216 lines
7.4 KiB
Rust
216 lines
7.4 KiB
Rust
use schala_repl::{
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ComputationRequest, ComputationResponse, GlobalOutputStats, LangMetaRequest, LangMetaResponse,
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ProgrammingLanguageInterface,
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};
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use stopwatch::Stopwatch;
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use crate::{
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error::SchalaError, parsing, reduced_ir, symbol_table, tokenizing, tree_walk_eval, type_inference,
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};
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/// All the state necessary to parse and execute a Schala program are stored in this struct.
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pub struct Schala<'a> {
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/// Holds a reference to the original source code, parsed into line and character
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source_reference: SourceReference,
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//state: eval::State<'static>,
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/// Keeps track of symbols and scopes
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symbol_table: symbol_table::SymbolTable,
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/// Contains information for type-checking
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type_context: type_inference::TypeContext,
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/// Schala Parser
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active_parser: parsing::new::Parser,
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/// Execution state for AST-walking interpreter
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eval_state: tree_walk_eval::State<'a>,
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timings: Vec<(&'static str, std::time::Duration)>,
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}
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/*
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impl Schala {
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//TODO implement documentation for language items
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/*
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fn handle_docs(&self, source: String) -> LangMetaResponse {
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LangMetaResponse::Docs {
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doc_string: format!("Schala item `{}` : <<Schala-lang documentation not yet implemented>>", source)
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}
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}
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*/
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}
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*/
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impl<'a> Schala<'a> {
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/// Creates a new Schala environment *without* any prelude.
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fn new_blank_env() -> Schala<'a> {
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Schala {
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source_reference: SourceReference::new(),
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symbol_table: symbol_table::SymbolTable::new(),
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type_context: type_inference::TypeContext::new(),
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active_parser: parsing::new::Parser::new(),
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eval_state: tree_walk_eval::State::new(),
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timings: Vec::new(),
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}
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}
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/// Creates a new Schala environment with the standard prelude, which is defined as ordinary
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/// Schala code in the file `prelude.schala`
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#[allow(clippy::new_without_default)]
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pub fn new() -> Schala<'a> {
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let prelude = include_str!("../source-files/prelude.schala");
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let mut env = Schala::new_blank_env();
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let response = env.run_pipeline(prelude, SchalaConfig::default());
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if let Err(err) = response {
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panic!("Error in prelude, panicking: {}", err.display());
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}
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env
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}
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/// This is where the actual action of interpreting/compilation happens.
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/// Note: this should eventually use a query-based system for parallelization, cf.
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/// https://rustc-dev-guide.rust-lang.org/overview.html
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fn run_pipeline(&mut self, source: &str, config: SchalaConfig) -> Result<String, SchalaError> {
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self.timings = vec![];
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let sw = Stopwatch::start_new();
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self.source_reference.load_new_source(source);
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let ast = self
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.active_parser
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.parse(source)
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.map_err(|err| SchalaError::from_parse_error(err, &self.source_reference))?;
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self.timings.push(("parsing", sw.elapsed()));
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let sw = Stopwatch::start_new();
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//Perform all symbol table work
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self.symbol_table
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.process_ast(&ast, &mut self.type_context)
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.map_err(SchalaError::from_symbol_table)?;
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self.timings.push(("symbol_table", sw.elapsed()));
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// Typechecking
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// TODO typechecking not working
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//let _overall_type = self.type_context.typecheck(&ast).map_err(SchalaError::from_type_error);
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let sw = Stopwatch::start_new();
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let reduced_ir = reduced_ir::reduce(&ast, &self.symbol_table, &self.type_context);
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self.timings.push(("reduced_ir", sw.elapsed()));
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let sw = Stopwatch::start_new();
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let evaluation_outputs = self.eval_state.evaluate(reduced_ir, &self.type_context, config.repl);
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self.timings.push(("tree-walking-evaluation", sw.elapsed()));
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let text_output: Result<Vec<String>, String> = evaluation_outputs.into_iter().collect();
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let text_output: Result<Vec<String>, SchalaError> =
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text_output.map_err(|err| SchalaError::from_string(err, Stage::Evaluation));
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let eval_output: String =
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text_output.map(|v| Iterator::intersperse(v.into_iter(), "\n".to_owned()).collect())?;
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Ok(eval_output)
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}
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}
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/// Represents lines of source code
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pub(crate) struct SourceReference {
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last_source: Option<String>,
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/// Offsets in *bytes* (not chars) representing a newline character
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newline_offsets: Vec<usize>,
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}
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impl SourceReference {
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pub(crate) fn new() -> SourceReference {
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SourceReference { last_source: None, newline_offsets: vec![] }
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}
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pub(crate) fn load_new_source(&mut self, source: &str) {
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self.newline_offsets = vec![];
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for (offset, ch) in source.as_bytes().iter().enumerate() {
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if *ch == ('\n' as u8) {
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self.newline_offsets.push(offset);
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}
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}
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self.last_source = Some(source.to_string());
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}
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// (line_start, line_num, the string itself)
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pub fn get_line(&self, line: usize) -> (usize, usize, String) {
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if self.newline_offsets.is_empty() {
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return (0, 0, self.last_source.as_ref().cloned().unwrap());
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}
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//TODO make sure this is utf8-safe
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let start_idx = match self.newline_offsets.binary_search(&line) {
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Ok(index) | Err(index) => index,
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};
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let last_source = self.last_source.as_ref().unwrap();
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let start = self.newline_offsets[start_idx];
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let end = self.newline_offsets.get(start_idx + 1).cloned().unwrap_or_else(|| last_source.len());
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let slice = &last_source.as_bytes()[start..end];
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(start, start_idx, std::str::from_utf8(slice).unwrap().to_string())
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}
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}
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#[allow(dead_code)]
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#[derive(Clone, Copy, Debug)]
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pub(crate) enum Stage {
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Tokenizing,
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Parsing,
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Symbols,
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ScopeResolution,
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Typechecking,
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AstReduction,
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Evaluation,
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}
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fn stage_names() -> Vec<&'static str> {
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vec!["tokenizing", "parsing", "symbol-table", "typechecking", "ast-reduction", "ast-walking-evaluation"]
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}
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#[derive(Default, Clone)]
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pub struct SchalaConfig {
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pub repl: bool,
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}
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impl<'a> ProgrammingLanguageInterface for Schala<'a> {
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//TODO flesh out Config
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type Config = SchalaConfig;
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fn language_name() -> String {
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"Schala".to_owned()
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}
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fn source_file_suffix() -> String {
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"schala".to_owned()
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}
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fn run_computation(&mut self, request: ComputationRequest<Self::Config>) -> ComputationResponse {
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let ComputationRequest { source, debug_requests: _, config: _ } = request;
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let sw = Stopwatch::start_new();
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let main_output =
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self.run_pipeline(source, request.config).map_err(|schala_err| schala_err.display());
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let total_duration = sw.elapsed();
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let stage_durations: Vec<_> = std::mem::replace(&mut self.timings, vec![])
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.into_iter()
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.map(|(label, duration)| (label.to_string(), duration))
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.collect();
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let global_output_stats = GlobalOutputStats { total_duration, stage_durations };
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ComputationResponse { main_output, global_output_stats, debug_responses: vec![] }
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}
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fn request_meta(&mut self, request: LangMetaRequest) -> LangMetaResponse {
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match request {
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LangMetaRequest::StageNames =>
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LangMetaResponse::StageNames(stage_names().iter().map(|s| s.to_string()).collect()),
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_ => LangMetaResponse::Custom { kind: "not-implemented".to_string(), value: "".to_string() },
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}
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}
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}
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