Upgrade to foliage 0.2 development version

2020-04-17 00:09:44 +02:00 · 2020-04-17 00:09:44 +02:00 · becd8d4c19
parent f83695b5dc
commit becd8d4c19
9 changed files with 152 additions and 495 deletions
--- a/Cargo.toml
+++ b/Cargo.toml
@ -5,7 +5,7 @@ authors = ["Patrick Lühne <patrick@luehne.de>"]
 edition = "2018"
 [dependencies]
-foliage = "0.1"
+foliage = {git = "https://github.com/pluehne/foliage", branch = "master"}
 log = "0.4"
 pretty_env_logger = "0.4"
 structopt = "0.3"
--- a/src/main.rs
+++ b/src/main.rs
@ -5,6 +5,7 @@ use structopt::StructOpt as _;
 enum Command
 {
 	#[structopt(about = "Verifies a logic program against a specification")]
 	#[structopt(aliases = &["verify-specification", "verify-spec", "vspec"])]
 	VerifyProgram
 	{
 		/// ASP input program (one or multiple files)
--- a/src/output/human_readable.rs
+++ b/src/output/human_readable.rs
@ -1,97 +1,11 @@
-trait Precedence
+pub(crate) fn display_variable_declaration<C>(context: &C, formatter: &mut std::fmt::Formatter,
 	variable_declaration: &std::rc::Rc<foliage::VariableDeclaration>)
 	-> std::fmt::Result
 where C:
 	crate::traits::VariableDeclarationDomain + crate::traits::VariableDeclarationID
 {
-	fn precedence(&self) -> i32;
+	let id = context.variable_declaration_id(variable_declaration);
-}
+	let domain = context.variable_declaration_domain(variable_declaration)
 impl Precedence for foliage::Term
 {
 	fn precedence(&self) -> i32
 	{
 		match &self
 		{
 			Self::Boolean(_)
 			| Self::Function(_)
 			| Self::SpecialInteger(_)
 			| Self::Integer(_)
 			| Self::String(_)
 			| Self::Variable(_)
 				=> 0,
 			Self::UnaryOperation(foliage::UnaryOperation{operator: foliage::UnaryOperator::Negative, ..})
 				=> 1,
 			Self::BinaryOperation(foliage::BinaryOperation{operator: foliage::BinaryOperator::Exponentiate, ..})
 				=> 2,
 			Self::BinaryOperation(foliage::BinaryOperation{operator: foliage::BinaryOperator::Multiply, ..})
 			| Self::BinaryOperation(foliage::BinaryOperation{operator: foliage::BinaryOperator::Divide, ..})
 			| Self::BinaryOperation(foliage::BinaryOperation{operator: foliage::BinaryOperator::Modulo, ..})
 				=> 3,
 			Self::BinaryOperation(foliage::BinaryOperation{operator: foliage::BinaryOperator::Add, ..})
 			| Self::BinaryOperation(foliage::BinaryOperation{operator: foliage::BinaryOperator::Subtract, ..})
 				=> 4,
 			Self::UnaryOperation(foliage::UnaryOperation{operator: foliage::UnaryOperator::AbsoluteValue, ..})
 				=> 5,
 		}
 	}
 }
 impl Precedence for foliage::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,
 		}
 	}
 }
 pub(crate) struct VariableDeclarationDisplay<'a, 'b, C>
 where
 	C: crate::traits::VariableDeclarationDomain
 		+ crate::traits::VariableDeclarationID
 {
 	variable_declaration: &'a std::rc::Rc<foliage::VariableDeclaration>,
 	context: &'b C,
 }
 pub(crate) fn display_variable_declaration<'a, 'b, C>(
 	variable_declaration: &'a std::rc::Rc<foliage::VariableDeclaration>, 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, format: &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
@ -100,304 +14,5 @@ where
 		crate::Domain::Program => "X",
 	};
-		write!(format, "{}{}", prefix, id + 1)
+	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, format: &mut std::fmt::Formatter) -> std::fmt::Result
 	{
 		write!(format, "{:?}", &self)
 	}
 }
 pub(crate) struct TermDisplay<'a, 'b, C>
 {
 	parent_precedence: Option<i32>,
 	term: &'a foliage::Term,
 	context: &'b C,
 }
 pub(crate) fn display_term<'a, 'b, C>(term: &'a foliage::Term, parent_precedence: Option<i32>,
 	context: &'b C)
 	-> TermDisplay<'a, 'b, C>
 {
 	TermDisplay
 	{
 		parent_precedence,
 		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, format: &mut std::fmt::Formatter) -> std::fmt::Result
 	{
 		let display_variable_declaration = |variable_declaration|
 			display_variable_declaration(variable_declaration, self.context);
 		let display_term = |term, precedence| display_term(term, precedence, self.context);
 		let precedence = self.term.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.term
 		{
 			foliage::Term::Boolean(true) => write!(format, "true"),
 			foliage::Term::Boolean(false) => write!(format, "false"),
 			foliage::Term::SpecialInteger(foliage::SpecialInteger::Infimum) => write!(format, "#inf"),
 			foliage::Term::SpecialInteger(foliage::SpecialInteger::Supremum) => write!(format, "#sup"),
 			foliage::Term::Integer(value) => write!(format, "{}", value),
 			foliage::Term::String(value) => write!(format, "\"{}\"", value),
 			foliage::Term::Variable(variable) => write!(format, "{:?}",
 				display_variable_declaration(&variable.declaration)),
 			foliage::Term::Function(function) =>
 			{
 				write!(format, "{}", 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!(format, "{}(", function.declaration.name)?;
 					let mut separator = "";
 					for argument in &function.arguments
 					{
 						write!(format, "{}{:?}", separator, display_term(&argument, None))?;
 						separator = ", ";
 					}
 					write!(format, ")")?;
 				}
 				Ok(())
 			},
 			foliage::Term::BinaryOperation(foliage::BinaryOperation{operator: foliage::BinaryOperator::Add, left, right})
 				=> write!(format, "{:?} + {:?}", display_term(left, precedence), display_term(right, precedence)),
 			foliage::Term::BinaryOperation(foliage::BinaryOperation{operator: foliage::BinaryOperator::Subtract, left, right})
 				=> write!(format, "{:?} - {:?}", display_term(left, precedence), display_term(right, precedence)),
 			foliage::Term::BinaryOperation(foliage::BinaryOperation{operator: foliage::BinaryOperator::Multiply, left, right})
 				=> write!(format, "{:?} * {:?}", display_term(left, precedence), display_term(right, precedence)),
 			foliage::Term::BinaryOperation(foliage::BinaryOperation{operator: foliage::BinaryOperator::Divide, left, right})
 				=> write!(format, "{:?} / {:?}", display_term(left, precedence), display_term(right, precedence)),
 			foliage::Term::BinaryOperation(foliage::BinaryOperation{operator: foliage::BinaryOperator::Modulo, left, right})
 				=> write!(format, "{:?} % {:?}", display_term(left, precedence), display_term(right, precedence)),
 			foliage::Term::BinaryOperation(foliage::BinaryOperation{operator: foliage::BinaryOperator::Exponentiate, left, right})
 				=> write!(format, "{:?} ** {:?}", display_term(left, precedence), display_term(right, precedence)),
 			foliage::Term::UnaryOperation(foliage::UnaryOperation{operator: foliage::UnaryOperator::Negative, argument})
 				=> write!(format, "-{:?}", display_term(argument, precedence)),
 			foliage::Term::UnaryOperation(foliage::UnaryOperation{operator: foliage::UnaryOperator::AbsoluteValue, argument})
 				=> write!(format, "|{:?}|", display_term(argument, precedence)),
 		}?;
 		if requires_parentheses
 		{
 			write!(format, ")")?;
 		}
 		Ok(())
 	}
 }
 impl<'a, 'b, C> std::fmt::Display for TermDisplay<'a, 'b, C>
 where
 	C: crate::traits::VariableDeclarationDomain
 		+ crate::traits::VariableDeclarationID
 {
 	fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result
 	{
 		write!(format, "{:?}", self)
 	}
 }
 pub(crate) struct FormulaDisplay<'a, 'b, C>
 {
 	parent_precedence: Option<i32>,
 	formula: &'a foliage::Formula,
 	context: &'b C,
 }
 pub(crate) fn display_formula<'a, 'b, C>(formula: &'a foliage::Formula,
 	parent_precedence: Option<i32>, context: &'b C)
 	-> FormulaDisplay<'a, 'b, C>
 where
 	C: crate::traits::VariableDeclarationDomain
 		+ crate::traits::VariableDeclarationID
 {
 	FormulaDisplay
 	{
 		parent_precedence,
 		formula,
 		context,
 	}
 }
 impl<'a, 'b, C> std::fmt::Debug for FormulaDisplay<'a, 'b, C>
 where
 	C: crate::traits::VariableDeclarationDomain
 		+ crate::traits::VariableDeclarationID
 {
 	fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result
 	{
 		let display_variable_declaration = |variable_declaration|
 			display_variable_declaration(variable_declaration, self.context);
 		let display_term = |term, precedence| display_term(term, precedence, self.context);
 		let display_formula = |formula, precedence| display_formula(formula, precedence, self.context);
 		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
 		{
 			foliage::Formula::Exists(exists) =>
 			{
 				assert!(!exists.parameters.is_empty());
 				write!(format, "exists")?;
 				let mut separator = " ";
 				for parameter in exists.parameters.iter()
 				{
 					write!(format, "{}{:?}", separator, display_variable_declaration(parameter))?;
 					separator = ", "
 				}
 				write!(format, " {:?}", display_formula(&exists.argument, precedence))?;
 			},
 			foliage::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, display_variable_declaration(parameter))?;
 					separator = ", "
 				}
 				write!(format, " {:?}", display_formula(&for_all.argument, precedence))?;
 			},
 			foliage::Formula::Not(argument) => write!(format, "not {:?}", display_formula(argument, precedence))?,
 			foliage::Formula::And(arguments) =>
 			{
 				let mut separator = "";
 				assert!(!arguments.is_empty());
 				for argument in arguments
 				{
 					write!(format, "{}{:?}", separator, display_formula(argument, precedence))?;
 					separator = " and "
 				}
 			},
 			foliage::Formula::Or(arguments) =>
 			{
 				let mut separator = "";
 				assert!(!arguments.is_empty());
 				for argument in arguments
 				{
 					write!(format, "{}{:?}", separator, display_formula(argument, precedence))?;
 					separator = " or "
 				}
 			},
 			foliage::Formula::Implies(foliage::Implies{antecedent, implication})
 				=> write!(format, "{:?} -> {:?}", display_formula(antecedent, precedence), display_formula(implication, precedence))?,
 			foliage::Formula::IfAndOnlyIf(foliage::IfAndOnlyIf{left, right})
 				=> write!(format, "{:?} <-> {:?}", display_formula(left, precedence), display_formula(right, precedence))?,
 			foliage::Formula::Compare(foliage::Compare{operator: foliage::ComparisonOperator::Less, left, right})
 				=> write!(format, "{:?} < {:?}", display_term(left, None), display_term(right, None))?,
 			foliage::Formula::Compare(foliage::Compare{operator: foliage::ComparisonOperator::LessOrEqual, left, right})
 				=> write!(format, "{:?} <= {:?}", display_term(left, None), display_term(right, None))?,
 			foliage::Formula::Compare(foliage::Compare{operator: foliage::ComparisonOperator::Greater, left, right})
 				=> write!(format, "{:?} > {:?}", display_term(left, None), display_term(right, None))?,
 			foliage::Formula::Compare(foliage::Compare{operator: foliage::ComparisonOperator::GreaterOrEqual, left, right})
 				=> write!(format, "{:?} >= {:?}", display_term(left, None), display_term(right, None))?,
 			foliage::Formula::Compare(foliage::Compare{operator: foliage::ComparisonOperator::Equal, left, right})
 				=> write!(format, "{:?} = {:?}", display_term(left, None), display_term(right, None))?,
 			foliage::Formula::Compare(foliage::Compare{operator: foliage::ComparisonOperator::NotEqual, left, right})
 				=> write!(format, "{:?} != {:?}", display_term(left, None), display_term(right, None))?,
 			foliage::Formula::Boolean(true) => write!(format, "#true")?,
 			foliage::Formula::Boolean(false) => write!(format, "#false")?,
 			foliage::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<'a, 'b, C> std::fmt::Display for FormulaDisplay<'a, 'b, C>
 where
 	C: crate::traits::VariableDeclarationDomain
 		+ crate::traits::VariableDeclarationID
 {
 	fn fmt(&self, format: &mut std::fmt::Formatter) -> std::fmt::Result
 	{
 		write!(format, "{:?}", self)
 	}
 }
--- a/src/output/tptp.rs
+++ b/src/output/tptp.rs
@ -456,12 +456,43 @@ where
 				write!(format, ")")?;
 			},
-			foliage::Formula::Implies(foliage::Implies{antecedent, implication})
+			foliage::Formula::Implies(foliage::Implies{antecedent, implication, ..})
 				=> write!(format, "({:?} => {:?})", display_formula(antecedent),
 					display_formula(implication))?,
-			foliage::Formula::IfAndOnlyIf(foliage::IfAndOnlyIf{left, right})
+			foliage::Formula::IfAndOnlyIf(arguments) => match arguments.len()
-				=> write!(format, "({:?} <=> {:?})", display_formula(left),
+			{
-					display_formula(right))?,
+				0 => write!(format, "$true")?,
 				_ =>
 				{
 					let mut separator = "";
 					let parentheses_required = arguments.len() > 2;
 					let mut argument_iterator = arguments.iter().peekable();
 					while let Some(argument) = argument_iterator.next()
 					{
 						if let Some(next_argument) = argument_iterator.peek()
 						{
 							write!(format, "{}", separator)?;
 							if parentheses_required
 							{
 								write!(format, "(")?;
 							}
 							write!(format, "{:?} <=> {:?}", display_formula(argument),
 								display_formula(next_argument))?;
 							if parentheses_required
 							{
 								write!(format, ")")?;
 							}
 							separator = " & ";
 						}
 					}
 				},
 			},
 			foliage::Formula::Compare(
 				foliage::Compare{operator: foliage::ComparisonOperator::Less, left, right})
 				=> display_compare(left, right, crate::OperatorNotation::Prefix, "$less",
--- a/src/translate/common/choose_value_in_term.rs
+++ b/src/translate/common/choose_value_in_term.rs
@ -1,5 +1,5 @@
 pub(crate) fn choose_value_in_primitive(term: Box<foliage::Term>,
-	variable_declaration: &std::rc::Rc<foliage::VariableDeclaration>)
+	variable_declaration: std::rc::Rc<foliage::VariableDeclaration>)
 	-> foliage::Formula
 {
 	let variable = foliage::Term::variable(variable_declaration);
@ -8,7 +8,7 @@ pub(crate) fn choose_value_in_primitive(term: Box<foliage::Term>,
 }
 pub(crate) fn choose_value_in_term<C>(term: &clingo::ast::Term,
-	variable_declaration: &std::rc::Rc<foliage::VariableDeclaration>, context: &C)
+	variable_declaration: std::rc::Rc<foliage::VariableDeclaration>, context: &C)
 	-> Result<foliage::Formula, crate::Error>
 where
 	C: crate::traits::GetOrCreateFunctionDeclaration
@ -42,14 +42,16 @@ where
 				// At this point, we only have to handle (0-ary) constants
 				if !arguments.is_empty()
 				{
-					return Err(crate::Error::new_logic("unexpected arguments, expected (0-ary) constant symbol"));
+					return Err(crate::Error::new_logic(
 						"unexpected arguments, expected (0-ary) constant symbol"));
 				}
 				let constant_name = symbol.name()
 					.map_err(|error| crate::Error::new_logic("clingo error").with(error))?;
-				let constant_declaration = context.get_or_create_function_declaration(constant_name, 0);
+				let constant_declaration =
-				let function = foliage::Term::function(&constant_declaration, vec![]);
+					context.get_or_create_function_declaration(constant_name, 0);
 				let function = foliage::Term::function(constant_declaration, vec![]);
 				Ok(choose_value_in_primitive(Box::new(function), variable_declaration))
 			}
@ -60,7 +62,7 @@ where
 				variable_name);
 			context.assign_variable_declaration_domain(&other_variable_declaration,
 				crate::Domain::Program);
-			let other_variable = foliage::Term::variable(&other_variable_declaration);
+			let other_variable = foliage::Term::variable(other_variable_declaration);
 			Ok(choose_value_in_primitive(Box::new(other_variable), variable_declaration))
 		},
@ -90,22 +92,21 @@ where
 					let parameter_2 = &parameters[1];
 					let translated_binary_operation = foliage::Term::binary_operation(operator,
-						Box::new(foliage::Term::variable(&parameter_1)),
+						Box::new(foliage::Term::variable(std::rc::Rc::clone(&parameter_1))),
-						Box::new(foliage::Term::variable(&parameter_2)));
+						Box::new(foliage::Term::variable(std::rc::Rc::clone(&parameter_2))));
 					let equals = foliage::Formula::equal(
 						Box::new(foliage::Term::variable(variable_declaration)),
 						Box::new(translated_binary_operation));
 					let choose_value_from_left_argument = choose_value_in_term(
-						binary_operation.left(), &parameter_1, context)?;
+						binary_operation.left(), std::rc::Rc::clone(&parameter_1), context)?;
 					let choose_value_from_right_argument = choose_value_in_term(
-						binary_operation.right(), &parameter_2, context)?;
+						binary_operation.right(), std::rc::Rc::clone(&parameter_2), context)?;
-					let and = foliage::Formula::And(vec![Box::new(equals),
+					let and = foliage::Formula::And(vec![equals, choose_value_from_left_argument,
-						Box::new(choose_value_from_left_argument),
+						choose_value_from_right_argument]);
 						Box::new(choose_value_from_right_argument)]);
 					Ok(foliage::Formula::exists(parameters, Box::new(and)))
 				},
@ -130,40 +131,42 @@ where
 					let parameter_r = &parameters[3];
 					let j_times_q = foliage::Term::multiply(
-						Box::new(foliage::Term::variable(parameter_j)),
+						Box::new(foliage::Term::variable(std::rc::Rc::clone(parameter_j))),
-						Box::new(foliage::Term::variable(parameter_q)));
+						Box::new(foliage::Term::variable(std::rc::Rc::clone(parameter_q))));
 					let j_times_q_plus_r = foliage::Term::add(Box::new(j_times_q),
-						Box::new(foliage::Term::variable(parameter_r)));
+						Box::new(foliage::Term::variable(std::rc::Rc::clone(parameter_r))));
 					let i_equals_j_times_q_plus_r = foliage::Formula::equal(
-						Box::new(foliage::Term::variable(parameter_j)), Box::new(j_times_q_plus_r));
+						Box::new(foliage::Term::variable(std::rc::Rc::clone(parameter_j))),
 						Box::new(j_times_q_plus_r));
-					let choose_i_in_t1 = choose_value_in_term(binary_operation.left(), parameter_i,
+					let choose_i_in_t1 = choose_value_in_term(binary_operation.left(),
-						context)?;
+						std::rc::Rc::clone(parameter_i), context)?;
-					let choose_i_in_t2 = choose_value_in_term(binary_operation.left(), parameter_j,
+					let choose_i_in_t2 = choose_value_in_term(binary_operation.left(),
-						context)?;
+						std::rc::Rc::clone(parameter_j), context)?;
 					let j_not_equal_to_0 = foliage::Formula::not_equal(
-						Box::new(foliage::Term::variable(parameter_j)),
+						Box::new(foliage::Term::variable(std::rc::Rc::clone(parameter_j))),
 						Box::new(foliage::Term::integer(0)));
 					let r_greater_or_equal_to_0 = foliage::Formula::greater_or_equal(
-						Box::new(foliage::Term::variable(parameter_r)),
+						Box::new(foliage::Term::variable(std::rc::Rc::clone(parameter_r))),
 						Box::new(foliage::Term::integer(0)));
 					let r_less_than_q = foliage::Formula::less(
-						Box::new(foliage::Term::variable(parameter_r)),
+						Box::new(foliage::Term::variable(std::rc::Rc::clone(parameter_r))),
-						Box::new(foliage::Term::variable(parameter_q)));
+						Box::new(foliage::Term::variable(std::rc::Rc::clone(parameter_q))));
 					let z_equal_to_q = foliage::Formula::equal(
-						Box::new(foliage::Term::variable(variable_declaration)),
+						Box::new(
-						Box::new(foliage::Term::variable(parameter_q)));
+							foliage::Term::variable(std::rc::Rc::clone(&variable_declaration))),
 						Box::new(foliage::Term::variable(std::rc::Rc::clone(parameter_q))));
 					let z_equal_to_r = foliage::Formula::equal(
 						Box::new(foliage::Term::variable(variable_declaration)),
-						Box::new(foliage::Term::variable(parameter_r)));
+						Box::new(foliage::Term::variable(std::rc::Rc::clone(parameter_r))));
 					let last_argument = match operator
 					{
@ -172,10 +175,9 @@ where
 						_ => return Err(crate::Error::new_logic("unreachable code")),
 					};
-					let and = foliage::Formula::and(vec![Box::new(i_equals_j_times_q_plus_r),
+					let and = foliage::Formula::and(vec![i_equals_j_times_q_plus_r, choose_i_in_t1,
-						Box::new(choose_i_in_t1), Box::new(choose_i_in_t2),
+						choose_i_in_t2, j_not_equal_to_0, r_greater_or_equal_to_0, r_less_than_q,
-						Box::new(j_not_equal_to_0), Box::new(r_greater_or_equal_to_0),
+						last_argument]);
 						Box::new(r_less_than_q), Box::new(last_argument)]);
 					Ok(foliage::Formula::exists(parameters, Box::new(and)))
 				},
@ -197,16 +199,15 @@ where
 						crate::Domain::Integer);
 					let negative_z_prime = foliage::Term::negative(Box::new(
-						foliage::Term::variable(&parameter_z_prime)));
+						foliage::Term::variable(std::rc::Rc::clone(&parameter_z_prime))));
 					let equals = foliage::Formula::equal(
 						Box::new(foliage::Term::variable(variable_declaration)),
 						Box::new(negative_z_prime));
 					let choose_z_prime_in_t_prime = choose_value_in_term(unary_operation.argument(),
-						&parameter_z_prime, context)?;
+						std::rc::Rc::clone(&parameter_z_prime), context)?;
-					let and = foliage::Formula::and(vec![Box::new(equals),
+					let and = foliage::Formula::and(vec![equals, choose_z_prime_in_t_prime]);
 						Box::new(choose_z_prime_in_t_prime)]);
 					let parameters = std::rc::Rc::new(vec![parameter_z_prime]);
@ -232,25 +233,26 @@ where
 			let parameter_j = &parameters[1];
 			let parameter_k = &parameters[2];
-			let choose_i_in_t_1 = choose_value_in_term(interval.left(), parameter_i, context)?;
+			let choose_i_in_t_1 = choose_value_in_term(interval.left(),
 				std::rc::Rc::clone(parameter_i), context)?;
-			let choose_j_in_t_2 = choose_value_in_term(interval.right(), parameter_j, context)?;
+			let choose_j_in_t_2 = choose_value_in_term(interval.right(),
 				std::rc::Rc::clone(parameter_j), context)?;
 			let i_less_than_or_equal_to_k = foliage::Formula::less_or_equal(
-				Box::new(foliage::Term::variable(parameter_i)),
+				Box::new(foliage::Term::variable(std::rc::Rc::clone(parameter_i))),
-				Box::new(foliage::Term::variable(parameter_k)));
+				Box::new(foliage::Term::variable(std::rc::Rc::clone(parameter_k))));
 			let k_less_than_or_equal_to_j = foliage::Formula::less_or_equal(
-				Box::new(foliage::Term::variable(parameter_k)),
+				Box::new(foliage::Term::variable(std::rc::Rc::clone(parameter_k))),
-				Box::new(foliage::Term::variable(parameter_j)));
+				Box::new(foliage::Term::variable(std::rc::Rc::clone(parameter_j))));
 			let z_equals_k = foliage::Formula::equal(
 				Box::new(foliage::Term::variable(variable_declaration)),
-				Box::new(foliage::Term::variable(parameter_k)));
+				Box::new(foliage::Term::variable(std::rc::Rc::clone(parameter_k))));
-			let and = foliage::Formula::and(vec![Box::new(choose_i_in_t_1),
+			let and = foliage::Formula::and(vec![choose_i_in_t_1, choose_j_in_t_2,
-				Box::new(choose_j_in_t_2), Box::new(i_less_than_or_equal_to_k),
+				i_less_than_or_equal_to_k, k_less_than_or_equal_to_j, z_equals_k]);
 				Box::new(k_less_than_or_equal_to_j), Box::new(z_equals_k)]);
 			Ok(foliage::Formula::exists(parameters, Box::new(and)))
 		},
--- a/src/translate/verify_properties.rs
+++ b/src/translate/verify_properties.rs
@ -105,7 +105,7 @@ where
 		for definition in definitions.definitions.iter()
 		{
 			log::debug!("definition({}/{}): {}.", predicate_declaration.name, predicate_declaration.arity,
-				crate::output::human_readable::display_formula(&definition.formula, None, &context));
+				foliage::format::display_formula(&definition.formula, &context));
 		}
 	}
@ -122,14 +122,14 @@ where
 				let or = foliage::Formula::or(or_arguments);
 				let head_arguments = definitions.head_atom_parameters.iter()
-					.map(|x| Box::new(foliage::Term::variable(x)))
+					.map(|x| foliage::Term::variable(std::rc::Rc::clone(x)))
 					.collect::<Vec<_>>();
-				let head_predicate = foliage::Formula::predicate(&predicate_declaration,
+				let head_predicate = foliage::Formula::predicate(
-					head_arguments);
+					std::rc::Rc::clone(predicate_declaration), head_arguments);
-				let completed_definition = foliage::Formula::if_and_only_if(
+				let completed_definition =
-					Box::new(head_predicate), Box::new(or));
+					foliage::Formula::if_and_only_if(vec![head_predicate, or]);
 				let scoped_formula = crate::ScopedFormula
 				{
@ -154,11 +154,11 @@ where
 					.collect::<Vec<_>>());
 				let head_arguments = head_atom_parameters.iter()
-					.map(|x| Box::new(foliage::Term::variable(x)))
+					.map(|x| foliage::Term::variable(std::rc::Rc::clone(x)))
 					.collect();
-				let head_predicate = foliage::Formula::predicate(&predicate_declaration,
+				let head_predicate = foliage::Formula::predicate(
-					head_arguments);
+					std::rc::Rc::clone(predicate_declaration), head_arguments);
 				let not = foliage::Formula::not(Box::new(head_predicate));
@ -197,7 +197,7 @@ where
 		match output_format
 		{
 			crate::output::Format::HumanReadable => print!("{}",
-				crate::output::human_readable::display_formula(formula, None, &context)),
+				foliage::format::display_formula(formula, &context)),
 			crate::output::Format::TPTP => print!("{}",
 				crate::output::tptp::display_formula(formula, &context)),
 		}
@ -380,13 +380,13 @@ fn read_rule(rule: &clingo::ast::Rule, context: &Context) -> Result<(), crate::E
 			if let HeadType::ChoiceWithSingleAtom(_) = head_type
 			{
 				let head_arguments = definitions.head_atom_parameters.iter()
-					.map(|x| Box::new(foliage::Term::variable(x)))
+					.map(|x| foliage::Term::variable(std::rc::Rc::clone(x)))
 					.collect::<Vec<_>>();
-				let head_predicate = foliage::Formula::predicate(&head_atom.predicate_declaration,
+				let head_predicate = foliage::Formula::predicate(
-					head_arguments);
+					std::rc::Rc::clone(&head_atom.predicate_declaration), head_arguments);
-				definition_arguments.push(Box::new(head_predicate));
+				definition_arguments.push(head_predicate);
 			}
 			let mut head_atom_arguments_iterator = head_atom.arguments.iter();
@ -396,9 +396,9 @@ fn read_rule(rule: &clingo::ast::Rule, context: &Context) -> Result<(), crate::E
 				let head_atom_argument = head_atom_arguments_iterator.next().unwrap();
 				let translated_head_term = crate::translate::common::choose_value_in_term(
-					head_atom_argument, head_atom_parameter, context)?;
+					head_atom_argument, std::rc::Rc::clone(head_atom_parameter), context)?;
-				definition_arguments.push(Box::new(translated_head_term));
+				definition_arguments.push(translated_head_term);
 			}
 			context.variable_declaration_stack.borrow_mut().pop()?;
@ -410,18 +410,18 @@ fn read_rule(rule: &clingo::ast::Rule, context: &Context) -> Result<(), crate::E
 			let definition = match definition_arguments.len()
 			{
 				1 => definition_arguments.pop().unwrap(),
-				0 => Box::new(foliage::Formula::true_()),
+				0 => foliage::Formula::true_(),
-				_ => Box::new(foliage::Formula::and(definition_arguments)),
+				_ => foliage::Formula::and(definition_arguments),
 			};
 			let definition = crate::ScopedFormula
 			{
 				free_variable_declarations: std::rc::Rc::new(free_variable_declarations),
-				formula: definition,
+				formula: Box::new(definition),
 			};
 			log::debug!("translated rule with single atom in head: {}",
-				crate::output::human_readable::display_formula(&definition.formula, None, context));
+				foliage::format::display_formula(&definition.formula, context));
 			definitions.definitions.push(definition);
 		},
@ -435,7 +435,7 @@ fn read_rule(rule: &clingo::ast::Rule, context: &Context) -> Result<(), crate::E
 			let formula = match arguments.len()
 			{
-				1 => foliage::Formula::not(arguments.pop().unwrap()),
+				1 => foliage::Formula::not(Box::new(arguments.pop().unwrap())),
 				0 => foliage::Formula::false_(),
 				_ => foliage::Formula::not(Box::new(foliage::Formula::and(arguments))),
 			};
@ -449,8 +449,7 @@ fn read_rule(rule: &clingo::ast::Rule, context: &Context) -> Result<(), crate::E
 			let integrity_constraint = crate::universal_closure(scoped_formula);
 			log::debug!("translated integrity constraint: {}",
-				crate::output::human_readable::display_formula(&integrity_constraint, None,
+				foliage::format::display_formula(&integrity_constraint, context));
 					context));
 			context.integrity_constraints.borrow_mut().push(integrity_constraint);
 		},
--- a/src/translate/verify_properties/context.rs
+++ b/src/translate/verify_properties/context.rs
@ -208,3 +208,14 @@ impl crate::traits::VariableDeclarationID for Context
 		}
 	}
 }
 impl foliage::format::Format for Context
 {
 	fn display_variable_declaration(&self, formatter: &mut std::fmt::Formatter,
 		variable_declaration: &std::rc::Rc<foliage::VariableDeclaration>)
 		-> std::fmt::Result
 	{
 		crate::output::human_readable::display_variable_declaration(self, formatter,
 			variable_declaration)
 	}
 }
--- a/src/translate/verify_properties/translate_body.rs
+++ b/src/translate/verify_properties/translate_body.rs
@ -30,10 +30,10 @@ where
 	let parameters = std::rc::Rc::new(parameters);
 	let predicate_arguments = parameters.iter().map(
-		|parameter| Box::new(foliage::Term::variable(parameter)))
+		|parameter| foliage::Term::variable(std::rc::Rc::clone(parameter)))
 		.collect::<Vec<_>>();
-	let predicate = foliage::Formula::predicate(&predicate_declaration, predicate_arguments);
+	let predicate = foliage::Formula::predicate(predicate_declaration, predicate_arguments);
 	let predicate_literal = match sign
 	{
@ -53,12 +53,11 @@ where
 	let mut parameters_iterator = parameters.iter();
 	let mut arguments = function.arguments().iter().map(
-		|x| crate::translate::common::choose_value_in_term(x, &parameters_iterator.next().unwrap(),
+		|x| crate::translate::common::choose_value_in_term(x,
-			context)
+			std::rc::Rc::clone(&parameters_iterator.next().unwrap()), context))
 			.map(|x| Box::new(x)))
 		.collect::<Result<Vec<_>, _>>()?;
-	arguments.push(Box::new(predicate_literal));
+	arguments.push(predicate_literal);
 	let and = foliage::Formula::and(arguments);
@ -120,12 +119,12 @@ where
 			let parameter_z2 = &parameters_iterator.next().unwrap();
 			let choose_z1_in_t1 = crate::translate::common::choose_value_in_term(comparison.left(),
-				parameter_z1, context)?;
+				std::rc::Rc::clone(parameter_z1), context)?;
 			let choose_z2_in_t2 = crate::translate::common::choose_value_in_term(comparison.right(),
-				parameter_z2, context)?;
+				std::rc::Rc::clone(parameter_z2), context)?;
-			let variable_1 = foliage::Term::variable(parameter_z1);
+			let variable_1 = foliage::Term::variable(std::rc::Rc::clone(parameter_z1));
-			let variable_2 = foliage::Term::variable(parameter_z2);
+			let variable_2 = foliage::Term::variable(std::rc::Rc::clone(parameter_z2));
 			let operator = crate::translate::common::translate_comparison_operator(
 				comparison.comparison_type());
@ -133,8 +132,8 @@ where
 			let compare_z1_and_z2 = foliage::Formula::compare(operator, Box::new(variable_1),
 				Box::new(variable_2));
-			let and = foliage::Formula::and(vec![Box::new(choose_z1_in_t1),
+			let and =
-				Box::new(choose_z2_in_t2), Box::new(compare_z1_and_z2)]);
+				foliage::Formula::and(vec![choose_z1_in_t1, choose_z2_in_t2, compare_z1_and_z2]);
 			Ok(foliage::Formula::exists(parameters, Box::new(and)))
 		},
@ -153,7 +152,6 @@ where
 		+ crate::traits::AssignVariableDeclarationDomain
 {
 	body_literals.iter()
-		.map(|body_literal| translate_body_literal(body_literal, context)
+		.map(|body_literal| translate_body_literal(body_literal, context))
 			.map(|value| Box::new(value)))
 		.collect::<Result<foliage::Formulas, crate::Error>>()
 }
--- a/src/utils.rs
+++ b/src/utils.rs
@ -44,23 +44,23 @@ pub(crate) struct ScopedFormula
 	pub formula: Box<foliage::Formula>,
 }
-pub(crate) fn existential_closure(scoped_formula: crate::ScopedFormula) -> Box<foliage::Formula>
+pub(crate) fn existential_closure(scoped_formula: crate::ScopedFormula) -> foliage::Formula
 {
 	match scoped_formula.free_variable_declarations.is_empty()
 	{
-		true => scoped_formula.formula,
+		true => *scoped_formula.formula,
-		false => Box::new(foliage::Formula::exists(scoped_formula.free_variable_declarations,
+		false => foliage::Formula::exists(scoped_formula.free_variable_declarations,
-			scoped_formula.formula)),
+			scoped_formula.formula),
 	}
 }
-pub(crate) fn universal_closure(scoped_formula: crate::ScopedFormula) -> Box<foliage::Formula>
+pub(crate) fn universal_closure(scoped_formula: crate::ScopedFormula) -> foliage::Formula
 {
 	match scoped_formula.free_variable_declarations.is_empty()
 	{
-		true => scoped_formula.formula,
+		true => *scoped_formula.formula,
-		false => Box::new(foliage::Formula::for_all(scoped_formula.free_variable_declarations,
+		false => foliage::Formula::for_all(scoped_formula.free_variable_declarations,
-			scoped_formula.formula)),
+			scoped_formula.formula),
 	}
 }