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-rw-r--r--lib/compiler/src/cerl_trees.erl223
1 files changed, 125 insertions, 98 deletions
diff --git a/lib/compiler/src/cerl_trees.erl b/lib/compiler/src/cerl_trees.erl
index 58bb18e34a..b86be95cab 100644
--- a/lib/compiler/src/cerl_trees.erl
+++ b/lib/compiler/src/cerl_trees.erl
@@ -27,7 +27,7 @@
-module(cerl_trees).
-export([depth/1, fold/3, free_variables/1, get_label/1, label/1, label/2,
- map/2, mapfold/3, size/1, variables/1]).
+ map/2, mapfold/3, mapfold/4, size/1, variables/1]).
-import(cerl, [alias_pat/1, alias_var/1, ann_c_alias/3, ann_c_apply/3,
ann_c_binary/2, ann_c_bitstr/6, ann_c_call/4,
@@ -340,136 +340,162 @@ fold_pairs(_, S, []) ->
%% starting with the given value <code>Initial</code>, while doing a
%% post-order traversal of the tree, much like <code>fold/3</code>.
%%
+%% This is the same as mapfold/4, with an identity function as the
+%% pre-operation.
+%%
%% @see map/2
%% @see fold/3
+%% @see mapfold/4
-spec mapfold(fun((cerl:cerl(), term()) -> {cerl:cerl(), term()}),
term(), cerl:cerl()) -> {cerl:cerl(), term()}.
mapfold(F, S0, T) ->
+ mapfold(fun(T0, A) -> {T0, A} end, F, S0, T).
+
+
+%% @spec mapfold(Pre, Post, Initial::term(), Tree::cerl()) ->
+%% {cerl(), term()}
+%%
+%% Pre = Post = (cerl(), term()) -> {cerl(), term()}
+%%
+%% @doc Does a combined map/fold operation on the nodes of the
+%% tree. It begins by calling <code>Pre</code> on the tree, using the
+%% <code>Initial</code> value. It then deconstructs the top node of
+%% the returned tree and recurses on the children, using the returned
+%% value as the new initial and carrying the returned values from one
+%% call to the next. Finally it reassembles the top node from the
+%% children, calls <code>Post</code> on it and returns the result.
+
+-spec mapfold(fun((cerl:cerl(), term()) -> {cerl:cerl(), term()}),
+ fun((cerl:cerl(), term()) -> {cerl:cerl(), term()}),
+ term(), cerl:cerl()) -> {cerl:cerl(), term()}.
+
+mapfold(Pre, Post, S00, T0) ->
+ {T, S0} = Pre(T0, S00),
case type(T) of
literal ->
case concrete(T) of
[_ | _] ->
- {T1, S1} = mapfold(F, S0, cons_hd(T)),
- {T2, S2} = mapfold(F, S1, cons_tl(T)),
- F(update_c_cons(T, T1, T2), S2);
+ {T1, S1} = mapfold(Pre, Post, S0, cons_hd(T)),
+ {T2, S2} = mapfold(Pre, Post, S1, cons_tl(T)),
+ Post(update_c_cons(T, T1, T2), S2);
V when tuple_size(V) > 0 ->
- {Ts, S1} = mapfold_list(F, S0, tuple_es(T)),
- F(update_c_tuple(T, Ts), S1);
+ {Ts, S1} = mapfold_list(Pre, Post, S0, tuple_es(T)),
+ Post(update_c_tuple(T, Ts), S1);
_ ->
- F(T, S0)
+ Post(T, S0)
end;
var ->
- F(T, S0);
+ Post(T, S0);
values ->
- {Ts, S1} = mapfold_list(F, S0, values_es(T)),
- F(update_c_values(T, Ts), S1);
+ {Ts, S1} = mapfold_list(Pre, Post, S0, values_es(T)),
+ Post(update_c_values(T, Ts), S1);
cons ->
- {T1, S1} = mapfold(F, S0, cons_hd(T)),
- {T2, S2} = mapfold(F, S1, cons_tl(T)),
- F(update_c_cons_skel(T, T1, T2), S2);
+ {T1, S1} = mapfold(Pre, Post, S0, cons_hd(T)),
+ {T2, S2} = mapfold(Pre, Post, S1, cons_tl(T)),
+ Post(update_c_cons_skel(T, T1, T2), S2);
tuple ->
- {Ts, S1} = mapfold_list(F, S0, tuple_es(T)),
- F(update_c_tuple_skel(T, Ts), S1);
+ {Ts, S1} = mapfold_list(Pre, Post, S0, tuple_es(T)),
+ Post(update_c_tuple_skel(T, Ts), S1);
map ->
- {M , S1} = mapfold(F, S0, map_arg(T)),
- {Ts, S2} = mapfold_list(F, S1, map_es(T)),
- F(update_c_map(T, M, Ts), S2);
+ {M , S1} = mapfold(Pre, Post, S0, map_arg(T)),
+ {Ts, S2} = mapfold_list(Pre, Post, S1, map_es(T)),
+ Post(update_c_map(T, M, Ts), S2);
map_pair ->
- {Op, S1} = mapfold(F, S0, map_pair_op(T)),
- {Key, S2} = mapfold(F, S1, map_pair_key(T)),
- {Val, S3} = mapfold(F, S2, map_pair_val(T)),
- F(update_c_map_pair(T,Op,Key,Val), S3);
+ {Op, S1} = mapfold(Pre, Post, S0, map_pair_op(T)),
+ {Key, S2} = mapfold(Pre, Post, S1, map_pair_key(T)),
+ {Val, S3} = mapfold(Pre, Post, S2, map_pair_val(T)),
+ Post(update_c_map_pair(T,Op,Key,Val), S3);
'let' ->
- {Vs, S1} = mapfold_list(F, S0, let_vars(T)),
- {A, S2} = mapfold(F, S1, let_arg(T)),
- {B, S3} = mapfold(F, S2, let_body(T)),
- F(update_c_let(T, Vs, A, B), S3);
+ {Vs, S1} = mapfold_list(Pre, Post, S0, let_vars(T)),
+ {A, S2} = mapfold(Pre, Post, S1, let_arg(T)),
+ {B, S3} = mapfold(Pre, Post, S2, let_body(T)),
+ Post(update_c_let(T, Vs, A, B), S3);
seq ->
- {A, S1} = mapfold(F, S0, seq_arg(T)),
- {B, S2} = mapfold(F, S1, seq_body(T)),
- F(update_c_seq(T, A, B), S2);
+ {A, S1} = mapfold(Pre, Post, S0, seq_arg(T)),
+ {B, S2} = mapfold(Pre, Post, S1, seq_body(T)),
+ Post(update_c_seq(T, A, B), S2);
apply ->
- {E, S1} = mapfold(F, S0, apply_op(T)),
- {As, S2} = mapfold_list(F, S1, apply_args(T)),
- F(update_c_apply(T, E, As), S2);
+ {E, S1} = mapfold(Pre, Post, S0, apply_op(T)),
+ {As, S2} = mapfold_list(Pre, Post, S1, apply_args(T)),
+ Post(update_c_apply(T, E, As), S2);
call ->
- {M, S1} = mapfold(F, S0, call_module(T)),
- {N, S2} = mapfold(F, S1, call_name(T)),
- {As, S3} = mapfold_list(F, S2, call_args(T)),
- F(update_c_call(T, M, N, As), S3);
+ {M, S1} = mapfold(Pre, Post, S0, call_module(T)),
+ {N, S2} = mapfold(Pre, Post, S1, call_name(T)),
+ {As, S3} = mapfold_list(Pre, Post, S2, call_args(T)),
+ Post(update_c_call(T, M, N, As), S3);
primop ->
- {N, S1} = mapfold(F, S0, primop_name(T)),
- {As, S2} = mapfold_list(F, S1, primop_args(T)),
- F(update_c_primop(T, N, As), S2);
+ {N, S1} = mapfold(Pre, Post, S0, primop_name(T)),
+ {As, S2} = mapfold_list(Pre, Post, S1, primop_args(T)),
+ Post(update_c_primop(T, N, As), S2);
'case' ->
- {A, S1} = mapfold(F, S0, case_arg(T)),
- {Cs, S2} = mapfold_list(F, S1, case_clauses(T)),
- F(update_c_case(T, A, Cs), S2);
+ {A, S1} = mapfold(Pre, Post, S0, case_arg(T)),
+ {Cs, S2} = mapfold_list(Pre, Post, S1, case_clauses(T)),
+ Post(update_c_case(T, A, Cs), S2);
clause ->
- {Ps, S1} = mapfold_list(F, S0, clause_pats(T)),
- {G, S2} = mapfold(F, S1, clause_guard(T)),
- {B, S3} = mapfold(F, S2, clause_body(T)),
- F(update_c_clause(T, Ps, G, B), S3);
+ {Ps, S1} = mapfold_list(Pre, Post, S0, clause_pats(T)),
+ {G, S2} = mapfold(Pre, Post, S1, clause_guard(T)),
+ {B, S3} = mapfold(Pre, Post, S2, clause_body(T)),
+ Post(update_c_clause(T, Ps, G, B), S3);
alias ->
- {V, S1} = mapfold(F, S0, alias_var(T)),
- {P, S2} = mapfold(F, S1, alias_pat(T)),
- F(update_c_alias(T, V, P), S2);
+ {V, S1} = mapfold(Pre, Post, S0, alias_var(T)),
+ {P, S2} = mapfold(Pre, Post, S1, alias_pat(T)),
+ Post(update_c_alias(T, V, P), S2);
'fun' ->
- {Vs, S1} = mapfold_list(F, S0, fun_vars(T)),
- {B, S2} = mapfold(F, S1, fun_body(T)),
- F(update_c_fun(T, Vs, B), S2);
+ {Vs, S1} = mapfold_list(Pre, Post, S0, fun_vars(T)),
+ {B, S2} = mapfold(Pre, Post, S1, fun_body(T)),
+ Post(update_c_fun(T, Vs, B), S2);
'receive' ->
- {Cs, S1} = mapfold_list(F, S0, receive_clauses(T)),
- {E, S2} = mapfold(F, S1, receive_timeout(T)),
- {A, S3} = mapfold(F, S2, receive_action(T)),
- F(update_c_receive(T, Cs, E, A), S3);
+ {Cs, S1} = mapfold_list(Pre, Post, S0, receive_clauses(T)),
+ {E, S2} = mapfold(Pre, Post, S1, receive_timeout(T)),
+ {A, S3} = mapfold(Pre, Post, S2, receive_action(T)),
+ Post(update_c_receive(T, Cs, E, A), S3);
'try' ->
- {E, S1} = mapfold(F, S0, try_arg(T)),
- {Vs, S2} = mapfold_list(F, S1, try_vars(T)),
- {B, S3} = mapfold(F, S2, try_body(T)),
- {Evs, S4} = mapfold_list(F, S3, try_evars(T)),
- {H, S5} = mapfold(F, S4, try_handler(T)),
- F(update_c_try(T, E, Vs, B, Evs, H), S5);
+ {E, S1} = mapfold(Pre, Post, S0, try_arg(T)),
+ {Vs, S2} = mapfold_list(Pre, Post, S1, try_vars(T)),
+ {B, S3} = mapfold(Pre, Post, S2, try_body(T)),
+ {Evs, S4} = mapfold_list(Pre, Post, S3, try_evars(T)),
+ {H, S5} = mapfold(Pre, Post, S4, try_handler(T)),
+ Post(update_c_try(T, E, Vs, B, Evs, H), S5);
'catch' ->
- {B, S1} = mapfold(F, S0, catch_body(T)),
- F(update_c_catch(T, B), S1);
+ {B, S1} = mapfold(Pre, Post, S0, catch_body(T)),
+ Post(update_c_catch(T, B), S1);
binary ->
- {Ds, S1} = mapfold_list(F, S0, binary_segments(T)),
- F(update_c_binary(T, Ds), S1);
+ {Ds, S1} = mapfold_list(Pre, Post, S0, binary_segments(T)),
+ Post(update_c_binary(T, Ds), S1);
bitstr ->
- {Val, S1} = mapfold(F, S0, bitstr_val(T)),
- {Size, S2} = mapfold(F, S1, bitstr_size(T)),
- {Unit, S3} = mapfold(F, S2, bitstr_unit(T)),
- {Type, S4} = mapfold(F, S3, bitstr_type(T)),
- {Flags, S5} = mapfold(F, S4, bitstr_flags(T)),
- F(update_c_bitstr(T, Val, Size, Unit, Type, Flags), S5);
+ {Val, S1} = mapfold(Pre, Post, S0, bitstr_val(T)),
+ {Size, S2} = mapfold(Pre, Post, S1, bitstr_size(T)),
+ {Unit, S3} = mapfold(Pre, Post, S2, bitstr_unit(T)),
+ {Type, S4} = mapfold(Pre, Post, S3, bitstr_type(T)),
+ {Flags, S5} = mapfold(Pre, Post, S4, bitstr_flags(T)),
+ Post(update_c_bitstr(T, Val, Size, Unit, Type, Flags), S5);
letrec ->
- {Ds, S1} = mapfold_pairs(F, S0, letrec_defs(T)),
- {B, S2} = mapfold(F, S1, letrec_body(T)),
- F(update_c_letrec(T, Ds, B), S2);
+ {Ds, S1} = mapfold_pairs(Pre, Post, S0, letrec_defs(T)),
+ {B, S2} = mapfold(Pre, Post, S1, letrec_body(T)),
+ Post(update_c_letrec(T, Ds, B), S2);
module ->
- {N, S1} = mapfold(F, S0, module_name(T)),
- {Es, S2} = mapfold_list(F, S1, module_exports(T)),
- {As, S3} = mapfold_pairs(F, S2, module_attrs(T)),
- {Ds, S4} = mapfold_pairs(F, S3, module_defs(T)),
- F(update_c_module(T, N, Es, As, Ds), S4)
+ {N, S1} = mapfold(Pre, Post, S0, module_name(T)),
+ {Es, S2} = mapfold_list(Pre, Post, S1, module_exports(T)),
+ {As, S3} = mapfold_pairs(Pre, Post, S2, module_attrs(T)),
+ {Ds, S4} = mapfold_pairs(Pre, Post, S3, module_defs(T)),
+ Post(update_c_module(T, N, Es, As, Ds), S4)
end.
-mapfold_list(F, S0, [T | Ts]) ->
- {T1, S1} = mapfold(F, S0, T),
- {Ts1, S2} = mapfold_list(F, S1, Ts),
+mapfold_list(Pre, Post, S0, [T | Ts]) ->
+ {T1, S1} = mapfold(Pre, Post, S0, T),
+ {Ts1, S2} = mapfold_list(Pre, Post, S1, Ts),
{[T1 | Ts1], S2};
-mapfold_list(_, S, []) ->
+mapfold_list(_, _, S, []) ->
{[], S}.
-mapfold_pairs(F, S0, [{T1, T2} | Ps]) ->
- {T3, S1} = mapfold(F, S0, T1),
- {T4, S2} = mapfold(F, S1, T2),
- {Ps1, S3} = mapfold_pairs(F, S2, Ps),
+mapfold_pairs(Pre, Post, S0, [{T1, T2} | Ps]) ->
+ {T3, S1} = mapfold(Pre, Post, S0, T1),
+ {T4, S2} = mapfold(Pre, Post, S1, T2),
+ {Ps1, S3} = mapfold_pairs(Pre, Post, S2, Ps),
{[{T3, T4} | Ps1], S3};
-mapfold_pairs(_, S, []) ->
+mapfold_pairs(_, _, S, []) ->
{[], S}.
@@ -640,8 +666,8 @@ vars_in_list([], _, A) ->
vars_in_defs(Ds, S) ->
vars_in_defs(Ds, S, []).
-vars_in_defs([{_, F} | Ds], S, A) ->
- vars_in_defs(Ds, S, ordsets:union(variables(F, S), A));
+vars_in_defs([{_, Post} | Ds], S, A) ->
+ vars_in_defs(Ds, S, ordsets:union(variables(Post, S), A));
vars_in_defs([], _, A) ->
A.
@@ -703,13 +729,14 @@ label(T, N, Env) ->
%% Constant literals are not labeled.
{T, N};
var ->
- case dict:find(var_name(T), Env) of
- {ok, L} ->
- {As, _} = label_ann(T, L),
- N1 = N;
- error ->
- {As, N1} = label_ann(T, N)
- end,
+ {As, N1} =
+ case dict:find(var_name(T), Env) of
+ {ok, L} ->
+ {A, _} = label_ann(T, L),
+ {A, N};
+ error ->
+ label_ann(T, N)
+ end,
{set_ann(T, As), N1};
values ->
{Ts, N1} = label_list(values_es(T), N, Env),