//! Abstract, executable representations of corresponding items found in Dust //! source code. The types that implement [AbstractTree] are inteded to be //! created by an [Evaluator]. //! //! When adding new lanugage features, first extend the grammar to recognize new //! syntax nodes. Then add a new AbstractTree type using the existing types as //! examples. pub mod assignment; pub mod block; pub mod expression; pub mod r#for; pub mod function_call; pub mod identifier; pub mod if_else; pub mod index; pub mod index_assignment; pub mod logic; pub mod r#match; pub mod math; pub mod statement; pub mod type_defintion; pub mod r#use; pub mod value_node; pub mod r#while; pub mod r#yield; pub use { assignment::*, block::*, expression::*, function_call::*, identifier::*, if_else::*, index::*, index_assignment::IndexAssignment, logic::*, math::*, r#for::*, r#match::*, r#use::*, r#while::*, r#yield::*, statement::*, type_defintion::*, value_node::*, }; use tree_sitter::Node; use crate::{Error, Map, Result, Value}; pub struct Root { statements: Vec, } impl AbstractTree for Root { fn from_syntax_node(source: &str, node: Node, context: &Map) -> Result { Error::expect_syntax_node(source, "root", node)?; let statement_count = node.child_count(); let mut statements = Vec::with_capacity(statement_count); for index in 0..statement_count { let statement_node = node.child(index).unwrap(); let statement = Statement::from_syntax_node(source, statement_node, context)?; statements.push(statement); } Ok(Root { statements }) } fn run(&self, source: &str, context: &Map) -> Result { let mut value = Value::Empty; for statement in &self.statements { value = statement.run(source, context)?; } Ok(value) } fn expected_type(&self, context: &Map) -> Result { self.statements.last().unwrap().expected_type(context) } } /// This trait is implemented by the Evaluator's internal types to form an /// executable tree that resolves to a single value. pub trait AbstractTree: Sized { /// Interpret the syntax tree at the given node and return the abstraction. /// /// This function is used to convert nodes in the Tree Sitter concrete /// syntax tree into executable nodes in an abstract tree. This function is /// where the tree should be traversed by accessing sibling and child nodes. /// Each node in the CST should be traversed only once. /// /// If necessary, the source code can be accessed directly by getting the /// node's byte range. fn from_syntax_node(source: &str, node: Node, context: &Map) -> Result; /// Execute dust code by traversing the tree. fn run(&self, source: &str, context: &Map) -> Result; fn expected_type(&self, context: &Map) -> Result; }