use crate::cofd::dice::{DicePool, DicePoolModifiers, DicePoolQuality}; use crate::error::BotError; use crate::parser::dice::{parse_amounts, DiceParsingError}; use combine::parser::char::{digit, spaces, string}; use combine::{choice, count, many1, one_of, Parser}; #[derive(Debug, Clone, Copy, PartialEq)] enum ParsedInfo { Quality(DicePoolQuality), ExceptionalOn(i32), } pub fn parse_modifiers(input: &str) -> Result { if input.len() == 0 { return Ok(DicePoolModifiers::default()); } let input = input.trim(); let quality = one_of("nerx".chars()) .skip(spaces().silent()) .map(|quality| match quality { 'n' => ParsedInfo::Quality(DicePoolQuality::NineAgain), 'e' => ParsedInfo::Quality(DicePoolQuality::EightAgain), 'r' => ParsedInfo::Quality(DicePoolQuality::Rote), 'x' => ParsedInfo::Quality(DicePoolQuality::NoExplode), _ => ParsedInfo::Quality(DicePoolQuality::TenAgain), //TODO add warning log }); let exceptional_on = string("s") .and(many1(digit())) .map(|s| s.1) //Discard the s; only need the number .skip(spaces().silent()) .map(|num_as_str: String| { ParsedInfo::ExceptionalOn(match num_as_str.parse::() { Ok(success_on) => success_on, Err(_) => 5, //TODO add warning log }) }); let mut parser = count(2, choice((quality, exceptional_on))) .skip(spaces().silent()) .map(|modifiers: Vec| modifiers); let (result, rest) = parser.parse(input)?; if rest.len() == 0 { convert_to_modifiers(&result) } else { Err(DiceParsingError::UnconsumedInput) } } fn convert_to_modifiers(parsed: &Vec) -> Result { use ParsedInfo::*; if parsed.len() == 0 { Ok(DicePoolModifiers::default()) } else if parsed.len() == 1 { match parsed[0] { ExceptionalOn(exceptional_on) => { Ok(DicePoolModifiers::custom_exceptional_on(exceptional_on)) } Quality(quality) => Ok(DicePoolModifiers::custom_quality(quality)), } } else if parsed.len() == 2 { match parsed[..] { [ExceptionalOn(exceptional_on), Quality(quality)] => { Ok(DicePoolModifiers::custom(quality, exceptional_on)) } [Quality(quality), ExceptionalOn(exceptional_on)] => { Ok(DicePoolModifiers::custom(quality, exceptional_on)) } _ => Err(DiceParsingError::InvalidModifiers.into()), } } else { //We don't expect this clause to be hit, because the parser works 0 to 2 times. Err(DiceParsingError::InvalidModifiers.into()) } } pub fn parse_dice_pool(input: &str) -> Result { let (amounts, modifiers_str) = parse_amounts(input)?; let modifiers = parse_modifiers(modifiers_str)?; Ok(DicePool::new(amounts, modifiers)) } pub fn create_chance_die() -> Result { Ok(DicePool::chance_die()) } #[cfg(test)] mod tests { use super::*; #[test] fn quality_test() { let result = parse_modifiers("n"); assert!(result.is_ok()); assert_eq!( result.unwrap(), DicePoolModifiers::custom_quality(DicePoolQuality::NineAgain) ); let result = parse_modifiers("e"); assert!(result.is_ok()); assert_eq!( result.unwrap(), DicePoolModifiers::custom_quality(DicePoolQuality::EightAgain) ); let result = parse_modifiers("r"); assert!(result.is_ok()); assert_eq!( result.unwrap(), DicePoolModifiers::custom_quality(DicePoolQuality::Rote) ); let result = parse_modifiers("x"); assert!(result.is_ok()); assert_eq!( result.unwrap(), DicePoolModifiers::custom_quality(DicePoolQuality::NoExplode) ); let result = parse_modifiers("b"); assert!(result.is_err()); assert!(matches!(result, Err(DiceParsingError::UnconsumedInput))); } #[test] fn multiple_quality_failure_test() { let result = parse_modifiers("ne"); assert!(result.is_err()); assert!(matches!(result, Err(DiceParsingError::InvalidModifiers))); } #[test] fn exceptional_success_test() { let result = parse_modifiers("s3"); assert!(result.is_ok()); assert_eq!(result.unwrap(), DicePoolModifiers::custom_exceptional_on(3)); let result = parse_modifiers("s33"); assert!(result.is_ok()); assert_eq!( result.unwrap(), DicePoolModifiers::custom_exceptional_on(33) ); let result = parse_modifiers("s3q"); assert!(result.is_err()); assert!(matches!(result, Err(DiceParsingError::UnconsumedInput))); } #[test] fn dice_pool_number_only_test() { let result = parse_dice_pool("8"); assert!(result.is_ok()); assert_eq!( result.unwrap(), DicePool::easy_pool(8, DicePoolQuality::TenAgain) ); } #[test] fn dice_pool_number_with_quality() { let result = parse_dice_pool("8 n"); assert!(result.is_ok()); assert_eq!( result.unwrap(), DicePool::easy_pool(8, DicePoolQuality::NineAgain) ); } #[test] fn dice_pool_number_with_success_change() { let modifiers = DicePoolModifiers::custom_exceptional_on(3); let result = parse_dice_pool("8 s3"); assert!(result.is_ok()); assert_eq!(result.unwrap(), DicePool::easy_with_modifiers(8, modifiers)); } #[test] fn dice_pool_with_quality_and_success_change() { let modifiers = DicePoolModifiers::custom(DicePoolQuality::Rote, 3); let result = parse_dice_pool("8 rs3"); assert!(result.is_ok()); assert_eq!(result.unwrap(), DicePool::easy_with_modifiers(8, modifiers)); } #[test] fn dice_pool_complex_expression_test() { use crate::parser::dice::*; let modifiers = DicePoolModifiers::custom(DicePoolQuality::Rote, 3); let amounts = vec![ Amount { operator: Operator::Plus, element: Element::Number(8), }, Amount { operator: Operator::Plus, element: Element::Number(10), }, Amount { operator: Operator::Minus, element: Element::Number(2), }, Amount { operator: Operator::Plus, element: Element::Variable("varname".to_owned()), }, ]; let expected = DicePool::new(amounts, modifiers); let result = parse_dice_pool("8+10-2+varname rs3"); assert!(result.is_ok()); assert_eq!(result.unwrap(), expected); let result = parse_dice_pool("8+10- 2 + varname rs3"); assert!(result.is_ok()); assert_eq!(result.unwrap(), expected); let result = parse_dice_pool("8+ 10 -2 + varname rs3"); assert!(result.is_ok()); assert_eq!(result.unwrap(), expected); //This one has tabs in it. let result = parse_dice_pool(" 8 + 10 -2 + varname r s3"); assert!(result.is_ok()); assert_eq!(result.unwrap(), expected); } }