pub(crate) struct DomainDisplay { domain: crate::Domain, } pub(crate) fn display_domain(domain: crate::Domain) -> DomainDisplay { DomainDisplay { domain, } } impl std::fmt::Debug for DomainDisplay { fn fmt(&self, formatter: &mut std::fmt::Formatter) -> std::fmt::Result { let domain_name = match self.domain { crate::Domain::Integer => "$int", crate::Domain::Program => "object", }; write!(formatter, "{}", domain_name) } } impl std::fmt::Display for DomainDisplay { fn fmt(&self, formatter: &mut std::fmt::Formatter) -> std::fmt::Result { write!(formatter, "{:?}", &self) } } pub(crate) struct FunctionDeclarationDisplay<'a, 'b, C> where C: crate::traits::InputConstantDeclarationDomain { function_declaration: &'a std::rc::Rc, context: &'b C, } pub(crate) fn display_function_declaration<'a, 'b, C>( function_declaration: &'a std::rc::Rc, context: &'b C) -> FunctionDeclarationDisplay<'a, 'b, C> where C: crate::traits::InputConstantDeclarationDomain { FunctionDeclarationDisplay { function_declaration, context, } } impl<'a, 'b, C> std::fmt::Debug for FunctionDeclarationDisplay<'a, 'b, C> where C: crate::traits::InputConstantDeclarationDomain { fn fmt(&self, formatter: &mut std::fmt::Formatter) -> std::fmt::Result { write!(formatter, "{}:", self.function_declaration.name)?; let domain = self.context.input_constant_declaration_domain(self.function_declaration); let domain_identifier = match domain { crate::Domain::Integer => "$int", crate::Domain::Program => "object", }; let mut separator = ""; if self.function_declaration.arity > 0 { write!(formatter, " (")?; for _ in 0..self.function_declaration.arity { write!(formatter, "{}object", separator)?; separator = " * "; } write!(formatter, ") >")?; } write!(formatter, " {}", domain_identifier) } } impl<'a, 'b, C> std::fmt::Display for FunctionDeclarationDisplay<'a, 'b, C> where C: crate::traits::InputConstantDeclarationDomain { fn fmt(&self, formatter: &mut std::fmt::Formatter) -> std::fmt::Result { write!(formatter, "{:?}", &self) } } pub(crate) struct PredicateDeclarationDisplay<'a>(&'a std::rc::Rc); pub(crate) fn display_predicate_declaration<'a>( predicate_declaration: &'a std::rc::Rc) -> PredicateDeclarationDisplay<'a> { PredicateDeclarationDisplay(predicate_declaration) } impl<'a> std::fmt::Debug for PredicateDeclarationDisplay<'a> { fn fmt(&self, formatter: &mut std::fmt::Formatter) -> std::fmt::Result { write!(formatter, "{}:", self.0.name)?; let mut separator = ""; if self.0.arity > 0 { write!(formatter, " (")?; for _ in 0..self.0.arity { write!(formatter, "{}object", separator)?; separator = " * "; } write!(formatter, ") >")?; } write!(formatter, " $o") } } impl<'a> std::fmt::Display for PredicateDeclarationDisplay<'a> { fn fmt(&self, formatter: &mut std::fmt::Formatter) -> std::fmt::Result { write!(formatter, "{:?}", &self) } } pub(crate) struct VariableDeclarationDisplay<'a, 'b, C> where C: crate::traits::VariableDeclarationDomain + crate::traits::VariableDeclarationID { variable_declaration: &'a std::rc::Rc, context: &'b C, } pub(crate) fn display_variable_declaration<'a, 'b, C>( variable_declaration: &'a std::rc::Rc, context: &'b C) -> VariableDeclarationDisplay<'a, 'b, C> where C: crate::traits::VariableDeclarationDomain + crate::traits::VariableDeclarationID { VariableDeclarationDisplay { variable_declaration, context, } } impl<'a, 'b, C> std::fmt::Debug for VariableDeclarationDisplay<'a, 'b, C> where C: crate::traits::VariableDeclarationDomain + crate::traits::VariableDeclarationID { fn fmt(&self, formatter: &mut std::fmt::Formatter) -> std::fmt::Result { let id = self.context.variable_declaration_id(self.variable_declaration); let domain = self.context.variable_declaration_domain(self.variable_declaration) .expect("unspecified variable domain"); let prefix = match domain { crate::Domain::Integer => "N", crate::Domain::Program => "X", }; write!(formatter, "{}{}", prefix, id + 1) } } impl<'a, 'b, C> std::fmt::Display for VariableDeclarationDisplay<'a, 'b, C> where C: crate::traits::VariableDeclarationDomain + crate::traits::VariableDeclarationID { fn fmt(&self, formatter: &mut std::fmt::Formatter) -> std::fmt::Result { write!(formatter, "{:?}", &self) } } pub(crate) struct TermDisplay<'a, 'b, C> { term: &'a foliage::Term, context: &'b C, } pub(crate) fn display_term<'a, 'b, C>(term: &'a foliage::Term, context: &'b C) -> TermDisplay<'a, 'b, C> where C: crate::traits::VariableDeclarationDomain + crate::traits::VariableDeclarationID { TermDisplay { term, context, } } impl<'a, 'b, C> std::fmt::Debug for TermDisplay<'a, 'b, C> where C: crate::traits::VariableDeclarationDomain + crate::traits::VariableDeclarationID { fn fmt(&self, formatter: &mut std::fmt::Formatter) -> std::fmt::Result { let display_variable_declaration = |variable_declaration| display_variable_declaration(variable_declaration, self.context); let display_term = |term| display_term(term, self.context); use foliage::*; match &self.term { Term::Boolean(true) => write!(formatter, "$true"), Term::Boolean(false) => write!(formatter, "$false"), Term::SpecialInteger(SpecialInteger::Infimum) => write!(formatter, "c__infimum__"), Term::SpecialInteger(SpecialInteger::Supremum) => write!(formatter, "c__supremum__"), Term::Integer(value) => match value.is_negative() { true => write!(formatter, "$uminus({})", -value), false => write!(formatter, "{}", value), }, Term::String(_) => panic!("strings not supported in TPTP"), Term::Variable(variable) => write!(formatter, "{:?}", display_variable_declaration(&variable.declaration)), Term::Function(function) => { write!(formatter, "{}", function.declaration.name)?; assert!(function.declaration.arity == function.arguments.len(), "function has a different number of arguments than declared (expected {}, got {})", function.declaration.arity, function.arguments.len()); if function.arguments.len() > 0 { write!(formatter, "{}(", function.declaration.name)?; let mut separator = ""; for argument in &function.arguments { write!(formatter, "{}{:?}", separator, display_term(&argument))?; separator = ", "; } write!(formatter, ")")?; } Ok(()) }, Term::BinaryOperation(BinaryOperation{operator: BinaryOperator::Add, left, right}) => write!(formatter, "$sum({:?}, {:?})", display_term(left), display_term(right)), Term::BinaryOperation(BinaryOperation{operator: BinaryOperator::Subtract, left, right}) => write!(formatter, "$difference({:?}, {:?})", display_term(left), display_term(right)), Term::BinaryOperation(BinaryOperation{operator: BinaryOperator::Multiply, left, right}) => write!(formatter, "$product({:?}, {:?})", display_term(left), display_term(right)), Term::BinaryOperation(BinaryOperation{operator: BinaryOperator::Divide, ..}) => panic!("division not supported with TPTP output"), Term::BinaryOperation(BinaryOperation{operator: BinaryOperator::Modulo, ..}) => panic!("modulo not supported with TPTP output"), Term::BinaryOperation(BinaryOperation{operator: BinaryOperator::Exponentiate, ..}) => panic!("exponentiation not supported with TPTP output"), Term::UnaryOperation(UnaryOperation{operator: UnaryOperator::Negative, argument}) => write!(formatter, "$uminus({:?})", display_term(argument)), Term::UnaryOperation(UnaryOperation{operator: UnaryOperator::AbsoluteValue, ..}) => panic!("absolute value not supported with TPTP output"), } } } impl<'a, 'b, C> std::fmt::Display for TermDisplay<'a, 'b, C> where C: crate::traits::VariableDeclarationDomain + crate::traits::VariableDeclarationID { fn fmt(&self, formatter: &mut std::fmt::Formatter) -> std::fmt::Result { write!(formatter, "{:?}", self) } } pub(crate) struct FormulaDisplay<'a, 'b, C> { formula: &'a foliage::Formula, context: &'b C, } pub(crate) fn display_formula<'a, 'b, C>(formula: &'a foliage::Formula, context: &'b C) -> FormulaDisplay<'a, 'b, C> where C: crate::traits::VariableDeclarationDomain + crate::traits::VariableDeclarationID { FormulaDisplay { formula, context, } } impl<'a, 'b, C> std::fmt::Debug for FormulaDisplay<'a, 'b, C> where C: crate::traits::InputConstantDeclarationDomain + crate::traits::VariableDeclarationDomain + crate::traits::VariableDeclarationID { fn fmt(&self, formatter: &mut std::fmt::Formatter) -> std::fmt::Result { let display_variable_declaration = |variable_declaration| display_variable_declaration(variable_declaration, self.context); let display_term = |term| display_term(term, self.context); let display_formula = |formula| display_formula(formula, self.context); let mut display_compare = |left, right, notation, integer_operator_name, auxiliary_predicate_name| -> std::fmt::Result { let mut notation = notation; let mut operation_identifier = integer_operator_name; let is_left_term_arithmetic = crate::is_term_arithmetic(left, self.context) .expect("could not determine whether term is arithmetic"); let is_right_term_arithmetic = crate::is_term_arithmetic(right, self.context) .expect("could not determine whether term is arithmetic"); match (!is_left_term_arithmetic || !is_right_term_arithmetic, auxiliary_predicate_name) { (true, Some(auxiliary_predicate_name)) => { notation = crate::OperatorNotation::Prefix; operation_identifier = auxiliary_predicate_name; }, _ => (), } if notation == crate::OperatorNotation::Prefix { write!(formatter, "{}(", operation_identifier)?; } match is_left_term_arithmetic && !is_right_term_arithmetic { true => write!(formatter, "f__integer__({})", display_term(left))?, false => write!(formatter, "{}", display_term(left))?, } match notation { crate::OperatorNotation::Prefix => write!(formatter, ", ")?, crate::OperatorNotation::Infix => write!(formatter, " {} ", operation_identifier)?, } match is_right_term_arithmetic && !is_left_term_arithmetic { true => write!(formatter, "f__integer__({})", display_term(right))?, false => write!(formatter, "{}", display_term(right))?, } if notation == crate::OperatorNotation::Prefix { write!(formatter, ")")?; } Ok(()) }; use foliage::*; match &self.formula { Formula::Exists(exists) => { write!(formatter, "?[")?; let mut separator = ""; for parameter in exists.parameters.iter() { let parameter_domain = self.context.variable_declaration_domain(parameter) .expect("unspecified variable domain"); write!(formatter, "{}{:?}: {}", separator, display_variable_declaration(parameter), display_domain(parameter_domain))?; separator = ", " } write!(formatter, "]: ({:?})", display_formula(&exists.argument))?; }, Formula::ForAll(for_all) => { write!(formatter, "![")?; let mut separator = ""; for parameter in for_all.parameters.iter() { let parameter_domain = self.context.variable_declaration_domain(parameter) .expect("unspecified variable domain"); write!(formatter, "{}{:?}: {}", separator, display_variable_declaration(parameter), display_domain(parameter_domain))?; separator = ", " } write!(formatter, "]: ({:?})", display_formula(&for_all.argument))?; }, Formula::Not(argument) => write!(formatter, "~{:?}", display_formula(argument))?, Formula::And(arguments) => { write!(formatter, "(")?; let mut separator = ""; assert!(!arguments.is_empty()); for argument in arguments { write!(formatter, "{}{:?}", separator, display_formula(argument))?; separator = " & " } write!(formatter, ")")?; }, Formula::Or(arguments) => { write!(formatter, "(")?; let mut separator = ""; assert!(!arguments.is_empty()); for argument in arguments { write!(formatter, "{}{:?}", separator, display_formula(argument))?; separator = " | " } write!(formatter, ")")?; }, Formula::Implies(Implies{antecedent, implication, ..}) => write!(formatter, "({:?} => {:?})", display_formula(antecedent), display_formula(implication))?, Formula::IfAndOnlyIf(arguments) => match arguments.len() { 0 => write!(formatter, "$true")?, _ => { let mut separator = ""; let parentheses_required = arguments.len() > 2; let mut argument_iterator = arguments.iter().peekable(); while let Some(argument) = argument_iterator.next() { if let Some(next_argument) = argument_iterator.peek() { write!(formatter, "{}", separator)?; if parentheses_required { write!(formatter, "(")?; } write!(formatter, "{:?} <=> {:?}", display_formula(argument), display_formula(next_argument))?; if parentheses_required { write!(formatter, ")")?; } separator = " & "; } } }, }, Formula::Compare(Compare{operator: ComparisonOperator::Less, left, right}) => display_compare(left, right, crate::OperatorNotation::Prefix, "$less", Some("p__less__"))?, Formula::Compare(Compare{operator: ComparisonOperator::LessOrEqual, left, right}) => display_compare(left, right, crate::OperatorNotation::Prefix, "$lesseq", Some("p__less_equal__"))?, Formula::Compare(Compare{operator: ComparisonOperator::Greater, left, right}) => display_compare(left, right, crate::OperatorNotation::Prefix, "$greater", Some("p__greater__"))?, Formula::Compare(Compare{operator: ComparisonOperator::GreaterOrEqual, left, right}) => display_compare(left, right, crate::OperatorNotation::Prefix, "$greatereq", Some("p__greater_equal__"))?, Formula::Compare(Compare{operator: ComparisonOperator::Equal, left, right}) => display_compare(left, right, crate::OperatorNotation::Infix, "=", None)?, Formula::Compare(Compare{operator: ComparisonOperator::NotEqual, left, right}) => display_compare(left, right, crate::OperatorNotation::Infix, "!=", None)?, Formula::Boolean(true) => write!(formatter, "$true")?, Formula::Boolean(false) => write!(formatter, "$false")?, Formula::Predicate(predicate) => { write!(formatter, "{}", predicate.declaration.name)?; if !predicate.arguments.is_empty() { write!(formatter, "(")?; let mut separator = ""; for argument in &predicate.arguments { write!(formatter, "{}", separator)?; let is_argument_arithmetic = crate::is_term_arithmetic(argument, self.context) .expect("could not determine whether term is arithmetic"); match is_argument_arithmetic { true => write!(formatter, "f__integer__({})", display_term(argument))?, false => write!(formatter, "{}", display_term(argument))?, } separator = ", " } write!(formatter, ")")?; } }, } Ok(()) } } impl<'a, 'b, C> std::fmt::Display for FormulaDisplay<'a, 'b, C> where C: crate::traits::InputConstantDeclarationDomain + crate::traits::VariableDeclarationDomain + crate::traits::VariableDeclarationID { fn fmt(&self, formatter: &mut std::fmt::Formatter) -> std::fmt::Result { write!(formatter, "{:?}", self) } }