Merge 'origin/lima' into merge_lima_to_master

2019-12-19 15:09:48 +01:00 · 2019-12-19 15:09:48 +01:00 · cf1072140e
commit cf1072140e
parent 75797686ad f7abaf07fa
16 changed files with 719 additions and 208 deletions
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@ -7,6 +7,7 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
 ## [Unreleased]
 ### Added
 ### Changed
 - FATE code generator improvements.
 ### Removed
 ## [4.1.0] - 2019-11-26
--- a/src/aeso_ast_infer_types.erl
+++ b/src/aeso_ast_infer_types.erl
@ -1189,21 +1189,20 @@ infer_expr(Env, {list, As, Elems}) ->
    NewElems = [check_expr(Env, X, ElemType) || X <- Elems],
    {typed, As, {list, As, NewElems}, {app_t, As, {id, As, "list"}, [ElemType]}};
 infer_expr(Env, {list_comp, As, Yield, []}) ->
-    {typed, _, TypedYield, Type} = infer_expr(Env, Yield),
+    {typed, _, _, Type} = TypedYield = infer_expr(Env, Yield),
    {typed, As, {list_comp, As, TypedYield, []}, {app_t, As, {id, As, "list"}, [Type]}};
-infer_expr(Env, {list_comp, As, Yield, [{comprehension_bind, Arg, BExpr}|Rest]}) ->
+infer_expr(Env, {list_comp, As, Yield, [{comprehension_bind, Pat, BExpr}|Rest]}) ->
    BindVarType = fresh_uvar(As),
    TypedBind = {typed, As2, _, TypeBExpr} = infer_expr(Env, BExpr),
    {NewE, TypedPat = {typed, _, _, PatType}} = infer_pattern(Env, Pat),
    unify( Env
         , TypeBExpr
-         , {app_t, As, {id, As, "list"}, [BindVarType]}
+         , {app_t, As, {id, As, "list"}, [PatType]}
-         , {list_comp, TypedBind, TypeBExpr, {app_t, As2, {id, As, "list"}, [BindVarType]}}),
+         , {list_comp, TypedBind, TypeBExpr, {app_t, As2, {id, As, "list"}, [PatType]}}),
    NewE = bind_var(Arg, BindVarType, Env),
    {typed, _, {list_comp, _, TypedYield, TypedRest}, ResType} =
        infer_expr(NewE, {list_comp, As, Yield, Rest}),
    { typed
    , As
-    , {list_comp, As, TypedYield, [{comprehension_bind, {typed, Arg, BindVarType}, TypedBind}|TypedRest]}
+    , {list_comp, As, TypedYield, [{comprehension_bind, TypedPat, TypedBind}|TypedRest]}
    , ResType};
 infer_expr(Env, {list_comp, AttrsL, Yield, [{comprehension_if, AttrsIF, Cond}|Rest]}) ->
    NewCond = check_expr(Env, Cond, {id, AttrsIF, "bool"}),
@ -1213,8 +1212,8 @@ infer_expr(Env, {list_comp, AttrsL, Yield, [{comprehension_if, AttrsIF, Cond}|Re
    , AttrsL
    , {list_comp, AttrsL, TypedYield, [{comprehension_if, AttrsIF, NewCond}|TypedRest]}
    , ResType};
-infer_expr(Env, {list_comp, AsLC, Yield, [{letval, AsLV, Pattern, Type, E}|Rest]}) ->
+infer_expr(Env, {list_comp, AsLC, Yield, [{letval, AsLV, Pattern, E}|Rest]}) ->
-    NewE = {typed, _, _, PatType} = infer_expr(Env, {typed, AsLV, E, arg_type(AsLV, Type)}),
+    NewE = {typed, _, _, PatType} = infer_expr(Env, E),
    BlockType = fresh_uvar(AsLV),
    {'case', _, NewPattern, NewRest} =
        infer_case( Env
@ -1226,7 +1225,7 @@ infer_expr(Env, {list_comp, AsLC, Yield, [{letval, AsLV, Pattern, Type, E}|Rest]
    {typed, _, {list_comp, _, TypedYield, TypedRest}, ResType} = NewRest,
    { typed
    , AsLC
-    , {list_comp, AsLC, TypedYield, [{letval, AsLV, NewPattern, Type, NewE}|TypedRest]}
+    , {list_comp, AsLC, TypedYield, [{letval, AsLV, NewPattern, NewE}|TypedRest]}
    , ResType
    };
 infer_expr(Env, {list_comp, AsLC, Yield, [Def={letfun, AsLF, _, _, _, _}|Rest]}) ->
@ -1341,6 +1340,16 @@ infer_expr(Env, {block, Attrs, Stmts}) ->
    BlockType = fresh_uvar(Attrs),
    NewStmts = infer_block(Env, Attrs, Stmts, BlockType),
    {typed, Attrs, {block, Attrs, NewStmts}, BlockType};
 infer_expr(_Env, {record_or_map_error, Attrs, Fields}) ->
    type_error({mixed_record_and_map, {record, Attrs, Fields}}),
    Type = fresh_uvar(Attrs),
    {typed, Attrs, {record, Attrs, []}, Type};
 infer_expr(Env, {record_or_map_error, Attrs, Expr, []}) ->
    type_error({empty_record_or_map_update, {record, Attrs, Expr, []}}),
    infer_expr(Env, Expr);
 infer_expr(Env, {record_or_map_error, Attrs, Expr, Fields}) ->
    type_error({mixed_record_and_map, {record, Attrs, Expr, Fields}}),
    infer_expr(Env, Expr);
 infer_expr(Env, {lam, Attrs, Args, Body}) ->
    ArgTypes = [fresh_uvar(As) || {arg, As, _, _} <- Args],
    ArgPatterns = [{typed, As, Pat, check_type(Env, T)} || {arg, As, Pat, T} <- Args],
@ -1349,7 +1358,7 @@ infer_expr(Env, {lam, Attrs, Args, Body}) ->
        infer_case(Env, Attrs, {tuple, Attrs, ArgPatterns}, {tuple_t, Attrs, ArgTypes}, Body, ResultType),
    NewArgs = [{arg, As, NewPat, NewT} || {typed, As, NewPat, NewT} <- NewArgPatterns],
    {typed, Attrs, {lam, Attrs, NewArgs, NewBody}, {fun_t, Attrs, [], ArgTypes, ResultType}};
-infer_expr(Env, Let = {letval, Attrs, _, _, _}) ->
+infer_expr(Env, Let = {letval, Attrs, _, _}) ->
    type_error({missing_body_for_let, Attrs}),
    infer_expr(Env, {block, Attrs, [Let, abort_expr(Attrs, "missing body")]});
 infer_expr(Env, Let = {letfun, Attrs, _, _, _, _}) ->
@ -1412,15 +1421,19 @@ infer_op(Env, As, Op, Args, InferOp) ->
    unify(Env, ArgTypes, OperandTypes, {infer_app, Op, Args, Inferred, ArgTypes}),
    {typed, As, {app, As, Op, TypedArgs}, ResultType}.
-infer_case(Env, Attrs, Pattern, ExprType, Branch, SwitchType) ->
+infer_pattern(Env, Pattern) ->
    Vars = free_vars(Pattern),
    Names = [N || {id, _, N} <- Vars, N /= "_"],
    case Names -- lists:usort(Names) of
        [] -> ok;
        Nonlinear -> type_error({non_linear_pattern, Pattern, lists:usort(Nonlinear)})
    end,
-    NewEnv = bind_vars([{Var, fresh_uvar(Ann)} || Var = {id, Ann, _} <- Vars], Env#env{ in_pattern = true }),
+    NewEnv = bind_vars([{Var, fresh_uvar(Ann1)} || Var = {id, Ann1, _} <- Vars], Env#env{ in_pattern = true }),
-    NewPattern = {typed, _, _, PatType} = infer_expr(NewEnv, Pattern),
+    NewPattern = infer_expr(NewEnv, Pattern),
    {NewEnv, NewPattern}.
 infer_case(Env, Attrs, Pattern, ExprType, Branch, SwitchType) ->
    {NewEnv, NewPattern = {typed, _, _, PatType}} = infer_pattern(Env, Pattern),
    NewBranch  = check_expr(NewEnv#env{ in_pattern = false }, Branch, SwitchType),
    unify(Env, PatType, ExprType, {case_pat, Pattern, PatType, ExprType}),
    {'case', Attrs, NewPattern, NewBranch}.
@ -1435,11 +1448,11 @@ infer_block(Env, Attrs, [Def={letfun, Ann, _, _, _, _}|Rest], BlockType) ->
    FunT = typesig_to_fun_t(TypeSig),
    NewE = bind_var({id, Ann, Name}, FunT, Env),
    [LetFun|infer_block(NewE, Attrs, Rest, BlockType)];
-infer_block(Env, _, [{letval, Attrs, Pattern, Type, E}|Rest], BlockType) ->
+infer_block(Env, _, [{letval, Attrs, Pattern, E}|Rest], BlockType) ->
-    NewE = {typed, _, _, PatType} = infer_expr(Env, {typed, Attrs, E, arg_type(aeso_syntax:get_ann(Pattern), Type)}),
+    NewE = {typed, _, _, PatType} = infer_expr(Env, E),
    {'case', _, NewPattern, {typed, _, {block, _, NewRest}, _}} =
        infer_case(Env, Attrs, Pattern, PatType, {block, Attrs, Rest}, BlockType),
-    [{letval, Attrs, NewPattern, Type, NewE}|NewRest];
+    [{letval, Attrs, NewPattern, NewE}|NewRest];
 infer_block(Env, Attrs, [E|Rest], BlockType) ->
    [infer_expr(Env, E)|infer_block(Env, Attrs, Rest, BlockType)].
@ -1481,18 +1494,13 @@ infer_prefix({IntOp,As}) when IntOp =:= '-' ->
 abort_expr(Ann, Str) ->
    {app, Ann, {id, Ann, "abort"}, [{string, Ann, Str}]}.
-free_vars({int, _, _}) ->
+free_vars({int, _, _})    -> [];
-    [];
+free_vars({char, _, _})   -> [];
-free_vars({char, _, _}) ->
+free_vars({string, _, _}) -> [];
-    [];
+free_vars({bool, _, _})   -> [];
-free_vars({string, _, _}) ->
+free_vars(Id={id, _, _})  -> [Id];
-    [];
+free_vars({con, _, _})    -> [];
-free_vars({bool, _, _}) ->
+free_vars({qcon, _, _})   -> [];
    [];
 free_vars(Id={id, _, _}) ->
    [Id];
 free_vars({con, _, _}) ->
    [];
 free_vars({tuple, _, Cpts}) ->
    free_vars(Cpts);
 free_vars({list, _, Elems}) ->
@ -1501,6 +1509,8 @@ free_vars({app, _, {'::', _}, Args}) ->
    free_vars(Args);
 free_vars({app, _, {con, _, _}, Args}) ->
    free_vars(Args);
 free_vars({app, _, {qcon, _, _}, Args}) ->
    free_vars(Args);
 free_vars({record, _, Fields}) ->
    free_vars([E || {field, _, _, E} <- Fields]);
 free_vars({typed, _, A, _}) ->
@ -2507,6 +2517,14 @@ mk_error({compiler_version_mismatch, Ann, Version, Op, Bound}) ->
                        "because it does not satisfy the constraint"
                        " ~s ~s ~s\n", [PrintV(Version), Op, PrintV(Bound)]),
    mk_t_err(pos(Ann), Msg);
 mk_error({empty_record_or_map_update, Expr}) ->
    Msg = io_lib:format("Empty record/map update\n~s",
                        [pp_expr("  ", Expr)]),
    mk_t_err(pos(Expr), Msg);
 mk_error({mixed_record_and_map, Expr}) ->
    Msg = io_lib:format("Mixed record fields and map keys in\n~s",
                        [pp_expr("  ", Expr)]),
    mk_t_err(pos(Expr), Msg);
 mk_error(Err) ->
    Msg = io_lib:format("Unknown error: ~p\n", [Err]),
    mk_t_err(pos(0, 0), Msg).
--- a/src/aeso_ast_to_fcode.erl
+++ b/src/aeso_ast_to_fcode.erl
@ -24,6 +24,8 @@
 -type var_name() :: string().
 -type sophia_name() :: [string()].
 -type state_reg() :: pos_integer().
 -type builtin() :: atom().
 -type op() :: '+' | '-' | '*' | '/' | mod | '^' | '++' | '::' |
@ -68,6 +70,8 @@
               | {funcall, fexpr(), [fexpr()]}  %% Call to unknown function
               | {closure, fun_name(), fexpr()}
               | {switch, fsplit()}
               | {set_state, state_reg(), fexpr()}
               | {get_state, state_reg()}
               %% The following (unapplied top-level functions/builtins and
               %% lambdas) are generated by the fcode compiler, but translated
               %% to closures by the lambda lifter.
@ -116,6 +120,7 @@
 -type fcode() :: #{ contract_name := string(),
                    state_type    := ftype(),
                    state_layout  := state_layout(),
                    event_type    := ftype() | none,
                    functions     := #{ fun_name() => fun_def() },
                    payable       := boolean() }.
@ -137,12 +142,15 @@
                 | {namespace, string()}
                 | {abstract_contract, string()}.
 -type state_layout() :: {tuple, [state_layout()]} | {reg, state_reg()}.
 -type env() :: #{ type_env     := type_env(),
                  fun_env      := fun_env(),
                  con_env      := con_env(),
                  event_type   => aeso_syntax:typedef(),
                  builtins     := builtins(),
                  options      := [option()],
                  state_layout => state_layout(),
                  context      => context(),
                  vars         => [var_name()],
                  functions    := #{ fun_name() => fun_def() } }.
@ -156,12 +164,14 @@
 -spec ast_to_fcode(aeso_syntax:ast(), [option()]) -> fcode().
 ast_to_fcode(Code, Options) ->
    Verbose = lists:member(pp_fcode, Options),
    init_fresh_names(),
    FCode1 = to_fcode(init_env(Options), Code),
    [io:format("-- Before lambda lifting --\n~s\n\n", [format_fcode(FCode1)]) || Verbose],
-    FCode2 = lambda_lift(FCode1),
+    FCode2 = optimize_fcode(FCode1),
-    [ io:format("-- After lambda lifting --\n~s\n\n", [format_fcode(FCode2)]) || Verbose, FCode2 /= FCode1 ],
+    [ io:format("-- After optimization --\n~s\n\n", [format_fcode(FCode2)]) || Verbose, FCode2 /= FCode1 ],
-    FCode3 = optimize_fcode(FCode2),
+    FCode3 = lambda_lift(FCode2),
-    [ io:format("-- After optimization --\n~s\n\n", [format_fcode(FCode3)]) || Verbose, FCode3 /= FCode2 ],
+    [ io:format("-- After lambda lifting --\n~s\n\n", [format_fcode(FCode3)]) || Verbose, FCode3 /= FCode2 ],
    clear_fresh_names(),
    FCode3.
 %% -- Environment ------------------------------------------------------------
@ -221,6 +231,8 @@ builtins() ->
                     || {NS, Funs} <- Scopes,
                        {Fun, Arity} <- Funs ]).
 state_layout(Env) -> maps:get(state_layout, Env, {reg, 1}).
 -define(type(T),       fun([])     -> T end).
 -define(type(X, T),    fun([X])    -> T end).
 -define(type(X, Y, T), fun([X, Y]) -> T end).
@ -247,7 +259,13 @@ init_type_env() ->
     }.
 is_no_code(Env) ->
-    proplists:get_value(no_code, maps:get(options, Env, []), false).
+    get_option(no_code, Env).
 get_option(Opt, Env) ->
    get_option(Opt, Env, false).
 get_option(Opt, Env, Default) ->
    proplists:get_value(Opt, maps:get(options, Env, []), Default).
 %% -- Compilation ------------------------------------------------------------
@ -262,9 +280,11 @@ to_fcode(Env, [{contract, Attrs, MainCon = {con, _, Main}, Decls}]) ->
        decls_to_fcode(MainEnv, Decls),
    StateType   = lookup_type(Env1, [Main, "state"], [], {tuple, []}),
    EventType   = lookup_type(Env1, [Main, "event"], [], none),
    StateLayout = state_layout(Env1),
    Payable     = proplists:get_value(payable, Attrs, false),
    #{ contract_name => Main,
       state_type    => StateType,
       state_layout  => StateLayout,
       event_type    => EventType,
       payable       => Payable,
       functions     => add_init_function(Env1, MainCon, StateType,
@ -284,9 +304,7 @@ decls_to_fcode(Env, Decls) ->
    %% environment.
    Env1 = add_fun_env(Env, Decls),
    lists:foldl(fun(D, E) ->
                    init_fresh_names(),
                    R = decl_to_fcode(E, D),
                    clear_fresh_names(),
                    R
                end, Env1, Decls).
@ -322,14 +340,15 @@ typedef_to_fcode(Env, Id = {id, _, Name}, Xs, Def) ->
    FDef = fun(Args) when length(Args) == length(Xs) ->
                Sub = maps:from_list(lists:zip([X || {tvar, _, X} <- Xs], Args)),
                case Def of
-                    {record_t, Fields} -> {todo, Xs, Args, record_t, Fields};
+                    {record_t, Fields} ->
                        {tuple, [type_to_fcode(Env, Sub, T) || {field_t, _, _, T} <- Fields]};
                    {variant_t, Cons}  ->
                        FCons = [ begin
                                      {constr_t, _, _, Ts} = Con,
                                      [type_to_fcode(Env, Sub, T) || T <- Ts]
                                  end || Con <- Cons ],
                        {variant, FCons};
-                    {alias_t, Type}    -> {todo, Xs, Args, alias_t, Type}
+                    {alias_t, Type}    -> type_to_fcode(Env, Sub, Type)
                end;
              (Args) -> internal_error({type_arity_mismatch, Name, length(Args), length(Xs)})
           end,
@ -351,7 +370,34 @@ typedef_to_fcode(Env, Id = {id, _, Name}, Xs, Def) ->
             "event" -> Env1#{ event_type => Def };
             _       -> Env1
           end,
-    bind_type(Env2, Q, FDef).
+    Env3 = compute_state_layout(Env2, Name, FDef),
    bind_type(Env3, Q, FDef).
 compute_state_layout(Env = #{ context := {main_contract, _} }, "state", Type) ->
    NoLayout = get_option(no_flatten_state, Env),
    Layout =
        case Type([]) of
            _ when NoLayout -> {reg, 1};
            T ->
                {_, L} = compute_state_layout(1, T),
                L
        end,
    Env#{ state_layout => Layout };
 compute_state_layout(Env, _, _) -> Env.
 compute_state_layout(R, {tuple, [T]}) ->
    compute_state_layout(R, T);
 compute_state_layout(R, {tuple, Ts}) ->
    {R1, Ls} = compute_state_layout(R, Ts),
    {R1, {tuple, Ls}};
 compute_state_layout(R, []) ->
    {R, []};
 compute_state_layout(R, [H | T]) ->
    {R1, H1} = compute_state_layout(R, H),
    {R2, T1} = compute_state_layout(R1, T),
    {R2, [H1 | T1]};
 compute_state_layout(R, _) ->
    {R + 1, {reg, R}}.
 check_state_and_event_types(#{ context := {main_contract, _} }, Id, [_ | _]) ->
    case Id of
@ -404,6 +450,13 @@ make_let(Expr, Body) ->
            {'let', X, Expr, Body({var, X})}
    end.
 let_bind(X, {var, Y}, Body) -> rename([{X, Y}], Body);
 let_bind(X, Expr, Body)     -> {'let', X, Expr, Body}.
 let_bind(Binds, Body) ->
    lists:foldr(fun({X, E}, Rest) -> let_bind(X, E, Rest) end,
                Body, Binds).
 -spec expr_to_fcode(env(), aeso_syntax:expr()) -> fexpr().
 expr_to_fcode(Env, {typed, _, Expr, Type}) ->
    expr_to_fcode(Env, Type, Expr);
@ -464,7 +517,7 @@ expr_to_fcode(Env, _Type, {app, _, {typed, _, {C, _, _} = Con, _}, Args}) when C
 %% Tuples
 expr_to_fcode(Env, _Type, {tuple, _, Es}) ->
-    {tuple, [expr_to_fcode(Env, E) || E <- Es]};
+    make_tuple([expr_to_fcode(Env, E) || E <- Es]);
 %% Records
 expr_to_fcode(Env, Type, {proj, _Ann, Rec = {typed, _, _, RecType}, {id, _, X}}) ->
@ -476,18 +529,28 @@ expr_to_fcode(Env, Type, {proj, _Ann, Rec = {typed, _, _, RecType}, {id, _, X}})
            FArgs = [type_to_fcode(Env, Arg) || Arg <- Args],
            {remote_u, FArgs, type_to_fcode(Env, Ret), expr_to_fcode(Env, Rec),
                       {entrypoint, list_to_binary(X)}};
        {record_t, [_]} -> expr_to_fcode(Env, Rec); %% Singleton record
        {record_t, _} ->
            {proj, expr_to_fcode(Env, Rec), field_index(Rec, X)}
    end;
 expr_to_fcode(Env, {record_t, [FieldT]}, {record, _Ann, [_] = Fields}) ->
    {set, E} = field_value(FieldT, Fields),
    expr_to_fcode(Env, E);
 expr_to_fcode(Env, {record_t, FieldTypes}, {record, _Ann, Fields}) ->
    FVal = fun(F) ->
             %% All fields are present and no updates
             {set, E} = field_value(F, Fields),
             expr_to_fcode(Env, E)
           end,
-    {tuple, lists:map(FVal, FieldTypes)};
+    make_tuple(lists:map(FVal, FieldTypes));
 expr_to_fcode(Env, {record_t, [FieldT]}, {record, _Ann, Rec, Fields}) ->
    case field_value(FieldT, Fields) of
        false       -> expr_to_fcode(Env, Rec);
        {set, E}    -> expr_to_fcode(Env, E);
        {upd, Z, E} -> {'let', Z, expr_to_fcode(Env, Rec), expr_to_fcode(bind_var(Env, Z), E)}
    end;
 expr_to_fcode(Env, {record_t, FieldTypes}, {record, _Ann, Rec, Fields}) ->
    X    = fresh_name(),
    Proj = fun(I) -> {proj, {var, X}, I - 1} end,
@ -519,9 +582,12 @@ expr_to_fcode(Env, _Type, {app, _, {'..', _}, [A, B]}) ->
 expr_to_fcode(Env, _Type, {list_comp, _, Yield, []}) ->
    {op, '::', [expr_to_fcode(Env, Yield), nil]};
-expr_to_fcode(Env, _Type, {list_comp, As, Yield, [{comprehension_bind, {typed, {id, _, Arg}, _}, BindExpr}|Rest]}) ->
+expr_to_fcode(Env, _Type, {list_comp, As, Yield, [{comprehension_bind, Pat = {typed, _, _, PatType}, BindExpr}|Rest]}) ->
    Arg  = fresh_name(),
    Env1 = bind_var(Env, Arg),
-    Bind = {lam, [Arg], expr_to_fcode(Env1, {list_comp, As, Yield, Rest})},
+    Bind = {lam, [Arg], expr_to_fcode(Env1, {switch, As, {typed, As, {id, As, Arg}, PatType},
                                                [{'case', As, Pat, {list_comp, As, Yield, Rest}},
                                                 {'case', As, {id, As, "_"}, {list, As, []}}]})},
    {def_u, FlatMap, _} = resolve_fun(Env, ["ListInternal", "flat_map"]),
    {def, FlatMap, [Bind, expr_to_fcode(Env, BindExpr)]};
 expr_to_fcode(Env, Type, {list_comp, As, Yield, [{comprehension_if, _, Cond}|Rest]}) ->
@ -529,7 +595,7 @@ expr_to_fcode(Env, Type, {list_comp, As, Yield, [{comprehension_if, _, Cond}|Res
            expr_to_fcode(Env, Type, {list_comp, As, Yield, Rest}),
            nil
           );
-expr_to_fcode(Env, Type, {list_comp, As, Yield, [LV = {letval, _, _, _, _}|Rest]}) ->
+expr_to_fcode(Env, Type, {list_comp, As, Yield, [LV = {letval, _, _, _}|Rest]}) ->
    expr_to_fcode(Env, Type, {block, As, [LV, {list_comp, As, Yield, Rest}]});
 expr_to_fcode(Env, Type, {list_comp, As, Yield, [LF = {letfun, _, _, _, _, _}|Rest]}) ->
    expr_to_fcode(Env, Type, {block, As, [LF, {list_comp, As, Yield, Rest}]});
@ -574,8 +640,8 @@ expr_to_fcode(Env, _Type, {app, _, Fun = {typed, _, _, {fun_t, _, NamedArgsT, _,
    Args1 = get_named_args(NamedArgsT, Args),
    FArgs = [expr_to_fcode(Env, Arg) || Arg <- Args1],
    case expr_to_fcode(Env, Fun) of
-        {builtin_u, B, _Ar, TypeArgs}     -> builtin_to_fcode(B, FArgs ++ TypeArgs);
+        {builtin_u, B, _Ar, TypeArgs}     -> builtin_to_fcode(state_layout(Env), B, FArgs ++ TypeArgs);
-        {builtin_u, B, _Ar}               -> builtin_to_fcode(B, FArgs);
+        {builtin_u, B, _Ar}               -> builtin_to_fcode(state_layout(Env), B, FArgs);
        {def_u, F, _Ar}                   -> {def, F, FArgs};
        {remote_u, ArgsT, RetT, Ct, RFun} -> {remote, ArgsT, RetT, Ct, RFun, FArgs};
        FFun ->
@ -639,6 +705,13 @@ make_if(Cond, Then, Else) ->
    X = fresh_name(),
    {'let', X, Cond, make_if({var, X}, Then, Else)}.
 -spec make_tuple([fexpr()]) -> fexpr().
 make_tuple([E]) -> E;
 make_tuple(Es) -> {tuple, Es}.
 -spec strip_singleton_tuples(ftype()) -> ftype().
 strip_singleton_tuples({tuple, [T]}) -> strip_singleton_tuples(T);
 strip_singleton_tuples(T) -> T.
 get_oracle_type(oracle_register,     {fun_t, _, _, _, OType})       -> OType;
 get_oracle_type(oracle_query,        {fun_t, _, _, [OType | _], _}) -> OType;
@ -726,10 +799,13 @@ split_tree(Env, Vars, Alts = [{'case', Pats, Body} | _]) ->
            {nosplit, rename(Ren, Body)};
        I when is_integer(I) ->
            {Vars0, [{X, Type} | Vars1]} = lists:split(I - 1, Vars),
            Type1 = strip_singleton_tuples(Type),
            SAlts = merge_alts(I, X, [ split_alt(I, A) || A <- Alts ]),
-            Cases = [ {'case', SPat, split_tree(Env, Vars0 ++ split_vars(SPat, Type) ++ Vars1, FAlts)}
+            MakeCase = fun({var, Z}, Split) -> {'case', {var, "_"}, rename_split([{Z, X}], Split)};
                          (SPat, Split)     -> {'case', SPat, Split} end,
            Cases = [ MakeCase(SPat, split_tree(Env, Vars0 ++ split_vars(SPat, Type1) ++ Vars1, FAlts))
                      || {SPat, FAlts} <- SAlts ],
-            {split, Type, X, Cases}
+            {split, Type1, X, Cases}
    end.
 -spec merge_alts(integer(), var_name(), [{fsplit_pat(), falt()}]) -> [{fsplit_pat(), [falt()]}].
@ -852,7 +928,7 @@ pat_to_fcode(Env, _Type, {app, _, {typed, _, {C, _, _} = Con, _}, Pats}) when C
    #con_tag{tag = I, arities = As} = lookup_con(Env, Con),
    {con, As, I, [pat_to_fcode(Env, Pat) || Pat <- Pats]};
 pat_to_fcode(Env, _Type, {tuple, _, Pats}) ->
-    {tuple, [ pat_to_fcode(Env, Pat) || Pat <- Pats ]};
+    make_tuple([ pat_to_fcode(Env, Pat) || Pat <- Pats ]);
 pat_to_fcode(_Env, _Type, {bool, _, B})   -> {bool, B};
 pat_to_fcode(_Env, _Type, {int, _, N})    -> {int, N};
 pat_to_fcode(_Env, _Type, {char, _, N})   -> {int, N};
@ -870,8 +946,8 @@ pat_to_fcode(Env, {record_t, Fields}, {record, _, FieldPats}) ->
                        {set, Pat} -> Pat
                        %% {upd, _, _} is impossible in patterns
                    end end,
-    {tuple, [pat_to_fcode(Env, FieldPat(Field))
+    make_tuple([pat_to_fcode(Env, FieldPat(Field))
-             || Field <- Fields]};
+                || Field <- Fields]);
 pat_to_fcode(_Env, Type, Pat) ->
    error({todo, Pat, ':', Type}).
@ -905,8 +981,10 @@ decision_tree_to_fcode({'if', A, Then, Else}) ->
 %% -- Statements --
 -spec stmts_to_fcode(env(), [aeso_syntax:stmt()]) -> fexpr().
-stmts_to_fcode(Env, [{letval, _, {typed, _, {id, _, X}, _}, _, Expr} | Stmts]) ->
+stmts_to_fcode(Env, [{letval, _, {typed, _, {id, _, X}, _}, Expr} | Stmts]) ->
    {'let', X, expr_to_fcode(Env, Expr), stmts_to_fcode(bind_var(Env, X), Stmts)};
 stmts_to_fcode(Env, [{letval, Ann, Pat, Expr} | Stmts]) ->
    expr_to_fcode(Env, {switch, Ann, Expr, [{'case', Ann, Pat, {block, Ann, Stmts}}]});
 stmts_to_fcode(Env, [{letfun, Ann, {id, _, X}, Args, _Type, Expr} | Stmts]) ->
    {'let', X, expr_to_fcode(Env, {lam, Ann, Args, Expr}),
               stmts_to_fcode(bind_var(Env, X), Stmts)};
@ -934,23 +1012,40 @@ op_builtins() ->
     mcl_bls12_381_int_to_fr, mcl_bls12_381_int_to_fp, mcl_bls12_381_fr_to_int, mcl_bls12_381_fp_to_int
    ].
-builtin_to_fcode(require, [Cond, Msg]) ->
+set_state({reg, R}, Val) ->
    {set_state, R, Val};
 set_state({tuple, Ls}, Val) ->
    ?make_let(X, Val,
    lists:foldr(fun({I, L}, Code) ->
                    {'let', "_", set_state(L, {proj, X, I - 1}), Code}
                end, {tuple, []}, indexed(Ls))).
 get_state({reg, R}) ->
    {get_state, R};
 get_state({tuple, Ls}) ->
    {tuple, [get_state(L) || L <- Ls]}.
 builtin_to_fcode(Layout, set_state, [Val]) ->
    set_state(Layout, Val);
 builtin_to_fcode(Layout, get_state, []) ->
    get_state(Layout);
 builtin_to_fcode(_Layout, require, [Cond, Msg]) ->
    make_if(Cond, {tuple, []}, {builtin, abort, [Msg]});
-builtin_to_fcode(chain_event, [Event]) ->
+builtin_to_fcode(_Layout, chain_event, [Event]) ->
    {def, event, [Event]};
-builtin_to_fcode(map_delete, [Key, Map]) ->
+builtin_to_fcode(_Layout, map_delete, [Key, Map]) ->
    {op, map_delete, [Map, Key]};
-builtin_to_fcode(map_member, [Key, Map]) ->
+builtin_to_fcode(_Layout, map_member, [Key, Map]) ->
    {op, map_member, [Map, Key]};
-builtin_to_fcode(map_lookup, [Key0, Map0]) ->
+builtin_to_fcode(_Layout, map_lookup, [Key0, Map0]) ->
    ?make_let(Key, Key0,
    ?make_let(Map, Map0,
     make_if({op, map_member, [Map, Key]},
             {con, [0, 1], 1, [{op, map_get, [Map, Key]}]},
             {con, [0, 1], 0, []})));
-builtin_to_fcode(map_lookup_default, [Key, Map, Def]) ->
+builtin_to_fcode(_Layout, map_lookup_default, [Key, Map, Def]) ->
    {op, map_get_d, [Map, Key, Def]};
-builtin_to_fcode(Builtin, Args) ->
+builtin_to_fcode(_Layout, Builtin, Args) ->
    case lists:member(Builtin, op_builtins()) of
        true  -> {op, Builtin, Args};
        false -> {builtin, Builtin, Args}
@ -965,8 +1060,9 @@ add_init_function(Env, Main, StateType, Funs0) ->
            Funs     = add_default_init_function(Env, Main, StateType, Funs0),
            InitName = {entrypoint, <<"init">>},
            InitFun  = #{ body := InitBody} = maps:get(InitName, Funs),
-            Funs#{ InitName => InitFun#{ return => {tuple, []},
+            Funs1 = Funs#{ InitName => InitFun#{ return => {tuple, []},
-                                         body   => {builtin, set_state, [InitBody]} } }
+                                                 body   => builtin_to_fcode(state_layout(Env), set_state, [InitBody]) } },
            Funs1
    end.
 add_default_init_function(_Env, Main, StateType, Funs) ->
@ -1017,12 +1113,10 @@ event_function(_Env = #{event_type := {variant_t, EventCons}}, EventType = {vari
 %% the top-level and replace it with a closure.
 -spec lambda_lift(fcode()) -> fcode().
-lambda_lift(FCode = #{ functions := Funs }) ->
+lambda_lift(FCode = #{ functions := Funs, state_layout := StateLayout }) ->
    init_fresh_names(),
    init_lambda_funs(),
-    Funs1   = maps:map(fun lambda_lift_fun/2, Funs),
+    Funs1   = maps:map(fun(_, Body) -> lambda_lift_fun(StateLayout, Body) end, Funs),
    NewFuns = get_lambda_funs(),
    clear_fresh_names(),
    FCode#{ functions := maps:merge(Funs1, NewFuns) }.
 -define(lambda_key, '%lambdalifted').
@ -1035,8 +1129,8 @@ add_lambda_fun(Def) ->
    put(?lambda_key, Funs#{ Name => Def }),
    Name.
-lambda_lift_fun(_, Def = #{ body := Body }) ->
+lambda_lift_fun(Layout, Def = #{ body := Body }) ->
-    Def#{ body := lambda_lift_expr(Body) }.
+    Def#{ body := lambda_lift_expr(Layout, Body) }.
 lifted_fun([Z], Xs, Body) ->
    #{ attrs  => [private],
@ -1057,10 +1151,10 @@ make_closure(FVs, Xs, Body) ->
    Tup = fun([Y]) -> Y; (Ys) -> {tuple, Ys} end,
    {closure, Fun, Tup([{var, Y} || Y <- FVs])}.
-lambda_lift_expr({lam, Xs, Body}) ->
+lambda_lift_expr(Layout, {lam, Xs, Body}) ->
    FVs   = free_vars({lam, Xs, Body}),
-    make_closure(FVs, Xs, lambda_lift_expr(Body));
+    make_closure(FVs, Xs, lambda_lift_expr(Layout, Body));
-lambda_lift_expr(UExpr) when element(1, UExpr) == def_u; element(1, UExpr) == builtin_u ->
+lambda_lift_expr(Layout, UExpr) when element(1, UExpr) == def_u; element(1, UExpr) == builtin_u ->
    [Tag, F, Ar | _] = tuple_to_list(UExpr),
    ExtraArgs = case UExpr of
                    {builtin_u, _, _, TypeArgs} -> TypeArgs;
@ -1069,40 +1163,42 @@ lambda_lift_expr(UExpr) when element(1, UExpr) == def_u; element(1, UExpr) == bu
    Xs   = [ lists:concat(["arg", I]) || I <- lists:seq(1, Ar) ],
    Args = [{var, X} || X <- Xs] ++ ExtraArgs,
    Body = case Tag of
-               builtin_u -> builtin_to_fcode(F, Args);
+               builtin_u -> builtin_to_fcode(Layout, F, Args);
               def_u     -> {def, F, Args}
           end,
    make_closure([], Xs, Body);
-lambda_lift_expr({remote_u, ArgsT, RetT, Ct, F}) ->
+lambda_lift_expr(Layout, {remote_u, ArgsT, RetT, Ct, F}) ->
    FVs  = free_vars(Ct),
-    Ct1  = lambda_lift_expr(Ct),
+    Ct1  = lambda_lift_expr(Layout, Ct),
    GasAndValueArgs = 2,
    Xs   = [ lists:concat(["arg", I]) || I <- lists:seq(1, length(ArgsT) + GasAndValueArgs) ],
    Args = [{var, X} || X <- Xs],
    make_closure(FVs, Xs, {remote, ArgsT, RetT, Ct1, F, Args});
-lambda_lift_expr(Expr) ->
+lambda_lift_expr(Layout, Expr) ->
    case Expr of
        {lit, _}               -> Expr;
        nil                    -> Expr;
        {var, _}               -> Expr;
        {closure, _, _}        -> Expr;
-        {def, D, As}           -> {def, D, lambda_lift_exprs(As)};
+        {def, D, As}           -> {def, D, lambda_lift_exprs(Layout, As)};
-        {builtin, B, As}       -> {builtin, B, lambda_lift_exprs(As)};
+        {builtin, B, As}       -> {builtin, B, lambda_lift_exprs(Layout, As)};
-        {remote, ArgsT, RetT, Ct, F, As} -> {remote, ArgsT, RetT, lambda_lift_expr(Ct), F, lambda_lift_exprs(As)};
+        {remote, ArgsT, RetT, Ct, F, As} -> {remote, ArgsT, RetT, lambda_lift_expr(Layout, Ct), F, lambda_lift_exprs(Layout, As)};
-        {con, Ar, C, As}       -> {con, Ar, C, lambda_lift_exprs(As)};
+        {con, Ar, C, As}       -> {con, Ar, C, lambda_lift_exprs(Layout, As)};
-        {tuple, As}            -> {tuple, lambda_lift_exprs(As)};
+        {tuple, As}            -> {tuple, lambda_lift_exprs(Layout, As)};
-        {proj, A, I}           -> {proj, lambda_lift_expr(A), I};
+        {proj, A, I}           -> {proj, lambda_lift_expr(Layout, A), I};
-        {set_proj, A, I, B}    -> {set_proj, lambda_lift_expr(A), I, lambda_lift_expr(B)};
+        {set_proj, A, I, B}    -> {set_proj, lambda_lift_expr(Layout, A), I, lambda_lift_expr(Layout, B)};
-        {op, Op, As}           -> {op, Op, lambda_lift_exprs(As)};
+        {op, Op, As}           -> {op, Op, lambda_lift_exprs(Layout, As)};
-        {'let', X, A, B}       -> {'let', X, lambda_lift_expr(A), lambda_lift_expr(B)};
+        {'let', X, A, B}       -> {'let', X, lambda_lift_expr(Layout, A), lambda_lift_expr(Layout, B)};
-        {funcall, A, Bs}       -> {funcall, lambda_lift_expr(A), lambda_lift_exprs(Bs)};
+        {funcall, A, Bs}       -> {funcall, lambda_lift_expr(Layout, A), lambda_lift_exprs(Layout, Bs)};
-        {switch, S}            -> {switch, lambda_lift_expr(S)};
+        {set_state, R, A}      -> {set_state, R, lambda_lift_expr(Layout, A)};
-        {split, Type, X, Alts} -> {split, Type, X, lambda_lift_exprs(Alts)};
+        {get_state, _}         -> Expr;
-        {nosplit, A}           -> {nosplit, lambda_lift_expr(A)};
+        {switch, S}            -> {switch, lambda_lift_expr(Layout, S)};
-        {'case', P, S}         -> {'case', P, lambda_lift_expr(S)}
+        {split, Type, X, Alts} -> {split, Type, X, lambda_lift_exprs(Layout, Alts)};
        {nosplit, A}           -> {nosplit, lambda_lift_expr(Layout, A)};
        {'case', P, S}         -> {'case', P, lambda_lift_expr(Layout, S)}
    end.
-lambda_lift_exprs(As) -> [lambda_lift_expr(A) || A <- As].
+lambda_lift_exprs(Layout, As) -> [lambda_lift_expr(Layout, A) || A <- As].
 %% -- Optimisations ----------------------------------------------------------
@ -1120,7 +1216,12 @@ optimize_fcode(Code = #{ functions := Funs }) ->
 -spec optimize_fun(fcode(), fun_name(), fun_def()) -> fun_def().
 optimize_fun(Fcode, Fun, Def = #{ body := Body }) ->
    %% io:format("Optimizing ~p =\n~s\n", [_Fun, prettypr:format(pp_fexpr(_Body))]),
-    Def#{ body := inliner(Fcode, Fun, Body) }.
+    Def#{ body := drop_unused_lets(
                  simplifier(
                  let_floating(
                  bind_subexpressions(
                  inline_local_functions(
                  inliner(Fcode, Fun, Body)))))) }.
 %% --- Inlining ---
@ -1136,6 +1237,246 @@ should_inline(_Fcode, _Fun1) -> false == list_to_atom("true").  %% Dialyzer
 inline(_Fcode, Fun, Args) -> {def, Fun, Args}. %% TODO
 %% --- Bind subexpressions ---
 -define(make_lets(Xs, Es, Body), make_lets(Es, fun(Xs) -> Body end)).
 bind_subexpressions(Expr) ->
    bottom_up(fun bind_subexpressions/2, Expr).
 bind_subexpressions(_, {tuple, Es}) ->
    ?make_lets(Xs, Es, {tuple, Xs});
 bind_subexpressions(_, {set_proj, A, I, B}) ->
    ?make_lets([X, Y], [A, B], {set_proj, X, I, Y});
 bind_subexpressions(_, E) -> E.
 make_lets(Es, Body) -> make_lets(Es, [], Body).
 make_lets([], Xs, Body)       -> Body(lists:reverse(Xs));
 make_lets([{var, _} = E | Es], Xs, Body) ->
    make_lets(Es, [E | Xs], Body);
 make_lets([{lit, _} = E | Es], Xs, Body) ->
    make_lets(Es, [E | Xs], Body);
 make_lets([E | Es], Xs, Body) ->
    ?make_let(X, E, make_lets(Es, [X | Xs], Body)).
 %% --- Inline local functions ---
 inline_local_functions(Expr) ->
    bottom_up(fun inline_local_functions/2, Expr).
 inline_local_functions(Env, {funcall, {proj, {var, Y}, 0}, [{proj, {var, Y}, 1} | Args]} = Expr) ->
    %% TODO: Don't always inline local funs?
    case maps:get(Y, Env, free) of
        {lam, Xs, Body} -> let_bind(lists:zip(Xs, Args), Body);
        _               -> Expr
    end;
 inline_local_functions(_, Expr) -> Expr.
 %% --- Let-floating ---
 let_floating(Expr) -> bottom_up(fun let_float/2, Expr).
 let_float(_, {'let', X, E, Body}) ->
    pull_out_let({'let', X, {here, E}, Body});
 let_float(_, {proj, E, I}) ->
    pull_out_let({proj, {here, E}, I});
 let_float(_, {set_proj, E, I, V}) ->
    pull_out_let({set_proj, {here, E}, I, {here, V}});
 let_float(_, {op, Op, Es}) ->
    {Lets, Es1} = pull_out_let([{here, E} || E <- Es]),
    let_bind(Lets, {op, Op, Es1});
 let_float(_, E) -> E.
 pull_out_let(Expr) when is_tuple(Expr) ->
    {Lets, Es} = pull_out_let(tuple_to_list(Expr)),
    Inner = list_to_tuple(Es),
    let_bind(Lets, Inner);
 pull_out_let(Es) when is_list(Es) ->
    case lists:splitwith(fun({here, _}) -> false; (_) -> true end, Es) of
        {Es0, [{here, E} | Es1]} ->
            case let_view(E) of
                {[], _}    ->
                    {Lets, Es2} = pull_out_let(Es1),
                    {Lets, Es0 ++ [E] ++ Es2};
                {Lets, E1} ->
                    {Lets1, Es2} = pull_out_let(Es1),
                    {Lets ++ Lets1, Es0 ++ [E1] ++ Es2}
            end;
        {_, []} -> {[], Es}
    end.
 %% Also renames the variables to fresh names
 let_view(E) -> let_view(E, [], []).
 let_view({'let', X, E, Rest}, Ren, Lets) ->
    Z = fresh_name(),
    let_view(Rest, [{X, Z} | Ren], [{Z, rename(Ren, E)} | Lets]);
 let_view(E, Ren, Lets) ->
    {lists:reverse(Lets), rename(Ren, E)}.
 %% --- Simplification ---
 -spec simplifier(fexpr()) -> fexpr().
 simplifier(Expr) ->
    bottom_up(fun simplify/2, Expr).
 -spec simplify(#{var_name() => fexpr()}, fexpr()) -> fexpr().
 %% (e₀, .., en).i ->
 %% let _ = e₀ in .. let x = ei in .. let _ = en in x
 simplify(_Env, {proj, {tuple, Es}, I}) ->
    It  = lists:nth(I + 1, Es),
    X   = fresh_name(),
    Dup = safe_to_duplicate(It),
    Val = if Dup -> It; true -> {var, X} end,
    lists:foldr(
      fun({J, E}, Rest) when I == J ->
            case Dup of
                true  -> Rest;
                false -> {'let', X, E, Rest}
            end;
         ({_, E}, Rest) ->
            case read_only(E) of
                true  -> Rest;
                false -> {'let', "_", E, Rest}
            end
        end, Val, indexed(Es));
 %% let x = e in .. x.i ..
 simplify(Env, {proj, {var, X}, I} = Expr) ->
    case simpl_proj(Env, I, {var, X}) of
        false -> Expr;
        E     -> E
    end;
 simplify(Env, {switch, Split}) ->
    case simpl_switch(Env, Split) of
        nomatch -> {builtin, abort, [{lit, {string, <<"Incomplete patterns">>}}]};
        stuck   -> {switch, Split};
        Expr    -> Expr
    end;
 simplify(_, E) ->
    E.
 simpl_proj(Env, I, Expr) ->
    IfSafe = fun(E) -> case safe_to_duplicate(E) of
                         true -> E;
                         false -> false
                       end end,
    case Expr of
        false                 -> false;
        {var, X}              -> simpl_proj(Env, I, maps:get(X, Env, false));
        {tuple, Es}           -> IfSafe(lists:nth(I + 1, Es));
        {set_proj, _, I, Val} -> IfSafe(Val);
        {set_proj, E, _, _}   -> simpl_proj(Env, I, E);
        {proj, E, J}          -> simpl_proj(Env, I, simpl_proj(Env, J, E));
        _                     -> false
    end.
 simpl_switch(_Env, {nosplit, E}) -> E;
 simpl_switch(Env, {split, _, X, Alts}) ->
    case constructor_form(Env, {var, X}) of
        false -> stuck;
        E     -> simpl_switch(Env, E, Alts)
    end.
 simpl_switch(_, _, []) -> nomatch;
 simpl_switch(Env, E, [{'case', Pat, Body} | Alts]) ->
    case match_pat(Pat, E) of
        false -> simpl_switch(Env, E, Alts);
        Binds ->
            Env1 = maps:merge(Env, maps:from_list(Binds)),
            case simpl_switch(Env1, Body) of
                nomatch -> simpl_switch(Env, E, Alts);
                stuck   -> stuck;
                Body1   -> let_bind(Binds, Body1)
            end
    end.
 -spec match_pat(fsplit_pat(), fexpr()) -> false | [{var_name(), fexpr()}].
 match_pat({tuple, Xs}, {tuple, Es})         -> lists:zip(Xs, Es);
 match_pat({con, _, C, Xs}, {con, _, C, Es}) -> lists:zip(Xs, Es);
 match_pat(L, {lit, L})                      -> [];
 match_pat(nil, nil)                         -> [];
 match_pat({'::', X, Y}, {op, '::', [A, B]}) -> [{X, A}, {Y, B}];
 match_pat({var, X}, E)                      -> [{X, E}];
 match_pat(_, _)                             -> false.
 constructor_form(Env, Expr) ->
    case Expr of
        {var, X} ->
            case maps:get(X, Env, free) of
                free -> false;
                E    -> constructor_form(Env, E)    %% TODO: shadowing?
            end;
        {set_proj, E, I, V} ->
            case constructor_form(Env, E) of
                {tuple, Es} -> {tuple, setnth(I + 1, V, Es)};
                _           -> false
            end;
        {proj, E, I} ->
            case constructor_form(Env, E) of
                {tuple, Es} -> constructor_form(Env, lists:nth(I + 1, Es));
                _           -> false
            end;
        {con, _, _, _} -> Expr;
        {tuple, _}     -> Expr;
        {lit, _}       -> Expr;
        nil            -> Expr;
        {op, '::', _}  -> Expr;
        _              -> false
    end.
 %% --- Drop unused lets ---
 drop_unused_lets(Expr) -> bottom_up(fun drop_unused_lets/2, Expr).
 drop_unused_lets(_, {'let', X, E, Body} = Expr) ->
    case {read_only(E), not lists:member(X, free_vars(Body))} of
        {true, true}  -> Body;
        {false, true} -> {'let', "_", E, Body};
        _             -> Expr
    end;
 drop_unused_lets(_, Expr) -> Expr.
 %% -- Static analysis --------------------------------------------------------
 safe_to_duplicate({lit, _})    -> true;
 safe_to_duplicate({var, _})    -> true;
 safe_to_duplicate(nil)         -> true;
 safe_to_duplicate({tuple, []}) -> true;
 safe_to_duplicate(_)           -> false.
 -spec read_only(fexpr() | fsplit() | fcase() | [fexpr()] | [fcase()]) -> boolean().
 read_only({lit, _})                -> true;
 read_only({var, _})                -> true;
 read_only(nil)                     -> true;
 read_only({con, _, _, Es})         -> read_only(Es);
 read_only({tuple, Es})             -> read_only(Es);
 read_only({proj, E, _})            -> read_only(E);
 read_only({set_proj, A, _, B})     -> read_only([A, B]);
 read_only({op, _, Es})             -> read_only(Es);
 read_only({get_state, _})          -> true;
 read_only({set_state, _, _})       -> false;
 read_only({def_u, _, _})           -> true;
 read_only({remote_u, _, _, _, _})  -> true;
 read_only({builtin_u, _, _})       -> true;
 read_only({builtin_u, _, _, _})    -> true;
 read_only({lam, _, _})             -> true;
 read_only({def, _, _})             -> false; %% TODO: purity analysis
 read_only({remote, _, _, _, _, _}) -> false;
 read_only({builtin, _, _})         -> false; %% TODO: some builtins are
 read_only({switch, Split})         -> read_only(Split);
 read_only({split, _, _, Cases})    -> read_only(Cases);
 read_only({nosplit, E})            -> read_only(E);
 read_only({'case', _, Split})      -> read_only(Split);
 read_only({'let', _, A, B})        -> read_only([A, B]);
 read_only({funcall, _, _})         -> false;
 read_only({closure, _, _})         -> internal_error(no_closures_here);
 read_only(Es) when is_list(Es)     -> lists:all(fun read_only/1, Es).
 %% --- Deadcode elimination ---
 -spec eliminate_dead_code(fcode()) -> fcode().
@ -1257,10 +1598,10 @@ resolve_var(#{ vars := Vars } = Env, [X]) ->
    end;
 resolve_var(Env, Q) -> resolve_fun(Env, Q).
-resolve_fun(#{ fun_env := Funs, builtins := Builtin }, Q) ->
+resolve_fun(#{ fun_env := Funs, builtins := Builtin } = Env, Q) ->
    case {maps:get(Q, Funs, not_found), maps:get(Q, Builtin, not_found)} of
        {not_found, not_found} -> internal_error({unbound_variable, Q});
-        {_, {B, none}}         -> {builtin, B, []};
+        {_, {B, none}}         -> builtin_to_fcode(state_layout(Env), B, []);
        {_, {B, Ar}}           -> {builtin_u, B, Ar};
        {{Fun, Ar}, _}         -> {def_u, Fun, Ar}
    end.
@ -1325,6 +1666,8 @@ free_vars(Expr) ->
        {op, _, As}          -> free_vars(As);
        {'let', X, A, B}     -> free_vars([A, {lam, [X], B}]);
        {funcall, A, Bs}     -> free_vars([A | Bs]);
        {set_state, _, A}    -> free_vars(A);
        {get_state, _}       -> [];
        {lam, Xs, B}         -> free_vars(B) -- lists:sort(Xs);
        {closure, _, A}      -> free_vars(A);
        {switch, A}          -> free_vars(A);
@ -1354,6 +1697,8 @@ used_defs(Expr) ->
        {op, _, As}          -> used_defs(As);
        {'let', _, A, B}     -> used_defs([A, B]);
        {funcall, A, Bs}     -> used_defs([A | Bs]);
        {set_state, _, A}    -> used_defs(A);
        {get_state, _}       -> [];
        {lam, _, B}          -> used_defs(B);
        {closure, F, A}      -> lists:umerge([F], used_defs(A));
        {switch, A}          -> used_defs(A);
@ -1362,6 +1707,50 @@ used_defs(Expr) ->
        {'case', _, A}       -> used_defs(A)
    end.
 bottom_up(F, Expr) -> bottom_up(F, #{}, Expr).
 bottom_up(F, Env, Expr) ->
    F(Env, case Expr of
        {lit, _}                         -> Expr;
        nil                              -> Expr;
        {var, _}                         -> Expr;
        {def, D, Es}                     -> {def, D, [bottom_up(F, Env, E) || E <- Es]};
        {def_u, _, _}                    -> Expr;
        {builtin, B, Es}                 -> {builtin, B, [bottom_up(F, Env, E) || E <- Es]};
        {builtin_u, _, _}                -> Expr;
        {builtin_u, _, _, _}             -> Expr;
        {remote, ArgsT, RetT, Ct, Fun, Es} -> {remote,   ArgsT, RetT, bottom_up(F, Env, Ct), Fun, [bottom_up(F, Env, E) || E <- Es]};
        {remote_u, ArgsT, RetT, Ct, Fun}   -> {remote_u, ArgsT, RetT, bottom_up(F, Env, Ct), Fun};
        {con, Ar, I, Es}                 -> {con, Ar, I, [bottom_up(F, Env, E) || E <- Es]};
        {tuple, Es}                      -> {tuple, [bottom_up(F, Env, E) || E <- Es]};
        {proj, E, I}                     -> {proj, bottom_up(F, Env, E), I};
        {set_proj, R, I, E}              -> {set_proj, bottom_up(F, Env, R), I, bottom_up(F, Env, E)};
        {op, Op, Es}                     -> {op, Op, [bottom_up(F, Env, E) || E <- Es]};
        {funcall, Fun, Es}               -> {funcall, bottom_up(F, Env, Fun), [bottom_up(F, Env, E) || E <- Es]};
        {set_state, R, E}                -> {set_state, R, bottom_up(F, Env, E)};
        {get_state, _}                   -> Expr;
        {closure, F, CEnv}               -> {closure, F, bottom_up(F, Env, CEnv)};
        {switch, Split}                  -> {switch, bottom_up(F, Env, Split)};
        {lam, Xs, B}                     -> {lam, Xs, bottom_up(F, Env, B)};
        {'let', X, E, Body}              ->
            E1 = bottom_up(F, Env, E),
            %% Always freshen user variables to avoid shadowing issues.
            ShouldFreshen = fun(Y = "%" ++ _) -> maps:is_key(Y, Env);
                               (_)            -> true end,
            case ShouldFreshen(X) of
                true ->
                    Z = fresh_name(),
                    Env1 = Env#{ Z => E1 },
                    {'let', Z, E1, bottom_up(F, Env1, rename([{X, Z}], Body))};
                false ->
                    Env1 = Env#{ X => E1 },
                    {'let', X, E1, bottom_up(F, Env1, Body)}
            end;
        {split, Type, X, Cases}          -> {split, Type, X, [bottom_up(F, Env, Case) || Case <- Cases]};
        {nosplit, E}                     -> {nosplit, bottom_up(F, Env, E)};
        {'case', Pat, Split}             -> {'case', Pat, bottom_up(F, Env, Split)}
    end).
 get_named_args(NamedArgsT, Args) ->
    IsNamed = fun({named_arg, _, _, _}) -> true;
                 (_) -> false end,
@ -1396,6 +1785,8 @@ rename(Ren, Expr) ->
        {set_proj, R, I, E}   -> {set_proj, rename(Ren, R), I, rename(Ren, E)};
        {op, Op, Es}          -> {op, Op, [rename(Ren, E) || E <- Es]};
        {funcall, Fun, Es}    -> {funcall, rename(Ren, Fun), [rename(Ren, E) || E <- Es]};
        {set_state, R, E}     -> {set_state, R, rename(Ren, E)};
        {get_state, _}        -> Expr;
        {closure, F, Env}     -> {closure, F, rename(Ren, Env)};
        {switch, Split}       -> {switch, rename_split(Ren, Split)};
        {lam, Xs, B} ->
@ -1502,6 +1893,10 @@ get_attributes(Ann) ->
 indexed(Xs) ->
    lists:zip(lists:seq(1, length(Xs)), Xs).
 setnth(I, X, Xs) ->
    {Ys, [_ | Zs]} = lists:split(I - 1, Xs),
    Ys ++ [X] ++ Zs.
 -dialyzer({nowarn_function, [fcode_error/1, internal_error/1]}).
 fcode_error(Error) ->
@ -1604,9 +1999,18 @@ pp_fexpr({op, Op, [A] = Args}) ->
    end;
 pp_fexpr({op, Op, As}) ->
    pp_beside(pp_text(Op), pp_fexpr({tuple, As}));
-pp_fexpr({'let', X, A, B}) ->
+pp_fexpr({'let', _, _, _} = Expr) ->
-    pp_par([pp_beside([pp_text("let "), pp_text(X), pp_text(" = "), pp_fexpr(A), pp_text(" in")]),
+    Lets = fun Lets({'let', Y, C, D}) ->
-            pp_fexpr(B)]);
+                        {Ls, E} = Lets(D),
                        {[{Y, C} | Ls], E};
               Lets(E) -> {[], E} end,
    {Ls, Body} = Lets(Expr),
    pp_parens(
      pp_par(
        [ pp_beside([ pp_text("let "),
                      pp_above([ pp_par([pp_text(X), pp_text("="), prettypr:nest(2, pp_fexpr(A))]) || {X, A} <- Ls ]),
                      pp_text(" in ") ]),
          pp_fexpr(Body) ]));
 pp_fexpr({builtin_u, B, N}) ->
    pp_beside([pp_text(B), pp_text("/"), pp_text(N)]);
 pp_fexpr({builtin_u, B, N, TypeArgs}) ->
@ -1619,6 +2023,10 @@ pp_fexpr({remote, ArgsT, RetT, Ct, Fun, As}) ->
    pp_call(pp_parens(pp_beside([pp_fexpr(Ct), pp_text("."), pp_fun_name(Fun), pp_text(" : "), pp_ftype({function, ArgsT, RetT})])), As);
 pp_fexpr({funcall, Fun, As}) ->
    pp_call(pp_fexpr(Fun), As);
 pp_fexpr({set_state, R, A}) ->
    pp_call(pp_text("set_state"), [{lit, {int, R}}, A]);
 pp_fexpr({get_state, R}) ->
    pp_call(pp_text("get_state"), [{lit, {int, R}}]);
 pp_fexpr({switch, Split}) -> pp_split(Split).
 pp_call(Fun, Args) ->
@ -1634,7 +2042,7 @@ pp_ftype({tvar, X}) -> pp_text(X);
 pp_ftype({bytes, N}) -> pp_call(pp_text("bytes"), [{lit, {int, N}}]);
 pp_ftype({oracle, Q, R}) -> pp_call_t("oracle", [Q, R]);
 pp_ftype({tuple, Ts}) ->
-    pp_parens(pp_par(pp_punctuate(pp_text(","), [pp_ftype(T) || T <- Ts])));
+    pp_parens(pp_par(pp_punctuate(pp_text(" *"), [pp_ftype(T) || T <- Ts])));
 pp_ftype({list, T}) ->
    pp_call_t("list", [T]);
 pp_ftype({function, Args, Res}) ->
--- a/src/aeso_ast_to_icode.erl
+++ b/src/aeso_ast_to_icode.erl
@ -318,19 +318,23 @@ ast_body({app, As, Fun, Args}, Icode) ->
    end;
 ast_body({list_comp, _, Yield, []}, Icode) ->
    #list{elems = [ast_body(Yield, Icode)]};
-ast_body({list_comp, As, Yield, [{comprehension_bind, {typed, Arg, ArgType}, BindExpr}|Rest]}, Icode) ->
+ast_body({list_comp, As, Yield, [{comprehension_bind, {typed, _, Pat, ArgType}, BindExpr}|Rest]}, Icode) ->
    Arg  = "%lc",
    Body = {switch, As, {typed, As, {id, As, Arg}, ArgType},
                [{'case', As, Pat, {list_comp, As, Yield, Rest}},
                 {'case', As, {id, As, "_"}, {list, As, []}}]},
    #funcall
        { function = #var_ref{ name = ["ListInternal", "flat_map"] }
        , args =
-              [ #lambda{ args=[#arg{name = ast_id(Arg), type = ast_type(ArgType, Icode)}]
+              [ #lambda{ args=[#arg{name = Arg, type = ast_type(ArgType, Icode)}]
-                       , body = ast_body({list_comp, As, Yield, Rest}, Icode)
+                       , body = ast_body(Body, Icode)
                       }
              , ast_body(BindExpr, Icode)
              ]
        };
 ast_body({list_comp, As, Yield, [{comprehension_if, AsIF, Cond}|Rest]}, Icode) ->
    ast_body({'if', AsIF, Cond, {list_comp, As, Yield, Rest}, {list, As, []}}, Icode);
-ast_body({list_comp, As, Yield, [LV = {letval, _, _, _, _}|Rest]}, Icode) ->
+ast_body({list_comp, As, Yield, [LV = {letval, _, _, _}|Rest]}, Icode) ->
    ast_body({block, As, [LV, {list_comp, As, Yield, Rest}]}, Icode);
 ast_body({list_comp, As, Yield, [LF = {letfun, _, _, _, _, _}|Rest]}, Icode) ->
    ast_body({block, As, [LF, {list_comp, As, Yield, Rest}]}, Icode);
@ -344,14 +348,14 @@ ast_body({switch,_,A,Cases}, Icode) ->
    #switch{expr=ast_body(A, Icode),
            cases=[{ast_body(Pat, Icode),ast_body(Body, Icode)}
              || {'case',_,Pat,Body} <- Cases]};
-ast_body({block, As, [{letval, _, Pat, _, E} | Rest]}, Icode) ->
+ast_body({block, As, [{letval, _, Pat, E} | Rest]}, Icode) ->
    E1    = ast_body(E, Icode),
    Pat1  = ast_body(Pat, Icode),
    Rest1 = ast_body({block, As, Rest}, Icode),
    #switch{expr  = E1,
            cases = [{Pat1, Rest1}]};
 ast_body({block, As, [{letfun, Ann, F, Args, _Type, Expr} | Rest]}, Icode) ->
-    ast_body({block, As, [{letval, Ann, F, unused, {lam, Ann, Args, Expr}} | Rest]}, Icode);
+    ast_body({block, As, [{letval, Ann, F, {lam, Ann, Args, Expr}} | Rest]}, Icode);
 ast_body({block,_,[]}, _Icode) ->
    #tuple{cpts=[]};
 ast_body({block,_,[E]}, Icode) ->
--- a/src/aeso_fcode_to_fate.erl
+++ b/src/aeso_fcode_to_fate.erl
@ -42,7 +42,7 @@
 -define(i(X), {immediate, X}).
 -define(a,    {stack, 0}).
-define(s, {store, 1}).
+-define(s(N), {store, N}).
 -define(void, {var, 9999}).
 -record(env, { contract, vars = [], locals = [], current_function, tailpos = true }).
@ -120,9 +120,10 @@ type_to_scode(name)            -> name;
 type_to_scode(channel)         -> channel;
 type_to_scode(bits)            -> bits;
 type_to_scode(any)             -> any;
-type_to_scode({variant, Cons}) -> {variant, lists:map(fun(T) -> type_to_scode({tuple, T}) end, Cons)};
+type_to_scode({variant, Cons}) -> {variant, [{tuple, types_to_scode(Con)} || Con <- Cons]};
 type_to_scode({list, Type})    -> {list, type_to_scode(Type)};
-type_to_scode({tuple, Types})  -> {tuple, lists:map(fun type_to_scode/1, Types)};
+type_to_scode({tuple, [Type]}) -> type_to_scode(Type);
 type_to_scode({tuple, Types})  -> {tuple, types_to_scode(Types)};
 type_to_scode({map, Key, Val}) -> {map, type_to_scode(Key), type_to_scode(Val)};
 type_to_scode({function, _Args, _Res}) -> {tuple, [string, any]};
 type_to_scode({tvar, X}) ->
@ -134,6 +135,8 @@ type_to_scode({tvar, X}) ->
        J -> {tvar, J}
    end.
 types_to_scode(Ts) -> lists:map(fun type_to_scode/1, Ts).
 %% -- Phase I ----------------------------------------------------------------
 %%  Icode to structured assembly
@ -179,84 +182,99 @@ lit_to_fate(L) ->
        {typerep, T}         -> aeb_fate_data:make_typerep(type_to_scode(T))
     end.
-term_to_fate({lit, L}) ->
+term_to_fate(E) -> term_to_fate(#{}, E).
 term_to_fate(_Env, {lit, L}) ->
    lit_to_fate(L);
 %% negative literals are parsed as 0 - N
-term_to_fate({op, '-', [{lit, {int, 0}}, {lit, {int, N}}]}) ->
+term_to_fate(_Env, {op, '-', [{lit, {int, 0}}, {lit, {int, N}}]}) ->
    aeb_fate_data:make_integer(-N);
-term_to_fate(nil) ->
+term_to_fate(_Env, nil) ->
    aeb_fate_data:make_list([]);
-term_to_fate({op, '::', [Hd, Tl]}) ->
+term_to_fate(Env, {op, '::', [Hd, Tl]}) ->
    %% The Tl will translate into a list, because FATE lists are just lists
-    [term_to_fate(Hd) | term_to_fate(Tl)];
+    [term_to_fate(Env, Hd) | term_to_fate(Env, Tl)];
-term_to_fate({tuple, As}) ->
+term_to_fate(Env, {tuple, As}) ->
-    aeb_fate_data:make_tuple(list_to_tuple([ term_to_fate(A) || A<-As]));
+    aeb_fate_data:make_tuple(list_to_tuple([ term_to_fate(Env, A) || A<-As]));
-term_to_fate({con, Ar, I, As}) ->
+term_to_fate(Env, {con, Ar, I, As}) ->
-    FateAs = [ term_to_fate(A) || A <- As ],
+    FateAs = [ term_to_fate(Env, A) || A <- As ],
    aeb_fate_data:make_variant(Ar, I, list_to_tuple(FateAs));
-term_to_fate({builtin, bits_all, []}) ->
+term_to_fate(_Env, {builtin, bits_all, []}) ->
    aeb_fate_data:make_bits(-1);
-term_to_fate({builtin, bits_none, []}) ->
+term_to_fate(_Env, {builtin, bits_none, []}) ->
    aeb_fate_data:make_bits(0);
-term_to_fate({op, bits_set, [B, I]}) ->
+term_to_fate(_Env, {op, bits_set, [B, I]}) ->
    {bits, N} = term_to_fate(B),
    J         = term_to_fate(I),
    {bits, N bor (1 bsl J)};
-term_to_fate({op, bits_clear, [B, I]}) ->
+term_to_fate(_Env, {op, bits_clear, [B, I]}) ->
    {bits, N} = term_to_fate(B),
    J         = term_to_fate(I),
    {bits, N band bnot (1 bsl J)};
-term_to_fate({builtin, map_empty, []}) ->
+term_to_fate(Env, {'let', X, E, Body}) ->
    Env1 = Env#{ X => term_to_fate(Env, E) },
    term_to_fate(Env1, Body);
 term_to_fate(Env, {var, X}) ->
    case maps:get(X, Env, undefined) of
        undefined -> throw(not_a_fate_value);
        V         -> V
    end;
 term_to_fate(_Env, {builtin, map_empty, []}) ->
    aeb_fate_data:make_map(#{});
-term_to_fate({'let', _, {builtin, map_empty, []}, Set}) ->
+term_to_fate(Env, {op, map_set, [M, K, V]}) ->
-    aeb_fate_data:make_map(map_to_fate(Set)).
+    Map = term_to_fate(Env, M),
    Map#{term_to_fate(Env, K) => term_to_fate(Env, V)};
 term_to_fate(_Env, _) ->
    throw(not_a_fate_value).
-map_to_fate({op, map_set, [{var, _}, K, V]}) ->
+to_scode(Env, T) ->
-    #{term_to_fate(K) => term_to_fate(V)};
+    try term_to_fate(T) of
-map_to_fate({op, map_set, [Set, K, V]}) ->
+        V -> [push(?i(V))]
-    Map = map_to_fate(Set), Map#{term_to_fate(K) => term_to_fate(V)}.
+    catch throw:not_a_fate_value ->
        to_scode1(Env, T)
    end.
-to_scode(_Env, {lit, L}) ->
+to_scode1(_Env, {lit, L}) ->
    [push(?i(lit_to_fate(L)))];
-to_scode(_Env, nil) ->
+to_scode1(_Env, nil) ->
    [aeb_fate_ops:nil(?a)];
-to_scode(Env, {var, X}) ->
+to_scode1(Env, {var, X}) ->
    [push(lookup_var(Env, X))];
-to_scode(Env, {con, Ar, I, As}) ->
+to_scode1(Env, {con, Ar, I, As}) ->
    N = length(As),
    [[to_scode(notail(Env), A) || A <- As],
     aeb_fate_ops:variant(?a, ?i(Ar), ?i(I), ?i(N))];
-to_scode(Env, {tuple, As}) ->
+to_scode1(Env, {tuple, As}) ->
    N = length(As),
    [[ to_scode(notail(Env), A) || A <- As ],
     tuple(N)];
-to_scode(Env, {proj, E, I}) ->
+to_scode1(Env, {proj, E, I}) ->
    [to_scode(notail(Env), E),
     aeb_fate_ops:element_op(?a, ?i(I), ?a)];
-to_scode(Env, {set_proj, R, I, E}) ->
+to_scode1(Env, {set_proj, R, I, E}) ->
    [to_scode(notail(Env), E),
     to_scode(notail(Env), R),
     aeb_fate_ops:setelement(?a, ?i(I), ?a, ?a)];
-to_scode(Env, {op, Op, Args}) ->
+to_scode1(Env, {op, Op, Args}) ->
    call_to_scode(Env, op_to_scode(Op), Args);
-to_scode(Env, {'let', X, {var, Y}, Body}) ->
+to_scode1(Env, {'let', X, {var, Y}, Body}) ->
    Env1 = bind_var(X, lookup_var(Env, Y), Env),
    to_scode(Env1, Body);
-to_scode(Env, {'let', X, Expr, Body}) ->
+to_scode1(Env, {'let', X, Expr, Body}) ->
    {I, Env1} = bind_local(X, Env),
    [ to_scode(notail(Env), Expr),
      aeb_fate_ops:store({var, I}, {stack, 0}),
      to_scode(Env1, Body) ];
-to_scode(Env = #env{ current_function = Fun, tailpos = true }, {def, Fun, Args}) ->
+to_scode1(Env = #env{ current_function = Fun, tailpos = true }, {def, Fun, Args}) ->
    %% Tail-call to current function, f(e0..en). Compile to
    %%      [ let xi = ei ]
    %%      [ STORE argi xi ]
@ -274,17 +292,17 @@ to_scode(Env = #env{ current_function = Fun, tailpos = true }, {def, Fun, Args})
        || {I, J} <- lists:zip(lists:seq(0, length(Vars) - 1),
                               lists:reverse(Vars)) ],
      loop ];
-to_scode(Env, {def, Fun, Args}) ->
+to_scode1(Env, {def, Fun, Args}) ->
    FName = make_function_id(Fun),
    Lbl   = aeb_fate_data:make_string(FName),
    call_to_scode(Env, local_call(Env, ?i(Lbl)), Args);
-to_scode(Env, {funcall, Fun, Args}) ->
+to_scode1(Env, {funcall, Fun, Args}) ->
    call_to_scode(Env, [to_scode(Env, Fun), local_call(Env, ?a)], Args);
-to_scode(Env, {builtin, B, Args}) ->
+to_scode1(Env, {builtin, B, Args}) ->
    builtin_to_scode(Env, B, Args);
-to_scode(Env, {remote, ArgsT, RetT, Ct, Fun, [Gas, Value | Args]}) ->
+to_scode1(Env, {remote, ArgsT, RetT, Ct, Fun, [Gas, Value | Args]}) ->
    Lbl = make_function_id(Fun),
    {ArgTypes, RetType0} = typesig_to_scode([{"_", T} || T <- ArgsT], RetT),
    ArgType = ?i(aeb_fate_data:make_typerep({tuple, ArgTypes})),
@ -298,10 +316,16 @@ to_scode(Env, {remote, ArgsT, RetT, Ct, Fun, [Gas, Value | Args]}) ->
            call_to_scode(Env, Call, [Ct, Value, Gas | Args])
    end;
-to_scode(Env, {closure, Fun, FVs}) ->
+to_scode1(_Env, {get_state, Reg}) ->
    [push(?s(Reg))];
 to_scode1(Env, {set_state, Reg, Val}) ->
    call_to_scode(Env, [{'STORE', ?s(Reg), ?a},
                        tuple(0)], [Val]);
 to_scode1(Env, {closure, Fun, FVs}) ->
    to_scode(Env, {tuple, [{lit, {string, make_function_id(Fun)}}, FVs]});
-to_scode(Env, {switch, Case}) ->
+to_scode1(Env, {switch, Case}) ->
    split_to_scode(Env, Case).
 local_call( Env, Fun) when Env#env.tailpos -> aeb_fate_ops:call_t(Fun);
@ -420,11 +444,6 @@ call_to_scode(Env, CallCode, Args) ->
    [[to_scode(notail(Env), A) || A <- lists:reverse(Args)],
     CallCode].
 builtin_to_scode(_Env, get_state, []) ->
    [push(?s)];
 builtin_to_scode(Env, set_state, [_] = Args) ->
    call_to_scode(Env, [{'STORE', ?s, ?a},
                        tuple(0)], Args);
 builtin_to_scode(Env, chain_event, Args) ->
    call_to_scode(Env, [erlang:apply(aeb_fate_ops, log, lists:duplicate(length(Args), ?a)),
                        tuple(0)], Args);
@ -674,7 +693,7 @@ pp_op(I)    ->
 pp_arg(?i(I))    -> io_lib:format("~w", [I]);
 pp_arg({arg, N}) -> io_lib:format("arg~p", [N]);
-pp_arg({store, N}) -> io_lib:format("store~p", [N]);
+pp_arg(?s(N))    -> io_lib:format("store~p", [N]);
 pp_arg({var, N}) -> io_lib:format("var~p", [N]);
 pp_arg(?a)       -> "a".
@ -1419,7 +1438,7 @@ desugar_args(I) when is_tuple(I) ->
    list_to_tuple([Op | lists:map(fun desugar_arg/1, Args)]);
 desugar_args(I) -> I.
-desugar_arg({store, N}) -> {var, -N};
+desugar_arg(?s(N)) -> {var, -N};
 desugar_arg(A) -> A.
 %% -- Phase III --------------------------------------------------------------
@ -1629,6 +1648,7 @@ tweak_returns(['RETURN', {'PUSH', A} | Code])          -> [{'RETURNR', A} | Code
 tweak_returns(['RETURN' | Code = [{'CALL_T', _} | _]]) -> Code;
 tweak_returns(['RETURN' | Code = [{'ABORT', _} | _]])  -> Code;
 tweak_returns(['RETURN' | Code = [{'EXIT', _} | _]])   -> Code;
 tweak_returns(['RETURN' | Code = [loop | _]])          -> Code;
 tweak_returns(Code) -> Code.
 %% -- Split basic blocks at CALL instructions --
@ -1642,8 +1662,7 @@ split_calls(Ref, [], Acc, Blocks) ->
 split_calls(Ref, [I | Code], Acc, Blocks) when element(1, I) == 'CALL';
                                               element(1, I) == 'CALL_R';
                                               element(1, I) == 'CALL_GR';
-                                               element(1, I) == 'jumpif';
+                                               element(1, I) == 'jumpif' ->
                                               I == loop ->
    split_calls(make_ref(), Code, [], [{Ref, lists:reverse([I | Acc])} | Blocks]);
 split_calls(Ref, [{'ABORT', _} = I | _Code], Acc, Blocks) ->
    lists:reverse([{Ref, lists:reverse([I | Acc])} | Blocks]);
--- a/src/aeso_parser.erl
+++ b/src/aeso_parser.erl
@ -164,9 +164,7 @@ letdecl() ->
 letdef() -> choice(valdef(), fundef()).
 valdef() ->
-    choice(
+    ?RULE(pattern(), tok('='), body(), {letval, [], _1, _3}).
        ?RULE(id(),                   tok('='), body(), {letval, [], _1, type_wildcard(), _3}),
        ?RULE(id(), tok(':'), type(), tok('='), body(), {letval, [], _1, _3, _5})).
 fundef() ->
    choice(
@ -238,7 +236,7 @@ branch() ->
    ?RULE(pattern(), keyword('=>'), body(), {'case', _2, _1, _3}).
 pattern() ->
-    ?LET_P(E, expr500(), parse_pattern(E)).
+    ?LET_P(E, expr(), parse_pattern(E)).
 %% -- Expressions ------------------------------------------------------------
@ -297,7 +295,7 @@ comprehension_if() ->
    ?RULE(keyword('if'), parens(expr()), {comprehension_if, _1, _2}).
 comprehension_bind() ->
-    ?RULE(id(), tok('<-'), expr(), {comprehension_bind, _1, _3}).
+    ?RULE(pattern(), tok('<-'), expr(), {comprehension_bind, _1, _3}).
 arg_expr() ->
    ?LAZY_P(
@ -349,7 +347,9 @@ record(Fs) ->
                        bad_expr_err("Cannot use '@' in map construction", infix({lvalue, FAnn, LV}, {'@', Ann}, Id));
                    ({field, FAnn, LV, _}) ->
                        bad_expr_err("Cannot use nested fields or keys in map construction", {lvalue, FAnn, LV}) end,
-            {map, Ann, lists:map(KV, Fs)}
+            {map, Ann, lists:map(KV, Fs)};
        record_or_map_error ->
            {record_or_map_error, get_ann(hd(Fs)), Fs}
    end.
 record_or_map(Fields) ->
@ -361,9 +361,7 @@ record_or_map(Fields) ->
    case lists:usort(lists:map(Kind, Fields)) of
        [proj]    -> record;
        [map_get] -> map;
-        _         ->
+        _         -> record_or_map_error %% Defer error until type checking
            [{field, Ann, _, _} | _] = Fields,
            bad_expr_err("Mixed record fields and map keys in", {record, Ann, Fields})
    end.
 field_assignment() ->
@ -545,7 +543,9 @@ list_comp_e(Ann, Expr, Binds) -> {list_comp, Ann, Expr, Binds}.
 -spec parse_pattern(aeso_syntax:expr()) -> aeso_parse_lib:parser(aeso_syntax:pat()).
 parse_pattern({app, Ann, Con = {'::', _}, Es}) ->
    {app, Ann, Con, lists:map(fun parse_pattern/1, Es)};
-parse_pattern({app, Ann, Con = {con, _, _}, Es}) ->
+parse_pattern({app, Ann, {'-', _}, [{int, _, N}]}) ->
    {int, Ann, -N};
 parse_pattern({app, Ann, Con = {Tag, _, _}, Es}) when Tag == con; Tag == qcon ->
    {app, Ann, Con, lists:map(fun parse_pattern/1, Es)};
 parse_pattern({tuple, Ann, Es}) ->
    {tuple, Ann, lists:map(fun parse_pattern/1, Es)};
@ -553,7 +553,10 @@ parse_pattern({list, Ann, Es}) ->
    {list, Ann, lists:map(fun parse_pattern/1, Es)};
 parse_pattern({record, Ann, Fs}) ->
    {record, Ann, lists:map(fun parse_field_pattern/1, Fs)};
 parse_pattern({typed, Ann, E, Type}) ->
    {typed, Ann, parse_pattern(E), Type};
 parse_pattern(E = {con, _, _})    -> E;
 parse_pattern(E = {qcon, _, _})   -> E;
 parse_pattern(E = {id, _, _})     -> E;
 parse_pattern(E = {int, _, _})    -> E;
 parse_pattern(E = {bool, _, _})   -> E;
--- a/src/aeso_pretty.erl
+++ b/src/aeso_pretty.erl
@ -169,7 +169,7 @@ decl(D = {letfun, Attrs, _, _, _, _}) ->
              false -> "function"
          end,
    hsep(lists:map(Mod, Attrs) ++ [letdecl(Fun, D)]);
-decl(D = {letval, _, _, _, _}) -> letdecl("let", D).
+decl(D = {letval, _, _, _}) -> letdecl("let", D).
 -spec pragma(aeso_syntax:pragma()) -> doc().
 pragma({compiler, Op, Ver}) ->
@ -193,8 +193,8 @@ name({tvar, _, Name})  -> text(Name);
 name({typed, _, Name, _}) -> name(Name).
 -spec letdecl(string(), aeso_syntax:letbind()) -> doc().
-letdecl(Let, {letval, _, F, T, E}) ->
+letdecl(Let, {letval, _, P, E}) ->
-    block_expr(0, hsep([text(Let), typed(name(F), T), text("=")]), E);
+    block_expr(0, hsep([text(Let), expr(P), text("=")]), E);
 letdecl(Let, {letfun, _, F, Args, T, E}) ->
    block_expr(0, hsep([text(Let), typed(beside(name(F), args(Args)), T), text("=")]), E).
@ -305,6 +305,8 @@ expr_p(_, {tuple, _, Es}) ->
    tuple(lists:map(fun expr/1, Es));
 expr_p(_, {list, _, Es}) ->
    list(lists:map(fun expr/1, Es));
 expr_p(_, {list_comp, _, E, Binds}) ->
    list([follow(expr(E), hsep(text("|"), par(punctuate(text(","), lists:map(fun lc_bind/1, Binds)), 0)), 0)]);
 expr_p(_, {record, _, Fs}) ->
    record(lists:map(fun field/1, Fs));
 expr_p(_, {map, Ann, KVs}) ->
@ -387,6 +389,13 @@ stmt_p({else, Else}) ->
        _ -> block_expr(200, text("else"), Else)
    end.
 lc_bind({comprehension_bind, P, E}) ->
    follow(hsep(expr(P), text("<-")), expr(E));
 lc_bind({comprehension_if, _, E}) ->
    beside([text("if("), expr(E), text(")")]);
 lc_bind(Let) ->
    letdecl("let", Let).
 -spec bin_prec(aeso_syntax:bin_op()) -> {integer(), integer(), integer()}.
 bin_prec('..')   -> {  0,   0,   0};  %% Always printed inside '[ ]'
 bin_prec('=')    -> {  0,   0,   0};  %% Always printed inside '[ ]'
@ -450,7 +459,7 @@ elim1(Get={map_get, _, _})    -> elim(Get);
 elim1(Get={map_get, _, _, _}) -> elim(Get).
 alt({'case', _, Pat, Body}) ->
-    block_expr(0, hsep(expr_p(500, Pat), text("=>")), Body).
+    block_expr(0, hsep(expr(Pat), text("=>")), Body).
 block_expr(_, Header, {block, _, Ss}) ->
    block(Header, statements(Ss));
@ -460,7 +469,7 @@ block_expr(P, Header, E) ->
 statements(Stmts) ->
    above([ statement(S) || S <- Stmts ]).
-statement(S = {letval, _, _, _, _})    -> letdecl("let", S);
+statement(S = {letval, _, _, _})       -> letdecl("let", S);
 statement(S = {letfun, _, _, _, _, _}) -> letdecl("let", S);
 statement(E) -> expr(E).
--- a/src/aeso_syntax.erl
+++ b/src/aeso_syntax.erl
@ -47,7 +47,7 @@
 -type pragma() :: {compiler, '==' | '<' | '>' | '=<' | '>=', compiler_version()}.
 -type letbind()
-    :: {letval, ann(), id(), type(), expr()}
+    :: {letval, ann(), pat(), expr()}
     | {letfun, ann(), id(), [arg()], type(), expr()}.
 -type arg() :: {arg, ann(), id(), type()}.
@ -100,9 +100,8 @@
     | {list, ann(), [expr()]}
     | {list_comp, ann(), expr(), [comprehension_exp()]}
     | {typed, ann(), expr(), type()}
-     | {record, ann(), [field(expr())]}
+     | {record_or_map(), ann(), [field(expr())]}
-     | {record, ann(), expr(), [field(expr())]} %% record update
+     | {record_or_map(), ann(), expr(), [field(expr())]} %% record/map update
     | {map, ann(), expr(), [field(expr())]}    %% map update
     | {map, ann(), [{expr(), expr()}]}
     | {map_get, ann(), expr(), expr()}
     | {map_get, ann(), expr(), expr(), expr()}
@ -111,7 +110,9 @@
     | id() | qid() | con() | qcon()
     | constant().
-type comprehension_exp() :: [ {comprehension_bind, id(), expr()}
+-type record_or_map() :: record | map | record_or_map_error.
 -type comprehension_exp() :: [ {comprehension_bind, pat(), expr()}
                             | {comprehension_if, ann(), expr()}
                             | letbind() ].
@ -139,6 +140,7 @@
 -type pat() :: {app, ann(), con() | op(), [pat()]}
             | {tuple, ann(), [pat()]}
             | {list, ann(), [pat()]}
             | {typed, ann(), pat(), type()}
             | {record, ann(), [field(pat())]}
             | constant()
             | con()
--- a/src/aeso_syntax_utils.erl
+++ b/src/aeso_syntax_utils.erl
@ -48,7 +48,7 @@ fold(Alg = #alg{zero = Zero, plus = Plus, scoped = Scoped}, Fun, K, X) ->
            {type_decl, _, I, _}     -> BindType(I);
            {type_def, _, I, _, D}   -> Plus(BindType(I), Decl(D));
            {fun_decl, _, _, T}      -> Type(T);
-            {letval, _, F, T, E}     -> Sum([BindExpr(F), Type(T), Expr(E)]);
+            {letval, _, P, E}        -> Scoped(BindExpr(P), Expr(E));
            {letfun, _, F, Xs, T, E} -> Sum([BindExpr(F), Type(T), Expr(Xs ++ [E])]);
            %% typedef()
            {alias_t, T}    -> Type(T);
@ -76,8 +76,8 @@ fold(Alg = #alg{zero = Zero, plus = Plus, scoped = Scoped}, Fun, K, X) ->
                Plus(Expr(E), Scoped(BindExpr(I), Expr({list_comp, A, Y, R})));
            {list_comp, A, Y, [{comprehension_if, _, E}|R]} ->
                Plus(Expr(E), Expr({list_comp, A, Y, R}));
-            {list_comp, A, Y, [D = {letval, _, F, _, _} | R]} ->
+            {list_comp, A, Y, [D = {letval, _, Pat, _} | R]} ->
-                Plus(Decl(D), Scoped(BindExpr(F), Expr({list_comp, A, Y, R})));
+                Plus(Decl(D), Scoped(BindExpr(Pat), Expr({list_comp, A, Y, R})));
            {list_comp, A, Y, [D = {letfun, _, F, _, _, _} | R]} ->
                Plus(Decl(D), Scoped(BindExpr(F), Expr({list_comp, A, Y, R})));
            {typed, _, E, T}       -> Plus(Expr(E), Type(T));
--- a/test/aeso_aci_tests.erl
+++ b/test/aeso_aci_tests.erl
@ -106,7 +106,7 @@ aci_test_contract(Name) ->
    ok.
 check_stub(Stub, Options) ->
-    case aeso_parser:string(binary_to_list(Stub), Options) of
+    try aeso_parser:string(binary_to_list(Stub), Options) of
        Ast ->
            try
                %% io:format("AST: ~120p\n", [Ast]),
@ -117,9 +117,9 @@ check_stub(Stub, Options) ->
                  _:R ->
                io:format("Error: ~p\n", [R]),
                error(R)
-            end;
+            end
-        {error, E} ->
+    catch throw:{error, Errs} ->
-            io:format("Error: ~p\n", [E]),
+        _ = [ io:format("~s\n", [aeso_errors:pp(E)]) || E <- Errs ],
-            error({parse_error, E})
+        error({parse_errors, Errs})
    end.
--- a/test/aeso_compiler_tests.erl
+++ b/test/aeso_compiler_tests.erl
@ -138,6 +138,7 @@ compilable_contracts() ->
     "test",
     "builtin_bug",
     "builtin_map_get_bug",
     "lc_record_bug",
     "nodeadcode",
     "deadcode",
     "variant_types",
@ -162,7 +163,9 @@ compilable_contracts() ->
     "payable",
     "unapplied_builtins",
     "underscore_number_literals",
-     "pairing_crypto"
+     "pairing_crypto",
     "qualified_constructor",
     "let_patterns"
    ].
 not_yet_compilable(fate) -> [];
@ -596,6 +599,17 @@ failing_contracts() ->
         [<<?Pos(5, 28)
            "Invalid call to contract entrypoint 'Foo.foo'.\n"
            "It must be called as 'c.foo' for some c : Foo.">>])
    , ?TYPE_ERROR(bad_records,
        [<<?Pos(3, 16)
           "Mixed record fields and map keys in\n"
           "  {x = 0, [0] = 1}">>,
         <<?Pos(4, 6)
           "Mixed record fields and map keys in\n"
           "  r {x = 0, [0] = 1}">>,
         <<?Pos(5, 6)
           "Empty record/map update\n"
           "  r {}">>
        ])
    ].
 -define(Path(File), "code_errors/" ??File).
--- a/test/aeso_parser_tests.erl
+++ b/test/aeso_parser_tests.erl
@ -4,6 +4,8 @@
 -include_lib("eunit/include/eunit.hrl").
 id(X) -> X.
 simple_contracts_test_() ->
    {foreach,
     fun() -> ok end,
@ -30,7 +32,7 @@ simple_contracts_test_() ->
                    end,
            Parse = fun(S) ->
                    try remove_line_numbers(parse_expr(S))
-                    catch _:_ -> ?assertMatch(ok, {parse_fail, S}) end
+                    catch _:_ -> ?assertMatch(ok, id({parse_fail, S})) end
                end,
            CheckParens = fun(Expr) ->
                    ?assertEqual(Parse(NoPar(Expr)), Parse(Par(Expr)))
@ -38,7 +40,6 @@ simple_contracts_test_() ->
            LeftAssoc  = fun(Op) -> CheckParens({{a, Op, b}, Op, c}) end,
            RightAssoc = fun(Op) -> CheckParens({a, Op, {b, Op, c}}) end,
            NonAssoc   = fun(Op) ->
                            OpAtom = list_to_atom(Op),
                            ?assertThrow({error, [_]},
                                         parse_expr(NoPar({a, Op, {b, Op, c}}))) end,
            Stronger = fun(Op1, Op2) ->
@ -77,7 +78,7 @@ parse_string(Text, Opts) ->
    aeso_parser:string(Text, Opts).
 parse_expr(Text) ->
-    [{letval, _, _, _, Expr}] =
+    [{letval, _, _, Expr}] =
        parse_string("let _ = " ++ Text),
    Expr.
--- a/test/contracts/bad_records.aes
+++ b/test/contracts/bad_records.aes
@ -0,0 +1,5 @@
 contract BadRecord =
  entrypoint foo() =
    let r = {x = 0, [0] = 1}
    r{x = 0, [0] = 1}
    r{}
--- a/test/contracts/lc_record_bug.aes
+++ b/test/contracts/lc_record_bug.aes
@ -0,0 +1,4 @@
 contract Foo =
  record r = {x : int}
  // Crashed in the backend due to missing type annotation on the lc body.
  entrypoint lc(xs) = [ {x = x} | x <- xs ]
--- a/test/contracts/let_patterns.aes
+++ b/test/contracts/let_patterns.aes
@ -0,0 +1,15 @@
 contract LetPatterns =
  record r = {x : int, y : int, b : bool}
  entrypoint test() = foo([1, 0], (2, 3), Some(4), {x = 5, y = 6, b = false})
  entrypoint foo(xs : list(int), p : int * int, some : option(int), r : r) =
    let x :: _  = xs
    let (a, b)  = p
    let Some(n) = some
    let {x = i, y = j} = r
    x + a + b + n + i + j
  entrypoint lc(xs : list(option(int))) : list(int) =
    [ x | Some(x) <- xs ]
--- a/test/contracts/qualified_constructor.aes
+++ b/test/contracts/qualified_constructor.aes
@ -0,0 +1,8 @@
 namespace Foo =
  datatype x = A | B(int)
 contract Bar =
  entrypoint f(a : Foo.x) =
    switch(a)
      Foo.A     => 0
      Foo.B(n)  => n