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Move type-checking into a module

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This commit is contained in:
greg 2017-10-04 02:07:30 -07:00
parent dd7736e32d
commit 50ceb92d6b
3 changed files with 66 additions and 55 deletions
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51
src/schala_lang/eval.rs
View File

@ -1,4 +1,4 @@
use schala_lang::parsing::{AST, Statement, Declaration, Expression, ExpressionType, Operation, TypeAnno};
use schala_lang::parsing::{AST, Statement, Declaration, Expression, ExpressionType, Operation};
pub struct ReplState {
}
@ -107,52 +107,3 @@ impl ReplState {
})
}
}
// from Niko's talk
/* fn type_check(expression, expected_ty) -> Ty {
let ty = bare_type_check(expression, expected_type);
if ty icompatible with expected_ty {
try_coerce(expression, ty, expected_ty)
} else {
ty
}
}
fn bare_type_check(exprssion, expected_type) -> Ty { ... }
*/
pub enum TypeCheck {
OK,
Error(String)
}
impl TypeCheck {
fn new(msg: &str) -> TypeCheck {
TypeCheck::Error(msg.to_string())
}
}
impl ReplState {
pub fn type_check(&mut self, ast: &AST) -> TypeCheck {
use self::ExpressionType::*;
for statement in ast.0.iter() {
match statement {
&Statement::Declaration(ref _decl) => {
return TypeCheck::new("Declarations not supported");
},
&Statement::ExpressionStatement(ref expr) => {
match (&expr.0, &expr.1) {
(&IntLiteral(_), &Some(ref t)) => {
match t {
&TypeAnno::Singleton { ref name, ref params } if **name == "Int" && params.len() == 0 => (),
t => return TypeCheck::new(&format!("Bad type {:?} for int literal", t)),
}
},
_ => (),
}
}
}
}
TypeCheck::OK
}
}

13
src/schala_lang/mod.rs
View File

@ -2,18 +2,21 @@ use itertools::Itertools;
use language::{ProgrammingLanguageInterface, EvalOptions, TraceArtifact, ReplOutput};
mod parsing;
mod type_check;
mod eval;
use self::eval::TypeCheck;
use self::type_check::{TypeContext, TypeCheckResult};
pub struct Schala {
state: eval::ReplState
state: eval::ReplState,
type_context: TypeContext
}
impl Schala {
pub fn new() -> Schala {
Schala {
state: eval::ReplState::new(),
type_context: TypeContext::new(),
}
}
}
@ -59,9 +62,9 @@ impl ProgrammingLanguageInterface for Schala {
}
};
match self.state.type_check(&ast) {
TypeCheck::OK => (),
TypeCheck::Error(s) => {
match self.type_context.type_check(&ast) {
TypeCheckResult::OK => (),
TypeCheckResult::Error(s) => {
output.add_artifact(TraceArtifact::new("type_check", s));
output.add_output(format!("Type error"));
return output;

57
src/schala_lang/type_check.rs Normal file
View File

@ -0,0 +1,57 @@
use schala_lang::parsing::{AST, Statement, Declaration, Expression, ExpressionType, Operation, TypeAnno};
pub struct TypeContext {
}
impl TypeContext {
pub fn new() -> TypeContext {
TypeContext { }
}
}
pub enum TypeCheckResult {
OK,
Error(String)
}
impl TypeCheckResult {
fn new(msg: &str) -> TypeCheckResult {
TypeCheckResult::Error(msg.to_string())
}
}
// from Niko's talk
/* fn type_check(expression, expected_ty) -> Ty {
let ty = bare_type_check(expression, expected_type);
if ty icompatible with expected_ty {
try_coerce(expression, ty, expected_ty)
} else {
ty
}
}
fn bare_type_check(exprssion, expected_type) -> Ty { ... }
*/
impl TypeContext {
pub fn type_check(&mut self, ast: &AST) -> TypeCheckResult {
use self::ExpressionType::*;
for statement in ast.0.iter() {
match statement {
&Statement::Declaration(ref _decl) => {
return TypeCheckResult::new("Declarations not supported");
},
&Statement::ExpressionStatement(ref expr) => {
match (&expr.0, &expr.1) {
(&IntLiteral(_), &Some(ref t)) => {
match t {
&TypeAnno::Singleton { ref name, ref params } if **name == "Int" && params.len() == 0 => (),
t => return TypeCheckResult::new(&format!("Bad type {:?} for int literal", t)),
}
},
_ => (),
}
}
}
}
TypeCheckResult::OK
}
}