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schala/schala-lang/src/symbol_table/resolver.rs

241 lines
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Rust
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use std::rc::Rc;
use crate::{
ast::*,
symbol_table::{Fqsn, ScopeSegment, SymbolSpec, SymbolTable},
util::ScopeStack,
};
#[derive(Debug)]
enum NameType {
//TODO eventually this needs to support closures
Param(u8),
LocalVariable(ItemId),
LocalFunction(ItemId),
Import(Fqsn),
}
#[derive(Debug)]
enum ScopeType {
Function { name: Rc<String> },
Lambda,
PatternMatch,
//TODO add some notion of a let-like scope?
}
pub struct ScopeResolver<'a> {
symbol_table: &'a mut super::SymbolTable,
//TODO maybe this shouldn't be a scope stack, b/c the recursion behavior comes from multiple
//instances of ScopeResolver
lexical_scopes: ScopeStack<'a, Rc<String>, NameType, ScopeType>,
}
impl<'a> ScopeResolver<'a> {
pub fn new(symbol_table: &'a mut SymbolTable) -> Self {
let lexical_scopes = ScopeStack::new(None);
Self { symbol_table, lexical_scopes }
}
pub fn resolve(&mut self, ast: &AST) {
walk_ast(self, ast);
}
/// This method correctly modifies the id_to_def table (ItemId) to have the appropriate
/// mappings.
fn lookup_name_in_scope(&mut self, name: &QualifiedName) {
let QualifiedName { id, components } = name;
let local_name = components.first().unwrap().clone();
let name_type = self.lexical_scopes.lookup(&local_name);
let fqsn = Fqsn { scopes: components.iter().map(|name| ScopeSegment::Name(name.clone())).collect() };
let def_id = self.symbol_table.symbol_trie.lookup(&fqsn);
//TODO handle a "partial" qualified name, and also handle it down in the pattern-matching
//section
if components.len() == 1 {
match name_type {
Some(NameType::Import(fqsn)) => {
let def_id = self.symbol_table.symbol_trie.lookup(fqsn);
if let Some(def_id) = def_id {
self.symbol_table.id_to_def.insert(*id, def_id);
}
}
Some(NameType::Param(n)) => {
let spec = SymbolSpec::FunctionParam(*n);
//TODO need to come up with a better solution for local variable FQSNs
let lscope = ScopeSegment::Name(Rc::new("<local-param>".to_string()));
let fqsn = Fqsn { scopes: vec![lscope, ScopeSegment::Name(local_name.clone())] };
self.symbol_table.add_symbol(id, fqsn, spec);
}
Some(NameType::LocalFunction(item_id)) => {
let def_id = self.symbol_table.id_to_def.get(item_id);
if let Some(def_id) = def_id {
let def_id = *def_id;
self.symbol_table.id_to_def.insert(*id, def_id);
}
}
Some(NameType::LocalVariable(item_id)) => {
let def_id = self.symbol_table.id_to_def.get(item_id);
if let Some(def_id) = def_id {
let def_id = *def_id;
self.symbol_table.id_to_def.insert(*id, def_id);
}
}
None =>
if let Some(def_id) = def_id {
self.symbol_table.id_to_def.insert(*id, def_id);
},
}
} else if let Some(def_id) = def_id {
self.symbol_table.id_to_def.insert(*id, def_id);
}
}
}
impl<'a> ASTVisitor for ScopeResolver<'a> {
// Import statements bring in a bunch of local names that all map to a specific FQSN.
// FQSNs map to a Symbol (or this is an error), Symbols have a DefId. So for every
// name we import, we map a local name (a string) to a NameType::ImportedDefinition(DefId).
fn import(&mut self, import_spec: &ImportSpecifier) -> Recursion {
let ImportSpecifier { ref path_components, ref imported_names, .. } = &import_spec;
match imported_names {
ImportedNames::All => {
let prefix =
Fqsn { scopes: path_components.iter().map(|c| ScopeSegment::Name(c.clone())).collect() };
let members = self.symbol_table.symbol_trie.get_children(&prefix);
for fqsn in members.into_iter() {
self.lexical_scopes.insert(fqsn.last_elem(), NameType::Import(fqsn));
}
}
ImportedNames::LastOfPath => {
let fqsn =
Fqsn { scopes: path_components.iter().map(|c| ScopeSegment::Name(c.clone())).collect() };
self.lexical_scopes.insert(fqsn.last_elem(), NameType::Import(fqsn));
}
ImportedNames::List(ref names) => {
let fqsn_prefix: Vec<ScopeSegment> =
path_components.iter().map(|c| ScopeSegment::Name(c.clone())).collect();
for name in names.iter() {
let mut scopes = fqsn_prefix.clone();
scopes.push(ScopeSegment::Name(name.clone()));
let fqsn = Fqsn { scopes };
self.lexical_scopes.insert(fqsn.last_elem(), NameType::Import(fqsn));
}
}
};
Recursion::Continue
}
fn declaration(&mut self, declaration: &Declaration, id: &ItemId) -> Recursion {
let cur_function_name = match self.lexical_scopes.get_name() {
//TODO this needs to be a fqsn
Some(ScopeType::Function { name }) => Some(name.clone()),
_ => None,
};
match declaration {
Declaration::FuncDecl(signature, block) => {
let param_names = signature.params.iter().map(|param| param.name.clone());
//TODO I'm 90% sure this is right, until I get to closures
//let mut new_scope = self.lexical_scopes.new_scope(Some(ScopeType::Function { name: signature.name.clone() }));
let mut new_scope =
ScopeStack::new(Some(ScopeType::Function { name: signature.name.clone() }));
for (n, param) in param_names.enumerate() {
new_scope.insert(param, NameType::Param(n as u8));
}
self.lexical_scopes.insert(signature.name.clone(), NameType::LocalFunction(*id));
let mut new_resolver =
ScopeResolver { symbol_table: self.symbol_table, lexical_scopes: new_scope };
walk_block(&mut new_resolver, block);
Recursion::Stop
}
Declaration::Binding { name, .. } => {
if let Some(fn_name) = cur_function_name {
// We are within a function scope
let fqsn =
Fqsn { scopes: vec![ScopeSegment::Name(fn_name), ScopeSegment::Name(name.clone())] };
self.symbol_table.add_symbol(id, fqsn, SymbolSpec::LocalVariable);
self.lexical_scopes.insert(name.clone(), NameType::LocalVariable(*id));
}
Recursion::Continue
}
_ => Recursion::Continue,
}
}
fn expression(&mut self, expression: &Expression) -> Recursion {
use ExpressionKind::*;
match &expression.kind {
Value(name) => {
self.lookup_name_in_scope(name);
}
NamedStruct { name, fields: _ } => {
self.lookup_name_in_scope(name);
}
Lambda { params, body, .. } => {
let param_names = params.iter().map(|param| param.name.clone());
//TODO need to properly handle closure scope, this is currently broken
//let mut new_scope = self.lexical_scopes.new_scope(Some(ScopeType::Function { name: signature.name.clone() }));
let mut new_scope = ScopeStack::new(Some(ScopeType::Lambda));
for (n, param) in param_names.enumerate() {
new_scope.insert(param, NameType::Param(n as u8));
}
let mut new_resolver =
ScopeResolver { symbol_table: self.symbol_table, lexical_scopes: new_scope };
walk_block(&mut new_resolver, body);
return Recursion::Stop;
}
IfExpression { discriminator, body } => {
if let Some(d) = discriminator.as_ref() {
walk_expression(self, d);
}
let mut resolver = ScopeResolver {
lexical_scopes: self.lexical_scopes.new_scope(Some(ScopeType::PatternMatch)),
symbol_table: self.symbol_table,
};
walk_if_expr_body(&mut resolver, body);
return Recursion::Stop;
}
_ => (),
}
Recursion::Continue
}
fn pattern(&mut self, pat: &Pattern) -> Recursion {
use Pattern::*;
match pat {
Literal(..) | Ignored | TuplePattern(..) => (),
TupleStruct(name, _) | Record(name, _) => {
self.lookup_name_in_scope(name);
}
//TODO this isn't really the right syntax for a VarOrName
VarOrName(QualifiedName { id, components }) => {
if components.len() == 1 {
//TODO need a better way to construct a FQSN from a QualifiedName
let local_name: Rc<String> = components[0].clone();
let lscope = ScopeSegment::Name(Rc::new("<local-case-match>".to_string()));
let fqsn = Fqsn { scopes: vec![lscope, ScopeSegment::Name(local_name.clone())] };
self.symbol_table.add_symbol(id, fqsn, SymbolSpec::LocalVariable);
self.lexical_scopes.insert(local_name, NameType::LocalVariable(*id));
} else {
let fqsn = Fqsn {
scopes: components.iter().map(|name| ScopeSegment::Name(name.clone())).collect(),
};
let def_id = self.symbol_table.symbol_trie.lookup(&fqsn);
if let Some(def_id) = def_id {
self.symbol_table.id_to_def.insert(*id, def_id);
}
}
}
};
Recursion::Continue
}
}
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