pub trait DisplayTPTP<'a, DisplayType> where DisplayType: 'a + std::fmt::Debug + std::fmt::Display { fn display_tptp(&'a self) -> DisplayType; } struct VariableDeclarationDisplay<'a>(&'a foliage::VariableDeclaration); struct TermDisplay<'a>(&'a foliage::Term); struct FormulaDisplay<'a>(&'a foliage::Formula); struct StatementKindDisplay<'a>(&'a crate::project::StatementKind); pub struct ProjectDisplay<'a>(&'a crate::project::Project); impl<'a> DisplayTPTP<'a, VariableDeclarationDisplay<'a>> for foliage::VariableDeclaration { fn display_tptp(&'a self) -> VariableDeclarationDisplay<'a> { VariableDeclarationDisplay(self) } } impl<'a> DisplayTPTP<'a, TermDisplay<'a>> for foliage::Term { fn display_tptp(&'a self) -> TermDisplay<'a> { TermDisplay(self) } } impl<'a> DisplayTPTP<'a, FormulaDisplay<'a>> for foliage::Formula { fn display_tptp(&'a self) -> FormulaDisplay<'a> { FormulaDisplay(self) } } impl<'a> DisplayTPTP<'a, StatementKindDisplay<'a>> for crate::project::StatementKind { fn display_tptp(&'a self) -> StatementKindDisplay<'a> { StatementKindDisplay(self) } } impl<'a> DisplayTPTP<'a, ProjectDisplay<'a>> for crate::project::Project { fn display_tptp(&'a self) -> ProjectDisplay<'a> { ProjectDisplay(self) } } impl<'a> std::fmt::Debug for VariableDeclarationDisplay<'a> { fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result { match &self.0.domain { foliage::Domain::Program => write!(format, "X{}: object", self.0.name), foliage::Domain::Integer => write!(format, "N{}: $int", self.0.name), } } } impl<'a> std::fmt::Display for VariableDeclarationDisplay<'a> { fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result { write!(format, "{:?}", &self) } } impl<'a> std::fmt::Debug for TermDisplay<'a> { fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result { match self.0 { foliage::Term::Infimum => write!(format, "#inf"), foliage::Term::Supremum => write!(format, "#sup"), foliage::Term::Integer(value) => write!(format, "{}", value), foliage::Term::Symbolic(ref value) => write!(format, "{}", value), foliage::Term::String(ref value) => write!(format, "\"{}\"", value), foliage::Term::Variable(ref declaration) => match declaration.domain { foliage::Domain::Program => write!(format, "X{}", declaration.name), foliage::Domain::Integer => write!(format, "N{}", declaration.name), }, foliage::Term::Add(ref left, ref right) => write!(format, "$sum({:?}, {:?})", (&**left).display_tptp(), right.display_tptp()), foliage::Term::Subtract(ref left, ref right) => write!(format, "$difference({:?} - {:?})", left.display_tptp(), right.display_tptp()), foliage::Term::Multiply(ref left, ref right) => write!(format, "$product({:?} * {:?})", left.display_tptp(), right.display_tptp()), foliage::Term::Negative(ref argument) => write!(format, "$uminus({:?})", argument.display_tptp()), } } } impl<'a> std::fmt::Display for TermDisplay<'a> { fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result { write!(format, "{:?}", self) } } impl<'a> std::fmt::Debug for FormulaDisplay<'a> { fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result { match self.0 { foliage::Formula::Exists(ref exists) => { write!(format, "?[")?; let mut separator = ""; for parameter in &exists.parameters { write!(format, "{}{:?}", separator, parameter.display_tptp())?; separator = ", " } write!(format, "]: ({:?})", exists.argument.display_tptp()) }, foliage::Formula::ForAll(ref for_all) => { write!(format, "![")?; let mut separator = ""; for parameter in &for_all.parameters { write!(format, "{}{:?}", separator, parameter.display_tptp())?; separator = ", " } write!(format, "]: ({:?})", for_all.argument.display_tptp()) }, foliage::Formula::Not(ref argument) => write!(format, "~({:?})", argument.display_tptp()), foliage::Formula::And(ref arguments) => { let mut separator = ""; for argument in arguments { write!(format, "{}{:?}", separator, argument.display_tptp())?; separator = " & " } Ok(()) }, foliage::Formula::Or(ref arguments) => { let mut separator = ""; for argument in arguments { write!(format, "{}{:?}", separator, argument.display_tptp())?; separator = " | " } Ok(()) }, foliage::Formula::Implies(ref left, ref right) => write!(format, "({:?} => {:?})", left.display_tptp(), right.display_tptp()), foliage::Formula::Biconditional(ref left, ref right) => write!(format, "({:?} <=> {:?})", left.display_tptp(), right.display_tptp()), foliage::Formula::Less(ref left, ref right) => write!(format, "$less({:?}, {:?})", left.display_tptp(), right.display_tptp()), foliage::Formula::LessOrEqual(ref left, ref right) => write!(format, "$lesseq({:?}, {:?})", left.display_tptp(), right.display_tptp()), foliage::Formula::Greater(ref left, ref right) => write!(format, "$greater({:?}, {:?})", left.display_tptp(), right.display_tptp()), foliage::Formula::GreaterOrEqual(ref left, ref right) => write!(format, "$greatereq({:?}, {:?})", left.display_tptp(), right.display_tptp()), foliage::Formula::Equal(ref left, ref right) => write!(format, "({:?} = {:?})", left.display_tptp(), right.display_tptp()), foliage::Formula::NotEqual(ref left, ref right) => write!(format, "({:?} ~= {:?})", left.display_tptp(), right.display_tptp()), foliage::Formula::Boolean(value) => match value { true => write!(format, "$true"), false => write!(format, "$false"), }, foliage::Formula::Predicate(ref predicate) => { write!(format, "{}", predicate.declaration.name)?; if !predicate.arguments.is_empty() { write!(format, "(")?; let mut separator = ""; for argument in &predicate.arguments { write!(format, "{}{:?}", separator, argument.display_tptp())?; separator = ", " } write!(format, ")")?; } Ok(()) }, } } } impl<'a> std::fmt::Display for FormulaDisplay<'a> { fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result { write!(format, "{:?}", self) } } impl<'a> std::fmt::Debug for StatementKindDisplay<'a> { fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result { match &self.0 { crate::project::StatementKind::Axiom => write!(format, "axiom, axiom"), crate::project::StatementKind::Lemma => write!(format, "conjecture, lemma"), crate::project::StatementKind::Conjecture => write!(format, "conjecture, conjecture"), } } } impl<'a> std::fmt::Display for StatementKindDisplay<'a> { fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result { write!(format, "{:?}", &self) } } impl<'a> std::fmt::Debug for ProjectDisplay<'a> { fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result { let mut line_separator = ""; let mut section_separator = ""; if let Some(axioms) = self.0.statements.get(&crate::project::StatementKind::Axiom) { for axiom in axioms { write!(format, "{}tff({:?}, {:?}).", line_separator, crate::project::StatementKind::Axiom.display_tptp(), axiom.display_tptp())?; line_separator = "\n"; } section_separator = "\n"; } if let Some(lemmas) = self.0.statements.get(&crate::project::StatementKind::Lemma) { write!(format, "{}", section_separator)?; for lemma in lemmas { write!(format, "{}tff({:?}, {:?}).", line_separator, crate::project::StatementKind::Lemma.display_tptp(), lemma.display_tptp())?; line_separator = "\n"; } section_separator = "\n"; } if let Some(conjectures) = self.0.statements.get(&crate::project::StatementKind::Conjecture) { write!(format, "{}", section_separator)?; for conjecture in conjectures { write!(format, "{}tff({:?}, {:?}).", line_separator, crate::project::StatementKind::Conjecture.display_tptp(), conjecture.display_tptp())?; line_separator = "\n"; } } Ok(()) } } impl<'a> std::fmt::Display for ProjectDisplay<'a> { fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result { write!(format, "{:?}", &self) } }