Track state layout

... but only default layout still.
2019-09-23 15:56:40 +02:00 · 2019-09-23 15:56:40 +02:00 · a8119f1219
commit a8119f1219
parent d0fdd06d66
1 changed files with 67 additions and 54 deletions
--- a/src/aeso_ast_to_fcode.erl
+++ b/src/aeso_ast_to_fcode.erl
@ -134,12 +134,15 @@
                 | {namespace, string()}
                 | {abstract_contract, string()}.

+-type state_layout() :: default_layout.
+
 -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() } }.
@ -210,6 +213,8 @@ builtins() ->
                     || {NS, Funs} <- Scopes,
                        {Fun, Arity} <- Funs ]).

+state_layout(Env) -> maps:get(state_layout, Env, undefined).
+
 -define(type(T),       fun([])     -> T end).
 -define(type(X, T),    fun([X])    -> T end).
 -define(type(X, Y, T), fun([X, Y]) -> T end).
@ -248,9 +253,11 @@ 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 = maps:get(state_layout, Env1, default_layout),
    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,
@ -338,7 +345,13 @@ 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) ->
+    Layout = default_layout,
+    Env#{ state_layout => Layout };
+compute_state_layout(Env, _, _) -> Env.

 check_state_and_event_types(#{ context := {main_contract, _} }, Id, [_ | _]) ->
    case Id of
@ -561,8 +574,8 @@ 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}               -> builtin_to_fcode(B, FArgs);
+        {builtin_u, B, _Ar, TypeArgs}     -> builtin_to_fcode(state_layout(Env), B, FArgs ++ TypeArgs);
+        {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 ->
@ -914,27 +927,27 @@ op_builtins() ->
     crypto_ecverify_secp256k1, crypto_ecrecover_secp256k1
    ].

-builtin_to_fcode(set_state, [Val]) ->
+builtin_to_fcode(default_layout, set_state, [Val]) ->
    {set_state, 1, Val};
-builtin_to_fcode(get_state, []) ->
+builtin_to_fcode(default_layout, get_state, []) ->
    {get_state, 1};
-builtin_to_fcode(require, [Cond, Msg]) ->
+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}
@ -950,7 +963,7 @@ add_init_function(Env, Main, StateType, Funs0) ->
            InitName = {entrypoint, <<"init">>},
            InitFun  = #{ body := InitBody} = maps:get(InitName, Funs),
            Funs#{ InitName => InitFun#{ return => {tuple, []},
-                                         body   => builtin_to_fcode(set_state, [InitBody]) } }
+                                         body   => builtin_to_fcode(state_layout(Env), set_state, [InitBody]) } }
    end.

 add_default_init_function(_Env, Main, StateType, Funs) ->
@ -1001,10 +1014,10 @@ 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) }.
@ -1019,8 +1032,8 @@ add_lambda_fun(Def) ->
    put(?lambda_key, Funs#{ Name => Def }),
    Name.

-lambda_lift_fun(_, Def = #{ body := Body }) ->
-    Def#{ body := lambda_lift_expr(Body) }.
+lambda_lift_fun(Layout, Def = #{ body := Body }) ->
+    Def#{ body := lambda_lift_expr(Layout, Body) }.

 lifted_fun([Z], Xs, Body) ->
    #{ attrs  => [private],
@ -1041,10 +1054,10 @@ 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));
-lambda_lift_expr(UExpr) when element(1, UExpr) == def_u; element(1, UExpr) == builtin_u ->
+    make_closure(FVs, Xs, lambda_lift_expr(Layout, Body));
+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;
@ -1053,42 +1066,42 @@ 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)};
-        {builtin, B, As}       -> {builtin, B, lambda_lift_exprs(As)};
-        {remote, ArgsT, RetT, Ct, F, As} -> {remote, ArgsT, RetT, lambda_lift_expr(Ct), F, lambda_lift_exprs(As)};
-        {con, Ar, C, As}       -> {con, Ar, C, lambda_lift_exprs(As)};
-        {tuple, As}            -> {tuple, lambda_lift_exprs(As)};
-        {proj, A, I}           -> {proj, lambda_lift_expr(A), I};
-        {set_proj, A, I, B}    -> {set_proj, lambda_lift_expr(A), I, lambda_lift_expr(B)};
-        {op, Op, As}           -> {op, Op, lambda_lift_exprs(As)};
-        {'let', X, A, B}       -> {'let', X, lambda_lift_expr(A), lambda_lift_expr(B)};
-        {funcall, A, Bs}       -> {funcall, lambda_lift_expr(A), lambda_lift_exprs(Bs)};
-        {set_state, R, A}      -> {set_state, R, lambda_lift_expr(A)};
+        {def, D, As}           -> {def, D, lambda_lift_exprs(Layout, As)};
+        {builtin, B, As}       -> {builtin, B, lambda_lift_exprs(Layout, 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(Layout, As)};
+        {tuple, As}            -> {tuple, lambda_lift_exprs(Layout, As)};
+        {proj, A, I}           -> {proj, lambda_lift_expr(Layout, A), I};
+        {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(Layout, As)};
+        {'let', X, A, B}       -> {'let', X, lambda_lift_expr(Layout, A), lambda_lift_expr(Layout, B)};
+        {funcall, A, Bs}       -> {funcall, lambda_lift_expr(Layout, A), lambda_lift_exprs(Layout, Bs)};
+        {set_state, R, A}      -> {set_state, R, lambda_lift_expr(Layout, A)};
        {get_state, _}         -> Expr;
-        {switch, S}            -> {switch, lambda_lift_expr(S)};
-        {split, Type, X, Alts} -> {split, Type, X, lambda_lift_exprs(Alts)};
-        {nosplit, A}           -> {nosplit, lambda_lift_expr(A)};
-        {'case', P, S}         -> {'case', P, lambda_lift_expr(S)}
+        {switch, S}            -> {switch, lambda_lift_expr(Layout, 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 ----------------------------------------------------------

@ -1243,10 +1256,10 @@ 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_to_fcode(B, []);
+        {_, {B, none}}         -> builtin_to_fcode(state_layout(Env), B, []);
        {_, {B, Ar}}           -> {builtin_u, B, Ar};
        {{Fun, Ar}, _}         -> {def_u, Fun, Ar}
    end.