schala/schala-lang/src/lib.rs

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#![feature(slice_patterns, box_patterns, box_syntax)]
#![feature(proc_macro)]
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extern crate itertools;
#[macro_use]
extern crate lazy_static;
#[macro_use]
extern crate maplit;
#[macro_use]
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extern crate schala_repl;
extern crate schala_codegen;
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use itertools::Itertools;
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use schala_repl::{ProgrammingLanguageInterface, EvalOptions, TraceArtifact, UnfinishedComputation, FinishedComputation};
macro_rules! bx {
($e:expr) => { Box::new($e) }
}
mod builtin;
mod tokenizing;
mod parsing;
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mod typechecking;
mod eval;
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use self::typechecking::{TypeContext};
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<Vec<tokenizing::Token>, ()> {
let tokens = tokenizing::tokenize(input);
comp.map(|comp| {
println!("This should only be evaluated when debugging tokens and not other times!!!");
let token_string = tokens.iter().map(|t| format!("{:?}<L:{},C:{}>", t.token_type, t.offset.0, t.offset.1)).join(", ");
comp.add_artifact(TraceArtifact::new("tokens", token_string));
});
Ok(tokenizing::tokenize(input))
}
fn parsing_stage(_handle: &mut Schala, input: Vec<tokenizing::Token>, comp: Option<&mut UnfinishedComputation>) -> Result<parsing::AST, parsing::ParseError> {
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<parsing::AST, String> {
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match handle.type_context.add_top_level_types(&input) {
Ok(()) => Ok(input),
Err(msg) => Err(msg)
}
}
fn typechecking_stage(handle: &mut Schala, input: parsing::AST, comp: Option<&mut UnfinishedComputation>) -> Result<parsing::AST, String> {
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match handle.type_context.type_check_ast(&input) {
Ok(ty) => {
println!("FINAL TYPE: {:?}", ty);
/*
if options.debug.type_checking {
evaluation.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<String, String> {
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let evaluation_outputs = handle.state.evaluate(input);
let text_output: Result<Vec<String>, String> = evaluation_outputs
.into_iter()
.collect();
let eval_output: Result<String, String> = 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 chain = pass_chain![tokenizing::tokenize, parsing::parse];
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let mut chain = pass_chain![self, options;
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tokenizing_stage,
parsing_stage,
symbol_table_stage,
typechecking_stage,
eval_stage
];
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chain(input)
}
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/*
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fn execute(&mut self, input: &str, options: &EvalOptions) -> FinishedComputation {
schala_codegen::print_a_thing!();
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let mut evaluation = UnfinishedComputation::default();
//tokenzing
let tokens = tokenizing::tokenize(input);
if options.debug.tokens {
let token_string = tokens.iter().map(|t| format!("{:?}<L:{},C:{}>", t.token_type, t.offset.0, t.offset.1)).join(", ");
evaluation.add_artifact(TraceArtifact::new("tokens", token_string));
}
{
let token_errors: Vec<&String> = tokens.iter().filter_map(|t| t.get_error()).collect();
if token_errors.len() != 0 {
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return evaluation.output(Err(format!("Tokenization error: {:?}\n", token_errors)));
}
}
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// parsing
let ast = match parsing::parse(tokens) {
(Ok(ast), trace) => {
if options.debug.parse_tree {
evaluation.add_artifact(TraceArtifact::new_parse_trace(trace));
}
if options.debug.ast {
evaluation.add_artifact(TraceArtifact::new("ast", format!("{:#?}", ast)));
}
ast
},
(Err(err), trace) => {
if options.debug.parse_tree {
evaluation.add_artifact(TraceArtifact::new_parse_trace(trace));
}
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return evaluation.output(Err(format!("Parse error: {:?}\n", err.msg)));
}
};
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//symbol table
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match self.type_context.add_top_level_types(&ast) {
Ok(()) => (),
Err(msg) => {
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if options.debug.type_checking {
evaluation.add_artifact(TraceArtifact::new("type_check", msg));
}
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}
};
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//typechecking
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match self.type_context.type_check_ast(&ast) {
Ok(ty) => {
if options.debug.type_checking {
evaluation.add_artifact(TraceArtifact::new("type_check", format!("{:?}", ty)));
}
},
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Err(msg) => evaluation.add_artifact(TraceArtifact::new("type_check", msg)),
};
let text = self.type_context.debug_symbol_table();
if options.debug.symbol_table {
evaluation.add_artifact(TraceArtifact::new("symbol_table", text));
}
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let evaluation_outputs = self.state.evaluate(ast);
let text_output: Result<Vec<String>, String> = evaluation_outputs
.into_iter()
.collect();
let eval_output = text_output
.map(|v| { v.into_iter().intersperse(format!("\n")).collect() });
evaluation.output(eval_output)
}
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*/
}