#![feature(slice_patterns, box_patterns, box_syntax)] #![feature(proc_macro)] extern crate itertools; #[macro_use] extern crate lazy_static; #[macro_use] extern crate maplit; #[macro_use] extern crate schala_repl; #[macro_use] extern crate schala_codegen; use itertools::Itertools; use schala_repl::{ProgrammingLanguageInterface, EvalOptions, TraceArtifact, UnfinishedComputation, FinishedComputation}; macro_rules! bx { ($e:expr) => { Box::new($e) } } mod builtin; mod tokenizing; mod parsing; mod typechecking; mod eval; use self::typechecking::{TypeContext}; #[derive(ProgrammingLanguageInterface)] #[LanguageName = "Schala"] #[SourceFileExtension = "schala"] pub struct Schala { state: eval::State<'static>, type_context: TypeContext } impl Schala { pub fn new() -> Schala { Schala { state: eval::State::new(), type_context: TypeContext::new(), } } } fn tokenizing_stage(_handle: &mut Schala, input: &str, comp: Option<&mut UnfinishedComputation>) -> Result, String> { let tokens = tokenizing::tokenize(input); comp.map(|comp| { let token_string = tokens.iter().map(|t| format!("{:?}", t.token_type, t.offset.0, t.offset.1)).join(", "); comp.add_artifact(TraceArtifact::new("tokens", token_string)); }); let errors: Vec = tokens.iter().filter_map(|t| t.get_error()).collect(); if errors.len() == 0 { Ok(tokens) } else { Err(format!("{:?}", errors)) } } fn parsing_stage(_handle: &mut Schala, input: Vec, comp: Option<&mut UnfinishedComputation>) -> Result { let (ast, trace) = parsing::parse(input); comp.map(|comp| { //TODO need to control which of these debug stages get added comp.add_artifact(TraceArtifact::new_parse_trace(trace)); comp.add_artifact(TraceArtifact::new("ast", format!("{:#?}", ast))); }); ast } fn symbol_table_stage(handle: &mut Schala, input: parsing::AST, comp: Option<&mut UnfinishedComputation>) -> Result { match handle.type_context.add_top_level_types(&input) { Ok(()) => { let text = handle.type_context.debug_symbol_table(); comp.map(|comp| comp.add_artifact(TraceArtifact::new("symbol_table", text))); Ok(input) }, Err(msg) => Err(msg) } } fn typechecking_stage(handle: &mut Schala, input: parsing::AST, comp: Option<&mut UnfinishedComputation>) -> Result { match handle.type_context.type_check_ast(&input) { Ok(ty) => { comp.map(|comp| comp.add_artifact(TraceArtifact::new("type_check", format!("{:?}", ty)))); Ok(input) }, Err(msg) => Err(msg) } } fn eval_stage(handle: &mut Schala, input: parsing::AST, _comp: Option<&mut UnfinishedComputation>) -> Result { let evaluation_outputs = handle.state.evaluate(input); let text_output: Result, String> = evaluation_outputs .into_iter() .collect(); let eval_output: Result = text_output .map(|v| { v.into_iter().intersperse(format!("\n")).collect() }); eval_output } /* impl ProgrammingLanguageInterface for Schala { fn get_language_name(&self) -> String { "Schala".to_string() } fn get_source_file_suffix(&self) -> String { format!("schala") } fn execute_pipeline(&mut self, input: &str, options: &EvalOptions) -> FinishedComputation { let mut chain = pass_chain![self, options; tokenizing_stage, parsing_stage, symbol_table_stage, typechecking_stage, eval_stage ]; chain(input) } fn get_stages(&self) -> Vec { vec![ format!("tokenizing_stage"), format!("parsing_stage"), //TODO handle both types of this format!("symbol_table_stage"), format!("typechecking_stage"), format!("eval_stage") ] } } */