use serde::{Deserialize, Serialize}; use crate::{ context::Context, error::{RuntimeError, ValidationError}, identifier::Identifier, }; use super::{AbstractNode, Evaluation, Type, TypeConstructor}; #[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)] pub struct StructureDefinition { name: Identifier, fields: Vec<(Identifier, TypeConstructor)>, } impl StructureDefinition { pub fn new(name: Identifier, fields: Vec<(Identifier, TypeConstructor)>) -> Self { Self { name, fields } } } impl AbstractNode for StructureDefinition { fn define_types(&self, context: &Context) -> Result<(), ValidationError> { let mut fields = Vec::with_capacity(self.fields.len()); for (identifier, constructor) in self.fields { let r#type = constructor.construct(&context)?; fields.push((identifier, r#type)); } let struct_type = Type::Structure { name: self.name.clone(), fields, }; context.set_type(self.name, struct_type)?; Ok(None) } fn validate(&self, context: &Context, manage_memory: bool) -> Result<(), ValidationError> { Ok(()) } fn evaluate( self, context: &Context, _manage_memory: bool, ) -> Result, RuntimeError> { let mut fields = Vec::with_capacity(self.fields.len()); for (identifier, constructor) in self.fields { let r#type = constructor.construct(&context)?; fields.push((identifier, r#type)); } let struct_type = Type::Structure { name: self.name.clone(), fields, }; context.set_type(self.name, struct_type)?; Ok(None) } fn expected_type(&self, context: &Context) -> Result, ValidationError> { Ok(None) } }