//! Tools to interpret dust source code. //! //! This module has three tools to run Dust code. //! //! - [interpret] is the simplest way to run Dust code inside of an application or library //! - [interpret_with_context] allows you to set variables on the execution context //! - [Interpreter] is an advanced tool that can parse, validate, run and format Dust code //! //! # Examples //! //! Run some Dust and get the result. //! //! ```rust //! # use dust_lang::*; //! assert_eq!( //! interpret("1 + 2 + 3"), //! Ok(Value::Integer(6)) //! ); //! ``` //! //! Create a custom context with variables you can use in your code. //! //! ```rust //! # use dust_lang::*; //! let context = Context::default(); //! //! context.set_value("one".into(), 1.into()).unwrap(); //! context.set_value("two".into(), 2.into()).unwrap(); //! context.set_value("three".into(), 3.into()).unwrap(); //! //! let dust_code = "four = 4; one + two + three + four"; //! //! assert_eq!( //! interpret_with_context(dust_code, context), //! Ok(Value::Integer(10)) //! ); //! ``` use tree_sitter::{Parser, Tree as SyntaxTree}; use crate::{language, AbstractTree, Context, ContextMode, Error, Format, Root, Value}; /// Interpret the given source code. Returns the value of last statement or the /// first error encountered. /// /// See the [module-level docs][self] for more info. pub fn interpret(source: &str) -> Result { interpret_with_context(source, Context::new(ContextMode::RemoveGarbage)) } /// Interpret the given source code with the given context. /// /// See the [module-level docs][self] for more info. pub fn interpret_with_context(source: &str, context: Context) -> Result { let mut interpreter = Interpreter::new(context); let value = interpreter.run(source)?; Ok(value) } /// A source code interpreter for the Dust language. /// /// The interpreter's most important functions are used to parse dust source /// code, verify it is safe and run it. They are written in a way that forces /// them to be used safely: each step in this process contains the prior /// steps, meaning that the same code is always used to create the syntax tree, /// abstract tree and final evaluation. This avoids a critical logic error. /// /// ``` /// # use dust_lang::*; /// let context = Context::default(); /// let mut interpreter = Interpreter::new(context); /// let result = interpreter.run("2 + 2"); /// /// assert_eq!(result, Ok(Value::Integer(4))); /// ``` pub struct Interpreter { parser: Parser, context: Context, } impl Interpreter { /// Create a new interpreter with the given context. pub fn new(context: Context) -> Self { let mut parser = Parser::new(); parser .set_language(language()) .expect("Language version is incompatible with tree sitter version."); parser.set_logger(Some(Box::new(|_log_type, message| { log::trace!("{}", message) }))); Interpreter { parser, context } } /// Generate a syntax tree from the source. Returns an error if the the /// parser is cancelled for taking too long. The syntax tree may contain /// error nodes, which represent syntax errors. /// /// Tree sitter is designed to be run on every keystroke, so this is /// generally a lightweight function to call. pub fn parse(&mut self, source: &str) -> Result { if let Some(tree) = self.parser.parse(source, None) { Ok(tree) } else { Err(Error::ParserCancelled) } } /// Check the source for errors and generate an abstract tree. /// /// The order in which this function works is: /// /// - parse the source into a syntax tree /// - generate an abstract tree from the source and syntax tree /// - check the abstract tree for errors pub fn validate(&mut self, source: &str) -> Result { let syntax_tree = self.parse(source)?; let abstract_tree = Root::from_syntax(syntax_tree.root_node(), source, &self.context)?; abstract_tree.validate(source, &self.context)?; Ok(abstract_tree) } /// Run the source, returning the final statement's value or first error. /// /// This function [parses][Self::parse], [validates][Self::validate] and /// [runs][Root::run] using the same source code. pub fn run(&mut self, source: &str) -> Result { let final_value = self.validate(source)?.run(source, &self.context)?; Ok(final_value) } /// Return an s-expression displaying a syntax tree of the source or an /// error. pub fn syntax_tree(&mut self, source: &str) -> Result { Ok(self.parse(source)?.root_node().to_sexp()) } /// Return a formatted version of the source. pub fn format(&mut self, source: &str) -> Result { let mut formatted_output = String::new(); self.validate(source)?.format(&mut formatted_output, 0); Ok(formatted_output) } } impl Default for Interpreter { fn default() -> Self { Interpreter::new(Context::default()) } }