use super::*; impl super::Precedence for crate::Formula { fn precedence(&self) -> i32 { match &self { Self::Predicate(_) | Self::Boolean(_) | Self::Compare(_) => 0, Self::Exists(_) | Self::ForAll(_) => 1, Self::Not(_) => 2, Self::And(_) => 3, Self::Or(_) => 4, Self::Implies(_) => 5, Self::IfAndOnlyIf(_) => 6, } } } impl std::fmt::Debug for crate::ImplicationDirection { fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result { match &self { Self::LeftToRight => write!(format, "left to right"), Self::RightToLeft => write!(format, "right to left"), } } } impl std::fmt::Debug for crate::PredicateDeclaration { fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result { write!(format, "{}/{}", &self.name, self.arity) } } impl std::fmt::Display for crate::PredicateDeclaration { fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result { write!(format, "{:?}", &self) } } struct FormulaDisplay<'formula> { parent_precedence: Option, formula: &'formula crate::Formula, } fn display_formula(formula: &crate::Formula, parent_precedence: Option) -> FormulaDisplay { FormulaDisplay { parent_precedence, formula, } } impl<'formula> std::fmt::Debug for FormulaDisplay<'formula> { fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result { let precedence = self.formula.precedence(); let requires_parentheses = match self.parent_precedence { Some(parent_precedence) => precedence > parent_precedence, None => false, }; let precedence = Some(precedence); if requires_parentheses { write!(format, "(")?; } match &self.formula { crate::Formula::Exists(exists) => { assert!(!exists.parameters.is_empty()); write!(format, "exists")?; let mut separator = " "; for parameter in exists.parameters.iter() { write!(format, "{}{:?}", separator, parameter)?; separator = ", " } write!(format, " {:?}", display_formula(&exists.argument, precedence))?; }, crate::Formula::ForAll(for_all) => { assert!(!for_all.parameters.is_empty()); write!(format, "forall")?; let mut separator = " "; for parameter in for_all.parameters.iter() { write!(format, "{}{:?}", separator, parameter)?; separator = ", " } write!(format, " {:?}", display_formula(&for_all.argument, precedence))?; }, crate::Formula::Not(argument) => write!(format, "not {:?}", display_formula(argument, precedence))?, crate::Formula::And(arguments) => { let mut separator = ""; assert!(!arguments.is_empty()); for argument in arguments { write!(format, "{}{:?}", separator, display_formula(argument, precedence))?; separator = " and " } }, crate::Formula::Or(arguments) => { let mut separator = ""; assert!(!arguments.is_empty()); for argument in arguments { write!(format, "{}{:?}", separator, display_formula(argument, precedence))?; separator = " or " } }, crate::Formula::Implies(crate::Implies{direction, antecedent, implication}) => { let antecedent_requires_parentheses = match **antecedent { // Implication is right-associative and thus requires parentheses when nested on // the antecedent side crate::Formula::Implies(_) => true, _ => false, }; let implication_requires_parentheses = match **antecedent { // Implication is right-associative and thus doesn’t require parentheses when // nested on the implication side with the same implication direction crate::Formula::Implies(crate::Implies{direction: nested_direction, ..}) if nested_direction == *direction => false, // If the nested implication is in the other direction, parentheses are needed crate::Formula::Implies(_) => true, _ => false, }; let format_antecedent = |format: &mut std::fmt::Formatter| -> Result<_, _> { if antecedent_requires_parentheses { write!(format, "(")?; } write!(format, "{:?}", display_formula(antecedent, precedence))?; if antecedent_requires_parentheses { write!(format, ")")?; } Ok(()) }; let format_implication = |format: &mut std::fmt::Formatter| -> Result<_, _> { if implication_requires_parentheses { write!(format, "(")?; } write!(format, "{:?}", display_formula(implication, precedence))?; if implication_requires_parentheses { write!(format, ")")?; } Ok(()) }; match direction { crate::ImplicationDirection::LeftToRight => { format_antecedent(format)?; write!(format, " -> ")?; format_implication(format)?; }, crate::ImplicationDirection::RightToLeft => { format_implication(format)?; write!(format, " <- ")?; format_antecedent(format)?; }, } }, crate::Formula::IfAndOnlyIf(arguments) => { let mut separator = ""; for argument in arguments { write!(format, "{}{:?}", separator, display_formula(argument, precedence))?; separator = " <-> "; } }, crate::Formula::Compare( crate::Compare{operator: crate::ComparisonOperator::Less, left, right}) => write!(format, "{:?} < {:?}", display_term(left, None), display_term(right, None))?, crate::Formula::Compare( crate::Compare{operator: crate::ComparisonOperator::LessOrEqual, left, right}) => write!(format, "{:?} <= {:?}", display_term(left, None), display_term(right, None))?, crate::Formula::Compare( crate::Compare{operator: crate::ComparisonOperator::Greater, left, right}) => write!(format, "{:?} > {:?}", display_term(left, None), display_term(right, None))?, crate::Formula::Compare( crate::Compare{operator: crate::ComparisonOperator::GreaterOrEqual, left, right}) => write!(format, "{:?} >= {:?}", display_term(left, None), display_term(right, None))?, crate::Formula::Compare( crate::Compare{operator: crate::ComparisonOperator::Equal, left, right}) => write!(format, "{:?} = {:?}", display_term(left, None), display_term(right, None))?, crate::Formula::Compare( crate::Compare{operator: crate::ComparisonOperator::NotEqual, left, right}) => write!(format, "{:?} != {:?}", display_term(left, None), display_term(right, None))?, crate::Formula::Boolean(true) => write!(format, "true")?, crate::Formula::Boolean(false) => write!(format, "false")?, crate::Formula::Predicate(predicate) => { write!(format, "{}", predicate.declaration.name)?; if !predicate.arguments.is_empty() { write!(format, "(")?; let mut separator = ""; for argument in &predicate.arguments { write!(format, "{}{:?}", separator, display_term(argument, None))?; separator = ", " } write!(format, ")")?; } }, } if requires_parentheses { write!(format, ")")?; } Ok(()) } } impl<'formula> std::fmt::Display for FormulaDisplay<'formula> { fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result { write!(format, "{:?}", self) } } impl std::fmt::Debug for crate::Formula { fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result { write!(format, "{:?}", display_formula(&self, None)) } } impl std::fmt::Display for crate::Formula { fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result { write!(format, "{}", display_formula(&self, None)) } } #[cfg(test)] mod tests { use crate::*; fn format(formula: &ast::Formula) -> String { format!("{}", formula) } #[test] fn compare() { let ad = std::rc::Rc::new(FunctionDeclaration::new("a".to_string(), 0)); let bd = std::rc::Rc::new(FunctionDeclaration::new("b".to_string(), 0)); let a = || Box::new(Term::function(std::rc::Rc::clone(&ad), vec![])); let b = || Box::new(Term::function(std::rc::Rc::clone(&bd), vec![])); assert_eq!(format(&Formula::greater(a(), b())), "a > b"); assert_eq!(format(&Formula::less(a(), b())), "a < b"); assert_eq!(format(&Formula::less_or_equal(a(), b())), "a <= b"); assert_eq!(format(&Formula::greater_or_equal(a(), b())), "a >= b"); assert_eq!(format(&Formula::equal(a(), b())), "a = b"); assert_eq!(format(&Formula::not_equal(a(), b())), "a != b"); } }