use crate::tokens::Token; /* --------- * * AST nodes * * --------- */ /// The AST node for the program #[derive(Default, Debug, Clone)] pub struct ProgramNode(pub Vec); /// An AST node that represents a statement. #[derive(Debug, Clone)] pub enum StmtNode { /// An single expression Expression(ExprNode), /// The print statement Print(ExprNode), } /// An AST node that represents an expression. #[derive(Debug, Clone)] pub enum ExprNode { /// Binary expression. Binary { left: Box, operator: Token, right: Box, }, /// Unary expression. Unary { operator: Token, right: Box, }, /// Grouping expression, containing a sub-expression. Grouping { expression: Box }, /// A litteral value, represented by the corresponding token. Litteral { value: Token }, } /* -------------------------------- * * Dumper trait and implementations * * -------------------------------- */ /// This trait should be implemented by nodes to allow AST dumps. pub trait AstDumper { /// Dump the node as a string. fn dump(&self) -> String; } impl AstDumper for ProgramNode { fn dump(&self) -> String { self.0 .iter() .map(|node| node.dump()) .collect::>() .join(" ") } } impl AstDumper for StmtNode { fn dump(&self) -> String { match self { Self::Expression(expr) => format!("( {} )", expr.dump()), Self::Print(expr) => format!("(print {})", expr.dump()), } } } impl AstDumper for ExprNode { fn dump(&self) -> String { match self { Self::Binary { left, operator, right, } => { format!("( {} {} {} )", operator.lexeme, left.dump(), right.dump()) } Self::Unary { operator, right } => { format!("( {} {} )", operator.lexeme, right.dump()) } Self::Grouping { expression } => { format!("( {} )", expression.dump()) } Self::Litteral { value } => { if value.is_litteral() { value.lexeme.clone() } else { panic!("Unexpected token type for token {:#?}", value) } } } } }