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Start adding new SymbolTable infrastructure

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This commit is contained in:
Greg Shuflin 2021-10-18 21:56:48 -07:00
parent c697c929a4
commit db6c9bb162
2 changed files with 184 additions and 5 deletions
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5
schala-lang/language/src/schala.rs
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@ -89,6 +89,11 @@ impl Schala {
self.resolver.resolve(&mut ast)
.map_err(|err| SchalaError::from_string(err, Stage::ScopeResolution))?;
//WIP - new symbol table
self.symbol_table.borrow_mut().process_ast(&ast)
.map_err(|err| SchalaError::from_string(err, Stage::Symbols))?;
// Typechecking
// TODO typechecking not working
let _overall_type = self.type_context.typecheck(&ast)

184
schala-lang/language/src/symbol_table/mod.rs
View File

@ -4,9 +4,9 @@ use std::rc::Rc;
use std::fmt;
use std::fmt::Write;
use crate::tokenizing::LineNumber;
use crate::tokenizing::{Location, LineNumber};
use crate::ast;
use crate::ast::{ItemId, TypeBody, TypeSingletonName, Signature, Statement, StatementKind, ModuleSpecifier};
use crate::ast::{ItemId, TypeBody, Variant, TypeSingletonName, Signature, Declaration, Statement, StatementKind, ModuleSpecifier};
use crate::typechecking::TypeName;
@ -29,6 +29,71 @@ mod symbol_trie;
use symbol_trie::SymbolTrie;
mod test;
/// Fully-qualified symbol name
#[derive(Debug, Clone, Eq, PartialEq, Hash, PartialOrd, Ord)]
struct FQSN {
scopes: Vec<Scope>,
}
impl FQSN {
fn from_scope_stack(scopes: &[Scope], new_name: String) -> Self {
let mut v = Vec::new();
for s in scopes {
v.push(s.clone());
}
v.push(Scope::Name(new_name));
FQSN { scopes: v }
}
fn extend(&self, new_name: String) -> Self {
let mut existing = self.scopes.clone();
existing.push(Scope::Name(new_name));
FQSN { scopes: existing }
}
}
//TODO eventually this should use ItemId's to avoid String-cloning
/// One segment within a scope.
#[derive(Debug, Clone, Eq, PartialEq, Hash, PartialOrd, Ord)]
enum Scope {
Top,
Name(String)
}
#[derive(Debug, Clone)]
struct DuplicateName {
prev_name: FQSN,
location: Location
}
//TODO should map to a Spec* type that has Location and Kind of namespace entry
//tht way I don't need as many tables
/// Keeps track of what names were used in a given namespace.
struct NameTable {
table: HashMap<FQSN, Location>
}
impl NameTable {
fn new() -> Self {
Self { table: HashMap::new() }
}
fn register(&mut self, name: FQSN, location: Location) -> Result<(), DuplicateName> {
match self.table.entry(name.clone()) {
Entry::Occupied(o) => {
Err(DuplicateName { prev_name: name, location: *o.get() })
},
Entry::Vacant(v) => {
v.insert(location);
Ok(())
}
}
}
}
/// Keeps track of what names were used in a given namespace. Call try_register to add a name to
/// the table, or report an error if a name already exists.
struct DuplicateNameTrackTable {
@ -91,13 +156,15 @@ impl ScopeSegment {
}
}
//cf. p. 150 or so of Language Implementation Patterns
pub struct SymbolTable {
decl_locations: DeclLocations,
symbol_path_to_symbol: HashMap<FullyQualifiedSymbolName, Symbol>,
id_to_fqsn: HashMap<ItemId, FullyQualifiedSymbolName>,
symbol_trie: SymbolTrie,
functions: NameTable, //TODO maybe bindings and functions should be the same table?
types: NameTable,
bindings: NameTable, //TODO NameTable should be a trie to facilitate quick lookups
}
impl SymbolTable {
@ -106,7 +173,10 @@ impl SymbolTable {
decl_locations: DeclLocations::new(),
symbol_path_to_symbol: HashMap::new(),
id_to_fqsn: HashMap::new(),
symbol_trie: SymbolTrie::new()
symbol_trie: SymbolTrie::new(),
functions: NameTable::new(),
types: NameTable::new(),
bindings: NameTable::new(),
}
}
@ -182,10 +252,114 @@ impl fmt::Display for SymbolSpec {
}
}
impl SymbolTable {
/* note: this adds names for *forward reference* but doesn't actually create any types. solve that problem
* later */
/// This function traverses the AST and adds symbol table entries for
/// constants, functions, types, and modules defined within. This simultaneously
/// checks for dupicate definitions (and returns errors if discovered), and sets
/// up name tables that will be used by further parts of the compiler
pub fn process_ast(&mut self, ast: &ast::AST) -> Result<(), String> {
let mut scope_stack = vec![Scope::Top];
self.add_from_scope(ast.statements.as_ref(), &mut scope_stack)
.map_err(|err| format!("{:?}", err))?;
Ok(())
}
//TODO this should probably return a vector of duplicate name errors
fn add_from_scope<'a>(&'a mut self, statements: &[Statement], scope_stack: &mut Vec<Scope>) -> Result<(), DuplicateName> {
for statement in statements {
let Statement { id: _, kind, location } = statement;
let location = *location;
match kind {
StatementKind::Declaration(Declaration::FuncSig(signature)) => {
let fn_name: String = signature.name.as_str().to_owned();
let fq_function = FQSN::from_scope_stack(scope_stack.as_ref(), fn_name);
self.functions.register(fq_function.clone(), location)?;
self.types.register(fq_function, location)?;
}
StatementKind::Declaration(Declaration::FuncDecl(signature, body)) => {
let fn_name: String = signature.name.as_str().to_owned();
let new_scope = Scope::Name(fn_name.clone());
let fq_function = FQSN::from_scope_stack(scope_stack.as_ref(), fn_name);
self.functions.register(fq_function.clone(), location)?;
self.types.register(fq_function, location)?;
scope_stack.push(new_scope);
let output = self.add_from_scope(body.as_ref(), scope_stack);
scope_stack.pop();
output?
},
StatementKind::Declaration(Declaration::TypeDecl { name, body, mutable }) => {
let fq_type = FQSN::from_scope_stack(scope_stack.as_ref(), name.name.as_ref().to_owned());
self.types.register(fq_type, location)?;
if let Err(errors) = self.add_type_members(name, body, mutable, location, scope_stack) {
return Err(errors[0].clone());
}
},
StatementKind::Declaration(Declaration::Binding { name, .. }) => {
let fq_binding = FQSN::from_scope_stack(scope_stack.as_ref(), name.as_str().to_owned());
self.bindings.register(fq_binding, location)?;
}
StatementKind::Module(ModuleSpecifier { name, contents }) => {
let mod_name = name.as_str().to_owned();
let fq_module = FQSN::from_scope_stack(scope_stack.as_ref(), mod_name.clone());
let new_scope = Scope::Name(mod_name);
self.bindings.register(fq_module, location)?;
scope_stack.push(new_scope);
let output = self.add_from_scope(contents.as_ref(), scope_stack);
scope_stack.pop();
output?
},
_ => (),
}
}
Ok(())
}
fn add_type_members(&mut self, type_name: &TypeSingletonName, type_body: &TypeBody, _mutable: &bool, location: Location, scope_stack: &mut Vec<Scope>) -> Result<(), Vec<DuplicateName>> {
let mut errors = vec![];
let mut register = |fqsn: FQSN| {
if let Err(err) = self.types.register(fqsn, location) {
errors.push(err);
}
};
let TypeBody(variants) = type_body;
let new_scope = Scope::Name(type_name.name.as_ref().to_owned());
scope_stack.push(new_scope);
for variant in variants {
match variant {
Variant::UnitStruct(name) | Variant::TupleStruct(name, _) => {
let fq_name = FQSN::from_scope_stack(scope_stack.as_ref(), name.as_ref().to_owned());
register(fq_name);
},
Variant::Record { name, members } => {
let fq_name = FQSN::from_scope_stack(scope_stack.as_ref(), name.as_ref().to_owned());
register(fq_name.clone());
for (field_name, _) in members {
let fq_field_name = fq_name.extend(field_name.as_str().to_owned());
register(fq_field_name);
}
}
}
}
scope_stack.pop();
if errors.is_empty() {
Ok(())
} else {
Err(errors)
}
}
pub fn add_top_level_symbols(&mut self, ast: &ast::AST) -> Result<(), String> {
let mut scope_name_stack = Vec::new();
self.add_symbols_from_scope(&ast.statements, &mut scope_name_stack)
@ -269,7 +443,7 @@ impl SymbolTable {
//TODO handle type mutability
fn add_type_decl(&mut self, type_name: &TypeSingletonName, body: &TypeBody, _mutable: &bool, scope_name_stack: &mut Vec<ScopeSegment>) -> Result<(), String> {
use crate::ast::{TypeIdentifier, Variant};
use crate::ast::{TypeIdentifier};
let TypeBody(variants) = body;
let ref type_name = type_name.name;