word: &str, lexer: &mut Lexer) -> Result<(), String> {
match word {
"" => Ok(()),
_ => parse_word(word, lexer)
}
}
fn parse_word(word: &str, lexer: &mut Lexer) -> Result<(), String> {
let token = match word {
"to" => Token::TextOperator(To),
"of" => Token::TextOperator(Of),
"hundred" => Token::NamedNumber(Hundred),
"thousand" => Token::NamedNumber(Thousand),
"mil" | "mill" | "million" => Token::NamedNumber(Million),
"bil" | "bill" | "billion" => Token::NamedNumber(Billion),
"tri" | "tril" | "trillion" => Token::NamedNumber(Trillion),
"quadrillion" => Token::NamedNumber(Quadrillion),
"quintillion" => Token::NamedNumber(Quintillion),
"sextillion" => Token::NamedNumber(Sextillion),
"septillion" => Token::NamedNumber(Septillion),
"octillion" => Token::NamedNumber(Octillion),
"nonillion" => Token::NamedNumber(Nonillion),
"decillion" => Token::NamedNumber(Decillion),
"undecillion" => Token::NamedNumber(Undecillion),
"duodecillion" => Token::NamedNumber(Duodecillion),
"tredecillion" => Token::NamedNumber(Tredecillion),
"quattuordecillion" => Token::NamedNumber(Quattuordecillion),
"quindecillion" => Token::NamedNumber(Quindecillion),
"sexdecillion" => Token::NamedNumber(Sexdecillion),
"septendecillion" => Token::NamedNumber(Septendecillion),
"octodecillion" => Token::NamedNumber(Octodecillion),
"novemdecillion" => Token::NamedNumber(Novemdecillion),
"vigintillion" => Token::NamedNumber(Vigintillion),
"centillion" => Token::NamedNumber(Centillion),
"googol" => Token::NamedNumber(Googol),
"pi" => Token::Constant(Pi),
"e" => Token::Constant(E),
"plus" => Token::Operator(Plus),
"minus" => Token::Operator(Minus),
"times" => Token::Operator(Multiply),
"multiplied" => {
match read_word("", lexer).as_str() {
"by" => Token::Operator(Multiply),
string => return Err(format!("Invalid string: {}", string)),
}
},
"divided" => {
match read_word("", lexer).as_str() {
"by" => Token::Operator(Divide),
string => return Err(format!("Invalid string: {}", string)),
}
},
"mod" => Token::Operator(Modulo),
"sqrt" => Token::FunctionIdentifier(Sqrt),
"cbrt" => Token::FunctionIdentifier(Cbrt),
"log" => Token::FunctionIdentifier(Log),
"ln" => Token::FunctionIdentifier(Ln),
"exp" => Token::FunctionIdentifier(Exp),
"round" | "rint" => Token::FunctionIdentifier(Round),
"ceil" => Token::FunctionIdentifier(Ceil),
"floor" => Token::FunctionIdentifier(Floor),
"abs" | "fabs" => Token::FunctionIdentifier(Abs),
"sin" => Token::FunctionIdentifier(Sin),
"cos" => Token::FunctionIdentifier(Cos),
"tan" => Token::FunctionIdentifier(Tan),
"per" => Token::LexerKeyword(Per),
"hg" => Token::LexerKeyword(Hg),
"ns" | "nanosec" | "nanosecs" | "nanosecond" | "nanoseconds" => Token::Unit(Nanosecond),
"µs" | "μs" | "microsec" | "microsecs" | "microsecond" | "microseconds" => Token::Unit(Microsecond),
"ms" | "millisec" | "millisecs" | "millisecond" | "milliseconds" => Token::Unit(Millisecond),
"s" | "sec" | "secs" | "second" | "seconds" => Token::Unit(Second),
"min" | "mins" | "minute" | "minutes" => Token::Unit(Minute),
"h" | "hr" | "hrs" | "hour" | "hours" => Token::Unit(Hour),
"day" | "days" => Token::Unit(Day),
"wk" | "wks" | "week" | "weeks" => Token::Unit(Week),
"mo" | "mos" | "month" | "months" => Token::Unit(Month),
"q" | "quarter" | "quarters" => Token::Unit(Quarter),
"yr" | "yrs" | "year" | "years" => Token::Unit(Year),
"decade" | "decades" => Token::Unit(Decade),
"century" | "centuries" => Token::Unit(Century),
"millenium" | "millenia" | "milleniums" => Token::Unit(Millenium),
"mm" | "millimeter" | "millimeters" | "millimetre" | "millimetres" => Token::Unit(Millimeter),
"cm" | "centimeter" | "centimeters" | "centimetre" | "centimetres" => Token::Unit(Centimeter),
"dm" | "decimeter" | "decimeters" | "decimetre" | "decimetres" => Token::Unit(Decimeter),
"m" | "meter" | "meters" | "metre" | "metres" => Token::Unit(Meter),
"km" | "kilometer" | "kilometers" | "kilometre" | "kilometres" => Token::Unit(Kilometer),
"in" => Token::LexerKeyword(In),
"inch" | "inches" => Token::Unit(Inch),
"ft" | "foot" | "feet" => Token::Unit(Foot),
"yd" | "yard" | "yards" => Token::Unit(Yard),
"mi" | "mile" | "miles" => Token::Unit(Mile),
"nmi" => Token::Unit(NauticalMile),
"nautical" => {
match read_word("", lexer).as_str() {
"mile" | "miles" => Token::Unit(NauticalMile),
string => return Err(format!("Invalid string: {}", string)),
}
},
"ly" | "lightyear" | "lightyears" => Token::Unit(LightYear),
"lightsec" | "lightsecs" | "lightsecond" | "lightseconds" => Token::Unit(LightSecond),
"light" => {
match read_word("", lexer).as_str() {
"yr" | "yrs" | "year" | "years" => Token::Unit(LightYear),
"sec" | "secs" | "second" | "seconds" => Token::Unit(LightSecond),
string => return Err(format!("Invalid string: {}", string)),
}
}
"sqmm" | "mm2" | "millimeter2" | "millimeters2" | "millimetre2" | "millimetres2" => Token::Unit(SquareMillimeter),
"sqcm" | "cm2" | "centimeter2" | "centimeters2" | "centimetre2" | "centimetres2" => Token::Unit(SquareCentimeter),
"sqdm" | "dm2" | "decimeter2" | "decimeters2" | "decimetre2" | "decimetres2" => Token::Unit(SquareDecimeter),
"sqm" | "m2" | "meter2" | "meters2" | "metre2" | "metres2" => Token::Unit(SquareMeter),
"sqkm" | "km2" | "kilometer2" | "kilometers2" | "kilometre2" | "kilometres2" => Token::Unit(SquareKilometer),
"sqin" | "in2" | "inch2" | "inches2" => Token::Unit(SquareInch),
"sqft" | "ft2" | "foot2" | "feet2" => Token::Unit(SquareFoot),
"sqyd" | "yd2" | "yard2" | "yards2" => Token::Unit(SquareYard),
"sqmi" | "mi2" | "mile2" | "miles2" => Token::Unit(SquareMile),
"sq" | "square" => {
match read_word("", lexer).as_str() {
"mm" | "millimeter" | "millimeters" | "millimetre" | "millimetres" => Token::Unit(SquareMillimeter),
"cm" | "centimeter" | "centimeters" | "centimetre" | "centimetres" => Token::Unit(SquareCentimeter),
"dm" | "decimeter" | "decimeters" | "decimetre" | "decimetres" => Token::Unit(SquareDecimeter),
"m" | "meter" | "meters" | "metre" | "metres" => Token::Unit(SquareMeter),
"km" | "kilometer" | "kilometers" | "kilometre" | "kilometres" => Token::Unit(SquareKilometer),
"in" | "inch" | "inches" => Token::Unit(SquareInch),
"ft" | "foot" | "feet" => Token::Unit(SquareFoot),
"yd" | "yard" | "yards" => Token::Unit(SquareYard),
"mi" | "mile" | "miles" => Token::Unit(SquareMile),
string => return Err(format!("Invalid string: {}", string)),
}
}
"are" | "ares" => Token::Unit(Are),
"decare" | "decares" => Token::Unit(Decare),
"ha" | "hectare" | "hectares" => Token::Unit(Hectare),
"acre" | "acres" => Token::Unit(Acre),
"mm3" | "millimeter3" | "millimeters3" | "millimetre3" | "millimetres3" => Token::Unit(CubicMillimeter),
"cm3" | "centimeter3" | "centimeters3" | "centimetre3" | "centimetres3" => Token::Unit(CubicCentimeter),
"dm3" | "decimeter3" | "decimeters3" | "decimetre3" | "decimetres3" => Token::Unit(CubicDecimeter),
"m3" | "meter3" | "meters3" | "metre3" | "metres3" => Token::Unit(CubicMeter),
"km3" | "kilometer3" | "kilometers3" | "kilometre3" | "kilometres3" => Token::Unit(CubicKilometer),
"inc3" | "inch3" | "inches3" => Token::Unit(CubicInch),
"ft3" | "foot3" | "feet3" => Token::Unit(CubicFoot),
"yd3" | "yard3" | "yards3" => Token::Unit(CubicYard),
"mi3" | "mile3" | "miles3" => Token::Unit(CubicMile),
"cubic" => {
match read_word("", lexer).as_str() {
"mm" | "millimeter" | "millimeters" | "millimetre" | "millimetres" => Token::Unit(CubicMillimeter),
"cm" | "centimeter" | "centimeters" | "centimetre" | "centimetres" => Token::Unit(CubicCentimeter),
"dm" | "decimeter" | "decimeters" | "decimetre" | "decimetres" => Token::Unit(CubicDecimeter),
"m" | "meter" | "meters" | "metre" | "metres" => Token::Unit(CubicMeter),
"km" | "kilometer" | "kilometers" | "kilometre" | "kilometres" => Token::Unit(CubicKilometer),
"in" | "inch" | "inches" => Token::Unit(CubicInch),
"ft" | "foot" | "feet" => Token::Unit(CubicFoot),
"yd" | "yard" | "yards" => Token::Unit(CubicYard),
"mi" | "mile" | "miles" => Token::Unit(CubicMile),
string => return Err(format!("Invalid string: {}", string)),
}
},
"ml" | "milliliter" | "milliliters" | "millilitre" | "millilitres" => Token::Unit(Milliliter),
"cl" | "centiliter" | "centiliters" | "centilitre" | "centilitres" => Token::Unit(Centiliter),
"dl" | "deciliter" | "deciliters" | "decilitre" | "decilitres" => Token::Unit(Deciliter),
"l" | "liter" | "liters" | "litre" | "litres" => Token::Unit(Liter),
"ts" | "tsp" | "tspn" | "tspns" | "teaspoon" | "teaspoons" => Token::Unit(Teaspoon),
"tbs" | "tbsp" | "tablespoon" | "tablespoons" => Token::Unit(Tablespoon),
"floz" => Token::Unit(FluidOunce),
"fl" | "fluid" => {
match read_word("", lexer).as_str() {
"oz" | "ounce" | "ounces" => Token::Unit(FluidOunce),
string => return Err(format!("Invalid string: {}", string)),
}
},
"cup" | "cups" => Token::Unit(Cup),
"pt" | "pint" | "pints" => Token::Unit(Pint),
"qt" | "quart" | "quarts" => Token::Unit(Quart),
"gal" | "gallon" | "gallons" => Token::Unit(Gallon),
"bbl" => Token::Unit(OilBarrel),
"oil" => {
match read_word("", lexer).as_str() {
"barrel" | "barrels" => Token::Unit(OilBarrel),
string => return Err(format!("Invalid string: {}", string)),
}
},
"metric" => {
match read_word("", lexer).as_str() {
"ton" | "tons" | "tonne" | "tonnes" => Token::Unit(MetricTon),
"hp" | "hps" | "horsepower" | "horsepowers" => Token::Unit(MetricHorsepower),
string => return Err(format!("Invalid string: {}", string)),
}
},
"mg" | "milligram" | "milligrams" => Token::Unit(Milligram),
"g" | "gram" | "grams" => Token::Unit(Gram),
"hectogram" | "hectograms" => Token::Unit(Hectogram),
"kg" | "kilo" | "kilos" | "kilogram" | "kilograms" => Token::Unit(Kilogram),
"t" | "tonne" | "tonnes" => Token::Unit(MetricTon),
"oz" | "ounces" => Token::Unit(Ounce),
"lb" | "lbs" => Token::Unit(Pound),
"pound" | "pounds" => {
match lexer.chars.next() {
Some("-") => {
match read_word_plain(&mut lexer.chars).as_str() {
"force" => Token::LexerKeyword(PoundForce),
other => {
lexer.tokens.push(Token::Unit(Pound));
lexer.tokens.push(Token::Operator(Minus));
parse_word_if_non_empty(&other, lexer)?;
return Ok(());
}
}
},
Some(c) => {
lexer.tokens.push(Token::Unit(Pound));
parse_token(c, lexer)?;
return Ok(());
},
None => {
lexer.tokens.push(Token::Unit(Pound));
return Ok(());
},
}
},
"stone" | "stones" => Token::Unit(Stone),
"st" | "ton" | "tons" => Token::Unit(ShortTon),
"short" => {
match read_word("", lexer).as_str() {
"ton" | "tons" | "tonne" | "tonnes" => Token::Unit(ShortTon),
string => return Err(format!("Invalid string: {}", string)),
}
},
"lt" => Token::Unit(LongTon),
"long" => {
match read_word("", lexer).as_str() {
"ton" | "tons" | "tonne" | "tonnes" => Token::Unit(LongTon),
string => return Err(format!("Invalid string: {}", string)),
}
},
"bit" | "bits" => Token::Unit(Bit),
"kbit" | "kilobit" | "kilobits" => Token::Unit(Kilobit),
"mbit" | "megabit" | "megabits" => Token::Unit(Megabit),
"gbit" | "gigabit" | "gigabits" => Token::Unit(Gigabit),
"tbit" | "terabit" | "terabits" => Token::Unit(Terabit),
"pbit" | "petabit" | "petabits" => Token::Unit(Petabit),
"ebit" | "exabit" | "exabits" => Token::Unit(Exabit),
"zbit" | "zettabit" | "zettabits" => Token::Unit(Zettabit),
"ybit" | "yottabit" | "yottabits" => Token::Unit(Yottabit),
"kibit" | "kibibit" | "kibibits" => Token::Unit(Kibibit),
"mibit" | "mebibit" | "mebibits" => Token::Unit(Mebibit),
"gibit" | "gibibit" | "gibibits" => Token::Unit(Gibibit),
"tibit" | "tebibit" | "tebibits" => Token::Unit(Tebibit),
"pibit" | "pebibit" | "pebibits" => Token::Unit(Pebibit),
"eibit" | "exbibit" | "exbibits" => Token::Unit(Exbibit),
"zibit" | "zebibit" | "zebibits" => Token::Unit(Zebibit),
"yibit" | "yobibit" | "yobibits" => Token::Unit(Yobibit),
"byte" | "bytes" => Token::Unit(Byte),
"kb" | "kilobyte" | "kilobytes" => Token::Unit(Kilobyte),
"mb" | "megabyte" | "megabytes" => Token::Unit(Megabyte),
"gb" | "gigabyte" | "gigabytes" => Token::Unit(Gigabyte),
"tb" | "terabyte" | "terabytes" => Token::Unit(Terabyte),
"pb" | "petabyte" | "petabytes" => Token::Unit(Petabyte),
"eb" | "exabyte" | "exabytes" => Token::Unit(Exabyte),
"zb" | "zettabyte" | "zettabytes" => Token::Unit(Zettabyte),
"yb" | "yottabyte" | "yottabytes" => Token::Unit(Yottabyte),
"kib" | "kibibyte" | "kibibytes" => Token::Unit(Kibibyte),
"mib" | "mebibyte" | "mebibytes" => Token::Unit(Mebibyte),
"gib" | "gibibyte" | "gibibytes" => Token::Unit(Gibibyte),
"tib" | "tebibyte" | "tebibytes" => Token::Unit(Tebibyte),
"pib" | "pebibyte" | "pebibytes" => Token::Unit(Pebibyte),
"eib" | "exbibyte" | "exbibytes" => Token::Unit(Exbibyte),
"zib" | "zebibyte" | "zebibytes" => Token::Unit(Zebibyte),
"yib" | "yobibyte" | "yobibytes" => Token::Unit(Yobibyte),
"millijoule" | "millijoules" => Token::Unit(Millijoule),
"j"| "joule" | "joules" => Token::Unit(Joule),
"nm" => Token::Unit(NewtonMeter),
"newton" => {
match lexer.chars.next() {
Some("-") => {
match read_word_plain(&mut lexer.chars).as_str() {
"meter" | "meters" | "metre" | "metres" => Token::Unit(NewtonMeter),
string => return Err(format!("Invalid string: {}", string)),
}
},
Some(c) => {
match read_word(c, lexer).as_str() {
"meter" | "meters" | "metre" | "metres" => Token::Unit(NewtonMeter),
string => return Err(format!("Invalid string: {}", string)),
}
},
None => return Err(format!("Invalid string: {}", word)),
}
},
"kj" | "kilojoule" | "kilojoules" => Token::Unit(Kilojoule),
"mj" | "megajoule" | "megajoules" => Token::Unit(Megajoule),
"gj" | "gigajoule" | "gigajoules" => Token::Unit(Gigajoule),
"tj" | "terajoule" | "terajoules" => Token::Unit(Terajoule),
"cal" | "calorie" | "calories" => Token::Unit(Calorie),
"kcal" | "kilocalorie" | "kilocalories" => Token::Unit(KiloCalorie),
"btu" => Token::Unit(BritishThermalUnit),
"british" => {
match read_word("", lexer).as_str() {
"thermal" => {
match read_word("", lexer).as_str() {
"unit" | "units" => Token::Unit(BritishThermalUnit),
string => return Err(format!("Invalid string: {}", string)),
}
},
string => return Err(format!("Invalid string: {}", string)),
}
},
"wh" => Token::Unit(WattHour),
"kwh" => Token::Unit(KilowattHour),
"mwh" => Token::Unit(MegawattHour),
"gwh" => Token::Unit(GigawattHour),
"twh" => Token::Unit(TerawattHour),
"pwh" => Token::Unit(PetawattHour),
"milliwatt" | "milliwatts" => Token::Unit(Milliwatt),
"w" | "watts" => Token::Unit(Watt),
"kw" | "kilowatts" => Token::Unit(Kilowatt),
"mw" | "megawatts" => Token::Unit(Megawatt),
"gw" | "gigawatts" => Token::Unit(Gigawatt),
"tw" | "terawatts" => Token::Unit(Terawatt),
"pw" | "petawatts" => Token::Unit(Petawatt),
"hp" | "hps" | "horsepower" | "horsepowers" => Token::Unit(Horsepower),
"mhp" | "hpm" => Token::Unit(MetricHorsepower),
"watt" => {
match read_word("", lexer).as_str() {
"hr" | "hrs" | "hour" | "hours" => Token::Unit(WattHour),
other => {
lexer.tokens.push(Token::Unit(Watt));
parse_word_if_non_empty(other, lexer)?;
return Ok(());
},
}
}
"kilowatt" => {
match read_word("", lexer).as_str() {
"hr" | "hrs" | "hour" | "hours" => Token::Unit(KilowattHour),
other => {
lexer.tokens.push(Token::Unit(Kilowatt));
parse_word_if_non_empty(other, lexer)?;
return Ok(());
},
}
}
"megawatt" => {
match read_word("", lexer).as_str() {
"hr" | "hrs" | "hour" | "hours" => Token::Unit(MegawattHour),
other => {
lexer.tokens.push(Token::Unit(Megawatt));
parse_word_if_non_empty(other, lexer)?;
return Ok(());
},
}
}
"gigawatt" => {
match read_word("", lexer).as_str() {
"hr" | "hrs" | "hour" | "hours" => Token::Unit(GigawattHour),
other => {
lexer.tokens.push(Token::Unit(Gigawatt));
parse_word_if_non_empty(other, lexer)?;
return Ok(());
},
}
}
"terawatt" => {
match read_word("", lexer).as_str() {
"hr" | "hrs" | "hour" | "hours" => Token::Unit(TerawattHour),
other => {
lexer.tokens.push(Token::Unit(Terawatt));
parse_word_if_non_empty(other, lexer)?;
return Ok(());
},
}
}
"petawatt" => {
match read_word("", lexer).as_str() {
"hr" | "hrs" | "hour" | "hours" => Token::Unit(PetawattHour),
other => {
lexer.tokens.push(Token::Unit(Petawatt));
parse_word_if_non_empty(other, lexer)?;
return Ok(());
},
}
}
"ma" | "milliamp" | "milliamps" | "milliampere" | "milliamperes" => Token::Unit(Milliampere),
"a" | "amp" | "amps" | "ampere" | "amperes" => Token::Unit(Ampere),
"ka" | "kiloamp" | "kiloamps" | "kiloampere" | "kiloamperes" => Token::Unit(Kiloampere),
"bi" | "biot" | "biots" | "aba" | "abampere" | "abamperes" => Token::Unit(Abampere),
"mΩ" | "mΩ" | "milliohm" | "milliohms" => Token::Unit(Milliohm),
"Ω" | "Ω" | "ohm" | "ohms" => Token::Unit(Ohm),
"kΩ" | "kΩ" | "kiloohm" | "kiloohms" => Token::Unit(Kiloohm),
"mv" | "millivolt" | "millivolts" => Token::Unit(Millivolt),
"v" | "volt" | "volts" => Token::Unit(Volt),
"kv" | "kilovolt" | "kilovolts" => Token::Unit(Kilovolt),
"lbf" => Token::LexerKeyword(PoundForce),
"force" => Token::LexerKeyword(Force),
"pa" | "pascal" | "pascals" => Token::Unit(Pascal),
"kpa" | "kilopascal" | "kilopascals" => Token::Unit(Kilopascal),
"atm" | "atms" | "atmosphere" | "atmospheres" => Token::Unit(Atmosphere),
"mbar" | "mbars" | "millibar" | "millibars" => Token::Unit(Millibar),
"bar" | "bars" => Token::Unit(Bar),
"inhg" => Token::Unit(InchOfMercury),
"mercury" => Token::LexerKeyword(Mercury),
"psi" => Token::Unit(PoundsPerSquareInch),
"torr" | "torrs" => Token::Unit(Torr),
"hz" | "hertz" => Token::Unit(Hertz),
"khz" | "kilohertz" => Token::Unit(Kilohertz),
"mhz" | "megahertz" => Token::Unit(Megahertz),
"ghz" | "gigahertz" => Token::Unit(Gigahertz),
"thz" | "terahertz" => Token::Unit(Terahertz),
"phz" | "petahertz" => Token::Unit(Petahertz),
"rpm" => Token::Unit(RevolutionsPerMinute),
"r" | "rev" | "revolution" | "revolutions" => Token::LexerKeyword(Revolution),
"kph" | "kmh" => Token::Unit(KilometersPerHour),
"mps" => Token::Unit(MetersPerSecond),
"mph" => Token::Unit(MilesPerHour),
"fps" => Token::Unit(FeetPerSecond),
"kn" | "kt" | "knot" | "knots" => Token::Unit(Knot),
"k" | "kelvin" | "kelvins" => Token::Unit(Kelvin),
"c" | "celsius" => Token::Unit(Celsius),
"f" | "fahrenheit" | "fahrenheits" => Token::Unit(Fahrenheit),
"deg" | "degree" | "degrees" => Token::Unit(lexer.default_degree),
string => {
return Err(format!("Invalid string: {}", string));
}
};
lexer.tokens.push(token);
return Ok(());
}
struct Lexer<'a> {
left_paren_count: u16,
right_paren_count: u16,
chars: Peekable<Graphemes<'a>>,
tokens: Vec<Token>,
default_degree: Unit,
}
pub fn lex(input: &str, remove_trailing_operator: bool, default_degree: Unit) -> Result<Vec<Token>, String> {
let mut input = input.replace(",", "").to_ascii_lowercase();
if remove_trailing_operator {
match &input.chars().last().unwrap_or('x') {
'+' | '-' | '*' | '/' | '^' | '(' => {
input.pop();
},
_ => {},
}
}
let mut lexer = Lexer {
left_paren_count: 0,
right_paren_count: 0,
chars: UnicodeSegmentation::graphemes(input.as_str(), true).peekable(),
tokens: Vec::new(),
default_degree,
};
while let Some(c) = lexer.chars.next() {
parse_token(c, &mut lexer)?;
}
let tokens = &mut lexer.tokens;
if lexer.left_paren_count > lexer.right_paren_count {
let missing_right_parens = lexer.left_paren_count - lexer.right_paren_count;
for _ in 0..missing_right_parens {
tokens.push(Token::Operator(RightParen));
}
} else if lexer.left_paren_count < lexer.right_paren_count {
let missing_left_parens = lexer.right_paren_count - lexer.left_paren_count;
for _ in 0..missing_left_parens {
tokens.insert(0, Token::Operator(LeftParen));
}
}
if tokens.len() == 0 {
return Err(format!("Input was empty"))
}
let mut token_index = 0;
loop {
match tokens[token_index] {
Token::LexerKeyword(PercentChar) => {
match tokens.get(token_index + 1) {
Some(Token::TextOperator(Of)) => {
tokens[token_index] = Token::UnaryOperator(Percent);
},
Some(Token::Operator(operator)) => {
match operator {
LeftParen => {
tokens[token_index] = Token::Operator(Modulo);
},
_ => {
tokens[token_index] = Token::UnaryOperator(Percent);
}
}
},
Some(Token::UnaryOperator(_)) => {
tokens[token_index] = Token::UnaryOperator(Percent);
},
Some(Token::LexerKeyword(PercentChar)) => {
tokens[token_index] = Token::UnaryOperator(Percent);
},
None => {
tokens[token_index] = Token::UnaryOperator(Percent);
},
_ => {
tokens[token_index] = Token::Operator(Modulo);
},
}
},
Token::LexerKeyword(DoubleQuotes) => {
match tokens.get(token_index + 1) {
Some(Token::LexerKeyword(Hg)) => {
tokens[token_index] = Token::Unit(InchOfMercury);
tokens.remove(token_index + 1);
},
_ => {
tokens[token_index] = Token::Unit(Inch);
},
}
},
Token::LexerKeyword(Hg) => {
tokens[token_index] = Token::Unit(Hectogram);
},
Token::LexerKeyword(In) => {
match tokens.get(token_index + 1) {
Some(Token::Unit(_)) => {
tokens[token_index] = Token::TextOperator(To);
},
_ => {
tokens[token_index] = Token::Unit(Inch);
},
}
},
_ => {},
}
if token_index >= 2 {
let token1 = &tokens[token_index-2];
let token2 = match &tokens[token_index-1] {
Token::Operator(Divide) => &Token::LexerKeyword(Per),
_ => &tokens[token_index-1],
};
let token3 = &tokens[token_index];
let mut replaced = true;
match (token1, token2, token3) {
(Token::Unit(Kilometer), Token::LexerKeyword(Per), Token::Unit(Hour)) => {
tokens[token_index-2] = Token::Unit(KilometersPerHour);
},
(Token::Unit(Mile), Token::LexerKeyword(Per), Token::Unit(Hour)) => {
tokens[token_index-2] = Token::Unit(MilesPerHour);
},
(Token::Unit(Meter), Token::LexerKeyword(Per), Token::Unit(Second)) => {
tokens[token_index-2] = Token::Unit(MetersPerSecond);
},
(Token::Unit(Foot), Token::LexerKeyword(Per), Token::Unit(Second)) => {
tokens[token_index-2] = Token::Unit(FeetPerSecond);
},
(Token::Unit(BritishThermalUnit), Token::LexerKeyword(Per), Token::Unit(Minute)) => {
tokens[token_index-2] = Token::Unit(BritishThermalUnitsPerMinute);
},
(Token::Unit(BritishThermalUnit), Token::LexerKeyword(Per), Token::Unit(Hour)) => {
tokens[token_index-2] = Token::Unit(BritishThermalUnitsPerHour);
},
(Token::LexerKeyword(PoundForce), Token::LexerKeyword(Per), Token::Unit(SquareInch)) => {
tokens[token_index-2] = Token::Unit(PoundsPerSquareInch);
},
(Token::Unit(Inch), Token::TextOperator(Of), Token::LexerKeyword(Mercury)) => {
tokens[token_index-2] = Token::Unit(InchOfMercury);
},
(Token::LexerKeyword(Revolution), Token::LexerKeyword(Per), Token::Unit(Minute)) => {
tokens[token_index-2] = Token::Unit(RevolutionsPerMinute);
},
_ => {
replaced = false;
},
}
if replaced {
tokens.remove(token_index);
tokens.remove(token_index-1);
token_index -= 2;
}
}
if token_index == tokens.len()-1 {
break;
} else {
token_index += 1;
}
}
Ok(lexer.tokens)
}
#[cfg(test)]
mod tests {
use super::*;
use crate::numtok;
use regex::Regex;
#[test]
fn test_lex() {
let strip_operator_spacing = Regex::new(r" ([+\-*/]) ").unwrap();
let strip_afterdigit_spacing = Regex::new(r"(\d) ").unwrap();
let run_lex = |input: &str, expected_tokens: Vec<Token>| {
let tokens = match lex(input, false, Unit::Celsius) {
Ok(tokens) => tokens,
Err(e) => {
panic!("lex error: {}\nrun_lex input: {}", e, input);
}
};
let info_msg = format!("run_lex input: {}\nexpected: {:?}\nreceived: {:?}", input, expected_tokens, tokens);
assert!(tokens == expected_tokens, "{}", info_msg);
let input_extra_spaces = input.replace(" ", " ");
let tokens_extra_spaces = lex(&input_extra_spaces, false, Unit::Celsius).unwrap();
assert!(tokens_extra_spaces == expected_tokens, "{}", info_msg);
let input_stripped_spaces = strip_operator_spacing.replace_all(input, "$1");
let tokens_stripped_spaces = lex(&input_stripped_spaces, false, Unit::Celsius).unwrap();
assert!(tokens_stripped_spaces == expected_tokens, "{}", info_msg);
let input_afterdigit_stripped_spaces = strip_afterdigit_spacing.replace_all(input, "$1");
let tokens_afterdigit_stripped_spaces = lex(&input_afterdigit_stripped_spaces, false, Unit::Celsius).unwrap();
assert!(tokens_afterdigit_stripped_spaces == expected_tokens, "{}", info_msg);
};
run_lex("88 kilometres * 2", vec![numtok!(88), Token::Unit(Kilometer), Token::Operator(Multiply), numtok!(2)]);
run_lex("100 nmi", vec![numtok!(100), Token::Unit(NauticalMile)]);
run_lex("101 nautical miles", vec![numtok!(101), Token::Unit(NauticalMile)]);
run_lex("2 lightyears", vec![numtok!(2), Token::Unit(LightYear)]);
run_lex("1 light year", vec![numtok!(1), Token::Unit(LightYear)]);
run_lex("10 lightsec", vec![numtok!(10), Token::Unit(LightSecond)]);
run_lex("12 light secs", vec![numtok!(12), Token::Unit(LightSecond)]);
run_lex("33.3 square meters", vec![numtok!(33.3), Token::Unit(SquareMeter)]);
run_lex("54 m2", vec![numtok!(54), Token::Unit(SquareMeter)]);
run_lex("87 sq miles", vec![numtok!(87), Token::Unit(SquareMile)]);
run_lex("500 feet2", vec![numtok!(500), Token::Unit(SquareFoot)]);
run_lex("500 feet²", vec![numtok!(500), Token::Unit(SquareFoot)]);
run_lex("4 cubic metres", vec![numtok!(4), Token::Unit(CubicMeter)]);
run_lex("34 cubic feet + 23 cubic yards", vec![numtok!(34), Token::Unit(CubicFoot), Token::Operator(Plus), numtok!(23), Token::Unit(CubicYard)]);
run_lex("66 inches3 + 65 millimetre³", vec![numtok!(66), Token::Unit(CubicInch), Token::Operator(Plus), numtok!(65), Token::Unit(CubicMillimeter)]);
run_lex("66 inches³ + 65 millimetre3", vec![numtok!(66), Token::Unit(CubicInch), Token::Operator(Plus), numtok!(65), Token::Unit(CubicMillimeter)]);
run_lex("42 millilitres", vec![numtok!(42), Token::Unit(Milliliter)]);
run_lex("3 tbs", vec![numtok!(3), Token::Unit(Tablespoon)]);
run_lex("6 floz", vec![numtok!(6), Token::Unit(FluidOunce)]);
run_lex("6 fl oz", vec![numtok!(6), Token::Unit(FluidOunce)]);
run_lex("6 fluid ounces", vec![numtok!(6), Token::Unit(FluidOunce)]);
run_lex("3 oil barrels", vec![numtok!(3), Token::Unit(OilBarrel)]);
run_lex("67 kg", vec![numtok!(67), Token::Unit(Kilogram)]);
run_lex("34 oz", vec![numtok!(34), Token::Unit(Ounce)]);
run_lex("34 ounces", vec![numtok!(34), Token::Unit(Ounce)]);
run_lex("210 lb", vec![numtok!(210), Token::Unit(Pound)]);
run_lex("210 lbs", vec![numtok!(210), Token::Unit(Pound)]);
run_lex("210 pound", vec![numtok!(210), Token::Unit(Pound)]);
run_lex("210 pounds", vec![numtok!(210), Token::Unit(Pound)]);
run_lex("210 pounds-force", vec![numtok!(210), Token::LexerKeyword(PoundForce)]);
run_lex("3 ton", vec![numtok!(3), Token::Unit(ShortTon)]);
run_lex("3 short tons", vec![numtok!(3), Token::Unit(ShortTon)]);
run_lex("4 lt", vec![numtok!(4), Token::Unit(LongTon)]);
run_lex("4 long tonnes", vec![numtok!(4), Token::Unit(LongTon)]);
run_lex("234 wh", vec![numtok!(234), Token::Unit(WattHour)]);
run_lex("1 w", vec![numtok!(1), Token::Unit(Watt)]);
run_lex("1 watt", vec![numtok!(1), Token::Unit(Watt)]);
run_lex("1 watts", vec![numtok!(1), Token::Unit(Watt)]);
run_lex("1 watt hour", vec![numtok!(1), Token::Unit(WattHour)]);
run_lex("0 watt + 1 watts", vec![numtok!(0), Token::Unit(Watt), Token::Operator(Plus), numtok!(1), Token::Unit(Watt)]);
run_lex("0 watt * 1", vec![numtok!(0), Token::Unit(Watt), Token::Operator(Multiply), numtok!(1)]);
run_lex("2 watts + 3 watts", vec![numtok!(2), Token::Unit(Watt), Token::Operator(Plus), numtok!(3), Token::Unit(Watt)]);
run_lex("2 watts * 3", vec![numtok!(2), Token::Unit(Watt), Token::Operator(Multiply), numtok!(3)]);
run_lex("4 watt plus 5 watts", vec![numtok!(4), Token::Unit(Watt), Token::Operator(Plus), numtok!(5), Token::Unit(Watt)]);
run_lex("4 watt times 5", vec![numtok!(4), Token::Unit(Watt), Token::Operator(Multiply), numtok!(5)]);
run_lex("6 watts plus 7 watts", vec![numtok!(6), Token::Unit(Watt), Token::Operator(Plus), numtok!(7), Token::Unit(Watt)]);
run_lex("6 watts times 7", vec![numtok!(6), Token::Unit(Watt), Token::Operator(Multiply), numtok!(7)]);
run_lex("2.3 kwh", vec![numtok!(2.3), Token::Unit(KilowattHour)]);
run_lex("1 kw", vec![numtok!(1), Token::Unit(Kilowatt)]);
run_lex("1 kilowatt", vec![numtok!(1), Token::Unit(Kilowatt)]);
run_lex("1 kilowatts", vec![numtok!(1), Token::Unit(Kilowatt)]);
run_lex("1 kilowatt hour", vec![numtok!(1), Token::Unit(KilowattHour)]);
run_lex("2 kilowatt + 3 watt", vec![numtok!(2), Token::Unit(Kilowatt), Token::Operator(Plus), numtok!(3), Token::Unit(Watt)]);
run_lex("2 kilowatt * 4", vec![numtok!(2), Token::Unit(Kilowatt), Token::Operator(Multiply), numtok!(4)]);
run_lex("2 kilowatt times 4", vec![numtok!(2), Token::Unit(Kilowatt), Token::Operator(Multiply), numtok!(4)]);
run_lex("2 kilowatt + 3 watts", vec![numtok!(2), Token::Unit(Kilowatt), Token::Operator(Plus), numtok!(3), Token::Unit(Watt)]);
run_lex("2 kilowatts + 3 watt", vec![numtok!(2), Token::Unit(Kilowatt), Token::Operator(Plus), numtok!(3), Token::Unit(Watt)]);
run_lex("2 kilowatts + 3 watts", vec![numtok!(2), Token::Unit(Kilowatt), Token::Operator(Plus), numtok!(3), Token::Unit(Watt)]);
run_lex("2 kilowatt plus 3 watt", vec![numtok!(2), Token::Unit(Kilowatt), Token::Operator(Plus), numtok!(3), Token::Unit(Watt)]);
run_lex("2 kilowatt plus 3 watts", vec![numtok!(2), Token::Unit(Kilowatt), Token::Operator(Plus), numtok!(3), Token::Unit(Watt)]);
run_lex("2 kilowatts plus 3 watt", vec![numtok!(2), Token::Unit(Kilowatt), Token::Operator(Plus), numtok!(3), Token::Unit(Watt)]);
run_lex("2 kilowatts plus 3 watts", vec![numtok!(2), Token::Unit(Kilowatt), Token::Operator(Plus), numtok!(3), Token::Unit(Watt)]);
run_lex("6.6 watts + 4 kilowatts", vec![numtok!(6.6), Token::Unit(Watt), Token::Operator(Plus), numtok!(4), Token::Unit(Kilowatt)]);
run_lex("6.6 watts plus 4 kilowatts", vec![numtok!(6.6), Token::Unit(Watt), Token::Operator(Plus), numtok!(4), Token::Unit(Kilowatt)]);
run_lex("2.3 mwh", vec![numtok!(2.3), Token::Unit(MegawattHour)]);
run_lex("1 mw", vec![numtok!(1), Token::Unit(Megawatt)]);
run_lex("1 megawatt", vec![numtok!(1), Token::Unit(Megawatt)]);
run_lex("1 megawatt hour", vec![numtok!(1), Token::Unit(MegawattHour)]);
run_lex("2 megawatt + 3 watt", vec![numtok!(2), Token::Unit(Megawatt), Token::Operator(Plus), numtok!(3), Token::Unit(Watt)]);
run_lex("2 megawatt * 6", vec![numtok!(2), Token::Unit(Megawatt), Token::Operator(Multiply), numtok!(6)]);
run_lex("2 megawatt times 6", vec![numtok!(2), Token::Unit(Megawatt), Token::Operator(Multiply), numtok!(6)]);
run_lex("2 megawatt + 3 watts", vec![numtok!(2), Token::Unit(Megawatt), Token::Operator(Plus), numtok!(3), Token::Unit(Watt)]);
run_lex("2 megawatts + 3 watt", vec![numtok!(2), Token::Unit(Megawatt), Token::Operator(Plus), numtok!(3), Token::Unit(Watt)]);
run_lex("2 megawatts + 3 watts", vec![numtok!(2), Token::Unit(Megawatt), Token::Operator(Plus), numtok!(3), Token::Unit(Watt)]);
run_lex("2 megawatt plus 3 watt", vec![numtok!(2), Token::Unit(Megawatt), Token::Operator(Plus), numtok!(3), Token::Unit(Watt)]);
run_lex("2 megawatt plus 3 watts", vec![numtok!(2), Token::Unit(Megawatt), Token::Operator(Plus), numtok!(3), Token::Unit(Watt)]);
run_lex("2 megawatts plus 3 watt", vec![numtok!(2), Token::Unit(Megawatt), Token::Operator(Plus), numtok!(3), Token::Unit(Watt)]);
run_lex("2 megawatts plus 3 watts", vec![numtok!(2), Token::Unit(Megawatt), Token::Operator(Plus), numtok!(3), Token::Unit(Watt)]);
run_lex("6.6 watts + 4 megawatts", vec![numtok!(6.6), Token::Unit(Watt), Token::Operator(Plus), numtok!(4), Token::Unit(Megawatt)]);
run_lex("6.6 watts plus 4 megawatts", vec![numtok!(6.6), Token::Unit(Watt), Token::Operator(Plus), numtok!(4), Token::Unit(Megawatt)]);
run_lex("234 gwh", vec![numtok!(234), Token::Unit(GigawattHour)]);
run_lex("1 gw", vec![numtok!(1), Token::Unit(Gigawatt)]);
run_lex("1 gigawatt", vec![numtok!(1), Token::Unit(Gigawatt)]);
run_lex("1 gigawatts", vec![numtok!(1), Token::Unit(Gigawatt)]);
run_lex("1 gigawatt hour", vec![numtok!(1), Token::Unit(GigawattHour)]);
run_lex("0 gigawatt + 1 gigawatts", vec![numtok!(0), Token::Unit(Gigawatt), Token::Operator(Plus), numtok!(1), Token::Unit(Gigawatt)]);
run_lex("0 gigawatt * 1", vec![numtok!(0), Token::Unit(Gigawatt), Token::Operator(Multiply), numtok!(1)]);
run_lex("2 gigawatts + 3 gigawatts", vec![numtok!(2), Token::Unit(Gigawatt), Token::Operator(Plus), numtok!(3), Token::Unit(Gigawatt)]);
run_lex("2 gigawatts * 3", vec![numtok!(2), Token::Unit(Gigawatt), Token::Operator(Multiply), numtok!(3)]);
run_lex("4 gigawatt plus 5 watt", vec![numtok!(4), Token::Unit(Gigawatt), Token::Operator(Plus), numtok!(5), Token::Unit(Watt)]);
run_lex("4 gigawatt plus 5 megawatt", vec![numtok!(4), Token::Unit(Gigawatt), Token::Operator(Plus), numtok!(5), Token::Unit(Megawatt)]);
run_lex("4 gigawatt plus 5 gigawatt", vec![numtok!(4), Token::Unit(Gigawatt), Token::Operator(Plus), numtok!(5), Token::Unit(Gigawatt)]);
run_lex("4 gigawatt plus 5 watts", vec![numtok!(4), Token::Unit(Gigawatt), Token::Operator(Plus), numtok!(5), Token::Unit(Watt)]);
run_lex("4 gigawatt plus 5 megawatts", vec![numtok!(4), Token::Unit(Gigawatt), Token::Operator(Plus), numtok!(5), Token::Unit(Megawatt)]);
run_lex("4 gigawatt plus 5 gigawatts", vec![numtok!(4), Token::Unit(Gigawatt), Token::Operator(Plus), numtok!(5), Token::Unit(Gigawatt)]);
run_lex("4 gigawatt times 5", vec![numtok!(4), Token::Unit(Gigawatt), Token::Operator(Multiply), numtok!(5)]);
run_lex("6 gigawatts plus 7 watt", vec![numtok!(6), Token::Unit(Gigawatt), Token::Operator(Plus), numtok!(7), Token::Unit(Watt)]);
run_lex("6 gigawatts plus 7 megawatt", vec![numtok!(6), Token::Unit(Gigawatt), Token::Operator(Plus), numtok!(7), Token::Unit(Megawatt)]);
run_lex("6 gigawatts plus 7 gigawatt", vec![numtok!(6), Token::Unit(Gigawatt), Token::Operator(Plus), numtok!(7), Token::Unit(Gigawatt)]);
run_lex("6 gigawatts plus 7 watts", vec![numtok!(6), Token::Unit(Gigawatt), Token::Operator(Plus), numtok!(7), Token::Unit(Watt)]);
run_lex("6 gigawatts plus 7 megawatts", vec![numtok!(6), Token::Unit(Gigawatt), Token::Operator(Plus), numtok!(7), Token::Unit(Megawatt)]);
run_lex("6 gigawatts plus 7 gigawatts", vec![numtok!(6), Token::Unit(Gigawatt), Token::Operator(Plus), numtok!(7), Token::Unit(Gigawatt)]);
run_lex("6 gigawatts times 7", vec![numtok!(6), Token::Unit(Gigawatt), Token::Operator(Multiply), numtok!(7)]);
run_lex("88 mw * 3", vec![numtok!(88), Token::Unit(Megawatt), Token::Operator(Multiply), numtok!(3)]);
run_lex("88 mw times 3", vec![numtok!(88), Token::Unit(Megawatt), Token::Operator(Multiply), numtok!(3)]);
run_lex("999 kb", vec![numtok!(999), Token::Unit(Kilobyte)]);
run_lex("200 gb - 100 mb", vec![numtok!(200), Token::Unit(Gigabyte), Token::Operator(Minus), numtok!(100), Token::Unit(Megabyte)]);
run_lex("999 kib", vec![numtok!(999), Token::Unit(Kibibyte)]);
run_lex("200 gib - 100 mib", vec![numtok!(200), Token::Unit(Gibibyte), Token::Operator(Minus), numtok!(100), Token::Unit(Mebibyte)]);
run_lex("45 btu", vec![numtok!(45), Token::Unit(BritishThermalUnit)]);
run_lex("45.5 british thermal unit", vec![numtok!(45.5), Token::Unit(BritishThermalUnit)]);
run_lex("46 british thermal units", vec![numtok!(46), Token::Unit(BritishThermalUnit)]);
run_lex("5432 newton metres", vec![numtok!(5432), Token::Unit(NewtonMeter)]);
run_lex("2345 newton-meters", vec![numtok!(2345), Token::Unit(NewtonMeter)]);
run_lex("20 lbf", vec![numtok!(20), Token::LexerKeyword(PoundForce)]);
run_lex("60 hz", vec![numtok!(60), Token::Unit(Hertz)]);
run_lex("1100 rpm", vec![numtok!(1100), Token::Unit(RevolutionsPerMinute)]);
run_lex("1150 revolutions per minute", vec![numtok!(1150), Token::Unit(RevolutionsPerMinute)]);
run_lex("1 revolution per min", vec![numtok!(1), Token::Unit(RevolutionsPerMinute)]);
run_lex("4 revolution / mins", vec![numtok!(4), Token::Unit(RevolutionsPerMinute)]);
run_lex("1250 r / min", vec![numtok!(1250), Token::Unit(RevolutionsPerMinute)]);
run_lex("1300 rev / min", vec![numtok!(1300), Token::Unit(RevolutionsPerMinute)]);
run_lex("1350 rev / minute", vec![numtok!(1350), Token::Unit(RevolutionsPerMinute)]);
run_lex("1250 r per min", vec![numtok!(1250), Token::Unit(RevolutionsPerMinute)]);
run_lex("1300 rev per min", vec![numtok!(1300), Token::Unit(RevolutionsPerMinute)]);
run_lex("1350 rev per minute", vec![numtok!(1350), Token::Unit(RevolutionsPerMinute)]);
run_lex("100 kph", vec![numtok!(100), Token::Unit(KilometersPerHour)]);
run_lex("100 kmh", vec![numtok!(100), Token::Unit(KilometersPerHour)]);
run_lex("100 kilometers per hour", vec![numtok!(100), Token::Unit(KilometersPerHour)]);
run_lex("100 kilometre / hrs", vec![numtok!(100), Token::Unit(KilometersPerHour)]);
run_lex("3.6 mps", vec![numtok!(3.6), Token::Unit(MetersPerSecond)]);
run_lex("3.6 meters per second", vec![numtok!(3.6), Token::Unit(MetersPerSecond)]);
run_lex("3.6 metre / secs", vec![numtok!(3.6), Token::Unit(MetersPerSecond)]);
run_lex("60 mph", vec![numtok!(60), Token::Unit(MilesPerHour)]);
run_lex("60 miles per hour", vec![numtok!(60), Token::Unit(MilesPerHour)]);
run_lex("60 mile / hr", vec![numtok!(60), Token::Unit(MilesPerHour)]);
run_lex("35 fps", vec![numtok!(35), Token::Unit(FeetPerSecond)]);
run_lex("35 ft / sec", vec![numtok!(35), Token::Unit(FeetPerSecond)]);
run_lex("35 ft per seconds", vec![numtok!(35), Token::Unit(FeetPerSecond)]);
run_lex("35 foot / secs", vec![numtok!(35), Token::Unit(FeetPerSecond)]);
run_lex("35 foot per seconds", vec![numtok!(35), Token::Unit(FeetPerSecond)]);
run_lex("35 feet / sec", vec![numtok!(35), Token::Unit(FeetPerSecond)]);
run_lex("35 feet per second", vec![numtok!(35), Token::Unit(FeetPerSecond)]);
run_lex("30 pa", vec![numtok!(30), Token::Unit(Pascal)]);
run_lex("23 celsius + 4 celsius", vec![numtok!(23), Token::Unit(Celsius), Token::Operator(Plus), numtok!(4), Token::Unit(Celsius)]);
run_lex("54 f - 1.5 fahrenheit", vec![numtok!(54), Token::Unit(Fahrenheit), Token::Operator(Minus), numtok!(1.5), Token::Unit(Fahrenheit)]);
run_lex("50 metric tonnes", vec![numtok!(50), Token::Unit(MetricTon)]);
run_lex("77 metric hps", vec![numtok!(77), Token::Unit(MetricHorsepower)]);
run_lex("100 + 99", vec![numtok!(100), Token::Operator(Plus), numtok!(99)]);
run_lex("100 plus 99", vec![numtok!(100), Token::Operator(Plus), numtok!(99)]);
run_lex("12 - 4", vec![numtok!(12), Token::Operator(Minus), numtok!(4)]);
run_lex("12 minus 4", vec![numtok!(12), Token::Operator(Minus), numtok!(4)]);
run_lex("50.5 * 2", vec![numtok!(50.5), Token::Operator(Multiply), numtok!(2)]);
run_lex("50.5 times 2", vec![numtok!(50.5), Token::Operator(Multiply), numtok!(2)]);
run_lex("50.5 multiplied by 2", vec![numtok!(50.5), Token::Operator(Multiply), numtok!(2)]);
run_lex("6 / 3", vec![numtok!(6), Token::Operator(Divide), numtok!(3)]);
run_lex("50 / 10", vec![numtok!(50), Token::Operator(Divide), numtok!(10)]);
run_lex("52 ÷ 12", vec![numtok!(52), Token::Operator(Divide), numtok!(12)]);
run_lex("6 divided by 3", vec![numtok!(6), Token::Operator(Divide), numtok!(3)]);
run_lex("7 mod 5", vec![numtok!(7), Token::Operator(Modulo), numtok!(5)]);
run_lex("(2 + 3) * 4", vec![Token::Operator(LeftParen), numtok!(2), Token::Operator(Plus), numtok!(3), Token::Operator(RightParen), Token::Operator(Multiply), numtok!(4)]);
run_lex("52 weeks * (12 hrs + 12 hours)", vec![numtok!(52), Token::Unit(Week), Token::Operator(Multiply), Token::Operator(LeftParen), numtok!(12), Token::Unit(Hour), Token::Operator(Plus), numtok!(12), Token::Unit(Hour), Token::Operator(RightParen)]);
run_lex("12 pound+", vec![numtok!(12), Token::Unit(Pound), Token::Operator(Plus)]);
run_lex("5 π m", vec![numtok!(5), Token::Constant(Pi), Token::Unit(Meter)]);
run_lex("5 Ω + 2 mΩ", vec![numtok!(5), Token::Unit(Ohm), Token::Operator(Plus), numtok!(2), Token::Unit(Milliohm)]);
}
}