use serde::{Deserialize, Serialize}; use tree_sitter::Node; use crate::{ AbstractTree, Assignment, Block, Error, Expression, For, IfElse, IndexAssignment, Map, Match, Result, Type, Use, Value, While, }; /// Abstract representation of a statement. #[derive(Debug, Clone, Serialize, Deserialize, Eq, PartialEq, PartialOrd, Ord)] pub enum Statement { Assignment(Box), Return(Expression), Expression(Expression), IfElse(Box), Match(Match), While(Box), Block(Box), For(Box), Use(Use), IndexAssignment(Box), } impl AbstractTree for Statement { fn from_syntax_node(source: &str, node: Node, context: &Map) -> Result { Error::expect_syntax_node(source, "statement", node)?; let child = node.child(0).unwrap(); match child.kind() { "assignment" => Ok(Statement::Assignment(Box::new( Assignment::from_syntax_node(source, child, context)?, ))), "return" => { let expression_node = child.child(1).unwrap(); Ok(Statement::Return(Expression::from_syntax_node(source, expression_node, context)?)) }, "expression" => Ok(Self::Expression(Expression::from_syntax_node( source, child, context )?)), "if_else" => Ok(Statement::IfElse(Box::new(IfElse::from_syntax_node( source, child, context )?))), "tool" => Ok(Statement::IfElse(Box::new(IfElse::from_syntax_node( source, child, context )?))), "while" => Ok(Statement::While(Box::new(While::from_syntax_node( source, child, context )?))), "block" => Ok(Statement::Block(Box::new(Block::from_syntax_node( source, child, context )?))), "for" => Ok(Statement::For(Box::new(For::from_syntax_node( source, child, context )?))), "use" => Ok(Statement::Use(Use::from_syntax_node(source, child, context)?)), "index_assignment" => Ok(Statement::IndexAssignment(Box::new(IndexAssignment::from_syntax_node( source, child, context )?))), _ => Err(Error::UnexpectedSyntaxNode { expected: "assignment, expression, if...else, while, for, transform, filter, tool, async, find, remove, select, insert, index_assignment or yield", actual: child.kind(), location: child.start_position(), relevant_source: source[child.byte_range()].to_string(), }), } } fn run(&self, source: &str, context: &Map) -> Result { match self { Statement::Assignment(assignment) => assignment.run(source, context), Statement::Return(expression) => expression.run(source, context), Statement::Expression(expression) => expression.run(source, context), Statement::IfElse(if_else) => if_else.run(source, context), Statement::Match(r#match) => r#match.run(source, context), Statement::While(r#while) => r#while.run(source, context), Statement::Block(block) => block.run(source, context), Statement::For(r#for) => r#for.run(source, context), Statement::Use(run) => run.run(source, context), Statement::IndexAssignment(index_assignment) => index_assignment.run(source, context), } } fn expected_type(&self, context: &Map) -> Result { match self { Statement::Assignment(assignment) => assignment.expected_type(context), Statement::Return(expression) => expression.expected_type(context), Statement::Expression(expression) => expression.expected_type(context), Statement::IfElse(if_else) => if_else.expected_type(context), Statement::Match(r#match) => r#match.expected_type(context), Statement::While(r#while) => r#while.expected_type(context), Statement::Block(block) => block.expected_type(context), Statement::For(r#for) => r#for.expected_type(context), Statement::Use(r#use) => r#use.expected_type(context), Statement::IndexAssignment(index_assignment) => index_assignment.expected_type(context), } } }