More type infrastructure

From here on out, I can start playing with concrete code that attempts
to actually typecheck limited syntactic constructs, and see what I end
up with.
This commit is contained in:
greg 2019-02-10 05:15:57 -08:00
parent 7d3ae36058
commit 06e9452718

View File

@ -142,24 +142,35 @@ impl<'a> TypeContext<'a> {
}
pub fn typecheck(&mut self, ast: &AST) -> Result<String, String> {
let mut returned_type = Type::Const(TypeConst::Unit);
for statement in ast.0.iter() {
self.typecheck_statement(statement.node()).map_err(|err| { err.msg })?
returned_type = self.typecheck_statement(statement.node()).map_err(|err| { err.msg })?
}
Ok("unknown type".to_string())
Ok(format!("{:?}", returned_type))
}
fn typecheck_statement(&mut self, statement: &Statement) -> InferResult<()> {
fn typecheck_statement(&mut self, statement: &Statement) -> InferResult<Type> {
match statement {
Statement::ExpressionStatement(e) => self.typecheck_expr(e.node()),
Statement::Declaration(decl) => self.typecheck_decl(decl),
}
}
fn typecheck_decl(&mut self, decl: &Declaration) -> InferResult<()> {
Ok(())
fn typecheck_decl(&mut self, decl: &Declaration) -> InferResult<Type> {
Ok(Type::Const(TypeConst::Unit))
}
fn typecheck_expr(&mut self, expr: &Expression) -> InferResult<()> {
Ok(())
fn typecheck_expr(&mut self, expr: &Expression) -> InferResult<Type> {
match expr {
Expression(expr_type, Some(_anno)) => {
//TODO here
self.typecheck_expr_type(expr_type)
},
Expression(expr_type, None) => self.typecheck_expr_type(expr_type)
}
}
fn typecheck_expr_type(&mut self, expr: &ExpressionType) -> InferResult<Type> {
Ok(Type::Const(TypeConst::Unit))
}
}