Clean up
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parent
3dc78a7066
commit
57b06df9c2
@ -1,7 +1,9 @@
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use serde::{Deserialize, Serialize};
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use tree_sitter::Node;
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use crate::{AbstractTree, Error, Identifier, Map, Result, Statement, Type, TypeDefinition, Value};
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use crate::{
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AbstractTree, Error, Function, Identifier, Map, Result, Statement, Type, TypeDefinition, Value,
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};
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#[derive(Debug, Clone, Serialize, Deserialize, Eq, PartialEq, PartialOrd, Ord)]
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pub struct Assignment {
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@ -56,6 +58,45 @@ impl AbstractTree for Assignment {
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let statement_node = node.child_by_field_name("statement").unwrap();
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let statement = Statement::from_syntax_node(source, statement_node, context)?;
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if let Some(type_definition) = &type_definition {
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let statement_type = statement.expected_type(context)?;
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match operator {
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AssignmentOperator::Equal => {
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type_definition.abstract_check(
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&statement_type,
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context,
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statement_node,
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source,
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)?;
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}
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AssignmentOperator::PlusEqual => {
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let identifier_type = identifier.expected_type(context)?;
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type_definition.abstract_check(
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&identifier_type,
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context,
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type_node.unwrap(),
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source,
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)?;
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let type_definition = if let Type::List(item_type) = type_definition.inner() {
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TypeDefinition::new(item_type.as_ref().clone())
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} else {
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type_definition.clone()
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};
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type_definition.abstract_check(
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&statement_type,
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context,
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statement_node,
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source,
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)?;
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}
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AssignmentOperator::MinusEqual => todo!(),
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}
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}
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Ok(Assignment {
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identifier,
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type_definition,
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@ -72,13 +113,19 @@ impl AbstractTree for Assignment {
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AssignmentOperator::PlusEqual => {
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if let Some(mut previous_value) = context.variables()?.get(key).cloned() {
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if let Ok(list) = previous_value.as_list() {
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let first_item_type = if let Some(first) = list.items().first() {
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let item_type = if let Some(type_defintion) = &self.type_definition {
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if let Type::List(item_type) = type_defintion.inner() {
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TypeDefinition::new(item_type.as_ref().clone())
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} else {
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TypeDefinition::new(Type::Empty)
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}
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} else if let Some(first) = list.items().first() {
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first.r#type(context)?
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} else {
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TypeDefinition::new(Type::Any)
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};
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first_item_type.check(&value.r#type(context)?, context)?;
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item_type.runtime_check(&value.r#type(context)?, context)?;
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}
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previous_value += value;
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@ -95,15 +142,24 @@ impl AbstractTree for Assignment {
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return Err(Error::VariableIdentifierNotFound(key.clone()));
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}
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}
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AssignmentOperator::Equal => {
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if let Some(type_definition) = &self.type_definition {
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let new_value_type = value.r#type(context)?;
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AssignmentOperator::Equal => value,
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};
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type_definition.check(&new_value_type, context)?;
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}
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let new_value = if let Some(type_definition) = &self.type_definition {
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let new_value_type = new_value.r#type(context)?;
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value
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type_definition.runtime_check(&new_value_type, context)?;
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if let Value::Function(function) = new_value {
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Value::Function(Function::new(
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function.parameters().clone(),
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function.body().clone(),
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))
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} else {
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new_value
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}
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} else {
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new_value
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};
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context.variables_mut()?.insert(key.clone(), new_value);
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@ -115,3 +171,49 @@ impl AbstractTree for Assignment {
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Ok(TypeDefinition::new(Type::Empty))
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}
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}
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#[cfg(test)]
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mod tests {
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use crate::{evaluate, List, Value};
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#[test]
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fn simple_assignment() {
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let test = evaluate("x = 1 x").unwrap();
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assert_eq!(Value::Integer(1), test);
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}
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#[test]
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fn simple_assignment_with_type() {
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let test = evaluate("x <int> = 1 x").unwrap();
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assert_eq!(Value::Integer(1), test);
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}
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#[test]
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fn list_add_assign() {
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let test = evaluate(
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"
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x <list int> = []
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x += 1
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x
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",
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)
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.unwrap();
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assert_eq!(Value::List(List::with_items(vec![Value::Integer(1)])), test);
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}
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#[test]
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fn function_assignment() {
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let test = evaluate(
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"
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foobar <fn str -> str> = |text| { 'hi' }
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foobar
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",
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)
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.unwrap();
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assert_eq!(Value::String("hi".to_string()), test);
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}
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}
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@ -23,7 +23,23 @@ impl TypeDefinition {
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self.r#type
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}
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pub fn check(&self, other: &TypeDefinition, context: &Map) -> Result<()> {
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pub fn abstract_check(
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&self,
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other: &TypeDefinition,
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context: &Map,
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node: Node,
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source: &str,
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) -> Result<()> {
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self.runtime_check(other, context)
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.map_err(|_| Error::TypeCheck {
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expected: self.clone(),
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actual: other.clone(),
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location: node.start_position(),
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source: source[node.byte_range()].to_string(),
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})
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}
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pub fn runtime_check(&self, other: &TypeDefinition, context: &Map) -> Result<()> {
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match (&self.r#type, &other.r#type) {
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(Type::Any, _)
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| (_, Type::Any)
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@ -43,7 +59,7 @@ impl TypeDefinition {
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let self_defintion = TypeDefinition::new(self_item_type.as_ref().clone());
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let other_definition = &TypeDefinition::new(other_item_type.as_ref().clone());
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self_defintion.check(other_definition, context)
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self_defintion.runtime_check(other_definition, context)
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}
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_ => Err(Error::RuntimeTypeCheck {
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expected: self.clone(),
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@ -85,8 +101,8 @@ pub enum Type {
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Empty,
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Float,
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Function {
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parameter_types: Vec<TypeDefinition>,
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return_type: Box<TypeDefinition>,
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parameter_types: Vec<Type>,
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return_type: Box<Type>,
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},
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Integer,
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List(Box<Type>),
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@ -115,7 +131,7 @@ impl AbstractTree for Type {
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let parameter_type =
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Type::from_syntax_node(source, parameter_type_node, context)?;
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parameter_types.push(TypeDefinition::new(parameter_type));
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parameter_types.push(parameter_type);
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}
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let return_type_node = node.child(child_count - 1).unwrap();
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@ -123,7 +139,7 @@ impl AbstractTree for Type {
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Type::Function {
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parameter_types,
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return_type: Box::new(TypeDefinition::new(return_type)),
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return_type: Box::new(return_type),
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}
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}
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"int" => Type::Integer,
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@ -12,6 +12,10 @@ pub struct Function {
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}
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impl Function {
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pub fn new(parameters: Vec<Identifier>, body: Block) -> Self {
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Self { parameters, body }
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}
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pub fn parameters(&self) -> &Vec<Identifier> {
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&self.parameters
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}
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@ -44,13 +48,11 @@ impl AbstractTree for Function {
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}
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fn run(&self, source: &str, context: &Map) -> Result<Value> {
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let return_value = self.body.run(source, context)?;
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Ok(return_value)
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self.body.run(source, context)
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}
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fn expected_type(&self, context: &Map) -> Result<TypeDefinition> {
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self.body.expected_type(context)
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Value::Function(self.clone()).r#type(context)
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}
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}
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@ -69,13 +69,10 @@ impl Value {
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Value::Map(_) => Type::Map,
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Value::Table(_) => Type::Table,
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Value::Function(function) => {
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let parameter_types = Vec::new();
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for identifier in function.parameters() {
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let _type = identifier.expected_type(context)?;
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}
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let return_type = function.body().expected_type(context)?;
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let parameters = function.parameters();
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let parameter_types = vec![Type::Any; parameters.len()];
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let body = function.body();
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let return_type = body.expected_type(context)?.take_inner();
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Type::Function {
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parameter_types,
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