use std::{ collections::BTreeMap, sync::{Arc, RwLock, RwLockReadGuard}, }; use crate::{ abstract_tree::Type, error::{RwLockPoisonError, ValidationError}, identifier::Identifier, Value, }; #[derive(Clone, Debug)] pub struct Context { variables: Arc>>, is_clean: bool, } impl Context { pub fn new() -> Self { Self { variables: Arc::new(RwLock::new(BTreeMap::new())), is_clean: true, } } pub fn inner( &self, ) -> Result>, RwLockPoisonError> { Ok(self.variables.read()?) } pub fn inherit_types_from(&self, other: &Context) -> Result<(), RwLockPoisonError> { let mut self_data = self.variables.write()?; for (identifier, (value_data, usage_data)) in other.variables.read()?.iter() { if let ValueData::Type(Type::Function { .. }) = value_data { log::trace!("Context inheriting type of {identifier}."); self_data.insert(identifier.clone(), (value_data.clone(), usage_data.clone())); } } Ok(()) } pub fn inherit_data_from(&self, other: &Context) -> Result<(), RwLockPoisonError> { let mut self_data = self.variables.write()?; for (identifier, (value_data, usage_data)) in other.variables.read()?.iter() { log::trace!("Context inheriting variable {identifier}."); self_data.insert(identifier.clone(), (value_data.clone(), usage_data.clone())); } Ok(()) } pub fn contains(&self, identifier: &Identifier) -> Result { log::trace!("Checking that {identifier} exists."); Ok(self.variables.read()?.contains_key(identifier)) } pub fn get_type(&self, identifier: &Identifier) -> Result, ValidationError> { if let Some((value_data, _)) = self.variables.read()?.get(identifier) { log::trace!("Getting {identifier}'s type."); let r#type = match value_data { ValueData::Type(r#type) => r#type.clone(), ValueData::Value(value) => value.r#type(self)?, }; Ok(Some(r#type.clone())) } else { Ok(None) } } pub fn use_value( &mut self, identifier: &Identifier, ) -> Result, RwLockPoisonError> { if let Some((ValueData::Value(value), usage_data)) = self.variables.read()?.get(identifier) { log::trace!("Using {identifier}'s value."); usage_data.inner().write()?.actual += 1; self.is_clean = false; Ok(Some(value.clone())) } else { Ok(None) } } pub fn get_value(&self, identifier: &Identifier) -> Result, RwLockPoisonError> { if let Some((ValueData::Value(value), _)) = self.variables.read()?.get(identifier) { log::trace!("Getting {identifier}'s value."); Ok(Some(value.clone())) } else { Ok(None) } } pub fn get_data( &self, identifier: &Identifier, ) -> Result, RwLockPoisonError> { if let Some(full_data) = self.variables.read()?.get(identifier) { log::trace!("Getting {identifier}'s value."); Ok(Some(full_data.clone())) } else { Ok(None) } } pub fn set_type(&self, identifier: Identifier, r#type: Type) -> Result<(), RwLockPoisonError> { log::debug!("Setting {identifier} to type {}.", r#type); self.variables .write()? .insert(identifier, (ValueData::Type(r#type), UsageData::new())); Ok(()) } pub fn set_value( &mut self, identifier: Identifier, value: Value, ) -> Result<(), RwLockPoisonError> { log::debug!("Setting {identifier} to value {value}."); let mut variables = self.variables.write()?; let old_usage_data = variables .remove(&identifier) .map(|(_, usage_data)| usage_data); if let Some(usage_data) = old_usage_data { variables.insert(identifier, (ValueData::Value(value), usage_data)); } else { variables.insert(identifier, (ValueData::Value(value), UsageData::new())); } Ok(()) } pub fn clean(&mut self) -> Result<(), RwLockPoisonError> { if self.is_clean { return Ok(()); } self.variables .write()? .retain(|identifier, (value_data, usage_data)| { if let ValueData::Value(_) = value_data { let usage = usage_data.inner().read().unwrap(); if usage.actual < usage.expected { true } else { log::trace!("Removing variable {identifier}."); false } } else { false } }); self.is_clean = true; Ok(()) } pub fn is_clean(&mut self) -> Result { if self.is_clean { Ok(true) } else { for (_, (_, usage_data)) in self.variables.read()?.iter() { let usage_data = usage_data.inner().read().unwrap(); if usage_data.actual > usage_data.expected { return Ok(false); } } Ok(true) } } pub fn add_expected_use(&self, identifier: &Identifier) -> Result { if let Some((_, usage_data)) = self.variables.read()?.get(identifier) { log::trace!("Adding expected use for variable {identifier}."); usage_data.inner().write()?.expected += 1; Ok(true) } else { Ok(false) } } } #[derive(Clone, Debug, PartialEq)] pub enum ValueData { Type(Type), Value(Value), } #[derive(Clone, Debug)] pub struct UsageData(Arc>); impl UsageData { pub fn inner(&self) -> &Arc> { &self.0 } } #[derive(Clone, Debug)] pub struct UsageDataInner { pub actual: u32, pub expected: u32, } impl UsageData { pub fn new() -> Self { UsageData(Arc::new(RwLock::new(UsageDataInner { actual: 0, expected: 0, }))) } }