blu/lux
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases 13 Wiki Activity

Compare commits

base: blu:v0.1.8
Branches Tags
blu:master
blu:v0.1.13 blu:v0.1.12 blu:v0.1.11 blu:v0.1.9 blu:v0.1.8 blu:v0.1.7 blu:v0.1.6 blu:v0.1.5 blu:v0.1.4 blu:v0.1.3 blu:v0.1.2 blu:v0.1.1 blu:v0.1.0
...
compare: blu:v0.1.11
Branches Tags
blu:master
blu:v0.1.13 blu:v0.1.12 blu:v0.1.11 blu:v0.1.9 blu:v0.1.8 blu:v0.1.7 blu:v0.1.6 blu:v0.1.5 blu:v0.1.4 blu:v0.1.3 blu:v0.1.2 blu:v0.1.1 blu:v0.1.0

9 Commits
v0.1.8 ... v0.1.11

Author SHA1 Message Date
Brandon Lucas
78879ca94e chore: bump version to 0.1.11 2026-02-20 19:36:11 -05:00
Brandon Lucas
01474b401f chore: bump version to 0.1.10 2026-02-20 19:32:56 -05:00
Brandon Lucas
169de0b3c8 chore: update Cargo.lock 
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-02-20 19:32:27 -05:00
Brandon Lucas
667a94b4dc feat: add extern let declarations for JS FFI 
Add support for `extern let name: Type` and `extern let name: Type = "jsName"`
syntax for declaring external JavaScript values. This follows the same pattern
as extern fn across all compiler passes: parser, typechecker, interpreter
(runtime error placeholder), JS backend (emits JS name directly without
mangling), formatter, linter, modules, and symbol table.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-02-20 19:29:44 -05:00
Brandon Lucas
1b629aaae4 feat: add 10 missing List operations to JS backend 
Add find, findIndex, any, all, zip, flatten, contains, take, drop,
and forEach to the JS backend's emit_list_operation function. These
operations previously worked in the interpreter and C backend but
caused "Unknown List operation" errors when compiled to JS.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-02-20 19:21:26 -05:00
Brandon Lucas
0f8babfd8b chore: bump version to 0.1.9 2026-02-20 18:46:51 -05:00
Brandon Lucas
582d603513 chore: update Cargo.lock for v0.1.8 
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-02-20 18:42:29 -05:00
Brandon Lucas
fbb7ddb6c3 feat: add extern fn declarations for JS FFI 
Adds `extern fn` syntax for declaring external JavaScript functions:
  extern fn getElementById(id: String): Element
  extern fn getContext(el: Element, kind: String): CanvasCtx = "getContext"
  pub extern fn alert(msg: String): Unit

Changes across 11 files:
- Lexer: `extern` keyword
- AST: `ExternFnDecl` struct + `Declaration::ExternFn` variant
- Parser: parse `extern fn` with optional `= "jsName"` override
- Typechecker: register extern fn type signatures
- Interpreter: ExternFn value with clear error on call
- JS backend: emit extern fn calls using JS name (no _lux suffix)
- C backend: silently skips extern fns
- Formatter, linter, modules, symbol_table: handle new variant

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-02-20 18:38:42 -05:00
Brandon Lucas
400acc3f35 feat: add deep path record update syntax 
Adds parser desugaring for `{ ...base, pos.x: val, pos.y: val2 }` which
expands to `{ ...base, pos: { ...base.pos, x: val, y: val2 } }`.
Supports arbitrary nesting depth (e.g. world.physics.gravity.y).
Detects conflicts between flat and deep path fields.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-02-20 18:13:11 -05:00
14 changed files with 751 additions and 16 deletions
Expand all files Collapse all files

2
Cargo.lock generated
View File

@@ -776,7 +776,7 @@ dependencies = [
[[package]] [[package]]
name = "lux" name = "lux"
version = "0.1.7" version = "0.1.9"
dependencies = [ dependencies = [
"glob", "glob",
"lsp-server", "lsp-server",

2
Cargo.toml
View File

@@ -1,6 +1,6 @@
[package] [package]
name = "lux" name = "lux"
version = "0.1.8" version = "0.1.11"
edition = "2021" edition = "2021"
description = "A functional programming language with first-class effects, schema evolution, and behavioral types" description = "A functional programming language with first-class effects, schema evolution, and behavioral types"
license = "MIT" license = "MIT"

6
flake.nix
View File

@@ -44,7 +44,7 @@
printf "\n" printf "\n"
printf " \033[1;35m \033[0m\n" printf " \033[1;35m \033[0m\n"
printf " \033[1;35m \033[0m\n" printf " \033[1;35m \033[0m\n"
printf " \033[1;35m \033[0m v0.1.8\n" printf " \033[1;35m \033[0m v0.1.11\n"
printf "\n" printf "\n"
printf " Functional language with first-class effects\n" printf " Functional language with first-class effects\n"
printf "\n" printf "\n"
@@ -62,7 +62,7 @@
packages.default = pkgs.rustPlatform.buildRustPackage { packages.default = pkgs.rustPlatform.buildRustPackage {
pname = "lux"; pname = "lux";
version = "0.1.8"; version = "0.1.11";
src = ./.; src = ./.;
cargoLock.lockFile = ./Cargo.lock; cargoLock.lockFile = ./Cargo.lock;
@@ -79,7 +79,7 @@
}; };
in muslPkgs.rustPlatform.buildRustPackage { in muslPkgs.rustPlatform.buildRustPackage {
pname = "lux"; pname = "lux";
version = "0.1.8"; version = "0.1.11";
src = ./.; src = ./.;
cargoLock.lockFile = ./Cargo.lock; cargoLock.lockFile = ./Cargo.lock;

32
src/ast.rs
View File

@@ -221,6 +221,10 @@ pub enum Declaration {
Trait(TraitDecl), Trait(TraitDecl),
/// Trait implementation: impl Trait for Type { ... } /// Trait implementation: impl Trait for Type { ... }
Impl(ImplDecl), Impl(ImplDecl),
/// Extern function declaration (FFI): extern fn name(params): ReturnType
ExternFn(ExternFnDecl),
/// Extern let declaration (FFI): extern let name: Type
ExternLet(ExternLetDecl),
} }
/// Function declaration /// Function declaration
@@ -428,6 +432,34 @@ pub struct ImplMethod {
pub span: Span, pub span: Span,
} }
/// Extern function declaration (FFI)
#[derive(Debug, Clone)]
pub struct ExternFnDecl {
pub visibility: Visibility,
/// Documentation comment
pub doc: Option<String>,
pub name: Ident,
pub type_params: Vec<Ident>,
pub params: Vec<Parameter>,
pub return_type: TypeExpr,
/// Optional JS name override: extern fn foo(...): T = "jsFoo"
pub js_name: Option<String>,
pub span: Span,
}
/// Extern let declaration (FFI)
#[derive(Debug, Clone)]
pub struct ExternLetDecl {
pub visibility: Visibility,
/// Documentation comment
pub doc: Option<String>,
pub name: Ident,
pub typ: TypeExpr,
/// Optional JS name override: extern let foo: T = "window.foo"
pub js_name: Option<String>,
pub span: Span,
}
/// Type expressions /// Type expressions
#[derive(Debug, Clone, PartialEq, Eq)] #[derive(Debug, Clone, PartialEq, Eq)]
pub enum TypeExpr { pub enum TypeExpr {

89
src/codegen/js_backend.rs
View File

@@ -71,6 +71,10 @@ pub struct JsBackend {
var_substitutions: HashMap<String, String>, var_substitutions: HashMap<String, String>,
/// Effects actually used in the program (for tree-shaking runtime) /// Effects actually used in the program (for tree-shaking runtime)
used_effects: HashSet<String>, used_effects: HashSet<String>,
/// Extern function names mapped to their JS names
extern_fns: HashMap<String, String>,
/// Extern let names mapped to their JS names
extern_lets: HashMap<String, String>,
} }
impl JsBackend { impl JsBackend {
@@ -93,6 +97,8 @@ impl JsBackend {
has_handlers: false, has_handlers: false,
var_substitutions: HashMap::new(), var_substitutions: HashMap::new(),
used_effects: HashSet::new(), used_effects: HashSet::new(),
extern_fns: HashMap::new(),
extern_lets: HashMap::new(),
} }
} }
@@ -112,6 +118,21 @@ impl JsBackend {
Declaration::Type(t) => { Declaration::Type(t) => {
self.collect_type(t)?; self.collect_type(t)?;
} }
Declaration::ExternFn(ext) => {
let js_name = ext
.js_name
.clone()
.unwrap_or_else(|| ext.name.name.clone());
self.extern_fns.insert(ext.name.name.clone(), js_name);
self.functions.insert(ext.name.name.clone());
}
Declaration::ExternLet(ext) => {
let js_name = ext
.js_name
.clone()
.unwrap_or_else(|| ext.name.name.clone());
self.extern_lets.insert(ext.name.name.clone(), js_name);
}
_ => {} _ => {}
} }
} }
@@ -1086,6 +1107,9 @@ impl JsBackend {
} else if self.functions.contains(&ident.name) { } else if self.functions.contains(&ident.name) {
// Function reference (used as value) // Function reference (used as value)
Ok(self.mangle_name(&ident.name)) Ok(self.mangle_name(&ident.name))
} else if let Some(js_name) = self.extern_lets.get(&ident.name) {
// Extern let: use JS name directly (no mangling)
Ok(js_name.clone())
} else { } else {
Ok(self.escape_js_keyword(&ident.name)) Ok(self.escape_js_keyword(&ident.name))
} }
@@ -1824,6 +1848,67 @@ impl JsBackend {
let func = self.emit_expr(&args[1])?; let func = self.emit_expr(&args[1])?;
Ok(format!("[...{}].sort({})", list, func)) Ok(format!("[...{}].sort({})", list, func))
} }
"find" => {
let list = self.emit_expr(&args[0])?;
let pred = self.emit_expr(&args[1])?;
Ok(format!(
"((__l) => {{ const __r = __l.find({}); return __r !== undefined ? Lux.Some(__r) : Lux.None(); }})({})",
pred, list
))
}
"findIndex" => {
let list = self.emit_expr(&args[0])?;
let pred = self.emit_expr(&args[1])?;
Ok(format!(
"((__l) => {{ const __i = __l.findIndex({}); return __i !== -1 ? Lux.Some(__i) : Lux.None(); }})({})",
pred, list
))
}
"any" => {
let list = self.emit_expr(&args[0])?;
let pred = self.emit_expr(&args[1])?;
Ok(format!("{}.some({})", list, pred))
}
"all" => {
let list = self.emit_expr(&args[0])?;
let pred = self.emit_expr(&args[1])?;
Ok(format!("{}.every({})", list, pred))
}
"zip" => {
let list1 = self.emit_expr(&args[0])?;
let list2 = self.emit_expr(&args[1])?;
Ok(format!(
"((__a, __b) => __a.slice(0, Math.min(__a.length, __b.length)).map((__x, __i) => [__x, __b[__i]]))({})",
format!("{}, {}", list1, list2)
))
}
"flatten" => {
let list = self.emit_expr(&args[0])?;
Ok(format!("{}.flat()", list))
}
"contains" => {
let list = self.emit_expr(&args[0])?;
let elem = self.emit_expr(&args[1])?;
Ok(format!(
"{}.some(__x => JSON.stringify(__x) === JSON.stringify({}))",
list, elem
))
}
"take" => {
let list = self.emit_expr(&args[0])?;
let n = self.emit_expr(&args[1])?;
Ok(format!("{}.slice(0, Math.max(0, {}))", list, n))
}
"drop" => {
let list = self.emit_expr(&args[0])?;
let n = self.emit_expr(&args[1])?;
Ok(format!("{}.slice(Math.max(0, {}))", list, n))
}
"forEach" => {
let list = self.emit_expr(&args[0])?;
let func = self.emit_expr(&args[1])?;
Ok(format!("({}.forEach({}), undefined)", list, func))
}
_ => Err(JsGenError { _ => Err(JsGenError {
message: format!("Unknown List operation: {}", operation), message: format!("Unknown List operation: {}", operation),
span: None, span: None,
@@ -2723,6 +2808,10 @@ impl JsBackend {
/// Mangle a Lux name to a valid JavaScript name /// Mangle a Lux name to a valid JavaScript name
fn mangle_name(&self, name: &str) -> String { fn mangle_name(&self, name: &str) -> String {
// Extern functions use their JS name directly (no mangling)
if let Some(js_name) = self.extern_fns.get(name) {
return js_name.clone();
}
format!("{}_lux", name) format!("{}_lux", name)
} }

74
src/formatter.rs
View File

@@ -3,9 +3,9 @@
//! Formats Lux source code according to standard style guidelines. //! Formats Lux source code according to standard style guidelines.
use crate::ast::{ use crate::ast::{
BehavioralProperty, BinaryOp, Declaration, EffectDecl, Expr, FunctionDecl, HandlerDecl, BehavioralProperty, BinaryOp, Declaration, EffectDecl, ExternFnDecl, ExternLetDecl, Expr, FunctionDecl,
ImplDecl, ImplMethod, LetDecl, Literal, LiteralKind, Pattern, Program, Statement, TraitDecl, HandlerDecl, ImplDecl, ImplMethod, LetDecl, Literal, LiteralKind, Pattern, Program, Statement,
TypeDecl, TypeDef, TypeExpr, UnaryOp, VariantFields, TraitDecl, TypeDecl, TypeDef, TypeExpr, UnaryOp, VariantFields, Visibility,
}; };
use crate::lexer::Lexer; use crate::lexer::Lexer;
use crate::parser::Parser; use crate::parser::Parser;
@@ -103,9 +103,77 @@ impl Formatter {
Declaration::Handler(h) => self.format_handler(h), Declaration::Handler(h) => self.format_handler(h),
Declaration::Trait(t) => self.format_trait(t), Declaration::Trait(t) => self.format_trait(t),
Declaration::Impl(i) => self.format_impl(i), Declaration::Impl(i) => self.format_impl(i),
Declaration::ExternFn(e) => self.format_extern_fn(e),
Declaration::ExternLet(e) => self.format_extern_let(e),
} }
} }
fn format_extern_fn(&mut self, ext: &ExternFnDecl) {
let indent = self.indent();
self.write(&indent);
if ext.visibility == Visibility::Public {
self.write("pub ");
}
self.write("extern fn ");
self.write(&ext.name.name);
// Type parameters
if !ext.type_params.is_empty() {
self.write("<");
self.write(
&ext.type_params
.iter()
.map(|p| p.name.clone())
.collect::<Vec<_>>()
.join(", "),
);
self.write(">");
}
// Parameters
self.write("(");
let params: Vec<String> = ext
.params
.iter()
.map(|p| format!("{}: {}", p.name.name, self.format_type_expr(&p.typ)))
.collect();
self.write(&params.join(", "));
self.write("): ");
// Return type
self.write(&self.format_type_expr(&ext.return_type));
// Optional JS name
if let Some(js_name) = &ext.js_name {
self.write(&format!(" = \"{}\"", js_name));
}
self.newline();
}
fn format_extern_let(&mut self, ext: &ExternLetDecl) {
let indent = self.indent();
self.write(&indent);
if ext.visibility == Visibility::Public {
self.write("pub ");
}
self.write("extern let ");
self.write(&ext.name.name);
self.write(": ");
self.write(&self.format_type_expr(&ext.typ));
// Optional JS name
if let Some(js_name) = &ext.js_name {
self.write(&format!(" = \"{}\"", js_name));
}
self.newline();
}
fn format_function(&mut self, func: &FunctionDecl) { fn format_function(&mut self, func: &FunctionDecl) {
let indent = self.indent(); let indent = self.indent();
self.write(&indent); self.write(&indent);

41
src/interpreter.rs
View File

@@ -176,6 +176,11 @@ pub enum Value {
}, },
/// JSON value (for JSON parsing/manipulation) /// JSON value (for JSON parsing/manipulation)
Json(serde_json::Value), Json(serde_json::Value),
/// Extern function (FFI — only callable from JS backend)
ExternFn {
name: String,
arity: usize,
},
} }
impl Value { impl Value {
@@ -197,6 +202,7 @@ impl Value {
Value::Constructor { .. } => "Constructor", Value::Constructor { .. } => "Constructor",
Value::Versioned { .. } => "Versioned", Value::Versioned { .. } => "Versioned",
Value::Json(_) => "Json", Value::Json(_) => "Json",
Value::ExternFn { .. } => "ExternFn",
} }
} }
@@ -407,6 +413,7 @@ impl fmt::Display for Value {
write!(f, "{} @v{}", value, version) write!(f, "{} @v{}", value, version)
} }
Value::Json(json) => write!(f, "{}", json), Value::Json(json) => write!(f, "{}", json),
Value::ExternFn { name, .. } => write!(f, "<extern fn {}>", name),
} }
} }
} }
@@ -1405,6 +1412,33 @@ impl Interpreter {
Ok(Value::Unit) Ok(Value::Unit)
} }
Declaration::ExternFn(ext) => {
// Register a placeholder that errors at runtime
let name = ext.name.name.clone();
let arity = ext.params.len();
// Create a closure that produces a clear error
let closure = Closure {
params: ext.params.iter().map(|p| p.name.name.clone()).collect(),
body: Expr::Literal(crate::ast::Literal {
kind: crate::ast::LiteralKind::Unit,
span: ext.span,
}),
env: self.global_env.clone(),
};
// We store an ExternFn marker value
self.global_env
.define(&name, Value::ExternFn { name: name.clone(), arity });
Ok(Value::Unit)
}
Declaration::ExternLet(ext) => {
// Register a placeholder that errors at runtime (extern lets only work in JS)
let name = ext.name.name.clone();
self.global_env
.define(&name, Value::ExternFn { name: name.clone(), arity: 0 });
Ok(Value::Unit)
}
Declaration::Effect(_) | Declaration::Trait(_) | Declaration::Impl(_) => { Declaration::Effect(_) | Declaration::Trait(_) | Declaration::Impl(_) => {
// These are compile-time only // These are compile-time only
Ok(Value::Unit) Ok(Value::Unit)
@@ -1924,6 +1958,13 @@ impl Interpreter {
})) }))
} }
Value::Builtin(builtin) => self.eval_builtin(builtin, args, span), Value::Builtin(builtin) => self.eval_builtin(builtin, args, span),
Value::ExternFn { name, .. } => Err(RuntimeError {
message: format!(
"Extern function '{}' can only be called when compiled to JavaScript (use `lux build --target js`)",
name
),
span: Some(span),
}),
v => Err(RuntimeError { v => Err(RuntimeError {
message: format!("Cannot call {}", v.type_name()), message: format!("Cannot call {}", v.type_name()),
span: Some(span), span: Some(span),

3
src/lexer.rs
View File

@@ -55,6 +55,7 @@ pub enum TokenKind {
Trait, // trait (for type classes) Trait, // trait (for type classes)
Impl, // impl (for trait implementations) Impl, // impl (for trait implementations)
For, // for (in impl Trait for Type) For, // for (in impl Trait for Type)
Extern, // extern (for FFI declarations)
// Documentation // Documentation
DocComment(String), // /// doc comment DocComment(String), // /// doc comment
@@ -152,6 +153,7 @@ impl fmt::Display for TokenKind {
TokenKind::Trait => write!(f, "trait"), TokenKind::Trait => write!(f, "trait"),
TokenKind::Impl => write!(f, "impl"), TokenKind::Impl => write!(f, "impl"),
TokenKind::For => write!(f, "for"), TokenKind::For => write!(f, "for"),
TokenKind::Extern => write!(f, "extern"),
TokenKind::DocComment(s) => write!(f, "/// {}", s), TokenKind::DocComment(s) => write!(f, "/// {}", s),
TokenKind::Is => write!(f, "is"), TokenKind::Is => write!(f, "is"),
TokenKind::Pure => write!(f, "pure"), TokenKind::Pure => write!(f, "pure"),
@@ -1008,6 +1010,7 @@ impl<'a> Lexer<'a> {
"trait" => TokenKind::Trait, "trait" => TokenKind::Trait,
"impl" => TokenKind::Impl, "impl" => TokenKind::Impl,
"for" => TokenKind::For, "for" => TokenKind::For,
"extern" => TokenKind::Extern,
"is" => TokenKind::Is, "is" => TokenKind::Is,
"pure" => TokenKind::Pure, "pure" => TokenKind::Pure,
"total" => TokenKind::Total, "total" => TokenKind::Total,

6
src/linter.rs
View File

@@ -403,6 +403,12 @@ impl Linter {
Declaration::Function(f) => { Declaration::Function(f) => {
self.defined_functions.insert(f.name.name.clone()); self.defined_functions.insert(f.name.name.clone());
} }
Declaration::ExternFn(e) => {
self.defined_functions.insert(e.name.name.clone());
}
Declaration::ExternLet(e) => {
self.define_var(&e.name.name);
}
Declaration::Let(l) => { Declaration::Let(l) => {
self.define_var(&l.name.name); self.define_var(&l.name.name);
} }

182
src/main.rs
View File

@@ -2288,6 +2288,48 @@ fn extract_module_doc(source: &str, path: &str) -> Result<ModuleDoc, String> {
is_public: matches!(t.visibility, ast::Visibility::Public), is_public: matches!(t.visibility, ast::Visibility::Public),
}); });
} }
ast::Declaration::ExternFn(ext) => {
let params: Vec<String> = ext.params.iter()
.map(|p| format!("{}: {}", p.name.name, format_type(&p.typ)))
.collect();
let js_note = ext.js_name.as_ref()
.map(|n| format!(" = \"{}\"", n))
.unwrap_or_default();
let signature = format!(
"extern fn {}({}): {}{}",
ext.name.name,
params.join(", "),
format_type(&ext.return_type),
js_note
);
let doc = extract_doc_comment(source, ext.span.start);
functions.push(FunctionDoc {
name: ext.name.name.clone(),
signature,
description: doc,
is_public: matches!(ext.visibility, ast::Visibility::Public),
properties: vec![],
});
}
ast::Declaration::ExternLet(ext) => {
let js_note = ext.js_name.as_ref()
.map(|n| format!(" = \"{}\"", n))
.unwrap_or_default();
let signature = format!(
"extern let {}: {}{}",
ext.name.name,
format_type(&ext.typ),
js_note
);
let doc = extract_doc_comment(source, ext.span.start);
functions.push(FunctionDoc {
name: ext.name.name.clone(),
signature,
description: doc,
is_public: matches!(ext.visibility, ast::Visibility::Public),
properties: vec![],
});
}
ast::Declaration::Effect(e) => { ast::Declaration::Effect(e) => {
let doc = extract_doc_comment(source, e.span.start); let doc = extract_doc_comment(source, e.span.start);
let ops: Vec<String> = e.operations.iter() let ops: Vec<String> = e.operations.iter()
@@ -4081,6 +4123,146 @@ c")"#;
assert_eq!(eval("let x = { a: 1, b: 2 } == { a: 1, b: 3 }").unwrap(), "false"); assert_eq!(eval("let x = { a: 1, b: 2 } == { a: 1, b: 3 }").unwrap(), "false");
} }
#[test]
fn test_record_spread() {
let source = r#"
let base = { x: 1, y: 2, z: 3 }
let updated = { ...base, y: 20 }
let result = updated.y
"#;
assert_eq!(eval(source).unwrap(), "20");
}
#[test]
fn test_deep_path_record_update() {
// Basic deep path: { ...base, pos.x: val } desugars to { ...base, pos: { ...base.pos, x: val } }
let source = r#"
let npc = { name: "Goblin", pos: { x: 10, y: 20 } }
let moved = { ...npc, pos.x: 50, pos.y: 60 }
let result = moved.pos.x
"#;
assert_eq!(eval(source).unwrap(), "50");
// Verify other fields are preserved through spread
let source2 = r#"
let npc = { name: "Goblin", pos: { x: 10, y: 20 } }
let moved = { ...npc, pos.x: 50 }
let result = moved.pos.y
"#;
assert_eq!(eval(source2).unwrap(), "20");
// Verify top-level spread fields preserved
let source3 = r#"
let npc = { name: "Goblin", pos: { x: 10, y: 20 } }
let moved = { ...npc, pos.x: 50 }
let result = moved.name
"#;
assert_eq!(eval(source3).unwrap(), "\"Goblin\"");
// Mix of flat and deep path fields
let source4 = r#"
let npc = { name: "Goblin", pos: { x: 10, y: 20 }, hp: 100 }
let updated = { ...npc, pos.x: 50, hp: 80 }
let result = (updated.pos.x, updated.hp, updated.name)
"#;
assert_eq!(eval(source4).unwrap(), "(50, 80, \"Goblin\")");
}
#[test]
fn test_deep_path_record_multilevel() {
// Multi-level deep path: world.physics.gravity
let source = r#"
let world = { name: "Earth", physics: { gravity: { x: 0, y: -10 }, drag: 1 } }
let updated = { ...world, physics.gravity.y: -20 }
let result = (updated.physics.gravity.y, updated.physics.drag, updated.name)
"#;
assert_eq!(eval(source).unwrap(), "(-20, 1, \"Earth\")");
}
#[test]
fn test_deep_path_conflict_error() {
// Field appears as both flat and deep path — should error
let result = eval(r#"
let base = { pos: { x: 1, y: 2 } }
let bad = { ...base, pos: { x: 10, y: 20 }, pos.x: 30 }
"#);
assert!(result.is_err());
}
#[test]
fn test_extern_fn_parse() {
// Extern fn should parse successfully
let source = r#"
extern fn getElementById(id: String): String
let x = 42
"#;
assert_eq!(eval(source).unwrap(), "42");
}
#[test]
fn test_extern_fn_with_js_name() {
// Extern fn with JS name override
let source = r#"
extern fn getCtx(el: String, kind: String): String = "getContext"
let x = 42
"#;
assert_eq!(eval(source).unwrap(), "42");
}
#[test]
fn test_extern_fn_call_errors_in_interpreter() {
// Calling an extern fn in the interpreter should produce a clear error
let source = r#"
extern fn alert(msg: String): Unit
let x = alert("hello")
"#;
let result = eval(source);
assert!(result.is_err());
let err = result.unwrap_err();
assert!(err.contains("extern") || err.contains("Extern") || err.contains("JavaScript"),
"Error should mention extern/JavaScript: {}", err);
}
#[test]
fn test_pub_extern_fn() {
// pub extern fn should parse
let source = r#"
pub extern fn requestAnimationFrame(callback: fn(): Unit): Int
let x = 42
"#;
assert_eq!(eval(source).unwrap(), "42");
}
#[test]
fn test_extern_fn_js_codegen() {
// Verify JS backend emits extern fn calls without _lux suffix
use crate::codegen::js_backend::JsBackend;
use crate::parser::Parser;
use crate::lexer::Lexer;
let source = r#"
extern fn getElementById(id: String): String
extern fn getContext(el: String, kind: String): String = "getContext"
fn main(): Unit = {
let el = getElementById("canvas")
let ctx = getContext(el, "2d")
()
}
"#;
let tokens = Lexer::new(source).tokenize().unwrap();
let program = Parser::new(tokens).parse_program().unwrap();
let mut backend = JsBackend::new();
let js = backend.generate(&program).unwrap();
// getElementById should appear as-is (no _lux suffix)
assert!(js.contains("getElementById("), "JS should call getElementById directly: {}", js);
// getContext should use the JS name override
assert!(js.contains("getContext("), "JS should call getContext directly: {}", js);
// main should still be mangled
assert!(js.contains("main_lux"), "main should be mangled: {}", js);
}
#[test] #[test]
fn test_invalid_escape_sequence() { fn test_invalid_escape_sequence() {
let result = eval(r#"let x = "\z""#); let result = eval(r#"let x = "\z""#);

8
src/modules.rs
View File

@@ -52,6 +52,8 @@ impl Module {
Declaration::Let(l) => l.visibility == Visibility::Public, Declaration::Let(l) => l.visibility == Visibility::Public,
Declaration::Type(t) => t.visibility == Visibility::Public, Declaration::Type(t) => t.visibility == Visibility::Public,
Declaration::Trait(t) => t.visibility == Visibility::Public, Declaration::Trait(t) => t.visibility == Visibility::Public,
Declaration::ExternFn(e) => e.visibility == Visibility::Public,
Declaration::ExternLet(e) => e.visibility == Visibility::Public,
// Effects, handlers, and impls are always public for now // Effects, handlers, and impls are always public for now
Declaration::Effect(_) | Declaration::Handler(_) | Declaration::Impl(_) => true, Declaration::Effect(_) | Declaration::Handler(_) | Declaration::Impl(_) => true,
} }
@@ -294,6 +296,12 @@ impl ModuleLoader {
// Handlers are always exported // Handlers are always exported
exports.insert(h.name.name.clone()); exports.insert(h.name.name.clone());
} }
Declaration::ExternFn(e) if e.visibility == Visibility::Public => {
exports.insert(e.name.name.clone());
}
Declaration::ExternLet(e) if e.visibility == Visibility::Public => {
exports.insert(e.name.name.clone());
}
_ => {} _ => {}
} }
} }

256
src/parser.rs
View File

@@ -238,6 +238,7 @@ impl Parser {
match self.peek_kind() { match self.peek_kind() {
TokenKind::Fn => Ok(Declaration::Function(self.parse_function_decl(visibility, doc)?)), TokenKind::Fn => Ok(Declaration::Function(self.parse_function_decl(visibility, doc)?)),
TokenKind::Extern => self.parse_extern_decl(visibility, doc),
TokenKind::Effect => Ok(Declaration::Effect(self.parse_effect_decl(doc)?)), TokenKind::Effect => Ok(Declaration::Effect(self.parse_effect_decl(doc)?)),
TokenKind::Handler => Ok(Declaration::Handler(self.parse_handler_decl()?)), TokenKind::Handler => Ok(Declaration::Handler(self.parse_handler_decl()?)),
TokenKind::Type => Ok(Declaration::Type(self.parse_type_decl(visibility, doc)?)), TokenKind::Type => Ok(Declaration::Type(self.parse_type_decl(visibility, doc)?)),
@@ -246,7 +247,7 @@ impl Parser {
TokenKind::Impl => Ok(Declaration::Impl(self.parse_impl_decl()?)), TokenKind::Impl => Ok(Declaration::Impl(self.parse_impl_decl()?)),
TokenKind::Run => Err(self.error("Bare 'run' expressions are not allowed at top level. Use 'let _ = run ...' or 'let result = run ...'")), TokenKind::Run => Err(self.error("Bare 'run' expressions are not allowed at top level. Use 'let _ = run ...' or 'let result = run ...'")),
TokenKind::Handle => Err(self.error("Bare 'handle' expressions are not allowed at top level. Use 'let _ = handle ...' or 'let result = handle ...'")), TokenKind::Handle => Err(self.error("Bare 'handle' expressions are not allowed at top level. Use 'let _ = handle ...' or 'let result = handle ...'")),
_ => Err(self.error("Expected declaration (fn, effect, handler, type, trait, impl, or let)")), _ => Err(self.error("Expected declaration (fn, extern, effect, handler, type, trait, impl, or let)")),
} }
} }
@@ -323,6 +324,109 @@ impl Parser {
}) })
} }
/// Parse extern declaration: dispatch to extern fn or extern let
fn parse_extern_decl(&mut self, visibility: Visibility, doc: Option<String>) -> Result<Declaration, ParseError> {
// Peek past 'extern' to see if it's 'fn' or 'let'
if self.pos + 1 < self.tokens.len() {
match &self.tokens[self.pos + 1].kind {
TokenKind::Fn => Ok(Declaration::ExternFn(self.parse_extern_fn_decl(visibility, doc)?)),
TokenKind::Let => Ok(Declaration::ExternLet(self.parse_extern_let_decl(visibility, doc)?)),
_ => Err(self.error("Expected 'fn' or 'let' after 'extern'")),
}
} else {
Err(self.error("Expected 'fn' or 'let' after 'extern'"))
}
}
/// Parse extern let declaration: extern let name: Type = "jsName"
fn parse_extern_let_decl(&mut self, visibility: Visibility, doc: Option<String>) -> Result<ExternLetDecl, ParseError> {
let start = self.current_span();
self.expect(TokenKind::Extern)?;
self.expect(TokenKind::Let)?;
let name = self.parse_ident()?;
// Type annotation
self.expect(TokenKind::Colon)?;
let typ = self.parse_type()?;
// Optional JS name override: = "jsName"
let js_name = if self.check(TokenKind::Eq) {
self.advance();
match self.peek_kind() {
TokenKind::String(s) => {
let name = s.clone();
self.advance();
Some(name)
}
_ => return Err(self.error("Expected string literal for JS name in extern let")),
}
} else {
None
};
let span = start.merge(self.previous_span());
Ok(ExternLetDecl {
visibility,
doc,
name,
typ,
js_name,
span,
})
}
/// Parse extern function declaration: extern fn name<T>(params): ReturnType = "jsName"
fn parse_extern_fn_decl(&mut self, visibility: Visibility, doc: Option<String>) -> Result<ExternFnDecl, ParseError> {
let start = self.current_span();
self.expect(TokenKind::Extern)?;
self.expect(TokenKind::Fn)?;
let name = self.parse_ident()?;
// Optional type parameters
let type_params = if self.check(TokenKind::Lt) {
self.parse_type_params()?
} else {
Vec::new()
};
self.expect(TokenKind::LParen)?;
let params = self.parse_params()?;
self.expect(TokenKind::RParen)?;
// Return type
self.expect(TokenKind::Colon)?;
let return_type = self.parse_type()?;
// Optional JS name override: = "jsName"
let js_name = if self.check(TokenKind::Eq) {
self.advance();
match self.peek_kind() {
TokenKind::String(s) => {
let name = s.clone();
self.advance();
Some(name)
}
_ => return Err(self.error("Expected string literal for JS name in extern fn")),
}
} else {
None
};
let span = start.merge(self.previous_span());
Ok(ExternFnDecl {
visibility,
doc,
name,
type_params,
params,
return_type,
js_name,
span,
})
}
/// Parse effect declaration /// Parse effect declaration
fn parse_effect_decl(&mut self, doc: Option<String>) -> Result<EffectDecl, ParseError> { fn parse_effect_decl(&mut self, doc: Option<String>) -> Result<EffectDecl, ParseError> {
let start = self.current_span(); let start = self.current_span();
@@ -2296,12 +2400,34 @@ impl Parser {
return self.parse_record_expr_rest(start); return self.parse_record_expr_rest(start);
} }
// Check if it's a record (ident: expr) or block // Check if it's a record (ident: expr or ident.path: expr) or block
if matches!(self.peek_kind(), TokenKind::Ident(_)) { if matches!(self.peek_kind(), TokenKind::Ident(_)) {
let lookahead = self.tokens.get(self.pos + 1).map(|t| &t.kind); let lookahead = self.tokens.get(self.pos + 1).map(|t| &t.kind);
if matches!(lookahead, Some(TokenKind::Colon)) { if matches!(lookahead, Some(TokenKind::Colon)) {
return self.parse_record_expr_rest(start); return self.parse_record_expr_rest(start);
} }
// Check for deep path record: { ident.ident...: expr }
if matches!(lookahead, Some(TokenKind::Dot)) {
let mut look = self.pos + 2;
loop {
match self.tokens.get(look).map(|t| &t.kind) {
Some(TokenKind::Ident(_)) => {
look += 1;
match self.tokens.get(look).map(|t| &t.kind) {
Some(TokenKind::Colon) => {
return self.parse_record_expr_rest(start);
}
Some(TokenKind::Dot) => {
look += 1;
continue;
}
_ => break,
}
}
_ => break,
}
}
}
} }
// It's a block // It's a block
@@ -2309,8 +2435,9 @@ impl Parser {
} }
fn parse_record_expr_rest(&mut self, start: Span) -> Result<Expr, ParseError> { fn parse_record_expr_rest(&mut self, start: Span) -> Result<Expr, ParseError> {
let mut fields = Vec::new(); let mut raw_fields: Vec<(Vec<Ident>, Expr)> = Vec::new();
let mut spread = None; let mut spread = None;
let mut has_deep_paths = false;
// Check for spread: { ...expr, ... } // Check for spread: { ...expr, ... }
if self.check(TokenKind::DotDotDot) { if self.check(TokenKind::DotDotDot) {
@@ -2327,9 +2454,21 @@ impl Parser {
while !self.check(TokenKind::RBrace) { while !self.check(TokenKind::RBrace) {
let name = self.parse_ident()?; let name = self.parse_ident()?;
// Check for dotted path: pos.x, pos.x.y, etc.
let mut path = vec![name];
while self.check(TokenKind::Dot) {
self.advance(); // consume .
let segment = self.parse_ident()?;
path.push(segment);
}
if path.len() > 1 {
has_deep_paths = true;
}
self.expect(TokenKind::Colon)?; self.expect(TokenKind::Colon)?;
let value = self.parse_expr()?; let value = self.parse_expr()?;
fields.push((name, value)); raw_fields.push((path, value));
self.skip_newlines(); self.skip_newlines();
if self.check(TokenKind::Comma) { if self.check(TokenKind::Comma) {
@@ -2340,12 +2479,121 @@ impl Parser {
self.expect(TokenKind::RBrace)?; self.expect(TokenKind::RBrace)?;
let span = start.merge(self.previous_span()); let span = start.merge(self.previous_span());
if has_deep_paths {
Self::desugar_deep_fields(spread, raw_fields, span)
} else {
// No deep paths — use flat fields directly (common case, no allocation overhead)
let fields = raw_fields
.into_iter()
.map(|(mut path, value)| (path.remove(0), value))
.collect();
Ok(Expr::Record { Ok(Expr::Record {
spread, spread,
fields, fields,
span, span,
}) })
} }
}
/// Desugar deep path record fields into nested record spread expressions.
/// `{ ...base, pos.x: vx, pos.y: vy }` becomes `{ ...base, pos: { ...base.pos, x: vx, y: vy } }`
fn desugar_deep_fields(
spread: Option<Box<Expr>>,
raw_fields: Vec<(Vec<Ident>, Expr)>,
outer_span: Span,
) -> Result<Expr, ParseError> {
use std::collections::HashMap;
// Group fields by first path segment, preserving order
let mut groups: Vec<(String, Vec<(Vec<Ident>, Expr)>)> = Vec::new();
let mut group_map: HashMap<String, usize> = HashMap::new();
for (path, value) in raw_fields {
let key = path[0].name.clone();
if let Some(&idx) = group_map.get(&key) {
groups[idx].1.push((path, value));
} else {
group_map.insert(key.clone(), groups.len());
groups.push((key, vec![(path, value)]));
}
}
let mut fields = Vec::new();
for (_, group) in groups {
let first_ident = group[0].0[0].clone();
let has_flat = group.iter().any(|(p, _)| p.len() == 1);
let has_deep = group.iter().any(|(p, _)| p.len() > 1);
if has_flat && has_deep {
return Err(ParseError {
message: format!(
"Field '{}' appears as both a direct field and a deep path prefix",
first_ident.name
),
span: first_ident.span,
});
}
if has_flat {
if group.len() > 1 {
return Err(ParseError {
message: format!("Duplicate field '{}'", first_ident.name),
span: group[1].0[0].span,
});
}
let (_, value) = group.into_iter().next().unwrap();
fields.push((first_ident, value));
} else {
// Deep paths — create nested record with spread from parent
let sub_spread = spread.as_ref().map(|s| {
Box::new(Expr::Field {
object: s.clone(),
field: first_ident.clone(),
span: first_ident.span,
})
});
// Strip first segment from all paths
let sub_fields: Vec<(Vec<Ident>, Expr)> = group
.into_iter()
.map(|(mut path, value)| {
path.remove(0);
(path, value)
})
.collect();
let has_nested_deep = sub_fields.iter().any(|(p, _)| p.len() > 1);
if has_nested_deep {
// Recursively desugar deeper paths
let nested =
Self::desugar_deep_fields(sub_spread, sub_fields, first_ident.span)?;
fields.push((first_ident, nested));
} else {
// All sub-paths are single-segment — build Record directly
let flat_fields: Vec<(Ident, Expr)> = sub_fields
.into_iter()
.map(|(mut path, value)| (path.remove(0), value))
.collect();
fields.push((
first_ident.clone(),
Expr::Record {
spread: sub_spread,
fields: flat_fields,
span: first_ident.span,
},
));
}
}
}
Ok(Expr::Record {
spread,
fields,
span: outer_span,
})
}
fn parse_block_rest(&mut self, start: Span) -> Result<Expr, ParseError> { fn parse_block_rest(&mut self, start: Span) -> Result<Expr, ParseError> {
let mut statements = Vec::new(); let mut statements = Vec::new();

42
src/symbol_table.rs
View File

@@ -245,6 +245,48 @@ impl SymbolTable {
Declaration::Handler(h) => self.visit_handler(h, scope_idx), Declaration::Handler(h) => self.visit_handler(h, scope_idx),
Declaration::Trait(t) => self.visit_trait(t, scope_idx), Declaration::Trait(t) => self.visit_trait(t, scope_idx),
Declaration::Impl(i) => self.visit_impl(i, scope_idx), Declaration::Impl(i) => self.visit_impl(i, scope_idx),
Declaration::ExternFn(ext) => {
let is_public = matches!(ext.visibility, Visibility::Public);
let params: Vec<String> = ext
.params
.iter()
.map(|p| format!("{}: {}", p.name.name, self.type_expr_to_string(&p.typ)))
.collect();
let sig = format!(
"extern fn {}({}): {}",
ext.name.name,
params.join(", "),
self.type_expr_to_string(&ext.return_type)
);
let mut symbol = self.new_symbol(
ext.name.name.clone(),
SymbolKind::Function,
ext.span,
Some(sig),
is_public,
);
symbol.documentation = ext.doc.clone();
let id = self.add_symbol(scope_idx, symbol);
self.add_reference(id, ext.name.span, true, true);
}
Declaration::ExternLet(ext) => {
let is_public = matches!(ext.visibility, Visibility::Public);
let sig = format!(
"extern let {}: {}",
ext.name.name,
self.type_expr_to_string(&ext.typ)
);
let mut symbol = self.new_symbol(
ext.name.name.clone(),
SymbolKind::Variable,
ext.span,
Some(sig),
is_public,
);
symbol.documentation = ext.doc.clone();
let id = self.add_symbol(scope_idx, symbol);
self.add_reference(id, ext.name.span, true, true);
}
} }
} }

22
src/typechecker.rs
View File

@@ -5,9 +5,9 @@
use std::collections::HashMap; use std::collections::HashMap;
use crate::ast::{ use crate::ast::{
self, BinaryOp, Declaration, EffectDecl, Expr, FunctionDecl, HandlerDecl, Ident, ImplDecl, self, BinaryOp, Declaration, EffectDecl, ExternFnDecl, Expr, FunctionDecl, HandlerDecl, Ident,
ImportDecl, LetDecl, Literal, LiteralKind, MatchArm, Parameter, Pattern, Program, Span, ImplDecl, ImportDecl, LetDecl, Literal, LiteralKind, MatchArm, Parameter, Pattern, Program,
Statement, TraitDecl, TypeDecl, TypeExpr, UnaryOp, VariantFields, Span, Statement, TraitDecl, TypeDecl, TypeExpr, UnaryOp, VariantFields,
}; };
use crate::diagnostics::{find_similar_names, format_did_you_mean, Diagnostic, ErrorCode, Severity}; use crate::diagnostics::{find_similar_names, format_did_you_mean, Diagnostic, ErrorCode, Severity};
use crate::exhaustiveness::{check_exhaustiveness, missing_patterns_hint}; use crate::exhaustiveness::{check_exhaustiveness, missing_patterns_hint};
@@ -1227,6 +1227,22 @@ impl TypeChecker {
let trait_impl = self.collect_impl(impl_decl); let trait_impl = self.collect_impl(impl_decl);
self.env.trait_impls.push(trait_impl); self.env.trait_impls.push(trait_impl);
} }
Declaration::ExternFn(ext) => {
// Register extern fn type signature (like a regular function but no body)
let param_types: Vec<Type> = ext
.params
.iter()
.map(|p| self.resolve_type(&p.typ))
.collect();
let return_type = self.resolve_type(&ext.return_type);
let fn_type = Type::function(param_types, return_type);
self.env.bind(&ext.name.name, TypeScheme::mono(fn_type));
}
Declaration::ExternLet(ext) => {
// Register extern let with its declared type
let typ = self.resolve_type(&ext.typ);
self.env.bind(&ext.name.name, TypeScheme::mono(typ));
}
} }
} }