use std::default::Default; use std::fmt::Debug; #[derive(Debug)] pub struct TokenError { pub msg: String, } impl TokenError { pub fn new(msg: &str) -> TokenError { TokenError { msg: msg.to_string() } } } #[derive(Debug)] pub struct ParseError { pub msg: String, } pub struct LLVMCodeString(pub String); pub trait ProgrammingLanguage { type Token: Debug; type AST: Debug; type Evaluator: EvaluationMachine; fn tokenize(input: &str) -> Result, TokenError>; fn parse(input: Vec) -> Result; fn evaluate(ast: Self::AST, evaluator: &mut Self::Evaluator) -> Vec; fn compile(ast: Self::AST) -> LLVMCodeString; } pub trait EvaluationMachine { fn set_option(&mut self, option: &str, value: bool) -> bool; fn new() -> Self; } #[derive(Default)] pub struct LanguageInterfaceOptions { pub show_parse: bool, pub show_tokens: bool, pub show_llvm_ir: bool, } pub trait LanguageInterface { fn evaluate_in_repl(&mut self, input: &str, options: LanguageInterfaceOptions) -> String; } impl LanguageInterface for (PL, PL::Evaluator) where PL: ProgrammingLanguage, T: Debug, A: Debug, E: EvaluationMachine { fn evaluate_in_repl(&mut self, input: &str, options: LanguageInterfaceOptions) -> String { let mut output = String::new(); let tokens = match PL::tokenize(input) { Ok(tokens) => tokens, Err(err) => { output.push_str(&format!("Tokenization error: {}\n", err.msg)); return output; } }; if options.show_tokens { output.push_str(&format!("Tokens: {:?}\n", tokens)); } let ast = match PL::parse(tokens) { Ok(ast) => ast, Err(err) => { output.push_str(&format!("Parse error: {:?}\n", err.msg)); return output; } }; if options.show_parse { output.push_str(&format!("AST: {:?}\n", ast)); } if options.show_llvm_ir { let LLVMCodeString(s) = PL::compile(ast); output.push_str(&s); } else { // for now only handle last output let ref mut evaluator = self.1; let mut full_output: Vec = PL::evaluate(ast, evaluator); output.push_str(&full_output.pop().unwrap_or("".to_string())); } output } }