diff options
Diffstat (limited to 'src/simple.rs')
-rw-r--r-- | src/simple.rs | 167 |
1 files changed, 0 insertions, 167 deletions
diff --git a/src/simple.rs b/src/simple.rs index c67fe2e..8d87dbf 100644 --- a/src/simple.rs +++ b/src/simple.rs @@ -1,91 +1,4 @@ -// Simple bidirectional type checking - use crate::ast::*; -use std::collections::HashMap; - -pub fn check(context: &Context, expression: Expression, target: &Type) -> Result<(), String> { - match expression { - // fall through to inference mode - Expression::Annotation { expr, kind } => { - let result = infer(context, Expression::Annotation { expr, kind })?; - return match subtype(&result, &target) { - true => Ok(()), - false => Err(format!("inferred type {result} does not match target {target}")) - } - }, - // Bt-CheckInfer - Expression::Constant { term } => match subtype(&convert(&term)?, &target) { - true => Ok(()), - false => Err(format!("constant is of wrong type, expected {target}")) - // false => Ok(()) // all our constants are Empty for now - }, - // Bt-CheckInfer - Expression::Variable { id } => match context.get(&id) { - Some(term) if subtype(&convert(term)?, &target) => Ok(()), - Some(_) => Err(format!("variable {id} is of wrong type")), - None => Err(format!("failed to find variable {id} in context")) - }, - // Bt-Abs - Expression::Abstraction { param, func } => match target { - Type::Function { from, to } => { - let mut context = context.clone(); - context.insert(param, default(from)?); - return check(&context, *func, &to); - }, - _ => Err(format!("attempting to check an abstraction with a non-function type {target}")) - }, - // fall through to inference mode - Expression::Application { func, arg } => { - let result = &infer(context, Expression::Application { func, arg })?; - return match subtype(&result, &target) { - true => Ok(()), - false => Err(format!("inferred type {result} does not match {target}")) - } - }, - // T-If - Expression::Conditional { if_cond, if_then, if_else } => { - check(context, *if_cond, &Type::Boolean)?; - check(context, *if_then, &target)?; - check(context, *if_else, &target)?; - return Ok(()); - } - } -} - -pub fn infer(context: &Context, expression: Expression) -> Result<Type, String> { - match expression { - // Bt-Ann - Expression::Annotation { expr, kind } => check(context, *expr, &kind).map(|x| kind), - // Bt-True / Bt-False / etc - Expression::Constant { term } => convert(&term), - // Bt-Var - Expression::Variable { id } => match context.get(&id) { - Some(term) => infer(&Context::new(), Expression::Constant { term: term.clone() }), - None => Err(format!("failed to find variable in context {context:?}")) - }, - // Bt-App - Expression::Application { func, arg } => match infer(context, *func)? { - Type::Function { from, to } => check(context, *arg, &*from).map(|x| *to), - _ => Err(format!("application abstraction is not a function type")) - }, - // inference from an abstraction is always an error - // we could try and infer the func without adding the parameter to scope: - // but this is overwhelmingly likely to be an error, so just report it now. - Expression::Abstraction { param, func } => - Err(format!("attempting to infer from an abstraction")), - // idk - Expression::Conditional { if_cond, if_then, if_else } => { - check(context, *if_cond, &Type::Boolean)?; - let if_then = infer(context, *if_then)?; - let if_else = infer(context, *if_else)?; - if subtype(&if_then, &if_else) && subtype(&if_else, &if_then) { - Ok(if_then) // fixme: should be the join - } else { - Err(format!("if clauses of different types: {if_then} and {if_else}")) - } - } - } -} /// Evaluates an expression given a context (of variables) to a term, or fails. pub fn execute(context: &Context, expression: Expression) -> Result<Term, String> { @@ -117,83 +30,3 @@ pub fn execute(context: &Context, expression: Expression) -> Result<Term, String } } -/// The subtyping relation between any two types. -pub fn subtype(is: &Type, of: &Type) -> bool { - match (is, of) { - (Type::Record(is_fields), Type::Record(of_fields)) => { - // width, depth, and permutation - for (key, of_value) in of_fields { - match is_fields.get(key) { - Some(is_value) => { - if !subtype(is_value, of_value) { - return false; - } - } - None => return false - } - } - return true; - }, - (Type::Function { from: is_from, to: is_to }, - Type::Function { from: of_from, to: of_to }) => { - subtype(of_from, is_from) && subtype(is_to, of_to) - }, - (Type::Natural, Type::Integer) => true, // obviously not, but let's pretend - (_, Type::Empty) => true, - (Type::Error, _) => true, - (_, _) if is == of => true, - (_, _) => false - } -} - -/// Convert a term into its corresponding type. -pub fn convert(term: &Term) -> Result<Type, String> { - match term { - Term::Unit() => Ok(Type::Unit), - Term::Boolean(_) => Ok(Type::Boolean), - Term::Natural(_) => Ok(Type::Natural), - Term::Integer(_) => Ok(Type::Integer), - Term::Float(_) => Ok(Type::Float), - Term::String { len, cap, data } => Ok(Type::String), - Term::Enum { val, data } => data.get(*val) - .ok_or_else(|| "enum value out of range!".to_string()).cloned(), - Term::Record(data) => { - let mut result = HashMap::new(); - for (key, val) in data { - result.insert(key.clone(), convert(val)?); - } - return Ok(Type::Record(result)); - }, - Term::Function(func) => match infer(&Context::new(), *func.clone()) { - Ok(Type::Function { from, to }) => Ok(Type::Function { from, to }), - _ => Err("function term value not a function!".to_string()) - } - } -} - -/// Get the default value of a type. Throws an error if it doesn't exist. -pub fn default(kind: &Type) -> Result<Term, String> { - match kind { - Type::Empty => Err("attempting to take the default term for empty".to_string()), - Type::Error => Err("attempting to take the default term for error".to_string()), - Type::Unit => Ok(Term::Unit()), - Type::Boolean => Ok(Term::Boolean(false)), - Type::Natural => Ok(Term::Natural(0)), - Type::Integer => Ok(Term::Integer(0)), - Type::Float => Ok(Term::Float(0.0)), - Type::String => Ok(Term::String { len: 0, cap: 0, data: vec!()}), - Type::Enum(data) => match data.len() { - 0 => Err("attempting to get a default term of an enum with no variants!".to_string()), - _ => Ok(Term::Enum { val: 0, data: data.clone() }) - }, - Type::Record(data) => { - let mut result = HashMap::new(); - for (key, val) in data { - result.insert(key.clone(), default(&val)?); - } - return Ok(Term::Record(result)); - }, - Type::Function { from, to } => - Err("attempting to take the default term of a function type".to_string()), - } -} |