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Author SHA1 Message Date
projectmoon c514b85510 Change modifier order in Cthulhu
continuous-integration/drone/push Build is passing Details
2021-11-06 21:23:51 +00:00
projectmoon 6eb81f43d5 Change CofD modifiers to come after dice pool 2021-11-06 21:23:51 +00:00
4 changed files with 140 additions and 117 deletions

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@ -45,13 +45,13 @@ pub fn parse_modifiers(input: &str) -> Result<DicePoolModifiers, DiceParsingErro
let (result, rest) = parser.parse(input)?;
if rest.len() == 0 {
convert_to_info(&result)
convert_to_modifiers(&result)
} else {
Err(DiceParsingError::UnconsumedInput)
}
}
fn convert_to_info(parsed: &Vec<ParsedInfo>) -> Result<DicePoolModifiers, DiceParsingError> {
fn convert_to_modifiers(parsed: &Vec<ParsedInfo>) -> Result<DicePoolModifiers, DiceParsingError> {
use ParsedInfo::*;
if parsed.len() == 0 {
Ok(DicePoolModifiers::default())
@ -79,19 +79,8 @@ fn convert_to_info(parsed: &Vec<ParsedInfo>) -> Result<DicePoolModifiers, DicePa
}
pub fn parse_dice_pool(input: &str) -> Result<DicePool, BotError> {
//The "modifiers:" part is optional. Assume amounts if no modifier
//section found.
let split = input.split(":").collect::<Vec<_>>();
let (modifiers_str, amounts_str) = (match split[..] {
[amounts] => Ok(("", amounts)),
[modifiers, amounts] => Ok((modifiers, amounts)),
_ => Err(BotError::DiceParsingError(
DiceParsingError::UnconsumedInput,
)),
})?;
let (amounts, modifiers_str) = parse_amounts(input)?;
let modifiers = parse_modifiers(modifiers_str)?;
let amounts = parse_amounts(&amounts_str)?;
Ok(DicePool::new(amounts, modifiers))
}
@ -175,7 +164,7 @@ mod tests {
#[test]
fn dice_pool_number_with_quality() {
let result = parse_dice_pool("n:8");
let result = parse_dice_pool("8 n");
assert!(result.is_ok());
assert_eq!(
result.unwrap(),
@ -186,7 +175,7 @@ mod tests {
#[test]
fn dice_pool_number_with_success_change() {
let modifiers = DicePoolModifiers::custom_exceptional_on(3);
let result = parse_dice_pool("s3:8");
let result = parse_dice_pool("8 s3");
assert!(result.is_ok());
assert_eq!(result.unwrap(), DicePool::easy_with_modifiers(8, modifiers));
}
@ -194,7 +183,7 @@ mod tests {
#[test]
fn dice_pool_with_quality_and_success_change() {
let modifiers = DicePoolModifiers::custom(DicePoolQuality::Rote, 3);
let result = parse_dice_pool("rs3:8");
let result = parse_dice_pool("8 rs3");
assert!(result.is_ok());
assert_eq!(result.unwrap(), DicePool::easy_with_modifiers(8, modifiers));
}
@ -224,20 +213,20 @@ mod tests {
let expected = DicePool::new(amounts, modifiers);
let result = parse_dice_pool("rs3:8+10-2+varname");
let result = parse_dice_pool("8+10-2+varname rs3");
assert!(result.is_ok());
assert_eq!(result.unwrap(), expected);
let result = parse_dice_pool("rs3:8+10- 2 + varname");
let result = parse_dice_pool("8+10- 2 + varname rs3");
assert!(result.is_ok());
assert_eq!(result.unwrap(), expected);
let result = parse_dice_pool("rs3 : 8+ 10 -2 + varname");
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(" r s3 : 8 + 10 -2 + varname");
let result = parse_dice_pool(" 8 + 10 -2 + varname r s3");
assert!(result.is_ok());
assert_eq!(result.unwrap(), expected);
}

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@ -221,9 +221,9 @@ mod tests {
#[test]
fn pool_whitespace_test() {
parse_command("!pool ns3:8 ").expect("was error");
parse_command(" !pool ns3:8").expect("was error");
parse_command(" !pool ns3:8 ").expect("was error");
parse_command("!pool 8 ns3 ").expect("was error");
parse_command(" !pool 8 ns3").expect("was error");
parse_command(" !pool 8 ns3 ").expect("was error");
}
#[test]

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@ -4,16 +4,13 @@ use crate::parser::dice::DiceParsingError;
//TOOD convert these to use parse_amounts from the common dice code.
fn parse_modifier(input: &str) -> Result<DiceRollModifier, DiceParsingError> {
if input.ends_with("bb") {
Ok(DiceRollModifier::TwoBonus)
} else if input.ends_with("b") {
Ok(DiceRollModifier::OneBonus)
} else if input.ends_with("pp") {
Ok(DiceRollModifier::TwoPenalty)
} else if input.ends_with("p") {
Ok(DiceRollModifier::OnePenalty)
} else {
Ok(DiceRollModifier::Normal)
match input.trim() {
"bb" => Ok(DiceRollModifier::TwoBonus),
"b" => Ok(DiceRollModifier::OneBonus),
"pp" => Ok(DiceRollModifier::TwoPenalty),
"p" => Ok(DiceRollModifier::OnePenalty),
"" => Ok(DiceRollModifier::Normal),
_ => Err(DiceParsingError::InvalidModifiers),
}
}
@ -21,32 +18,70 @@ fn parse_modifier(input: &str) -> Result<DiceRollModifier, DiceParsingError> {
//Split based on :, send first part to parse_modifier.
//Send second part to parse_amounts
pub fn parse_regular_roll(input: &str) -> Result<DiceRoll, DiceParsingError> {
let input: Vec<&str> = input.trim().split(":").collect();
let (modifiers_str, amounts_str) = match input[..] {
[amounts] => Ok(("", amounts)),
[modifiers, amounts] => Ok((modifiers, amounts)),
_ => Err(DiceParsingError::UnconsumedInput),
}?;
let (amount, modifiers_str) = crate::parser::dice::parse_single_amount(input)?;
let modifier = parse_modifier(modifiers_str)?;
let amount = crate::parser::dice::parse_single_amount(amounts_str)?;
Ok(DiceRoll { modifier, amount })
}
pub fn parse_advancement_roll(input: &str) -> Result<AdvancementRoll, DiceParsingError> {
let input = input.trim();
let amounts = crate::parser::dice::parse_single_amount(input)?;
let (amounts, unconsumed_input) = crate::parser::dice::parse_single_amount(input)?;
Ok(AdvancementRoll {
existing_skill: amounts,
})
if unconsumed_input.len() == 0 {
Ok(AdvancementRoll {
existing_skill: amounts,
})
} else {
Err(DiceParsingError::InvalidAmount)
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::parser::dice::{Amount, Element, Operator};
use crate::parser::dice::{Amount, DiceParsingError, Element, Operator};
#[test]
fn parse_modifier_rejects_bad_value() {
let modifier = parse_modifier("qqq");
assert!(matches!(modifier, Err(DiceParsingError::InvalidModifiers)))
}
#[test]
fn parse_modifier_accepts_one_bonus() {
let modifier = parse_modifier("b");
assert!(matches!(modifier, Ok(DiceRollModifier::OneBonus)))
}
#[test]
fn parse_modifier_accepts_two_bonus() {
let modifier = parse_modifier("bb");
assert!(matches!(modifier, Ok(DiceRollModifier::TwoBonus)))
}
#[test]
fn parse_modifier_accepts_two_penalty() {
let modifier = parse_modifier("pp");
assert!(matches!(modifier, Ok(DiceRollModifier::TwoPenalty)))
}
#[test]
fn parse_modifier_accepts_one_penalty() {
let modifier = parse_modifier("p");
assert!(matches!(modifier, Ok(DiceRollModifier::OnePenalty)))
}
#[test]
fn parse_modifier_accepts_normal() {
let modifier = parse_modifier("");
assert!(matches!(modifier, Ok(DiceRollModifier::Normal)))
}
#[test]
fn parse_modifier_accepts_normal_unaffected_by_whitespace() {
let modifier = parse_modifier(" ");
assert!(matches!(modifier, Ok(DiceRollModifier::Normal)))
}
#[test]
fn regular_roll_accepts_single_number() {
@ -72,7 +107,7 @@ mod tests {
#[test]
fn regular_roll_accepts_two_bonus() {
let result = parse_regular_roll("bb:60");
let result = parse_regular_roll("60 bb");
assert!(result.is_ok());
assert_eq!(
DiceRoll {
@ -88,7 +123,7 @@ mod tests {
#[test]
fn regular_roll_accepts_one_bonus() {
let result = parse_regular_roll("b:60");
let result = parse_regular_roll("60 b");
assert!(result.is_ok());
assert_eq!(
DiceRoll {
@ -104,7 +139,7 @@ mod tests {
#[test]
fn regular_roll_accepts_two_penalty() {
let result = parse_regular_roll("pp:60");
let result = parse_regular_roll("60 pp");
assert!(result.is_ok());
assert_eq!(
DiceRoll {
@ -120,7 +155,7 @@ mod tests {
#[test]
fn regular_roll_accepts_one_penalty() {
let result = parse_regular_roll("p:60");
let result = parse_regular_roll("60 p");
assert!(result.is_ok());
assert_eq!(
DiceRoll {
@ -140,21 +175,21 @@ mod tests {
assert!(parse_regular_roll(" 60").is_ok());
assert!(parse_regular_roll(" 60 ").is_ok());
assert!(parse_regular_roll("bb:60 ").is_ok());
assert!(parse_regular_roll(" bb:60").is_ok());
assert!(parse_regular_roll(" bb:60 ").is_ok());
assert!(parse_regular_roll("60bb ").is_ok());
assert!(parse_regular_roll(" 60 bb").is_ok());
assert!(parse_regular_roll(" 60 bb ").is_ok());
assert!(parse_regular_roll("b:60 ").is_ok());
assert!(parse_regular_roll(" b:60").is_ok());
assert!(parse_regular_roll(" b:60 ").is_ok());
assert!(parse_regular_roll("60b ").is_ok());
assert!(parse_regular_roll(" 60 b").is_ok());
assert!(parse_regular_roll(" 60 b ").is_ok());
assert!(parse_regular_roll("pp:60 ").is_ok());
assert!(parse_regular_roll(" pp:60").is_ok());
assert!(parse_regular_roll(" pp:60 ").is_ok());
assert!(parse_regular_roll("60pp ").is_ok());
assert!(parse_regular_roll(" 60 pp").is_ok());
assert!(parse_regular_roll(" 60 pp ").is_ok());
assert!(parse_regular_roll("p:60 ").is_ok());
assert!(parse_regular_roll(" p:60").is_ok());
assert!(parse_regular_roll(" p:60 ").is_ok());
assert!(parse_regular_roll("60p ").is_ok());
assert!(parse_regular_roll(" 60p ").is_ok());
assert!(parse_regular_roll(" 60 p ").is_ok());
}
#[test]

View File

@ -151,8 +151,9 @@ where
/// should not have an operator, but every one after that should.
/// Accepts expressions like "8", "10 + variablename", "variablename -
/// 3", etc. This function is currently common to systems that don't
/// deal with XdY rolls. Support for that will be added later.
pub fn parse_amounts(input: &str) -> ParseResult<Vec<Amount>> {
/// deal with XdY rolls. Support for that will be added later. Returns
/// parsed amounts and unconsumed input (e.g. roll modifiers).
pub fn parse_amounts(input: &str) -> ParseResult<(Vec<Amount>, &str)> {
let input = input.trim();
let remaining_amounts = many(amount_parser()).map(|amounts: Vec<ParseResult<Amount>>| amounts);
@ -169,31 +170,23 @@ pub fn parse_amounts(input: &str) -> ParseResult<Vec<Amount>> {
(amounts, results.1)
})?;
if rest.len() == 0 {
// Any ParseResult errors will short-circuit the collect.
results.into_iter().collect()
} else {
Err(DiceParsingError::UnconsumedInput)
}
// Any ParseResult errors will short-circuit the collect.
let results: Vec<Amount> = results.into_iter().collect::<ParseResult<_>>()?;
Ok((results, rest))
}
/// Parse an expression that expects a single number or variable. No
/// operators are allowed. This function is common to systems that
/// don't deal with XdY rolls. Currently. this function does not
/// support parsing negative numbers.
pub fn parse_single_amount(input: &str) -> ParseResult<Amount> {
/// support parsing negative numbers. Returns the parsed amount and
/// any unconsumed input (useful for dice roll modifiers).
pub fn parse_single_amount(input: &str) -> ParseResult<(Amount, &str)> {
// TODO add support for negative numbers, as technically they
// should be allowed.
let input = input.trim();
let mut parser = first_amount_parser().map(|amount: ParseResult<Amount>| amount);
let (result, rest) = parser.parse(input)?;
if rest.len() == 0 {
result
} else {
Err(DiceParsingError::UnconsumedInput)
}
Ok((result?, rest))
}
#[cfg(test)]
@ -206,10 +199,13 @@ mod parse_single_amount_tests {
assert!(result.is_ok());
assert_eq!(
result.unwrap(),
Amount {
operator: Operator::Plus,
element: Element::Variable("abc".to_string())
}
(
Amount {
operator: Operator::Plus,
element: Element::Variable("abc".to_string())
},
""
)
)
}
@ -233,24 +229,15 @@ mod parse_single_amount_tests {
assert!(result.is_ok());
assert_eq!(
result.unwrap(),
Amount {
operator: Operator::Plus,
element: Element::Number(1)
}
(
Amount {
operator: Operator::Plus,
element: Element::Number(1)
},
""
)
)
}
#[test]
fn parse_multiple_elements_test() {
let result = parse_single_amount("1+abc");
assert!(result.is_err());
let result = parse_single_amount("abc+1");
assert!(result.is_err());
let result = parse_single_amount("-1-abc");
assert!(result.is_err());
}
}
#[cfg(test)]
@ -263,20 +250,26 @@ mod parse_many_amounts_tests {
assert!(result.is_ok());
assert_eq!(
result.unwrap(),
vec![Amount {
operator: Operator::Plus,
element: Element::Number(1)
}]
(
vec![Amount {
operator: Operator::Plus,
element: Element::Number(1)
}],
""
)
);
let result = parse_amounts("10");
assert!(result.is_ok());
assert_eq!(
result.unwrap(),
vec![Amount {
operator: Operator::Plus,
element: Element::Number(10)
}]
(
vec![Amount {
operator: Operator::Plus,
element: Element::Number(10)
}],
""
)
);
}
@ -295,20 +288,26 @@ mod parse_many_amounts_tests {
assert!(result.is_ok());
assert_eq!(
result.unwrap(),
vec![Amount {
operator: Operator::Plus,
element: Element::Variable("asdf".to_string())
}]
(
vec![Amount {
operator: Operator::Plus,
element: Element::Variable("asdf".to_string())
}],
""
)
);
let result = parse_amounts("nosis");
assert!(result.is_ok());
assert_eq!(
result.unwrap(),
vec![Amount {
operator: Operator::Plus,
element: Element::Variable("nosis".to_string())
}]
(
vec![Amount {
operator: Operator::Plus,
element: Element::Variable("nosis".to_string())
}],
""
)
);
}