Some more primitive types + binop-checking

This commit is contained in:
greg 2017-10-12 23:59:52 -07:00
parent 22b4738726
commit bb880d44fa
2 changed files with 42 additions and 4 deletions

View File

@ -85,7 +85,7 @@ impl ReplState {
let opstr: &str = &op.0; let opstr: &str = &op.0;
Ok(match (opstr, evaled_lhs, evaled_rhs) { Ok(match (opstr, evaled_lhs, evaled_rhs) {
("+", UnsignedInt(l), UnsignedInt(r)) => UnsignedInt(l + r), ("+", UnsignedInt(l), UnsignedInt(r)) => UnsignedInt(l + r),
("+", Str(s1), Str(s2)) => Str(format!("{}{}", s1, s2)), ("++", Str(s1), Str(s2)) => Str(format!("{}{}", s1, s2)),
("-", UnsignedInt(l), UnsignedInt(r)) => UnsignedInt(l - r), ("-", UnsignedInt(l), UnsignedInt(r)) => UnsignedInt(l - r),
("*", UnsignedInt(l), UnsignedInt(r)) => UnsignedInt(l * r), ("*", UnsignedInt(l), UnsignedInt(r)) => UnsignedInt(l * r),
("/", UnsignedInt(l), UnsignedInt(r)) => UnsignedInt(l / r), ("/", UnsignedInt(l), UnsignedInt(r)) => UnsignedInt(l / r),

View File

@ -1,7 +1,6 @@
use std::collections::HashMap; use std::collections::HashMap;
use std::rc::Rc; use std::rc::Rc;
//SKOLEMIZATION - how you prevent an unassigned existential type variable from leaking! //SKOLEMIZATION - how you prevent an unassigned existential type variable from leaking!
use schala_lang::parsing::{AST, Statement, Declaration, Signature, Expression, ExpressionType, Operation, Variant, TypeName}; use schala_lang::parsing::{AST, Statement, Declaration, Signature, Expression, ExpressionType, Operation, Variant, TypeName};
@ -329,18 +328,38 @@ impl TypeContext {
Ok(match ex { Ok(match ex {
&IntLiteral(_) => TConst(Integer), &IntLiteral(_) => TConst(Integer),
&FloatLiteral(_) => TConst(Float),
&StringLiteral(_) => TConst(StringT),
&BoolLiteral(_) => TConst(Boolean), &BoolLiteral(_) => TConst(Boolean),
&Value(ref name) => { &Value(ref name) => {
self.lookup(name) self.lookup(name)
.map(|entry| entry.ty) .map(|entry| entry.ty)
.ok_or(format!("Couldn't find {}", name))? .ok_or(format!("Couldn't find {}", name))?
}, },
&BinExp(ref op, ref lhs, ref rhs) => {
let t_lhs = self.infer(lhs)?;
match self.infer_op(op)? {
TFunc(t1, t2) => {
let _ = self.unify(t_lhs, *t1)?;
let t_rhs = self.infer(rhs)?;
let x = *t2;
match x {
TFunc(t3, t4) => {
let _ = self.unify(t_rhs, *t3)?;
*t4
},
_ => return Err(format!("Not a function type either")),
}
},
_ => return Err(format!("Op {:?} is not a function type", op)),
}
},
&Call { ref f, ref arguments } => { &Call { ref f, ref arguments } => {
let tf = self.infer(f)?; let tf = self.infer(f)?;
let targ = self.infer(arguments.get(0).unwrap())?; let targ = self.infer(arguments.get(0).unwrap())?;
match tf { match tf {
TFunc(box t1, box t2) => { TFunc(box t1, box t2) => {
let _ = self.unify(t1, targ); let _ = self.unify(t1, targ)?;
t2 t2
}, },
_ => return Err(format!("Not a function!")), _ => return Err(format!("Not a function!")),
@ -350,11 +369,30 @@ impl TypeContext {
}) })
} }
fn unify(&mut self, t1: Type, t2: Type) -> TypeCheckResult { fn infer_op(&mut self, op: &Operation) -> TypeCheckResult {
use self::Type::*; use self::Type::*;
use self::TypeConst::*; use self::TypeConst::*;
macro_rules! binoptype {
($lhs:expr, $rhs:expr, $out:expr) => { TFunc(Box::new($lhs), Box::new(TFunc(Box::new($rhs), Box::new($out)))) };
}
Ok(match (*op.0).as_ref() {
"+" => binoptype!(TConst(Integer), TConst(Integer), TConst(Integer)),
"++" => binoptype!(TConst(StringT), TConst(StringT), TConst(StringT)),
"-" => binoptype!(TConst(Integer), TConst(Integer), TConst(Integer)),
"*" => binoptype!(TConst(Integer), TConst(Integer), TConst(Integer)),
"/" => binoptype!(TConst(Integer), TConst(Integer), TConst(Integer)),
"%" => binoptype!(TConst(Integer), TConst(Integer), TConst(Integer)),
_ => TConst(Bottom)
})
}
fn unify(&mut self, t1: Type, t2: Type) -> TypeCheckResult {
use self::Type::*;
use self::TypeVar::*; use self::TypeVar::*;
println!("Calling unify with `{:?}` and `{:?}`", t1, t2);
match (&t1, &t2) { match (&t1, &t2) {
(&TConst(ref c1), &TConst(ref c2)) if c1 == c2 => Ok(TConst(c1.clone())), (&TConst(ref c1), &TConst(ref c2)) if c1 == c2 => Ok(TConst(c1.clone())),
(&TFunc(ref t1, ref t2), &TFunc(ref t3, ref t4)) => { (&TFunc(ref t1, ref t2), &TFunc(ref t3, ref t4)) => {