forked from katzen-cafe/iowo
implement basic namespacing for types, traits and commands
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3cca2bc2cc
commit
b6b8c5085a
5 changed files with 287 additions and 6 deletions
14
src/builtins/mod.rs
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14
src/builtins/mod.rs
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@ -0,0 +1,14 @@
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use self::namespace::{GlobalNamespace, TypeDef};
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pub mod namespace;
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pub fn initialise_globals() -> GlobalNamespace {
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let mut ns = GlobalNamespace::init();
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let numeric = ns.register_trait("Numeric").unwrap();
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ns.register_type("integer").unwrap().add_trait(&numeric);
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ns.register_type("float").unwrap().add_trait(&numeric);
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ns
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}
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224
src/builtins/namespace.rs
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224
src/builtins/namespace.rs
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@ -0,0 +1,224 @@
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use std::{
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cell::RefCell,
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collections::{HashMap, HashSet},
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rc::Rc,
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};
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pub struct GlobalNamespace {
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// types
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// constants
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// groups (maybe global data namespace that has groups as subset?)
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types: RefCell<Vec<InternalType>>,
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traits: RefCell<Vec<InternalTrait>>,
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type_namespace: RefCell<HashMap<String, TypeNamespaceId>>,
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commands: RefCell<Vec<InternalCommand>>,
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data_namespace: RefCell<HashMap<String, DataNamespaceId>>,
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}
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enum TypeNamespaceId {
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Types(usize),
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Traits(usize),
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}
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enum DataNamespaceId {
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Commands(usize),
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Globals(usize),
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}
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impl GlobalNamespace {
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pub fn init() -> Self {
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Self {
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types: RefCell::new(Vec::new()),
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traits: RefCell::new(Vec::new()),
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type_namespace: RefCell::new(HashMap::new()),
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commands: RefCell::new(Vec::new()),
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data_namespace: RefCell::new(HashMap::new()),
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}
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}
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pub fn register_type(&self, name: &str) -> Result<Type, TypeRegistrationError> {
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if self.type_namespace.borrow().contains_key(name) {
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Err(TypeRegistrationError::NameAlreadyExists)
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} else {
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self.types.borrow_mut().push(InternalType {
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traits: RefCell::new(HashSet::new()),
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name: name.to_owned(),
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});
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let id = self.types.borrow().len() - 1;
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let _ = self
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.type_namespace
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.borrow_mut()
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.insert(name.to_owned(), TypeNamespaceId::Types(id));
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Ok(Type {
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id,
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namespace: self,
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})
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}
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}
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pub fn register_trait(&self, name: &str) -> Result<Trait, TypeRegistrationError> {
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if self.type_namespace.borrow().contains_key(name) {
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Err(TypeRegistrationError::NameAlreadyExists)
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} else {
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self.traits.borrow_mut().push(InternalTrait {
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types: RefCell::new(HashSet::new()),
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name: name.to_owned(),
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});
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let id = self.traits.borrow().len() - 1;
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let _ = self
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.type_namespace
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.borrow_mut()
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.insert(name.to_owned(), TypeNamespaceId::Traits(id));
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Ok(Trait {
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id,
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namespace: &*self,
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})
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}
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}
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pub fn register_command(
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&self,
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name: &str,
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input: Option<TypeDef>,
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output: Option<TypeDef>,
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) -> Result<Command, TypeRegistrationError> {
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if self.data_namespace.borrow().contains_key(name) {
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Err(TypeRegistrationError::NameAlreadyExists)
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} else {
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self.commands.borrow_mut().push(InternalCommand {
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name: name.to_owned(),
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input: input.map(|def| def.into()),
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output: output.map(|def| def.into()),
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});
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let id = self.traits.borrow().len() - 1;
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let _ = self
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.data_namespace
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.borrow_mut()
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.insert(name.to_owned(), DataNamespaceId::Commands(id));
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Ok(Command {
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id,
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namespace: self,
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})
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}
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}
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pub fn get_type_by_name(&self, name: &str) -> Option<Type> {
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if let Some(TypeNamespaceId::Types(id)) = self.type_namespace.borrow().get(name) {
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Some(Type {
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id: *id,
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namespace: self,
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})
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} else {
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None
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}
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}
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pub fn get_trait_by_name(&self, name: &str) -> Option<Trait> {
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if let Some(TypeNamespaceId::Traits(id)) = self.type_namespace.borrow().get(name) {
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Some(Trait {
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id: *id,
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namespace: self,
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})
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} else {
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None
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}
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}
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}
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#[derive(Debug)]
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pub enum TypeRegistrationError {
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NameAlreadyExists,
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}
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pub struct Type<'a> {
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id: usize,
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namespace: &'a GlobalNamespace,
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}
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impl<'a> Type<'a> {
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pub fn add_trait(&self, to_add: &'a Trait) {
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let internal_self = &self.namespace.types.borrow()[self.id];
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internal_self.traits.borrow_mut().insert(to_add.id);
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self.namespace.traits.borrow_mut()[to_add.id]
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.types
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.borrow_mut()
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.insert(self.id);
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}
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pub fn has_trait(&self, to_check: &'a Trait) -> bool {
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self.namespace.types.borrow()[self.id]
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.traits
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.borrow()
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.contains(&to_check.id)
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}
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}
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struct InternalType {
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traits: RefCell<HashSet<usize>>,
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name: String,
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}
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pub struct Trait<'a> {
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id: usize,
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namespace: &'a GlobalNamespace,
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}
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struct InternalTrait {
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// make resolution easier
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types: RefCell<HashSet<usize>>,
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name: String,
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}
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struct Command<'a> {
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id: usize,
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namespace: &'a GlobalNamespace,
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}
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struct InternalCommand {
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name: String,
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// gosh this is hacky
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input: Option<InternalTypeDef>,
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output: Option<InternalTypeDef>,
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}
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/// the thing used for type annotations etc
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/// stores type ids
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pub enum TypeDef<'a> {
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/// T
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Type(Type<'a>),
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Trait(Trait<'a>),
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/// [ T ]
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List(Vec<TypeDef<'a>>),
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/// { name: T } or in group declarations [ name: T ]
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Record(Vec<(String, TypeDef<'a>)>),
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}
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enum InternalTypeDef {
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Single(TypeNamespaceId),
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List(Vec<InternalTypeDef>),
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Record(Vec<(String, InternalTypeDef)>),
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}
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impl From<TypeDef<'_>> for InternalTypeDef {
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fn from(value: TypeDef) -> Self {
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match value {
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TypeDef::Type(val) => Self::Single(TypeNamespaceId::Types(val.id)),
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TypeDef::Trait(val) => Self::Single(TypeNamespaceId::Traits(val.id)),
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TypeDef::List(list) => Self::List(list.into_iter().map(|def| def.into()).collect()),
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TypeDef::Record(rec) => Self::Record(
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rec.into_iter()
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.map(|(name, typ)| (name, typ.into()))
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.collect(),
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),
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}
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}
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}
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// what is a type apart from the obvious?
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// - it has Traits (integer might have the trait numeric for example)-> also need trait system, should share a namespace tho?
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// spec for add
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//
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// inputs: [ numeric numeric ]
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// outputs: numeric
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//
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18
src/main.rs
18
src/main.rs
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@ -1,3 +1,4 @@
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use builtins::initialise_globals;
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use codespan_reporting::files::SimpleFiles;
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use codespan_reporting::term;
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use codespan_reporting::term::termcolor::ColorChoice;
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@ -6,6 +7,8 @@ use syntax::parse_syntax;
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use crate::syntax::check::check;
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mod builtins;
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mod hir;
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mod lexer;
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mod syntax;
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@ -13,6 +16,11 @@ fn main() {
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let mut files = SimpleFiles::new();
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let mut out_errs = Vec::new();
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let global_ns = initialise_globals();
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let int = global_ns.get_type_by_name("integer").unwrap();
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let numeric = global_ns.get_trait_by_name("Numeric").unwrap();
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assert!(int.has_trait(&numeric));
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let invalid_toks = "meow | gay $ error!\\";
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let invalid_toks_id = files.add("invalid_toks", invalid_toks);
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if let Err(err) = parse_syntax(invalid_toks, invalid_toks_id) {
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out_errs.append(&mut errs)
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}
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let invalid_no_sink = "meow | invert | ";
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let invalid_no_sink_id = files.add("invalid_no_sink", invalid_no_sink);
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if let Err(mut errs) = check(
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parse_syntax(invalid_no_sink, invalid_no_sink_id).unwrap(),
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invalid_no_sink,
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invalid_no_sink_id,
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) {
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out_errs.append(&mut errs)
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}
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// invalid
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let writer = StandardStream::stderr(ColorChoice::Always);
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let config = term::Config::default();
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@ -20,6 +20,10 @@ pub fn check(
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))
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}
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if let Err(e_span) = check_missing_sink(&syntax) {
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errs.push(SyntaxError::MissingSink(vec![(file_id, e_span)]));
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}
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if errs.is_empty() {
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Ok(syntax)
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} else {
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@ -44,11 +48,11 @@ fn check_missing_filters(syntax: &Vec<PipelineElement>) -> Result<(), Vec<logos:
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for i in 0..syntax.len() {
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if let (
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Some(PipelineElement {
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Some(&PipelineElement {
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kind: PipelineElementKind::Pipe,
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ref span,
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}),
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Some(PipelineElement {
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Some(&PipelineElement {
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kind: PipelineElementKind::Pipe,
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span: ref span1,
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}),
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@ -64,3 +68,15 @@ fn check_missing_filters(syntax: &Vec<PipelineElement>) -> Result<(), Vec<logos:
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Err(missing_filter_locs)
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}
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}
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fn check_missing_sink(syntax: &Vec<PipelineElement>) -> Result<(), logos::Span> {
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if let Some(&PipelineElement {
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kind: PipelineElementKind::Pipe,
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ref span,
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}) = syntax.last()
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{
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Err(span.clone())
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} else {
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Ok(())
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}
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}
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@ -13,11 +13,11 @@ pub enum SyntaxError {
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MissingSink(Vec<(FileId, logos::Span)>),
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/// This indicates a missing filter somewhere in the pipeline, meaning that there's 2 pipes after one another
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MissingFilter(Vec<(FileId, logos::Span)>),
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/// A literal cannot be a sink
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/// A literal cannot be a sink, TODO
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LiteralAsSink,
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/// A literal can't be a filter either
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/// A literal can't be a filter either, TODO
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LiteralAsFilter,
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/// A literal acting as streamer cannot take arguments
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/// A literal acting as streamer cannot take arguments, TODO
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LiteralWithArgs,
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}
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@ -51,7 +51,16 @@ impl SyntaxError {
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})
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.collect(),
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),
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_ => todo!(),
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Self::MissingSink(locs) => Diagnostic::error()
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.with_message("pipelines cannot end on a pipe")
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.with_labels(
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locs.into_iter()
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.map(|(file_id, span)| {
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Label::primary(*file_id, span.clone()).with_message("no sink")
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})
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.collect(),
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),
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_ => unimplemented!(),
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}
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}
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}
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