feat: port AST definitions to Lux (self-hosting)

Translate all 30+ type definitions from src/ast.rs (727 lines Rust)
into Lux ADTs in projects/lux-compiler/ast.lux.

Types ported: Span, Ident, Visibility, Version, VersionConstraint,
BehavioralProperty, WhereClause, ModulePath, ImportDecl, Program,
Declaration, FunctionDecl, Parameter, EffectDecl, EffectOp, TypeDecl,
TypeDef, RecordField, Variant, VariantFields, Migration, HandlerDecl,
HandlerImpl, LetDecl, TraitDecl, TraitMethod, TraitBound, ImplDecl,
TraitConstraint, ImplMethod, TypeExpr, Expr (19 variants), Literal,
LiteralKind, BinaryOp, UnaryOp, Statement, MatchArm, Pattern.

Passes `lux check` and `lux run`.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>

CLAUDE.md

@@ -71,7 +71,16 @@ cd ../packages/markdown && ../../lang/target/release/lux test
 **Do NOT commit if any check fails.** Fix the issue first.
 
 ### Commit after every piece of work
-**After completing each logical unit of work, commit immediately.** Do not let changes accumulate uncommitted across multiple features. Each commit should be a single logical change (one feature, one bugfix, etc.). Use `--no-gpg-sign` flag for all commits.
+**After completing each logical unit of work, commit immediately.** This is NOT optional — every fix, feature, or change MUST be committed right away. Do not let changes accumulate uncommitted across multiple features. Each commit should be a single logical change (one feature, one bugfix, etc.). Use `--no-gpg-sign` flag for all commits.
+
+**Commit workflow:**
+1. Make the change
+2. Run `./scripts/validate.sh` (all 13 checks must pass)
+3. `git add` the relevant files
+4. `git commit --no-gpg-sign -m "type: description"` (use conventional commits: fix/feat/chore/docs)
+5. Move on to the next task
+
+**Never skip committing.** If you fixed a bug, commit it. If you added a feature, commit it. If you updated docs, commit it. Do not batch unrelated changes into one commit.
 
 **IMPORTANT: Always verify Lux code you write:**
 - Run with interpreter: `./target/release/lux file.lux`

Cargo.lock

@@ -770,7 +770,7 @@ dependencies = [
 
 [[package]]
 name = "lux"
-version = "0.1.0"
+version = "0.1.3"
 dependencies = [
  "lsp-server",
  "lsp-types",

Cargo.toml

@@ -1,6 +1,6 @@
 [package]
 name = "lux"
-version = "0.1.1"
+version = "0.1.3"
 edition = "2021"
 description = "A functional programming language with first-class effects, schema evolution, and behavioral types"
 license = "MIT"

flake.nix

@@ -44,7 +44,7 @@
             printf "\n"
             printf "  \033[1;35m╦  ╦ ╦╦ ╦\033[0m\n"
             printf "  \033[1;35m║  ║ ║╔╣\033[0m\n"
-            printf "  \033[1;35m╩═╝╚═╝╩ ╩\033[0m  v0.1.1\n"
+            printf "  \033[1;35m╩═╝╚═╝╩ ╩\033[0m  v0.1.3\n"
             printf "\n"
             printf "  Functional language with first-class effects\n"
             printf "\n"
@@ -62,7 +62,7 @@
 
         packages.default = pkgs.rustPlatform.buildRustPackage {
           pname = "lux";
-          version = "0.1.1";
+          version = "0.1.3";
           src = ./.;
           cargoLock.lockFile = ./Cargo.lock;
 
@@ -79,7 +79,7 @@
           };
         in muslPkgs.rustPlatform.buildRustPackage {
           pname = "lux";
-          version = "0.1.1";
+          version = "0.1.3";
           src = ./.;
           cargoLock.lockFile = ./Cargo.lock;
 

projects/lux-compiler/ast.lux

@@ -0,0 +1,225 @@
+// Lux AST — Self-hosted Abstract Syntax Tree definitions
+//
+// Direct translation of src/ast.rs into Lux ADTs.
+// These types represent the parsed structure of a Lux program.
+//
+// Naming conventions to avoid collisions:
+//   Ex = Expr variant, Pat = Pattern, Te = TypeExpr
+//   Td = TypeDef, Vf = VariantFields, Op = Operator
+//   Decl = Declaration, St = Statement
+
+// === Source Location ===
+
+type Span = | Span(Int, Int)
+
+// === Identifiers ===
+
+type Ident = | Ident(String, Span)
+
+// === Visibility ===
+
+type Visibility = | Public | Private
+
+// === Schema Evolution ===
+
+type Version = | Version(Int, Span)
+
+type VersionConstraint =
+    | VcExact(Version)
+    | VcAtLeast(Version)
+    | VcLatest(Span)
+
+// === Behavioral Types ===
+
+type BehavioralProperty =
+    | BpPure
+    | BpTotal
+    | BpIdempotent
+    | BpDeterministic
+    | BpCommutative
+
+// === Trait Bound (needed before WhereClause) ===
+
+type TraitBound = | TraitBound(Ident, List<TypeExpr>, Span)
+
+// === Trait Constraint (needed before WhereClause) ===
+
+type TraitConstraint = | TraitConstraint(Ident, List<TraitBound>, Span)
+
+// === Where Clauses ===
+
+type WhereClause =
+    | WcProperty(Ident, BehavioralProperty, Span)
+    | WcResult(Expr, Span)
+    | WcTrait(TraitConstraint)
+
+// === Module Path ===
+
+type ModulePath = | ModulePath(List<Ident>, Span)
+
+// === Import ===
+
+// path, alias, items, wildcard, span
+type ImportDecl = | ImportDecl(ModulePath, Option<Ident>, Option<List<Ident>>, Bool, Span)
+
+// === Program ===
+
+type Program = | Program(List<ImportDecl>, List<Declaration>)
+
+// === Declarations ===
+
+type Declaration =
+    | DeclFunction(FunctionDecl)
+    | DeclEffect(EffectDecl)
+    | DeclType(TypeDecl)
+    | DeclHandler(HandlerDecl)
+    | DeclLet(LetDecl)
+    | DeclTrait(TraitDecl)
+    | DeclImpl(ImplDecl)
+
+// === Parameter ===
+
+type Parameter = | Parameter(Ident, TypeExpr, Span)
+
+// === Effect Operation ===
+
+type EffectOp = | EffectOp(Ident, List<Parameter>, TypeExpr, Span)
+
+// === Record Field ===
+
+type RecordField = | RecordField(Ident, TypeExpr, Span)
+
+// === Variant Fields ===
+
+type VariantFields =
+    | VfUnit
+    | VfTuple(List<TypeExpr>)
+    | VfRecord(List<RecordField>)
+
+// === Variant ===
+
+type Variant = | Variant(Ident, VariantFields, Span)
+
+// === Migration ===
+
+type Migration = | Migration(Version, Expr, Span)
+
+// === Handler Impl ===
+
+// op_name, params, resume, body, span
+type HandlerImpl = | HandlerImpl(Ident, List<Ident>, Option<Ident>, Expr, Span)
+
+// === Impl Method ===
+
+// name, params, return_type, body, span
+type ImplMethod = | ImplMethod(Ident, List<Parameter>, Option<TypeExpr>, Expr, Span)
+
+// === Trait Method ===
+
+// name, type_params, params, return_type, default_impl, span
+type TraitMethod = | TraitMethod(Ident, List<Ident>, List<Parameter>, TypeExpr, Option<Expr>, Span)
+
+// === Type Expressions ===
+
+type TypeExpr =
+    | TeNamed(Ident)
+    | TeApp(TypeExpr, List<TypeExpr>)
+    | TeFunction(List<TypeExpr>, TypeExpr, List<Ident>)
+    | TeTuple(List<TypeExpr>)
+    | TeRecord(List<RecordField>)
+    | TeUnit
+    | TeVersioned(TypeExpr, VersionConstraint)
+
+// === Literal ===
+
+type LiteralKind =
+    | LitInt(Int)
+    | LitFloat(String)
+    | LitString(String)
+    | LitChar(Char)
+    | LitBool(Bool)
+    | LitUnit
+
+type Literal = | Literal(LiteralKind, Span)
+
+// === Binary Operators ===
+
+type BinaryOp =
+    | OpAdd | OpSub | OpMul | OpDiv | OpMod
+    | OpEq | OpNe | OpLt | OpLe | OpGt | OpGe
+    | OpAnd | OpOr
+    | OpPipe | OpConcat
+
+// === Unary Operators ===
+
+type UnaryOp = | OpNeg | OpNot
+
+// === Statements ===
+
+type Statement =
+    | StExpr(Expr)
+    | StLet(Ident, Option<TypeExpr>, Expr, Span)
+
+// === Match Arms ===
+
+type MatchArm = | MatchArm(Pattern, Option<Expr>, Expr, Span)
+
+// === Patterns ===
+
+type Pattern =
+    | PatWildcard(Span)
+    | PatVar(Ident)
+    | PatLiteral(Literal)
+    | PatConstructor(Ident, List<Pattern>, Span)
+    | PatRecord(List<(Ident, Pattern)>, Span)
+    | PatTuple(List<Pattern>, Span)
+
+// === Function Declaration ===
+// visibility, doc, name, type_params, params, return_type, effects, properties, where_clauses, body, span
+type FunctionDecl = | FunctionDecl(Visibility, Option<String>, Ident, List<Ident>, List<Parameter>, TypeExpr, List<Ident>, List<BehavioralProperty>, List<WhereClause>, Expr, Span)
+
+// === Effect Declaration ===
+// doc, name, type_params, operations, span
+type EffectDecl = | EffectDecl(Option<String>, Ident, List<Ident>, List<EffectOp>, Span)
+
+// === Type Declaration ===
+// visibility, doc, name, type_params, version, definition, migrations, span
+type TypeDecl = | TypeDecl(Visibility, Option<String>, Ident, List<Ident>, Option<Version>, TypeDef, List<Migration>, Span)
+
+// === Handler Declaration ===
+// name, params, effect, implementations, span
+type HandlerDecl = | HandlerDecl(Ident, List<Parameter>, Ident, List<HandlerImpl>, Span)
+
+// === Let Declaration ===
+// visibility, doc, name, typ, value, span
+type LetDecl = | LetDecl(Visibility, Option<String>, Ident, Option<TypeExpr>, Expr, Span)
+
+// === Trait Declaration ===
+// visibility, doc, name, type_params, super_traits, methods, span
+type TraitDecl = | TraitDecl(Visibility, Option<String>, Ident, List<Ident>, List<TraitBound>, List<TraitMethod>, Span)
+
+// === Impl Declaration ===
+// type_params, constraints, trait_name, trait_args, target_type, methods, span
+type ImplDecl = | ImplDecl(List<Ident>, List<TraitConstraint>, Ident, List<TypeExpr>, TypeExpr, List<ImplMethod>, Span)
+
+// === Expressions ===
+
+type Expr =
+    | ExLiteral(Literal)
+    | ExVar(Ident)
+    | ExBinaryOp(BinaryOp, Expr, Expr, Span)
+    | ExUnaryOp(UnaryOp, Expr, Span)
+    | ExCall(Expr, List<Expr>, Span)
+    | ExEffectOp(Ident, Ident, List<Expr>, Span)
+    | ExField(Expr, Ident, Span)
+    | ExTupleIndex(Expr, Int, Span)
+    | ExLambda(List<Parameter>, Option<TypeExpr>, List<Ident>, Expr, Span)
+    | ExLet(Ident, Option<TypeExpr>, Expr, Expr, Span)
+    | ExIf(Expr, Expr, Expr, Span)
+    | ExMatch(Expr, List<MatchArm>, Span)
+    | ExBlock(List<Statement>, Expr, Span)
+    | ExRecord(Option<Expr>, List<(Ident, Expr)>, Span)
+    | ExTuple(List<Expr>, Span)
+    | ExList(List<Expr>, Span)
+    | ExRun(Expr, List<(Ident, Expr)>, Span)
+    | ExResume(Expr, Span)

scripts/validate.sh

@@ -63,6 +63,26 @@ for pkg in path frontmatter xml rss markdown; do
     fi
 done
 
+# --- Project checks ---
+PROJECTS_DIR="$(pwd)/projects"
+for proj_dir in "$PROJECTS_DIR"/*/; do
+    proj=$(basename "$proj_dir")
+    if [ -f "$proj_dir/main.lux" ]; then
+        step "lux check (project: $proj)"
+        OUTPUT=$("$LUX" check "$proj_dir/main.lux" 2>&1 || true)
+        if echo "$OUTPUT" | grep -qi "error"; then fail; else ok; fi
+    fi
+    # Check any standalone .lux files in the project
+    for lux_file in "$proj_dir"/*.lux; do
+        [ -f "$lux_file" ] || continue
+        fname=$(basename "$lux_file")
+        [ "$fname" = "main.lux" ] && continue
+        step "lux check (project: $proj/$fname)"
+        OUTPUT=$("$LUX" check "$lux_file" 2>&1 || true)
+        if echo "$OUTPUT" | grep -qi "error"; then fail; else ok; fi
+    done
+done
+
 # --- Summary ---
 printf "\n${BOLD}═══ Validation Summary ═══${NC}\n"
 if [ $FAILED -eq 0 ]; then

src/ast.rs

@@ -541,7 +541,9 @@ pub enum Expr {
         span: Span,
     },
     /// Record literal: { name: "Alice", age: 30 }
+    /// With optional spread: { ...base, name: "Bob" }
     Record {
+        spread: Option<Box<Expr>>,
         fields: Vec<(Ident, Expr)>,
         span: Span,
     },
@@ -622,6 +624,7 @@ pub enum BinaryOp {
     Or,
     // Other
     Pipe,   // |>
+    Concat, // ++
 }
 
 impl fmt::Display for BinaryOp {
@@ -641,6 +644,7 @@ impl fmt::Display for BinaryOp {
             BinaryOp::And => write!(f, "&&"),
             BinaryOp::Or => write!(f, "||"),
             BinaryOp::Pipe => write!(f, "|>"),
+            BinaryOp::Concat => write!(f, "++"),
         }
     }
 }

src/codegen/c_backend.rs

@@ -730,10 +730,10 @@ impl CBackend {
                 }
 
                 // Check for string concatenation - use lux_string_concat instead of +
-                if matches!(op, BinaryOp::Add) {
+                if matches!(op, BinaryOp::Add | BinaryOp::Concat) {
                     let left_is_string = self.infer_expr_type(left).as_deref() == Some("LuxString");
                     let right_is_string = self.infer_expr_type(right).as_deref() == Some("LuxString");
-                    if left_is_string || right_is_string {
+                    if left_is_string || right_is_string || matches!(op, BinaryOp::Concat) {
                         return Ok(format!("lux_string_concat({}, {})", l, r));
                     }
                 }
@@ -858,6 +858,7 @@ impl CBackend {
         self.writeln("#include <stdio.h>");
         self.writeln("#include <stdlib.h>");
         self.writeln("#include <string.h>");
+        self.writeln("#include <math.h>");
         self.writeln("");
         self.writeln("// === Lux Runtime Types ===");
         self.writeln("");
@@ -881,6 +882,14 @@ impl CBackend {
         self.writeln("    int64_t capacity;");
         self.writeln("};");
         self.writeln("");
+        self.writeln("// Map struct (linear-scan key-value table, string keys)");
+        self.writeln("typedef struct {");
+        self.writeln("    LuxString* keys;");
+        self.writeln("    void** values;");
+        self.writeln("    int64_t length;");
+        self.writeln("    int64_t capacity;");
+        self.writeln("} LuxMap;");
+        self.writeln("");
         self.writeln("// === Reference Counting Infrastructure ===");
         self.writeln("// Perceus-inspired RC system for automatic memory management.");
         self.writeln("// See docs/REFERENCE_COUNTING.md for details.");
@@ -2042,6 +2051,76 @@ impl CBackend {
         self.writeln("    return result;");
         self.writeln("}");
         self.writeln("");
+        // === Map Runtime Functions ===
+        self.writeln("static LuxMap* lux_map_new(int64_t capacity) {");
+        self.writeln("    LuxMap* map = (LuxMap*)malloc(sizeof(LuxMap));");
+        self.writeln("    map->capacity = capacity > 0 ? capacity : 8;");
+        self.writeln("    map->keys = (LuxString*)calloc(map->capacity, sizeof(LuxString));");
+        self.writeln("    map->values = (void**)calloc(map->capacity, sizeof(void*));");
+        self.writeln("    map->length = 0;");
+        self.writeln("    return map;");
+        self.writeln("}");
+        self.writeln("");
+        self.writeln("static int64_t lux_map_find(LuxMap* map, LuxString key) {");
+        self.writeln("    for (int64_t i = 0; i < map->length; i++) {");
+        self.writeln("        if (map->keys[i] && strcmp(map->keys[i], key) == 0) return i;");
+        self.writeln("    }");
+        self.writeln("    return -1;");
+        self.writeln("}");
+        self.writeln("");
+        self.writeln("static LuxMap* lux_map_clone(LuxMap* map) {");
+        self.writeln("    LuxMap* result = lux_map_new(map->capacity);");
+        self.writeln("    result->length = map->length;");
+        self.writeln("    for (int64_t i = 0; i < map->length; i++) {");
+        self.writeln("        result->keys[i] = lux_string_dup(map->keys[i]);");
+        self.writeln("        result->values[i] = map->values[i];");
+        self.writeln("        lux_incref(map->values[i]);");
+        self.writeln("    }");
+        self.writeln("    return result;");
+        self.writeln("}");
+        self.writeln("");
+        self.writeln("static LuxMap* lux_map_set(LuxMap* map, LuxString key, void* value) {");
+        self.writeln("    LuxMap* result = lux_map_clone(map);");
+        self.writeln("    int64_t idx = lux_map_find(result, key);");
+        self.writeln("    if (idx >= 0) {");
+        self.writeln("        lux_decref(result->values[idx]);");
+        self.writeln("        result->values[idx] = value;");
+        self.writeln("        lux_incref(value);");
+        self.writeln("    } else {");
+        self.writeln("        if (result->length >= result->capacity) {");
+        self.writeln("            result->capacity *= 2;");
+        self.writeln("            result->keys = (LuxString*)realloc(result->keys, sizeof(LuxString) * result->capacity);");
+        self.writeln("            result->values = (void**)realloc(result->values, sizeof(void*) * result->capacity);");
+        self.writeln("        }");
+        self.writeln("        result->keys[result->length] = lux_string_dup(key);");
+        self.writeln("        result->values[result->length] = value;");
+        self.writeln("        lux_incref(value);");
+        self.writeln("        result->length++;");
+        self.writeln("    }");
+        self.writeln("    return result;");
+        self.writeln("}");
+        self.writeln("");
+        self.writeln("static int64_t lux_map_size(LuxMap* map) { return map->length; }");
+        self.writeln("static LuxBool lux_map_isEmpty(LuxMap* map) { return map->length == 0; }");
+        self.writeln("");
+        self.writeln("static LuxBool lux_map_contains(LuxMap* map, LuxString key) {");
+        self.writeln("    return lux_map_find(map, key) >= 0;");
+        self.writeln("}");
+        self.writeln("");
+        self.writeln("static LuxMap* lux_map_remove(LuxMap* map, LuxString key) {");
+        self.writeln("    LuxMap* result = lux_map_new(map->capacity);");
+        self.writeln("    for (int64_t i = 0; i < map->length; i++) {");
+        self.writeln("        if (strcmp(map->keys[i], key) != 0) {");
+        self.writeln("            result->keys[result->length] = lux_string_dup(map->keys[i]);");
+        self.writeln("            result->values[result->length] = map->values[i];");
+        self.writeln("            lux_incref(map->values[i]);");
+        self.writeln("            result->length++;");
+        self.writeln("        }");
+        self.writeln("    }");
+        self.writeln("    return result;");
+        self.writeln("}");
+        self.writeln("");
+
         self.writeln("static Option lux_option_none(void) { return (Option){Option_TAG_NONE}; }");
         self.writeln("static Option lux_option_some(void* value) { return (Option){Option_TAG_SOME, .data.some = {value}}; }");
         self.writeln("");
@@ -2839,8 +2918,18 @@ impl CBackend {
                     }
                 }
 
+                // String concatenation for ++ and +
+                if matches!(op, BinaryOp::Add | BinaryOp::Concat) {
+                    let left_is_string = self.infer_expr_type(left).as_deref() == Some("LuxString");
+                    let right_is_string = self.infer_expr_type(right).as_deref() == Some("LuxString");
+                    if left_is_string || right_is_string || matches!(op, BinaryOp::Concat) {
+                        return Ok(format!("lux_string_concat({}, {})", l, r));
+                    }
+                }
+
                 let op_str = match op {
                     BinaryOp::Add => "+",
+                    BinaryOp::Concat => unreachable!("handled above"),
                     BinaryOp::Sub => "-",
                     BinaryOp::Mul => "*",
                     BinaryOp::Div => "/",
@@ -3003,6 +3092,9 @@ impl CBackend {
                         if module_name.name == "List" {
                             return self.emit_list_operation(&field.name, args);
                         }
+                        if module_name.name == "Map" {
+                            return self.emit_map_operation(&field.name, args);
+                        }
                         // Int module
                         if module_name.name == "Int" && field.name == "toString" {
                             let arg = self.emit_expr(&args[0])?;
@@ -3011,6 +3103,10 @@ impl CBackend {
                             self.register_rc_var(&temp, "LuxString");
                             return Ok(temp);
                         }
+                        if module_name.name == "Int" && field.name == "toFloat" {
+                            let arg = self.emit_expr(&args[0])?;
+                            return Ok(format!("((LuxFloat){})", arg));
+                        }
                         // Float module
                         if module_name.name == "Float" && field.name == "toString" {
                             let arg = self.emit_expr(&args[0])?;
@@ -3019,6 +3115,14 @@ impl CBackend {
                             self.register_rc_var(&temp, "LuxString");
                             return Ok(temp);
                         }
+                        if module_name.name == "Float" && field.name == "toInt" {
+                            let arg = self.emit_expr(&args[0])?;
+                            return Ok(format!("((LuxInt){})", arg));
+                        }
+                        // Math module
+                        if module_name.name == "Math" {
+                            return self.emit_math_operation(&field.name, args);
+                        }
                         // Check for user-defined module function
                         let key = (module_name.name.clone(), field.name.clone());
                         if let Some(c_name) = self.module_functions.get(&key).cloned() {
@@ -3364,6 +3468,10 @@ impl CBackend {
                             self.register_rc_var(&temp, "LuxString");
                             return Ok(temp);
                         }
+                        "toFloat" => {
+                            let arg = self.emit_expr(&args[0])?;
+                            return Ok(format!("((LuxFloat){})", arg));
+                        }
                         _ => {}
                     }
                 }
@@ -3378,10 +3486,24 @@ impl CBackend {
                             self.register_rc_var(&temp, "LuxString");
                             return Ok(temp);
                         }
+                        "toInt" => {
+                            let arg = self.emit_expr(&args[0])?;
+                            return Ok(format!("((LuxInt){})", arg));
+                        }
                         _ => {}
                     }
                 }
 
+                // Math module (treated as effect by parser but handled as direct C calls)
+                if effect.name == "Math" {
+                    return self.emit_math_operation(&operation.name, args);
+                }
+
+                // Map module
+                if effect.name == "Map" {
+                    return self.emit_map_operation(&operation.name, args);
+                }
+
                 // Built-in Console effect
                 if effect.name == "Console" {
                     if operation.name == "print" {
@@ -3844,13 +3966,35 @@ impl CBackend {
                 }
             }
 
-            Expr::Record { fields, .. } => {
+            Expr::Record {
-                let field_strs: Result<Vec<_>, _> = fields.iter().map(|(name, val)| {
+                spread, fields, ..
+            } => {
+                if let Some(spread_expr) = spread {
+                    // Evaluate spread source, then override fields
+                    let base = self.emit_expr(spread_expr)?;
+                    if fields.is_empty() {
+                        Ok(base)
+                    } else {
+                        // Copy spread into a temp, then override fields
+                        let temp = format!("_spread_{}", self.fresh_name());
+                        self.writeln(&format!("__auto_type {} = {};", temp, base));
+                        for (name, val) in fields {
+                            let v = self.emit_expr(val)?;
+                            self.writeln(&format!("{}.{} = {};", temp, name.name, v));
+                        }
+                        Ok(temp)
+                    }
+                } else {
+                    let field_strs: Result<Vec<_>, _> = fields
+                        .iter()
+                        .map(|(name, val)| {
                             let v = self.emit_expr(val)?;
                             Ok(format!(".{} = {}", name.name, v))
-                }).collect();
+                        })
+                        .collect();
                     Ok(format!("{{ {} }}", field_strs?.join(", ")))
                 }
+            }
 
             Expr::Field { object, field, .. } => {
                 let obj = self.emit_expr(object)?;
@@ -3919,6 +4063,64 @@ impl CBackend {
         }
     }
 
+    /// Emit code for Math module operations (Math.sin, Math.cos, etc.)
+    fn emit_math_operation(&mut self, op: &str, args: &[Expr]) -> Result<String, CGenError> {
+        match op {
+            "abs" => {
+                let x = self.emit_expr(&args[0])?;
+                Ok(format!("fabs({})", x))
+            }
+            "min" => {
+                let a = self.emit_expr(&args[0])?;
+                let b = self.emit_expr(&args[1])?;
+                Ok(format!("fmin({}, {})", a, b))
+            }
+            "max" => {
+                let a = self.emit_expr(&args[0])?;
+                let b = self.emit_expr(&args[1])?;
+                Ok(format!("fmax({}, {})", a, b))
+            }
+            "sqrt" => {
+                let x = self.emit_expr(&args[0])?;
+                Ok(format!("sqrt({})", x))
+            }
+            "pow" => {
+                let base = self.emit_expr(&args[0])?;
+                let exp = self.emit_expr(&args[1])?;
+                Ok(format!("pow({}, {})", base, exp))
+            }
+            "floor" => {
+                let x = self.emit_expr(&args[0])?;
+                Ok(format!("(int64_t)floor({})", x))
+            }
+            "ceil" => {
+                let x = self.emit_expr(&args[0])?;
+                Ok(format!("(int64_t)ceil({})", x))
+            }
+            "round" => {
+                let x = self.emit_expr(&args[0])?;
+                Ok(format!("(int64_t)round({})", x))
+            }
+            "sin" => {
+                let x = self.emit_expr(&args[0])?;
+                Ok(format!("sin({})", x))
+            }
+            "cos" => {
+                let x = self.emit_expr(&args[0])?;
+                Ok(format!("cos({})", x))
+            }
+            "atan2" => {
+                let y = self.emit_expr(&args[0])?;
+                let x = self.emit_expr(&args[1])?;
+                Ok(format!("atan2({}, {})", y, x))
+            }
+            _ => Err(CGenError {
+                message: format!("Math.{} not supported in C backend", op),
+                span: None,
+            }),
+        }
+    }
+
     /// Emit code for List module operations (List.map, List.filter, etc.)
     fn emit_list_operation(&mut self, op: &str, args: &[Expr]) -> Result<String, CGenError> {
         match op {
@@ -4420,6 +4622,140 @@ impl CBackend {
         }
     }
 
+    /// Emit code for Map module operations
+    fn emit_map_operation(&mut self, op: &str, args: &[Expr]) -> Result<String, CGenError> {
+        match op {
+            "new" => {
+                let temp = format!("_map_new_{}", self.fresh_name());
+                self.writeln(&format!("LuxMap* {} = lux_map_new(8);", temp));
+                Ok(temp)
+            }
+            "set" => {
+                let map = self.emit_expr(&args[0])?;
+                let key = self.emit_expr(&args[1])?;
+                let val = self.emit_expr(&args[2])?;
+                let boxed_val = self.box_value(&val, None);
+                let temp = format!("_map_set_{}", self.fresh_name());
+                self.writeln(&format!("LuxMap* {} = lux_map_set({}, {}, {});", temp, map, key, boxed_val));
+                Ok(temp)
+            }
+            "get" => {
+                let map = self.emit_expr(&args[0])?;
+                let key = self.emit_expr(&args[1])?;
+                let idx_temp = format!("_map_idx_{}", self.fresh_name());
+                let result_temp = format!("_map_get_{}", self.fresh_name());
+                self.writeln(&format!("int64_t {} = lux_map_find({}, {});", idx_temp, map, key));
+                self.writeln(&format!("Option {};", result_temp));
+                self.writeln(&format!("if ({} >= 0) {{", idx_temp));
+                self.indent += 1;
+                self.writeln(&format!("lux_incref({}->values[{}]);", map, idx_temp));
+                self.writeln(&format!("{} = lux_option_some({}->values[{}]);", result_temp, map, idx_temp));
+                self.indent -= 1;
+                self.writeln("} else {");
+                self.indent += 1;
+                self.writeln(&format!("{} = lux_option_none();", result_temp));
+                self.indent -= 1;
+                self.writeln("}");
+                Ok(result_temp)
+            }
+            "contains" => {
+                let map = self.emit_expr(&args[0])?;
+                let key = self.emit_expr(&args[1])?;
+                Ok(format!("lux_map_contains({}, {})", map, key))
+            }
+            "remove" => {
+                let map = self.emit_expr(&args[0])?;
+                let key = self.emit_expr(&args[1])?;
+                let temp = format!("_map_rm_{}", self.fresh_name());
+                self.writeln(&format!("LuxMap* {} = lux_map_remove({}, {});", temp, map, key));
+                Ok(temp)
+            }
+            "keys" => {
+                let map = self.emit_expr(&args[0])?;
+                let temp = format!("_map_keys_{}", self.fresh_name());
+                self.writeln(&format!("LuxList* {} = lux_list_new({}->length);", temp, map));
+                // Sort keys: simple insertion sort
+                self.writeln(&format!("for (int64_t _i = 0; _i < {}->length; _i++) {{", map));
+                self.indent += 1;
+                self.writeln(&format!("LuxString _ks = lux_string_dup({}->keys[_i]);", map));
+                self.writeln(&format!("lux_list_push({}, _ks);", temp));
+                self.indent -= 1;
+                self.writeln("}");
+                // Sort via bubble sort (small N)
+                self.writeln(&format!("for (int64_t _i = 0; _i < {}->length; _i++)", temp));
+                self.writeln(&format!("  for (int64_t _j = _i+1; _j < {}->length; _j++)", temp));
+                self.writeln(&format!("    if (strcmp({}->elements[_i], {}->elements[_j]) > 0) {{", temp, temp));
+                self.writeln(&format!("      void* _t = {}->elements[_i]; {}->elements[_i] = {}->elements[_j]; {}->elements[_j] = _t;", temp, temp, temp, temp));
+                self.writeln("    }");
+                Ok(temp)
+            }
+            "values" => {
+                let map = self.emit_expr(&args[0])?;
+                let temp = format!("_map_vals_{}", self.fresh_name());
+                self.writeln(&format!("LuxList* {} = lux_list_new({}->length);", temp, map));
+                // Sort by key first, then collect values
+                self.writeln(&format!("int64_t* _idx = (int64_t*)malloc(sizeof(int64_t) * {}->length);", map));
+                self.writeln(&format!("for (int64_t _i = 0; _i < {}->length; _i++) _idx[_i] = _i;", map));
+                self.writeln(&format!("for (int64_t _i = 0; _i < {}->length; _i++)", map));
+                self.writeln(&format!("  for (int64_t _j = _i+1; _j < {}->length; _j++)", map));
+                self.writeln(&format!("    if (strcmp({}->keys[_idx[_i]], {}->keys[_idx[_j]]) > 0) {{ int64_t _t = _idx[_i]; _idx[_i] = _idx[_j]; _idx[_j] = _t; }}", map, map));
+                self.writeln(&format!("for (int64_t _i = 0; _i < {}->length; _i++) {{", map));
+                self.indent += 1;
+                self.writeln(&format!("lux_incref({}->values[_idx[_i]]);", map));
+                self.writeln(&format!("lux_list_push({}, {}->values[_idx[_i]]);", temp, map));
+                self.indent -= 1;
+                self.writeln("}");
+                self.writeln("free(_idx);");
+                Ok(temp)
+            }
+            "size" => {
+                let map = self.emit_expr(&args[0])?;
+                Ok(format!("lux_map_size({})", map))
+            }
+            "isEmpty" => {
+                let map = self.emit_expr(&args[0])?;
+                Ok(format!("lux_map_isEmpty({})", map))
+            }
+            "fromList" => {
+                let list = self.emit_expr(&args[0])?;
+                let temp = format!("_map_fl_{}", self.fresh_name());
+                self.writeln(&format!("LuxMap* {} = lux_map_new({}->length);", temp, list));
+                self.writeln(&format!("for (int64_t _i = 0; _i < {}->length; _i++) {{", list));
+                self.indent += 1;
+                // Elements are tuples (boxed as void*) — we treat them as a simple 2-element struct
+                self.writeln("// Each element is a (String, V) tuple - not yet fully supported in C backend for Map");
+                self.indent -= 1;
+                self.writeln("}");
+                Ok(temp)
+            }
+            "toList" => {
+                let map = self.emit_expr(&args[0])?;
+                let temp = format!("_map_tl_{}", self.fresh_name());
+                self.writeln(&format!("LuxList* {} = lux_list_new({}->length);", temp, map));
+                self.writeln("// Map.toList not fully supported in C backend yet");
+                Ok(temp)
+            }
+            "merge" => {
+                let m1 = self.emit_expr(&args[0])?;
+                let m2 = self.emit_expr(&args[1])?;
+                let temp = format!("_map_merge_{}", self.fresh_name());
+                self.writeln(&format!("LuxMap* {} = lux_map_clone({});", temp, m1));
+                self.writeln(&format!("for (int64_t _i = 0; _i < {}->length; _i++) {{", m2));
+                self.indent += 1;
+                self.writeln(&format!("LuxMap* _next = lux_map_set({}, {}->keys[_i], {}->values[_i]);", temp, m2, m2));
+                self.writeln(&format!("free({}->keys); free({}->values); free({});", temp, temp, temp));
+                self.writeln(&format!("{} = _next;", temp));
+                self.indent -= 1;
+                self.writeln("}");
+                Ok(temp)
+            }
+            _ => Err(CGenError {
+                message: format!("Unsupported Map operation: {}", op),
+                span: None,
+            }),
+        }
+    }
+
     fn emit_expr_with_substitution(&mut self, expr: &Expr, from: &str, to: &str) -> Result<String, CGenError> {
         // Simple substitution - in a real implementation, this would be more sophisticated
         match expr {
@@ -4732,11 +5068,13 @@ impl CBackend {
                                 "toString" => return Some("LuxString".to_string()),
                                 "parse" => return Some("Option".to_string()),
                                 "abs" | "min" | "max" => return Some("LuxInt".to_string()),
+                                "toFloat" => return Some("LuxFloat".to_string()),
                                 _ => {}
                             },
                             "Float" => match field.name.as_str() {
                                 "toString" => return Some("LuxString".to_string()),
                                 "parse" => return Some("Option".to_string()),
+                                "toInt" => return Some("LuxInt".to_string()),
                                 _ => return Some("LuxFloat".to_string()),
                             },
                             _ => {
@@ -4788,6 +5126,7 @@ impl CBackend {
                 if effect.name == "Int" {
                     match operation.name.as_str() {
                         "toString" => return Some("LuxString".to_string()),
+                        "toFloat" => return Some("LuxFloat".to_string()),
                         _ => return None,
                     }
                 }
@@ -4795,6 +5134,7 @@ impl CBackend {
                 if effect.name == "Float" {
                     match operation.name.as_str() {
                         "toString" => return Some("LuxString".to_string()),
+                        "toInt" => return Some("LuxInt".to_string()),
                         _ => return None,
                     }
                 }
@@ -5821,7 +6161,10 @@ impl CBackend {
                 }
                 self.collect_free_vars(body, &inner_bound, free);
             }
-            Expr::Record { fields, .. } => {
+            Expr::Record { spread, fields, .. } => {
+                if let Some(spread_expr) = spread {
+                    self.collect_free_vars(spread_expr, bound, free);
+                }
                 for (_, val) in fields {
                     self.collect_free_vars(val, bound, free);
                 }

src/codegen/js_backend.rs

@@ -888,7 +888,8 @@ impl JsBackend {
         let prev_has_handlers = self.has_handlers;
         self.has_handlers = is_effectful;
 
-        // Clear var substitutions for this function
+        // Save and clear var substitutions for this function scope
+        let saved_substitutions = self.var_substitutions.clone();
         self.var_substitutions.clear();
 
         // Emit function body
@@ -896,6 +897,7 @@ impl JsBackend {
         self.writeln(&format!("return {};", body_code));
 
         self.has_handlers = prev_has_handlers;
+        self.var_substitutions = saved_substitutions;
 
         self.indent -= 1;
         self.writeln("}");
@@ -909,13 +911,16 @@ impl JsBackend {
         let val = self.emit_expr(&let_decl.value)?;
         let var_name = &let_decl.name.name;
 
-        // Check if this is a run expression (often results in undefined)
+        if var_name == "_" {
-        // We still want to execute it for its side effects
+            // Wildcard binding: just execute for side effects
+            self.writeln(&format!("{};", val));
+        } else {
             self.writeln(&format!("const {} = {};", var_name, val));
 
             // Register the variable for future use
             self.var_substitutions
                 .insert(var_name.clone(), var_name.clone());
+        }
 
         Ok(())
     }
@@ -954,12 +959,17 @@ impl JsBackend {
                 let r = self.emit_expr(right)?;
 
                 // Check for string concatenation
-                if matches!(op, BinaryOp::Add) {
+                if matches!(op, BinaryOp::Add | BinaryOp::Concat) {
                     if self.is_string_expr(left) || self.is_string_expr(right) {
                         return Ok(format!("({} + {})", l, r));
                     }
                 }
 
+                // ++ on lists: use .concat()
+                if matches!(op, BinaryOp::Concat) {
+                    return Ok(format!("{}.concat({})", l, r));
+                }
+
                 let op_str = match op {
                     BinaryOp::Add => "+",
                     BinaryOp::Sub => "-",
@@ -974,6 +984,7 @@ impl JsBackend {
                     BinaryOp::Ge => ">=",
                     BinaryOp::And => "&&",
                     BinaryOp::Or => "||",
+                    BinaryOp::Concat => unreachable!("handled above"),
                     BinaryOp::Pipe => {
                         // Pipe operator: x |> f becomes f(x)
                         return Ok(format!("{}({})", r, l));
@@ -1034,6 +1045,11 @@ impl JsBackend {
                 name, value, body, ..
             } => {
                 let val = self.emit_expr(value)?;
+
+                if name.name == "_" {
+                    // Wildcard binding: just execute for side effects
+                    self.writeln(&format!("{};", val));
+                } else {
                     let var_name = format!("{}_{}", name.name, self.fresh_name());
 
                     self.writeln(&format!("const {} = {};", var_name, val));
@@ -1041,11 +1057,14 @@ impl JsBackend {
                     // Add substitution
                     self.var_substitutions
                         .insert(name.name.clone(), var_name.clone());
+                }
 
                 let body_result = self.emit_expr(body)?;
 
                 // Remove substitution
+                if name.name != "_" {
                     self.var_substitutions.remove(&name.name);
+                }
 
                 Ok(body_result)
             }
@@ -1057,6 +1076,31 @@ impl JsBackend {
                         if module_name.name == "List" {
                             return self.emit_list_operation(&field.name, args);
                         }
+                        if module_name.name == "Map" {
+                            return self.emit_map_operation(&field.name, args);
+                        }
+                    }
+                }
+
+                // Int/Float module operations
+                if let Expr::Field { object, field, .. } = func.as_ref() {
+                    if let Expr::Var(module_name) = object.as_ref() {
+                        if module_name.name == "Int" {
+                            let arg = self.emit_expr(&args[0])?;
+                            match field.name.as_str() {
+                                "toFloat" => return Ok(arg),
+                                "toString" => return Ok(format!("String({})", arg)),
+                                _ => {}
+                            }
+                        }
+                        if module_name.name == "Float" {
+                            let arg = self.emit_expr(&args[0])?;
+                            match field.name.as_str() {
+                                "toInt" => return Ok(format!("Math.trunc({})", arg)),
+                                "toString" => return Ok(format!("String({})", arg)),
+                                _ => {}
+                            }
+                        }
                     }
                 }
 
@@ -1066,6 +1110,10 @@ impl JsBackend {
                         let arg = self.emit_expr(&args[0])?;
                         return Ok(format!("String({})", arg));
                     }
+                    if ident.name == "print" {
+                        let arg = self.emit_expr(&args[0])?;
+                        return Ok(format!("console.log({})", arg));
+                    }
                 }
 
                 let arg_strs: Result<Vec<_>, _> = args.iter().map(|a| self.emit_expr(a)).collect();
@@ -1142,6 +1190,26 @@ impl JsBackend {
                     return self.emit_math_operation(&operation.name, args);
                 }
 
+                // Special case: Int module operations
+                if effect.name == "Int" {
+                    let arg = self.emit_expr(&args[0])?;
+                    match operation.name.as_str() {
+                        "toFloat" => return Ok(arg), // JS numbers are already floats
+                        "toString" => return Ok(format!("String({})", arg)),
+                        _ => {}
+                    }
+                }
+
+                // Special case: Float module operations
+                if effect.name == "Float" {
+                    let arg = self.emit_expr(&args[0])?;
+                    match operation.name.as_str() {
+                        "toInt" => return Ok(format!("Math.trunc({})", arg)),
+                        "toString" => return Ok(format!("String({})", arg)),
+                        _ => {}
+                    }
+                }
+
                 // Special case: Result module operations (not an effect)
                 if effect.name == "Result" {
                     return self.emit_result_operation(&operation.name, args);
@@ -1152,6 +1220,11 @@ impl JsBackend {
                     return self.emit_json_operation(&operation.name, args);
                 }
 
+                // Special case: Map module operations (not an effect)
+                if effect.name == "Map" {
+                    return self.emit_map_operation(&operation.name, args);
+                }
+
                 // Special case: Html module operations (not an effect)
                 if effect.name == "Html" {
                     return self.emit_html_operation(&operation.name, args);
@@ -1197,18 +1270,39 @@ impl JsBackend {
                     param_names
                 };
 
-                // Save handler state
+                // Save state
                 let prev_has_handlers = self.has_handlers;
+                let saved_substitutions = self.var_substitutions.clone();
                 self.has_handlers = !effects.is_empty();
 
+                // Register lambda params as themselves (override any outer substitutions)
+                for p in &all_params {
+                    self.var_substitutions.insert(p.clone(), p.clone());
+                }
+
+                // Capture any statements emitted during body evaluation
+                let output_start = self.output.len();
+                let prev_indent = self.indent;
+                self.indent += 1;
+
                 let body_code = self.emit_expr(body)?;
+                self.writeln(&format!("return {};", body_code));
 
+                // Extract body statements and restore output
+                let body_statements = self.output[output_start..].to_string();
+                self.output.truncate(output_start);
+                self.indent = prev_indent;
+
+                // Restore state
                 self.has_handlers = prev_has_handlers;
+                self.var_substitutions = saved_substitutions;
 
+                let indent_str = "    ".repeat(self.indent);
                 Ok(format!(
-                    "(function({}) {{ return {}; }})",
+                    "(function({}) {{\n{}{}}})",
                     all_params.join(", "),
-                    body_code
+                    body_statements,
+                    indent_str,
                 ))
             }
 
@@ -1228,27 +1322,36 @@ impl JsBackend {
                         }
                         Statement::Let { name, value, .. } => {
                             let val = self.emit_expr(value)?;
-                            let var_name = format!("{}_{}", name.name, self.fresh_name());
+                            if name.name == "_" {
+                                self.writeln(&format!("{};", val));
+                            } else {
+                                let var_name =
+                                    format!("{}_{}", name.name, self.fresh_name());
                                 self.writeln(&format!("const {} = {};", var_name, val));
                                 self.var_substitutions
                                     .insert(name.name.clone(), var_name.clone());
                             }
                         }
                     }
+                }
 
                 // Emit result
                 self.emit_expr(result)
             }
 
-            Expr::Record { fields, .. } => {
+            Expr::Record {
-                let field_strs: Result<Vec<_>, _> = fields
+                spread, fields, ..
-                    .iter()
+            } => {
-                    .map(|(name, expr)| {
+                let mut parts = Vec::new();
+                if let Some(spread_expr) = spread {
+                    let spread_code = self.emit_expr(spread_expr)?;
+                    parts.push(format!("...{}", spread_code));
+                }
+                for (name, expr) in fields {
                     let val = self.emit_expr(expr)?;
-                        Ok(format!("{}: {}", name.name, val))
+                    parts.push(format!("{}: {}", name.name, val));
-                    })
+                }
-                    .collect();
+                Ok(format!("{{ {} }}", parts.join(", ")))
-                Ok(format!("{{ {} }}", field_strs?.join(", ")))
             }
 
             Expr::Tuple { elements, .. } => {
@@ -2067,6 +2170,86 @@ impl JsBackend {
         }
     }
 
+    /// Emit Map module operations using JS Map
+    fn emit_map_operation(
+        &mut self,
+        operation: &str,
+        args: &[Expr],
+    ) -> Result<String, JsGenError> {
+        match operation {
+            "new" => Ok("new Map()".to_string()),
+            "set" => {
+                let map = self.emit_expr(&args[0])?;
+                let key = self.emit_expr(&args[1])?;
+                let val = self.emit_expr(&args[2])?;
+                Ok(format!(
+                    "(function() {{ var m = new Map({}); m.set({}, {}); return m; }})()",
+                    map, key, val
+                ))
+            }
+            "get" => {
+                let map = self.emit_expr(&args[0])?;
+                let key = self.emit_expr(&args[1])?;
+                Ok(format!(
+                    "({0}.has({1}) ? Lux.Some({0}.get({1})) : Lux.None())",
+                    map, key
+                ))
+            }
+            "contains" => {
+                let map = self.emit_expr(&args[0])?;
+                let key = self.emit_expr(&args[1])?;
+                Ok(format!("{}.has({})", map, key))
+            }
+            "remove" => {
+                let map = self.emit_expr(&args[0])?;
+                let key = self.emit_expr(&args[1])?;
+                Ok(format!(
+                    "(function() {{ var m = new Map({}); m.delete({}); return m; }})()",
+                    map, key
+                ))
+            }
+            "keys" => {
+                let map = self.emit_expr(&args[0])?;
+                Ok(format!("Array.from({}.keys()).sort()", map))
+            }
+            "values" => {
+                let map = self.emit_expr(&args[0])?;
+                Ok(format!(
+                    "Array.from({0}.entries()).sort(function(a,b) {{ return a[0] < b[0] ? -1 : a[0] > b[0] ? 1 : 0; }}).map(function(e) {{ return e[1]; }})",
+                    map
+                ))
+            }
+            "size" => {
+                let map = self.emit_expr(&args[0])?;
+                Ok(format!("{}.size", map))
+            }
+            "isEmpty" => {
+                let map = self.emit_expr(&args[0])?;
+                Ok(format!("({}.size === 0)", map))
+            }
+            "fromList" => {
+                let list = self.emit_expr(&args[0])?;
+                Ok(format!("new Map({}.map(function(t) {{ return [t[0], t[1]]; }}))", list))
+            }
+            "toList" => {
+                let map = self.emit_expr(&args[0])?;
+                Ok(format!(
+                    "Array.from({}.entries()).sort(function(a,b) {{ return a[0] < b[0] ? -1 : a[0] > b[0] ? 1 : 0; }})",
+                    map
+                ))
+            }
+            "merge" => {
+                let m1 = self.emit_expr(&args[0])?;
+                let m2 = self.emit_expr(&args[1])?;
+                Ok(format!("new Map([...{}, ...{}])", m1, m2))
+            }
+            _ => Err(JsGenError {
+                message: format!("Unknown Map operation: {}", operation),
+                span: None,
+            }),
+        }
+    }
+
     /// Emit Html module operations for type-safe HTML construction
     fn emit_html_operation(
         &mut self,
@@ -2338,7 +2521,7 @@ impl JsBackend {
                 }
             }
             Expr::BinaryOp { op, left, right, .. } => {
-                matches!(op, BinaryOp::Add)
+                matches!(op, BinaryOp::Add | BinaryOp::Concat)
                     && (self.is_string_expr(left) || self.is_string_expr(right))
             }
             _ => false,

src/formatter.rs

@@ -688,15 +688,17 @@ impl Formatter {
                         .join(", ")
                 )
             }
-            Expr::Record { fields, .. } => {
+            Expr::Record {
-                format!(
+                spread, fields, ..
-                    "{{ {} }}",
+            } => {
-                    fields
+                let mut parts = Vec::new();
-                        .iter()
+                if let Some(spread_expr) = spread {
-                        .map(|(name, val)| format!("{}: {}", name.name, self.format_expr(val)))
+                    parts.push(format!("...{}", self.format_expr(spread_expr)));
-                        .collect::<Vec<_>>()
+                }
-                        .join(", ")
+                for (name, val) in fields {
-                )
+                    parts.push(format!("{}: {}", name.name, self.format_expr(val)));
+                }
+                format!("{{ {} }}", parts.join(", "))
             }
             Expr::EffectOp { effect, operation, args, .. } => {
                 format!(
@@ -753,6 +755,7 @@ impl Formatter {
             BinaryOp::Ge => ">=",
             BinaryOp::And => "&&",
             BinaryOp::Or => "||",
+            BinaryOp::Concat => "++",
             BinaryOp::Pipe => "|>",
         }
     }

src/interpreter.rs

@@ -74,6 +74,9 @@ pub enum BuiltinFn {
     MathFloor,
     MathCeil,
     MathRound,
+    MathSin,
+    MathCos,
+    MathAtan2,
 
     // Additional List operations
     ListIsEmpty,
@@ -97,7 +100,9 @@ pub enum BuiltinFn {
 
     // Int/Float operations
     IntToString,
+    IntToFloat,
     FloatToString,
+    FloatToInt,
 
     // JSON operations
     JsonParse,
@@ -119,6 +124,20 @@ pub enum BuiltinFn {
     JsonString,
     JsonArray,
     JsonObject,
+
+    // Map operations
+    MapNew,
+    MapSet,
+    MapGet,
+    MapContains,
+    MapRemove,
+    MapKeys,
+    MapValues,
+    MapSize,
+    MapIsEmpty,
+    MapFromList,
+    MapToList,
+    MapMerge,
 }
 
 /// Runtime value
@@ -133,6 +152,7 @@ pub enum Value {
     List(Vec<Value>),
     Tuple(Vec<Value>),
     Record(HashMap<String, Value>),
+    Map(HashMap<String, Value>),
     Function(Rc<Closure>),
     Handler(Rc<HandlerValue>),
     /// Built-in function
@@ -164,6 +184,7 @@ impl Value {
             Value::List(_) => "List",
             Value::Tuple(_) => "Tuple",
             Value::Record(_) => "Record",
+            Value::Map(_) => "Map",
             Value::Function(_) => "Function",
             Value::Handler(_) => "Handler",
             Value::Builtin(_) => "Function",
@@ -212,6 +233,11 @@ impl Value {
                     ys.get(k).map(|yv| Value::values_equal(v, yv)).unwrap_or(false)
                 })
             }
+            (Value::Map(xs), Value::Map(ys)) => {
+                xs.len() == ys.len() && xs.iter().all(|(k, v)| {
+                    ys.get(k).map(|yv| Value::values_equal(v, yv)).unwrap_or(false)
+                })
+            }
             (Value::Constructor { name: n1, fields: f1 }, Value::Constructor { name: n2, fields: f2 }) => {
                 n1 == n2 && f1.len() == f2.len() && f1.iter().zip(f2.iter()).all(|(x, y)| Value::values_equal(x, y))
             }
@@ -282,6 +308,16 @@ impl TryFromValue for Vec<Value> {
     }
 }
 
+impl TryFromValue for HashMap<String, Value> {
+    const TYPE_NAME: &'static str = "Map";
+    fn try_from_value(value: &Value) -> Option<Self> {
+        match value {
+            Value::Map(m) => Some(m.clone()),
+            _ => None,
+        }
+    }
+}
+
 impl TryFromValue for Value {
     const TYPE_NAME: &'static str = "any";
     fn try_from_value(value: &Value) -> Option<Self> {
@@ -328,6 +364,18 @@ impl fmt::Display for Value {
                 }
                 write!(f, " }}")
             }
+            Value::Map(entries) => {
+                write!(f, "Map {{")?;
+                let mut sorted: Vec<_> = entries.iter().collect();
+                sorted.sort_by_key(|(k, _)| (*k).clone());
+                for (i, (key, value)) in sorted.iter().enumerate() {
+                    if i > 0 {
+                        write!(f, ", ")?;
+                    }
+                    write!(f, "\"{}\": {}", key, value)?;
+                }
+                write!(f, "}}")
+            }
             Value::Function(_) => write!(f, "<function>"),
             Value::Builtin(b) => write!(f, "<builtin:{:?}>", b),
             Value::Handler(_) => write!(f, "<handler>"),
@@ -1072,18 +1120,23 @@ impl Interpreter {
             ("floor".to_string(), Value::Builtin(BuiltinFn::MathFloor)),
             ("ceil".to_string(), Value::Builtin(BuiltinFn::MathCeil)),
             ("round".to_string(), Value::Builtin(BuiltinFn::MathRound)),
+            ("sin".to_string(), Value::Builtin(BuiltinFn::MathSin)),
+            ("cos".to_string(), Value::Builtin(BuiltinFn::MathCos)),
+            ("atan2".to_string(), Value::Builtin(BuiltinFn::MathAtan2)),
         ]));
         env.define("Math", math_module);
 
         // Int module
         let int_module = Value::Record(HashMap::from([
             ("toString".to_string(), Value::Builtin(BuiltinFn::IntToString)),
+            ("toFloat".to_string(), Value::Builtin(BuiltinFn::IntToFloat)),
         ]));
         env.define("Int", int_module);
 
         // Float module
         let float_module = Value::Record(HashMap::from([
             ("toString".to_string(), Value::Builtin(BuiltinFn::FloatToString)),
+            ("toInt".to_string(), Value::Builtin(BuiltinFn::FloatToInt)),
         ]));
         env.define("Float", float_module);
 
@@ -1110,16 +1163,72 @@ impl Interpreter {
             ("object".to_string(), Value::Builtin(BuiltinFn::JsonObject)),
         ]));
         env.define("Json", json_module);
+
+        // Map module
+        let map_module = Value::Record(HashMap::from([
+            ("new".to_string(), Value::Builtin(BuiltinFn::MapNew)),
+            ("set".to_string(), Value::Builtin(BuiltinFn::MapSet)),
+            ("get".to_string(), Value::Builtin(BuiltinFn::MapGet)),
+            ("contains".to_string(), Value::Builtin(BuiltinFn::MapContains)),
+            ("remove".to_string(), Value::Builtin(BuiltinFn::MapRemove)),
+            ("keys".to_string(), Value::Builtin(BuiltinFn::MapKeys)),
+            ("values".to_string(), Value::Builtin(BuiltinFn::MapValues)),
+            ("size".to_string(), Value::Builtin(BuiltinFn::MapSize)),
+            ("isEmpty".to_string(), Value::Builtin(BuiltinFn::MapIsEmpty)),
+            ("fromList".to_string(), Value::Builtin(BuiltinFn::MapFromList)),
+            ("toList".to_string(), Value::Builtin(BuiltinFn::MapToList)),
+            ("merge".to_string(), Value::Builtin(BuiltinFn::MapMerge)),
+        ]));
+        env.define("Map", map_module);
     }
 
     /// Execute a program
     pub fn run(&mut self, program: &Program) -> Result<Value, RuntimeError> {
         let mut last_value = Value::Unit;
+        let mut has_main_let = false;
 
         for decl in &program.declarations {
+            // Track if there's a top-level `let main = ...`
+            if let Declaration::Let(let_decl) = decl {
+                if let_decl.name.name == "main" {
+                    has_main_let = true;
+                }
+            }
             last_value = self.eval_declaration(decl)?;
         }
 
+        // Auto-invoke main if it was defined as a let binding with a function value
+        if has_main_let {
+            if let Some(main_val) = self.global_env.get("main") {
+                if let Value::Function(ref closure) = main_val {
+                    if closure.params.is_empty() {
+                        let span = Span { start: 0, end: 0 };
+                        let mut result = self.eval_call(main_val.clone(), vec![], span)?;
+                        // Trampoline loop
+                        loop {
+                            match result {
+                                EvalResult::Value(v) => {
+                                    last_value = v;
+                                    break;
+                                }
+                                EvalResult::Effect(req) => {
+                                    last_value = self.handle_effect(req)?;
+                                    break;
+                                }
+                                EvalResult::TailCall { func, args, span } => {
+                                    result = self.eval_call(func, args, span)?;
+                                }
+                                EvalResult::Resume(v) => {
+                                    last_value = v;
+                                    break;
+                                }
+                            }
+                        }
+                    }
+                }
+            }
+        }
+
         Ok(last_value)
     }
 
@@ -1525,8 +1634,28 @@ impl Interpreter {
                 self.eval_expr_tail(result, &block_env, tail)
             }
 
-            Expr::Record { fields, .. } => {
+            Expr::Record {
+                spread, fields, ..
+            } => {
                 let mut record = HashMap::new();
+
+                // If there's a spread, evaluate it and start with its fields
+                if let Some(spread_expr) = spread {
+                    let spread_val = self.eval_expr(spread_expr, env)?;
+                    if let Value::Record(spread_fields) = spread_val {
+                        record = spread_fields;
+                    } else {
+                        return Err(RuntimeError {
+                            message: format!(
+                                "Spread expression must evaluate to a record, got {}",
+                                spread_val.type_name()
+                            ),
+                            span: Some(expr.span()),
+                        });
+                    }
+                }
+
+                // Override with explicit fields
                 for (name, expr) in fields {
                     let val = self.eval_expr(expr, env)?;
                     record.insert(name.name.clone(), val);
@@ -1599,6 +1728,18 @@ impl Interpreter {
                     span: Some(span),
                 }),
             },
+            BinaryOp::Concat => match (left, right) {
+                (Value::String(a), Value::String(b)) => Ok(Value::String(a + &b)),
+                (Value::List(a), Value::List(b)) => {
+                    let mut result = a;
+                    result.extend(b);
+                    Ok(Value::List(result))
+                }
+                (l, r) => Err(RuntimeError {
+                    message: format!("Cannot concatenate {} and {}", l.type_name(), r.type_name()),
+                    span: Some(span),
+                }),
+            },
             BinaryOp::Sub => match (left, right) {
                 (Value::Int(a), Value::Int(b)) => Ok(Value::Int(a - b)),
                 (Value::Float(a), Value::Float(b)) => Ok(Value::Float(a - b)),
@@ -2287,6 +2428,26 @@ impl Interpreter {
                 }
             }
 
+            BuiltinFn::IntToFloat => {
+                if args.len() != 1 {
+                    return Err(err("Int.toFloat requires 1 argument"));
+                }
+                match &args[0] {
+                    Value::Int(n) => Ok(EvalResult::Value(Value::Float(*n as f64))),
+                    v => Err(err(&format!("Int.toFloat expects Int, got {}", v.type_name()))),
+                }
+            }
+
+            BuiltinFn::FloatToInt => {
+                if args.len() != 1 {
+                    return Err(err("Float.toInt requires 1 argument"));
+                }
+                match &args[0] {
+                    Value::Float(f) => Ok(EvalResult::Value(Value::Int(*f as i64))),
+                    v => Err(err(&format!("Float.toInt expects Float, got {}", v.type_name()))),
+                }
+            }
+
             BuiltinFn::TypeOf => {
                 if args.len() != 1 {
                     return Err(err("typeOf requires 1 argument"));
@@ -2463,6 +2624,45 @@ impl Interpreter {
                 }
             }
 
+            BuiltinFn::MathSin => {
+                if args.len() != 1 {
+                    return Err(err("Math.sin requires 1 argument"));
+                }
+                match &args[0] {
+                    Value::Float(n) => Ok(EvalResult::Value(Value::Float(n.sin()))),
+                    Value::Int(n) => Ok(EvalResult::Value(Value::Float((*n as f64).sin()))),
+                    v => Err(err(&format!("Math.sin expects number, got {}", v.type_name()))),
+                }
+            }
+
+            BuiltinFn::MathCos => {
+                if args.len() != 1 {
+                    return Err(err("Math.cos requires 1 argument"));
+                }
+                match &args[0] {
+                    Value::Float(n) => Ok(EvalResult::Value(Value::Float(n.cos()))),
+                    Value::Int(n) => Ok(EvalResult::Value(Value::Float((*n as f64).cos()))),
+                    v => Err(err(&format!("Math.cos expects number, got {}", v.type_name()))),
+                }
+            }
+
+            BuiltinFn::MathAtan2 => {
+                if args.len() != 2 {
+                    return Err(err("Math.atan2 requires 2 arguments: y, x"));
+                }
+                let y = match &args[0] {
+                    Value::Float(n) => *n,
+                    Value::Int(n) => *n as f64,
+                    v => return Err(err(&format!("Math.atan2 expects number, got {}", v.type_name()))),
+                };
+                let x = match &args[1] {
+                    Value::Float(n) => *n,
+                    Value::Int(n) => *n as f64,
+                    v => return Err(err(&format!("Math.atan2 expects number, got {}", v.type_name()))),
+                };
+                Ok(EvalResult::Value(Value::Float(y.atan2(x))))
+            }
+
             // Additional List operations
             BuiltinFn::ListIsEmpty => {
                 let list = Self::expect_arg_1::<Vec<Value>>(&args, "List.isEmpty", span)?;
@@ -2952,6 +3152,128 @@ impl Interpreter {
                 }
                 Ok(EvalResult::Value(Value::Json(serde_json::Value::Object(map))))
             }
+
+            // Map operations
+            BuiltinFn::MapNew => {
+                Ok(EvalResult::Value(Value::Map(HashMap::new())))
+            }
+
+            BuiltinFn::MapSet => {
+                if args.len() != 3 {
+                    return Err(err("Map.set requires 3 arguments: map, key, value"));
+                }
+                let mut map = match &args[0] {
+                    Value::Map(m) => m.clone(),
+                    v => return Err(err(&format!("Map.set expects Map as first argument, got {}", v.type_name()))),
+                };
+                let key = match &args[1] {
+                    Value::String(s) => s.clone(),
+                    v => return Err(err(&format!("Map.set expects String key, got {}", v.type_name()))),
+                };
+                map.insert(key, args[2].clone());
+                Ok(EvalResult::Value(Value::Map(map)))
+            }
+
+            BuiltinFn::MapGet => {
+                let (map, key) = Self::expect_args_2::<HashMap<String, Value>, String>(&args, "Map.get", span)?;
+                match map.get(&key) {
+                    Some(v) => Ok(EvalResult::Value(Value::Constructor {
+                        name: "Some".to_string(),
+                        fields: vec![v.clone()],
+                    })),
+                    None => Ok(EvalResult::Value(Value::Constructor {
+                        name: "None".to_string(),
+                        fields: vec![],
+                    })),
+                }
+            }
+
+            BuiltinFn::MapContains => {
+                let (map, key) = Self::expect_args_2::<HashMap<String, Value>, String>(&args, "Map.contains", span)?;
+                Ok(EvalResult::Value(Value::Bool(map.contains_key(&key))))
+            }
+
+            BuiltinFn::MapRemove => {
+                let (mut map, key) = Self::expect_args_2::<HashMap<String, Value>, String>(&args, "Map.remove", span)?;
+                map.remove(&key);
+                Ok(EvalResult::Value(Value::Map(map)))
+            }
+
+            BuiltinFn::MapKeys => {
+                let map = Self::expect_arg_1::<HashMap<String, Value>>(&args, "Map.keys", span)?;
+                let mut keys: Vec<String> = map.keys().cloned().collect();
+                keys.sort();
+                Ok(EvalResult::Value(Value::List(
+                    keys.into_iter().map(Value::String).collect(),
+                )))
+            }
+
+            BuiltinFn::MapValues => {
+                let map = Self::expect_arg_1::<HashMap<String, Value>>(&args, "Map.values", span)?;
+                let mut entries: Vec<(String, Value)> = map.into_iter().collect();
+                entries.sort_by(|(a, _), (b, _)| a.cmp(b));
+                Ok(EvalResult::Value(Value::List(
+                    entries.into_iter().map(|(_, v)| v).collect(),
+                )))
+            }
+
+            BuiltinFn::MapSize => {
+                let map = Self::expect_arg_1::<HashMap<String, Value>>(&args, "Map.size", span)?;
+                Ok(EvalResult::Value(Value::Int(map.len() as i64)))
+            }
+
+            BuiltinFn::MapIsEmpty => {
+                let map = Self::expect_arg_1::<HashMap<String, Value>>(&args, "Map.isEmpty", span)?;
+                Ok(EvalResult::Value(Value::Bool(map.is_empty())))
+            }
+
+            BuiltinFn::MapFromList => {
+                let list = Self::expect_arg_1::<Vec<Value>>(&args, "Map.fromList", span)?;
+                let mut map = HashMap::new();
+                for item in list {
+                    match item {
+                        Value::Tuple(fields) if fields.len() == 2 => {
+                            let key = match &fields[0] {
+                                Value::String(s) => s.clone(),
+                                v => return Err(err(&format!("Map.fromList expects (String, V) tuples, got {} key", v.type_name()))),
+                            };
+                            map.insert(key, fields[1].clone());
+                        }
+                        _ => return Err(err("Map.fromList expects List<(String, V)>")),
+                    }
+                }
+                Ok(EvalResult::Value(Value::Map(map)))
+            }
+
+            BuiltinFn::MapToList => {
+                let map = Self::expect_arg_1::<HashMap<String, Value>>(&args, "Map.toList", span)?;
+                let mut entries: Vec<(String, Value)> = map.into_iter().collect();
+                entries.sort_by(|(a, _), (b, _)| a.cmp(b));
+                Ok(EvalResult::Value(Value::List(
+                    entries
+                        .into_iter()
+                        .map(|(k, v)| Value::Tuple(vec![Value::String(k), v]))
+                        .collect(),
+                )))
+            }
+
+            BuiltinFn::MapMerge => {
+                if args.len() != 2 {
+                    return Err(err("Map.merge requires 2 arguments: map1, map2"));
+                }
+                let mut map1 = match &args[0] {
+                    Value::Map(m) => m.clone(),
+                    v => return Err(err(&format!("Map.merge expects Map as first argument, got {}", v.type_name()))),
+                };
+                let map2 = match &args[1] {
+                    Value::Map(m) => m.clone(),
+                    v => return Err(err(&format!("Map.merge expects Map as second argument, got {}", v.type_name()))),
+                };
+                for (k, v) in map2 {
+                    map1.insert(k, v);
+                }
+                Ok(EvalResult::Value(Value::Map(map1)))
+            }
         }
     }
 
@@ -3117,6 +3439,11 @@ impl Interpreter {
                     b.get(k).map(|bv| self.values_equal(v, bv)).unwrap_or(false)
                 })
             }
+            (Value::Map(a), Value::Map(b)) => {
+                a.len() == b.len() && a.iter().all(|(k, v)| {
+                    b.get(k).map(|bv| self.values_equal(v, bv)).unwrap_or(false)
+                })
+            }
             (
                 Value::Constructor {
                     name: n1,
@@ -5044,6 +5371,7 @@ mod tests {
         // Create a simple migration that adds a field
         // Migration: old.name -> { name: old.name, email: "unknown" }
         let migration_body = Expr::Record {
+            spread: None,
             fields: vec![
                 (
                     Ident::new("name", Span::default()),

src/lexer.rs

@@ -70,6 +70,7 @@ pub enum TokenKind {
 
     // Operators
     Plus,       // +
+    PlusPlus,   // ++
     Minus,      // -
     Star,       // *
     Slash,      // /
@@ -89,6 +90,7 @@ pub enum TokenKind {
     Arrow,      // =>
     ThinArrow,  // ->
     Dot,        // .
+    DotDotDot,  // ...
     Colon,      // :
     ColonColon, // ::
     Comma,      // ,
@@ -160,6 +162,7 @@ impl fmt::Display for TokenKind {
             TokenKind::True => write!(f, "true"),
             TokenKind::False => write!(f, "false"),
             TokenKind::Plus => write!(f, "+"),
+            TokenKind::PlusPlus => write!(f, "++"),
             TokenKind::Minus => write!(f, "-"),
             TokenKind::Star => write!(f, "*"),
             TokenKind::Slash => write!(f, "/"),
@@ -179,6 +182,7 @@ impl fmt::Display for TokenKind {
             TokenKind::Arrow => write!(f, "=>"),
             TokenKind::ThinArrow => write!(f, "->"),
             TokenKind::Dot => write!(f, "."),
+            TokenKind::DotDotDot => write!(f, "..."),
             TokenKind::Colon => write!(f, ":"),
             TokenKind::ColonColon => write!(f, "::"),
             TokenKind::Comma => write!(f, ","),
@@ -268,7 +272,14 @@ impl<'a> Lexer<'a> {
 
         let kind = match c {
             // Single-character tokens
-            '+' => TokenKind::Plus,
+            '+' => {
+                if self.peek() == Some('+') {
+                    self.advance();
+                    TokenKind::PlusPlus
+                } else {
+                    TokenKind::Plus
+                }
+            }
             '*' => TokenKind::Star,
             '%' => TokenKind::Percent,
             '(' => TokenKind::LParen,
@@ -364,7 +375,22 @@ impl<'a> Lexer<'a> {
                     TokenKind::Pipe
                 }
             }
-            '.' => TokenKind::Dot,
+            '.' => {
+                if self.peek() == Some('.') {
+                    // Check for ... (need to peek past second dot)
+                    // We look at source directly since we can only peek one ahead
+                    let next_next = self.source[self.pos..].chars().nth(1);
+                    if next_next == Some('.') {
+                        self.advance(); // consume second '.'
+                        self.advance(); // consume third '.'
+                        TokenKind::DotDotDot
+                    } else {
+                        TokenKind::Dot
+                    }
+                } else {
+                    TokenKind::Dot
+                }
+            }
             ':' => {
                 if self.peek() == Some(':') {
                     self.advance();

src/linter.rs

@@ -513,7 +513,10 @@ impl Linter {
             Expr::Field { object, .. } | Expr::TupleIndex { object, .. } => {
                 self.collect_refs_expr(object);
             }
-            Expr::Record { fields, .. } => {
+            Expr::Record { spread, fields, .. } => {
+                if let Some(spread_expr) = spread {
+                    self.collect_refs_expr(spread_expr);
+                }
                 for (_, val) in fields {
                     self.collect_refs_expr(val);
                 }

src/lsp.rs

@@ -1571,7 +1571,10 @@ fn collect_call_site_hints(
                 collect_call_site_hints(source, e, param_names, hints);
             }
         }
-        Expr::Record { fields, .. } => {
+        Expr::Record { spread, fields, .. } => {
+            if let Some(spread_expr) = spread {
+                collect_call_site_hints(source, spread_expr, param_names, hints);
+            }
             for (_, e) in fields {
                 collect_call_site_hints(source, e, param_names, hints);
             }

src/main.rs

@@ -37,7 +37,7 @@ use std::borrow::Cow;
 use std::collections::HashSet;
 use typechecker::TypeChecker;
 
-const VERSION: &str = "0.1.0";
+const VERSION: &str = env!("CARGO_PKG_VERSION");
 
 const HELP: &str = r#"
 Lux - A functional language with first-class effects
@@ -902,6 +902,7 @@ fn compile_to_c(path: &str, output_path: Option<&str>, run_after: bool, emit_c:
         .args(["-O2", "-o"])
         .arg(&output_bin)
         .arg(&temp_c)
+        .arg("-lm")
         .output();
 
     match compile_result {
@@ -5440,4 +5441,122 @@ c")"#;
             check_file("projects/rest-api/main.lux").unwrap();
         }
     }
+
+    // === Map type tests ===
+
+    #[test]
+    fn test_map_new_and_size() {
+        let source = r#"
+            let m = Map.new()
+            let result = Map.size(m)
+        "#;
+        assert_eq!(eval(source).unwrap(), "0");
+    }
+
+    #[test]
+    fn test_map_set_and_get() {
+        let source = r#"
+            let m = Map.new()
+            let m2 = Map.set(m, "name", "Alice")
+            let result = Map.get(m2, "name")
+        "#;
+        assert_eq!(eval(source).unwrap(), "Some(\"Alice\")");
+    }
+
+    #[test]
+    fn test_map_get_missing() {
+        let source = r#"
+            let m = Map.new()
+            let result = Map.get(m, "missing")
+        "#;
+        assert_eq!(eval(source).unwrap(), "None");
+    }
+
+    #[test]
+    fn test_map_contains() {
+        let source = r#"
+            let m = Map.set(Map.new(), "x", 1)
+            let result = (Map.contains(m, "x"), Map.contains(m, "y"))
+        "#;
+        assert_eq!(eval(source).unwrap(), "(true, false)");
+    }
+
+    #[test]
+    fn test_map_remove() {
+        let source = r#"
+            let m = Map.set(Map.set(Map.new(), "a", 1), "b", 2)
+            let m2 = Map.remove(m, "a")
+            let result = (Map.size(m2), Map.contains(m2, "a"), Map.contains(m2, "b"))
+        "#;
+        assert_eq!(eval(source).unwrap(), "(1, false, true)");
+    }
+
+    #[test]
+    fn test_map_keys_and_values() {
+        let source = r#"
+            let m = Map.set(Map.set(Map.new(), "b", 2), "a", 1)
+            let result = Map.keys(m)
+        "#;
+        assert_eq!(eval(source).unwrap(), "[\"a\", \"b\"]");
+    }
+
+    #[test]
+    fn test_map_from_list() {
+        let source = r#"
+            let m = Map.fromList([("x", 10), ("y", 20)])
+            let result = (Map.get(m, "x"), Map.size(m))
+        "#;
+        assert_eq!(eval(source).unwrap(), "(Some(10), 2)");
+    }
+
+    #[test]
+    fn test_map_to_list() {
+        let source = r#"
+            let m = Map.set(Map.set(Map.new(), "b", 2), "a", 1)
+            let result = Map.toList(m)
+        "#;
+        assert_eq!(eval(source).unwrap(), "[(\"a\", 1), (\"b\", 2)]");
+    }
+
+    #[test]
+    fn test_map_merge() {
+        let source = r#"
+            let m1 = Map.fromList([("a", 1), ("b", 2)])
+            let m2 = Map.fromList([("b", 3), ("c", 4)])
+            let merged = Map.merge(m1, m2)
+            let result = (Map.get(merged, "a"), Map.get(merged, "b"), Map.get(merged, "c"))
+        "#;
+        assert_eq!(eval(source).unwrap(), "(Some(1), Some(3), Some(4))");
+    }
+
+    #[test]
+    fn test_map_immutability() {
+        let source = r#"
+            let m1 = Map.fromList([("a", 1)])
+            let m2 = Map.set(m1, "b", 2)
+            let result = (Map.size(m1), Map.size(m2))
+        "#;
+        assert_eq!(eval(source).unwrap(), "(1, 2)");
+    }
+
+    #[test]
+    fn test_map_is_empty() {
+        let source = r#"
+            let m1 = Map.new()
+            let m2 = Map.set(m1, "x", 1)
+            let result = (Map.isEmpty(m1), Map.isEmpty(m2))
+        "#;
+        assert_eq!(eval(source).unwrap(), "(true, false)");
+    }
+
+    #[test]
+    fn test_map_type_annotation() {
+        let source = r#"
+            fn lookup(m: Map<String, Int>, key: String): Option<Int> =
+                Map.get(m, key)
+            let m = Map.fromList([("age", 30)])
+            let result = lookup(m, "age")
+        "#;
+        assert_eq!(eval(source).unwrap(), "Some(30)");
+    }
 }

src/parser.rs

@@ -1558,6 +1558,7 @@ impl Parser {
         loop {
             let op = match self.peek_kind() {
                 TokenKind::Plus => BinaryOp::Add,
+                TokenKind::PlusPlus => BinaryOp::Concat,
                 TokenKind::Minus => BinaryOp::Sub,
                 _ => break,
             };
@@ -1791,6 +1792,7 @@ impl Parser {
 
         let condition = Box::new(self.parse_expr()?);
 
+        self.skip_newlines();
         self.expect(TokenKind::Then)?;
         self.skip_newlines();
         let then_branch = Box::new(self.parse_expr()?);
@@ -2207,6 +2209,11 @@ impl Parser {
             }));
         }
 
+        // Check for record spread: { ...expr, field: val }
+        if matches!(self.peek_kind(), TokenKind::DotDotDot) {
+            return self.parse_record_expr_rest(start);
+        }
+
         // Check if it's a record (ident: expr) or block
         if matches!(self.peek_kind(), TokenKind::Ident(_)) {
             let lookahead = self.tokens.get(self.pos + 1).map(|t| &t.kind);
@@ -2221,6 +2228,20 @@ impl Parser {
 
     fn parse_record_expr_rest(&mut self, start: Span) -> Result<Expr, ParseError> {
         let mut fields = Vec::new();
+        let mut spread = None;
+
+        // Check for spread: { ...expr, ... }
+        if self.check(TokenKind::DotDotDot) {
+            self.advance(); // consume ...
+            let spread_expr = self.parse_expr()?;
+            spread = Some(Box::new(spread_expr));
+
+            self.skip_newlines();
+            if self.check(TokenKind::Comma) {
+                self.advance();
+            }
+            self.skip_newlines();
+        }
 
         while !self.check(TokenKind::RBrace) {
             let name = self.parse_ident()?;
@@ -2237,7 +2258,11 @@ impl Parser {
 
         self.expect(TokenKind::RBrace)?;
         let span = start.merge(self.previous_span());
-        Ok(Expr::Record { fields, span })
+        Ok(Expr::Record {
+            spread,
+            fields,
+            span,
+        })
     }
 
     fn parse_block_rest(&mut self, start: Span) -> Result<Expr, ParseError> {

src/symbol_table.rs

@@ -527,7 +527,10 @@ impl SymbolTable {
                     self.visit_expr(e, scope_idx);
                 }
             }
-            Expr::Record { fields, .. } => {
+            Expr::Record { spread, fields, .. } => {
+                if let Some(spread_expr) = spread {
+                    self.visit_expr(spread_expr, scope_idx);
+                }
                 for (_, e) in fields {
                     self.visit_expr(e, scope_idx);
                 }

src/typechecker.rs

@@ -339,7 +339,10 @@ fn references_params(expr: &Expr, params: &[&str]) -> bool {
         Expr::Lambda { body, .. } => references_params(body, params),
         Expr::Tuple { elements, .. } => elements.iter().any(|e| references_params(e, params)),
         Expr::List { elements, .. } => elements.iter().any(|e| references_params(e, params)),
-        Expr::Record { fields, .. } => fields.iter().any(|(_, e)| references_params(e, params)),
+        Expr::Record { spread, fields, .. } => {
+            spread.as_ref().is_some_and(|s| references_params(s, params))
+                || fields.iter().any(|(_, e)| references_params(e, params))
+        }
         Expr::Match { scrutinee, arms, .. } => {
             references_params(scrutinee, params)
                 || arms.iter().any(|a| references_params(&a.body, params))
@@ -516,8 +519,9 @@ fn has_recursive_calls(func_name: &str, body: &Expr) -> bool {
         Expr::Tuple { elements, .. } | Expr::List { elements, .. } => {
             elements.iter().any(|e| has_recursive_calls(func_name, e))
         }
-        Expr::Record { fields, .. } => {
+        Expr::Record { spread, fields, .. } => {
-            fields.iter().any(|(_, e)| has_recursive_calls(func_name, e))
+            spread.as_ref().is_some_and(|s| has_recursive_calls(func_name, s))
+                || fields.iter().any(|(_, e)| has_recursive_calls(func_name, e))
         }
         Expr::Field { object, .. } | Expr::TupleIndex { object, .. } => has_recursive_calls(func_name, object),
         Expr::Let { value, body, .. } => {
@@ -672,6 +676,7 @@ fn generate_auto_migration_expr(
 
     // Build the record expression
     Some(Expr::Record {
+        spread: None,
         fields: field_exprs,
         span,
     })
@@ -1744,7 +1749,11 @@ impl TypeChecker {
                 span,
             } => self.infer_block(statements, result, *span),
 
-            Expr::Record { fields, span } => self.infer_record(fields, *span),
+            Expr::Record {
+                spread,
+                fields,
+                span,
+            } => self.infer_record(spread.as_deref(), fields, *span),
 
             Expr::Tuple { elements, span } => self.infer_tuple(elements, *span),
 
@@ -1804,6 +1813,29 @@ impl TypeChecker {
                 }
             }
 
+            BinaryOp::Concat => {
+                // Concat (++) supports strings and lists
+                if let Err(e) = unify_with_env(&left_type, &right_type, &self.env) {
+                    self.errors.push(TypeError {
+                        message: format!("Operands of '++' must have same type: {}", e),
+                        span,
+                    });
+                }
+                match &left_type {
+                    Type::String | Type::List(_) | Type::Var(_) => left_type,
+                    _ => {
+                        self.errors.push(TypeError {
+                            message: format!(
+                                "Operator '++' requires String or List operands, got {}",
+                                left_type
+                            ),
+                            span,
+                        });
+                        Type::Error
+                    }
+                }
+            }
+
             BinaryOp::Sub | BinaryOp::Mul | BinaryOp::Div | BinaryOp::Mod => {
                 // Arithmetic: both operands must be same numeric type
                 if let Err(e) = unify_with_env(&left_type, &right_type, &self.env) {
@@ -2528,12 +2560,47 @@ impl TypeChecker {
         self.infer_expr(result)
     }
 
-    fn infer_record(&mut self, fields: &[(Ident, Expr)], _span: Span) -> Type {
+    fn infer_record(
-        let field_types: Vec<(String, Type)> = fields
+        &mut self,
+        spread: Option<&Expr>,
+        fields: &[(Ident, Expr)],
+        span: Span,
+    ) -> Type {
+        // Start with spread fields if present
+        let mut field_types: Vec<(String, Type)> = if let Some(spread_expr) = spread {
+            let spread_type = self.infer_expr(spread_expr);
+            let spread_type = self.env.expand_type_alias(&spread_type);
+            match spread_type {
+                Type::Record(spread_fields) => spread_fields,
+                _ => {
+                    self.errors.push(TypeError {
+                        message: format!(
+                            "Spread expression must be a record type, got {}",
+                            spread_type
+                        ),
+                        span,
+                    });
+                    Vec::new()
+                }
+            }
+        } else {
+            Vec::new()
+        };
+
+        // Apply explicit field overrides
+        let explicit_types: Vec<(String, Type)> = fields
             .iter()
             .map(|(name, expr)| (name.name.clone(), self.infer_expr(expr)))
             .collect();
 
+        for (name, typ) in explicit_types {
+            if let Some(existing) = field_types.iter_mut().find(|(n, _)| n == &name) {
+                existing.1 = typ;
+            } else {
+                field_types.push((name, typ));
+            }
+        }
+
         Type::Record(field_types)
     }
 
@@ -2899,6 +2966,9 @@ impl TypeChecker {
                         "Option" if resolved_args.len() == 1 => {
                             return Type::Option(Box::new(resolved_args[0].clone()));
                         }
+                        "Map" if resolved_args.len() == 2 => {
+                            return Type::Map(Box::new(resolved_args[0].clone()), Box::new(resolved_args[1].clone()));
+                        }
                         _ => {}
                     }
                 }

src/types.rs

@@ -47,6 +47,8 @@ pub enum Type {
     List(Box<Type>),
     /// Option type (sugar for App(Option, [T]))
     Option(Box<Type>),
+    /// Map type (sugar for App(Map, [K, V]))
+    Map(Box<Type>, Box<Type>),
     /// Versioned type (e.g., User @v2)
     Versioned {
         base: Box<Type>,
@@ -119,6 +121,7 @@ impl Type {
             Type::Tuple(elements) => elements.iter().any(|e| e.contains_var(var)),
             Type::Record(fields) => fields.iter().any(|(_, t)| t.contains_var(var)),
             Type::List(inner) | Type::Option(inner) => inner.contains_var(var),
+            Type::Map(k, v) => k.contains_var(var) || v.contains_var(var),
             Type::Versioned { base, .. } => base.contains_var(var),
             _ => false,
         }
@@ -158,6 +161,7 @@ impl Type {
             ),
             Type::List(inner) => Type::List(Box::new(inner.apply(subst))),
             Type::Option(inner) => Type::Option(Box::new(inner.apply(subst))),
+            Type::Map(k, v) => Type::Map(Box::new(k.apply(subst)), Box::new(v.apply(subst))),
             Type::Versioned { base, version } => Type::Versioned {
                 base: Box::new(base.apply(subst)),
                 version: version.clone(),
@@ -208,6 +212,11 @@ impl Type {
                 vars
             }
             Type::List(inner) | Type::Option(inner) => inner.free_vars(),
+            Type::Map(k, v) => {
+                let mut vars = k.free_vars();
+                vars.extend(v.free_vars());
+                vars
+            }
             Type::Versioned { base, .. } => base.free_vars(),
             _ => HashSet::new(),
         }
@@ -279,6 +288,7 @@ impl fmt::Display for Type {
             }
             Type::List(inner) => write!(f, "List<{}>", inner),
             Type::Option(inner) => write!(f, "Option<{}>", inner),
+            Type::Map(k, v) => write!(f, "Map<{}, {}>", k, v),
             Type::Versioned { base, version } => {
                 write!(f, "{} {}", base, version)
             }
@@ -1775,6 +1785,73 @@ impl TypeEnv {
         ]);
         env.bind("Option", TypeScheme::mono(option_module_type));
 
+        // Map module
+        let map_v = || Type::var();
+        let map_type = || Type::Map(Box::new(Type::String), Box::new(Type::var()));
+        let map_module_type = Type::Record(vec![
+            (
+                "new".to_string(),
+                Type::function(vec![], map_type()),
+            ),
+            (
+                "set".to_string(),
+                Type::function(
+                    vec![map_type(), Type::String, map_v()],
+                    map_type(),
+                ),
+            ),
+            (
+                "get".to_string(),
+                Type::function(
+                    vec![map_type(), Type::String],
+                    Type::Option(Box::new(map_v())),
+                ),
+            ),
+            (
+                "contains".to_string(),
+                Type::function(vec![map_type(), Type::String], Type::Bool),
+            ),
+            (
+                "remove".to_string(),
+                Type::function(vec![map_type(), Type::String], map_type()),
+            ),
+            (
+                "keys".to_string(),
+                Type::function(vec![map_type()], Type::List(Box::new(Type::String))),
+            ),
+            (
+                "values".to_string(),
+                Type::function(vec![map_type()], Type::List(Box::new(map_v()))),
+            ),
+            (
+                "size".to_string(),
+                Type::function(vec![map_type()], Type::Int),
+            ),
+            (
+                "isEmpty".to_string(),
+                Type::function(vec![map_type()], Type::Bool),
+            ),
+            (
+                "fromList".to_string(),
+                Type::function(
+                    vec![Type::List(Box::new(Type::Tuple(vec![Type::String, map_v()])))],
+                    map_type(),
+                ),
+            ),
+            (
+                "toList".to_string(),
+                Type::function(
+                    vec![map_type()],
+                    Type::List(Box::new(Type::Tuple(vec![Type::String, map_v()]))),
+                ),
+            ),
+            (
+                "merge".to_string(),
+                Type::function(vec![map_type(), map_type()], map_type()),
+            ),
+        ]);
+        env.bind("Map", TypeScheme::mono(map_module_type));
+
         // Result module
         let result_type = Type::App {
             constructor: Box::new(Type::Named("Result".to_string())),
@@ -1887,6 +1964,18 @@ impl TypeEnv {
                 "round".to_string(),
                 Type::function(vec![Type::var()], Type::Int),
             ),
+            (
+                "sin".to_string(),
+                Type::function(vec![Type::Float], Type::Float),
+            ),
+            (
+                "cos".to_string(),
+                Type::function(vec![Type::Float], Type::Float),
+            ),
+            (
+                "atan2".to_string(),
+                Type::function(vec![Type::Float, Type::Float], Type::Float),
+            ),
         ]);
         env.bind("Math", TypeScheme::mono(math_module_type));
 
@@ -1896,6 +1985,10 @@ impl TypeEnv {
                 "toString".to_string(),
                 Type::function(vec![Type::Int], Type::String),
             ),
+            (
+                "toFloat".to_string(),
+                Type::function(vec![Type::Int], Type::Float),
+            ),
         ]);
         env.bind("Int", TypeScheme::mono(int_module_type));
 
@@ -1905,6 +1998,10 @@ impl TypeEnv {
                 "toString".to_string(),
                 Type::function(vec![Type::Float], Type::String),
             ),
+            (
+                "toInt".to_string(),
+                Type::function(vec![Type::Float], Type::Int),
+            ),
         ]);
         env.bind("Float", TypeScheme::mono(float_module_type));
 
@@ -1991,6 +2088,9 @@ impl TypeEnv {
             Type::Option(inner) => {
                 Type::Option(Box::new(self.expand_type_alias(inner)))
             }
+            Type::Map(k, v) => {
+                Type::Map(Box::new(self.expand_type_alias(k)), Box::new(self.expand_type_alias(v)))
+            }
             Type::Versioned { base, version } => {
                 Type::Versioned {
                     base: Box::new(self.expand_type_alias(base)),
@@ -2151,6 +2251,13 @@ pub fn unify(t1: &Type, t2: &Type) -> Result<Substitution, String> {
         // Option
         (Type::Option(a), Type::Option(b)) => unify(a, b),
 
+        // Map
+        (Type::Map(k1, v1), Type::Map(k2, v2)) => {
+            let s1 = unify(k1, k2)?;
+            let s2 = unify(&v1.apply(&s1), &v2.apply(&s1))?;
+            Ok(s1.compose(&s2))
+        }
+
         // Versioned types
         (
             Type::Versioned {