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-rw-r--r--lib/dialyzer/README2
-rw-r--r--lib/dialyzer/doc/about.txt2
-rw-r--r--lib/dialyzer/doc/manual.txt2
-rw-r--r--lib/dialyzer/info2
-rw-r--r--lib/dialyzer/src/dialyzer.app.src8
-rw-r--r--lib/dialyzer/src/dialyzer.erl3
-rw-r--r--lib/dialyzer/src/dialyzer.hrl4
-rw-r--r--lib/dialyzer/src/dialyzer_contracts.erl100
-rw-r--r--lib/dialyzer/src/dialyzer_dataflow.erl275
-rw-r--r--lib/dialyzer/src/dialyzer_dep.erl62
-rw-r--r--lib/dialyzer/src/dialyzer_gui_wx.erl2
-rw-r--r--lib/dialyzer/src/dialyzer_options.erl1
-rw-r--r--lib/dialyzer/src/dialyzer_typesig.erl589
-rw-r--r--lib/dialyzer/src/dialyzer_utils.erl89
-rw-r--r--lib/dialyzer/test/behaviour_SUITE_data/results/supervisor_incorrect_return2
-rw-r--r--lib/dialyzer/test/behaviour_SUITE_data/src/proper/compile_flags.hrl2
-rw-r--r--lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_common.hrl55
-rw-r--r--lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_gen.erl611
-rw-r--r--lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_internal.hrl98
-rw-r--r--lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_types.erl1353
-rw-r--r--lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_typeserver.erl2411
-rw-r--r--lib/dialyzer/test/map_SUITE_data/dialyzer_options1
-rw-r--r--lib/dialyzer/test/map_SUITE_data/results/bad_argument5
-rw-r--r--lib/dialyzer/test/map_SUITE_data/results/contract7
-rw-r--r--lib/dialyzer/test/map_SUITE_data/results/contract_violation3
-rw-r--r--lib/dialyzer/test/map_SUITE_data/results/exact3
-rw-r--r--lib/dialyzer/test/map_SUITE_data/results/guard_update5
-rw-r--r--lib/dialyzer/test/map_SUITE_data/results/initial_dataflow4
-rw-r--r--lib/dialyzer/test/map_SUITE_data/results/is_map_guard5
-rw-r--r--lib/dialyzer/test/map_SUITE_data/results/map_galore28
-rw-r--r--lib/dialyzer/test/map_SUITE_data/results/map_in_guard4
-rw-r--r--lib/dialyzer/test/map_SUITE_data/results/map_in_guard213
-rw-r--r--lib/dialyzer/test/map_SUITE_data/results/map_size13
-rw-r--r--lib/dialyzer/test/map_SUITE_data/results/maps_merge11
-rw-r--r--lib/dialyzer/test/map_SUITE_data/results/opaque_key15
-rw-r--r--lib/dialyzer/test/map_SUITE_data/results/order17
-rw-r--r--lib/dialyzer/test/map_SUITE_data/results/subtract_value_flip0
-rw-r--r--lib/dialyzer/test/map_SUITE_data/results/typeflow4
-rw-r--r--lib/dialyzer/test/map_SUITE_data/results/typeflow213
-rw-r--r--lib/dialyzer/test/map_SUITE_data/results/typesig5
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/bad_argument.erl19
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/bug.erl63
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/contract.erl14
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/contract_violation.erl29
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/exact.erl23
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/guard_update.erl18
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/initial_dataflow.erl11
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/is_map_guard.erl17
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/map_galore.erl2824
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/map_in_guard.erl35
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/map_in_guard2.erl27
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/map_size.erl36
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/maps_merge.erl29
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/opaque_key/opaque_key_adt.erl69
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/opaque_key/opaque_key_use.erl97
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/order.erl56
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/subtract_value_flip.erl9
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/typeflow.erl25
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/typeflow2.erl88
-rw-r--r--lib/dialyzer/test/map_SUITE_data/src/typesig.erl9
-rw-r--r--lib/dialyzer/test/small_SUITE_data/results/literals3
-rw-r--r--lib/dialyzer/test/small_SUITE_data/results/maps14
-rw-r--r--lib/dialyzer/test/small_SUITE_data/results/maps_difftype2
-rw-r--r--lib/dialyzer/test/small_SUITE_data/results/maps_sum2
-rw-r--r--lib/dialyzer/test/small_SUITE_data/src/literals.erl6
-rw-r--r--lib/dialyzer/test/small_SUITE_data/src/maps1.erl2
-rw-r--r--lib/dialyzer/vsn.mk2
67 files changed, 8933 insertions, 415 deletions
diff --git a/lib/dialyzer/README b/lib/dialyzer/README
index 82d0f5ec48..951a92469b 100644
--- a/lib/dialyzer/README
+++ b/lib/dialyzer/README
@@ -6,7 +6,7 @@
## Copyright: Held by the authors; all rights reserved (2004 - 2010).
##----------------------------------------------------------------------------
-The DIALYZER, a DIscrepany AnaLYZer for ERlang programs.
+The DIALYZER, a DIscrepancy AnaLYZer for ERlang programs.
-----------------------------------------------
diff --git a/lib/dialyzer/doc/about.txt b/lib/dialyzer/doc/about.txt
index 7d9d819731..1318d9a65e 100644
--- a/lib/dialyzer/doc/about.txt
+++ b/lib/dialyzer/doc/about.txt
@@ -1,5 +1,5 @@
This is DIALYZER version 2.1.0
- DIALYZER is a DIscrepany AnaLYZer for ERlang programs.
+ DIALYZER is a DIscrepancy AnaLYZer for ERlang programs.
Copyright (C) Tobias Lindahl <[email protected]>
Kostis Sagonas <[email protected]>
diff --git a/lib/dialyzer/doc/manual.txt b/lib/dialyzer/doc/manual.txt
index 29c9518d84..be1fd2f8bc 100644
--- a/lib/dialyzer/doc/manual.txt
+++ b/lib/dialyzer/doc/manual.txt
@@ -4,7 +4,7 @@
## Kostis Sagonas <[email protected]>
##----------------------------------------------------------------------------
-The DIALYZER, a DIscrepany AnaLYZer for ERlang programs.
+The DIALYZER, a DIscrepancy AnaLYZer for ERlang programs.
-----------------------------------------------
diff --git a/lib/dialyzer/info b/lib/dialyzer/info
index 9fba4b54ad..b9ea26b712 100644
--- a/lib/dialyzer/info
+++ b/lib/dialyzer/info
@@ -1,2 +1,2 @@
group: tools
-short: The DIALYZER, a DIscrepany AnaLYZer for ERlang programs.
+short: The DIALYZER, a DIscrepancy AnaLYZer for ERlang programs.
diff --git a/lib/dialyzer/src/dialyzer.app.src b/lib/dialyzer/src/dialyzer.app.src
index 003d7f2ba4..5b28f7ae86 100644
--- a/lib/dialyzer/src/dialyzer.app.src
+++ b/lib/dialyzer/src/dialyzer.app.src
@@ -2,7 +2,7 @@
%%
%% %CopyrightBegin%
%%
-%% Copyright Ericsson AB 2006-2015. All Rights Reserved.
+%% Copyright Ericsson AB 2006-2016. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
@@ -47,6 +47,6 @@
{registered, []},
{applications, [compiler, hipe, kernel, stdlib, wx]},
{env, []},
- {runtime_dependencies, ["wx-1.2","syntax_tools-1.6.14","stdlib-2.5",
- "kernel-3.0","hipe-3.13","erts-7.0",
- "compiler-5.0"]}]}.
+ {runtime_dependencies, ["wx-1.2","syntax_tools-2.0","stdlib-3.0",
+ "kernel-5.0","hipe-3.15.1","erts-8.0",
+ "compiler-7.0"]}]}.
diff --git a/lib/dialyzer/src/dialyzer.erl b/lib/dialyzer/src/dialyzer.erl
index 9f51dfe356..bcac8afe64 100644
--- a/lib/dialyzer/src/dialyzer.erl
+++ b/lib/dialyzer/src/dialyzer.erl
@@ -336,6 +336,9 @@ message_to_string({guard_fail, []}) ->
"Clause guard cannot succeed.\n";
message_to_string({guard_fail, [Arg1, Infix, Arg2]}) ->
io_lib:format("Guard test ~s ~s ~s can never succeed\n", [Arg1, Infix, Arg2]);
+message_to_string({map_update, [Type, Key]}) ->
+ io_lib:format("A key of type ~s cannot exist "
+ "in a map of type ~s\n", [Key, Type]);
message_to_string({neg_guard_fail, [Arg1, Infix, Arg2]}) ->
io_lib:format("Guard test not(~s ~s ~s) can never succeed\n",
[Arg1, Infix, Arg2]);
diff --git a/lib/dialyzer/src/dialyzer.hrl b/lib/dialyzer/src/dialyzer.hrl
index 601e2e954b..ea6a71217c 100644
--- a/lib/dialyzer/src/dialyzer.hrl
+++ b/lib/dialyzer/src/dialyzer.hrl
@@ -60,6 +60,7 @@
-define(WARN_BEHAVIOUR, warn_behaviour).
-define(WARN_UNDEFINED_CALLBACK, warn_undefined_callbacks).
-define(WARN_UNKNOWN, warn_unknown).
+-define(WARN_MAP_CONSTRUCTION, warn_map_construction).
%%
%% The following type has double role:
@@ -75,7 +76,8 @@
| ?WARN_CONTRACT_SUPERTYPE | ?WARN_CALLGRAPH
| ?WARN_UNMATCHED_RETURN | ?WARN_RACE_CONDITION
| ?WARN_BEHAVIOUR | ?WARN_CONTRACT_RANGE
- | ?WARN_UNDEFINED_CALLBACK | ?WARN_UNKNOWN.
+ | ?WARN_UNDEFINED_CALLBACK | ?WARN_UNKNOWN
+ | ?WARN_MAP_CONSTRUCTION.
%%
%% This is the representation of each warning as they will be returned
diff --git a/lib/dialyzer/src/dialyzer_contracts.erl b/lib/dialyzer/src/dialyzer_contracts.erl
index e03e4d5bb4..d1ffa07706 100644
--- a/lib/dialyzer/src/dialyzer_contracts.erl
+++ b/lib/dialyzer/src/dialyzer_contracts.erl
@@ -210,10 +210,10 @@ check_contract(Contract, SuccType) ->
check_contract(#contract{contracts = Contracts}, SuccType, Opaques) ->
try
- Contracts1 = [{Contract, insert_constraints(Constraints, dict:new())}
+ Contracts1 = [{Contract, insert_constraints(Constraints)}
|| {Contract, Constraints} <- Contracts],
- Contracts2 = [erl_types:t_subst(Contract, Dict)
- || {Contract, Dict} <- Contracts1],
+ Contracts2 = [erl_types:t_subst(Contract, Map)
+ || {Contract, Map} <- Contracts1],
GenDomains = [erl_types:t_fun_args(C) || C <- Contracts2],
case check_domains(GenDomains) of
error ->
@@ -277,28 +277,45 @@ check_extraneous_1(Contract, SuccType) ->
case [CR || CR <- CRngs,
erl_types:t_is_none(erl_types:t_inf(CR, STRng))] of
[] ->
- CRngList = list_part(CRng),
- STRngList = list_part(STRng),
- case is_not_nil_list(CRngList) andalso is_not_nil_list(STRngList) of
- false -> ok;
- true ->
- CRngElements = erl_types:t_list_elements(CRngList),
- STRngElements = erl_types:t_list_elements(STRngList),
- Inf = erl_types:t_inf(CRngElements, STRngElements),
- case erl_types:t_is_none(Inf) of
- true -> {error, invalid_contract};
- false -> ok
- end
+ case bad_extraneous_list(CRng, STRng)
+ orelse bad_extraneous_map(CRng, STRng)
+ of
+ true -> {error, invalid_contract};
+ false -> ok
end;
CRs -> {error, {extra_range, erl_types:t_sup(CRs), STRng}}
end.
+bad_extraneous_list(CRng, STRng) ->
+ CRngList = list_part(CRng),
+ STRngList = list_part(STRng),
+ case is_not_nil_list(CRngList) andalso is_not_nil_list(STRngList) of
+ false -> false;
+ true ->
+ CRngElements = erl_types:t_list_elements(CRngList),
+ STRngElements = erl_types:t_list_elements(STRngList),
+ Inf = erl_types:t_inf(CRngElements, STRngElements),
+ erl_types:t_is_none(Inf)
+ end.
+
list_part(Type) ->
erl_types:t_inf(erl_types:t_list(), Type).
is_not_nil_list(Type) ->
erl_types:t_is_list(Type) andalso not erl_types:t_is_nil(Type).
+bad_extraneous_map(CRng, STRng) ->
+ CRngMap = map_part(CRng),
+ STRngMap = map_part(STRng),
+ (not is_empty_map(CRngMap)) andalso (not is_empty_map(STRngMap))
+ andalso is_empty_map(erl_types:t_inf(CRngMap, STRngMap)).
+
+map_part(Type) ->
+ erl_types:t_inf(erl_types:t_map(), Type).
+
+is_empty_map(Type) ->
+ erl_types:t_is_equal(Type, erl_types:t_from_term(#{})).
+
%% This is the heart of the "range function"
-spec process_contracts([contract_pair()], [erl_types:erl_type()]) ->
erl_types:erl_type().
@@ -327,15 +344,15 @@ process_contract({Contract, Constraints}, CallTypes0) ->
[erl_types:t_to_string(ContArgsFun),
erl_types:t_to_string(CallTypesFun)]),
case solve_constraints(ContArgsFun, CallTypesFun, Constraints) of
- {ok, VarDict} ->
- {ok, erl_types:t_subst(erl_types:t_fun_range(Contract), VarDict)};
+ {ok, VarMap} ->
+ {ok, erl_types:t_subst(erl_types:t_fun_range(Contract), VarMap)};
error -> error
end.
solve_constraints(Contract, Call, Constraints) ->
%% First make sure the call follows the constraints
- CDict = insert_constraints(Constraints, dict:new()),
- Contract1 = erl_types:t_subst(Contract, CDict),
+ CMap = insert_constraints(Constraints),
+ Contract1 = erl_types:t_subst(Contract, CMap),
%% Just a safe over-approximation.
%% TODO: Find the types for type variables properly
ContrArgs = erl_types:t_fun_args(Contract1),
@@ -343,7 +360,7 @@ solve_constraints(Contract, Call, Constraints) ->
InfList = erl_types:t_inf_lists(ContrArgs, CallArgs),
case erl_types:any_none_or_unit(InfList) of
true -> error;
- false -> {ok, CDict}
+ false -> {ok, CMap}
end.
%%Inf = erl_types:t_inf(Contract1, Call),
%% Then unify with the constrained call type.
@@ -373,23 +390,26 @@ warn_spec_missing_fun({M, F, A} = MFA, Contracts) ->
{?WARN_CONTRACT_SYNTAX, WarningInfo, {spec_missing_fun, [M, F, A]}}.
%% This treats the "when" constraints. It will be extended, we hope.
-insert_constraints([{subtype, Type1, Type2}|Left], Dict) ->
+insert_constraints(Constraints) ->
+ insert_constraints(Constraints, maps:new()).
+
+insert_constraints([{subtype, Type1, Type2}|Left], Map) ->
case erl_types:t_is_var(Type1) of
true ->
Name = erl_types:t_var_name(Type1),
- Dict1 = case dict:find(Name, Dict) of
- error ->
- dict:store(Name, Type2, Dict);
- {ok, VarType} ->
- dict:store(Name, erl_types:t_inf(VarType, Type2), Dict)
- end,
- insert_constraints(Left, Dict1);
+ Map1 = case maps:find(Name, Map) of
+ error ->
+ maps:put(Name, Type2, Map);
+ {ok, VarType} ->
+ maps:put(Name, erl_types:t_inf(VarType, Type2), Map)
+ end,
+ insert_constraints(Left, Map1);
false ->
%% A lot of things should change to add supertypes
throw({error, io_lib:format("First argument of is_subtype constraint "
"must be a type variable: ~p\n", [Type1])})
end;
-insert_constraints([], Dict) -> Dict.
+insert_constraints([], Map) -> Map.
-type types() :: erl_types:type_table().
@@ -459,7 +479,8 @@ initialize_constraints([], _MFA, _RecDict, _ExpTypes, _AllRecords, Acc) ->
initialize_constraints([Constr|Rest], MFA, RecDict, ExpTypes, AllRecords, Acc) ->
case Constr of
{type, _, constraint, [{atom, _, is_subtype}, [Type1, Type2]]} ->
- T1 = final_form(Type1, ExpTypes, MFA, AllRecords, dict:new()),
+ VarTable = erl_types:var_table__new(),
+ T1 = final_form(Type1, ExpTypes, MFA, AllRecords, VarTable),
Entry = {T1, Type2},
initialize_constraints(Rest, MFA, RecDict, ExpTypes, AllRecords, [Entry|Acc]);
{type, _, constraint, [{atom,_,Name}, List]} ->
@@ -469,8 +490,9 @@ initialize_constraints([Constr|Rest], MFA, RecDict, ExpTypes, AllRecords, Acc) -
end.
constraints_fixpoint(Constrs, MFA, RecDict, ExpTypes, AllRecords) ->
+ VarTable = erl_types:var_table__new(),
VarDict =
- constraints_to_dict(Constrs, MFA, RecDict, ExpTypes, AllRecords, dict:new()),
+ constraints_to_dict(Constrs, MFA, RecDict, ExpTypes, AllRecords, VarTable),
constraints_fixpoint(VarDict, MFA, Constrs, RecDict, ExpTypes, AllRecords).
constraints_fixpoint(OldVarDict, MFA, Constrs, RecDict, ExpTypes, AllRecords) ->
@@ -478,11 +500,11 @@ constraints_fixpoint(OldVarDict, MFA, Constrs, RecDict, ExpTypes, AllRecords) ->
constraints_to_dict(Constrs, MFA, RecDict, ExpTypes, AllRecords, OldVarDict),
case NewVarDict of
OldVarDict ->
- DictFold =
+ Fun =
fun(Key, Value, Acc) ->
[{subtype, erl_types:t_var(Key), Value}|Acc]
end,
- FinalConstrs = dict:fold(DictFold, [], NewVarDict),
+ FinalConstrs = maps:fold(Fun, [], NewVarDict),
{FinalConstrs, NewVarDict};
_Other ->
constraints_fixpoint(NewVarDict, MFA, Constrs, RecDict, ExpTypes, AllRecords)
@@ -492,18 +514,18 @@ final_form(Form, ExpTypes, MFA, AllRecords, VarDict) ->
from_form_with_check(Form, ExpTypes, MFA, AllRecords, VarDict).
from_form_with_check(Form, ExpTypes, MFA, AllRecords) ->
- from_form_with_check(Form, ExpTypes, MFA, AllRecords, dict:new()).
+ VarTable = erl_types:var_table__new(),
+ from_form_with_check(Form, ExpTypes, MFA, AllRecords, VarTable).
from_form_with_check(Form, ExpTypes, MFA, AllRecords, VarDict) ->
Site = {spec, MFA},
- erl_types:t_check_record_fields(Form, ExpTypes, Site, AllRecords,
- VarDict),
+ erl_types:t_check_record_fields(Form, ExpTypes, Site, AllRecords, VarDict),
erl_types:t_from_form(Form, ExpTypes, Site, AllRecords, VarDict).
constraints_to_dict(Constrs, MFA, RecDict, ExpTypes, AllRecords, VarDict) ->
Subtypes =
constraints_to_subs(Constrs, MFA, RecDict, ExpTypes, AllRecords, VarDict, []),
- insert_constraints(Subtypes, dict:new()).
+ insert_constraints(Subtypes).
constraints_to_subs([], _MFA, _RecDict, _ExpTypes, _AllRecords, _VarDict, Acc) ->
Acc;
@@ -588,8 +610,8 @@ general_domain(List) ->
general_domain(List, erl_types:t_none()).
general_domain([{Sig, Constraints}|Left], AccSig) ->
- Dict = insert_constraints(Constraints, dict:new()),
- Sig1 = erl_types:t_subst(Sig, Dict),
+ Map = insert_constraints(Constraints),
+ Sig1 = erl_types:t_subst(Sig, Map),
general_domain(Left, erl_types:t_sup(AccSig, Sig1));
general_domain([], AccSig) ->
%% Get rid of all variables in the domain.
diff --git a/lib/dialyzer/src/dialyzer_dataflow.erl b/lib/dialyzer/src/dialyzer_dataflow.erl
index 6e49043551..5ab0c39c04 100644
--- a/lib/dialyzer/src/dialyzer_dataflow.erl
+++ b/lib/dialyzer/src/dialyzer_dataflow.erl
@@ -2,7 +2,7 @@
%%--------------------------------------------------------------------
%% %CopyrightBegin%
%%
-%% Copyright Ericsson AB 2006-2015. All Rights Reserved.
+%% Copyright Ericsson AB 2006-2016. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
@@ -43,7 +43,6 @@
-include("dialyzer.hrl").
-%%-import(helper, %% 'helper' could be any module doing sanity checks...
-import(erl_types,
[t_inf/2, t_inf/3, t_inf_lists/2, t_inf_lists/3,
t_inf_lists/3, t_is_equal/2, t_is_subtype/2, t_subtract/2,
@@ -72,7 +71,7 @@
t_tuple/0, t_tuple/1, t_tuple_args/1, t_tuple_args/2,
t_tuple_subtypes/2,
t_unit/0, t_unopaque/2,
- t_map/1
+ t_map/0, t_map/1, t_is_singleton/2
]).
%%-define(DEBUG, true).
@@ -126,8 +125,8 @@
curr_fun :: curr_fun()
}).
--record(map, {dict = dict:new() :: type_tab(),
- subst = dict:new() :: subst_tab(),
+-record(map, {map = maps:new() :: type_tab(),
+ subst = maps:new() :: subst_tab(),
modified = [] :: [Key :: term()],
modified_stack = [] :: [{[Key :: term()],reference()}],
ref = undefined :: reference() | undefined}).
@@ -135,10 +134,10 @@
-type env_tab() :: dict:dict(label(), #map{}).
-type fun_entry() :: {Args :: [type()], RetType :: type()}.
-type fun_tab() :: dict:dict('top' | label(),
- {'not_handled', fun_entry()} | fun_entry()).
+ {'not_handled', fun_entry()} | fun_entry()).
-type key() :: label() | cerl:cerl().
--type type_tab() :: dict:dict(key(), type()).
--type subst_tab() :: dict:dict(key(), cerl:cerl()).
+-type type_tab() :: #{key() => type()}.
+-type subst_tab() :: #{key() => cerl:cerl()}.
%% Exported Types
@@ -342,8 +341,6 @@ traverse(Tree, Map, State) ->
handle_tuple(Tree, Map, State);
map ->
handle_map(Tree, Map, State);
- map_pair ->
- handle_map_pair(Tree, Map, State);
values ->
Elements = cerl:values_es(Tree),
{State1, Map1, EsType} = traverse_list(Elements, Map, State),
@@ -1102,15 +1099,54 @@ handle_try(Tree, Map, State) ->
%%----------------------------------------
handle_map(Tree,Map,State) ->
- Pairs = cerl:map_es(Tree),
- {State1, Map1, TypePairs} = traverse_list(Pairs,Map,State),
- {State1, Map1, t_map(TypePairs)}.
+ Pairs = cerl:map_es(Tree),
+ Arg = cerl:map_arg(Tree),
+ {State1, Map1, ArgType} = traverse(Arg, Map, State),
+ ArgType1 = t_inf(t_map(), ArgType),
+ case t_is_none_or_unit(ArgType1) of
+ true ->
+ {State1, Map1, ArgType1};
+ false ->
+ {State2, Map2, TypePairs, ExactKeys} =
+ traverse_map_pairs(Pairs, Map1, State1, t_none(), [], []),
+ InsertPair = fun({KV,assoc,_},Acc) -> erl_types:t_map_put(KV,Acc);
+ ({KV,exact,KVTree},Acc) ->
+ case t_is_none(T=erl_types:t_map_update(KV,Acc)) of
+ true -> throw({none, Acc, KV, KVTree});
+ false -> T
+ end
+ end,
+ try lists:foldl(InsertPair, ArgType1, TypePairs)
+ of ResT ->
+ BindT = t_map([{K, t_any()} || K <- ExactKeys]),
+ case bind_pat_vars_reverse([Arg], [BindT], [], Map2, State2) of
+ {error, _, _, _, _} -> {State2, Map2, ResT};
+ {Map3, _} -> {State2, Map3, ResT}
+ end
+ catch {none, MapType, {K,_}, KVTree} ->
+ Msg2 = {map_update, [format_type(MapType, State2),
+ format_type(K, State2)]},
+ {state__add_warning(State2, ?WARN_MAP_CONSTRUCTION, KVTree, Msg2),
+ Map2, t_none()}
+ end
+ end.
-handle_map_pair(Tree,Map,State) ->
- Key = cerl:map_pair_key(Tree),
- Val = cerl:map_pair_val(Tree),
+traverse_map_pairs([], Map, State, _ShadowKeys, PairAcc, KeyAcc) ->
+ {State, Map, lists:reverse(PairAcc), KeyAcc};
+traverse_map_pairs([Pair|Pairs], Map, State, ShadowKeys, PairAcc, KeyAcc) ->
+ Key = cerl:map_pair_key(Pair),
+ Val = cerl:map_pair_val(Pair),
+ Op = cerl:map_pair_op(Pair),
{State1, Map1, [K,V]} = traverse_list([Key,Val],Map,State),
- {State1, Map1, {K,V}}.
+ KeyAcc1 =
+ case cerl:is_literal(Op) andalso cerl:concrete(Op) =:= exact andalso
+ t_is_singleton(K, State#state.opaques) andalso
+ t_is_none(t_inf(ShadowKeys, K)) of
+ true -> [K|KeyAcc];
+ false -> KeyAcc
+ end,
+ traverse_map_pairs(Pairs, Map1, State1, t_sup(K, ShadowKeys),
+ [{{K,V},cerl:concrete(Op),Pair}|PairAcc], KeyAcc1).
%%----------------------------------------
@@ -1445,7 +1481,9 @@ bind_pat_vars([Pat|PatLeft], [Type|TypeLeft], Acc, Map, State, Rev) ->
{NewMap, TypeOut} =
case cerl:type(Pat) of
alias ->
- AliasPat = cerl:alias_pat(Pat),
+ %% Map patterns are more allowing than the type of their literal. We
+ %% must unfold AliasPat if it is a literal.
+ AliasPat = dialyzer_utils:refold_pattern(cerl:alias_pat(Pat)),
Var = cerl:alias_var(Pat),
Map1 = enter_subst(Var, AliasPat, Map),
{Map2, [PatType]} = bind_pat_vars([AliasPat], [Type], [],
@@ -1486,14 +1524,59 @@ bind_pat_vars([Pat|PatLeft], [Type|TypeLeft], Acc, Map, State, Rev) ->
{Map1, t_cons(HdType, TlType)}
end;
literal ->
- Literal = literal_type(Pat),
- case t_is_none(t_inf(Literal, Type, Opaques)) of
+ Pat0 = dialyzer_utils:refold_pattern(Pat),
+ case cerl:is_literal(Pat0) of
true ->
- bind_opaque_pats(Literal, Type, Pat, State);
- false -> {Map, Literal}
+ Literal = literal_type(Pat),
+ case t_is_none(t_inf(Literal, Type, Opaques)) of
+ true ->
+ bind_opaque_pats(Literal, Type, Pat, State);
+ false -> {Map, Literal}
+ end;
+ false ->
+ %% Retry with the unfolded pattern
+ {Map1, [PatType]}
+ = bind_pat_vars([Pat0], [Type], [], Map, State, Rev),
+ {Map1, PatType}
end;
map ->
- {Map, t_map([])};
+ MapT = t_inf(Type, t_map(), Opaques),
+ case t_is_none(MapT) of
+ true ->
+ bind_opaque_pats(t_map(), Type, Pat, State);
+ false ->
+ case Rev of
+ %% TODO: Reverse matching (propagating a matched subset back to a value)
+ true -> {Map, MapT};
+ false ->
+ FoldFun =
+ fun(Pair, {MapAcc, ListAcc}) ->
+ %% Only exact (:=) can appear in patterns
+ exact = cerl:concrete(cerl:map_pair_op(Pair)),
+ Key = cerl:map_pair_key(Pair),
+ KeyType =
+ case cerl:type(Key) of
+ var ->
+ case state__lookup_type_for_letrec(Key, State) of
+ error -> lookup_type(Key, MapAcc);
+ {ok, RecType} -> RecType
+ end;
+ literal ->
+ literal_type(Key)
+ end,
+ Bind = erl_types:t_map_get(KeyType, MapT),
+ {MapAcc1, [ValType]} =
+ bind_pat_vars([cerl:map_pair_val(Pair)],
+ [Bind], [], MapAcc, State, Rev),
+ case t_is_singleton(KeyType, Opaques) of
+ true -> {MapAcc1, [{KeyType, ValType}|ListAcc]};
+ false -> {MapAcc1, ListAcc}
+ end
+ end,
+ {Map1, Pairs} = lists:foldl(FoldFun, {Map, []}, cerl:map_es(Pat)),
+ {Map1, t_inf(MapT, t_map(Pairs))}
+ end
+ end;
tuple ->
Es = cerl:tuple_es(Pat),
{TypedRecord, Prototype} =
@@ -1682,7 +1765,7 @@ bind_opaque_pats(GenType, Type, Pat, State) ->
%%
bind_guard(Guard, Map, State) ->
- try bind_guard(Guard, Map, dict:new(), pos, State) of
+ try bind_guard(Guard, Map, maps:new(), pos, State) of
{Map1, _Type} -> Map1
catch
throw:{fail, Warning} -> {error, Warning};
@@ -1710,20 +1793,63 @@ bind_guard(Guard, Map, Env, Eval, State) ->
'try' ->
Arg = cerl:try_arg(Guard),
[Var] = cerl:try_vars(Guard),
+ EVars = cerl:try_evars(Guard),
%%?debug("Storing: ~w\n", [Var]),
- NewEnv = dict:store(get_label(Var), Arg, Env),
- bind_guard(cerl:try_body(Guard), Map, NewEnv, Eval, State);
+ Map1 = join_maps_begin(Map),
+ Map2 = mark_as_fresh(EVars, Map1),
+ %% Visit handler first so we know if it should be ignored
+ {{HandlerMap, HandlerType}, HandlerE} =
+ try {bind_guard(cerl:try_handler(Guard), Map2, Env, Eval, State), none}
+ catch throw:HE ->
+ {{Map2, t_none()}, HE}
+ end,
+ BodyEnv = maps:put(get_label(Var), Arg, Env),
+ Wanted = case Eval of pos -> t_atom(true); neg -> t_atom(false);
+ dont_know -> t_any() end,
+ case t_is_none(t_inf(HandlerType, Wanted)) of
+ %% Handler won't save us; pretend it does not exist
+ true -> bind_guard(cerl:try_body(Guard), Map, BodyEnv, Eval, State);
+ false ->
+ {{BodyMap, BodyType}, BodyE} =
+ try {bind_guard(cerl:try_body(Guard), Map1, BodyEnv,
+ Eval, State), none}
+ catch throw:BE ->
+ {{Map1, t_none()}, BE}
+ end,
+ Map3 = join_maps_end([BodyMap, HandlerMap], Map1),
+ case t_is_none(Sup = t_sup(BodyType, HandlerType)) of
+ true ->
+ %% Pick a reason. N.B. We assume that the handler is always
+ %% compiler-generated if the body is; that way, we won't need to
+ %% check.
+ Fatality = case {BodyE, HandlerE} of
+ {{fatal_fail, _}, _} -> fatal_fail;
+ {_, {fatal_fail, _}} -> fatal_fail;
+ _ -> fail
+ end,
+ throw({Fatality,
+ case {BodyE, HandlerE} of
+ {{_, Rsn}, _} when Rsn =/= none -> Rsn;
+ {_, {_,Rsn}} -> Rsn;
+ _ -> none
+ end});
+ false -> {Map3, Sup}
+ end
+ end;
tuple ->
Es0 = cerl:tuple_es(Guard),
{Map1, Es} = bind_guard_list(Es0, Map, Env, dont_know, State),
{Map1, t_tuple(Es)};
map ->
- {Map, t_map([])};
+ case Eval of
+ dont_know -> handle_guard_map(Guard, Map, Env, State);
+ _PosOrNeg -> {Map, t_none()} %% Map exprs do not produce bools
+ end;
'let' ->
Arg = cerl:let_arg(Guard),
[Var] = cerl:let_vars(Guard),
%%?debug("Storing: ~w\n", [Var]),
- NewEnv = dict:store(get_label(Var), Arg, Env),
+ NewEnv = maps:put(get_label(Var), Arg, Env),
bind_guard(cerl:let_body(Guard), Map, NewEnv, Eval, State);
values ->
Es = cerl:values_es(Guard),
@@ -1732,7 +1858,7 @@ bind_guard(Guard, Map, Env, Eval, State) ->
{Map, Type};
var ->
?debug("Looking for var(~w)...", [cerl_trees:get_label(Guard)]),
- case dict:find(get_label(Guard), Env) of
+ case maps:find(get_label(Guard), Env) of
error ->
?debug("Did not find it\n", []),
Type = lookup_type(Guard, Map),
@@ -1761,7 +1887,7 @@ handle_guard_call(Guard, Map, Env, Eval, State) ->
{erlang, F, 1} when F =:= is_atom; F =:= is_boolean;
F =:= is_binary; F =:= is_bitstring;
F =:= is_float; F =:= is_function;
- F =:= is_integer; F =:= is_list;
+ F =:= is_integer; F =:= is_list; F =:= is_map;
F =:= is_number; F =:= is_pid; F =:= is_port;
F =:= is_reference; F =:= is_tuple ->
handle_guard_type_test(Guard, F, Map, Env, Eval, State);
@@ -1841,6 +1967,7 @@ bind_type_test(Eval, TypeTest, ArgType, State) ->
is_function -> t_fun();
is_integer -> t_integer();
is_list -> t_maybe_improper_list();
+ is_map -> t_map();
is_number -> t_number();
is_pid -> t_pid();
is_port -> t_port();
@@ -2349,6 +2476,30 @@ bind_guard_list([G|Gs], Map, Env, Eval, State, Acc) ->
bind_guard_list([], Map, _Env, _Eval, _State, Acc) ->
{Map, lists:reverse(Acc)}.
+handle_guard_map(Guard, Map, Env, State) ->
+ Pairs = cerl:map_es(Guard),
+ Arg = cerl:map_arg(Guard),
+ {Map1, ArgType0} = bind_guard(Arg, Map, Env, dont_know, State),
+ ArgType1 = t_inf(t_map(), ArgType0),
+ case t_is_none_or_unit(ArgType1) of
+ true -> {Map1, t_none()};
+ false ->
+ {Map2, TypePairs} = bind_guard_map_pairs(Pairs, Map1, Env, State, []),
+ {Map2, lists:foldl(fun({KV,assoc},Acc) -> erl_types:t_map_put(KV,Acc);
+ ({KV,exact},Acc) -> erl_types:t_map_update(KV,Acc)
+ end, ArgType1, TypePairs)}
+ end.
+
+bind_guard_map_pairs([], Map, _Env, _State, PairAcc) ->
+ {Map, lists:reverse(PairAcc)};
+bind_guard_map_pairs([Pair|Pairs], Map, Env, State, PairAcc) ->
+ Key = cerl:map_pair_key(Pair),
+ Val = cerl:map_pair_val(Pair),
+ Op = cerl:map_pair_op(Pair),
+ {Map1, [K,V]} = bind_guard_list([Key,Val],Map,Env,dont_know,State),
+ bind_guard_map_pairs(Pairs, Map1, Env, State,
+ [{{K,V},cerl:concrete(Op)}|PairAcc]).
+
-type eval() :: 'pos' | 'neg' | 'dont_know'.
-spec signal_guard_fail(eval(), cerl:c_call(), [type()],
@@ -2421,7 +2572,9 @@ filter_fail_clauses([Clause|Left]) ->
case (cerl:clause_pats(Clause) =:= []) of
true ->
Body = cerl:clause_body(Clause),
- case cerl:is_literal(Body) andalso (cerl:concrete(Body) =:= fail) of
+ case cerl:is_literal(Body) andalso (cerl:concrete(Body) =:= fail) orelse
+ cerl:is_c_primop(Body) andalso
+ (cerl:atom_val(cerl:primop_name(Body)) =:= match_fail) of
true -> filter_fail_clauses(Left);
false -> [Clause|filter_fail_clauses(Left)]
end;
@@ -2535,10 +2688,10 @@ join_maps_end(Maps, MapOut) ->
#map{ref = Ref, modified_stack = [{M1,R1} | S]} = MapOut,
true = lists:all(fun(M) -> M#map.ref =:= Ref end, Maps), % sanity
Keys0 = lists:usort(lists:append([M#map.modified || M <- Maps])),
- #map{dict = Dict, subst = Subst} = MapOut,
+ #map{map = Map, subst = Subst} = MapOut,
Keys = [Key ||
Key <- Keys0,
- dict:is_key(Key, Dict) orelse dict:is_key(Key, Subst)],
+ maps:is_key(Key, Map) orelse maps:is_key(Key, Subst)],
Out = case Maps of
[] -> join_maps(Maps, MapOut);
_ -> join_maps(Keys, Maps, MapOut)
@@ -2549,8 +2702,8 @@ join_maps_end(Maps, MapOut) ->
modified_stack = S}.
join_maps(Maps, MapOut) ->
- #map{dict = Dict, subst = Subst} = MapOut,
- Keys = ordsets:from_list(dict:fetch_keys(Dict) ++ dict:fetch_keys(Subst)),
+ #map{map = Map, subst = Subst} = MapOut,
+ Keys = ordsets:from_list(maps:keys(Map) ++ maps:keys(Subst)),
join_maps(Keys, Maps, MapOut).
join_maps(Keys, Maps, MapOut) ->
@@ -2579,11 +2732,11 @@ join_maps_one_key([], _Key, AccType) ->
-ifdef(DEBUG).
debug_join_check(Maps, MapOut, Out) ->
- #map{dict = Dict, subst = Subst} = Out,
- #map{dict = Dict2, subst = Subst2} = join_maps(Maps, MapOut),
- F = fun(D) -> lists:keysort(1, dict:to_list(D)) end,
+ #map{map = Map, subst = Subst} = Out,
+ #map{map = Map2, subst = Subst2} = join_maps(Maps, MapOut),
+ F = fun(D) -> lists:keysort(1, maps:to_list(D)) end,
[throw({bug, join_maps}) ||
- F(Dict) =/= F(Dict2) orelse F(Subst) =/= F(Subst2)].
+ F(Map) =/= F(Map2) orelse F(Subst) =/= F(Subst2)].
-else.
debug_join_check(_Maps, _MapOut, _Out) -> ok.
-endif.
@@ -2614,15 +2767,15 @@ enter_type(Key, Val, MS) ->
enter_type_lists(Keys, t_to_tlist(Val), MS)
end;
false ->
- #map{dict = Dict, subst = Subst} = MS,
+ #map{map = Map, subst = Subst} = MS,
KeyLabel = get_label(Key),
- case dict:find(KeyLabel, Subst) of
+ case maps:find(KeyLabel, Subst) of
{ok, NewKey} ->
?debug("Binding ~p to ~p\n", [KeyLabel, NewKey]),
enter_type(NewKey, Val, MS);
error ->
?debug("Entering ~p :: ~s\n", [KeyLabel, t_to_string(Val)]),
- case dict:find(KeyLabel, Dict) of
+ case maps:find(KeyLabel, Map) of
{ok, Value} ->
case erl_types:t_is_equal(Val, Value) of
true -> MS;
@@ -2634,13 +2787,14 @@ enter_type(Key, Val, MS) ->
end
end.
-store_map(Key, Val, #map{dict = Dict, ref = undefined} = Map) ->
- Map#map{dict = dict:store(Key, Val, Dict)};
-store_map(Key, Val, #map{dict = Dict, modified = Mod} = Map) ->
- Map#map{dict = dict:store(Key, Val, Dict), modified = [Key | Mod]}.
+store_map(Key, Val, #map{map = Map, ref = undefined} = MapRec) ->
+ MapRec#map{map = maps:put(Key, Val, Map)};
+store_map(Key, Val, #map{map = Map, modified = Mod} = MapRec) ->
+ MapRec#map{map = maps:put(Key, Val, Map), modified = [Key | Mod]}.
-enter_subst(Key, Val, #map{subst = Subst} = MS) ->
+enter_subst(Key, Val0, #map{subst = Subst} = MS) ->
KeyLabel = get_label(Key),
+ Val = dialyzer_utils:refold_pattern(Val0),
case cerl:is_literal(Val) of
true ->
store_map(KeyLabel, literal_type(Val), MS);
@@ -2649,7 +2803,7 @@ enter_subst(Key, Val, #map{subst = Subst} = MS) ->
false -> MS;
true ->
ValLabel = get_label(Val),
- case dict:find(ValLabel, Subst) of
+ case maps:find(ValLabel, Subst) of
{ok, NewVal} ->
enter_subst(Key, NewVal, MS);
error ->
@@ -2663,22 +2817,22 @@ enter_subst(Key, Val, #map{subst = Subst} = MS) ->
end.
store_subst(Key, Val, #map{subst = S, ref = undefined} = Map) ->
- Map#map{subst = dict:store(Key, Val, S)};
+ Map#map{subst = maps:put(Key, Val, S)};
store_subst(Key, Val, #map{subst = S, modified = Mod} = Map) ->
- Map#map{subst = dict:store(Key, Val, S), modified = [Key | Mod]}.
+ Map#map{subst = maps:put(Key, Val, S), modified = [Key | Mod]}.
-lookup_type(Key, #map{dict = Dict, subst = Subst}) ->
- lookup(Key, Dict, Subst, t_none()).
+lookup_type(Key, #map{map = Map, subst = Subst}) ->
+ lookup(Key, Map, Subst, t_none()).
-lookup(Key, Dict, Subst, AnyNone) ->
+lookup(Key, Map, Subst, AnyNone) ->
case cerl:is_literal(Key) of
true -> literal_type(Key);
false ->
Label = get_label(Key),
- case dict:find(Label, Subst) of
- {ok, NewKey} -> lookup(NewKey, Dict, Subst, AnyNone);
+ case maps:find(Label, Subst) of
+ {ok, NewKey} -> lookup(NewKey, Map, Subst, AnyNone);
error ->
- case dict:find(Label, Dict) of
+ case maps:find(Label, Map) of
{ok, Val} -> Val;
error -> AnyNone
end
@@ -2703,6 +2857,9 @@ mark_as_fresh([Tree|Left], Map) ->
bitstr ->
%% The Size field is not fresh.
{SubTrees1 -- [cerl:bitstr_size(Tree)], Map};
+ map_pair ->
+ %% The keys are not fresh
+ {SubTrees1 -- [cerl:map_pair_key(Tree)], Map};
var ->
{SubTrees1, enter_type(Tree, t_any(), Map)};
_ ->
@@ -2713,12 +2870,12 @@ mark_as_fresh([], Map) ->
Map.
-ifdef(DEBUG).
-debug_pp_map(#map{dict = Dict}=Map) ->
- Keys = dict:fetch_keys(Dict),
+debug_pp_map(#map{map = Map}=MapRec) ->
+ Keys = maps:keys(Map),
io:format("Map:\n", []),
lists:foreach(fun (Key) ->
io:format("\t~w :: ~s\n",
- [Key, t_to_string(lookup_type(Key, Map))])
+ [Key, t_to_string(lookup_type(Key, MapRec))])
end, Keys),
ok.
-else.
diff --git a/lib/dialyzer/src/dialyzer_dep.erl b/lib/dialyzer/src/dialyzer_dep.erl
index 6678037bc0..273c05c54c 100644
--- a/lib/dialyzer/src/dialyzer_dep.erl
+++ b/lib/dialyzer/src/dialyzer_dep.erl
@@ -59,8 +59,14 @@
%% separately.
%%
--spec analyze(cerl:c_module()) ->
- {dict:dict(), ordsets:ordset('external' | label()), dict:dict(), dict:dict()}.
+-type dep_ordset() :: ordsets:ordset(label() | 'external').
+
+-type deps() :: dict:dict(label() | 'external' | 'top', dep_ordset()).
+-type esc() :: dep_ordset().
+-type calls() :: dict:dict(label(), ordsets:ordset(label())).
+-type letrecs() :: dict:dict(label(), label()).
+
+-spec analyze(cerl:c_module()) -> {deps(), esc(), calls(), letrecs()}.
analyze(Tree) ->
%% io:format("Handling ~w\n", [cerl:atom_val(cerl:module_name(Tree))]),
@@ -79,22 +85,26 @@ traverse(Tree, Out, State, CurrentFun) ->
apply ->
Op = cerl:apply_op(Tree),
Args = cerl:apply_args(Tree),
- %% Op is always a variable and should not be marked as escaping
- %% based on its use.
case var =:= cerl:type(Op) of
- false -> erlang:error({apply_op_not_a_variable, cerl:type(Op)});
- true -> ok
- end,
- OpFuns = case map__lookup(cerl_trees:get_label(Op), Out) of
- none -> output(none);
- {value, OF} -> OF
- end,
- {ArgFuns, State2} = traverse_list(Args, Out, State, CurrentFun),
- State3 = state__add_esc(merge_outs(ArgFuns), State2),
- State4 = state__add_deps(CurrentFun, OpFuns, State3),
- State5 = state__store_callsite(cerl_trees:get_label(Tree),
- OpFuns, length(Args), State4),
- {output(set__singleton(external)), State5};
+ false ->
+ %% We have discovered an error here, but we ignore it and let
+ %% later passes handle it; we do not modify the dependencies.
+ %% erlang:error({apply_op_not_a_variable, cerl:type(Op)});
+ {output(none), State};
+ true ->
+ %% Op is a variable and should not be marked as escaping
+ %% based on its use.
+ OpFuns = case map__lookup(cerl_trees:get_label(Op), Out) of
+ none -> output(none);
+ {value, OF} -> OF
+ end,
+ {ArgFuns, State2} = traverse_list(Args, Out, State, CurrentFun),
+ State3 = state__add_esc(merge_outs(ArgFuns), State2),
+ State4 = state__add_deps(CurrentFun, OpFuns, State3),
+ State5 = state__store_callsite(cerl_trees:get_label(Tree),
+ OpFuns, length(Args), State4),
+ {output(set__singleton(external)), State5}
+ end;
binary ->
{output(none), State};
'case' ->
@@ -481,11 +491,11 @@ all_vars(Tree, AccIn) ->
-type local_set() :: 'none' | #set{}.
--record(state, {deps :: dict:dict(),
+-record(state, {deps :: deps(),
esc :: local_set(),
- call :: dict:dict(),
- arities :: dict:dict(),
- letrecs :: dict:dict()}).
+ calls :: calls(),
+ arities :: dict:dict(label() | 'top', arity()),
+ letrecs :: letrecs()}).
state__new(Tree) ->
Exports = set__from_list([X || X <- cerl:module_exports(Tree)]),
@@ -503,7 +513,7 @@ state__new(Tree) ->
%% init the escaping function labels to exported + called from on_load
InitEsc = set__from_list(OnLoadLs ++ ExpLs),
Arities = cerl_trees:fold(fun find_arities/2, dict:new(), Tree),
- #state{deps = map__new(), esc = InitEsc, call = map__new(),
+ #state{deps = map__new(), esc = InitEsc, calls = map__new(),
arities = Arities, letrecs = map__new()}.
find_arities(Tree, AccMap) ->
@@ -518,7 +528,7 @@ find_arities(Tree, AccMap) ->
state__add_deps(_From, #output{content = none}, State) ->
State;
-state__add_deps(From, #output{type = single, content=To},
+state__add_deps(From, #output{type = single, content = To},
#state{deps = Map} = State) ->
%% io:format("Adding deps from ~w to ~w\n", [From, set__to_ordsets(To)]),
State#state{deps = map__add(From, To, Map)}.
@@ -544,16 +554,16 @@ state__esc(#state{esc = Esc}) ->
state__store_callsite(_From, #output{content = none}, _CallArity, State) ->
State;
state__store_callsite(From, To, CallArity,
- #state{call = Calls, arities = Arities} = State) ->
+ #state{calls = Calls, arities = Arities} = State) ->
Filter = fun(external) -> true;
(Fun) -> CallArity =:= dict:fetch(Fun, Arities)
end,
case filter_outs(To, Filter) of
#output{content = none} -> State;
- To1 -> State#state{call = map__store(From, To1, Calls)}
+ To1 -> State#state{calls = map__store(From, To1, Calls)}
end.
-state__calls(#state{call = Calls}) ->
+state__calls(#state{calls = Calls}) ->
Calls.
%%------------------------------------------------------------
diff --git a/lib/dialyzer/src/dialyzer_gui_wx.erl b/lib/dialyzer/src/dialyzer_gui_wx.erl
index 9f344d87ff..30d2bdeca4 100644
--- a/lib/dialyzer/src/dialyzer_gui_wx.erl
+++ b/lib/dialyzer/src/dialyzer_gui_wx.erl
@@ -422,7 +422,7 @@ gui_loop(#gui_state{backend_pid = BackendPid, doc_plt = DocPlt,
#wx{id=?menuID_HELP_ABOUT, obj=Frame,
event=#wxCommand{type=command_menu_selected}} ->
Message = " This is DIALYZER version " ++ ?VSN ++ " \n"++
- "DIALYZER is a DIscrepany AnaLYZer for ERlang programs.\n\n"++
+ "DIALYZER is a DIscrepancy AnaLYZer for ERlang programs.\n\n"++
" Copyright (C) Tobias Lindahl <[email protected]>\n"++
" Kostis Sagonas <[email protected]>\n\n",
output_sms(State, "About Dialyzer", Message, info),
diff --git a/lib/dialyzer/src/dialyzer_options.erl b/lib/dialyzer/src/dialyzer_options.erl
index dd81dd01ed..add660eae9 100644
--- a/lib/dialyzer/src/dialyzer_options.erl
+++ b/lib/dialyzer/src/dialyzer_options.erl
@@ -47,6 +47,7 @@ build(Opts) ->
?WARN_CALLGRAPH,
?WARN_FAILING_CALL,
?WARN_BIN_CONSTRUCTION,
+ ?WARN_MAP_CONSTRUCTION,
?WARN_CONTRACT_RANGE,
?WARN_CONTRACT_TYPES,
?WARN_CONTRACT_SYNTAX,
diff --git a/lib/dialyzer/src/dialyzer_typesig.erl b/lib/dialyzer/src/dialyzer_typesig.erl
index 5f0881bbcd..1787b66192 100644
--- a/lib/dialyzer/src/dialyzer_typesig.erl
+++ b/lib/dialyzer/src/dialyzer_typesig.erl
@@ -2,7 +2,7 @@
%%-----------------------------------------------------------------------
%% %CopyrightBegin%
%%
-%% Copyright Ericsson AB 2006-2015. All Rights Reserved.
+%% Copyright Ericsson AB 2006-2016. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
@@ -48,6 +48,7 @@
t_is_float/1, t_is_fun/1,
t_is_integer/1, t_non_neg_integer/0,
t_is_list/1, t_is_nil/1, t_is_none/1, t_is_number/1,
+ t_is_singleton/1,
t_limit/2, t_list/0, t_list/1,
t_list_elements/1, t_nonempty_list/1, t_maybe_improper_list/0,
@@ -57,7 +58,7 @@
t_timeout/0, t_tuple/0, t_tuple/1,
t_var/1, t_var_name/1,
t_none/0, t_unit/0,
- t_map/1
+ t_map/0, t_map/1, t_map_get/2, t_map_put/2
]).
-include("dialyzer.hrl").
@@ -65,9 +66,11 @@
%%-----------------------------------------------------------------------------
-type dep() :: integer(). %% type variable names used as constraint ids
+-type deps() :: ordsets:ordset(dep()).
+
-type type_var() :: erl_types:erl_type(). %% actually: {'c','var',_,_}
--record(fun_var, {'fun' :: fun((_) -> erl_types:erl_type()), deps :: [dep()],
+-record(fun_var, {'fun' :: fun((_) -> erl_types:erl_type()), deps :: deps(),
origin :: integer() | 'undefined'}).
-type constr_op() :: 'eq' | 'sub'.
@@ -76,20 +79,21 @@
-record(constraint, {lhs :: erl_types:erl_type(),
op :: constr_op(),
rhs :: fvar_or_type(),
- deps :: [dep()]}).
+ deps :: deps()}).
-type constraint() :: #constraint{}.
+-type mask() :: ordsets:ordset(non_neg_integer()).
+
-record(constraint_list, {type :: 'conj' | 'disj',
list :: [constr()],
- deps :: [dep()],
- masks = [] :: [{dep(),[non_neg_integer()]}] |
- {'d',dict:dict(dep(), [non_neg_integer()])},
+ deps :: deps(),
+ masks = maps:new() :: #{dep() => mask()},
id :: {'list', dep()} | 'undefined'}).
-type constraint_list() :: #constraint_list{}.
--record(constraint_ref, {id :: type_var(), deps :: [dep()]}).
+-record(constraint_ref, {id :: type_var(), deps :: deps()}).
-type constraint_ref() :: #constraint_ref{}.
@@ -98,34 +102,33 @@
-type types() :: erl_types:type_table().
-type typesig_scc() :: [{mfa(), {cerl:c_var(), cerl:c_fun()}, types()}].
--type typesig_funmap() :: [{type_var(), type_var()}]. %% Orddict
+-type typesig_funmap() :: #{type_var() => type_var()}.
-type prop_types() :: dict:dict(label(), types()).
--type dict_or_ets() :: {'d', prop_types()} | {'e', ets:tid()}.
-
--record(state, {callgraph :: dialyzer_callgraph:callgraph()
- | 'undefined',
- cs = [] :: [constr()],
- cmap = {'d', dict:new()} :: dict_or_ets(),
- fun_map = [] :: typesig_funmap(),
- fun_arities = dict:new() :: dict:dict(type_var(), arity()),
- in_match = false :: boolean(),
- in_guard = false :: boolean(),
- module :: module(),
- name_map = dict:new() :: dict:dict(mfa(),
- cerl:c_fun()),
- next_label = 0 :: label(),
- self_rec :: 'false' | erl_types:erl_type(),
- plt :: dialyzer_plt:plt()
- | 'undefined',
- prop_types = {'d', dict:new()} :: dict_or_ets(),
- records = dict:new() :: types(),
- scc = [] :: [type_var()],
- mfas :: [tuple()],
- solvers = [] :: [solver()]
+-record(state, {callgraph :: dialyzer_callgraph:callgraph()
+ | 'undefined',
+ cs = [] :: [constr()],
+ cmap = maps:new() :: #{type_var() => constr()},
+ fun_map = maps:new() :: typesig_funmap(),
+ fun_arities = maps:new() :: #{type_var() => arity()},
+ in_match = false :: boolean(),
+ in_guard = false :: boolean(),
+ module :: module(),
+ name_map = maps:new() :: #{mfa() => cerl:c_fun()},
+ next_label = 0 :: label(),
+ self_rec :: 'false' | erl_types:erl_type(),
+ plt :: dialyzer_plt:plt()
+ | 'undefined',
+ prop_types = dict:new() :: prop_types(),
+ records = dict:new() :: types(),
+ scc = [] :: ordsets:ordset(type_var()),
+ mfas :: [mfa()],
+ solvers = [] :: [solver()]
}).
+-type state() :: #state{}.
+
%%-----------------------------------------------------------------------------
-define(TYPE_LIMIT, 4).
@@ -187,7 +190,8 @@ analyze_scc(SCC, NextLabel, CallGraph, Plt, PropTypes, Solvers0) ->
Funs = state__scc(State3),
pp_constrs_scc(Funs, State3),
constraints_to_dot_scc(Funs, State3),
- solve(Funs, State3).
+ T = solve(Funs, State3),
+ dict:from_list(maps:to_list(T)).
assert_format_of_scc([{_MFA, {_Var, _Fun}, _Records}|Left]) ->
assert_format_of_scc(Left);
@@ -311,7 +315,7 @@ traverse(Tree, DefinedVars, State) ->
Hd = cerl:cons_hd(Tree),
Tl = cerl:cons_tl(Tree),
{State1, [HdVar, TlVar]} = traverse_list([Hd, Tl], DefinedVars, State),
- case cerl:is_literal(cerl:fold_literal(Tree)) of
+ case cerl:is_literal(fold_literal_maybe_match(Tree, State)) of
true ->
%% We do not need to do anything more here.
{State, t_cons(HdVar, TlVar)};
@@ -392,8 +396,18 @@ traverse(Tree, DefinedVars, State) ->
{State2, _} = traverse_list(Funs, DefinedVars1, State1),
traverse(Body, DefinedVars1, State2);
literal ->
- Type = t_from_term(cerl:concrete(Tree)),
- {State, Type};
+ %% Maps are special; a literal pattern matches more than just the value
+ %% constructed by the literal. For example #{} constructs the empty map,
+ %% but matches every map.
+ case state__is_in_match(State) of
+ true ->
+ Tree1 = dialyzer_utils:refold_pattern(Tree),
+ case cerl:is_literal(Tree1) of
+ false -> traverse(Tree1, DefinedVars, State);
+ true -> {State, t_from_term(cerl:concrete(Tree))}
+ end;
+ _ -> {State, t_from_term(cerl:concrete(Tree))}
+ end;
module ->
Defs = cerl:module_defs(Tree),
Funs = [Fun || {_Var, Fun} <- Defs],
@@ -437,7 +451,7 @@ traverse(Tree, DefinedVars, State) ->
Elements = cerl:tuple_es(Tree),
{State1, EVars} = traverse_list(Elements, DefinedVars, State),
{State2, TupleType} =
- case cerl:is_literal(cerl:fold_literal(Tree)) of
+ case cerl:is_literal(fold_literal_maybe_match(Tree, State1)) of
true ->
%% We do not need to do anything more here.
{State, t_tuple(EVars)};
@@ -476,7 +490,111 @@ traverse(Tree, DefinedVars, State) ->
[] -> {State2, TupleType}
end;
map ->
- {State, t_map([])};
+ Entries = cerl:map_es(Tree),
+ MapFoldFun = fun(Entry, AccState) ->
+ AccState1 = state__set_in_match(AccState, false),
+ {AccState2, KeyVar} = traverse(cerl:map_pair_key(Entry),
+ DefinedVars, AccState1),
+ AccState3 = state__set_in_match(
+ AccState2, state__is_in_match(AccState)),
+ {AccState4, ValVar} = traverse(cerl:map_pair_val(Entry),
+ DefinedVars, AccState3),
+ {{KeyVar, ValVar}, AccState4}
+ end,
+ {Pairs, State1} = lists:mapfoldl(MapFoldFun, State, Entries),
+ %% We mustn't recurse into map arguments to matches. Not only are they
+ %% syntactically only allowed to be the literal #{}, but that would also
+ %% cause an infinite recursion, since traverse/3 unfolds literals with
+ %% maps in them using dialyzer_utils:reflow_pattern/1.
+ {State2, ArgVar} =
+ case state__is_in_match(State) of
+ false -> traverse(cerl:map_arg(Tree), DefinedVars, State1);
+ true -> {State1, t_map()}
+ end,
+ MapVar = mk_var(Tree),
+ MapType = ?mk_fun_var(
+ fun(Map) ->
+ lists:foldl(
+ fun({K,V}, TypeAcc) ->
+ t_map_put({lookup_type(K, Map),
+ lookup_type(V, Map)},
+ TypeAcc)
+ end, t_inf(t_map(), lookup_type(ArgVar, Map)),
+ Pairs)
+ end, [ArgVar | lists:append([[K,V] || {K,V} <- Pairs])]),
+ %% TODO: does the "same element appearing several times" problem apply
+ %% here too?
+ Fun =
+ fun({KeyVar, ValVar}, {AccState, ShadowKeys}) ->
+ %% If Val is known to be the last association of Key (i.e. Key
+ %% is not in ShadowKeys), Val must be a subtype of what is
+ %% associated to Key in Tree
+ TypeFun =
+ fun(Map) ->
+ KeyType = lookup_type(KeyVar, Map),
+ case t_is_singleton(KeyType) of
+ false -> t_any();
+ true ->
+ MT = t_inf(lookup_type(MapVar, Map), t_map()),
+ case t_is_none(MT) of
+ true -> t_none();
+ false ->
+ DisjointFromKeyType =
+ fun(ShadowKey) ->
+ t_is_none(t_inf(lookup_type(ShadowKey, Map),
+ KeyType))
+ end,
+ case lists:all(DisjointFromKeyType, ShadowKeys) of
+ true -> t_map_get(KeyType, MT);
+ %% A later association might shadow this one
+ false -> t_any()
+ end
+ end
+ end
+ end,
+ ValType = ?mk_fun_var(TypeFun, [KeyVar, MapVar | ShadowKeys]),
+ {state__store_conj(ValVar, sub, ValType, AccState),
+ [KeyVar | ShadowKeys]}
+ end,
+ %% Accumulate shadowing keys right-to-left
+ {State3, _} = lists:foldr(Fun, {State2, []}, Pairs),
+ %% In a map expression, Arg must contain all keys that are inserted with
+ %% the exact (:=) operator, and are known (i.e. are not in ShadowedKeys)
+ %% to not have been introduced by a previous association
+ State4 =
+ case state__is_in_match(State) of
+ true -> State3;
+ false ->
+ ArgFun =
+ fun(Map) ->
+ FoldFun =
+ fun({{KeyVar, _}, Entry}, {AccType, ShadowedKeys}) ->
+ OpTree = cerl:map_pair_op(Entry),
+ KeyType = lookup_type(KeyVar, Map),
+ AccType1 =
+ case cerl:is_literal(OpTree) andalso
+ cerl:concrete(OpTree) =:= exact of
+ true ->
+ case t_is_none(t_inf(ShadowedKeys, KeyType)) of
+ true ->
+ t_map_put({KeyType, t_any()}, AccType);
+ false ->
+ AccType
+ end;
+ false ->
+ AccType
+ end,
+ {AccType1, t_sup(KeyType, ShadowedKeys)}
+ end,
+ %% Accumulate shadowed keys left-to-right
+ {ResType, _} = lists:foldl(FoldFun, {t_map(), t_none()},
+ lists:zip(Pairs, Entries)),
+ ResType
+ end,
+ ArgType = ?mk_fun_var(ArgFun, [KeyVar || {KeyVar, _} <- Pairs]),
+ state__store_conj(ArgVar, sub, ArgType, State3)
+ end,
+ {state__store_conj(MapVar, sub, MapType, State4), MapVar};
values ->
%% We can get into trouble when unifying products that have the
%% same element appearing several times. Handle these cases by
@@ -827,11 +945,11 @@ get_safe_underapprox(Pats, Guard) ->
Map1 = cerl_trees:fold(fun(X, Acc) ->
case cerl:is_c_var(X) of
true ->
- dict:store(cerl_trees:get_label(X), t_any(),
- Acc);
+ maps:put(cerl_trees:get_label(X), t_any(),
+ Acc);
false -> Acc
end
- end, dict:new(), cerl:c_values(Pats)),
+ end, maps:new(), cerl:c_values(Pats)),
{Type, Map2} = get_underapprox_from_guard(Guard, Map1),
Map3 = case t_is_none(t_inf(t_from_term(true), Type)) of
true -> throw(dont_know);
@@ -839,8 +957,8 @@ get_safe_underapprox(Pats, Guard) ->
case cerl:is_c_var(Guard) of
false -> Map2;
true ->
- dict:store(cerl_trees:get_label(Guard),
- t_from_term(true), Map2)
+ maps:put(cerl_trees:get_label(Guard),
+ t_from_term(true), Map2)
end
end,
{Ts, _Map4} = get_safe_underapprox_1(Pats, [], Map3),
@@ -866,7 +984,7 @@ get_underapprox_from_guard(Tree, Map) ->
case t_is_none(Inf) of
true -> throw(dont_know);
false ->
- {True, dict:store(cerl_trees:get_label(Fun), Inf, Map1)}
+ {True, maps:put(cerl_trees:get_label(Fun), Inf, Map1)}
end
end;
MFA ->
@@ -882,7 +1000,7 @@ get_underapprox_from_guard(Tree, Map) ->
case cerl:is_literal(Arg) of
true -> {True, Map1};
false ->
- {True, dict:store(cerl_trees:get_label(Arg), Inf, Map1)}
+ {True, maps:put(cerl_trees:get_label(Arg), Inf, Map1)}
end
end;
error ->
@@ -914,7 +1032,7 @@ get_underapprox_from_guard(Tree, Map) ->
end;
var ->
Type =
- case dict:find(cerl_trees:get_label(Tree), Map) of
+ case maps:find(cerl_trees:get_label(Tree), Map) of
error -> throw(dont_know);
{ok, T} -> T
end,
@@ -948,6 +1066,7 @@ get_type_test({erlang, is_float, 1}) -> {ok, t_float()};
get_type_test({erlang, is_function, 1}) -> {ok, t_fun()};
get_type_test({erlang, is_integer, 1}) -> {ok, t_integer()};
get_type_test({erlang, is_list, 1}) -> {ok, t_list()};
+get_type_test({erlang, is_map, 1}) -> {ok, t_map()};
get_type_test({erlang, is_number, 1}) -> {ok, t_number()};
get_type_test({erlang, is_pid, 1}) -> {ok, t_pid()};
get_type_test({erlang, is_port, 1}) -> {ok, t_port()};
@@ -1004,7 +1123,9 @@ bitstr_val_constr(SizeType, UnitVal, Flags) ->
end
end.
-get_safe_underapprox_1([Pat|Left], Acc, Map) ->
+get_safe_underapprox_1([Pat0|Left], Acc, Map) ->
+ %% Maps should be treated as patterns, not as literals
+ Pat = dialyzer_utils:refold_pattern(Pat0),
case cerl:type(Pat) of
alias ->
APat = cerl:alias_pat(Pat),
@@ -1015,7 +1136,7 @@ get_safe_underapprox_1([Pat|Left], Acc, Map) ->
case t_is_none(Inf) of
true -> throw(dont_know);
false ->
- Map3 = dict:store(cerl_trees:get_label(AVar), Inf, Map2),
+ Map3 = maps:put(cerl_trees:get_label(AVar), Inf, Map2),
get_safe_underapprox_1(Left, [Inf|Acc], Map3)
end;
binary ->
@@ -1048,15 +1169,42 @@ get_safe_underapprox_1([Pat|Left], Acc, Map) ->
Type = t_tuple(Ts),
get_safe_underapprox_1(Left, [Type|Acc], Map1);
map ->
- %% TODO: Can maybe do something here
- throw(dont_know);
+ %% Some assertions in case the syntax gets more premissive in the future
+ true = #{} =:= cerl:concrete(cerl:map_arg(Pat)),
+ true = lists:all(fun(P) ->
+ cerl:is_literal(Op = cerl:map_pair_op(P)) andalso
+ exact =:= cerl:concrete(Op)
+ end, cerl:map_es(Pat)),
+ KeyTrees = lists:map(fun cerl:map_pair_key/1, cerl:map_es(Pat)),
+ ValTrees = lists:map(fun cerl:map_pair_val/1, cerl:map_es(Pat)),
+ %% Keys must not be underapproximated. Overapproximations are safe.
+ Keys = get_safe_overapprox(KeyTrees),
+ {Vals, Map1} = get_safe_underapprox_1(ValTrees, [], Map),
+ case lists:all(fun erl_types:t_is_singleton/1, Keys) of
+ false -> throw(dont_know);
+ true -> ok
+ end,
+ SortedPairs = lists:sort(lists:zip(Keys, Vals)),
+ %% We need to deal with duplicates ourselves
+ SquashDuplicates =
+ fun SquashDuplicates([{K,First},{K,Second}|List]) ->
+ case t_is_none(Inf = t_inf(First, Second)) of
+ true -> throw(dont_know);
+ false -> [{K, Inf}|SquashDuplicates(List)]
+ end;
+ SquashDuplicates([Good|Rest]) ->
+ [Good|SquashDuplicates(Rest)];
+ SquashDuplicates([]) -> []
+ end,
+ Type = t_map(SquashDuplicates(SortedPairs)),
+ get_safe_underapprox_1(Left, [Type|Acc], Map1);
values ->
Es = cerl:values_es(Pat),
{Ts, Map1} = get_safe_underapprox_1(Es, [], Map),
Type = t_product(Ts),
get_safe_underapprox_1(Left, [Type|Acc], Map1);
var ->
- case dict:find(cerl_trees:get_label(Pat), Map) of
+ case maps:find(cerl_trees:get_label(Pat), Map) of
error -> throw(dont_know);
{ok, VarType} -> get_safe_underapprox_1(Left, [VarType|Acc], Map)
end
@@ -1064,6 +1212,15 @@ get_safe_underapprox_1([Pat|Left], Acc, Map) ->
get_safe_underapprox_1([], Acc, Map) ->
{lists:reverse(Acc), Map}.
+get_safe_overapprox(Pats) ->
+ lists:map(fun get_safe_overapprox_1/1, Pats).
+
+get_safe_overapprox_1(Pat) ->
+ case cerl:is_literal(Lit = cerl:fold_literal(Pat)) of
+ true -> t_from_term(cerl:concrete(Lit));
+ false -> t_any()
+ end.
+
%%----------------------------------------
%% Guards
%%
@@ -1263,6 +1420,8 @@ get_bif_constr({erlang, is_integer, 1}, Dst, [Arg], State) ->
get_bif_test_constr(Dst, Arg, t_integer(), State);
get_bif_constr({erlang, is_list, 1}, Dst, [Arg], State) ->
get_bif_test_constr(Dst, Arg, t_maybe_improper_list(), State);
+get_bif_constr({erlang, is_map, 1}, Dst, [Arg], State) ->
+ get_bif_test_constr(Dst, Arg, t_map(), State);
get_bif_constr({erlang, is_number, 1}, Dst, [Arg], State) ->
get_bif_test_constr(Dst, Arg, t_number(), State);
get_bif_constr({erlang, is_pid, 1}, Dst, [Arg], State) ->
@@ -1644,12 +1803,16 @@ solve([Fun], State) ->
solve([_|_] = SCC, State) ->
?debug("============ Analyzing SCC: ~w ===========\n",
[[debug_lookup_name(F) || F <- SCC]]),
- {Parallel, NewState} =
- case parallel_split(SCC) of
- false -> {false, State};
- SplitSCC -> {SplitSCC, minimize_state(State)}
- end,
- solve_scc(SCC, Parallel, map_new(), NewState, false).
+ Users = comp_users(SCC, State),
+ solve_scc(SCC, map_new(), State, Users, _ToSolve=SCC, false).
+
+comp_users(SCC, State) ->
+ Vars0 = [{Fun, state__get_rec_var(Fun, State)} || Fun <- SCC],
+ Vars = lists:sort([t_var_name(Var) || {_, {ok, Var}} <- Vars0]),
+ family([{t_var(V), F} ||
+ F <- SCC,
+ V <- ordsets:intersection(get_deps(state__get_cs(F, State)),
+ Vars)]).
solve_fun(Fun, FunMap, State) ->
Cs = state__get_cs(Fun, State),
@@ -1664,7 +1827,7 @@ solve_fun(Fun, FunMap, State) ->
end,
enter_type(Fun, NewType, NewFunMap1).
-solve_scc(SCC, Parallel, Map, State, TryingUnit) ->
+solve_scc(SCC, Map, State, Users, ToSolve, TryingUnit) ->
Vars0 = [{Fun, state__get_rec_var(Fun, State)} || Fun <- SCC],
Vars = [Var || {_, {ok, Var}} <- Vars0],
Funs = [Fun || {Fun, {ok, _}} <- Vars0],
@@ -1672,16 +1835,13 @@ solve_scc(SCC, Parallel, Map, State, TryingUnit) ->
RecTypes = [t_limit(Type, ?TYPE_LIMIT) || Type <- Types],
CleanMap = lists:foldl(fun(Fun, AccFunMap) ->
erase_type(t_var_name(Fun), AccFunMap)
- end, Map, SCC),
+ end, Map, ToSolve),
Map1 = enter_type_lists(Vars, RecTypes, CleanMap),
?debug("Checking SCC: ~w\n", [[debug_lookup_name(F) || F <- SCC]]),
- FunSet = ordsets:from_list([t_var_name(F) || F <- SCC]),
- Map2 =
- case Parallel of
- false -> solve_whole_scc(SCC, Map1, State);
- SplitSCC -> solve_whole_scc_parallel(SplitSCC, Map1, State)
- end,
- case maps_are_equal(Map2, Map, FunSet) of
+ SolveFun = fun(X, Y) -> scc_fold_fun(X, Y, State) end,
+ Map2 = lists:foldl(SolveFun, Map1, ToSolve),
+ Updated = updated_vars_only(Vars, Map, Map2),
+ case Updated =:= [] of
true ->
?debug("SCC ~w reached fixpoint\n", [SCC]),
NewTypes = unsafe_lookup_type_list(Funs, Map2),
@@ -1694,130 +1854,21 @@ solve_scc(SCC, Parallel, Map, State, TryingUnit) ->
true -> t_fun(t_fun_args(T), t_unit())
end || T <- NewTypes],
Map3 = enter_type_lists(Funs, UnitTypes, Map2),
- solve_scc(SCC, Parallel, Map3, State, true);
+ solve_scc(SCC, Map3, State, Users, SCC, true);
false ->
- case Parallel of
- false -> true;
- _ -> dispose_state(State)
- end,
Map2
end;
false ->
?debug("SCC ~w did not reach fixpoint\n", [SCC]),
- solve_scc(SCC, Parallel, Map2, State, TryingUnit)
- end.
-
-solve_whole_scc(SCC, Map, State) ->
- SolveFun = fun(X, Y) -> scc_fold_fun(X, Y, State) end,
- lists:foldl(SolveFun, Map, SCC).
-
-%%------------------------------------------------------------------------------
-
--define(worth_it, 42).
-
-parallel_split(SCC) ->
- Length = length(SCC),
- case Length > 2*?worth_it of
- false -> false;
- true ->
- case min(dialyzer_utils:parallelism(), 8) of
- 1 -> false;
- CPUs ->
- FullShare = Length div CPUs + 1,
- Unit = max(FullShare, ?worth_it),
- split(SCC, Unit, [])
- end
- end.
-
-minimize_state(#state{
- cmap = {d, CMap},
- fun_map = FunMap,
- fun_arities = FunArities,
- self_rec = SelfRec,
- prop_types = {d, PropTypes},
- solvers = Solvers
- }) ->
- Opts = [{read_concurrency, true}],
- ETSCMap = ets:new(cmap, Opts),
- ETSPropTypes = ets:new(prop_types, Opts),
- true = ets:insert(ETSCMap, dict:to_list(CMap)),
- true = ets:insert(ETSPropTypes, dict:to_list(PropTypes)),
- #state
- {cmap = {e, ETSCMap},
- fun_map = FunMap,
- fun_arities = FunArities,
- self_rec = SelfRec,
- prop_types = {e, ETSPropTypes},
- solvers = Solvers,
- callgraph = undefined,
- plt = undefined,
- mfas = []
- }.
-
-dispose_state(#state{cmap = {e, ETSCMap},
- prop_types = {e, ETSPropTypes}}) ->
- true = ets:delete(ETSCMap),
- true = ets:delete(ETSPropTypes).
-
-solve_whole_scc_parallel(SplitSCC, Map, State) ->
- Workers = spawn_workers(SplitSCC, Map, State),
- wait_results(Workers, Map, fold_res_fun(State)).
-
-spawn_workers(SplitSCC, Map, State) ->
- Spawner = solve_scc_spawner(self(), Map, State),
- lists:foreach(Spawner, SplitSCC),
- length(SplitSCC).
-
-wait_results(0, Map, _FoldResFun) ->
- Map;
-wait_results(Pending, Map, FoldResFun) ->
- Res = receive_scc_result(),
- NewMap = lists:foldl(FoldResFun, Map, Res),
- wait_results(Pending-1, NewMap, FoldResFun).
-
-solve_scc_spawner(Parent, Map, State) ->
- fun(SCCPart) ->
- spawn_link(fun() -> solve_scc_worker(Parent, SCCPart, Map, State) end)
- end.
-
-split([], _Unit, Acc) ->
- Acc;
-split(List, Unit, Acc) ->
- {Taken, Rest} =
- try
- lists:split(Unit, List)
- catch
- _:_ -> {List, []}
- end,
- split(Rest, Unit, [Taken|Acc]).
-
-solve_scc_worker(Parent, SCCPart, Map, State) ->
- SolveFun = fun(X, Y) -> scc_fold_fun(X, Y, State) end,
- FinalMap = lists:foldl(SolveFun, Map, SCCPart),
- Res =
- [{F, t_limit(unsafe_lookup_type(F, FinalMap), ?TYPE_LIMIT)} ||
- F <- SCCPart],
- send_scc_result(Parent, Res).
-
-fold_res_fun(State) ->
- fun({F, Type}, Map) ->
- case state__get_rec_var(F, State) of
- {ok, R} ->
- enter_type(R, Type, enter_type(F, Type, Map));
- error ->
- enter_type(F, Type, Map)
- end
+ ToSolve1 = affected(Updated, Users),
+ solve_scc(SCC, Map2, State, Users, ToSolve1, TryingUnit)
end.
-receive_scc_result() ->
- receive
- {scc_fun, Res} -> Res
- end.
-
-send_scc_result(Parent, Res) ->
- Parent ! {scc_fun, Res}.
-
-%%------------------------------------------------------------------------------
+affected(Updated, Users) ->
+ lists:umerge([case lists:keyfind(V, 1, Users) of
+ {V, Vs} -> Vs;
+ false -> []
+ end || V <- Updated]).
scc_fold_fun(F, FunMap, State) ->
Deps = get_deps(state__get_cs(F, State)),
@@ -1859,7 +1910,7 @@ solver(Solver, SolveFun) ->
solve_fun(v1, _Fun, Cs, FunMap, State) ->
fun() ->
- {ok, _MapDict, NewMap} = solve_ref_or_list(Cs, FunMap, dict:new(), State),
+ {ok, _MapDict, NewMap} = solve_ref_or_list(Cs, FunMap, map_new(), State),
{ok, NewMap}
end;
solve_fun(v2, Fun, _Cs, FunMap, State) ->
@@ -1899,8 +1950,8 @@ sane_maps(Map1, Map2, Keys, _S1, _S2) ->
%% Solver v2
--record(v2_state, {constr_data = dict:new() :: dict:dict(),
- state :: #state{}}).
+-record(v2_state, {constr_data = maps:new() :: map(),
+ state :: state()}).
v2_solve_ref(Fun, Map, State) ->
V2State = #v2_state{state = State},
@@ -2061,30 +2112,30 @@ v2_solve_disj(Is, [C|Cs], I, Map, V2State, UL, MapL, Eval, Uneval0, Failed) ->
v2_solve_disj(Is, Cs, I+1, Map, V2State, UL, MapL, Eval, Uneval, Failed).
save_local_map(#v2_state{constr_data = ConData}=V2State, Id, U, Map) ->
- Part0 = [{V,dict:fetch(V, Map)} || V <- U],
+ Part0 = [{V,maps:get(V, Map)} || V <- U],
Part1 =
- case dict:find(Id, ConData) of
+ case maps:find(Id, ConData) of
error -> []; % cannot happen
{ok, {Part2,[]}} -> Part2
end,
?debug("save local map Id=~w:\n", [Id]),
Part = lists:ukeymerge(1, lists:keysort(1, Part0), Part1),
- pp_map("New Part", dict:from_list(Part0)),
- pp_map("Old Part", dict:from_list(Part1)),
- pp_map(" => Part", dict:from_list(Part)),
- V2State#v2_state{constr_data = dict:store(Id, {Part,[]}, ConData)}.
+ pp_map("New Part", maps:from_list(Part0)),
+ pp_map("Old Part", maps:from_list(Part1)),
+ pp_map(" => Part", maps:from_list(Part)),
+ V2State#v2_state{constr_data = maps:put(Id, {Part,[]}, ConData)}.
restore_local_map(#v2_state{constr_data = ConData}, Id, Map0) ->
- case dict:find(Id, ConData) of
+ case maps:find(Id, ConData) of
error -> Map0;
{ok, failed} -> Map0;
{ok, {[],_}} -> Map0;
{ok, {Part0,U}} ->
Part = [KV || {K,_V} = KV <- Part0, not lists:member(K, U)],
?debug("restore local map Id=~w U=~w\n", [Id, U]),
- pp_map("Part", dict:from_list(Part)),
+ pp_map("Part", maps:from_list(Part)),
pp_map("Map0", Map0),
- Map = lists:foldl(fun({K,V}, D) -> dict:store(K, V, D) end, Map0, Part),
+ Map = lists:foldl(fun({K,V}, D) -> maps:put(K, V, D) end, Map0, Part),
pp_map("Map", Map),
Map
end.
@@ -2164,31 +2215,26 @@ report_detected_loop(_) ->
add_mask_to_flags(Flags, [Im|M], I, L) when I > Im ->
add_mask_to_flags(Flags, M, I, [Im|L]);
add_mask_to_flags(Flags, [_|M], _I, L) ->
- {lists:umerge(Flags, M), lists:reverse(L)}.
+ {lists:umerge(M, Flags), lists:reverse(L)}.
-get_mask(V, {d, Masks}) ->
- case dict:find(V, Masks) of
+get_mask(V, Masks) ->
+ case maps:find(V, Masks) of
error -> [];
{ok, M} -> M
- end;
-get_mask(V, Masks) ->
- case lists:keyfind(V, 1, Masks) of
- false -> [];
- {V, M} -> M
end.
get_flags(#v2_state{constr_data = ConData}=V2State0, C) ->
#constraint_list{id = Id, list = Cs, masks = Masks} = C,
- case dict:find(Id, ConData) of
+ case maps:find(Id, ConData) of
error ->
?debug("get_flags Id=~w Flags=all ~w\n", [Id, length(Cs)]),
- V2State = V2State0#v2_state{constr_data = dict:store(Id, {[],[]}, ConData)},
+ V2State = V2State0#v2_state{constr_data = maps:put(Id, {[],[]}, ConData)},
{V2State, lists:seq(1, length(Cs))};
{ok, failed} ->
{V2State0, failed_list};
{ok, {Part,U}} when U =/= [] ->
?debug("get_flags Id=~w U=~w\n", [Id, U]),
- V2State = V2State0#v2_state{constr_data = dict:store(Id, {Part,[]}, ConData)},
+ V2State = V2State0#v2_state{constr_data = maps:put(Id, {Part,[]}, ConData)},
save_updated_vars_list(Cs, vars_per_child(U, Masks), V2State)
end.
@@ -2217,13 +2263,13 @@ save_updated_vars(#constraint_ref{id = Id}, U, V2State) ->
save_updated_vars1(V2State, C, U) ->
#v2_state{constr_data = ConData} = V2State,
#constraint_list{id = Id} = C,
- case dict:find(Id, ConData) of
+ case maps:find(Id, ConData) of
error -> V2State; % error means everything is flagged
{ok, failed} -> V2State;
{ok, {Part,U0}} ->
%% Duplicates are not so common; let masks/2 remove them.
U1 = U ++ U0,
- V2State#v2_state{constr_data = dict:store(Id, {Part,U1}, ConData)}
+ V2State#v2_state{constr_data = maps:put(Id, {Part,U1}, ConData)}
end.
-ifdef(DEBUG).
@@ -2233,12 +2279,12 @@ pp_constr_data(_Tag, #v2_state{constr_data = D}) ->
case _PartU of
{_Part, _U} ->
io:format("Id: ~w Vars: ~w\n", [_Id, _U]),
- [pp_map("Part", dict:from_list(_Part)) || _Part =/= []];
+ [pp_map("Part", maps:from_list(_Part)) || _Part =/= []];
failed ->
io:format("Id: ~w failed list\n", [_Id])
end
end ||
- {_Id, _PartU} <- lists:keysort(1, dict:to_list(D))],
+ {_Id, _PartU} <- lists:keysort(1, maps:to_list(D))],
ok.
-else.
@@ -2248,17 +2294,17 @@ pp_constr_data(_Tag, _V2State) ->
failed_list(#constraint_list{id = Id}, #v2_state{constr_data = D}=V2State) ->
?debug("error list ~w~n", [Id]),
- V2State#v2_state{constr_data = dict:store(Id, failed, D)}.
+ V2State#v2_state{constr_data = maps:put(Id, failed, D)}.
is_failed_list(#constraint_list{id = Id}, #v2_state{constr_data = D}) ->
- dict:find(Id, D) =:= {ok, failed}.
+ maps:find(Id, D) =:= {ok, failed}.
%% Solver v1
solve_ref_or_list(#constraint_ref{id = Id, deps = Deps},
Map, MapDict, State) ->
{OldLocalMap, Check} =
- case dict:find(Id, MapDict) of
+ case maps:find(Id, MapDict) of
error -> {map_new(), false};
{ok, M} -> {M, true}
end,
@@ -2304,12 +2350,12 @@ solve_ref_or_list(#constraint_ref{id = Id, deps = Deps},
{ok, Var} -> enter_type(Var, FunType, NewMap1);
error -> NewMap1
end,
- {ok, dict:store(Id, NewMap2, NewMapDict), NewMap2}
+ {ok, maps:put(Id, NewMap2, NewMapDict), NewMap2}
end;
solve_ref_or_list(#constraint_list{type=Type, list = Cs, deps = Deps, id = Id},
Map, MapDict, State) ->
{OldLocalMap, Check} =
- case dict:find(Id, MapDict) of
+ case maps:find(Id, MapDict) of
error -> {map_new(), false};
{ok, M} -> {M, true}
end,
@@ -2359,7 +2405,7 @@ solve_self_recursive(Cs, Map, MapDict, Id, RecType0, State) ->
solve_clist(Cs, conj, Id, Deps, MapDict, Map, State) ->
case solve_cs(Cs, Map, MapDict, State) of
{error, NewMapDict} ->
- {error, dict:store(Id, error, NewMapDict)};
+ {error, maps:put(Id, error, NewMapDict)};
{ok, NewMapDict, NewMap} = Ret ->
case Cs of
[_] ->
@@ -2367,7 +2413,7 @@ solve_clist(Cs, conj, Id, Deps, MapDict, Map, State) ->
Ret;
_ ->
case maps_are_equal(Map, NewMap, Deps) of
- true -> {ok, dict:store(Id, NewMap, NewMapDict), NewMap};
+ true -> {ok, maps:put(Id, NewMap, NewMapDict), NewMap};
false -> solve_clist(Cs, conj, Id, Deps, NewMapDict, NewMap, State)
end
end
@@ -2381,10 +2427,10 @@ solve_clist(Cs, disj, Id, _Deps, MapDict, Map, State) ->
end,
{Maps, NewMapDict} = lists:mapfoldl(Fun, MapDict, Cs),
case [X || {ok, X} <- Maps] of
- [] -> {error, dict:store(Id, error, NewMapDict)};
+ [] -> {error, maps:put(Id, error, NewMapDict)};
MapList ->
NewMap = join_maps(MapList),
- {ok, dict:store(Id, NewMap, NewMapDict), NewMap}
+ {ok, maps:put(Id, NewMap, NewMapDict), NewMap}
end.
solve_cs([#constraint_ref{} = C|Tail], Map, MapDict, State) ->
@@ -2465,7 +2511,7 @@ report_failed_constraint(_C, _Map) ->
%% ============================================================================
map_new() ->
- dict:new().
+ maps:new().
join_maps([Map]) ->
Map;
@@ -2475,9 +2521,9 @@ join_maps(Maps) ->
constrained_keys(Maps) ->
lists:foldl(fun(TmpMap, AccKeys) ->
- [Key || Key <- AccKeys, dict:is_key(Key, TmpMap)]
+ [Key || Key <- AccKeys, maps:is_key(Key, TmpMap)]
end,
- dict:fetch_keys(hd(Maps)), tl(Maps)).
+ maps:keys(hd(Maps)), tl(Maps)).
join_maps([Key|Left], Maps = [Map|MapsLeft], AccMap) ->
NewType = join_one_key(Key, MapsLeft, lookup_type(Key, Map)),
@@ -2523,11 +2569,11 @@ prune_keys(Map1, Map2, Deps) ->
NofDeps = length(Deps),
case NofDeps > ?PRUNE_LIMIT of
true ->
- Keys1 = dict:fetch_keys(Map1),
+ Keys1 = maps:keys(Map1),
case length(Keys1) > NofDeps of
true ->
Set1 = lists:sort(Keys1),
- Set2 = lists:sort(dict:fetch_keys(Map2)),
+ Set2 = lists:sort(maps:keys(Map2)),
ordsets:intersection(ordsets:union(Set1, Set2), Deps);
false ->
Deps
@@ -2548,7 +2594,7 @@ enter_type(Key, Val, Map) when is_integer(Key) ->
true -> ok;
false -> ?debug("LimitedVal ~s\n", [format_type(LimitedVal)])
end,
- case dict:find(Key, Map) of
+ case maps:find(Key, Map) of
{ok, Value} ->
case is_equal(Value, LimitedVal) of
true -> Map;
@@ -2582,16 +2628,16 @@ enter_type2(Key, Val, Map) ->
map_store(Key, Val, Map) ->
?debug("Storing ~w :: ~s\n", [Key, format_type(Val)]),
- dict:store(Key, Val, Map).
+ maps:put(Key, Val, Map).
erase_type(Key, Map) ->
- dict:erase(Key, Map).
+ maps:remove(Key, Map).
lookup_type_list(List, Map) ->
[lookup_type(X, Map) || X <- List].
unsafe_lookup_type(Key, Map) ->
- case dict:find(t_var_name(Key), Map) of
+ case maps:find(t_var_name(Key), Map) of
{ok, Type} -> Type;
error -> t_none()
end.
@@ -2600,7 +2646,7 @@ unsafe_lookup_type_list(List, Map) ->
[unsafe_lookup_type(X, Map) || X <- List].
lookup_type(Key, Map) when is_integer(Key) ->
- case dict:find(Key, Map) of
+ case maps:find(Key, Map) of
error -> t_any();
{ok, Val} -> Val
end;
@@ -2648,7 +2694,7 @@ is_equal(Type1, Type2) ->
pp_map(_S, _Map) ->
?debug("\t~s: ~p\n",
[_S, [{X, lists:flatten(format_type(Y))} ||
- {X, Y} <- lists:keysort(1, dict:to_list(_Map))]]).
+ {X, Y} <- lists:keysort(1, maps:to_list(_Map))]]).
%% ============================================================================
%%
@@ -2658,7 +2704,7 @@ pp_map(_S, _Map) ->
new_state(SCC0, NextLabel, CallGraph, Plt, PropTypes, Solvers) ->
List = [{MFA, Var} || {MFA, {Var, _Fun}, _Rec} <- SCC0],
- NameMap = dict:from_list(List),
+ NameMap = maps:from_list(List),
MFAs = [MFA || {MFA, _Var} <- List],
SCC = [mk_var(Fun) || {_MFA, {_Var, Fun}, _Rec} <- SCC0],
SelfRec =
@@ -2672,7 +2718,7 @@ new_state(SCC0, NextLabel, CallGraph, Plt, PropTypes, Solvers) ->
_Many -> false
end,
#state{callgraph = CallGraph, name_map = NameMap, next_label = NextLabel,
- prop_types = {d, PropTypes}, plt = Plt, scc = ordsets:from_list(SCC),
+ prop_types = PropTypes, plt = Plt, scc = ordsets:from_list(SCC),
mfas = MFAs, self_rec = SelfRec, solvers = Solvers}.
state__set_rec_dict(State, RecDict) ->
@@ -2700,15 +2746,15 @@ state__get_fun_prototype(Op, Arity, State) ->
end.
state__lookup_rec_var_in_scope(MFA, #state{name_map = NameMap}) ->
- dict:find(MFA, NameMap).
+ maps:find(MFA, NameMap).
state__store_fun_arity(Tree, #state{fun_arities = Map} = State) ->
Arity = length(cerl:fun_vars(Tree)),
Id = mk_var(Tree),
- State#state{fun_arities = dict:store(Id, Arity, Map)}.
+ State#state{fun_arities = maps:put(Id, Arity, Map)}.
state__fun_arity(Id, #state{fun_arities = Map}) ->
- dict:fetch(Id, Map).
+ maps:get(Id, Map).
state__lookup_undef_var(Tree, #state{callgraph = CG, plt = Plt}) ->
Label = cerl_trees:get_label(Tree),
@@ -2768,21 +2814,14 @@ state__plt(#state{plt = PLT}) ->
state__new_constraint_context(State) ->
State#state{cs = []}.
-state__prop_domain(FunLabel, #state{prop_types = {e, ETSPropTypes}}) ->
- try ets:lookup_element(ETSPropTypes, FunLabel, 2) of
- {_Range_Fun, Dom} -> {ok, Dom};
- FunType -> {ok, t_fun_args(FunType)}
- catch
- _:_ -> error
- end;
-state__prop_domain(FunLabel, #state{prop_types = {d, PropTypes}}) ->
+state__prop_domain(FunLabel, #state{prop_types = PropTypes}) ->
case dict:find(FunLabel, PropTypes) of
error -> error;
{ok, {_Range_Fun, Dom}} -> {ok, Dom};
{ok, FunType} -> {ok, t_fun_args(FunType)}
end.
-state__add_prop_constrs(Tree, #state{prop_types = {d, PropTypes}} = State) ->
+state__add_prop_constrs(Tree, #state{prop_types = PropTypes} = State) ->
Label = cerl_trees:get_label(Tree),
case dict:find(Label, PropTypes) of
error -> State;
@@ -2845,14 +2884,12 @@ state__mk_vars(N, #state{next_label = NL} = State) ->
Vars = [t_var(X) || X <- lists:seq(NL, NewLabel-1)],
{State#state{next_label = NewLabel}, Vars}.
-state__store_constrs(Id, Cs, #state{cmap = {d, Dict}} = State) ->
- NewDict = dict:store(Id, Cs, Dict),
- State#state{cmap = {d, NewDict}}.
+state__store_constrs(Id, Cs, #state{cmap = Map} = State) ->
+ NewMap = maps:put(Id, Cs, Map),
+ State#state{cmap = NewMap}.
-state__get_cs(Var, #state{cmap = {e, ETSDict}}) ->
- ets:lookup_element(ETSDict, Var, 2);
-state__get_cs(Var, #state{cmap = {d, Dict}}) ->
- dict:fetch(Var, Dict).
+state__get_cs(Var, #state{cmap = Map}) ->
+ maps:get(Var, Map).
state__is_self_rec(Fun, #state{self_rec = SelfRec}) ->
not (SelfRec =:= 'false') andalso is_equal(Fun, SelfRec).
@@ -2861,15 +2898,12 @@ state__store_funs(Vars0, Funs0, #state{fun_map = Map} = State) ->
debug_make_name_map(Vars0, Funs0),
Vars = mk_var_list(Vars0),
Funs = mk_var_list(Funs0),
- NewMap = lists:foldl(fun({Var, Fun}, MP) -> orddict:store(Var, Fun, MP) end,
+ NewMap = lists:foldl(fun({Var, Fun}, MP) -> maps:put(Fun, Var, MP) end,
Map, lists:zip(Vars, Funs)),
State#state{fun_map = NewMap}.
state__get_rec_var(Fun, #state{fun_map = Map}) ->
- case [V || {V, FV} <- Map, FV =:= Fun] of
- [Var] -> {ok, Var};
- [] -> error
- end.
+ maps:find(Fun, Map).
state__finalize(State) ->
State1 = enumerate_constraints(State),
@@ -2936,13 +2970,13 @@ mk_fun_var(Fun, Types) ->
-endif.
--spec get_deps(constr()) -> [dep()].
+-spec get_deps(constr()) -> deps().
get_deps(#constraint{deps = D}) -> D;
get_deps(#constraint_list{deps = D}) -> D;
get_deps(#constraint_ref{deps = D}) -> D.
--spec find_constraint_deps([fvar_or_type()]) -> [dep()].
+-spec find_constraint_deps([fvar_or_type()]) -> deps().
find_constraint_deps(List) ->
ordsets:from_list(find_constraint_deps(List, [])).
@@ -2975,13 +3009,24 @@ mk_constraint_ref(Id, Deps) ->
mk_constraint_list(Type, List) ->
List1 = ordsets:from_list(lift_lists(Type, List)),
- List2 = ordsets:filter(fun(X) -> get_deps(X) =/= [] end, List1),
- Deps = calculate_deps(List2),
+ case Type of
+ conj ->
+ List2 = ordsets:filter(fun(X) -> get_deps(X) =/= [] end, List1),
+ mk_constraint_list_cont(Type, List2);
+ disj ->
+ case lists:any(fun(X) -> get_deps(X) =:= [] end, List1) of
+ true -> mk_constraint_list_cont(Type, [mk_constraint_any(eq)]);
+ false -> mk_constraint_list_cont(Type, List1)
+ end
+ end.
+
+mk_constraint_list_cont(Type, List) ->
+ Deps = calculate_deps(List),
case Deps =:= [] of
true -> #constraint_list{type = conj,
list = [mk_constraint_any(eq)],
deps = []};
- false -> #constraint_list{type = Type, list = List2, deps = Deps}
+ false -> #constraint_list{type = Type, list = List, deps = Deps}
end.
lift_lists(Type, List) ->
@@ -3179,18 +3224,11 @@ order_fun_constraints([], Funs, Acc, State) ->
update_masks(C, Masks) ->
C#constraint_list{masks = Masks}.
--define(VARS_LIMIT, 50).
-
calculate_masks([C|Cs], I, L0) ->
calculate_masks(Cs, I+1, [{V, I} || V <- get_deps(C)] ++ L0);
calculate_masks([], _I, L) ->
M = family(L),
- case length(M) > ?VARS_LIMIT of
- true ->
- {d, dict:from_list(M)};
- false ->
- M
- end.
+ maps:from_list(M).
%% ============================================================================
%%
@@ -3263,6 +3301,15 @@ find_constraint(Tuple, [#constraint_list{list = List}|Cs]) ->
find_constraint(Tuple, [_|Cs]) ->
find_constraint(Tuple, Cs).
+-spec fold_literal_maybe_match(cerl:cerl(), state()) -> cerl:cerl().
+
+fold_literal_maybe_match(Tree0, State) ->
+ Tree1 = cerl:fold_literal(Tree0),
+ case state__is_in_match(State) of
+ false -> Tree1;
+ true -> dialyzer_utils:refold_pattern(Tree1)
+ end.
+
lookup_record(Records, Tag, Arity) ->
case erl_types:lookup_record(Tag, Arity, Records) of
{ok, Fields} ->
@@ -3309,7 +3356,7 @@ join_chars([H|T], Sep) ->
[H|[[Sep,X] || X <- T]].
debug_lookup_name(Var) ->
- case dict:find(t_var_name(Var), get(dialyzer_typesig_map)) of
+ case maps:find(t_var_name(Var), get(dialyzer_typesig_map)) of
error -> Var;
{ok, Name} -> Name
end.
@@ -3319,7 +3366,7 @@ debug_lookup_name(Var) ->
debug_make_name_map(Vars, Funs) ->
Map = get(dialyzer_typesig_map),
NewMap =
- if Map =:= undefined -> debug_make_name_map(Vars, Funs, dict:new());
+ if Map =:= undefined -> debug_make_name_map(Vars, Funs, maps:new());
true -> debug_make_name_map(Vars, Funs, Map)
end,
put(dialyzer_typesig_map, NewMap).
@@ -3327,7 +3374,7 @@ debug_make_name_map(Vars, Funs) ->
debug_make_name_map([Var|VarLeft], [Fun|FunLeft], Map) ->
Name = {cerl:fname_id(Var), cerl:fname_arity(Var)},
FunLabel = cerl_trees:get_label(Fun),
- debug_make_name_map(VarLeft, FunLeft, dict:store(FunLabel, Name, Map));
+ debug_make_name_map(VarLeft, FunLeft, maps:put(FunLabel, Name, Map));
debug_make_name_map([], [], Map) ->
Map.
diff --git a/lib/dialyzer/src/dialyzer_utils.erl b/lib/dialyzer/src/dialyzer_utils.erl
index 5fc1c0e691..d37701f03b 100644
--- a/lib/dialyzer/src/dialyzer_utils.erl
+++ b/lib/dialyzer/src/dialyzer_utils.erl
@@ -49,6 +49,7 @@
process_record_remote_types/1,
sets_filter/2,
src_compiler_opts/0,
+ refold_pattern/1,
parallelism/0,
family/1
]).
@@ -752,6 +753,13 @@ pp_hook(Node, Ctxt, Cont) ->
pp_binary(Node, Ctxt, Cont);
bitstr ->
pp_segment(Node, Ctxt, Cont);
+ map ->
+ pp_map(Node, Ctxt, Cont);
+ literal ->
+ case is_map(cerl:concrete(Node)) of
+ true -> pp_map(Node, Ctxt, Cont);
+ false -> Cont(Node, Ctxt)
+ end;
_ ->
Cont(Node, Ctxt)
end.
@@ -832,6 +840,87 @@ pp_atom(Atom) ->
String = atom_to_list(cerl:atom_val(Atom)),
prettypr:text(String).
+pp_map(Node, Ctxt, Cont) ->
+ Arg = cerl:map_arg(Node),
+ Before = case cerl:is_c_map_empty(Arg) of
+ true -> prettypr:floating(prettypr:text("#{"));
+ false ->
+ prettypr:beside(Cont(Arg,Ctxt),
+ prettypr:floating(prettypr:text("#{")))
+ end,
+ prettypr:beside(
+ Before, prettypr:beside(
+ prettypr:par(seq(cerl:map_es(Node),
+ prettypr:floating(prettypr:text(",")),
+ Ctxt, Cont)),
+ prettypr:floating(prettypr:text("}")))).
+
+seq([H | T], Separator, Ctxt, Fun) ->
+ case T of
+ [] -> [Fun(H, Ctxt)];
+ _ -> [prettypr:beside(Fun(H, Ctxt), Separator)
+ | seq(T, Separator, Ctxt, Fun)]
+ end;
+seq([], _, _, _) ->
+ [prettypr:empty()].
+
+%%------------------------------------------------------------------------------
+
+-spec refold_pattern(cerl:cerl()) -> cerl:cerl().
+
+refold_pattern(Pat) ->
+ %% Avoid the churn of unfolding and refolding
+ case cerl:is_literal(Pat) andalso find_map(cerl:concrete(Pat)) of
+ true ->
+ Tree = refold_concrete_pat(cerl:concrete(Pat)),
+ PatAnn = cerl:get_ann(Pat),
+ case proplists:is_defined(label, PatAnn) of
+ %% Literals are not normally annotated with a label, but can be if, for
+ %% example, they were created by cerl:fold_literal/1.
+ true -> cerl:set_ann(Tree, PatAnn);
+ false ->
+ [{label, Label}] = cerl:get_ann(Tree),
+ cerl:set_ann(Tree, [{label, Label}|PatAnn])
+ end;
+ false -> Pat
+ end.
+
+find_map(#{}) -> true;
+find_map(Tuple) when is_tuple(Tuple) -> find_map(tuple_to_list(Tuple));
+find_map([H|T]) -> find_map(H) orelse find_map(T);
+find_map(_) -> false.
+
+refold_concrete_pat(Val) ->
+ case Val of
+ _ when is_tuple(Val) ->
+ Els = lists:map(fun refold_concrete_pat/1, tuple_to_list(Val)),
+ case lists:all(fun cerl:is_literal/1, Els) of
+ true -> cerl:abstract(Val);
+ false -> label(cerl:c_tuple_skel(Els))
+ end;
+ [H|T] ->
+ case cerl:is_literal(HP=refold_concrete_pat(H))
+ and cerl:is_literal(TP=refold_concrete_pat(T))
+ of
+ true -> cerl:abstract(Val);
+ false -> label(cerl:c_cons_skel(HP, TP))
+ end;
+ M when is_map(M) ->
+ %% Map patterns are not generated by the parser(!), but they have a
+ %% property we want, namely that they are never folded into literals.
+ %% N.B.: The key in a map pattern is an expression, *not* a pattern.
+ label(cerl:c_map_pattern([cerl:c_map_pair_exact(cerl:abstract(K),
+ refold_concrete_pat(V))
+ || {K, V} <- maps:to_list(M)]));
+ _ ->
+ cerl:abstract(Val)
+ end.
+
+label(Tree) ->
+ %% Sigh
+ Label = -erlang:unique_integer([positive]),
+ cerl:set_ann(Tree, [{label, Label}]).
+
%%------------------------------------------------------------------------------
-spec parallelism() -> integer().
diff --git a/lib/dialyzer/test/behaviour_SUITE_data/results/supervisor_incorrect_return b/lib/dialyzer/test/behaviour_SUITE_data/results/supervisor_incorrect_return
index 89eb295604..638d031923 100644
--- a/lib/dialyzer/test/behaviour_SUITE_data/results/supervisor_incorrect_return
+++ b/lib/dialyzer/test/behaviour_SUITE_data/results/supervisor_incorrect_return
@@ -1,2 +1,2 @@
-supervisor_incorrect_return.erl:14: The inferred return type of init/1 ({'ok',{{'one_against_one',0,1},[{_,_,_,_,_,_},...]}}) has nothing in common with 'ignore' | {'ok',{{'one_for_all',non_neg_integer(),pos_integer()} | {'one_for_one',non_neg_integer(),pos_integer()} | {'rest_for_one',non_neg_integer(),pos_integer()} | {'simple_one_for_one',non_neg_integer(),pos_integer()} | #{},[{_,{atom(),atom(),'undefined' | [any()]},'permanent' | 'temporary' | 'transient','brutal_kill' | 'infinity' | non_neg_integer(),'supervisor' | 'worker','dynamic' | [atom()]} | #{}]}}, which is the expected return type for the callback of supervisor behaviour
+supervisor_incorrect_return.erl:14: The inferred return type of init/1 ({'ok',{{'one_against_one',0,1},[{_,_,_,_,_,_},...]}}) has nothing in common with 'ignore' | {'ok',{{'one_for_all',non_neg_integer(),pos_integer()} | {'one_for_one',non_neg_integer(),pos_integer()} | {'rest_for_one',non_neg_integer(),pos_integer()} | {'simple_one_for_one',non_neg_integer(),pos_integer()} | #{'intensity'=>non_neg_integer(), 'period'=>pos_integer(), 'strategy'=>'one_for_all' | 'one_for_one' | 'rest_for_one' | 'simple_one_for_one'},[{_,{atom(),atom(),'undefined' | [any()]},'permanent' | 'temporary' | 'transient','brutal_kill' | 'infinity' | non_neg_integer(),'supervisor' | 'worker','dynamic' | [atom()]} | #{'id':=_, 'start':={atom(),atom(),'undefined' | [any()]}, 'modules'=>'dynamic' | [atom()], 'restart'=>'permanent' | 'temporary' | 'transient', 'shutdown'=>'brutal_kill' | 'infinity' | non_neg_integer(), 'type'=>'supervisor' | 'worker'}]}}, which is the expected return type for the callback of supervisor behaviour
diff --git a/lib/dialyzer/test/behaviour_SUITE_data/src/proper/compile_flags.hrl b/lib/dialyzer/test/behaviour_SUITE_data/src/proper/compile_flags.hrl
new file mode 100644
index 0000000000..e5ee44ace1
--- /dev/null
+++ b/lib/dialyzer/test/behaviour_SUITE_data/src/proper/compile_flags.hrl
@@ -0,0 +1,2 @@
+-define(AT_LEAST_19, 1).
+-define(AT_LEAST_17, 1).
diff --git a/lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_common.hrl b/lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_common.hrl
new file mode 100644
index 0000000000..c10626c5cc
--- /dev/null
+++ b/lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_common.hrl
@@ -0,0 +1,55 @@
+%%% Copyright 2010-2013 Manolis Papadakis <[email protected]>,
+%%% Eirini Arvaniti <[email protected]>
+%%% and Kostis Sagonas <[email protected]>
+%%%
+%%% This file is part of PropEr.
+%%%
+%%% PropEr is free software: you can redistribute it and/or modify
+%%% it under the terms of the GNU General Public License as published by
+%%% the Free Software Foundation, either version 3 of the License, or
+%%% (at your option) any later version.
+%%%
+%%% PropEr is distributed in the hope that it will be useful,
+%%% but WITHOUT ANY WARRANTY; without even the implied warranty of
+%%% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+%%% GNU General Public License for more details.
+%%%
+%%% You should have received a copy of the GNU General Public License
+%%% along with PropEr. If not, see <http://www.gnu.org/licenses/>.
+
+%%% @copyright 2010-2013 Manolis Papadakis, Eirini Arvaniti and Kostis Sagonas
+%%% @version {@version}
+%%% @author Manolis Papadakis
+%%% @doc Common parts of user and internal header files
+
+
+%%------------------------------------------------------------------------------
+%% Test generation macros
+%%------------------------------------------------------------------------------
+
+-define(FORALL(X,RawType,Prop), proper:forall(RawType,fun(X) -> Prop end)).
+-define(IMPLIES(Pre,Prop), proper:implies(Pre,?DELAY(Prop))).
+-define(WHENFAIL(Action,Prop), proper:whenfail(?DELAY(Action),?DELAY(Prop))).
+-define(TRAPEXIT(Prop), proper:trapexit(?DELAY(Prop))).
+-define(TIMEOUT(Limit,Prop), proper:timeout(Limit,?DELAY(Prop))).
+%% TODO: -define(ALWAYS(Tests,Prop), proper:always(Tests,?DELAY(Prop))).
+%% TODO: -define(SOMETIMES(Tests,Prop), proper:sometimes(Tests,?DELAY(Prop))).
+
+
+%%------------------------------------------------------------------------------
+%% Generator macros
+%%------------------------------------------------------------------------------
+
+-define(FORCE(X), (X)()).
+-define(DELAY(X), fun() -> X end).
+-define(LAZY(X), proper_types:lazy(?DELAY(X))).
+-define(SIZED(SizeArg,Gen), proper_types:sized(fun(SizeArg) -> Gen end)).
+-define(LET(X,RawType,Gen), proper_types:bind(RawType,fun(X) -> Gen end,false)).
+-define(SHRINK(Gen,AltGens),
+ proper_types:shrinkwith(?DELAY(Gen),?DELAY(AltGens))).
+-define(LETSHRINK(Xs,RawType,Gen),
+ proper_types:bind(RawType,fun(Xs) -> Gen end,true)).
+-define(SUCHTHAT(X,RawType,Condition),
+ proper_types:add_constraint(RawType,fun(X) -> Condition end,true)).
+-define(SUCHTHATMAYBE(X,RawType,Condition),
+ proper_types:add_constraint(RawType,fun(X) -> Condition end,false)).
diff --git a/lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_gen.erl b/lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_gen.erl
new file mode 100644
index 0000000000..b64a139e4d
--- /dev/null
+++ b/lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_gen.erl
@@ -0,0 +1,611 @@
+%%% Copyright 2010-2015 Manolis Papadakis <[email protected]>,
+%%% Eirini Arvaniti <[email protected]>
+%%% and Kostis Sagonas <[email protected]>
+%%%
+%%% This file is part of PropEr.
+%%%
+%%% PropEr is free software: you can redistribute it and/or modify
+%%% it under the terms of the GNU General Public License as published by
+%%% the Free Software Foundation, either version 3 of the License, or
+%%% (at your option) any later version.
+%%%
+%%% PropEr is distributed in the hope that it will be useful,
+%%% but WITHOUT ANY WARRANTY; without even the implied warranty of
+%%% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+%%% GNU General Public License for more details.
+%%%
+%%% You should have received a copy of the GNU General Public License
+%%% along with PropEr. If not, see <http://www.gnu.org/licenses/>.
+
+%%% @copyright 2010-2015 Manolis Papadakis, Eirini Arvaniti and Kostis Sagonas
+%%% @version {@version}
+%%% @author Manolis Papadakis
+
+%%% @doc Generator subsystem and generators for basic types.
+%%%
+%%% You can use <a href="#index">these</a> functions to try out the random
+%%% instance generation and shrinking subsystems.
+%%%
+%%% CAUTION: These functions should never be used inside properties. They are
+%%% meant for demonstration purposes only.
+
+-module(proper_gen).
+-export([pick/1, pick/2, pick/3,
+ sample/1, sample/3, sampleshrink/1, sampleshrink/2]).
+
+-export([safe_generate/1]).
+-export([generate/1, normal_gen/1, alt_gens/1, clean_instance/1,
+ get_ret_type/1]).
+-export([integer_gen/3, float_gen/3, atom_gen/1, atom_rev/1, binary_gen/1,
+ binary_rev/1, binary_len_gen/1, bitstring_gen/1, bitstring_rev/1,
+ bitstring_len_gen/1, list_gen/2, distlist_gen/3, vector_gen/2,
+ union_gen/1, weighted_union_gen/1, tuple_gen/1, loose_tuple_gen/2,
+ loose_tuple_rev/2, exactly_gen/1, fixed_list_gen/1, function_gen/2,
+ any_gen/1, native_type_gen/2, safe_weighted_union_gen/1,
+ safe_union_gen/1]).
+
+-export_type([instance/0, imm_instance/0, sized_generator/0, nosize_generator/0,
+ generator/0, reverse_gen/0, combine_fun/0, alt_gens/0]).
+
+-include("proper_internal.hrl").
+
+%%-----------------------------------------------------------------------------
+%% Types
+%%-----------------------------------------------------------------------------
+
+%% TODO: update imm_instance() when adding more types: be careful when reading
+%% anything that returns it
+%% @private_type
+-type imm_instance() :: proper_types:raw_type()
+ | instance()
+ | {'$used', imm_instance(), imm_instance()}
+ | {'$to_part', imm_instance()}.
+-type instance() :: term().
+%% A value produced by the random instance generator.
+-type error_reason() :: 'arity_limit' | 'cant_generate' | {'typeserver',term()}.
+
+%% @private_type
+-type sized_generator() :: fun((size()) -> imm_instance()).
+%% @private_type
+-type typed_sized_generator() :: {'typed',
+ fun((proper_types:type(),size()) ->
+ imm_instance())}.
+%% @private_type
+-type nosize_generator() :: fun(() -> imm_instance()).
+%% @private_type
+-type typed_nosize_generator() :: {'typed',
+ fun((proper_types:type()) ->
+ imm_instance())}.
+%% @private_type
+-type generator() :: sized_generator()
+ | typed_sized_generator()
+ | nosize_generator()
+ | typed_nosize_generator().
+%% @private_type
+-type plain_reverse_gen() :: fun((instance()) -> imm_instance()).
+%% @private_type
+-type typed_reverse_gen() :: {'typed',
+ fun((proper_types:type(),instance()) ->
+ imm_instance())}.
+%% @private_type
+-type reverse_gen() :: plain_reverse_gen() | typed_reverse_gen().
+%% @private_type
+-type combine_fun() :: fun((instance()) -> imm_instance()).
+%% @private_type
+-type alt_gens() :: fun(() -> [imm_instance()]).
+%% @private_type
+-type fun_seed() :: {non_neg_integer(),non_neg_integer()}.
+
+
+%%-----------------------------------------------------------------------------
+%% Instance generation functions
+%%-----------------------------------------------------------------------------
+
+%% @private
+-spec safe_generate(proper_types:raw_type()) ->
+ {'ok',imm_instance()} | {'error',error_reason()}.
+safe_generate(RawType) ->
+ try generate(RawType) of
+ ImmInstance -> {ok, ImmInstance}
+ catch
+ throw:'$arity_limit' -> {error, arity_limit};
+ throw:'$cant_generate' -> {error, cant_generate};
+ throw:{'$typeserver',SubReason} -> {error, {typeserver,SubReason}}
+ end.
+
+%% @private
+-spec generate(proper_types:raw_type()) -> imm_instance().
+generate(RawType) ->
+ Type = proper_types:cook_outer(RawType),
+ ok = add_parameters(Type),
+ Instance = generate(Type, get('$constraint_tries'), none),
+ ok = remove_parameters(Type),
+ Instance.
+
+-spec add_parameters(proper_types:type()) -> 'ok'.
+add_parameters(Type) ->
+ case proper_types:find_prop(parameters, Type) of
+ {ok, Params} ->
+ OldParams = erlang:get('$parameters'),
+ case OldParams of
+ undefined ->
+ erlang:put('$parameters', Params);
+ _ ->
+ erlang:put('$parameters', Params ++ OldParams)
+ end,
+ ok;
+ _ ->
+ ok
+ end.
+
+-spec remove_parameters(proper_types:type()) -> 'ok'.
+remove_parameters(Type) ->
+ case proper_types:find_prop(parameters, Type) of
+ {ok, Params} ->
+ AllParams = erlang:get('$parameters'),
+ case AllParams of
+ Params->
+ erlang:erase('$parameters');
+ _ ->
+ erlang:put('$parameters', AllParams -- Params)
+ end,
+ ok;
+ _ ->
+ ok
+ end.
+
+-spec generate(proper_types:type(), non_neg_integer(),
+ 'none' | {'ok',imm_instance()}) -> imm_instance().
+generate(_Type, 0, none) ->
+ throw('$cant_generate');
+generate(_Type, 0, {ok,Fallback}) ->
+ Fallback;
+generate(Type, TriesLeft, Fallback) ->
+ ImmInstance =
+ case proper_types:get_prop(kind, Type) of
+ constructed ->
+ PartsType = proper_types:get_prop(parts_type, Type),
+ Combine = proper_types:get_prop(combine, Type),
+ ImmParts = generate(PartsType),
+ Parts = clean_instance(ImmParts),
+ ImmInstance1 = Combine(Parts),
+ %% TODO: We can just generate the internal type: if it's not
+ %% a type, it will turn into an exactly.
+ ImmInstance2 =
+ case proper_types:is_raw_type(ImmInstance1) of
+ true -> generate(ImmInstance1);
+ false -> ImmInstance1
+ end,
+ {'$used',ImmParts,ImmInstance2};
+ _ ->
+ ImmInstance1 = normal_gen(Type),
+ case proper_types:is_raw_type(ImmInstance1) of
+ true -> generate(ImmInstance1);
+ false -> ImmInstance1
+ end
+ end,
+ case proper_types:satisfies_all(clean_instance(ImmInstance), Type) of
+ {_,true} -> ImmInstance;
+ {true,false} -> generate(Type, TriesLeft - 1, {ok,ImmInstance});
+ {false,false} -> generate(Type, TriesLeft - 1, Fallback)
+ end.
+
+%% @equiv pick(Type, 10)
+-spec pick(Type::proper_types:raw_type()) -> {'ok',instance()} | 'error'.
+pick(RawType) ->
+ pick(RawType, 10).
+
+%% @equiv pick(Type, Size, os:timestamp())
+-spec pick(Type::proper_types:raw_type(), size()) -> {'ok',instance()} | 'error'.
+pick(RawType, Size) ->
+ pick(RawType, Size, os:timestamp()).
+
+%% @doc Generates a random instance of `Type', of size `Size' with seed `Seed'.
+-spec pick(Type::proper_types:raw_type(), size(), seed()) ->
+ {'ok',instance()} | 'error'.
+pick(RawType, Size, Seed) ->
+ proper:global_state_init_size_seed(Size, Seed),
+ case clean_instance(safe_generate(RawType)) of
+ {ok,Instance} = Result ->
+ Msg = "WARNING: Some garbage has been left in the process registry "
+ "and the code server~n"
+ "to allow for the returned function(s) to run normally.~n"
+ "Please run proper:global_state_erase() when done.~n",
+ case contains_fun(Instance) of
+ true -> io:format(Msg, []);
+ false -> proper:global_state_erase()
+ end,
+ Result;
+ {error,Reason} ->
+ proper:report_error(Reason, fun io:format/2),
+ proper:global_state_erase(),
+ error
+ end.
+
+%% @equiv sample(Type, 10, 20)
+-spec sample(Type::proper_types:raw_type()) -> 'ok'.
+sample(RawType) ->
+ sample(RawType, 10, 20).
+
+%% @doc Generates and prints one random instance of `Type' for each size from
+%% `StartSize' up to `EndSize'.
+-spec sample(Type::proper_types:raw_type(), size(), size()) -> 'ok'.
+sample(RawType, StartSize, EndSize) when StartSize =< EndSize ->
+ Tests = EndSize - StartSize + 1,
+ Prop = ?FORALL(X, RawType, begin io:format("~p~n",[X]), true end),
+ Opts = [quiet,{start_size,StartSize},{max_size,EndSize},{numtests,Tests}],
+ _ = proper:quickcheck(Prop, Opts),
+ ok.
+
+%% @equiv sampleshrink(Type, 10)
+-spec sampleshrink(Type::proper_types:raw_type()) -> 'ok'.
+sampleshrink(RawType) ->
+ sampleshrink(RawType, 10).
+
+%% @doc Generates a random instance of `Type', of size `Size', then shrinks it
+%% as far as it goes. The value produced on each step of the shrinking process
+%% is printed on the screen.
+-spec sampleshrink(Type::proper_types:raw_type(), size()) -> 'ok'.
+sampleshrink(RawType, Size) ->
+ proper:global_state_init_size(Size),
+ Type = proper_types:cook_outer(RawType),
+ case safe_generate(Type) of
+ {ok,ImmInstance} ->
+ Shrunk = keep_shrinking(ImmInstance, [], Type),
+ PrintInst = fun(I) -> io:format("~p~n",[clean_instance(I)]) end,
+ lists:foreach(PrintInst, Shrunk);
+ {error,Reason} ->
+ proper:report_error(Reason, fun io:format/2)
+ end,
+ proper:global_state_erase(),
+ ok.
+
+-spec keep_shrinking(imm_instance(), [imm_instance()], proper_types:type()) ->
+ [imm_instance(),...].
+keep_shrinking(ImmInstance, Acc, Type) ->
+ keep_shrinking(ImmInstance, Acc, Type, init).
+
+keep_shrinking(ImmInstance, Acc, Type, State) ->
+ case proper_shrink:shrink(ImmInstance, Type, State) of
+ {[], done} -> %% no more shrinkers
+ lists:reverse([ImmInstance|Acc]);
+ {[], NewState} ->
+ %% try next shrinker
+ keep_shrinking(ImmInstance, Acc, Type, NewState);
+ {[Shrunk|_Rest], _NewState} ->
+ Acc2 = [ImmInstance|Acc],
+ case lists:member(Shrunk, Acc2) of
+ true ->
+ %% Avoid infinite loops
+ lists:reverse(Acc2);
+ false ->
+ keep_shrinking(Shrunk, Acc2, Type)
+ end
+ end.
+
+-spec contains_fun(term()) -> boolean().
+contains_fun(List) when is_list(List) ->
+ proper_arith:safe_any(fun contains_fun/1, List);
+contains_fun(Tuple) when is_tuple(Tuple) ->
+ contains_fun(tuple_to_list(Tuple));
+contains_fun(Fun) when is_function(Fun) ->
+ true;
+contains_fun(_Term) ->
+ false.
+
+
+%%-----------------------------------------------------------------------------
+%% Utility functions
+%%-----------------------------------------------------------------------------
+
+%% @private
+-spec normal_gen(proper_types:type()) -> imm_instance().
+normal_gen(Type) ->
+ case proper_types:get_prop(generator, Type) of
+ {typed, Gen} ->
+ if
+ is_function(Gen, 1) -> Gen(Type);
+ is_function(Gen, 2) -> Gen(Type, proper:get_size(Type))
+ end;
+ Gen ->
+ if
+ is_function(Gen, 0) -> Gen();
+ is_function(Gen, 1) -> Gen(proper:get_size(Type))
+ end
+ end.
+
+%% @private
+-spec alt_gens(proper_types:type()) -> [imm_instance()].
+alt_gens(Type) ->
+ case proper_types:find_prop(alt_gens, Type) of
+ {ok, AltGens} -> ?FORCE(AltGens);
+ error -> []
+ end.
+
+%% @private
+-spec clean_instance(imm_instance()) -> instance().
+clean_instance({'$used',_ImmParts,ImmInstance}) ->
+ clean_instance(ImmInstance);
+clean_instance({'$to_part',ImmInstance}) ->
+ clean_instance(ImmInstance);
+clean_instance(ImmInstance) ->
+ if
+ is_list(ImmInstance) ->
+ %% CAUTION: this must handle improper lists
+ proper_arith:safe_map(fun clean_instance/1, ImmInstance);
+ is_tuple(ImmInstance) ->
+ proper_arith:tuple_map(fun clean_instance/1, ImmInstance);
+ true ->
+ ImmInstance
+ end.
+
+
+%%-----------------------------------------------------------------------------
+%% Basic type generators
+%%-----------------------------------------------------------------------------
+
+%% @private
+-spec integer_gen(size(), proper_types:extint(), proper_types:extint()) ->
+ integer().
+integer_gen(Size, inf, inf) ->
+ proper_arith:rand_int(Size);
+integer_gen(Size, inf, High) ->
+ High - proper_arith:rand_non_neg_int(Size);
+integer_gen(Size, Low, inf) ->
+ Low + proper_arith:rand_non_neg_int(Size);
+integer_gen(Size, Low, High) ->
+ proper_arith:smart_rand_int(Size, Low, High).
+
+%% @private
+-spec float_gen(size(), proper_types:extnum(), proper_types:extnum()) ->
+ float().
+float_gen(Size, inf, inf) ->
+ proper_arith:rand_float(Size);
+float_gen(Size, inf, High) ->
+ High - proper_arith:rand_non_neg_float(Size);
+float_gen(Size, Low, inf) ->
+ Low + proper_arith:rand_non_neg_float(Size);
+float_gen(_Size, Low, High) ->
+ proper_arith:rand_float(Low, High).
+
+%% @private
+-spec atom_gen(size()) -> proper_types:type().
+%% We make sure we never clash with internal atoms by checking that the first
+%% character is not '$'.
+atom_gen(Size) ->
+ ?LET(Str,
+ ?SUCHTHAT(X,
+ proper_types:resize(Size,
+ proper_types:list(proper_types:byte())),
+ X =:= [] orelse hd(X) =/= $$),
+ list_to_atom(Str)).
+
+%% @private
+-spec atom_rev(atom()) -> imm_instance().
+atom_rev(Atom) ->
+ {'$used', atom_to_list(Atom), Atom}.
+
+%% @private
+-spec binary_gen(size()) -> proper_types:type().
+binary_gen(Size) ->
+ ?LET(Bytes,
+ proper_types:resize(Size,
+ proper_types:list(proper_types:byte())),
+ list_to_binary(Bytes)).
+
+%% @private
+-spec binary_rev(binary()) -> imm_instance().
+binary_rev(Binary) ->
+ {'$used', binary_to_list(Binary), Binary}.
+
+%% @private
+-spec binary_len_gen(length()) -> proper_types:type().
+binary_len_gen(Len) ->
+ ?LET(Bytes,
+ proper_types:vector(Len, proper_types:byte()),
+ list_to_binary(Bytes)).
+
+%% @private
+-spec bitstring_gen(size()) -> proper_types:type().
+bitstring_gen(Size) ->
+ ?LET({BytesHead, NumBits, TailByte},
+ {proper_types:resize(Size,proper_types:binary()),
+ proper_types:range(0,7), proper_types:range(0,127)},
+ <<BytesHead/binary, TailByte:NumBits>>).
+
+%% @private
+-spec bitstring_rev(bitstring()) -> imm_instance().
+bitstring_rev(BitString) ->
+ List = bitstring_to_list(BitString),
+ {BytesList, BitsTail} = lists:splitwith(fun erlang:is_integer/1, List),
+ {NumBits, TailByte} = case BitsTail of
+ [] -> {0, 0};
+ [Bits] -> N = bit_size(Bits),
+ <<Byte:N>> = Bits,
+ {N, Byte}
+ end,
+ {'$used',
+ {{'$used',BytesList,list_to_binary(BytesList)}, NumBits, TailByte},
+ BitString}.
+
+%% @private
+-spec bitstring_len_gen(length()) -> proper_types:type().
+bitstring_len_gen(Len) ->
+ BytesLen = Len div 8,
+ BitsLen = Len rem 8,
+ ?LET({BytesHead, NumBits, TailByte},
+ {proper_types:binary(BytesLen), BitsLen,
+ proper_types:range(0, 1 bsl BitsLen - 1)},
+ <<BytesHead/binary, TailByte:NumBits>>).
+
+%% @private
+-spec list_gen(size(), proper_types:type()) -> [imm_instance()].
+list_gen(Size, ElemType) ->
+ Len = proper_arith:rand_int(0, Size),
+ vector_gen(Len, ElemType).
+
+%% @private
+-spec distlist_gen(size(), sized_generator(), boolean()) -> [imm_instance()].
+distlist_gen(RawSize, Gen, NonEmpty) ->
+ Len = case NonEmpty of
+ true -> proper_arith:rand_int(1, erlang:max(1,RawSize));
+ false -> proper_arith:rand_int(0, RawSize)
+ end,
+ Size = case Len of
+ 1 -> RawSize - 1;
+ _ -> RawSize
+ end,
+ %% TODO: this produces a lot of types: maybe a simple 'div' is sufficient?
+ Sizes = proper_arith:distribute(Size, Len),
+ InnerTypes = [Gen(S) || S <- Sizes],
+ fixed_list_gen(InnerTypes).
+
+%% @private
+-spec vector_gen(length(), proper_types:type()) -> [imm_instance()].
+vector_gen(Len, ElemType) ->
+ vector_gen_tr(Len, ElemType, []).
+
+-spec vector_gen_tr(length(), proper_types:type(), [imm_instance()]) ->
+ [imm_instance()].
+vector_gen_tr(0, _ElemType, AccList) ->
+ AccList;
+vector_gen_tr(Left, ElemType, AccList) ->
+ vector_gen_tr(Left - 1, ElemType, [generate(ElemType) | AccList]).
+
+%% @private
+-spec union_gen([proper_types:type(),...]) -> imm_instance().
+union_gen(Choices) ->
+ {_Choice,Type} = proper_arith:rand_choose(Choices),
+ generate(Type).
+
+%% @private
+-spec weighted_union_gen([{frequency(),proper_types:type()},...]) ->
+ imm_instance().
+weighted_union_gen(FreqChoices) ->
+ {_Choice,Type} = proper_arith:freq_choose(FreqChoices),
+ generate(Type).
+
+%% @private
+-spec safe_union_gen([proper_types:type(),...]) -> imm_instance().
+safe_union_gen(Choices) ->
+ {Choice,Type} = proper_arith:rand_choose(Choices),
+ try generate(Type)
+ catch
+ error:_ ->
+ safe_union_gen(proper_arith:list_remove(Choice, Choices))
+ end.
+
+%% @private
+-spec safe_weighted_union_gen([{frequency(),proper_types:type()},...]) ->
+ imm_instance().
+safe_weighted_union_gen(FreqChoices) ->
+ {Choice,Type} = proper_arith:freq_choose(FreqChoices),
+ try generate(Type)
+ catch
+ error:_ ->
+ safe_weighted_union_gen(proper_arith:list_remove(Choice,
+ FreqChoices))
+ end.
+
+%% @private
+-spec tuple_gen([proper_types:type()]) -> tuple().
+tuple_gen(Fields) ->
+ list_to_tuple(fixed_list_gen(Fields)).
+
+%% @private
+-spec loose_tuple_gen(size(), proper_types:type()) -> proper_types:type().
+loose_tuple_gen(Size, ElemType) ->
+ ?LET(L,
+ proper_types:resize(Size, proper_types:list(ElemType)),
+ list_to_tuple(L)).
+
+%% @private
+-spec loose_tuple_rev(tuple(), proper_types:type()) -> imm_instance().
+loose_tuple_rev(Tuple, ElemType) ->
+ CleanList = tuple_to_list(Tuple),
+ List = case proper_types:find_prop(reverse_gen, ElemType) of
+ {ok,{typed, ReverseGen}} ->
+ [ReverseGen(ElemType,X) || X <- CleanList];
+ {ok,ReverseGen} -> [ReverseGen(X) || X <- CleanList];
+ error -> CleanList
+ end,
+ {'$used', List, Tuple}.
+
+%% @private
+-spec exactly_gen(T) -> T.
+exactly_gen(X) ->
+ X.
+
+%% @private
+-spec fixed_list_gen([proper_types:type()]) -> imm_instance()
+ ; ({[proper_types:type()],proper_types:type()}) ->
+ maybe_improper_list(imm_instance(), imm_instance() | []).
+fixed_list_gen({ProperHead,ImproperTail}) ->
+ [generate(F) || F <- ProperHead] ++ generate(ImproperTail);
+fixed_list_gen(ProperFields) ->
+ [generate(F) || F <- ProperFields].
+
+%% @private
+-spec function_gen(arity(), proper_types:type()) -> function().
+function_gen(Arity, RetType) ->
+ FunSeed = {proper_arith:rand_int(0, ?SEED_RANGE - 1),
+ proper_arith:rand_int(0, ?SEED_RANGE - 1)},
+ create_fun(Arity, RetType, FunSeed).
+
+%% @private
+-spec any_gen(size()) -> imm_instance().
+any_gen(Size) ->
+ case get('$any_type') of
+ undefined -> real_any_gen(Size);
+ {type,AnyType} -> generate(proper_types:resize(Size, AnyType))
+ end.
+
+-spec real_any_gen(size()) -> imm_instance().
+real_any_gen(0) ->
+ SimpleTypes = [proper_types:integer(), proper_types:float(),
+ proper_types:atom()],
+ union_gen(SimpleTypes);
+real_any_gen(Size) ->
+ FreqChoices = [{?ANY_SIMPLE_PROB,simple}, {?ANY_BINARY_PROB,binary},
+ {?ANY_EXPAND_PROB,expand}],
+ case proper_arith:freq_choose(FreqChoices) of
+ {_,simple} ->
+ real_any_gen(0);
+ {_,binary} ->
+ generate(proper_types:resize(Size, proper_types:bitstring()));
+ {_,expand} ->
+ %% TODO: statistics of produced terms?
+ NumElems = proper_arith:rand_int(0, Size - 1),
+ ElemSizes = proper_arith:distribute(Size - 1, NumElems),
+ ElemTypes = [?LAZY(real_any_gen(S)) || S <- ElemSizes],
+ case proper_arith:rand_int(1,2) of
+ 1 -> fixed_list_gen(ElemTypes);
+ 2 -> tuple_gen(ElemTypes)
+ end
+ end.
+
+%% @private
+-spec native_type_gen(mod_name(), string()) -> proper_types:type().
+native_type_gen(Mod, TypeStr) ->
+ case proper_typeserver:translate_type({Mod,TypeStr}) of
+ {ok,Type} -> Type;
+ {error,Reason} -> throw({'$typeserver',Reason})
+ end.
+
+
+%%------------------------------------------------------------------------------
+%% Function-generation functions
+%%------------------------------------------------------------------------------
+
+-spec create_fun(arity(), proper_types:type(), fun_seed()) -> function().
+create_fun(_Arity, _RetType, _FunSeed) ->
+ fun() -> throw('$arity_limit') end.
+
+%% @private
+-spec get_ret_type(function()) -> proper_types:type().
+get_ret_type(Fun) ->
+ {arity,Arity} = erlang:fun_info(Fun, arity),
+ put('$get_ret_type', true),
+ RetType = apply(Fun, lists:duplicate(Arity,dummy)),
+ erase('$get_ret_type'),
+ RetType.
diff --git a/lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_internal.hrl b/lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_internal.hrl
new file mode 100644
index 0000000000..89e6b34296
--- /dev/null
+++ b/lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_internal.hrl
@@ -0,0 +1,98 @@
+%%% Copyright 2010-2013 Manolis Papadakis <[email protected]>,
+%%% Eirini Arvaniti <[email protected]>
+%%% and Kostis Sagonas <[email protected]>
+%%%
+%%% This file is part of PropEr.
+%%%
+%%% PropEr is free software: you can redistribute it and/or modify
+%%% it under the terms of the GNU General Public License as published by
+%%% the Free Software Foundation, either version 3 of the License, or
+%%% (at your option) any later version.
+%%%
+%%% PropEr is distributed in the hope that it will be useful,
+%%% but WITHOUT ANY WARRANTY; without even the implied warranty of
+%%% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+%%% GNU General Public License for more details.
+%%%
+%%% You should have received a copy of the GNU General Public License
+%%% along with PropEr. If not, see <http://www.gnu.org/licenses/>.
+
+%%% @copyright 2010-2016 Manolis Papadakis, Eirini Arvaniti and Kostis Sagonas
+%%% @version {@version}
+%%% @author Manolis Papadakis
+%%% @doc Internal header file: This header is included in all PropEr source
+%%% files.
+
+-include("compile_flags.hrl").
+-include("proper_common.hrl").
+
+
+%%------------------------------------------------------------------------------
+%% Activate strip_types parse transform
+%%------------------------------------------------------------------------------
+
+-ifdef(NO_TYPES).
+-compile({parse_transform, strip_types}).
+-endif.
+
+%%------------------------------------------------------------------------------
+%% Random generator selection
+%%------------------------------------------------------------------------------
+
+-ifdef(USE_SFMT).
+-define(RANDOM_MOD, sfmt).
+-define(SEED_NAME, sfmt_seed).
+-else.
+-define(RANDOM_MOD, random).
+-define(SEED_NAME, random_seed).
+-endif.
+
+%%------------------------------------------------------------------------------
+%% Macros
+%%------------------------------------------------------------------------------
+
+-define(PROPERTY_PREFIX, "prop_").
+
+
+%%------------------------------------------------------------------------------
+%% Constants
+%%------------------------------------------------------------------------------
+
+-define(SEED_RANGE, 4294967296).
+-define(MAX_ARITY, 20).
+-define(MAX_TRIES_FACTOR, 5).
+-define(ANY_SIMPLE_PROB, 3).
+-define(ANY_BINARY_PROB, 1).
+-define(ANY_EXPAND_PROB, 8).
+-define(SMALL_RANGE_THRESHOLD, 16#FFFF).
+
+
+%%------------------------------------------------------------------------------
+%% Common type aliases
+%%------------------------------------------------------------------------------
+
+%% TODO: Perhaps these should be moved inside modules.
+-type mod_name() :: atom().
+-type fun_name() :: atom().
+-type size() :: non_neg_integer().
+-type length() :: non_neg_integer().
+-type position() :: pos_integer().
+-type frequency() :: pos_integer().
+-type seed() :: {non_neg_integer(), non_neg_integer(), non_neg_integer()}.
+
+-type abs_form() :: erl_parse:abstract_form().
+-type abs_expr() :: erl_parse:abstract_expr().
+-type abs_clause() :: erl_parse:abstract_clause().
+
+%% TODO: Replace these with the appropriate types from stdlib.
+-ifdef(AT_LEAST_19).
+-type abs_type() :: erl_parse:abstract_type().
+-type abs_rec_field() :: term(). % erl_parse:af_field_decl().
+-else.
+-type abs_type() :: term().
+-type abs_rec_field() :: term().
+-endif.
+
+-type loose_tuple(T) :: {} | {T} | {T,T} | {T,T,T} | {T,T,T,T} | {T,T,T,T,T}
+ | {T,T,T,T,T,T} | {T,T,T,T,T,T,T} | {T,T,T,T,T,T,T,T}
+ | {T,T,T,T,T,T,T,T,T} | {T,T,T,T,T,T,T,T,T,T} | tuple().
diff --git a/lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_types.erl b/lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_types.erl
new file mode 100644
index 0000000000..6b154b813b
--- /dev/null
+++ b/lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_types.erl
@@ -0,0 +1,1353 @@
+%%% Copyright 2010-2013 Manolis Papadakis <[email protected]>,
+%%% Eirini Arvaniti <[email protected]>
+%%% and Kostis Sagonas <[email protected]>
+%%%
+%%% This file is part of PropEr.
+%%%
+%%% PropEr is free software: you can redistribute it and/or modify
+%%% it under the terms of the GNU General Public License as published by
+%%% the Free Software Foundation, either version 3 of the License, or
+%%% (at your option) any later version.
+%%%
+%%% PropEr is distributed in the hope that it will be useful,
+%%% but WITHOUT ANY WARRANTY; without even the implied warranty of
+%%% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+%%% GNU General Public License for more details.
+%%%
+%%% You should have received a copy of the GNU General Public License
+%%% along with PropEr. If not, see <http://www.gnu.org/licenses/>.
+
+%%% @copyright 2010-2013 Manolis Papadakis, Eirini Arvaniti and Kostis Sagonas
+%%% @version {@version}
+%%% @author Manolis Papadakis
+
+%%% @doc Type manipulation functions and predefined types.
+%%%
+%%% == Basic types ==
+%%% This module defines all the basic types of the PropEr type system as
+%%% functions. See the <a href="#index">function index</a> for an overview.
+%%%
+%%% Types can be combined in tuples or lists to produce other types. Exact
+%%% values (such as exact numbers, atoms, binaries and strings) can be combined
+%%% with types inside such structures, like in this example of the type of a
+%%% tagged tuple: ``{'result', integer()}''.
+%%%
+%%% When including the PropEr header file, all
+%%% <a href="#index">API functions</a> of this module are automatically
+%%% imported, unless `PROPER_NO_IMPORTS' is defined.
+%%%
+%%% == Customized types ==
+%%% The following operators can be applied to basic types in order to produce
+%%% new ones:
+%%%
+%%% <dl>
+%%% <dt>`?LET(<Xs>, <Xs_type>, <In>)'</dt>
+%%% <dd>To produce an instance of this type, all appearances of the variables
+%%% in `<Xs>' are replaced inside `<In>' by their corresponding values in a
+%%% randomly generated instance of `<Xs_type>'. It's OK for the `<In>' part to
+%%% evaluate to a type - in that case, an instance of the inner type is
+%%% generated recursively.</dd>
+%%% <dt>`?SUCHTHAT(<X>, <Type>, <Condition>)'</dt>
+%%% <dd>This produces a specialization of `<Type>', which only includes those
+%%% members of `<Type>' that satisfy the constraint `<Condition>' - that is,
+%%% those members for which the function `fun(<X>) -> <Condition> end' returns
+%%% `true'. If the constraint is very strict - that is, only a small
+%%% percentage of instances of `<Type>' pass the test - it will take a lot of
+%%% tries for the instance generation subsystem to randomly produce a valid
+%%% instance. This will result in slower testing, and testing may even be
+%%% stopped short, in case the `constraint_tries' limit is reached (see the
+%%% "Options" section in the documentation of the {@link proper} module). If
+%%% this is the case, it would be more appropriate to generate valid instances
+%%% of the specialized type using the `?LET' macro. Also make sure that even
+%%% small instances can satisfy the constraint, since PropEr will only try
+%%% small instances at the start of testing. If this is not possible, you can
+%%% instruct PropEr to start at a larger size, by supplying a suitable value
+%%% for the `start_size' option (see the "Options" section in the
+%%% documentation of the {@link proper} module).</dd>
+%%% <dt>`?SUCHTHATMAYBE(<X>, <Type>, <Condition>)'</dt>
+%%% <dd>Equivalent to the `?SUCHTHAT' macro, but the constraint `<Condition>'
+%%% is considered non-strict: if the `constraint_tries' limit is reached, the
+%%% generator will just return an instance of `<Type>' instead of failing,
+%%% even if that instance doesn't satisfy the constraint.</dd>
+%%% <dt>`?SHRINK(<Generator>, <List_of_alt_gens>)'</dt>
+%%% <dd>This creates a type whose instances are generated by evaluating the
+%%% statement block `<Generator>' (this may evaluate to a type, which will
+%%% then be generated recursively). If an instance of such a type is to be
+%%% shrunk, the generators in `<List_of_alt_gens>' are first run to produce
+%%% hopefully simpler instances of the type. Thus, the generators in the
+%%% second argument should be simpler than the default. The simplest ones
+%%% should be at the front of the list, since those are the generators
+%%% preferred by the shrinking subsystem. Like the main `<Generator>', the
+%%% alternatives may also evaluate to a type, which is generated recursively.
+%%% </dd>
+%%% <dt>`?LETSHRINK(<List_of_variables>, <List_of_types>, <Generator>)'</dt>
+%%% <dd>This is created by combining a `?LET' and a `?SHRINK' macro. Instances
+%%% are generated by applying a randomly generated list of values inside
+%%% `<Generator>' (just like a `?LET', with the added constraint that the
+%%% variables and types must be provided in a list - alternatively,
+%%% `<List_of_types>' may be a list or vector type). When shrinking instances
+%%% of such a type, the sub-instances that were combined to produce it are
+%%% first tried in place of the failing instance.</dd>
+%%% <dt>`?LAZY(<Generator>)'</dt>
+%%% <dd>This construct returns a type whose only purpose is to delay the
+%%% evaluation of `<Generator>' (`<Generator>' can return a type, which will
+%%% be generated recursively). Using this, you can simulate the lazy
+%%% generation of instances:
+%%% ``` stream() -> ?LAZY(frequency([ {1,[]}, {3,[0|stream()]} ])). '''
+%%% The above type produces lists of zeroes with an average length of 3. Note
+%%% that, had we not enclosed the generator with a `?LAZY' macro, the
+%%% evaluation would continue indefinitely, due to the eager evaluation of
+%%% the Erlang language.</dd>
+%%% <dt>`non_empty(<List_or_binary_type>)'</dt>
+%%% <dd>See the documentation for {@link non_empty/1}.</dd>
+%%% <dt>`noshrink(<Type>)'</dt>
+%%% <dd>See the documentation for {@link noshrink/1}.</dd>
+%%% <dt>`default(<Default_value>, <Type>)'</dt>
+%%% <dd>See the documentation for {@link default/2}.</dd>
+%%% <dt>`with_parameter(<Parameter>, <Value>, <Type>)'</dt>
+%%% <dd>See the documentation for {@link with_parameter/3}.</dd>
+%%% <dt>`with_parameters(<Param_value_pairs>, <Type>)'</dt>
+%%% <dd>See the documentation for {@link with_parameters/2}.</dd>
+%%% </dl>
+%%%
+%%% == Size manipulation ==
+%%% The following operators are related to the `size' parameter, which controls
+%%% the maximum size of produced instances. The actual size of a produced
+%%% instance is chosen randomly, but can never exceed the value of the `size'
+%%% parameter at the moment of generation. A more accurate definition is the
+%%% following: the maximum instance of `size S' can never be smaller than the
+%%% maximum instance of `size S-1'. The actual size of an instance is measured
+%%% differently for each type: the actual size of a list is its length, while
+%%% the actual size of a tree may be the number of its internal nodes. Some
+%%% types, e.g. unions, have no notion of size, thus their generation is not
+%%% influenced by the value of `size'. The `size' parameter starts at 1 and
+%%% grows automatically during testing.
+%%%
+%%% <dl>
+%%% <dt>`?SIZED(<S>, <Generator>)'</dt>
+%%% <dd>Creates a new type, whose instances are produced by replacing all
+%%% appearances of the `<S>' parameter inside the statement block
+%%% `<Generator>' with the value of the `size' parameter. It's OK for the
+%%% `<Generator>' to return a type - in that case, an instance of the inner
+%%% type is generated recursively.</dd>
+%%% <dt>`resize(<New_size>, <Type>)'</dt>
+%%% <dd>See the documentation for {@link resize/2}.</dd>
+%%% </dl>
+
+-module(proper_types).
+-export([is_inst/2, is_inst/3]).
+
+-export([integer/2, float/2, atom/0, binary/0, binary/1, bitstring/0,
+ bitstring/1, list/1, vector/2, union/1, weighted_union/1, tuple/1,
+ loose_tuple/1, exactly/1, fixed_list/1, function/2, any/0,
+ shrink_list/1, safe_union/1, safe_weighted_union/1]).
+-export([integer/0, non_neg_integer/0, pos_integer/0, neg_integer/0, range/2,
+ float/0, non_neg_float/0, number/0, boolean/0, byte/0, char/0,
+ list/0, tuple/0, string/0, wunion/1, term/0, timeout/0, arity/0]).
+-export([int/0, nat/0, largeint/0, real/0, bool/0, choose/2, elements/1,
+ oneof/1, frequency/1, return/1, default/2, orderedlist/1, function0/1,
+ function1/1, function2/1, function3/1, function4/1,
+ weighted_default/2]).
+-export([resize/2, non_empty/1, noshrink/1]).
+
+-export([cook_outer/1, is_type/1, equal_types/2, is_raw_type/1, to_binary/1,
+ from_binary/1, get_prop/2, find_prop/2, safe_is_instance/2,
+ is_instance/2, unwrap/1, weakly/1, strongly/1, satisfies_all/2,
+ new_type/2, subtype/2]).
+-export([lazy/1, sized/1, bind/3, shrinkwith/2, add_constraint/3,
+ native_type/2, distlist/3, with_parameter/3, with_parameters/2,
+ parameter/1, parameter/2]).
+-export([le/2]).
+
+-export_type([type/0, raw_type/0, extint/0, extnum/0]).
+
+-include("proper_internal.hrl").
+
+
+%%------------------------------------------------------------------------------
+%% Comparison with erl_types
+%%------------------------------------------------------------------------------
+
+%% Missing types
+%% -------------------
+%% will do:
+%% records, maybe_improper_list(T,S), nonempty_improper_list(T,S)
+%% maybe_improper_list(), maybe_improper_list(T), iolist, iodata
+%% don't need:
+%% nonempty_{list,string,maybe_improper_list}
+%% won't do:
+%% pid, port, ref, identifier, none, no_return, module, mfa, node
+%% array, dict, digraph, set, gb_tree, gb_set, queue, tid
+
+%% Missing type information
+%% ------------------------
+%% bin types:
+%% other unit sizes? what about size info?
+%% functions:
+%% generally some fun, unspecified number of arguments but specified
+%% return type
+%% any:
+%% doesn't cover functions and improper lists
+
+
+%%------------------------------------------------------------------------------
+%% Type declaration macros
+%%------------------------------------------------------------------------------
+
+-define(BASIC(PropList), new_type(PropList,basic)).
+-define(WRAPPER(PropList), new_type(PropList,wrapper)).
+-define(CONSTRUCTED(PropList), new_type(PropList,constructed)).
+-define(CONTAINER(PropList), new_type(PropList,container)).
+-define(SUBTYPE(Type,PropList), subtype(PropList,Type)).
+
+
+%%------------------------------------------------------------------------------
+%% Types
+%%------------------------------------------------------------------------------
+
+-type type_kind() :: 'basic' | 'wrapper' | 'constructed' | 'container' | atom().
+-type instance_test() :: fun((proper_gen:imm_instance()) -> boolean())
+ | {'typed',
+ fun((proper_types:type(),
+ proper_gen:imm_instance()) -> boolean())}.
+-type index() :: pos_integer().
+%% @alias
+-type value() :: term().
+%% @private_type
+%% @alias
+-type extint() :: integer() | 'inf'.
+%% @private_type
+%% @alias
+-type extnum() :: number() | 'inf'.
+-type constraint_fun() :: fun((proper_gen:instance()) -> boolean()).
+
+-opaque type() :: {'$type', [type_prop()]}.
+%% A type of the PropEr type system
+%% @type raw_type(). You can consider this as an equivalent of {@type type()}.
+-type raw_type() :: type() | [raw_type()] | loose_tuple(raw_type()) | term().
+-type type_prop_name() :: 'kind' | 'generator' | 'reverse_gen' | 'parts_type'
+ | 'combine' | 'alt_gens' | 'shrink_to_parts'
+ | 'size_transform' | 'is_instance' | 'shrinkers'
+ | 'noshrink' | 'internal_type' | 'internal_types'
+ | 'get_length' | 'split' | 'join' | 'get_indices'
+ | 'remove' | 'retrieve' | 'update' | 'constraints'
+ | 'parameters' | 'env' | 'subenv'.
+
+-type type_prop_value() :: term().
+-type type_prop() ::
+ {'kind', type_kind()}
+ | {'generator', proper_gen:generator()}
+ | {'reverse_gen', proper_gen:reverse_gen()}
+ | {'parts_type', type()}
+ | {'combine', proper_gen:combine_fun()}
+ | {'alt_gens', proper_gen:alt_gens()}
+ | {'shrink_to_parts', boolean()}
+ | {'size_transform', fun((size()) -> size())}
+ | {'is_instance', instance_test()}
+ | {'shrinkers', [proper_shrink:shrinker()]}
+ | {'noshrink', boolean()}
+ | {'internal_type', raw_type()}
+ | {'internal_types', tuple() | maybe_improper_list(type(),type() | [])}
+ %% The items returned by 'remove' must be of this type.
+ | {'get_length', fun((proper_gen:imm_instance()) -> length())}
+ %% If this is a container type, this should return the number of elements
+ %% it contains.
+ | {'split', fun((proper_gen:imm_instance()) -> [proper_gen:imm_instance()])
+ | fun((length(),proper_gen:imm_instance()) ->
+ {proper_gen:imm_instance(),proper_gen:imm_instance()})}
+ %% If present, the appropriate form depends on whether get_length is
+ %% defined: if get_length is undefined, this must be in the one-argument
+ %% form (e.g. a tree should be split into its subtrees), else it must be
+ %% in the two-argument form (e.g. a list should be split in two at the
+ %% index provided).
+ | {'join', fun((proper_gen:imm_instance(),proper_gen:imm_instance()) ->
+ proper_gen:imm_instance())}
+ | {'get_indices', fun((proper_types:type(),
+ proper_gen:imm_instance()) -> [index()])}
+ %% If this is a container type, this should return a list of indices we
+ %% can use to remove or insert elements from the given instance.
+ | {'remove', fun((index(),proper_gen:imm_instance()) ->
+ proper_gen:imm_instance())}
+ | {'retrieve', fun((index(), proper_gen:imm_instance() | tuple()
+ | maybe_improper_list(type(),type() | [])) ->
+ value() | type())}
+ | {'update', fun((index(),value(),proper_gen:imm_instance()) ->
+ proper_gen:imm_instance())}
+ | {'constraints', [{constraint_fun(), boolean()}]}
+ %% A list of constraints on instances of this type: each constraint is a
+ %% tuple of a fun that must return 'true' for each valid instance and a
+ %% boolean field that specifies whether the condition is strict.
+ | {'parameters', [{atom(),value()}]}
+ | {'env', term()}
+ | {'subenv', term()}.
+
+
+%%------------------------------------------------------------------------------
+%% Type manipulation functions
+%%------------------------------------------------------------------------------
+
+%% TODO: We shouldn't need the fully qualified type name in the range of these
+%% functions.
+
+%% @private
+%% TODO: just cook/1 ?
+-spec cook_outer(raw_type()) -> proper_types:type().
+cook_outer(Type = {'$type',_Props}) ->
+ Type;
+cook_outer(RawType) ->
+ if
+ is_tuple(RawType) -> tuple(tuple_to_list(RawType));
+ %% CAUTION: this must handle improper lists
+ is_list(RawType) -> fixed_list(RawType);
+ %% default case (covers integers, floats, atoms, binaries, ...):
+ true -> exactly(RawType)
+ end.
+
+%% @private
+-spec is_type(term()) -> boolean().
+is_type({'$type',_Props}) ->
+ true;
+is_type(_) ->
+ false.
+
+%% @private
+-spec equal_types(proper_types:type(), proper_types:type()) -> boolean().
+equal_types(SameType, SameType) ->
+ true;
+equal_types(_, _) ->
+ false.
+
+%% @private
+-spec is_raw_type(term()) -> boolean().
+is_raw_type({'$type',_TypeProps}) ->
+ true;
+is_raw_type(X) ->
+ if
+ is_tuple(X) -> is_raw_type_list(tuple_to_list(X));
+ is_list(X) -> is_raw_type_list(X);
+ true -> false
+ end.
+
+-spec is_raw_type_list(maybe_improper_list()) -> boolean().
+%% CAUTION: this must handle improper lists
+is_raw_type_list(List) ->
+ proper_arith:safe_any(fun is_raw_type/1, List).
+
+%% @private
+-spec to_binary(proper_types:type()) -> binary().
+to_binary(Type) ->
+ term_to_binary(Type).
+
+%% @private
+-ifdef(AT_LEAST_17).
+-spec from_binary(binary()) -> proper_types:type().
+-endif.
+from_binary(Binary) ->
+ binary_to_term(Binary).
+
+-spec type_from_list([type_prop()]) -> proper_types:type().
+type_from_list(KeyValueList) ->
+ {'$type',KeyValueList}.
+
+-spec add_prop(type_prop_name(), type_prop_value(), proper_types:type()) ->
+ proper_types:type().
+add_prop(PropName, Value, {'$type',Props}) ->
+ {'$type',lists:keystore(PropName, 1, Props, {PropName, Value})}.
+
+-spec add_props([type_prop()], proper_types:type()) -> proper_types:type().
+add_props(PropList, {'$type',OldProps}) ->
+ {'$type', lists:foldl(fun({N,_}=NV,Acc) ->
+ lists:keystore(N, 1, Acc, NV)
+ end, OldProps, PropList)}.
+
+-spec append_to_prop(type_prop_name(), type_prop_value(),
+ proper_types:type()) -> proper_types:type().
+append_to_prop(PropName, Value, {'$type',Props}) ->
+ Val = case lists:keyfind(PropName, 1, Props) of
+ {PropName, V} ->
+ V;
+ _ ->
+ []
+ end,
+ {'$type', lists:keystore(PropName, 1, Props,
+ {PropName, lists:reverse([Value|Val])})}.
+
+-spec append_list_to_prop(type_prop_name(), [type_prop_value()],
+ proper_types:type()) -> proper_types:type().
+append_list_to_prop(PropName, List, {'$type',Props}) ->
+ {PropName, Val} = lists:keyfind(PropName, 1, Props),
+ {'$type', lists:keystore(PropName, 1, Props, {PropName, Val++List})}.
+
+%% @private
+-spec get_prop(type_prop_name(), proper_types:type()) -> type_prop_value().
+get_prop(PropName, {'$type',Props}) ->
+ {_PropName, Val} = lists:keyfind(PropName, 1, Props),
+ Val.
+
+%% @private
+-spec find_prop(type_prop_name(), proper_types:type()) ->
+ {'ok',type_prop_value()} | 'error'.
+find_prop(PropName, {'$type',Props}) ->
+ case lists:keyfind(PropName, 1, Props) of
+ {PropName, Value} ->
+ {ok, Value};
+ _ ->
+ error
+ end.
+
+%% @private
+-spec new_type([type_prop()], type_kind()) -> proper_types:type().
+new_type(PropList, Kind) ->
+ Type = type_from_list(PropList),
+ add_prop(kind, Kind, Type).
+
+%% @private
+-spec subtype([type_prop()], proper_types:type()) -> proper_types:type().
+%% TODO: should the 'is_instance' function etc. be reset for subtypes?
+subtype(PropList, Type) ->
+ add_props(PropList, Type).
+
+%% @private
+-spec is_inst(proper_gen:instance(), raw_type()) ->
+ boolean() | {'error',{'typeserver',term()}}.
+is_inst(Instance, RawType) ->
+ is_inst(Instance, RawType, 10).
+
+%% @private
+-spec is_inst(proper_gen:instance(), raw_type(), size()) ->
+ boolean() | {'error',{'typeserver',term()}}.
+is_inst(Instance, RawType, Size) ->
+ proper:global_state_init_size(Size),
+ Result = safe_is_instance(Instance, RawType),
+ proper:global_state_erase(),
+ Result.
+
+%% @private
+-spec safe_is_instance(proper_gen:imm_instance(), raw_type()) ->
+ boolean() | {'error',{'typeserver',term()}}.
+safe_is_instance(ImmInstance, RawType) ->
+ try is_instance(ImmInstance, RawType) catch
+ throw:{'$typeserver',SubReason} -> {error, {typeserver,SubReason}}
+ end.
+
+%% @private
+-spec is_instance(proper_gen:imm_instance(), raw_type()) -> boolean().
+%% TODO: If the second argument is not a type, let it pass (don't even check for
+%% term equality?) - if it's a raw type, don't cook it, instead recurse
+%% into it.
+is_instance(ImmInstance, RawType) ->
+ CleanInstance = proper_gen:clean_instance(ImmInstance),
+ Type = cook_outer(RawType),
+ (case get_prop(kind, Type) of
+ wrapper -> wrapper_test(ImmInstance, Type);
+ constructed -> constructed_test(ImmInstance, Type);
+ _ -> false
+ end
+ orelse
+ case find_prop(is_instance, Type) of
+ {ok,{typed, IsInstance}} -> IsInstance(Type, ImmInstance);
+ {ok,IsInstance} -> IsInstance(ImmInstance);
+ error -> false
+ end)
+ andalso weakly(satisfies_all(CleanInstance, Type)).
+
+-spec wrapper_test(proper_gen:imm_instance(), proper_types:type()) -> boolean().
+wrapper_test(ImmInstance, Type) ->
+ %% TODO: check if it's actually a raw type that's returned?
+ lists:any(fun(T) -> is_instance(ImmInstance, T) end, unwrap(Type)).
+
+%% @private
+-ifdef(AT_LEAST_17).
+-spec unwrap(proper_types:type()) -> [proper_types:type(),...].
+-endif.
+%% TODO: check if it's actually a raw type that's returned?
+unwrap(Type) ->
+ RawInnerTypes = proper_gen:alt_gens(Type) ++ [proper_gen:normal_gen(Type)],
+ [cook_outer(T) || T <- RawInnerTypes].
+
+-spec constructed_test(proper_gen:imm_instance(), proper_types:type()) ->
+ boolean().
+constructed_test({'$used',ImmParts,ImmInstance}, Type) ->
+ PartsType = get_prop(parts_type, Type),
+ Combine = get_prop(combine, Type),
+ is_instance(ImmParts, PartsType) andalso
+ begin
+ %% TODO: check if it's actually a raw type that's returned?
+ %% TODO: move construction code to proper_gen
+ %% TODO: non-type => should we check for strict term equality?
+ RawInnerType = Combine(proper_gen:clean_instance(ImmParts)),
+ is_instance(ImmInstance, RawInnerType)
+ end;
+constructed_test({'$to_part',ImmInstance}, Type) ->
+ PartsType = get_prop(parts_type, Type),
+ get_prop(shrink_to_parts, Type) =:= true andalso
+ %% TODO: we reject non-container types
+ get_prop(kind, PartsType) =:= container andalso
+ case {find_prop(internal_type,PartsType),
+ find_prop(internal_types,PartsType)} of
+ {{ok,EachPartType},error} ->
+ %% The parts are in a list or a vector.
+ is_instance(ImmInstance, EachPartType);
+ {error,{ok,PartTypesList}} ->
+ %% The parts are in a fixed list.
+ %% TODO: It should always be a proper list.
+ lists:any(fun(T) -> is_instance(ImmInstance,T) end, PartTypesList)
+ end;
+constructed_test(_CleanInstance, _Type) ->
+ %% TODO: can we do anything better?
+ false.
+
+%% @private
+-spec weakly({boolean(),boolean()}) -> boolean().
+weakly({B1,_B2}) -> B1.
+
+%% @private
+-spec strongly({boolean(),boolean()}) -> boolean().
+strongly({_B1,B2}) -> B2.
+
+-spec satisfies(proper_gen:instance(), {constraint_fun(),boolean()})
+ -> {boolean(),boolean()}.
+satisfies(Instance, {Test,false}) ->
+ {true,Test(Instance)};
+satisfies(Instance, {Test,true}) ->
+ Result = Test(Instance),
+ {Result,Result}.
+
+%% @private
+-spec satisfies_all(proper_gen:instance(), proper_types:type()) ->
+ {boolean(),boolean()}.
+satisfies_all(Instance, Type) ->
+ case find_prop(constraints, Type) of
+ {ok, Constraints} ->
+ L = [satisfies(Instance, C) || C <- Constraints],
+ {L1,L2} = lists:unzip(L),
+ {lists:all(fun(B) -> B end, L1), lists:all(fun(B) -> B end, L2)};
+ error ->
+ {true,true}
+ end.
+
+
+%%------------------------------------------------------------------------------
+%% Type definition functions
+%%------------------------------------------------------------------------------
+
+%% @private
+-spec lazy(proper_gen:nosize_generator()) -> proper_types:type().
+lazy(Gen) ->
+ ?WRAPPER([
+ {generator, Gen}
+ ]).
+
+%% @private
+-spec sized(proper_gen:sized_generator()) -> proper_types:type().
+sized(Gen) ->
+ ?WRAPPER([
+ {generator, Gen}
+ ]).
+
+%% @private
+-spec bind(raw_type(), proper_gen:combine_fun(), boolean()) ->
+ proper_types:type().
+bind(RawPartsType, Combine, ShrinkToParts) ->
+ PartsType = cook_outer(RawPartsType),
+ ?CONSTRUCTED([
+ {parts_type, PartsType},
+ {combine, Combine},
+ {shrink_to_parts, ShrinkToParts}
+ ]).
+
+%% @private
+-spec shrinkwith(proper_gen:nosize_generator(), proper_gen:alt_gens()) ->
+ proper_types:type().
+shrinkwith(Gen, DelaydAltGens) ->
+ ?WRAPPER([
+ {generator, Gen},
+ {alt_gens, DelaydAltGens}
+ ]).
+
+%% @private
+-spec add_constraint(raw_type(), constraint_fun(), boolean()) ->
+ proper_types:type().
+add_constraint(RawType, Condition, IsStrict) ->
+ Type = cook_outer(RawType),
+ append_to_prop(constraints, {Condition,IsStrict}, Type).
+
+%% @private
+-spec native_type(mod_name(), string()) -> proper_types:type().
+native_type(Mod, TypeStr) ->
+ ?WRAPPER([
+ {generator, fun() -> proper_gen:native_type_gen(Mod,TypeStr) end}
+ ]).
+
+
+%%------------------------------------------------------------------------------
+%% Basic types
+%%------------------------------------------------------------------------------
+
+%% @doc All integers between `Low' and `High', bounds included.
+%% `Low' and `High' must be Erlang expressions that evaluate to integers, with
+%% `Low =< High'. Additionally, `Low' and `High' may have the value `inf', in
+%% which case they represent minus infinity and plus infinity respectively.
+%% Instances shrink towards 0 if `Low =< 0 =< High', or towards the bound with
+%% the smallest absolute value otherwise.
+-spec integer(extint(), extint()) -> proper_types:type().
+integer(Low, High) ->
+ ?BASIC([
+ {env, {Low, High}},
+ {generator, {typed, fun integer_gen/2}},
+ {is_instance, {typed, fun integer_is_instance/2}},
+ {shrinkers, [fun number_shrinker/3]}
+ ]).
+
+integer_gen(Type, Size) ->
+ {Low, High} = get_prop(env, Type),
+ proper_gen:integer_gen(Size, Low, High).
+
+integer_is_instance(Type, X) ->
+ {Low, High} = get_prop(env, Type),
+ is_integer(X) andalso le(Low, X) andalso le(X, High).
+
+number_shrinker(X, Type, S) ->
+ {Low, High} = get_prop(env, Type),
+ proper_shrink:number_shrinker(X, Low, High, S).
+
+%% @doc All floats between `Low' and `High', bounds included.
+%% `Low' and `High' must be Erlang expressions that evaluate to floats, with
+%% `Low =< High'. Additionally, `Low' and `High' may have the value `inf', in
+%% which case they represent minus infinity and plus infinity respectively.
+%% Instances shrink towards 0.0 if `Low =< 0.0 =< High', or towards the bound
+%% with the smallest absolute value otherwise.
+-spec float(extnum(), extnum()) -> proper_types:type().
+float(Low, High) ->
+ ?BASIC([
+ {env, {Low, High}},
+ {generator, {typed, fun float_gen/2}},
+ {is_instance, {typed, fun float_is_instance/2}},
+ {shrinkers, [fun number_shrinker/3]}
+ ]).
+
+float_gen(Type, Size) ->
+ {Low, High} = get_prop(env, Type),
+ proper_gen:float_gen(Size, Low, High).
+
+float_is_instance(Type, X) ->
+ {Low, High} = get_prop(env, Type),
+ is_float(X) andalso le(Low, X) andalso le(X, High).
+
+%% @private
+-spec le(extnum(), extnum()) -> boolean().
+le(inf, _B) -> true;
+le(_A, inf) -> true;
+le(A, B) -> A =< B.
+
+%% @doc All atoms. All atoms used internally by PropEr start with a '`$'', so
+%% such atoms will never be produced as instances of this type. You should also
+%% refrain from using such atoms in your code, to avoid a potential clash.
+%% Instances shrink towards the empty atom, ''.
+-spec atom() -> proper_types:type().
+atom() ->
+ ?WRAPPER([
+ {generator, fun proper_gen:atom_gen/1},
+ {reverse_gen, fun proper_gen:atom_rev/1},
+ {size_transform, fun(Size) -> erlang:min(Size,255) end},
+ {is_instance, fun atom_is_instance/1}
+ ]).
+
+atom_is_instance(X) ->
+ is_atom(X)
+ %% We return false for atoms starting with '$', since these are
+ %% atoms used internally and never produced by the atom generator.
+ andalso (X =:= '' orelse hd(atom_to_list(X)) =/= $$).
+
+%% @doc All binaries. Instances shrink towards the empty binary, `<<>>'.
+-spec binary() -> proper_types:type().
+binary() ->
+ ?WRAPPER([
+ {generator, fun proper_gen:binary_gen/1},
+ {reverse_gen, fun proper_gen:binary_rev/1},
+ {is_instance, fun erlang:is_binary/1}
+ ]).
+
+%% @doc All binaries with a byte size of `Len'.
+%% `Len' must be an Erlang expression that evaluates to a non-negative integer.
+%% Instances shrink towards binaries of zeroes.
+-spec binary(length()) -> proper_types:type().
+binary(Len) ->
+ ?WRAPPER([
+ {env, Len},
+ {generator, {typed, fun binary_len_gen/1}},
+ {reverse_gen, fun proper_gen:binary_rev/1},
+ {is_instance, {typed, fun binary_len_is_instance/2}}
+ ]).
+
+binary_len_gen(Type) ->
+ Len = get_prop(env, Type),
+ proper_gen:binary_len_gen(Len).
+
+binary_len_is_instance(Type, X) ->
+ Len = get_prop(env, Type),
+ is_binary(X) andalso byte_size(X) =:= Len.
+
+%% @doc All bitstrings. Instances shrink towards the empty bitstring, `<<>>'.
+-spec bitstring() -> proper_types:type().
+bitstring() ->
+ ?WRAPPER([
+ {generator, fun proper_gen:bitstring_gen/1},
+ {reverse_gen, fun proper_gen:bitstring_rev/1},
+ {is_instance, fun erlang:is_bitstring/1}
+ ]).
+
+%% @doc All bitstrings with a bit size of `Len'.
+%% `Len' must be an Erlang expression that evaluates to a non-negative integer.
+%% Instances shrink towards bitstrings of zeroes
+-spec bitstring(length()) -> proper_types:type().
+bitstring(Len) ->
+ ?WRAPPER([
+ {env, Len},
+ {generator, {typed, fun bitstring_len_gen/1}},
+ {reverse_gen, fun proper_gen:bitstring_rev/1},
+ {is_instance, {typed, fun bitstring_len_is_instance/2}}
+ ]).
+
+bitstring_len_gen(Type) ->
+ Len = get_prop(env, Type),
+ proper_gen:bitstring_len_gen(Len).
+
+bitstring_len_is_instance(Type, X) ->
+ Len = get_prop(env, Type),
+ is_bitstring(X) andalso bit_size(X) =:= Len.
+
+%% @doc All lists containing elements of type `ElemType'.
+%% Instances shrink towards the empty list, `[]'.
+-spec list(ElemType::raw_type()) -> proper_types:type().
+% TODO: subtyping would be useful here (list, vector, fixed_list)
+list(RawElemType) ->
+ ElemType = cook_outer(RawElemType),
+ ?CONTAINER([
+ {generator, {typed, fun list_gen/2}},
+ {is_instance, {typed, fun list_is_instance/2}},
+ {internal_type, ElemType},
+ {get_length, fun erlang:length/1},
+ {split, fun lists:split/2},
+ {join, fun lists:append/2},
+ {get_indices, fun list_get_indices/2},
+ {remove, fun proper_arith:list_remove/2},
+ {retrieve, fun lists:nth/2},
+ {update, fun proper_arith:list_update/3}
+ ]).
+
+list_gen(Type, Size) ->
+ ElemType = get_prop(internal_type, Type),
+ proper_gen:list_gen(Size, ElemType).
+
+list_is_instance(Type, X) ->
+ ElemType = get_prop(internal_type, Type),
+ list_test(X, ElemType).
+
+%% @doc A type that generates exactly the list `List'. Instances shrink towards
+%% shorter sublists of the original list.
+-spec shrink_list([term()]) -> proper_types:type().
+shrink_list(List) ->
+ ?CONTAINER([
+ {env, List},
+ {generator, {typed, fun shrink_list_gen/1}},
+ {is_instance, {typed, fun shrink_list_is_instance/2}},
+ {get_length, fun erlang:length/1},
+ {split, fun lists:split/2},
+ {join, fun lists:append/2},
+ {get_indices, fun list_get_indices/2},
+ {remove, fun proper_arith:list_remove/2}
+ ]).
+
+shrink_list_gen(Type) ->
+ get_prop(env, Type).
+
+shrink_list_is_instance(Type, X) ->
+ List = get_prop(env, Type),
+ is_sublist(X, List).
+
+-spec is_sublist([term()], [term()]) -> boolean().
+is_sublist([], _) -> true;
+is_sublist(_, []) -> false;
+is_sublist([H|T1], [H|T2]) -> is_sublist(T1, T2);
+is_sublist(Slice, [_|T2]) -> is_sublist(Slice, T2).
+
+-spec list_test(proper_gen:imm_instance(), proper_types:type()) -> boolean().
+list_test(X, ElemType) ->
+ is_list(X) andalso lists:all(fun(E) -> is_instance(E, ElemType) end, X).
+
+%% @private
+-spec list_get_indices(proper_gen:generator(), list()) -> [position()].
+list_get_indices(_, List) ->
+ lists:seq(1, length(List)).
+
+%% @private
+%% This assumes that:
+%% - instances of size S are always valid instances of size >S
+%% - any recursive calls inside Gen are lazy
+-spec distlist(size(), proper_gen:sized_generator(), boolean()) ->
+ proper_types:type().
+distlist(Size, Gen, NonEmpty) ->
+ ParentType = case NonEmpty of
+ true -> non_empty(list(Gen(Size)));
+ false -> list(Gen(Size))
+ end,
+ ?SUBTYPE(ParentType, [
+ {subenv, {Size, Gen, NonEmpty}},
+ {generator, {typed, fun distlist_gen/1}}
+ ]).
+
+distlist_gen(Type) ->
+ {Size, Gen, NonEmpty} = get_prop(subenv, Type),
+ proper_gen:distlist_gen(Size, Gen, NonEmpty).
+
+%% @doc All lists of length `Len' containing elements of type `ElemType'.
+%% `Len' must be an Erlang expression that evaluates to a non-negative integer.
+-spec vector(length(), ElemType::raw_type()) -> proper_types:type().
+vector(Len, RawElemType) ->
+ ElemType = cook_outer(RawElemType),
+ ?CONTAINER([
+ {env, Len},
+ {generator, {typed, fun vector_gen/1}},
+ {is_instance, {typed, fun vector_is_instance/2}},
+ {internal_type, ElemType},
+ {get_indices, fun vector_get_indices/2},
+ {retrieve, fun lists:nth/2},
+ {update, fun proper_arith:list_update/3}
+ ]).
+
+vector_gen(Type) ->
+ Len = get_prop(env, Type),
+ ElemType = get_prop(internal_type, Type),
+ proper_gen:vector_gen(Len, ElemType).
+
+vector_is_instance(Type, X) ->
+ Len = get_prop(env, Type),
+ ElemType = get_prop(internal_type, Type),
+ is_list(X)
+ andalso length(X) =:= Len
+ andalso lists:all(fun(E) -> is_instance(E, ElemType) end, X).
+
+vector_get_indices(Type, _X) ->
+ lists:seq(1, get_prop(env, Type)).
+
+%% @doc The union of all types in `ListOfTypes'. `ListOfTypes' can't be empty.
+%% The random instance generator is equally likely to choose any one of the
+%% types in `ListOfTypes'. The shrinking subsystem will always try to shrink an
+%% instance of a type union to an instance of the first type in `ListOfTypes',
+%% thus you should write the simplest case first.
+-spec union(ListOfTypes::[raw_type(),...]) -> proper_types:type().
+union(RawChoices) ->
+ Choices = [cook_outer(C) || C <- RawChoices],
+ ?BASIC([
+ {env, Choices},
+ {generator, {typed, fun union_gen/1}},
+ {is_instance, {typed, fun union_is_instance/2}},
+ {shrinkers, [fun union_shrinker_1/3, fun union_shrinker_2/3]}
+ ]).
+
+union_gen(Type) ->
+ Choices = get_prop(env,Type),
+ proper_gen:union_gen(Choices).
+
+union_is_instance(Type, X) ->
+ Choices = get_prop(env, Type),
+ lists:any(fun(C) -> is_instance(X, C) end, Choices).
+
+union_shrinker_1(X, Type, S) ->
+ Choices = get_prop(env, Type),
+ proper_shrink:union_first_choice_shrinker(X, Choices, S).
+
+union_shrinker_2(X, Type, S) ->
+ Choices = get_prop(env, Type),
+ proper_shrink:union_recursive_shrinker(X, Choices, S).
+
+%% @doc A specialization of {@link union/1}, where each type in `ListOfTypes' is
+%% assigned a frequency. Frequencies must be Erlang expressions that evaluate to
+%% positive integers. Types with larger frequencies are more likely to be chosen
+%% by the random instance generator. The shrinking subsystem will ignore the
+%% frequencies and try to shrink towards the first type in the list.
+-spec weighted_union(ListOfTypes::[{frequency(),raw_type()},...]) ->
+ proper_types:type().
+weighted_union(RawFreqChoices) ->
+ CookFreqType = fun({Freq,RawType}) -> {Freq,cook_outer(RawType)} end,
+ FreqChoices = lists:map(CookFreqType, RawFreqChoices),
+ Choices = [T || {_F,T} <- FreqChoices],
+ ?SUBTYPE(union(Choices), [
+ {subenv, FreqChoices},
+ {generator, {typed, fun weighted_union_gen/1}}
+ ]).
+
+weighted_union_gen(Gen) ->
+ FreqChoices = get_prop(subenv, Gen),
+ proper_gen:weighted_union_gen(FreqChoices).
+
+%% @private
+-spec safe_union([raw_type(),...]) -> proper_types:type().
+safe_union(RawChoices) ->
+ Choices = [cook_outer(C) || C <- RawChoices],
+ subtype(
+ [{subenv, Choices},
+ {generator, {typed, fun safe_union_gen/1}}],
+ union(Choices)).
+
+safe_union_gen(Type) ->
+ Choices = get_prop(subenv, Type),
+ proper_gen:safe_union_gen(Choices).
+
+%% @private
+-spec safe_weighted_union([{frequency(),raw_type()},...]) ->
+ proper_types:type().
+safe_weighted_union(RawFreqChoices) ->
+ CookFreqType = fun({Freq,RawType}) ->
+ {Freq,cook_outer(RawType)} end,
+ FreqChoices = lists:map(CookFreqType, RawFreqChoices),
+ Choices = [T || {_F,T} <- FreqChoices],
+ subtype([{subenv, FreqChoices},
+ {generator, {typed, fun safe_weighted_union_gen/1}}],
+ union(Choices)).
+
+safe_weighted_union_gen(Type) ->
+ FreqChoices = get_prop(subenv, Type),
+ proper_gen:safe_weighted_union_gen(FreqChoices).
+
+%% @doc All tuples whose i-th element is an instance of the type at index i of
+%% `ListOfTypes'. Also written simply as a tuple of types.
+-spec tuple(ListOfTypes::[raw_type()]) -> proper_types:type().
+tuple(RawFields) ->
+ Fields = [cook_outer(F) || F <- RawFields],
+ ?CONTAINER([
+ {env, Fields},
+ {generator, {typed, fun tuple_gen/1}},
+ {is_instance, {typed, fun tuple_is_instance/2}},
+ {internal_types, list_to_tuple(Fields)},
+ {get_indices, fun tuple_get_indices/2},
+ {retrieve, fun erlang:element/2},
+ {update, fun tuple_update/3}
+ ]).
+
+tuple_gen(Type) ->
+ Fields = get_prop(env, Type),
+ proper_gen:tuple_gen(Fields).
+
+tuple_is_instance(Type, X) ->
+ Fields = get_prop(env, Type),
+ is_tuple(X) andalso fixed_list_test(tuple_to_list(X), Fields).
+
+tuple_get_indices(Type, _X) ->
+ lists:seq(1, length(get_prop(env, Type))).
+
+-spec tuple_update(index(), value(), tuple()) -> tuple().
+tuple_update(Index, NewElem, Tuple) ->
+ setelement(Index, Tuple, NewElem).
+
+%% @doc Tuples whose elements are all of type `ElemType'.
+%% Instances shrink towards the 0-size tuple, `{}'.
+-spec loose_tuple(ElemType::raw_type()) -> proper_types:type().
+loose_tuple(RawElemType) ->
+ ElemType = cook_outer(RawElemType),
+ ?WRAPPER([
+ {env, ElemType},
+ {generator, {typed, fun loose_tuple_gen/2}},
+ {reverse_gen, {typed, fun loose_tuple_rev/2}},
+ {is_instance, {typed, fun loose_tuple_is_instance/2}}
+ ]).
+
+loose_tuple_gen(Type, Size) ->
+ ElemType = get_prop(env, Type),
+ proper_gen:loose_tuple_gen(Size, ElemType).
+
+loose_tuple_rev(Type, X) ->
+ ElemType = get_prop(env, Type),
+ proper_gen:loose_tuple_rev(X, ElemType).
+
+loose_tuple_is_instance(Type, X) ->
+ ElemType = get_prop(env, Type),
+ is_tuple(X) andalso list_test(tuple_to_list(X), ElemType).
+
+%% @doc Singleton type consisting only of `E'. `E' must be an evaluated term.
+%% Also written simply as `E'.
+-spec exactly(term()) -> proper_types:type().
+exactly(E) ->
+ ?BASIC([
+ {env, E},
+ {generator, {typed, fun exactly_gen/1}},
+ {is_instance, {typed, fun exactly_is_instance/2}}
+ ]).
+
+exactly_gen(Type) ->
+ E = get_prop(env, Type),
+ proper_gen:exactly_gen(E).
+
+exactly_is_instance(Type, X) ->
+ E = get_prop(env, Type),
+ X =:= E.
+
+%% @doc All lists whose i-th element is an instance of the type at index i of
+%% `ListOfTypes'. Also written simply as a list of types.
+-spec fixed_list(ListOfTypes::maybe_improper_list(raw_type(),raw_type()|[])) ->
+ proper_types:type().
+fixed_list(MaybeImproperRawFields) ->
+ %% CAUTION: must handle improper lists
+ {Fields, Internal, Len, Retrieve, Update} =
+ case proper_arith:cut_improper_tail(MaybeImproperRawFields) of
+ % TODO: have cut_improper_tail return the length and use it in test?
+ {ProperRawHead, ImproperRawTail} ->
+ HeadLen = length(ProperRawHead),
+ CookedHead = [cook_outer(F) || F <- ProperRawHead],
+ CookedTail = cook_outer(ImproperRawTail),
+ {{CookedHead,CookedTail},
+ CookedHead ++ CookedTail,
+ HeadLen + 1,
+ fun(I,L) -> improper_list_retrieve(I, L, HeadLen) end,
+ fun(I,V,L) -> improper_list_update(I, V, L, HeadLen) end};
+ ProperRawFields ->
+ LocalFields = [cook_outer(F) || F <- ProperRawFields],
+ {LocalFields,
+ LocalFields,
+ length(ProperRawFields),
+ fun lists:nth/2,
+ fun proper_arith:list_update/3}
+ end,
+ ?CONTAINER([
+ {env, {Fields, Len}},
+ {generator, {typed, fun fixed_list_gen/1}},
+ {is_instance, {typed, fun fixed_list_is_instance/2}},
+ {internal_types, Internal},
+ {get_indices, fun fixed_list_get_indices/2},
+ {retrieve, Retrieve},
+ {update, Update}
+ ]).
+
+fixed_list_gen(Type) ->
+ {Fields, _} = get_prop(env, Type),
+ proper_gen:fixed_list_gen(Fields).
+
+fixed_list_is_instance(Type, X) ->
+ {Fields, _} = get_prop(env, Type),
+ fixed_list_test(X, Fields).
+
+fixed_list_get_indices(Type, _X) ->
+ {_, Len} = get_prop(env, Type),
+ lists:seq(1, Len).
+
+-spec fixed_list_test(proper_gen:imm_instance(),
+ [proper_types:type()] | {[proper_types:type()],
+ proper_types:type()}) ->
+ boolean().
+fixed_list_test(X, {ProperHead,ImproperTail}) ->
+ is_list(X) andalso
+ begin
+ ProperHeadLen = length(ProperHead),
+ proper_arith:head_length(X) >= ProperHeadLen andalso
+ begin
+ {XHead,XTail} = lists:split(ProperHeadLen, X),
+ fixed_list_test(XHead, ProperHead)
+ andalso is_instance(XTail, ImproperTail)
+ end
+ end;
+fixed_list_test(X, ProperFields) ->
+ is_list(X)
+ andalso length(X) =:= length(ProperFields)
+ andalso lists:all(fun({E,T}) -> is_instance(E, T) end,
+ lists:zip(X, ProperFields)).
+
+%% TODO: Move these 2 functions to proper_arith?
+-spec improper_list_retrieve(index(), nonempty_improper_list(value(),value()),
+ pos_integer()) -> value().
+improper_list_retrieve(Index, List, HeadLen) ->
+ case Index =< HeadLen of
+ true -> lists:nth(Index, List);
+ false -> lists:nthtail(HeadLen, List)
+ end.
+
+-spec improper_list_update(index(), value(),
+ nonempty_improper_list(value(),value()),
+ pos_integer()) ->
+ nonempty_improper_list(value(),value()).
+improper_list_update(Index, Value, List, HeadLen) ->
+ case Index =< HeadLen of
+ %% TODO: This happens to work, but is not implied by list_update's spec.
+ true -> proper_arith:list_update(Index, Value, List);
+ false -> lists:sublist(List, HeadLen) ++ Value
+ end.
+
+%% @doc All pure functions that map instances of `ArgTypes' to instances of
+%% `RetType'. The syntax `function(Arity, RetType)' is also acceptable.
+-spec function(ArgTypes::[raw_type()] | arity(), RetType::raw_type()) ->
+ proper_types:type().
+function(Arity, RawRetType) when is_integer(Arity), Arity >= 0, Arity =< 255 ->
+ RetType = cook_outer(RawRetType),
+ ?BASIC([
+ {env, {Arity, RetType}},
+ {generator, {typed, fun function_gen/1}},
+ {is_instance, {typed, fun function_is_instance/2}}
+ ]);
+function(RawArgTypes, RawRetType) ->
+ function(length(RawArgTypes), RawRetType).
+
+function_gen(Type) ->
+ {Arity, RetType} = get_prop(env, Type),
+ proper_gen:function_gen(Arity, RetType).
+
+function_is_instance(Type, X) ->
+ {Arity, RetType} = get_prop(env, Type),
+ is_function(X, Arity)
+ %% TODO: what if it's not a function we produced?
+ andalso equal_types(RetType, proper_gen:get_ret_type(X)).
+
+%% @doc All Erlang terms (that PropEr can produce). For reasons of efficiency,
+%% functions are never produced as instances of this type.<br />
+%% CAUTION: Instances of this type are expensive to produce, shrink and instance-
+%% check, both in terms of processing time and consumed memory. Only use this
+%% type if you are certain that you need it.
+-spec any() -> proper_types:type().
+any() ->
+ AllTypes = [integer(),float(),atom(),bitstring(),?LAZY(loose_tuple(any())),
+ ?LAZY(list(any()))],
+ ?SUBTYPE(union(AllTypes), [
+ {generator, fun proper_gen:any_gen/1}
+ ]).
+
+
+%%------------------------------------------------------------------------------
+%% Type aliases
+%%------------------------------------------------------------------------------
+
+%% @equiv integer(inf, inf)
+-spec integer() -> proper_types:type().
+integer() -> integer(inf, inf).
+
+%% @equiv integer(0, inf)
+-spec non_neg_integer() -> proper_types:type().
+non_neg_integer() -> integer(0, inf).
+
+%% @equiv integer(1, inf)
+-spec pos_integer() -> proper_types:type().
+pos_integer() -> integer(1, inf).
+
+%% @equiv integer(inf, -1)
+-spec neg_integer() -> proper_types:type().
+neg_integer() -> integer(inf, -1).
+
+%% @equiv integer(Low, High)
+-spec range(extint(), extint()) -> proper_types:type().
+range(Low, High) -> integer(Low, High).
+
+%% @equiv float(inf, inf)
+-spec float() -> proper_types:type().
+float() -> float(inf, inf).
+
+%% @equiv float(0.0, inf)
+-spec non_neg_float() -> proper_types:type().
+non_neg_float() -> float(0.0, inf).
+
+%% @equiv union([integer(), float()])
+-spec number() -> proper_types:type().
+number() -> union([integer(), float()]).
+
+%% @doc The atoms `true' and `false'. Instances shrink towards `false'.
+-spec boolean() -> proper_types:type().
+boolean() -> union(['false', 'true']).
+
+%% @equiv integer(0, 255)
+-spec byte() -> proper_types:type().
+byte() -> integer(0, 255).
+
+%% @equiv integer(0, 16#10ffff)
+-spec char() -> proper_types:type().
+char() -> integer(0, 16#10ffff).
+
+%% @equiv list(any())
+-spec list() -> proper_types:type().
+list() -> list(any()).
+
+%% @equiv loose_tuple(any())
+-spec tuple() -> proper_types:type().
+tuple() -> loose_tuple(any()).
+
+%% @equiv list(char())
+-spec string() -> proper_types:type().
+string() -> list(char()).
+
+%% @equiv weighted_union(FreqChoices)
+-spec wunion([{frequency(),raw_type()},...]) -> proper_types:type().
+wunion(FreqChoices) -> weighted_union(FreqChoices).
+
+%% @equiv any()
+-spec term() -> proper_types:type().
+term() -> any().
+
+%% @equiv union([non_neg_integer() | infinity])
+-spec timeout() -> proper_types:type().
+timeout() -> union([non_neg_integer(), 'infinity']).
+
+%% @equiv integer(0, 255)
+-spec arity() -> proper_types:type().
+arity() -> integer(0, 255).
+
+
+%%------------------------------------------------------------------------------
+%% QuickCheck compatibility types
+%%------------------------------------------------------------------------------
+
+%% @doc Small integers (bound by the current value of the `size' parameter).
+%% Instances shrink towards `0'.
+-spec int() -> proper_types:type().
+int() -> ?SIZED(Size, integer(-Size,Size)).
+
+%% @doc Small non-negative integers (bound by the current value of the `size'
+%% parameter). Instances shrink towards `0'.
+-spec nat() -> proper_types:type().
+nat() -> ?SIZED(Size, integer(0,Size)).
+
+%% @equiv integer()
+-spec largeint() -> proper_types:type().
+largeint() -> integer().
+
+%% @equiv float()
+-spec real() -> proper_types:type().
+real() -> float().
+
+%% @equiv boolean()
+-spec bool() -> proper_types:type().
+bool() -> boolean().
+
+%% @equiv integer(Low, High)
+-spec choose(extint(), extint()) -> proper_types:type().
+choose(Low, High) -> integer(Low, High).
+
+%% @equiv union(Choices)
+-spec elements([raw_type(),...]) -> proper_types:type().
+elements(Choices) -> union(Choices).
+
+%% @equiv union(Choices)
+-spec oneof([raw_type(),...]) -> proper_types:type().
+oneof(Choices) -> union(Choices).
+
+%% @equiv weighted_union(Choices)
+-spec frequency([{frequency(),raw_type()},...]) -> proper_types:type().
+frequency(FreqChoices) -> weighted_union(FreqChoices).
+
+%% @equiv exactly(E)
+-spec return(term()) -> proper_types:type().
+return(E) -> exactly(E).
+
+%% @doc Adds a default value, `Default', to `Type'.
+%% The default serves as a primary shrinking target for instances, while it
+%% is also chosen by the random instance generation subsystem half the time.
+-spec default(raw_type(), raw_type()) -> proper_types:type().
+default(Default, Type) ->
+ union([Default, Type]).
+
+%% @doc All sorted lists containing elements of type `ElemType'.
+%% Instances shrink towards the empty list, `[]'.
+-spec orderedlist(ElemType::raw_type()) -> proper_types:type().
+orderedlist(RawElemType) ->
+ ?LET(L, list(RawElemType), lists:sort(L)).
+
+%% @equiv function(0, RetType)
+-spec function0(raw_type()) -> proper_types:type().
+function0(RetType) ->
+ function(0, RetType).
+
+%% @equiv function(1, RetType)
+-spec function1(raw_type()) -> proper_types:type().
+function1(RetType) ->
+ function(1, RetType).
+
+%% @equiv function(2, RetType)
+-spec function2(raw_type()) -> proper_types:type().
+function2(RetType) ->
+ function(2, RetType).
+
+%% @equiv function(3, RetType)
+-spec function3(raw_type()) -> proper_types:type().
+function3(RetType) ->
+ function(3, RetType).
+
+%% @equiv function(4, RetType)
+-spec function4(raw_type()) -> proper_types:type().
+function4(RetType) ->
+ function(4, RetType).
+
+%% @doc A specialization of {@link default/2}, where `Default' and `Type' are
+%% assigned weights to be considered by the random instance generator. The
+%% shrinking subsystem will ignore the weights and try to shrink using the
+%% default value.
+-spec weighted_default({frequency(),raw_type()}, {frequency(),raw_type()}) ->
+ proper_types:type().
+weighted_default(Default, Type) ->
+ weighted_union([Default, Type]).
+
+
+%%------------------------------------------------------------------------------
+%% Additional type specification functions
+%%------------------------------------------------------------------------------
+
+%% @doc Overrides the `size' parameter used when generating instances of
+%% `Type' with `NewSize'. Has no effect on size-less types, such as unions.
+%% Also, this will not affect the generation of any internal types contained in
+%% `Type', such as the elements of a list - those will still be generated
+%% using the test-wide value of `size'. One use of this function is to modify
+%% types to produce instances that grow faster or slower, like so:
+%% ```?SIZED(Size, resize(Size * 2, list(integer()))'''
+%% The above specifies a list type that grows twice as fast as normal lists.
+-spec resize(size(), Type::raw_type()) -> proper_types:type().
+resize(NewSize, RawType) ->
+ Type = cook_outer(RawType),
+ case find_prop(size_transform, Type) of
+ {ok,Transform} ->
+ add_prop(size_transform, fun(_S) -> Transform(NewSize) end, Type);
+ error ->
+ add_prop(size_transform, fun(_S) -> NewSize end, Type)
+ end.
+
+%% @doc This is a predefined constraint that can be applied to random-length
+%% list and binary types to ensure that the produced values are never empty.
+%%
+%% e.g. {@link list/0}, {@link string/0}, {@link binary/0})
+-spec non_empty(ListType::raw_type()) -> proper_types:type().
+non_empty(RawListType) ->
+ ?SUCHTHAT(L, RawListType, L =/= [] andalso L =/= <<>>).
+
+%% @doc Creates a new type which is equivalent to `Type', but whose instances
+%% are never shrunk by the shrinking subsystem.
+-spec noshrink(Type::raw_type()) -> proper_types:type().
+noshrink(RawType) ->
+ add_prop(noshrink, true, cook_outer(RawType)).
+
+%% @doc Associates the atom key `Parameter' with the value `Value' while
+%% generating instances of `Type'.
+-spec with_parameter(atom(), value(), Type::raw_type()) -> proper_types:type().
+with_parameter(Parameter, Value, RawType) ->
+ with_parameters([{Parameter,Value}], RawType).
+
+%% @doc Similar to {@link with_parameter/3}, but accepts a list of
+%% `{Parameter, Value}' pairs.
+-spec with_parameters([{atom(),value()}], Type::raw_type()) ->
+ proper_types:type().
+with_parameters(PVlist, RawType) ->
+ Type = cook_outer(RawType),
+ case find_prop(parameters, Type) of
+ {ok,Params} when is_list(Params) ->
+ append_list_to_prop(parameters, PVlist, Type);
+ error ->
+ add_prop(parameters, PVlist, Type)
+ end.
+
+%% @doc Returns the value associated with `Parameter', or `Default' in case
+%% `Parameter' is not associated with any value.
+-spec parameter(atom(), value()) -> value().
+parameter(Parameter, Default) ->
+ Parameters =
+ case erlang:get('$parameters') of
+ undefined -> [];
+ List -> List
+ end,
+ proplists:get_value(Parameter, Parameters, Default).
+
+%% @equiv parameter(Parameter, undefined)
+-spec parameter(atom()) -> value().
+parameter(Parameter) ->
+ parameter(Parameter, undefined).
diff --git a/lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_typeserver.erl b/lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_typeserver.erl
new file mode 100644
index 0000000000..b16075763f
--- /dev/null
+++ b/lib/dialyzer/test/behaviour_SUITE_data/src/proper/proper_typeserver.erl
@@ -0,0 +1,2411 @@
+%%% Copyright 2010-2016 Manolis Papadakis <[email protected]>,
+%%% Eirini Arvaniti <[email protected]>
+%%% and Kostis Sagonas <[email protected]>
+%%%
+%%% This file is part of PropEr.
+%%%
+%%% PropEr is free software: you can redistribute it and/or modify
+%%% it under the terms of the GNU General Public License as published by
+%%% the Free Software Foundation, either version 3 of the License, or
+%%% (at your option) any later version.
+%%%
+%%% PropEr is distributed in the hope that it will be useful,
+%%% but WITHOUT ANY WARRANTY; without even the implied warranty of
+%%% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+%%% GNU General Public License for more details.
+%%%
+%%% You should have received a copy of the GNU General Public License
+%%% along with PropEr. If not, see <http://www.gnu.org/licenses/>.
+
+%%% @copyright 2010-2016 Manolis Papadakis, Eirini Arvaniti and Kostis Sagonas
+%%% @version {@version}
+%%% @author Manolis Papadakis
+
+%%% @doc Erlang type system - PropEr type system integration module.
+%%%
+%%% PropEr can parse types expressed in Erlang's type language and convert them
+%%% to its own type format. Such expressions can be used instead of regular type
+%%% constructors in the second argument of `?FORALL's. No extra notation is
+%%% required; PropEr will detect which calls correspond to native types by
+%%% applying a parse transform during compilation. This parse transform is
+%%% automatically applied to any module that includes the `proper.hrl' header
+%%% file. You can disable this feature by compiling your modules with
+%%% `-DPROPER_NO_TRANS'. Note that this will currently also disable the
+%%% automatic exporting of properties.
+%%%
+%%% The use of native types in properties is subject to the following usage
+%%% rules:
+%%% <ul>
+%%% <li>Native types cannot be used outside of `?FORALL's.</li>
+%%% <li>Inside `?FORALL's, native types can be combined with other native
+%%% types, and even with PropEr types, inside tuples and lists (the constructs
+%%% `[...]', `{...}' and `++' are all allowed).</li>
+%%% <li>All other constructs of Erlang's built-in type system (e.g. `|' for
+%%% union, `_' as an alias of `any()', `<<_:_>>' binary type syntax and
+%%% `fun((...) -> ...)' function type syntax) are not allowed in `?FORALL's,
+%%% because they are rejected by the Erlang parser.</li>
+%%% <li>Anything other than a tuple constructor, list constructor, `++'
+%%% application, local or remote call will automatically be considered a
+%%% PropEr type constructor and not be processed further by the parse
+%%% transform.</li>
+%%% <li>Parametric native types are fully supported; of course, they can only
+%%% appear instantiated in a `?FORALL'. The arguments of parametric native
+%%% types are always interpreted as native types.</li>
+%%% <li>Parametric PropEr types, on the other hand, can take any kind of
+%%% argument. You can even mix native and PropEr types in the arguments of a
+%%% PropEr type. For example, assuming that the following declarations are
+%%% present:
+%%% ``` my_proper_type() -> ?LET(...).
+%%% -type my_native_type() :: ... .'''
+%%% Then the following expressions are all legal:
+%%% ``` vector(2, my_native_type())
+%%% function(0, my_native_type())
+%%% union([my_proper_type(), my_native_type()])''' </li>
+%%% <li>Some type constructors can take native types as arguments (but only
+%%% inside `?FORALL's):
+%%% <ul>
+%%% <li>`?SUCHTHAT', `?SUCHTHATMAYBE', `non_empty', `noshrink': these work
+%%% with native types too</li>
+%%% <li>`?LAZY', `?SHRINK', `resize', `?SIZED': these don't work with native
+%%% types</li>
+%%% <li>`?LET', `?LETSHRINK': only the top-level base type can be a native
+%%% type</li>
+%%% </ul></li>
+%%% <li>Native type declarations in the `?FORALL's of a module can reference any
+%%% custom type declared in a `-type' or `-opaque' attribute of the same
+%%% module, as long as no module identifier is used.</li>
+%%% <li>Typed records cannot be referenced inside `?FORALL's using the
+%%% `#rec_name{}' syntax. To use a typed record in a `?FORALL', enclose the
+%%% record in a custom type like so:
+%%% ``` -type rec_name() :: #rec_name{}. '''
+%%% and use the custom type instead.</li>
+%%% <li>`?FORALL's may contain references to self-recursive or mutually
+%%% recursive native types, so long as each type in the hierarchy has a clear
+%%% base case.
+%%% Currently, PropEr requires that the toplevel of any recursive type
+%%% declaration is either a (maybe empty) list or a union containing at least
+%%% one choice that doesn't reference the type directly (it may, however,
+%%% reference any of the types that are mutually recursive with it). This
+%%% means, for example, that some valid recursive type declarations, such as
+%%% this one:
+%%% ``` ?FORALL(..., a(), ...) '''
+%%% where:
+%%% ``` -type a() :: {'a','none' | a()}. '''
+%%% are not accepted by PropEr. However, such types can be rewritten in a way
+%%% that allows PropEr to parse them:
+%%% ``` ?FORALL(..., a(), ...) '''
+%%% where:
+%%% ``` -type a() :: {'a','none'} | {'a',a()}. '''
+%%% This also means that recursive record declarations are not allowed:
+%%% ``` ?FORALL(..., rec(), ...) '''
+%%% where:
+%%% ``` -type rec() :: #rec{}.
+%%% -record(rec, {a = 0 :: integer(), b = 'nil' :: 'nil' | #rec{}}). '''
+%%% A little rewritting can usually remedy this problem as well:
+%%% ``` ?FORALL(..., rec(), ...) '''
+%%% where:
+%%% ``` -type rec() :: #rec{b :: 'nil'} | #rec{b :: rec()}.
+%%% -record(rec, {a = 0 :: integer(), b = 'nil' :: 'nil' | #rec{}}). '''
+%%% </li>
+%%% <li>Remote types may be referenced in a `?FORALL', so long as they are
+%%% exported from the remote module. Currently, PropEr requires that any
+%%% remote modules whose types are directly referenced from within properties
+%%% are present in the code path at compile time, either compiled with
+%%% `debug_info' enabled or in source form. If PropEr cannot find a remote
+%%% module at all, finds only a compiled object file with no debug
+%%% information or fails to compile the source file, all calls to that module
+%%% will automatically be considered calls to PropEr type constructors.</li>
+%%% <li>For native types to be translated correctly, both the module that
+%%% contains the `?FORALL' declaration as well as any module that contains
+%%% the declaration of a type referenced (directly or indirectly) from inside
+%%% a `?FORALL' must be present in the code path at runtime, either compiled
+%%% with `debug_info' enabled or in source form.</li>
+%%% <li>Local types with the same name as an auto-imported BIF are not accepted
+%%% by PropEr, unless the BIF in question has been declared in a
+%%% `no_auto_import' option.</li>
+%%% <li>When an expression can be interpreted both as a PropEr type and as a
+%%% native type, the former takes precedence. This means that a function
+%%% `foo()' will shadow a type `foo()' if they are both present in the module.
+%%% The same rule applies to remote functions and types as well.</li>
+%%% <li>The above may cause some confusion when list syntax is used:
+%%% <ul>
+%%% <li>The expression `[integer()]' can be interpreted both ways, so the
+%%% PropEr way applies. Therefore, instances of this type will always be
+%%% lists of length 1, not arbitrary integer lists, as would be expected
+%%% when interpreting the expression as a native type.</li>
+%%% <li>Assuming that a custom type foo/1 has been declared, the expression
+%%% `foo([integer()])' can only be interpreted as a native type declaration,
+%%% which means that the generic type of integer lists will be passed to
+%%% `foo/1'.</li>
+%%% </ul></li>
+%%% <li>Currently, PropEr does not detect the following mistakes:
+%%% <ul>
+%%% <li>inline record-field specializations that reference non-existent
+%%% fields</li>
+%%% <li>type parameters that are not present in the RHS of a `-type'
+%%% declaration</li>
+%%% <li>using `_' as a type variable in the LHS of a `-type' declaration</li>
+%%% <li>using the same variable in more than one position in the LHS of a
+%%% `-type' declaration</li>
+%%% </ul>
+%%% </li>
+%%% </ul>
+%%%
+%%% You can use <a href="#index">these</a> functions to try out the type
+%%% translation subsystem.
+%%%
+%%% CAUTION: These functions should never be used inside properties. They are
+%%% meant for demonstration purposes only.
+
+-module(proper_typeserver).
+-behaviour(gen_server).
+-export([demo_translate_type/2, demo_is_instance/3]).
+
+-export([start/0, restart/0, stop/0, create_spec_test/3, get_exp_specced/1,
+ is_instance/3, translate_type/1]).
+-export([init/1, handle_call/3, handle_cast/2, handle_info/2, terminate/2,
+ code_change/3]).
+-export([get_exp_info/1, match/2]).
+
+-export_type([imm_type/0, mod_exp_types/0, mod_exp_funs/0]).
+
+-include("proper_internal.hrl").
+
+
+%%------------------------------------------------------------------------------
+%% Macros
+%%------------------------------------------------------------------------------
+
+-define(SRC_FILE_EXT, ".erl").
+
+-ifdef(AT_LEAST_19).
+-define(anno(L), erl_anno:new(L)).
+-else.
+-define(anno(L), L).
+-endif.
+
+%% Starting with 18.0 we need to handle both 'type' and 'user_type' tags;
+%% prior Erlang/OTP releases had only 'type' as a tag.
+-define(IS_TYPE_TAG(T), (T =:= type orelse T =:= user_type)).
+
+%% CAUTION: all these must be sorted
+-define(STD_TYPES_0,
+ [any,arity,atom,binary,bitstring,bool,boolean,byte,char,float,integer,
+ list,neg_integer,non_neg_integer,number,pos_integer,string,term,
+ timeout]).
+-define(HARD_ADTS,
+ %% gb_trees:iterator and gb_sets:iterator are NOT hardcoded
+ [{{array,0},array}, {{array,1},proper_array},
+ {{dict,0},dict}, {{dict,2},proper_dict},
+ {{gb_set,0},gb_sets}, {{gb_set,1},proper_gb_sets},
+ {{gb_tree,0},gb_trees}, {{gb_tree,2},proper_gb_trees},
+ {{orddict,2},proper_orddict},
+ {{ordset,1},proper_ordsets},
+ {{queue,0},queue}, {{queue,1},proper_queue},
+ {{set,0},sets}, {{set,1},proper_sets}]).
+-define(HARD_ADT_MODS,
+ [{array, [{{array,0},
+ {{type,0,record,[{atom,0,array}]},[]}}]},
+ {dict, [{{dict,0},
+ {{type,0,record,[{atom,0,dict}]},[]}}]},
+ {gb_sets, [{{gb_set,0},
+ {{type,0,tuple,[{type,0,non_neg_integer,[]},
+ {type,0,gb_set_node,[]}]},[]}}]},
+ {gb_trees, [{{gb_tree,0},
+ {{type,0,tuple,[{type,0,non_neg_integer,[]},
+ {type,0,gb_tree_node,[]}]},[]}}]},
+ %% Our parametric ADTs are already declared as normal types, we just
+ %% need to change them to opaques.
+ {proper_array, [{{array,1},already_declared}]},
+ {proper_dict, [{{dict,2},already_declared}]},
+ {proper_gb_sets, [{{gb_set,1},already_declared},
+ {{iterator,1},already_declared}]},
+ {proper_gb_trees, [{{gb_tree,2},already_declared},
+ {{iterator,2},already_declared}]},
+ {proper_orddict, [{{orddict,2},already_declared}]},
+ {proper_ordsets, [{{ordset,1},already_declared}]},
+ {proper_queue, [{{queue,1},already_declared}]},
+ {proper_sets, [{{set,1},already_declared}]},
+ {queue, [{{queue,0},
+ {{type,0,tuple,[{type,0,list,[]},{type,0,list,[]}]},[]}}]},
+ {sets, [{{set,0},
+ {{type,0,record,[{atom,0,set}]},[]}}]}]).
+
+
+%%------------------------------------------------------------------------------
+%% Types
+%%------------------------------------------------------------------------------
+
+-type type_name() :: atom().
+-type var_name() :: atom(). %% TODO: also integers?
+-type field_name() :: atom().
+
+-type type_kind() :: 'type' | 'record'.
+-type type_ref() :: {type_kind(),type_name(),arity()}.
+-ifdef(NO_MODULES_IN_OPAQUES).
+-type substs_dict() :: dict(). %% dict(field_name(),ret_type())
+-else.
+-type substs_dict() :: dict:dict(field_name(),ret_type()).
+-endif.
+-type full_type_ref() :: {mod_name(),type_kind(),type_name(),
+ [ret_type()] | substs_dict()}.
+-type symb_info() :: 'not_symb' | {'orig_abs',abs_type()}.
+-type type_repr() :: {'abs_type',abs_type(),[var_name()],symb_info()}
+ | {'cached',fin_type(),abs_type(),symb_info()}
+ | {'abs_record',[{field_name(),abs_type()}]}.
+-type gen_fun() :: fun((size()) -> fin_type()).
+-type rec_fun() :: fun(([gen_fun()],size()) -> fin_type()).
+-type rec_arg() :: {boolean() | {'list',boolean(),rec_fun()},full_type_ref()}.
+-type rec_args() :: [rec_arg()].
+-type ret_type() :: {'simple',fin_type()} | {'rec',rec_fun(),rec_args()}.
+-type rec_fun_info() :: {pos_integer(),pos_integer(),[arity(),...],
+ [rec_fun(),...]}.
+
+-type imm_type_ref() :: {type_name(),arity()}.
+-type hard_adt_repr() :: {abs_type(),[var_name()]} | 'already_declared'.
+-type fun_ref() :: {fun_name(),arity()}.
+-type fun_repr() :: fun_clause_repr().
+-type fun_clause_repr() :: {[abs_type()],abs_type()}.
+-type proc_fun_ref() :: {fun_name(),[abs_type()],abs_type()}.
+-type full_imm_type_ref() :: {mod_name(),type_name(),arity()}.
+-type imm_stack() :: [full_imm_type_ref()].
+-type pat_field() :: 0 | 1 | atom().
+-type pattern() :: loose_tuple(pat_field()).
+-type next_step() :: 'none' | 'take_head' | {'match_with',pattern()}.
+
+-ifdef(NO_MODULES_IN_OPAQUES).
+%% @private_type
+-type mod_exp_types() :: set(). %% set(imm_type_ref())
+-type mod_types() :: dict(). %% dict(type_ref(),type_repr())
+%% @private_type
+-type mod_exp_funs() :: set(). %% set(fun_ref())
+-type mod_specs() :: dict(). %% dict(fun_ref(),fun_repr())
+-else.
+%% @private_type
+-type mod_exp_types() :: sets:set(imm_type_ref()).
+-type mod_types() :: dict:dict(type_ref(),type_repr()).
+%% @private_type
+-type mod_exp_funs() :: sets:set(fun_ref()).
+-type mod_specs() :: dict:dict(fun_ref(),fun_repr()).
+-endif.
+
+-ifdef(NO_MODULES_IN_OPAQUES).
+-record(state,
+ {cached = dict:new() :: dict(), %% dict(imm_type(),fin_type())
+ exp_types = dict:new() :: dict(), %% dict(mod_name(),mod_exp_types())
+ types = dict:new() :: dict(), %% dict(mod_name(),mod_types())
+ exp_specs = dict:new() :: dict()}). %% dict(mod_name(),mod_specs())
+-else.
+-record(state,
+ {cached = dict:new() :: dict:dict(imm_type(),fin_type()),
+ exp_types = dict:new() :: dict:dict(mod_name(),mod_exp_types()),
+ types = dict:new() :: dict:dict(mod_name(),mod_types()),
+ exp_specs = dict:new() :: dict:dict(mod_name(),mod_specs())}).
+-endif.
+-type state() :: #state{}.
+
+-record(mod_info,
+ {mod_exp_types = sets:new() :: mod_exp_types(),
+ mod_types = dict:new() :: mod_types(),
+ mod_opaques = sets:new() :: mod_exp_types(),
+ mod_exp_funs = sets:new() :: mod_exp_funs(),
+ mod_specs = dict:new() :: mod_specs()}).
+-type mod_info() :: #mod_info{}.
+
+-type stack() :: [full_type_ref() | 'tuple' | 'list' | 'union' | 'fun'].
+-ifdef(NO_MODULES_IN_OPAQUES).
+-type var_dict() :: dict(). %% dict(var_name(),ret_type())
+-else.
+-type var_dict() :: dict:dict(var_name(),ret_type()).
+-endif.
+%% @private_type
+-type imm_type() :: {mod_name(),string()}.
+%% @alias
+-type fin_type() :: proper_types:type().
+-type tagged_result(T) :: {'ok',T} | 'error'.
+-type tagged_result2(T,S) :: {'ok',T,S} | 'error'.
+%% @alias
+-type rich_result(T) :: {'ok',T} | {'error',term()}.
+-type rich_result2(T,S) :: {'ok',T,S} | {'error',term()}.
+-type false_positive_mfas() :: proper:false_positive_mfas().
+
+-type server_call() :: {'create_spec_test',mfa(),timeout(),false_positive_mfas()}
+ | {'get_exp_specced',mod_name()}
+ | {'get_type_repr',mod_name(),type_ref(),boolean()}
+ | {'translate_type',imm_type()}.
+-type server_response() :: rich_result(proper:test())
+ | rich_result([mfa()])
+ | rich_result(type_repr())
+ | rich_result(fin_type()).
+
+
+%%------------------------------------------------------------------------------
+%% Server interface functions
+%%------------------------------------------------------------------------------
+
+%% @private
+-spec start() -> 'ok'.
+start() ->
+ {ok,TypeserverPid} = gen_server:start_link(?MODULE, dummy, []),
+ put('$typeserver_pid', TypeserverPid),
+ ok.
+
+%% @private
+-spec restart() -> 'ok'.
+restart() ->
+ TypeserverPid = get('$typeserver_pid'),
+ case (TypeserverPid =:= undefined orelse not is_process_alive(TypeserverPid)) of
+ true -> start();
+ false -> ok
+ end.
+
+%% @private
+-spec stop() -> 'ok'.
+stop() ->
+ TypeserverPid = get('$typeserver_pid'),
+ erase('$typeserver_pid'),
+ gen_server:cast(TypeserverPid, stop).
+
+%% @private
+-spec create_spec_test(mfa(), timeout(), false_positive_mfas()) -> rich_result(proper:test()).
+create_spec_test(MFA, SpecTimeout, FalsePositiveMFAs) ->
+ TypeserverPid = get('$typeserver_pid'),
+ gen_server:call(TypeserverPid, {create_spec_test,MFA,SpecTimeout,FalsePositiveMFAs}).
+
+%% @private
+-spec get_exp_specced(mod_name()) -> rich_result([mfa()]).
+get_exp_specced(Mod) ->
+ TypeserverPid = get('$typeserver_pid'),
+ gen_server:call(TypeserverPid, {get_exp_specced,Mod}).
+
+-spec get_type_repr(mod_name(), type_ref(), boolean()) ->
+ rich_result(type_repr()).
+get_type_repr(Mod, TypeRef, IsRemote) ->
+ TypeserverPid = get('$typeserver_pid'),
+ gen_server:call(TypeserverPid, {get_type_repr,Mod,TypeRef,IsRemote}).
+
+%% @private
+-spec translate_type(imm_type()) -> rich_result(fin_type()).
+translate_type(ImmType) ->
+ TypeserverPid = get('$typeserver_pid'),
+ gen_server:call(TypeserverPid, {translate_type,ImmType}).
+
+%% @doc Translates the native type expression `TypeExpr' (which should be
+%% provided inside a string) into a PropEr type, which can then be passed to any
+%% of the demo functions defined in the {@link proper_gen} module. PropEr acts
+%% as if it found this type expression inside the code of module `Mod'.
+-spec demo_translate_type(mod_name(), string()) -> rich_result(fin_type()).
+demo_translate_type(Mod, TypeExpr) ->
+ start(),
+ Result = translate_type({Mod,TypeExpr}),
+ stop(),
+ Result.
+
+%% @doc Checks if `Term' is a valid instance of native type `TypeExpr' (which
+%% should be provided inside a string). PropEr acts as if it found this type
+%% expression inside the code of module `Mod'.
+-spec demo_is_instance(term(), mod_name(), string()) ->
+ boolean() | {'error',term()}.
+demo_is_instance(Term, Mod, TypeExpr) ->
+ case parse_type(TypeExpr) of
+ {ok,TypeForm} ->
+ start(),
+ Result =
+ %% Force the typeserver to load the module.
+ case translate_type({Mod,"integer()"}) of
+ {ok,_FinType} ->
+ try is_instance(Term, Mod, TypeForm)
+ catch
+ throw:{'$typeserver',Reason} -> {error, Reason}
+ end;
+ {error,_Reason} = Error ->
+ Error
+ end,
+ stop(),
+ Result;
+ {error,_Reason} = Error ->
+ Error
+ end.
+
+
+%%------------------------------------------------------------------------------
+%% Implementation of gen_server interface
+%%------------------------------------------------------------------------------
+
+%% @private
+-spec init(_) -> {'ok',state()}.
+init(_) ->
+ {ok, #state{}}.
+
+%% @private
+-spec handle_call(server_call(), _, state()) ->
+ {'reply',server_response(),state()}.
+handle_call({create_spec_test,MFA,SpecTimeout,FalsePositiveMFAs}, _From, State) ->
+ case create_spec_test(MFA, SpecTimeout, FalsePositiveMFAs, State) of
+ {ok,Test,NewState} ->
+ {reply, {ok,Test}, NewState};
+ {error,_Reason} = Error ->
+ {reply, Error, State}
+ end;
+handle_call({get_exp_specced,Mod}, _From, State) ->
+ case get_exp_specced(Mod, State) of
+ {ok,MFAs,NewState} ->
+ {reply, {ok,MFAs}, NewState};
+ {error,_Reason} = Error ->
+ {reply, Error, State}
+ end;
+handle_call({get_type_repr,Mod,TypeRef,IsRemote}, _From, State) ->
+ case get_type_repr(Mod, TypeRef, IsRemote, State) of
+ {ok,TypeRepr,NewState} ->
+ {reply, {ok,TypeRepr}, NewState};
+ {error,_Reason} = Error ->
+ {reply, Error, State}
+ end;
+handle_call({translate_type,ImmType}, _From, State) ->
+ case translate_type(ImmType, State) of
+ {ok,FinType,NewState} ->
+ {reply, {ok,FinType}, NewState};
+ {error,_Reason} = Error ->
+ {reply, Error, State}
+ end.
+
+%% @private
+-spec handle_cast('stop', state()) -> {'stop','normal',state()}.
+handle_cast(stop, State) ->
+ {stop, normal, State}.
+
+%% @private
+-spec handle_info(term(), state()) -> {'stop',{'received_info',term()},state()}.
+handle_info(Info, State) ->
+ {stop, {received_info,Info}, State}.
+
+%% @private
+-spec terminate(term(), state()) -> 'ok'.
+terminate(_Reason, _State) ->
+ ok.
+
+%% @private
+-spec code_change(term(), state(), _) -> {'ok',state()}.
+code_change(_OldVsn, State, _) ->
+ {ok, State}.
+
+
+%%------------------------------------------------------------------------------
+%% Top-level interface
+%%------------------------------------------------------------------------------
+
+-spec create_spec_test(mfa(), timeout(), false_positive_mfas(), state()) ->
+ rich_result2(proper:test(),state()).
+create_spec_test(MFA, SpecTimeout, FalsePositiveMFAs, State) ->
+ case get_exp_spec(MFA, State) of
+ {ok,FunRepr,NewState} ->
+ make_spec_test(MFA, FunRepr, SpecTimeout, FalsePositiveMFAs, NewState);
+ {error,_Reason} = Error ->
+ Error
+ end.
+
+-spec get_exp_spec(mfa(), state()) -> rich_result2(fun_repr(),state()).
+get_exp_spec({Mod,Fun,Arity} = MFA, State) ->
+ case add_module(Mod, State) of
+ {ok,#state{exp_specs = ExpSpecs} = NewState} ->
+ ModExpSpecs = dict:fetch(Mod, ExpSpecs),
+ case dict:find({Fun,Arity}, ModExpSpecs) of
+ {ok,FunRepr} ->
+ {ok, FunRepr, NewState};
+ error ->
+ {error, {function_not_exported_or_specced,MFA}}
+ end;
+ {error,_Reason} = Error ->
+ Error
+ end.
+
+-spec make_spec_test(mfa(), fun_repr(), timeout(), false_positive_mfas(), state()) ->
+ rich_result2(proper:test(),state()).
+make_spec_test({Mod,_Fun,_Arity}=MFA, {Domain,_Range}=FunRepr, SpecTimeout, FalsePositiveMFAs, State) ->
+ case convert(Mod, {type,?anno(0),'$fixed_list',Domain}, State) of
+ {ok,FinType,NewState} ->
+ Test = ?FORALL(Args, FinType, apply_spec_test(MFA, FunRepr, SpecTimeout, FalsePositiveMFAs, Args)),
+ {ok, Test, NewState};
+ {error,_Reason} = Error ->
+ Error
+ end.
+
+-spec apply_spec_test(mfa(), fun_repr(), timeout(), false_positive_mfas(), term()) -> proper:test().
+apply_spec_test({Mod,Fun,_Arity}=MFA, {_Domain,Range}, SpecTimeout, FalsePositiveMFAs, Args) ->
+ ?TIMEOUT(SpecTimeout,
+ begin
+ %% NOTE: only call apply/3 inside try/catch (do not trust ?MODULE:is_instance/3)
+ Result =
+ try apply(Mod, Fun, Args) of
+ X -> {ok, X}
+ catch
+ X:Y -> {X, Y}
+ end,
+ case Result of
+ {ok, Z} ->
+ case ?MODULE:is_instance(Z, Mod, Range) of
+ true ->
+ true;
+ false when is_function(FalsePositiveMFAs) ->
+ FalsePositiveMFAs(MFA, Args, {fail, Z});
+ false ->
+ false
+ end;
+ Exception when is_function(FalsePositiveMFAs) ->
+ case FalsePositiveMFAs(MFA, Args, Exception) of
+ true ->
+ true;
+ false ->
+ error(Exception, erlang:get_stacktrace())
+ end;
+ Exception ->
+ error(Exception, erlang:get_stacktrace())
+ end
+ end).
+
+-spec get_exp_specced(mod_name(), state()) -> rich_result2([mfa()],state()).
+get_exp_specced(Mod, State) ->
+ case add_module(Mod, State) of
+ {ok,#state{exp_specs = ExpSpecs} = NewState} ->
+ ModExpSpecs = dict:fetch(Mod, ExpSpecs),
+ ExpSpecced = [{Mod,F,A} || {F,A} <- dict:fetch_keys(ModExpSpecs)],
+ {ok, ExpSpecced, NewState};
+ {error,_Reason} = Error ->
+ Error
+ end.
+
+-spec get_type_repr(mod_name(), type_ref(), boolean(), state()) ->
+ rich_result2(type_repr(),state()).
+get_type_repr(Mod, {type,Name,Arity} = TypeRef, true, State) ->
+ case prepare_for_remote(Mod, Name, Arity, State) of
+ {ok,NewState} ->
+ get_type_repr(Mod, TypeRef, false, NewState);
+ {error,_Reason} = Error ->
+ Error
+ end;
+get_type_repr(Mod, TypeRef, false, #state{types = Types} = State) ->
+ ModTypes = dict:fetch(Mod, Types),
+ case dict:find(TypeRef, ModTypes) of
+ {ok,TypeRepr} ->
+ {ok, TypeRepr, State};
+ error ->
+ {error, {missing_type,Mod,TypeRef}}
+ end.
+
+-spec prepare_for_remote(mod_name(), type_name(), arity(), state()) ->
+ rich_result(state()).
+prepare_for_remote(RemMod, Name, Arity, State) ->
+ case add_module(RemMod, State) of
+ {ok,#state{exp_types = ExpTypes} = NewState} ->
+ RemModExpTypes = dict:fetch(RemMod, ExpTypes),
+ case sets:is_element({Name,Arity}, RemModExpTypes) of
+ true -> {ok, NewState};
+ false -> {error, {type_not_exported,{RemMod,Name,Arity}}}
+ end;
+ {error,_Reason} = Error ->
+ Error
+ end.
+
+-spec translate_type(imm_type(), state()) -> rich_result2(fin_type(),state()).
+translate_type({Mod,Str} = ImmType, #state{cached = Cached} = State) ->
+ case dict:find(ImmType, Cached) of
+ {ok,Type} ->
+ {ok, Type, State};
+ error ->
+ case parse_type(Str) of
+ {ok,TypeForm} ->
+ case add_module(Mod, State) of
+ {ok,NewState} ->
+ case convert(Mod, TypeForm, NewState) of
+ {ok,FinType,
+ #state{cached = Cached} = FinalState} ->
+ NewCached = dict:store(ImmType, FinType,
+ Cached),
+ {ok, FinType,
+ FinalState#state{cached = NewCached}};
+ {error,_Reason} = Error ->
+ Error
+ end;
+ {error,_Reason} = Error ->
+ Error
+ end;
+ {error,Reason} ->
+ {error, {parse_error,Str,Reason}}
+ end
+ end.
+
+-spec parse_type(string()) -> rich_result(abs_type()).
+parse_type(Str) ->
+ TypeStr = "-type mytype() :: " ++ Str ++ ".",
+ case erl_scan:string(TypeStr) of
+ {ok,Tokens,_EndLocation} ->
+ case erl_parse:parse_form(Tokens) of
+ {ok,{attribute,_Line,type,{mytype,TypeExpr,[]}}} ->
+ {ok, TypeExpr};
+ {error,_ErrorInfo} = Error ->
+ Error
+ end;
+ {error,ErrorInfo,_EndLocation} ->
+ {error, ErrorInfo}
+ end.
+
+-spec add_module(mod_name(), state()) -> rich_result(state()).
+add_module(Mod, #state{exp_types = ExpTypes} = State) ->
+ case dict:is_key(Mod, ExpTypes) of
+ true ->
+ {ok, State};
+ false ->
+ case get_code_and_exports(Mod) of
+ {ok,AbsCode,ModExpFuns} ->
+ RawModInfo = get_mod_info(Mod, AbsCode, ModExpFuns),
+ ModInfo = process_adts(Mod, RawModInfo),
+ {ok, store_mod_info(Mod, ModInfo, State)};
+ {error,Reason} ->
+ {error, {cant_load_code,Mod,Reason}}
+ end
+ end.
+
+%% @private
+-spec get_exp_info(mod_name()) -> rich_result2(mod_exp_types(),mod_exp_funs()).
+get_exp_info(Mod) ->
+ case get_code_and_exports(Mod) of
+ {ok,AbsCode,ModExpFuns} ->
+ RawModInfo = get_mod_info(Mod, AbsCode, ModExpFuns),
+ {ok, RawModInfo#mod_info.mod_exp_types, ModExpFuns};
+ {error,_Reason} = Error ->
+ Error
+ end.
+
+-spec get_code_and_exports(mod_name()) ->
+ rich_result2([abs_form()],mod_exp_funs()).
+get_code_and_exports(Mod) ->
+ case code:get_object_code(Mod) of
+ {Mod, ObjBin, _ObjFileName} ->
+ case get_chunks(ObjBin) of
+ {ok,_AbsCode,_ModExpFuns} = Result ->
+ Result;
+ {error,Reason} ->
+ get_code_and_exports_from_source(Mod, Reason)
+ end;
+ error ->
+ get_code_and_exports_from_source(Mod, cant_find_object_file)
+ end.
+
+-spec get_code_and_exports_from_source(mod_name(), term()) ->
+ rich_result2([abs_form()],mod_exp_funs()).
+get_code_and_exports_from_source(Mod, ObjError) ->
+ SrcFileName = atom_to_list(Mod) ++ ?SRC_FILE_EXT,
+ case code:where_is_file(SrcFileName) of
+ FullSrcFileName when is_list(FullSrcFileName) ->
+ Opts = [binary,debug_info,return_errors,{d,'PROPER_REMOVE_PROPS'}],
+ case compile:file(FullSrcFileName, Opts) of
+ {ok,Mod,Binary} ->
+ get_chunks(Binary);
+ {error,Errors,_Warnings} ->
+ {error, {ObjError,{cant_compile_source_file,Errors}}}
+ end;
+ non_existing ->
+ {error, {ObjError,cant_find_source_file}}
+ end.
+
+-spec get_chunks(string() | binary()) ->
+ rich_result2([abs_form()],mod_exp_funs()).
+get_chunks(ObjFile) ->
+ case beam_lib:chunks(ObjFile, [abstract_code,exports]) of
+ {ok,{_Mod,[{abstract_code,AbsCodeChunk},{exports,ExpFunsList}]}} ->
+ case AbsCodeChunk of
+ {raw_abstract_v1,AbsCode} ->
+ %% HACK: Add a declaration for iolist() to every module
+ {ok, add_iolist(AbsCode), sets:from_list(ExpFunsList)};
+ no_abstract_code ->
+ {error, no_abstract_code};
+ _ ->
+ {error, unsupported_abstract_code_format}
+ end;
+ {error,beam_lib,Reason} ->
+ {error, Reason}
+ end.
+
+-spec add_iolist([abs_form()]) -> [abs_form()].
+add_iolist(Forms) ->
+ IOListDef =
+ {type,0,maybe_improper_list,
+ [{type,0,union,[{type,0,byte,[]},{type,0,binary,[]},
+ {type,0,iolist,[]}]},
+ {type,0,binary,[]}]},
+ IOListDecl = {attribute,0,type,{iolist,IOListDef,[]}},
+ [IOListDecl | Forms].
+
+-spec get_mod_info(mod_name(), [abs_form()], mod_exp_funs()) -> mod_info().
+get_mod_info(Mod, AbsCode, ModExpFuns) ->
+ StartModInfo = #mod_info{mod_exp_funs = ModExpFuns},
+ ImmModInfo = lists:foldl(fun add_mod_info/2, StartModInfo, AbsCode),
+ #mod_info{mod_specs = AllModSpecs} = ImmModInfo,
+ IsExported = fun(FunRef,_FunRepr) -> sets:is_element(FunRef,ModExpFuns) end,
+ ModExpSpecs = dict:filter(IsExported, AllModSpecs),
+ ModInfo = ImmModInfo#mod_info{mod_specs = ModExpSpecs},
+ case orddict:find(Mod, ?HARD_ADT_MODS) of
+ {ok,ModADTs} ->
+ #mod_info{mod_exp_types = ModExpTypes, mod_types = ModTypes,
+ mod_opaques = ModOpaques} = ModInfo,
+ ModADTsSet =
+ sets:from_list([ImmTypeRef
+ || {ImmTypeRef,_HardADTRepr} <- ModADTs]),
+ NewModExpTypes = sets:union(ModExpTypes, ModADTsSet),
+ NewModTypes = lists:foldl(fun store_hard_adt/2, ModTypes, ModADTs),
+ NewModOpaques = sets:union(ModOpaques, ModADTsSet),
+ ModInfo#mod_info{mod_exp_types = NewModExpTypes,
+ mod_types = NewModTypes,
+ mod_opaques = NewModOpaques};
+ error ->
+ ModInfo
+ end.
+
+-spec store_hard_adt({imm_type_ref(),hard_adt_repr()}, mod_types()) ->
+ mod_types().
+store_hard_adt({_ImmTypeRef,already_declared}, ModTypes) ->
+ ModTypes;
+store_hard_adt({{Name,Arity},{TypeForm,VarNames}}, ModTypes) ->
+ TypeRef = {type,Name,Arity},
+ TypeRepr = {abs_type,TypeForm,VarNames,not_symb},
+ dict:store(TypeRef, TypeRepr, ModTypes).
+
+-spec add_mod_info(abs_form(), mod_info()) -> mod_info().
+add_mod_info({attribute,_Line,export_type,TypesList},
+ #mod_info{mod_exp_types = ModExpTypes} = ModInfo) ->
+ NewModExpTypes = sets:union(sets:from_list(TypesList), ModExpTypes),
+ ModInfo#mod_info{mod_exp_types = NewModExpTypes};
+add_mod_info({attribute,_Line,type,{{record,RecName},Fields,[]}},
+ #mod_info{mod_types = ModTypes} = ModInfo) ->
+ FieldInfo = [process_rec_field(F) || F <- Fields],
+ NewModTypes = dict:store({record,RecName,0}, {abs_record,FieldInfo},
+ ModTypes),
+ ModInfo#mod_info{mod_types = NewModTypes};
+add_mod_info({attribute,Line,record,{RecName,Fields}},
+ #mod_info{mod_types = ModTypes} = ModInfo) ->
+ case dict:is_key(RecName, ModTypes) of
+ true ->
+ ModInfo;
+ false -> % fake an opaque term by using the same Line as annotation
+ TypedRecord = {attribute,Line,type,{{record,RecName},Fields,[]}},
+ add_mod_info(TypedRecord, ModInfo)
+ end;
+add_mod_info({attribute,_Line,Kind,{Name,TypeForm,VarForms}},
+ #mod_info{mod_types = ModTypes,
+ mod_opaques = ModOpaques} = ModInfo)
+ when Kind =:= type; Kind =:= opaque ->
+ Arity = length(VarForms),
+ VarNames = [V || {var,_,V} <- VarForms],
+ %% TODO: No check whether variables are different, or non-'_'.
+ NewModTypes = dict:store({type,Name,Arity},
+ {abs_type,TypeForm,VarNames,not_symb}, ModTypes),
+ NewModOpaques =
+ case Kind of
+ type -> ModOpaques;
+ opaque -> sets:add_element({Name,Arity}, ModOpaques)
+ end,
+ ModInfo#mod_info{mod_types = NewModTypes, mod_opaques = NewModOpaques};
+add_mod_info({attribute,_Line,spec,{RawFunRef,[RawFirstClause | _Rest]}},
+ #mod_info{mod_specs = ModSpecs} = ModInfo) ->
+ FunRef = case RawFunRef of
+ {_Mod,Name,Arity} -> {Name,Arity};
+ {_Name,_Arity} = F -> F
+ end,
+ %% TODO: We just take the first function clause.
+ FirstClause = process_fun_clause(RawFirstClause),
+ NewModSpecs = dict:store(FunRef, FirstClause, ModSpecs),
+ ModInfo#mod_info{mod_specs = NewModSpecs};
+add_mod_info(_Form, ModInfo) ->
+ ModInfo.
+
+-spec process_rec_field(abs_rec_field()) -> {field_name(),abs_type()}.
+process_rec_field({record_field,_,{atom,_,FieldName}}) ->
+ {FieldName, {type,0,any,[]}};
+process_rec_field({record_field,_,{atom,_,FieldName},_Initialization}) ->
+ {FieldName, {type,0,any,[]}};
+process_rec_field({typed_record_field,RecField,FieldType}) ->
+ {FieldName,_} = process_rec_field(RecField),
+ {FieldName, FieldType}.
+
+-spec process_fun_clause(abs_type()) -> fun_clause_repr().
+process_fun_clause({type,_,'fun',[{type,_,product,Domain},Range]}) ->
+ {Domain, Range};
+process_fun_clause({type,_,bounded_fun,[MainClause,Constraints]}) ->
+ {RawDomain,RawRange} = process_fun_clause(MainClause),
+ VarSubsts = [{V,T} || {type,_,constraint,
+ [{atom,_,is_subtype},[{var,_,V},T]]} <- Constraints,
+ V =/= '_'],
+ VarSubstsDict = dict:from_list(VarSubsts),
+ Domain = [update_vars(A, VarSubstsDict, false) || A <- RawDomain],
+ Range = update_vars(RawRange, VarSubstsDict, false),
+ {Domain, Range}.
+
+-spec store_mod_info(mod_name(), mod_info(), state()) -> state().
+store_mod_info(Mod, #mod_info{mod_exp_types = ModExpTypes, mod_types = ModTypes,
+ mod_specs = ImmModExpSpecs},
+ #state{exp_types = ExpTypes, types = Types,
+ exp_specs = ExpSpecs} = State) ->
+ NewExpTypes = dict:store(Mod, ModExpTypes, ExpTypes),
+ NewTypes = dict:store(Mod, ModTypes, Types),
+ ModExpSpecs = dict:map(fun unbound_to_any/2, ImmModExpSpecs),
+ NewExpSpecs = dict:store(Mod, ModExpSpecs, ExpSpecs),
+ State#state{exp_types = NewExpTypes, types = NewTypes,
+ exp_specs = NewExpSpecs}.
+
+-spec unbound_to_any(fun_ref(), fun_repr()) -> fun_repr().
+unbound_to_any(_FunRef, {Domain,Range}) ->
+ EmptySubstsDict = dict:new(),
+ NewDomain = [update_vars(A,EmptySubstsDict,true) || A <- Domain],
+ NewRange = update_vars(Range, EmptySubstsDict, true),
+ {NewDomain, NewRange}.
+
+
+%%------------------------------------------------------------------------------
+%% ADT translation functions
+%%------------------------------------------------------------------------------
+
+-spec process_adts(mod_name(), mod_info()) -> mod_info().
+process_adts(Mod,
+ #mod_info{mod_exp_types = ModExpTypes, mod_opaques = ModOpaques,
+ mod_specs = ModExpSpecs} = ModInfo) ->
+ %% TODO: No warning on unexported opaques.
+ case sets:to_list(sets:intersection(ModExpTypes,ModOpaques)) of
+ [] ->
+ ModInfo;
+ ModADTs ->
+ %% TODO: No warning on unexported API functions.
+ ModExpSpecsList = [{Name,Domain,Range}
+ || {{Name,_Arity},{Domain,Range}}
+ <- dict:to_list(ModExpSpecs)],
+ AddADT = fun(ADT,Acc) -> add_adt(Mod,ADT,Acc,ModExpSpecsList) end,
+ lists:foldl(AddADT, ModInfo, ModADTs)
+ end.
+
+-spec add_adt(mod_name(), imm_type_ref(), mod_info(), [proc_fun_ref()]) ->
+ mod_info().
+add_adt(Mod, {Name,Arity}, #mod_info{mod_types = ModTypes} = ModInfo,
+ ModExpFunSpecs) ->
+ ADTRef = {type,Name,Arity},
+ {abs_type,InternalRepr,VarNames,not_symb} = dict:fetch(ADTRef, ModTypes),
+ FullADTRef = {Mod,Name,Arity},
+ %% TODO: No warning on unsuitable range.
+ SymbCalls1 = [get_symb_call(FullADTRef,Spec) || Spec <- ModExpFunSpecs],
+ %% TODO: No warning on bad use of variables.
+ SymbCalls2 = [fix_vars(FullADTRef,Call,RangeVars,VarNames)
+ || {ok,Call,RangeVars} <- SymbCalls1],
+ case [Call || {ok,Call} <- SymbCalls2] of
+ [] ->
+ %% TODO: No warning on no acceptable spec.
+ ModInfo;
+ SymbCalls3 ->
+ NewADTRepr = {abs_type,{type,0,union,SymbCalls3},VarNames,
+ {orig_abs,InternalRepr}},
+ NewModTypes = dict:store(ADTRef, NewADTRepr, ModTypes),
+ ModInfo#mod_info{mod_types = NewModTypes}
+ end.
+
+-spec get_symb_call(full_imm_type_ref(), proc_fun_ref()) ->
+ tagged_result2(abs_type(),[var_name()]).
+get_symb_call({Mod,_TypeName,_Arity} = FullADTRef, {FunName,Domain,Range}) ->
+ A = ?anno(0),
+ BaseCall = {type,A,tuple,[{atom,A,'$call'},{atom,A,Mod},{atom,A,FunName},
+ {type,A,'$fixed_list',Domain}]},
+ unwrap_range(FullADTRef, BaseCall, Range, false).
+
+-spec unwrap_range(full_imm_type_ref(), abs_type() | next_step(), abs_type(),
+ boolean()) ->
+ tagged_result2(abs_type() | next_step(),[var_name()]).
+unwrap_range(FullADTRef, Call, {paren_type,_,[Type]}, TestRun) ->
+ unwrap_range(FullADTRef, Call, Type, TestRun);
+unwrap_range(FullADTRef, Call, {ann_type,_,[_Var,Type]}, TestRun) ->
+ unwrap_range(FullADTRef, Call, Type, TestRun);
+unwrap_range(FullADTRef, Call, {type,_,list,[ElemType]}, TestRun) ->
+ unwrap_list(FullADTRef, Call, ElemType, TestRun);
+unwrap_range(FullADTRef, Call, {type,_,maybe_improper_list,[Cont,_Term]},
+ TestRun) ->
+ unwrap_list(FullADTRef, Call, Cont, TestRun);
+unwrap_range(FullADTRef, Call, {type,_,nonempty_list,[ElemType]}, TestRun) ->
+ unwrap_list(FullADTRef, Call, ElemType, TestRun);
+unwrap_range(FullADTRef, Call, {type,_,nonempty_improper_list,[Cont,_Term]},
+ TestRun) ->
+ unwrap_list(FullADTRef, Call, Cont, TestRun);
+unwrap_range(FullADTRef, Call,
+ {type,_,nonempty_maybe_improper_list,[Cont,_Term]}, TestRun) ->
+ unwrap_list(FullADTRef, Call, Cont, TestRun);
+unwrap_range(_FullADTRef, _Call, {type,_,tuple,any}, _TestRun) ->
+ error;
+unwrap_range(FullADTRef, Call, {type,_,tuple,FieldForms}, TestRun) ->
+ Translates = fun(T) -> unwrap_range(FullADTRef,none,T,true) =/= error end,
+ case proper_arith:find_first(Translates, FieldForms) of
+ none ->
+ error;
+ {TargetPos,TargetElem} ->
+ Pattern = get_pattern(TargetPos, FieldForms),
+ case TestRun of
+ true ->
+ NewCall =
+ case Call of
+ none -> {match_with,Pattern};
+ _ -> Call
+ end,
+ {ok, NewCall, []};
+ false ->
+ AbsPattern = term_to_singleton_type(Pattern),
+ A = ?anno(0),
+ NewCall =
+ {type,A,tuple,
+ [{atom,A,'$call'},{atom,A,?MODULE},{atom,A,match},
+ {type,A,'$fixed_list',[AbsPattern,Call]}]},
+ unwrap_range(FullADTRef, NewCall, TargetElem, TestRun)
+ end
+ end;
+unwrap_range(FullADTRef, Call, {type,_,union,Choices}, TestRun) ->
+ TestedChoices = [unwrap_range(FullADTRef,none,C,true) || C <- Choices],
+ NotError = fun(error) -> false; (_) -> true end,
+ case proper_arith:find_first(NotError, TestedChoices) of
+ none ->
+ error;
+ {_ChoicePos,{ok,none,_RangeVars}} ->
+ error;
+ {ChoicePos,{ok,NextStep,_RangeVars}} ->
+ {A, [ChoiceElem|B]} = lists:split(ChoicePos-1, Choices),
+ OtherChoices = A ++ B,
+ DistinctChoice =
+ case NextStep of
+ take_head ->
+ fun cant_have_head/1;
+ {match_with,Pattern} ->
+ fun(C) -> cant_match(Pattern, C) end
+ end,
+ case {lists:all(DistinctChoice,OtherChoices), TestRun} of
+ {true,true} ->
+ {ok, NextStep, []};
+ {true,false} ->
+ unwrap_range(FullADTRef, Call, ChoiceElem, TestRun);
+ {false,_} ->
+ error
+ end
+ end;
+unwrap_range({_Mod,SameName,Arity}, Call, {type,_,SameName,ArgForms},
+ _TestRun) ->
+ RangeVars = [V || {var,_,V} <- ArgForms, V =/= '_'],
+ case length(ArgForms) =:= Arity andalso length(RangeVars) =:= Arity of
+ true -> {ok, Call, RangeVars};
+ false -> error
+ end;
+unwrap_range({SameMod,SameName,_Arity} = FullADTRef, Call,
+ {remote_type,_,[{atom,_,SameMod},{atom,_,SameName},ArgForms]},
+ TestRun) ->
+ unwrap_range(FullADTRef, Call, {type,?anno(0),SameName,ArgForms}, TestRun);
+unwrap_range(_FullADTRef, _Call, _Range, _TestRun) ->
+ error.
+
+-spec unwrap_list(full_imm_type_ref(), abs_type() | next_step(), abs_type(),
+ boolean()) ->
+ tagged_result2(abs_type() | next_step(),[var_name()]).
+unwrap_list(FullADTRef, Call, HeadType, TestRun) ->
+ NewCall =
+ case TestRun of
+ true ->
+ case Call of
+ none -> take_head;
+ _ -> Call
+ end;
+ false ->
+ {type,0,tuple,[{atom,0,'$call'},{atom,0,erlang},{atom,0,hd},
+ {type,0,'$fixed_list',[Call]}]}
+ end,
+ unwrap_range(FullADTRef, NewCall, HeadType, TestRun).
+
+-spec fix_vars(full_imm_type_ref(), abs_type(), [var_name()], [var_name()]) ->
+ tagged_result(abs_type()).
+fix_vars(FullADTRef, Call, RangeVars, VarNames) ->
+ NotAnyVar = fun(V) -> V =/= '_' end,
+ case no_duplicates(VarNames) andalso lists:all(NotAnyVar,VarNames) of
+ true ->
+ RawUsedVars =
+ collect_vars(FullADTRef, Call, [[V] || V <- RangeVars]),
+ UsedVars = [lists:usort(L) || L <- RawUsedVars],
+ case correct_var_use(UsedVars) of
+ true ->
+ PairAll = fun(L,Y) -> [{X,{var,0,Y}} || X <- L] end,
+ VarSubsts =
+ lists:flatten(lists:zipwith(PairAll,UsedVars,VarNames)),
+ VarSubstsDict = dict:from_list(VarSubsts),
+ {ok, update_vars(Call,VarSubstsDict,true)};
+ false ->
+ error
+ end;
+ false ->
+ error
+ end.
+
+-spec no_duplicates(list()) -> boolean().
+no_duplicates(L) ->
+ length(lists:usort(L)) =:= length(L).
+
+-spec correct_var_use([[var_name() | 0]]) -> boolean().
+correct_var_use(UsedVars) ->
+ NoNonVarArgs = fun([0|_]) -> false; (_) -> true end,
+ lists:all(NoNonVarArgs, UsedVars)
+ andalso no_duplicates(lists:flatten(UsedVars)).
+
+-spec collect_vars(full_imm_type_ref(), abs_type(), [[var_name() | 0]]) ->
+ [[var_name() | 0]].
+collect_vars(FullADTRef, {paren_type,_,[Type]}, UsedVars) ->
+ collect_vars(FullADTRef, Type, UsedVars);
+collect_vars(FullADTRef, {ann_type,_,[_Var,Type]}, UsedVars) ->
+ collect_vars(FullADTRef, Type, UsedVars);
+collect_vars(_FullADTRef, {type,_,tuple,any}, UsedVars) ->
+ UsedVars;
+collect_vars({_Mod,SameName,Arity} = FullADTRef, {type,_,SameName,ArgForms},
+ UsedVars) ->
+ case length(ArgForms) =:= Arity of
+ true ->
+ VarArgs = [V || {var,_,V} <- ArgForms, V =/= '_'],
+ case length(VarArgs) =:= Arity of
+ true ->
+ AddToList = fun(X,L) -> [X | L] end,
+ lists:zipwith(AddToList, VarArgs, UsedVars);
+ false ->
+ [[0|L] || L <- UsedVars]
+ end;
+ false ->
+ multi_collect_vars(FullADTRef, ArgForms, UsedVars)
+ end;
+collect_vars(FullADTRef, {type,_,_Name,ArgForms}, UsedVars) ->
+ multi_collect_vars(FullADTRef, ArgForms, UsedVars);
+collect_vars({SameMod,SameName,_Arity} = FullADTRef,
+ {remote_type,_,[{atom,_,SameMod},{atom,_,SameName},ArgForms]},
+ UsedVars) ->
+ collect_vars(FullADTRef, {type,?anno(0),SameName,ArgForms}, UsedVars);
+collect_vars(FullADTRef, {remote_type,_,[_RemModForm,_NameForm,ArgForms]},
+ UsedVars) ->
+ multi_collect_vars(FullADTRef, ArgForms, UsedVars);
+collect_vars(_FullADTRef, _Call, UsedVars) ->
+ UsedVars.
+
+-spec multi_collect_vars(full_imm_type_ref(), [abs_type()],
+ [[var_name() | 0]]) -> [[var_name() | 0]].
+multi_collect_vars({_Mod,_Name,Arity} = FullADTRef, Forms, UsedVars) ->
+ NoUsedVars = lists:duplicate(Arity, []),
+ MoreUsedVars = [collect_vars(FullADTRef,T,NoUsedVars) || T <- Forms],
+ CombineVars = fun(L1,L2) -> lists:zipwith(fun erlang:'++'/2, L1, L2) end,
+ lists:foldl(CombineVars, UsedVars, MoreUsedVars).
+
+-ifdef(NO_MODULES_IN_OPAQUES).
+-type var_substs_dict() :: dict().
+-else.
+-type var_substs_dict() :: dict:dict(var_name(),abs_type()).
+-endif.
+-spec update_vars(abs_type(), var_substs_dict(), boolean()) -> abs_type().
+update_vars({paren_type,Line,[Type]}, VarSubstsDict, UnboundToAny) ->
+ {paren_type, Line, [update_vars(Type,VarSubstsDict,UnboundToAny)]};
+update_vars({ann_type,Line,[Var,Type]}, VarSubstsDict, UnboundToAny) ->
+ {ann_type, Line, [Var,update_vars(Type,VarSubstsDict,UnboundToAny)]};
+update_vars({var,Line,VarName} = Call, VarSubstsDict, UnboundToAny) ->
+ case dict:find(VarName, VarSubstsDict) of
+ {ok,SubstType} ->
+ SubstType;
+ error when UnboundToAny =:= false ->
+ Call;
+ error when UnboundToAny =:= true ->
+ {type,Line,any,[]}
+ end;
+update_vars({remote_type,Line,[RemModForm,NameForm,ArgForms]}, VarSubstsDict,
+ UnboundToAny) ->
+ NewArgForms = [update_vars(A,VarSubstsDict,UnboundToAny) || A <- ArgForms],
+ {remote_type, Line, [RemModForm,NameForm,NewArgForms]};
+update_vars({T,_,tuple,any} = Call, _VarSubstsDict, _UnboundToAny) when ?IS_TYPE_TAG(T) ->
+ Call;
+update_vars({T,Line,Name,ArgForms}, VarSubstsDict, UnboundToAny) when ?IS_TYPE_TAG(T) ->
+ NewArgForms = [update_vars(A,VarSubstsDict,UnboundToAny) || A <- ArgForms],
+ {T, Line, Name, NewArgForms};
+update_vars(Call, _VarSubstsDict, _UnboundToAny) ->
+ Call.
+
+
+%%------------------------------------------------------------------------------
+%% Match-related functions
+%%------------------------------------------------------------------------------
+
+-spec get_pattern(position(), [abs_type()]) -> pattern().
+get_pattern(TargetPos, FieldForms) ->
+ {0,RevPattern} = lists:foldl(fun add_field/2, {TargetPos,[]}, FieldForms),
+ list_to_tuple(lists:reverse(RevPattern)).
+
+-spec add_field(abs_type(), {non_neg_integer(),[pat_field()]}) ->
+ {non_neg_integer(),[pat_field(),...]}.
+add_field(_Type, {1,Acc}) ->
+ {0, [1|Acc]};
+add_field({atom,_,Tag}, {Left,Acc}) ->
+ {erlang:max(0,Left-1), [Tag|Acc]};
+add_field(_Type, {Left,Acc}) ->
+ {erlang:max(0,Left-1), [0|Acc]}.
+
+%% @private
+-spec match(pattern(), tuple()) -> term().
+match(Pattern, Term) when tuple_size(Pattern) =:= tuple_size(Term) ->
+ match(tuple_to_list(Pattern), tuple_to_list(Term), none, false);
+match(_Pattern, _Term) ->
+ throw(no_match).
+
+-spec match([pat_field()], [term()], 'none' | {'ok',T}, boolean()) -> T.
+match([], [], {ok,Target}, _TypeMode) ->
+ Target;
+match([0|PatRest], [_|ToMatchRest], Acc, TypeMode) ->
+ match(PatRest, ToMatchRest, Acc, TypeMode);
+match([1|PatRest], [Target|ToMatchRest], none, TypeMode) ->
+ match(PatRest, ToMatchRest, {ok,Target}, TypeMode);
+match([Tag|PatRest], [X|ToMatchRest], Acc, TypeMode) when is_atom(Tag) ->
+ MatchesTag =
+ case TypeMode of
+ true -> can_be_tag(Tag, X);
+ false -> Tag =:= X
+ end,
+ case MatchesTag of
+ true -> match(PatRest, ToMatchRest, Acc, TypeMode);
+ false -> throw(no_match)
+ end.
+
+%% CAUTION: these must be sorted
+-define(NON_ATOM_TYPES,
+ [arity,binary,bitstring,byte,char,float,'fun',function,integer,iodata,
+ iolist,list,maybe_improper_list,mfa,neg_integer,nil,no_return,
+ non_neg_integer,none,nonempty_improper_list,nonempty_list,
+ nonempty_maybe_improper_list,nonempty_string,number,pid,port,
+ pos_integer,range,record,reference,string,tuple]).
+-define(NON_TUPLE_TYPES,
+ [arity,atom,binary,bitstring,bool,boolean,byte,char,float,'fun',
+ function,identifier,integer,iodata,iolist,list,maybe_improper_list,
+ neg_integer,nil,no_return,node,non_neg_integer,none,
+ nonempty_improper_list,nonempty_list,nonempty_maybe_improper_list,
+ nonempty_string,number,pid,port,pos_integer,range,reference,string,
+ timeout]).
+-define(NO_HEAD_TYPES,
+ [arity,atom,binary,bitstring,bool,boolean,byte,char,float,'fun',
+ function,identifier,integer,mfa,module,neg_integer,nil,no_return,node,
+ non_neg_integer,none,number,pid,port,pos_integer,range,record,
+ reference,timeout,tuple]).
+
+-spec can_be_tag(atom(), abs_type()) -> boolean().
+can_be_tag(Tag, {ann_type,_,[_Var,Type]}) ->
+ can_be_tag(Tag, Type);
+can_be_tag(Tag, {paren_type,_,[Type]}) ->
+ can_be_tag(Tag, Type);
+can_be_tag(Tag, {atom,_,Atom}) ->
+ Tag =:= Atom;
+can_be_tag(_Tag, {integer,_,_Int}) ->
+ false;
+can_be_tag(_Tag, {op,_,_Op,_Arg}) ->
+ false;
+can_be_tag(_Tag, {op,_,_Op,_Arg1,_Arg2}) ->
+ false;
+can_be_tag(Tag, {type,_,BName,[]}) when BName =:= bool; BName =:= boolean ->
+ is_boolean(Tag);
+can_be_tag(Tag, {type,_,timeout,[]}) ->
+ Tag =:= infinity;
+can_be_tag(Tag, {type,_,union,Choices}) ->
+ lists:any(fun(C) -> can_be_tag(Tag,C) end, Choices);
+can_be_tag(_Tag, {type,_,Name,_Args}) ->
+ not ordsets:is_element(Name, ?NON_ATOM_TYPES);
+can_be_tag(_Tag, _Type) ->
+ true.
+
+-spec cant_match(pattern(), abs_type()) -> boolean().
+cant_match(Pattern, {ann_type,_,[_Var,Type]}) ->
+ cant_match(Pattern, Type);
+cant_match(Pattern, {paren_type,_,[Type]}) ->
+ cant_match(Pattern, Type);
+cant_match(_Pattern, {atom,_,_Atom}) ->
+ true;
+cant_match(_Pattern, {integer,_,_Int}) ->
+ true;
+cant_match(_Pattern, {op,_,_Op,_Arg}) ->
+ true;
+cant_match(_Pattern, {op,_,_Op,_Arg1,_Arg2}) ->
+ true;
+cant_match(Pattern, {type,Anno,mfa,[]}) ->
+ MFA_Ts = [{type,Anno,atom,[]}, {type,Anno,atom,[]}, {type,Anno,arity,[]}],
+ cant_match(Pattern, {type,Anno,tuple,MFA_Ts});
+cant_match(Pattern, {type,_,union,Choices}) ->
+ lists:all(fun(C) -> cant_match(Pattern,C) end, Choices);
+cant_match(_Pattern, {type,_,tuple,any}) ->
+ false;
+cant_match(Pattern, {type,_,tuple,Fields}) ->
+ tuple_size(Pattern) =/= length(Fields) orelse
+ try match(tuple_to_list(Pattern), Fields, none, true) of
+ _ -> false
+ catch
+ throw:no_match -> true
+ end;
+cant_match(_Pattern, {type,_,Name,_Args}) ->
+ ordsets:is_element(Name, ?NON_TUPLE_TYPES);
+cant_match(_Pattern, _Type) ->
+ false.
+
+-spec cant_have_head(abs_type()) -> boolean().
+cant_have_head({ann_type,_,[_Var,Type]}) ->
+ cant_have_head(Type);
+cant_have_head({paren_type,_,[Type]}) ->
+ cant_have_head(Type);
+cant_have_head({atom,_,_Atom}) ->
+ true;
+cant_have_head({integer,_,_Int}) ->
+ true;
+cant_have_head({op,_,_Op,_Arg}) ->
+ true;
+cant_have_head({op,_,_Op,_Arg1,_Arg2}) ->
+ true;
+cant_have_head({type,_,union,Choices}) ->
+ lists:all(fun cant_have_head/1, Choices);
+cant_have_head({type,_,Name,_Args}) ->
+ ordsets:is_element(Name, ?NO_HEAD_TYPES);
+cant_have_head(_Type) ->
+ false.
+
+%% Only covers atoms, integers and tuples, i.e. those that can be specified
+%% through singleton types.
+-spec term_to_singleton_type(atom() | integer()
+ | loose_tuple(atom() | integer())) -> abs_type().
+term_to_singleton_type(Atom) when is_atom(Atom) ->
+ {atom,?anno(0),Atom};
+term_to_singleton_type(Int) when is_integer(Int), Int >= 0 ->
+ {integer,?anno(0),Int};
+term_to_singleton_type(Int) when is_integer(Int), Int < 0 ->
+ A = ?anno(0),
+ {op,A,'-',{integer,A,-Int}};
+term_to_singleton_type(Tuple) when is_tuple(Tuple) ->
+ Fields = tuple_to_list(Tuple),
+ {type,?anno(0),tuple,[term_to_singleton_type(F) || F <- Fields]}.
+
+
+%%------------------------------------------------------------------------------
+%% Instance testing functions
+%%------------------------------------------------------------------------------
+
+%% CAUTION: this must be sorted
+-define(EQUIV_TYPES,
+ [{arity, {type,0,range,[{integer,0,0},{integer,0,255}]}},
+ {bool, {type,0,boolean,[]}},
+ {byte, {type,0,range,[{integer,0,0},{integer,0,255}]}},
+ {char, {type,0,range,[{integer,0,0},{integer,0,16#10ffff}]}},
+ {function, {type,0,'fun',[]}},
+ {identifier, {type,0,union,[{type,0,pid,[]},{type,0,port,[]},
+ {type,0,reference,[]}]}},
+ {iodata, {type,0,union,[{type,0,binary,[]},{type,0,iolist,[]}]}},
+ {iolist, {type,0,maybe_improper_list,
+ [{type,0,union,[{type,0,byte,[]},{type,0,binary,[]},
+ {type,0,iolist,[]}]},
+ {type,0,binary,[]}]}},
+ {list, {type,0,list,[{type,0,any,[]}]}},
+ {maybe_improper_list, {type,0,maybe_improper_list,[{type,0,any,[]},
+ {type,0,any,[]}]}},
+ {mfa, {type,0,tuple,[{type,0,atom,[]},{type,0,atom,[]},
+ {type,0,arity,[]}]}},
+ {node, {type,0,atom,[]}},
+ {nonempty_list, {type,0,nonempty_list,[{type,0,any,[]}]}},
+ {nonempty_maybe_improper_list, {type,0,nonempty_maybe_improper_list,
+ [{type,0,any,[]},{type,0,any,[]}]}},
+ {nonempty_string, {type,0,nonempty_list,[{type,0,char,[]}]}},
+ {string, {type,0,list,[{type,0,char,[]}]}},
+ {term, {type,0,any,[]}},
+ {timeout, {type,0,union,[{atom,0,infinity},
+ {type,0,non_neg_integer,[]}]}}]).
+
+%% @private
+%% TODO: Most of these functions accept an extended form of abs_type(), namely
+%% the addition of a custom wrapper: {'from_mod',mod_name(),...}
+-spec is_instance(term(), mod_name(), abs_type()) -> boolean().
+is_instance(X, Mod, TypeForm) ->
+ is_instance(X, Mod, TypeForm, []).
+
+-spec is_instance(term(), mod_name(), abs_type(), imm_stack()) -> boolean().
+is_instance(X, _Mod, {from_mod,OrigMod,Type}, Stack) ->
+ is_instance(X, OrigMod, Type, Stack);
+is_instance(_X, _Mod, {var,_,'_'}, _Stack) ->
+ true;
+is_instance(_X, _Mod, {var,_,Name}, _Stack) ->
+ %% All unconstrained spec vars have been replaced by 'any()' and we always
+ %% replace the variables on the RHS of types before recursing into them.
+ %% Provided that '-type' declarations contain no unbound variables, we
+ %% don't expect to find any non-'_' variables while recursing.
+ throw({'$typeserver',{unbound_var_in_type_declaration,Name}});
+is_instance(X, Mod, {ann_type,_,[_Var,Type]}, Stack) ->
+ is_instance(X, Mod, Type, Stack);
+is_instance(X, Mod, {paren_type,_,[Type]}, Stack) ->
+ is_instance(X, Mod, Type, Stack);
+is_instance(X, Mod, {remote_type,_,[{atom,_,RemMod},{atom,_,Name},ArgForms]},
+ Stack) ->
+ is_custom_instance(X, Mod, RemMod, Name, ArgForms, true, Stack);
+is_instance(SameAtom, _Mod, {atom,_,SameAtom}, _Stack) ->
+ true;
+is_instance(SameInt, _Mod, {integer,_,SameInt}, _Stack) ->
+ true;
+is_instance(X, _Mod, {op,_,_Op,_Arg} = Expr, _Stack) ->
+ is_int_const(X, Expr);
+is_instance(X, _Mod, {op,_,_Op,_Arg1,_Arg2} = Expr, _Stack) ->
+ is_int_const(X, Expr);
+is_instance(_X, _Mod, {type,_,any,[]}, _Stack) ->
+ true;
+is_instance(X, _Mod, {type,_,atom,[]}, _Stack) ->
+ is_atom(X);
+is_instance(X, _Mod, {type,_,binary,[]}, _Stack) ->
+ is_binary(X);
+is_instance(X, _Mod, {type,_,binary,[BaseExpr,UnitExpr]}, _Stack) ->
+ %% <<_:X,_:_*Y>> means "bitstrings of X + k*Y bits, k >= 0"
+ case eval_int(BaseExpr) of
+ {ok,Base} when Base >= 0 ->
+ case eval_int(UnitExpr) of
+ {ok,Unit} when Unit >= 0 ->
+ case is_bitstring(X) of
+ true ->
+ BitSizeX = bit_size(X),
+ case Unit =:= 0 of
+ true ->
+ BitSizeX =:= Base;
+ false ->
+ BitSizeX >= Base
+ andalso
+ (BitSizeX - Base) rem Unit =:= 0
+ end;
+ false -> false
+ end;
+ _ ->
+ abs_expr_error(invalid_unit, UnitExpr)
+ end;
+ _ ->
+ abs_expr_error(invalid_base, BaseExpr)
+ end;
+is_instance(X, _Mod, {type,_,bitstring,[]}, _Stack) ->
+ is_bitstring(X);
+is_instance(X, _Mod, {type,_,boolean,[]}, _Stack) ->
+ is_boolean(X);
+is_instance(X, _Mod, {type,_,float,[]}, _Stack) ->
+ is_float(X);
+is_instance(X, _Mod, {type,_,'fun',[]}, _Stack) ->
+ is_function(X);
+%% TODO: how to check range type? random inputs? special case for 0-arity?
+is_instance(X, _Mod, {type,_,'fun',[{type,_,any,[]},_Range]}, _Stack) ->
+ is_function(X);
+is_instance(X, _Mod, {type,_,'fun',[{type,_,product,Domain},_Range]}, _Stack) ->
+ is_function(X, length(Domain));
+is_instance(X, _Mod, {type,_,integer,[]}, _Stack) ->
+ is_integer(X);
+is_instance(X, Mod, {type,_,list,[Type]}, _Stack) ->
+ list_test(X, Mod, Type, dummy, true, true, false);
+is_instance(X, Mod, {type,_,maybe_improper_list,[Cont,Term]}, _Stack) ->
+ list_test(X, Mod, Cont, Term, true, true, true);
+is_instance(X, _Mod, {type,_,module,[]}, _Stack) ->
+ is_atom(X) orelse
+ is_tuple(X) andalso X =/= {} andalso is_atom(element(1,X));
+is_instance([], _Mod, {type,_,nil,[]}, _Stack) ->
+ true;
+is_instance(X, _Mod, {type,_,neg_integer,[]}, _Stack) ->
+ is_integer(X) andalso X < 0;
+is_instance(X, _Mod, {type,_,non_neg_integer,[]}, _Stack) ->
+ is_integer(X) andalso X >= 0;
+is_instance(X, Mod, {type,_,nonempty_list,[Type]}, _Stack) ->
+ list_test(X, Mod, Type, dummy, false, true, false);
+is_instance(X, Mod, {type,_,nonempty_improper_list,[Cont,Term]}, _Stack) ->
+ list_test(X, Mod, Cont, Term, false, false, true);
+is_instance(X, Mod, {type,_,nonempty_maybe_improper_list,[Cont,Term]},
+ _Stack) ->
+ list_test(X, Mod, Cont, Term, false, true, true);
+is_instance(X, _Mod, {type,_,number,[]}, _Stack) ->
+ is_number(X);
+is_instance(X, _Mod, {type,_,pid,[]}, _Stack) ->
+ is_pid(X);
+is_instance(X, _Mod, {type,_,port,[]}, _Stack) ->
+ is_port(X);
+is_instance(X, _Mod, {type,_,pos_integer,[]}, _Stack) ->
+ is_integer(X) andalso X > 0;
+is_instance(_X, _Mod, {type,_,product,_Elements}, _Stack) ->
+ throw({'$typeserver',{internal,product_in_is_instance}});
+is_instance(X, _Mod, {type,_,range,[LowExpr,HighExpr]}, _Stack) ->
+ case {eval_int(LowExpr),eval_int(HighExpr)} of
+ {{ok,Low},{ok,High}} when Low =< High ->
+ X >= Low andalso X =< High;
+ _ ->
+ abs_expr_error(invalid_range, LowExpr, HighExpr)
+ end;
+is_instance(X, Mod, {type,_,record,[{atom,_,Name} = NameForm | RawSubsts]},
+ Stack) ->
+ Substs = [{N,T} || {type,_,field_type,[{atom,_,N},T]} <- RawSubsts],
+ SubstsDict = dict:from_list(Substs),
+ case get_type_repr(Mod, {record,Name,0}, false) of
+ {ok,{abs_record,OrigFields}} ->
+ Fields = [case dict:find(FieldName, SubstsDict) of
+ {ok,NewFieldType} -> NewFieldType;
+ error -> OrigFieldType
+ end
+ || {FieldName,OrigFieldType} <- OrigFields],
+ is_instance(X, Mod, {type,?anno(0),tuple,[NameForm|Fields]}, Stack);
+ {error,Reason} ->
+ throw({'$typeserver',Reason})
+ end;
+is_instance(X, _Mod, {type,_,reference,[]}, _Stack) ->
+ is_reference(X);
+is_instance(X, _Mod, {type,_,tuple,any}, _Stack) ->
+ is_tuple(X);
+is_instance(X, Mod, {type,_,tuple,Fields}, _Stack) ->
+ is_tuple(X) andalso tuple_test(tuple_to_list(X), Mod, Fields);
+is_instance(X, Mod, {type,_,union,Choices}, Stack) ->
+ IsInstance = fun(Choice) -> is_instance(X,Mod,Choice,Stack) end,
+ lists:any(IsInstance, Choices);
+is_instance(X, Mod, {T,_,Name,[]}, Stack) when ?IS_TYPE_TAG(T) ->
+ case orddict:find(Name, ?EQUIV_TYPES) of
+ {ok,EquivType} ->
+ is_instance(X, Mod, EquivType, Stack);
+ error ->
+ is_maybe_hard_adt(X, Mod, Name, [], Stack)
+ end;
+is_instance(X, Mod, {T,_,Name,ArgForms}, Stack) when ?IS_TYPE_TAG(T) ->
+ is_maybe_hard_adt(X, Mod, Name, ArgForms, Stack);
+is_instance(_X, _Mod, _Type, _Stack) ->
+ false.
+
+-spec is_int_const(term(), abs_expr()) -> boolean().
+is_int_const(X, Expr) ->
+ case eval_int(Expr) of
+ {ok,Int} ->
+ X =:= Int;
+ error ->
+ abs_expr_error(invalid_int_const, Expr)
+ end.
+
+%% TODO: We implicitly add the '| []' at the termination of maybe_improper_list.
+%% TODO: We ignore a '[]' termination in improper_list.
+-spec list_test(term(), mod_name(), abs_type(), 'dummy' | abs_type(), boolean(),
+ boolean(), boolean()) -> boolean().
+list_test(X, Mod, Content, Termination, CanEmpty, CanProper, CanImproper) ->
+ is_list(X) andalso
+ list_rec(X, Mod, Content, Termination, CanEmpty, CanProper, CanImproper).
+
+-spec list_rec(term(), mod_name(), abs_type(), 'dummy' | abs_type(), boolean(),
+ boolean(), boolean()) -> boolean().
+list_rec([], _Mod, _Content, _Termination, CanEmpty, CanProper, _CanImproper) ->
+ CanEmpty andalso CanProper;
+list_rec([X | Rest], Mod, Content, Termination, _CanEmpty, CanProper,
+ CanImproper) ->
+ is_instance(X, Mod, Content, []) andalso
+ list_rec(Rest, Mod, Content, Termination, true, CanProper, CanImproper);
+list_rec(X, Mod, _Content, Termination, _CanEmpty, _CanProper, CanImproper) ->
+ CanImproper andalso is_instance(X, Mod, Termination, []).
+
+-spec tuple_test([term()], mod_name(), [abs_type()]) -> boolean().
+tuple_test([], _Mod, []) ->
+ true;
+tuple_test([X | XTail], Mod, [T | TTail]) ->
+ is_instance(X, Mod, T, []) andalso tuple_test(XTail, Mod, TTail);
+tuple_test(_, _Mod, _) ->
+ false.
+
+-spec is_maybe_hard_adt(term(), mod_name(), type_name(), [abs_type()],
+ imm_stack()) -> boolean().
+is_maybe_hard_adt(X, Mod, Name, ArgForms, Stack) ->
+ case orddict:find({Name,length(ArgForms)}, ?HARD_ADTS) of
+ {ok,ADTMod} ->
+ is_custom_instance(X, Mod, ADTMod, Name, ArgForms, true, Stack);
+ error ->
+ is_custom_instance(X, Mod, Mod, Name, ArgForms, false, Stack)
+ end.
+
+-spec is_custom_instance(term(), mod_name(), mod_name(), type_name(),
+ [abs_type()], boolean(), imm_stack()) -> boolean().
+is_custom_instance(X, Mod, RemMod, Name, RawArgForms, IsRemote, Stack) ->
+ ArgForms = case Mod =/= RemMod of
+ true -> [{from_mod,Mod,A} || A <- RawArgForms];
+ false -> RawArgForms
+ end,
+ Arity = length(ArgForms),
+ FullTypeRef = {RemMod,Name,Arity},
+ case lists:member(FullTypeRef, Stack) of
+ true ->
+ throw({'$typeserver',{self_reference,FullTypeRef}});
+ false ->
+ TypeRef = {type,Name,Arity},
+ AbsType = get_abs_type(RemMod, TypeRef, ArgForms, IsRemote),
+ is_instance(X, RemMod, AbsType, [FullTypeRef|Stack])
+ end.
+
+-spec get_abs_type(mod_name(), type_ref(), [abs_type()], boolean()) ->
+ abs_type().
+get_abs_type(RemMod, TypeRef, ArgForms, IsRemote) ->
+ case get_type_repr(RemMod, TypeRef, IsRemote) of
+ {ok,TypeRepr} ->
+ {FinalAbsType,SymbInfo,VarNames} =
+ case TypeRepr of
+ {cached,_FinType,FAT,SI} -> {FAT,SI,[]};
+ {abs_type,FAT,VN,SI} -> {FAT,SI,VN}
+ end,
+ AbsType =
+ case SymbInfo of
+ not_symb -> FinalAbsType;
+ {orig_abs,OrigAbsType} -> OrigAbsType
+ end,
+ VarSubstsDict = dict:from_list(lists:zip(VarNames,ArgForms)),
+ update_vars(AbsType, VarSubstsDict, false);
+ {error,Reason} ->
+ throw({'$typeserver',Reason})
+ end.
+
+-spec abs_expr_error(atom(), abs_expr()) -> no_return().
+abs_expr_error(ImmReason, Expr) ->
+ {error,Reason} = expr_error(ImmReason, Expr),
+ throw({'$typeserver',Reason}).
+
+-spec abs_expr_error(atom(), abs_expr(), abs_expr()) -> no_return().
+abs_expr_error(ImmReason, Expr1, Expr2) ->
+ {error,Reason} = expr_error(ImmReason, Expr1, Expr2),
+ throw({'$typeserver',Reason}).
+
+
+%%------------------------------------------------------------------------------
+%% Type translation functions
+%%------------------------------------------------------------------------------
+
+-spec convert(mod_name(), abs_type(), state()) ->
+ rich_result2(fin_type(),state()).
+convert(Mod, TypeForm, State) ->
+ case convert(Mod, TypeForm, State, [], dict:new()) of
+ {ok,{simple,Type},NewState} ->
+ {ok, Type, NewState};
+ {ok,{rec,_RecFun,_RecArgs},_NewState} ->
+ {error, {internal,rec_returned_to_toplevel}};
+ {error,_Reason} = Error ->
+ Error
+ end.
+
+-spec convert(mod_name(), abs_type(), state(), stack(), var_dict()) ->
+ rich_result2(ret_type(),state()).
+convert(Mod, {paren_type,_,[Type]}, State, Stack, VarDict) ->
+ convert(Mod, Type, State, Stack, VarDict);
+convert(Mod, {ann_type,_,[_Var,Type]}, State, Stack, VarDict) ->
+ convert(Mod, Type, State, Stack, VarDict);
+convert(_Mod, {var,_,'_'}, State, _Stack, _VarDict) ->
+ {ok, {simple,proper_types:any()}, State};
+convert(_Mod, {var,_,VarName}, State, _Stack, VarDict) ->
+ case dict:find(VarName, VarDict) of
+ %% TODO: do we need to check if we are at toplevel of a recursive?
+ {ok,RetType} -> {ok, RetType, State};
+ error -> {error, {unbound_var,VarName}}
+ end;
+convert(Mod, {remote_type,_,[{atom,_,RemMod},{atom,_,Name},ArgForms]}, State,
+ Stack, VarDict) ->
+ case prepare_for_remote(RemMod, Name, length(ArgForms), State) of
+ {ok,NewState} ->
+ convert_custom(Mod,RemMod,Name,ArgForms,NewState,Stack,VarDict);
+ {error,_Reason} = Error ->
+ Error
+ end;
+convert(_Mod, {atom,_,Atom}, State, _Stack, _VarDict) ->
+ {ok, {simple,proper_types:exactly(Atom)}, State};
+convert(_Mod, {integer,_,_Int} = IntExpr, State, _Stack, _VarDict) ->
+ convert_integer(IntExpr, State);
+convert(_Mod, {op,_,_Op,_Arg} = OpExpr, State, _Stack, _VarDict) ->
+ convert_integer(OpExpr, State);
+convert(_Mod, {op,_,_Op,_Arg1,_Arg2} = OpExpr, State, _Stack, _VarDict) ->
+ convert_integer(OpExpr, State);
+convert(_Mod, {type,_,binary,[BaseExpr,UnitExpr]}, State, _Stack, _VarDict) ->
+ %% <<_:X,_:_*Y>> means "bitstrings of X + k*Y bits, k >= 0"
+ case eval_int(BaseExpr) of
+ {ok,0} ->
+ case eval_int(UnitExpr) of
+ {ok,0} -> {ok, {simple,proper_types:exactly(<<>>)}, State};
+ {ok,1} -> {ok, {simple,proper_types:bitstring()}, State};
+ {ok,8} -> {ok, {simple,proper_types:binary()}, State};
+ {ok,N} when N > 0 ->
+ Gen = ?LET(L, proper_types:list(proper_types:bitstring(N)),
+ concat_bitstrings(L)),
+ {ok, {simple,Gen}, State};
+ _ -> expr_error(invalid_unit, UnitExpr)
+ end;
+ {ok,Base} when Base > 0 ->
+ Head = proper_types:bitstring(Base),
+ case eval_int(UnitExpr) of
+ {ok,0} -> {ok, {simple,Head}, State};
+ {ok,1} ->
+ Tail = proper_types:bitstring(),
+ {ok, {simple,concat_binary_gens(Head, Tail)}, State};
+ {ok,8} ->
+ Tail = proper_types:binary(),
+ {ok, {simple,concat_binary_gens(Head, Tail)}, State};
+ {ok,N} when N > 0 ->
+ Tail =
+ ?LET(L, proper_types:list(proper_types:bitstring(N)),
+ concat_bitstrings(L)),
+ {ok, {simple,concat_binary_gens(Head, Tail)}, State};
+ _ -> expr_error(invalid_unit, UnitExpr)
+ end;
+ _ ->
+ expr_error(invalid_base, BaseExpr)
+ end;
+convert(_Mod, {type,_,range,[LowExpr,HighExpr]}, State, _Stack, _VarDict) ->
+ case {eval_int(LowExpr),eval_int(HighExpr)} of
+ {{ok,Low},{ok,High}} when Low =< High ->
+ {ok, {simple,proper_types:integer(Low,High)}, State};
+ _ ->
+ expr_error(invalid_range, LowExpr, HighExpr)
+ end;
+convert(_Mod, {type,_,nil,[]}, State, _Stack, _VarDict) ->
+ {ok, {simple,proper_types:exactly([])}, State};
+convert(Mod, {type,_,list,[ElemForm]}, State, Stack, VarDict) ->
+ convert_list(Mod, false, ElemForm, State, Stack, VarDict);
+convert(Mod, {type,_,nonempty_list,[ElemForm]}, State, Stack, VarDict) ->
+ convert_list(Mod, true, ElemForm, State, Stack, VarDict);
+convert(_Mod, {type,_,nonempty_list,[]}, State, _Stack, _VarDict) ->
+ {ok, {simple,proper_types:non_empty(proper_types:list())}, State};
+convert(_Mod, {type,_,nonempty_string,[]}, State, _Stack, _VarDict) ->
+ {ok, {simple,proper_types:non_empty(proper_types:string())}, State};
+convert(_Mod, {type,_,tuple,any}, State, _Stack, _VarDict) ->
+ {ok, {simple,proper_types:tuple()}, State};
+convert(Mod, {type,_,tuple,ElemForms}, State, Stack, VarDict) ->
+ convert_tuple(Mod, ElemForms, false, State, Stack, VarDict);
+convert(Mod, {type,_,'$fixed_list',ElemForms}, State, Stack, VarDict) ->
+ convert_tuple(Mod, ElemForms, true, State, Stack, VarDict);
+convert(Mod, {type,_,record,[{atom,_,Name}|FieldForms]}, State, Stack,
+ VarDict) ->
+ convert_record(Mod, Name, FieldForms, State, Stack, VarDict);
+convert(Mod, {type,_,union,ChoiceForms}, State, Stack, VarDict) ->
+ convert_union(Mod, ChoiceForms, State, Stack, VarDict);
+convert(Mod, {type,_,'fun',[{type,_,product,Domain},Range]}, State, Stack,
+ VarDict) ->
+ convert_fun(Mod, length(Domain), Range, State, Stack, VarDict);
+%% TODO: These types should be replaced with accurate types.
+%% TODO: Add support for nonempty_improper_list/2.
+convert(Mod, {type,Anno,maybe_improper_list,[]}, State, Stack, VarDict) ->
+ convert(Mod, {type,Anno,list,[]}, State, Stack, VarDict);
+convert(Mod, {type,A,maybe_improper_list,[Cont,_Ter]}, State, Stack, VarDict) ->
+ convert(Mod, {type,A,list,[Cont]}, State, Stack, VarDict);
+convert(Mod, {type,A,nonempty_maybe_improper_list,[]}, State, Stack, VarDict) ->
+ convert(Mod, {type,A,nonempty_list,[]}, State, Stack, VarDict);
+convert(Mod, {type,A,nonempty_maybe_improper_list,[Cont,_Term]}, State, Stack,
+ VarDict) ->
+ convert(Mod, {type,A,nonempty_list,[Cont]}, State, Stack, VarDict);
+convert(Mod, {type,A,iodata,[]}, State, Stack, VarDict) ->
+ RealType = {type,A,union,[{type,A,binary,[]},{type,A,iolist,[]}]},
+ convert(Mod, RealType, State, Stack, VarDict);
+convert(Mod, {T,_,Name,[]}, State, Stack, VarDict) when ?IS_TYPE_TAG(T) ->
+ case ordsets:is_element(Name, ?STD_TYPES_0) of
+ true ->
+ {ok, {simple,proper_types:Name()}, State};
+ false ->
+ convert_maybe_hard_adt(Mod, Name, [], State, Stack, VarDict)
+ end;
+convert(Mod, {T,_,Name,ArgForms}, State, Stack, VarDict) when ?IS_TYPE_TAG(T) ->
+ convert_maybe_hard_adt(Mod, Name, ArgForms, State, Stack, VarDict);
+convert(_Mod, TypeForm, _State, _Stack, _VarDict) ->
+ {error, {unsupported_type,TypeForm}}.
+
+-spec concat_bitstrings([bitstring()]) -> bitstring().
+concat_bitstrings(BitStrings) ->
+ concat_bitstrings_tr(BitStrings, <<>>).
+
+-spec concat_bitstrings_tr([bitstring()], bitstring()) -> bitstring().
+concat_bitstrings_tr([], Acc) ->
+ Acc;
+concat_bitstrings_tr([BitString | Rest], Acc) ->
+ concat_bitstrings_tr(Rest, <<Acc/bits,BitString/bits>>).
+
+-spec concat_binary_gens(fin_type(), fin_type()) -> fin_type().
+concat_binary_gens(HeadType, TailType) ->
+ ?LET({H,T}, {HeadType,TailType}, <<H/bits,T/bits>>).
+
+-spec convert_fun(mod_name(), arity(), abs_type(), state(), stack(),
+ var_dict()) -> rich_result2(ret_type(),state()).
+convert_fun(Mod, Arity, Range, State, Stack, VarDict) ->
+ case convert(Mod, Range, State, ['fun' | Stack], VarDict) of
+ {ok,{simple,RangeType},NewState} ->
+ {ok, {simple,proper_types:function(Arity,RangeType)}, NewState};
+ {ok,{rec,RecFun,RecArgs},NewState} ->
+ case at_toplevel(RecArgs, Stack) of
+ true -> base_case_error(Stack);
+ false -> convert_rec_fun(Arity, RecFun, RecArgs, NewState)
+ end;
+ {error,_Reason} = Error ->
+ Error
+ end.
+
+-spec convert_rec_fun(arity(), rec_fun(), rec_args(), state()) ->
+ {'ok',ret_type(),state()}.
+convert_rec_fun(Arity, RecFun, RecArgs, State) ->
+ %% We bind the generated value by size.
+ NewRecFun =
+ fun(GenFuns,Size) ->
+ proper_types:function(Arity, RecFun(GenFuns,Size))
+ end,
+ NewRecArgs = clean_rec_args(RecArgs),
+ {ok, {rec,NewRecFun,NewRecArgs}, State}.
+
+-spec convert_list(mod_name(), boolean(), abs_type(), state(), stack(),
+ var_dict()) -> rich_result2(ret_type(),state()).
+convert_list(Mod, NonEmpty, ElemForm, State, Stack, VarDict) ->
+ case convert(Mod, ElemForm, State, [list | Stack], VarDict) of
+ {ok,{simple,ElemType},NewState} ->
+ InnerType = proper_types:list(ElemType),
+ FinType = case NonEmpty of
+ true -> proper_types:non_empty(InnerType);
+ false -> InnerType
+ end,
+ {ok, {simple,FinType}, NewState};
+ {ok,{rec,RecFun,RecArgs},NewState} ->
+ case {at_toplevel(RecArgs,Stack), NonEmpty} of
+ {true,true} ->
+ base_case_error(Stack);
+ {true,false} ->
+ NewRecFun =
+ fun(GenFuns,Size) ->
+ ElemGen = fun(S) -> ?LAZY(RecFun(GenFuns,S)) end,
+ proper_types:distlist(Size, ElemGen, false)
+ end,
+ NewRecArgs = clean_rec_args(RecArgs),
+ {ok, {rec,NewRecFun,NewRecArgs}, NewState};
+ {false,_} ->
+ {NewRecFun,NewRecArgs} =
+ convert_rec_list(RecFun, RecArgs, NonEmpty),
+ {ok, {rec,NewRecFun,NewRecArgs}, NewState}
+ end;
+ {error,_Reason} = Error ->
+ Error
+ end.
+
+-spec convert_rec_list(rec_fun(), rec_args(), boolean()) ->
+ {rec_fun(),rec_args()}.
+convert_rec_list(RecFun, [{true,FullTypeRef}] = RecArgs, NonEmpty) ->
+ {NewRecFun,_NormalRecArgs} =
+ convert_normal_rec_list(RecFun, RecArgs, NonEmpty),
+ AltRecFun =
+ fun([InstListGen],Size) ->
+ InstTypesList =
+ proper_types:get_prop(internal_types, InstListGen(Size)),
+ proper_types:fixed_list([RecFun([fun(_Size) -> I end],0)
+ || I <- InstTypesList])
+ end,
+ NewRecArgs = [{{list,NonEmpty,AltRecFun},FullTypeRef}],
+ {NewRecFun, NewRecArgs};
+convert_rec_list(RecFun, RecArgs, NonEmpty) ->
+ convert_normal_rec_list(RecFun, RecArgs, NonEmpty).
+
+-spec convert_normal_rec_list(rec_fun(), rec_args(), boolean()) ->
+ {rec_fun(),rec_args()}.
+convert_normal_rec_list(RecFun, RecArgs, NonEmpty) ->
+ NewRecFun = fun(GenFuns,Size) ->
+ ElemGen = fun(S) -> RecFun(GenFuns, S) end,
+ proper_types:distlist(Size, ElemGen, NonEmpty)
+ end,
+ NewRecArgs = clean_rec_args(RecArgs),
+ {NewRecFun, NewRecArgs}.
+
+-spec convert_tuple(mod_name(), [abs_type()], boolean(), state(), stack(),
+ var_dict()) -> rich_result2(ret_type(),state()).
+convert_tuple(Mod, ElemForms, ToList, State, Stack, VarDict) ->
+ case process_list(Mod, ElemForms, State, [tuple | Stack], VarDict) of
+ {ok,RetTypes,NewState} ->
+ case combine_ret_types(RetTypes, {tuple,ToList}) of
+ {simple,_FinType} = RetType ->
+ {ok, RetType, NewState};
+ {rec,_RecFun,RecArgs} = RetType ->
+ case at_toplevel(RecArgs, Stack) of
+ true -> base_case_error(Stack);
+ false -> {ok, RetType, NewState}
+ end
+ end;
+ {error,_Reason} = Error ->
+ Error
+ end.
+
+-spec convert_union(mod_name(), [abs_type()], state(), stack(), var_dict()) ->
+ rich_result2(ret_type(),state()).
+convert_union(Mod, ChoiceForms, State, Stack, VarDict) ->
+ case process_list(Mod, ChoiceForms, State, [union | Stack], VarDict) of
+ {ok,RawChoices,NewState} ->
+ ProcessChoice = fun(T,A) -> process_choice(T,A,Stack) end,
+ {RevSelfRecs,RevNonSelfRecs,RevNonRecs} =
+ lists:foldl(ProcessChoice, {[],[],[]}, RawChoices),
+ case {lists:reverse(RevSelfRecs),lists:reverse(RevNonSelfRecs),
+ lists:reverse(RevNonRecs)} of
+ {_SelfRecs,[],[]} ->
+ base_case_error(Stack);
+ {[],NonSelfRecs,NonRecs} ->
+ {ok, combine_ret_types(NonRecs ++ NonSelfRecs, union),
+ NewState};
+ {SelfRecs,NonSelfRecs,NonRecs} ->
+ {BCaseRecFun,BCaseRecArgs} =
+ case combine_ret_types(NonRecs ++ NonSelfRecs, union) of
+ {simple,BCaseType} ->
+ {fun([],_Size) -> BCaseType end,[]};
+ {rec,BCRecFun,BCRecArgs} ->
+ {BCRecFun,BCRecArgs}
+ end,
+ NumBCaseGens = length(BCaseRecArgs),
+ [ParentRef | _Upper] = Stack,
+ FallbackRecFun = fun([SelfGen],_Size) -> SelfGen(0) end,
+ FallbackRecArgs = [{false,ParentRef}],
+ FallbackRetType = {rec,FallbackRecFun,FallbackRecArgs},
+ {rec,RCaseRecFun,RCaseRecArgs} =
+ combine_ret_types([FallbackRetType] ++ SelfRecs
+ ++ NonSelfRecs, wunion),
+ NewRecFun =
+ fun(AllGens,Size) ->
+ {BCaseGens,RCaseGens} =
+ lists:split(NumBCaseGens, AllGens),
+ case Size of
+ 0 -> BCaseRecFun(BCaseGens,0);
+ _ -> RCaseRecFun(RCaseGens,Size)
+ end
+ end,
+ NewRecArgs = BCaseRecArgs ++ RCaseRecArgs,
+ {ok, {rec,NewRecFun,NewRecArgs}, NewState}
+ end;
+ {error,_Reason} = Error ->
+ Error
+ end.
+
+-spec process_choice(ret_type(), {[ret_type()],[ret_type()],[ret_type()]},
+ stack()) -> {[ret_type()],[ret_type()],[ret_type()]}.
+process_choice({simple,_} = RetType, {SelfRecs,NonSelfRecs,NonRecs}, _Stack) ->
+ {SelfRecs, NonSelfRecs, [RetType | NonRecs]};
+process_choice({rec,RecFun,RecArgs}, {SelfRecs,NonSelfRecs,NonRecs}, Stack) ->
+ case at_toplevel(RecArgs, Stack) of
+ true ->
+ case partition_by_toplevel(RecArgs, Stack, true) of
+ {[],[],_,_} ->
+ NewRecArgs = clean_rec_args(RecArgs),
+ {[{rec,RecFun,NewRecArgs} | SelfRecs], NonSelfRecs,
+ NonRecs};
+ {SelfRecArgs,SelfPos,OtherRecArgs,_OtherPos} ->
+ NumInstances = length(SelfRecArgs),
+ IsListInst = fun({true,_FTRef}) -> false
+ ; ({{list,_NE,_AltRecFun},_FTRef}) -> true
+ end,
+ NewRecFun =
+ case proper_arith:filter(IsListInst,SelfRecArgs) of
+ {[],[]} ->
+ no_list_inst_rec_fun(RecFun,NumInstances,
+ SelfPos);
+ {[{{list,NonEmpty,AltRecFun},_}],[ListInstPos]} ->
+ list_inst_rec_fun(AltRecFun,NumInstances,
+ SelfPos,NonEmpty,ListInstPos)
+ end,
+ [{_B,SelfRef} | _] = SelfRecArgs,
+ NewRecArgs =
+ [{false,SelfRef} | clean_rec_args(OtherRecArgs)],
+ {[{rec,NewRecFun,NewRecArgs} | SelfRecs], NonSelfRecs,
+ NonRecs}
+ end;
+ false ->
+ NewRecArgs = clean_rec_args(RecArgs),
+ {SelfRecs, [{rec,RecFun,NewRecArgs} | NonSelfRecs], NonRecs}
+ end.
+
+-spec no_list_inst_rec_fun(rec_fun(), pos_integer(), [position()]) -> rec_fun().
+no_list_inst_rec_fun(RecFun, NumInstances, SelfPos) ->
+ fun([SelfGen|OtherGens], Size) ->
+ ?LETSHRINK(
+ Instances,
+ %% Size distribution will be a little off if both normal and
+ %% instance-accepting generators are present.
+ lists:duplicate(NumInstances, SelfGen(Size div NumInstances)),
+ begin
+ InstGens = [fun(_Size) -> proper_types:exactly(I) end
+ || I <- Instances],
+ AllGens = proper_arith:insert(InstGens, SelfPos, OtherGens),
+ RecFun(AllGens, Size)
+ end)
+ end.
+
+-spec list_inst_rec_fun(rec_fun(), pos_integer(), [position()], boolean(),
+ position()) -> rec_fun().
+list_inst_rec_fun(AltRecFun, NumInstances, SelfPos, NonEmpty, ListInstPos) ->
+ fun([SelfGen|OtherGens], Size) ->
+ ?LETSHRINK(
+ AllInsts,
+ lists:duplicate(NumInstances - 1, SelfGen(Size div NumInstances))
+ ++ proper_types:distlist(Size div NumInstances, SelfGen, NonEmpty),
+ begin
+ {Instances,InstList} = lists:split(NumInstances - 1, AllInsts),
+ InstGens = [fun(_Size) -> proper_types:exactly(I) end
+ || I <- Instances],
+ InstTypesList = [proper_types:exactly(I) || I <- InstList],
+ InstListGen =
+ fun(_Size) -> proper_types:fixed_list(InstTypesList) end,
+ AllInstGens = proper_arith:list_insert(ListInstPos, InstListGen,
+ InstGens),
+ AllGens = proper_arith:insert(AllInstGens, SelfPos, OtherGens),
+ AltRecFun(AllGens, Size)
+ end)
+ end.
+
+-spec convert_maybe_hard_adt(mod_name(), type_name(), [abs_type()], state(),
+ stack(), var_dict()) ->
+ rich_result2(ret_type(),state()).
+convert_maybe_hard_adt(Mod, Name, ArgForms, State, Stack, VarDict) ->
+ Arity = length(ArgForms),
+ case orddict:find({Name,Arity}, ?HARD_ADTS) of
+ {ok,Mod} ->
+ convert_custom(Mod, Mod, Name, ArgForms, State, Stack, VarDict);
+ {ok,ADTMod} ->
+ A = ?anno(0),
+ ADT = {remote_type,A,[{atom,A,ADTMod},{atom,A,Name},ArgForms]},
+ convert(Mod, ADT, State, Stack, VarDict);
+ error ->
+ convert_custom(Mod, Mod, Name, ArgForms, State, Stack, VarDict)
+ end.
+
+-spec convert_custom(mod_name(), mod_name(), type_name(), [abs_type()], state(),
+ stack(), var_dict()) -> rich_result2(ret_type(),state()).
+convert_custom(Mod, RemMod, Name, ArgForms, State, Stack, VarDict) ->
+ case process_list(Mod, ArgForms, State, Stack, VarDict) of
+ {ok,Args,NewState} ->
+ Arity = length(Args),
+ TypeRef = {type,Name,Arity},
+ FullTypeRef = {RemMod,type,Name,Args},
+ convert_type(TypeRef, FullTypeRef, NewState, Stack);
+ {error,_Reason} = Error ->
+ Error
+ end.
+
+-spec convert_record(mod_name(), type_name(), [abs_type()], state(), stack(),
+ var_dict()) -> rich_result2(ret_type(),state()).
+convert_record(Mod, Name, RawSubsts, State, Stack, VarDict) ->
+ Substs = [{N,T} || {type,_,field_type,[{atom,_,N},T]} <- RawSubsts],
+ {SubstFields,SubstTypeForms} = lists:unzip(Substs),
+ case process_list(Mod, SubstTypeForms, State, Stack, VarDict) of
+ {ok,SubstTypes,NewState} ->
+ SubstsDict = dict:from_list(lists:zip(SubstFields, SubstTypes)),
+ TypeRef = {record,Name,0},
+ FullTypeRef = {Mod,record,Name,SubstsDict},
+ convert_type(TypeRef, FullTypeRef, NewState, Stack);
+ {error,_Reason} = Error ->
+ Error
+ end.
+
+-spec convert_type(type_ref(), full_type_ref(), state(), stack()) ->
+ rich_result2(ret_type(),state()).
+convert_type(TypeRef, {Mod,_Kind,_Name,_Spec} = FullTypeRef, State, Stack) ->
+ case stack_position(FullTypeRef, Stack) of
+ none ->
+ case get_type_repr(Mod, TypeRef, false, State) of
+ {ok,TypeRepr,NewState} ->
+ convert_new_type(TypeRef, FullTypeRef, TypeRepr, NewState,
+ Stack);
+ {error,_Reason} = Error ->
+ Error
+ end;
+ 1 ->
+ base_case_error(Stack);
+ _Pos ->
+ {ok, {rec,fun([Gen],Size) -> Gen(Size) end,[{true,FullTypeRef}]},
+ State}
+ end.
+
+-spec convert_new_type(type_ref(), full_type_ref(), type_repr(), state(),
+ stack()) -> rich_result2(ret_type(),state()).
+convert_new_type(_TypeRef, {_Mod,type,_Name,[]},
+ {cached,FinType,_TypeForm,_SymbInfo}, State, _Stack) ->
+ {ok, {simple,FinType}, State};
+convert_new_type(TypeRef, {Mod,type,_Name,Args} = FullTypeRef,
+ {abs_type,TypeForm,Vars,SymbInfo}, State, Stack) ->
+ VarDict = dict:from_list(lists:zip(Vars, Args)),
+ case convert(Mod, TypeForm, State, [FullTypeRef | Stack], VarDict) of
+ {ok, {simple,ImmFinType}, NewState} ->
+ FinType = case SymbInfo of
+ not_symb ->
+ ImmFinType;
+ {orig_abs,_OrigAbsType} ->
+ proper_symb:internal_well_defined(ImmFinType)
+ end,
+ FinalState = case Vars of
+ [] -> cache_type(Mod, TypeRef, FinType, TypeForm,
+ SymbInfo, NewState);
+ _ -> NewState
+ end,
+ {ok, {simple,FinType}, FinalState};
+ {ok, {rec,RecFun,RecArgs}, NewState} ->
+ convert_maybe_rec(FullTypeRef, SymbInfo, RecFun, RecArgs, NewState,
+ Stack);
+ {error,_Reason} = Error ->
+ Error
+ end;
+convert_new_type(_TypeRef, {Mod,record,Name,SubstsDict} = FullTypeRef,
+ {abs_record,OrigFields}, State, Stack) ->
+ Fields = [case dict:find(FieldName, SubstsDict) of
+ {ok,NewFieldType} -> NewFieldType;
+ error -> OrigFieldType
+ end
+ || {FieldName,OrigFieldType} <- OrigFields],
+ case convert_tuple(Mod, [{atom,0,Name} | Fields], false, State,
+ [FullTypeRef | Stack], dict:new()) of
+ {ok, {simple,_FinType}, _NewState} = Result ->
+ Result;
+ {ok, {rec,RecFun,RecArgs}, NewState} ->
+ convert_maybe_rec(FullTypeRef, not_symb, RecFun, RecArgs, NewState,
+ Stack);
+ {error,_Reason} = Error ->
+ Error
+ end.
+
+-spec cache_type(mod_name(), type_ref(), fin_type(), abs_type(), symb_info(),
+ state()) -> state().
+cache_type(Mod, TypeRef, FinType, TypeForm, SymbInfo,
+ #state{types = Types} = State) ->
+ TypeRepr = {cached,FinType,TypeForm,SymbInfo},
+ ModTypes = dict:fetch(Mod, Types),
+ NewModTypes = dict:store(TypeRef, TypeRepr, ModTypes),
+ NewTypes = dict:store(Mod, NewModTypes, Types),
+ State#state{types = NewTypes}.
+
+-spec convert_maybe_rec(full_type_ref(), symb_info(), rec_fun(), rec_args(),
+ state(), stack()) -> rich_result2(ret_type(),state()).
+convert_maybe_rec(FullTypeRef, SymbInfo, RecFun, RecArgs, State, Stack) ->
+ case at_toplevel(RecArgs, Stack) of
+ true -> base_case_error(Stack);
+ false -> safe_convert_maybe_rec(FullTypeRef, SymbInfo, RecFun, RecArgs,
+ State)
+ end.
+
+-spec safe_convert_maybe_rec(full_type_ref(),symb_info(),rec_fun(),rec_args(),
+ state()) -> rich_result2(ret_type(),state()).
+safe_convert_maybe_rec(FullTypeRef, SymbInfo, RecFun, RecArgs, State) ->
+ case partition_rec_args(FullTypeRef, RecArgs, false) of
+ {[],[],_,_} ->
+ {ok, {rec,RecFun,RecArgs}, State};
+ {MyRecArgs,MyPos,OtherRecArgs,_OtherPos} ->
+ case lists:all(fun({B,_T}) -> B =:= false end, MyRecArgs) of
+ true -> convert_rec_type(SymbInfo, RecFun, MyPos, OtherRecArgs,
+ State);
+ false -> {error, {internal,true_rec_arg_reached_type}}
+ end
+ end.
+
+-spec convert_rec_type(symb_info(), rec_fun(), [position()], rec_args(),
+ state()) -> {ok, ret_type(), state()}.
+convert_rec_type(SymbInfo, RecFun, MyPos, [], State) ->
+ NumRecArgs = length(MyPos),
+ M = fun(GenFun) ->
+ fun(Size) ->
+ GenFuns = lists:duplicate(NumRecArgs, GenFun),
+ RecFun(GenFuns, erlang:max(0,Size - 1))
+ end
+ end,
+ SizedGen = y(M),
+ ImmFinType = ?SIZED(Size,SizedGen(Size + 1)),
+ FinType = case SymbInfo of
+ not_symb ->
+ ImmFinType;
+ {orig_abs,_OrigAbsType} ->
+ proper_symb:internal_well_defined(ImmFinType)
+ end,
+ {ok, {simple,FinType}, State};
+convert_rec_type(_SymbInfo, RecFun, MyPos, OtherRecArgs, State) ->
+ NumRecArgs = length(MyPos),
+ NewRecFun =
+ fun(OtherGens,TopSize) ->
+ M = fun(GenFun) ->
+ fun(Size) ->
+ GenFuns = lists:duplicate(NumRecArgs, GenFun),
+ AllGens =
+ proper_arith:insert(GenFuns, MyPos, OtherGens),
+ RecFun(AllGens, erlang:max(0,Size - 1))
+ end
+ end,
+ (y(M))(TopSize)
+ end,
+ NewRecArgs = clean_rec_args(OtherRecArgs),
+ {ok, {rec,NewRecFun,NewRecArgs}, State}.
+
+%% Y Combinator: Read more at http://bc.tech.coop/blog/070611.html.
+-spec y(fun((fun((T) -> S)) -> fun((T) -> S))) -> fun((T) -> S).
+y(M) ->
+ G = fun(F) ->
+ M(fun(A) -> (F(F))(A) end)
+ end,
+ G(G).
+
+-spec process_list(mod_name(), [abs_type() | ret_type()], state(), stack(),
+ var_dict()) -> rich_result2([ret_type()],state()).
+process_list(Mod, RawTypes, State, Stack, VarDict) ->
+ Process = fun({simple,_FinType} = Type, {ok,Types,State1}) ->
+ {ok, [Type|Types], State1};
+ ({rec,_RecFun,_RecArgs} = Type, {ok,Types,State1}) ->
+ {ok, [Type|Types], State1};
+ (TypeForm, {ok,Types,State1}) ->
+ case convert(Mod, TypeForm, State1, Stack, VarDict) of
+ {ok,Type,State2} -> {ok,[Type|Types],State2};
+ {error,_} = Err -> Err
+ end;
+ (_RawType, {error,_} = Err) ->
+ Err
+ end,
+ case lists:foldl(Process, {ok,[],State}, RawTypes) of
+ {ok,RevTypes,NewState} ->
+ {ok, lists:reverse(RevTypes), NewState};
+ {error,_Reason} = Error ->
+ Error
+ end.
+
+-spec convert_integer(abs_expr(), state()) -> rich_result2(ret_type(),state()).
+convert_integer(Expr, State) ->
+ case eval_int(Expr) of
+ {ok,Int} -> {ok, {simple,proper_types:exactly(Int)}, State};
+ error -> expr_error(invalid_int_const, Expr)
+ end.
+
+-spec eval_int(abs_expr()) -> tagged_result(integer()).
+eval_int(Expr) ->
+ NoBindings = erl_eval:new_bindings(),
+ try erl_eval:expr(Expr, NoBindings) of
+ {value,Value,_NewBindings} when is_integer(Value) ->
+ {ok, Value};
+ _ ->
+ error
+ catch
+ error:_ ->
+ error
+ end.
+
+-spec expr_error(atom(), abs_expr()) -> {'error',term()}.
+expr_error(Reason, Expr) ->
+ {error, {Reason,lists:flatten(erl_pp:expr(Expr))}}.
+
+-spec expr_error(atom(), abs_expr(), abs_expr()) -> {'error',term()}.
+expr_error(Reason, Expr1, Expr2) ->
+ Str1 = lists:flatten(erl_pp:expr(Expr1)),
+ Str2 = lists:flatten(erl_pp:expr(Expr2)),
+ {error, {Reason,Str1,Str2}}.
+
+-spec base_case_error(stack()) -> {'error',term()}.
+%% TODO: This might confuse, since it doesn't record the arguments to parametric
+%% types or the type subsitutions of a record.
+base_case_error([{Mod,type,Name,Args} | _Upper]) ->
+ Arity = length(Args),
+ {error, {no_base_case,{Mod,type,Name,Arity}}};
+base_case_error([{Mod,record,Name,_SubstsDict} | _Upper]) ->
+ {error, {no_base_case,{Mod,record,Name}}}.
+
+
+%%------------------------------------------------------------------------------
+%% Helper datatypes handling functions
+%%------------------------------------------------------------------------------
+
+-spec stack_position(full_type_ref(), stack()) -> 'none' | pos_integer().
+stack_position(FullTypeRef, Stack) ->
+ SameType = fun(A) -> same_full_type_ref(A,FullTypeRef) end,
+ case proper_arith:find_first(SameType, Stack) of
+ {Pos,_} -> Pos;
+ none -> none
+ end.
+
+-spec partition_by_toplevel(rec_args(), stack(), boolean()) ->
+ {rec_args(),[position()],rec_args(),[position()]}.
+partition_by_toplevel(RecArgs, [], _OnlyInstanceAccepting) ->
+ {[],[],RecArgs,lists:seq(1,length(RecArgs))};
+partition_by_toplevel(RecArgs, [_Parent | _Upper], _OnlyInstanceAccepting)
+ when is_atom(_Parent) ->
+ {[],[],RecArgs,lists:seq(1,length(RecArgs))};
+partition_by_toplevel(RecArgs, [Parent | _Upper], OnlyInstanceAccepting) ->
+ partition_rec_args(Parent, RecArgs, OnlyInstanceAccepting).
+
+-spec at_toplevel(rec_args(), stack()) -> boolean().
+at_toplevel(RecArgs, Stack) ->
+ case partition_by_toplevel(RecArgs, Stack, false) of
+ {[],[],_,_} -> false;
+ _ -> true
+ end.
+
+-spec partition_rec_args(full_type_ref(), rec_args(), boolean()) ->
+ {rec_args(),[position()],rec_args(),[position()]}.
+partition_rec_args(FullTypeRef, RecArgs, OnlyInstanceAccepting) ->
+ SameType =
+ case OnlyInstanceAccepting of
+ true -> fun({false,_T}) -> false
+ ; ({_B,T}) -> same_full_type_ref(T,FullTypeRef) end;
+ false -> fun({_B,T}) -> same_full_type_ref(T,FullTypeRef) end
+ end,
+ proper_arith:partition(SameType, RecArgs).
+
+%% Tuples can be of 0 arity, unions of 1 and wunions at least of 2.
+-spec combine_ret_types([ret_type()], {'tuple',boolean()} | 'union'
+ | 'wunion') -> ret_type().
+combine_ret_types(RetTypes, EnclosingType) ->
+ case lists:all(fun is_simple_ret_type/1, RetTypes) of
+ true ->
+ %% This should never happen for wunion.
+ Combine = case EnclosingType of
+ {tuple,false} -> fun proper_types:tuple/1;
+ {tuple,true} -> fun proper_types:fixed_list/1;
+ union -> fun proper_types:union/1
+ end,
+ FinTypes = [T || {simple,T} <- RetTypes],
+ {simple, Combine(FinTypes)};
+ false ->
+ NumTypes = length(RetTypes),
+ {RevRecFuns,RevRecArgsList,NumRecs} =
+ lists:foldl(fun add_ret_type/2, {[],[],0}, RetTypes),
+ RecFuns = lists:reverse(RevRecFuns),
+ RecArgsList = lists:reverse(RevRecArgsList),
+ RecArgLens = [length(RecArgs) || RecArgs <- RecArgsList],
+ RecFunInfo = {NumTypes,NumRecs,RecArgLens,RecFuns},
+ FlatRecArgs = lists:flatten(RecArgsList),
+ {NewRecFun,NewRecArgs} =
+ case EnclosingType of
+ {tuple,ToList} ->
+ {tuple_rec_fun(RecFunInfo,ToList),
+ soft_clean_rec_args(FlatRecArgs,RecFunInfo,ToList)};
+ union ->
+ {union_rec_fun(RecFunInfo),clean_rec_args(FlatRecArgs)};
+ wunion ->
+ {wunion_rec_fun(RecFunInfo),
+ clean_rec_args(FlatRecArgs)}
+ end,
+ {rec, NewRecFun, NewRecArgs}
+ end.
+
+-spec tuple_rec_fun(rec_fun_info(), boolean()) -> rec_fun().
+tuple_rec_fun({_NumTypes,NumRecs,RecArgLens,RecFuns}, ToList) ->
+ Combine = case ToList of
+ true -> fun proper_types:fixed_list/1;
+ false -> fun proper_types:tuple/1
+ end,
+ fun(AllGFs,TopSize) ->
+ Size = TopSize div NumRecs,
+ GFsList = proper_arith:unflatten(AllGFs, RecArgLens),
+ ArgsList = [[GenFuns,Size] || GenFuns <- GFsList],
+ ZipFun = fun erlang:apply/2,
+ Combine(lists:zipwith(ZipFun, RecFuns, ArgsList))
+ end.
+
+-spec union_rec_fun(rec_fun_info()) -> rec_fun().
+union_rec_fun({_NumTypes,_NumRecs,RecArgLens,RecFuns}) ->
+ fun(AllGFs,Size) ->
+ GFsList = proper_arith:unflatten(AllGFs, RecArgLens),
+ ArgsList = [[GenFuns,Size] || GenFuns <- GFsList],
+ ZipFun = fun(F,A) -> ?LAZY(apply(F,A)) end,
+ proper_types:union(lists:zipwith(ZipFun, RecFuns, ArgsList))
+ end.
+
+-spec wunion_rec_fun(rec_fun_info()) -> rec_fun().
+wunion_rec_fun({NumTypes,_NumRecs,RecArgLens,RecFuns}) ->
+ fun(AllGFs,Size) ->
+ GFsList = proper_arith:unflatten(AllGFs, RecArgLens),
+ ArgsList = [[GenFuns,Size] || GenFuns <- GFsList],
+ ZipFun = fun(W,F,A) -> {W,?LAZY(apply(F,A))} end,
+ RecWeight = erlang:max(1, Size div (NumTypes - 1)),
+ Weights = [1 | lists:duplicate(NumTypes - 1, RecWeight)],
+ WeightedChoices = lists:zipwith3(ZipFun, Weights, RecFuns, ArgsList),
+ proper_types:wunion(WeightedChoices)
+ end.
+
+-spec add_ret_type(ret_type(), {[rec_fun()],[rec_args()],non_neg_integer()}) ->
+ {[rec_fun()],[rec_args()],non_neg_integer()}.
+add_ret_type({simple,FinType}, {RecFuns,RecArgsList,NumRecs}) ->
+ {[fun([],_) -> FinType end | RecFuns], [[] | RecArgsList], NumRecs};
+add_ret_type({rec,RecFun,RecArgs}, {RecFuns,RecArgsList,NumRecs}) ->
+ {[RecFun | RecFuns], [RecArgs | RecArgsList], NumRecs + 1}.
+
+-spec is_simple_ret_type(ret_type()) -> boolean().
+is_simple_ret_type({simple,_FinType}) ->
+ true;
+is_simple_ret_type({rec,_RecFun,_RecArgs}) ->
+ false.
+
+-spec clean_rec_args(rec_args()) -> rec_args().
+clean_rec_args(RecArgs) ->
+ [{false,F} || {_B,F} <- RecArgs].
+
+-spec soft_clean_rec_args(rec_args(), rec_fun_info(), boolean()) -> rec_args().
+soft_clean_rec_args(RecArgs, RecFunInfo, ToList) ->
+ soft_clean_rec_args_tr(RecArgs, [], RecFunInfo, ToList, false, 1).
+
+-spec soft_clean_rec_args_tr(rec_args(), rec_args(), rec_fun_info(), boolean(),
+ boolean(), position()) -> rec_args().
+soft_clean_rec_args_tr([], Acc, _RecFunInfo, _ToList, _FoundListInst, _Pos) ->
+ lists:reverse(Acc);
+soft_clean_rec_args_tr([{{list,_NonEmpty,_AltRecFun},FTRef} | Rest], Acc,
+ RecFunInfo, ToList, true, Pos) ->
+ NewArg = {false,FTRef},
+ soft_clean_rec_args_tr(Rest, [NewArg|Acc], RecFunInfo, ToList, true, Pos+1);
+soft_clean_rec_args_tr([{{list,NonEmpty,AltRecFun},FTRef} | Rest], Acc,
+ RecFunInfo, ToList, false, Pos) ->
+ {NumTypes,NumRecs,RecArgLens,RecFuns} = RecFunInfo,
+ AltRecFunPos = get_group(Pos, RecArgLens),
+ AltRecFuns = proper_arith:list_update(AltRecFunPos, AltRecFun, RecFuns),
+ AltRecFunInfo = {NumTypes,NumRecs,RecArgLens,AltRecFuns},
+ NewArg = {{list,NonEmpty,tuple_rec_fun(AltRecFunInfo,ToList)},FTRef},
+ soft_clean_rec_args_tr(Rest, [NewArg|Acc], RecFunInfo, ToList, true, Pos+1);
+soft_clean_rec_args_tr([Arg | Rest], Acc, RecFunInfo, ToList, FoundListInst,
+ Pos) ->
+ soft_clean_rec_args_tr(Rest, [Arg | Acc], RecFunInfo, ToList, FoundListInst,
+ Pos+1).
+
+-spec get_group(pos_integer(), [non_neg_integer()]) -> pos_integer().
+get_group(Pos, AllMembers) ->
+ get_group_tr(Pos, AllMembers, 1).
+
+-spec get_group_tr(pos_integer(), [non_neg_integer()], pos_integer()) ->
+ pos_integer().
+get_group_tr(Pos, [Members | Rest], GroupNum) ->
+ case Pos =< Members of
+ true -> GroupNum;
+ false -> get_group_tr(Pos - Members, Rest, GroupNum + 1)
+ end.
+
+-spec same_full_type_ref(full_type_ref(), term()) -> boolean().
+same_full_type_ref({SameMod,type,SameName,Args1},
+ {SameMod,type,SameName,Args2}) ->
+ length(Args1) =:= length(Args2)
+ andalso lists:all(fun({A,B}) -> same_ret_type(A,B) end,
+ lists:zip(Args1, Args2));
+same_full_type_ref({SameMod,record,SameName,SubstsDict1},
+ {SameMod,record,SameName,SubstsDict2}) ->
+ same_substs_dict(SubstsDict1, SubstsDict2);
+same_full_type_ref(_, _) ->
+ false.
+
+-spec same_ret_type(ret_type(), ret_type()) -> boolean().
+same_ret_type({simple,FinType1}, {simple,FinType2}) ->
+ same_fin_type(FinType1, FinType2);
+same_ret_type({rec,RecFun1,RecArgs1}, {rec,RecFun2,RecArgs2}) ->
+ NumRecArgs = length(RecArgs1),
+ length(RecArgs2) =:= NumRecArgs
+ andalso lists:all(fun({A1,A2}) -> same_rec_arg(A1,A2,NumRecArgs) end,
+ lists:zip(RecArgs1,RecArgs2))
+ andalso same_rec_fun(RecFun1, RecFun2, NumRecArgs);
+same_ret_type(_, _) ->
+ false.
+
+%% TODO: Is this too strict?
+-spec same_rec_arg(rec_arg(), rec_arg(), arity()) -> boolean().
+same_rec_arg({{list,SameBool,AltRecFun1},FTRef1},
+ {{list,SameBool,AltRecFun2},FTRef2}, NumRecArgs) ->
+ same_rec_fun(AltRecFun1, AltRecFun2, NumRecArgs)
+ andalso same_full_type_ref(FTRef1, FTRef2);
+same_rec_arg({true,FTRef1}, {true,FTRef2}, _NumRecArgs) ->
+ same_full_type_ref(FTRef1, FTRef2);
+same_rec_arg({false,FTRef1}, {false,FTRef2}, _NumRecArgs) ->
+ same_full_type_ref(FTRef1, FTRef2);
+same_rec_arg(_, _, _NumRecArgs) ->
+ false.
+
+-spec same_substs_dict(substs_dict(), substs_dict()) -> boolean().
+same_substs_dict(SubstsDict1, SubstsDict2) ->
+ SameKVPair = fun({{_K,V1},{_K,V2}}) -> same_ret_type(V1,V2);
+ (_) -> false
+ end,
+ SubstsKVList1 = lists:sort(dict:to_list(SubstsDict1)),
+ SubstsKVList2 = lists:sort(dict:to_list(SubstsDict2)),
+ length(SubstsKVList1) =:= length(SubstsKVList2)
+ andalso lists:all(SameKVPair, lists:zip(SubstsKVList1,SubstsKVList2)).
+
+-spec same_fin_type(fin_type(), fin_type()) -> boolean().
+same_fin_type(Type1, Type2) ->
+ proper_types:equal_types(Type1, Type2).
+
+-spec same_rec_fun(rec_fun(), rec_fun(), arity()) -> boolean().
+same_rec_fun(RecFun1, RecFun2, NumRecArgs) ->
+ %% It's ok that we return a type, even if there's a 'true' for use of
+ %% an instance.
+ GenFun = fun(_Size) -> proper_types:exactly('$dummy') end,
+ GenFuns = lists:duplicate(NumRecArgs,GenFun),
+ same_fin_type(RecFun1(GenFuns,0), RecFun2(GenFuns,0)).
diff --git a/lib/dialyzer/test/map_SUITE_data/dialyzer_options b/lib/dialyzer/test/map_SUITE_data/dialyzer_options
new file mode 100644
index 0000000000..50991c9bc5
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/dialyzer_options
@@ -0,0 +1 @@
+{dialyzer_options, []}.
diff --git a/lib/dialyzer/test/map_SUITE_data/results/bad_argument b/lib/dialyzer/test/map_SUITE_data/results/bad_argument
new file mode 100644
index 0000000000..af61a89638
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/results/bad_argument
@@ -0,0 +1,5 @@
+
+bad_argument.erl:14: Function t3/0 has no local return
+bad_argument.erl:15: Guard test is_map('not_a_map') can never succeed
+bad_argument.erl:5: Function t/0 has no local return
+bad_argument.erl:6: A key of type 'b' cannot exist in a map of type #{'a':='q'}
diff --git a/lib/dialyzer/test/map_SUITE_data/results/contract b/lib/dialyzer/test/map_SUITE_data/results/contract
new file mode 100644
index 0000000000..0f6e1d0c65
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/results/contract
@@ -0,0 +1,7 @@
+
+contract.erl:10: Function t2/0 has no local return
+contract.erl:10: The call missing:f(#{'a':=1, 'c':=4}) breaks the contract (#{'a':=1,'b'=>2,'c'=>3}) -> 'ok'
+contract.erl:12: Function t3/0 has no local return
+contract.erl:12: The call missing:f(#{'a':=1, 'b':=2, 'e':=3}) breaks the contract (#{'a':=1,'b'=>2,'c'=>3}) -> 'ok'
+contract.erl:8: Function t1/0 has no local return
+contract.erl:8: The call missing:f(#{'b':=2}) breaks the contract (#{'a':=1,'b'=>2,'c'=>3}) -> 'ok'
diff --git a/lib/dialyzer/test/map_SUITE_data/results/contract_violation b/lib/dialyzer/test/map_SUITE_data/results/contract_violation
new file mode 100644
index 0000000000..958321618f
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/results/contract_violation
@@ -0,0 +1,3 @@
+
+contract_violation.erl:12: The pattern #{I:=Loc} can never match the type #{}
+contract_violation.erl:16: Invalid type specification for function contract_violation:beam_disasm_lines/2. The success typing is ('none' | <<_:32,_:_*8>>,_) -> #{pos_integer()=>{'location',_,_}}
diff --git a/lib/dialyzer/test/map_SUITE_data/results/exact b/lib/dialyzer/test/map_SUITE_data/results/exact
new file mode 100644
index 0000000000..374ada8869
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/results/exact
@@ -0,0 +1,3 @@
+
+exact.erl:15: Function t2/1 has no local return
+exact.erl:19: The variable _ can never match since previous clauses completely covered the type #{'a':=_, ...}
diff --git a/lib/dialyzer/test/map_SUITE_data/results/guard_update b/lib/dialyzer/test/map_SUITE_data/results/guard_update
new file mode 100644
index 0000000000..e4bc892195
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/results/guard_update
@@ -0,0 +1,5 @@
+
+guard_update.erl:5: Function t/0 has no local return
+guard_update.erl:6: The call guard_update:f(#{'a':=2}) will never return since it differs in the 1st argument from the success typing arguments: (#{'b':=_, ...})
+guard_update.erl:8: Clause guard cannot succeed. The variable M was matched against the type #{'a':=2}
+guard_update.erl:8: Function f/1 has no local return
diff --git a/lib/dialyzer/test/map_SUITE_data/results/initial_dataflow b/lib/dialyzer/test/map_SUITE_data/results/initial_dataflow
new file mode 100644
index 0000000000..69144f9208
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/results/initial_dataflow
@@ -0,0 +1,4 @@
+
+initial_dataflow.erl:11: The variable Q can never match since previous clauses completely covered the type #{}
+initial_dataflow.erl:5: Function test/0 has no local return
+initial_dataflow.erl:6: The pattern 'false' can never match the type 'true'
diff --git a/lib/dialyzer/test/map_SUITE_data/results/is_map_guard b/lib/dialyzer/test/map_SUITE_data/results/is_map_guard
new file mode 100644
index 0000000000..6ab464d865
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/results/is_map_guard
@@ -0,0 +1,5 @@
+
+is_map_guard.erl:13: Function t2/0 has no local return
+is_map_guard.erl:15: The call is_map_guard:explicit('still_not_map') will never return since it differs in the 1st argument from the success typing arguments: (map())
+is_map_guard.erl:6: Function t1/0 has no local return
+is_map_guard.erl:8: The call is_map_guard:implicit('not_a_map') will never return since it differs in the 1st argument from the success typing arguments: (map())
diff --git a/lib/dialyzer/test/map_SUITE_data/results/map_galore b/lib/dialyzer/test/map_SUITE_data/results/map_galore
new file mode 100644
index 0000000000..6ea88f01f8
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/results/map_galore
@@ -0,0 +1,28 @@
+
+map_galore.erl:1000: A key of type 42 cannot exist in a map of type #{1:='a', 2:='b', 4:='d', 5:='e', float()=>'c' | 'v'}
+map_galore.erl:1080: A key of type 'nonexisting' cannot exist in a map of type #{#{'map':='key', 'one':='small'}:=[32 | 49 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], #{'map':='key', 'second':='small'}:=[32 | 50 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], #{'map':='key', 'third':='small'}:=[32 | 51 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], 10:='a0', 11:='a1', 12:='a2', 13:='a3', 14:='a4', 15:='a5', 16:='a6', 17:='a7', 18:='a8', 19:='a9', 20:='b0', 21:='b1', 22:='b2', 23:='b3', 24:='b4', 25:='b5', 26:='b6', 27:='b7', 28:='b8', 29:='b9', 30:=[48 | 99,...], 31:=[49 | 99,...], 32:=[50 | 99,...], 33:=[51 | 99,...], 34:=[52 | 99,...], 35:=[53 | 99,...], 36:=[54 | 99,...], 37:=[55 | 99,...], 38:=[56 | 99,...], 39:=[57 | 99,...], <<_:16>> | [48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...] | float() | {[[48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...],...]} | #{10:='a0', 11:='a1', 12:='a2', 13:='a3', 14:='a4', 15:='a5', 17:='a7', 18:='a8', 19:='a9', 20:='b0', 21:='b1', 22:='b2', 23:='b3', 24:='b4', 25:='b5', 27:='b7', 28:='b8', 29:='b9', 30:=[48 | 99,...], 31:=[49 | 99,...], 32:=[50 | 99,...], 33:=[51 | 99,...], 34:=[52 | 99,...], 35:=[53 | 99,...], 37:=[55 | 99,...], 38:=[56 | 99,...], 39:=[57 | 99,...], 'k16'=>'a6', 'k26'=>'b6', 'k36'=>[54 | 99,...], 16=>'a6', 26=>'b6', 36=>[54 | 99,...], <<_:16>> | [48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...] | {[[48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...],...]}=>[48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57 | 100 | 101,...]}=>atom() | [1..255,...]}
+map_galore.erl:1082: A key of type 42 cannot exist in a map of type #{#{'map':='key', 'one':='small'}:=[32 | 49 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], #{'map':='key', 'second':='small'}:=[32 | 50 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], #{'map':='key', 'third':='small'}:=[32 | 51 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], 10:='a0', 11:='a1', 12:='a2', 13:='a3', 14:='a4', 15:='a5', 16:='a6', 17:='a7', 18:='a8', 19:='a9', 20:='b0', 21:='b1', 22:='b2', 23:='b3', 24:='b4', 25:='b5', 26:='b6', 27:='b7', 28:='b8', 29:='b9', 30:=[48 | 99,...], 31:=[49 | 99,...], 32:=[50 | 99,...], 33:=[51 | 99,...], 34:=[52 | 99,...], 35:=[53 | 99,...], 36:=[54 | 99,...], 37:=[55 | 99,...], 38:=[56 | 99,...], 39:=[57 | 99,...], <<_:16>> | [48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...] | float() | {[[48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...],...]} | #{10:='a0', 11:='a1', 12:='a2', 13:='a3', 14:='a4', 15:='a5', 17:='a7', 18:='a8', 19:='a9', 20:='b0', 21:='b1', 22:='b2', 23:='b3', 24:='b4', 25:='b5', 27:='b7', 28:='b8', 29:='b9', 30:=[48 | 99,...], 31:=[49 | 99,...], 32:=[50 | 99,...], 33:=[51 | 99,...], 34:=[52 | 99,...], 35:=[53 | 99,...], 37:=[55 | 99,...], 38:=[56 | 99,...], 39:=[57 | 99,...], 'k16'=>'a6', 'k26'=>'b6', 'k36'=>[54 | 99,...], 16=>'a6', 26=>'b6', 36=>[54 | 99,...], <<_:16>> | [48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...] | {[[48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...],...]}=>[48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57 | 100 | 101,...]}=>atom() | [1..255,...]}
+map_galore.erl:1140: The call map_galore:map_guard_sequence_1(#{'seq':=6, 'val':=[101,...]}) will never return since it differs in the 1st argument from the success typing arguments: (#{'seq':=1 | 2 | 3 | 4 | 5, 'val':=[97 | 98 | 99 | 100 | 101,...], #{'map':='key', 'one':='small'}=>[32 | 49 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], #{'map':='key', 'second':='small'}=>[32 | 50 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], #{'map':='key', 'third':='small'}=>[32 | 51 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], 10=>'a0', 11=>'a1', 12=>'a2', 13=>'a3', 14=>'a4', 15=>'a5', 16=>'a6', 17=>'a7', 18=>'a8', 19=>'a9', 20=>'b0', 21=>'b1', 22=>'b2', 23=>'b3', 24=>'b4', 25=>'b5', 26=>'b6', 27=>'b7', 28=>'b8', 29=>'b9', 30=>[48 | 99,...], 31=>[49 | 99,...], 32=>[50 | 99,...], 33=>[51 | 99,...], 34=>[52 | 99,...], 35=>[53 | 99,...], 36=>[54 | 99,...], 37=>[55 | 99,...], 38=>[56 | 99,...], 39=>[57 | 99,...], <<_:16>> | [48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...] | float() | {[any(),...]} | #{10:='a0', 11:='a1', 12:='a2', 13:='a3', 14:='a4', 15:='a5', 17:='a7', 18:='a8', 19:='a9', 20:='b0', 21:='b1', 22:='b2', 23:='b3', 24:='b4', 25:='b5', 27:='b7', 28:='b8', 29:='b9', 30:=[any(),...], 31:=[any(),...], 32:=[any(),...], 33:=[any(),...], 34:=[any(),...], 35:=[any(),...], 37:=[any(),...], 38:=[any(),...], 39:=[any(),...], 'k16'=>'a6', 'k26'=>'b6', 'k36'=>[any(),...], 16=>'a6', 26=>'b6', 36=>[any(),...], <<_:16>> | [any(),...] | {_}=>[any(),...]}=>atom() | [1..255,...]})
+map_galore.erl:1141: The call map_galore:map_guard_sequence_2(#{'b':=5}) will never return since it differs in the 1st argument from the success typing arguments: (#{'a':='gg' | 'kk' | 'sc' | 3 | 4, 'b'=>'other' | 3 | 4 | 5, 'c'=>'sc2', #{'map':='key', 'one':='small'}=>[32 | 49 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], #{'map':='key', 'second':='small'}=>[32 | 50 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], #{'map':='key', 'third':='small'}=>[32 | 51 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], 10=>'a0', 11=>'a1', 12=>'a2', 13=>'a3', 14=>'a4', 15=>'a5', 16=>'a6', 17=>'a7', 18=>'a8', 19=>'a9', 20=>'b0', 21=>'b1', 22=>'b2', 23=>'b3', 24=>'b4', 25=>'b5', 26=>'b6', 27=>'b7', 28=>'b8', 29=>'b9', 30=>[48 | 99,...], 31=>[49 | 99,...], 32=>[50 | 99,...], 33=>[51 | 99,...], 34=>[52 | 99,...], 35=>[53 | 99,...], 36=>[54 | 99,...], 37=>[55 | 99,...], 38=>[56 | 99,...], 39=>[57 | 99,...], <<_:16>> | [48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...] | float() | {[any(),...]} | #{10:='a0', 11:='a1', 12:='a2', 13:='a3', 14:='a4', 15:='a5', 17:='a7', 18:='a8', 19:='a9', 20:='b0', 21:='b1', 22:='b2', 23:='b3', 24:='b4', 25:='b5', 27:='b7', 28:='b8', 29:='b9', 30:=[any(),...], 31:=[any(),...], 32:=[any(),...], 33:=[any(),...], 34:=[any(),...], 35:=[any(),...], 37:=[any(),...], 38:=[any(),...], 39:=[any(),...], 'k16'=>'a6', 'k26'=>'b6', 'k36'=>[any(),...], 16=>'a6', 26=>'b6', 36=>[any(),...], <<_:16>> | [any(),...] | {_}=>[any(),...]}=>atom() | [1..255,...]})
+map_galore.erl:1209: The call map_galore:map_guard_sequence_1(#{'seq':=6, 'val':=[101,...], #{'map':='key', 'one':='small'}:=[32 | 49 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], #{'map':='key', 'second':='small'}:=[32 | 50 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], #{'map':='key', 'third':='small'}:=[32 | 51 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], 10:='a0', 11:='a1', 12:='a2', 13:='a3', 14:='a4', 15:='a5', 16:='a6', 17:='a7', 18:='a8', 19:='a9', 20:='b0', 21:='b1', 22:='b2', 23:='b3', 24:='b4', 25:='b5', 26:='b6', 27:='b7', 28:='b8', 29:='b9', 30:=[48 | 99,...], 31:=[49 | 99,...], 32:=[50 | 99,...], 33:=[51 | 99,...], 34:=[52 | 99,...], 35:=[53 | 99,...], 36:=[54 | 99,...], 37:=[55 | 99,...], 38:=[56 | 99,...], 39:=[57 | 99,...], <<_:16>> | [48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...] | float() | {[[48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...] | 3,...]} | #{10:='a0', 11:='a1', 12:='a2', 13:='a3', 14:='a4', 15:='a5', 17:='a7', 18:='a8', 19:='a9', 20:='b0', 21:='b1', 22:='b2', 23:='b3', 24:='b4', 25:='b5', 27:='b7', 28:='b8', 29:='b9', 30:=[48 | 99,...], 31:=[49 | 99,...], 32:=[50 | 99,...], 33:=[51 | 99,...], 34:=[52 | 99,...], 35:=[53 | 99,...], 37:=[55 | 99,...], 38:=[56 | 99,...], 39:=[57 | 99,...], 'k16'=>'a6', 'k26'=>'b6', 'k36'=>[54 | 99,...], 16=>'a6', 26=>'b6', 36=>[54 | 99,...], <<_:16>> | [48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...] | {[[48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...],...]}=>[48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57 | 100 | 101,...]}=>atom() | [1..255,...]}) will never return since it differs in the 1st argument from the success typing arguments: (#{'seq':=1 | 2 | 3 | 4 | 5, 'val':=[97 | 98 | 99 | 100 | 101,...], #{'map':='key', 'one':='small'}=>[32 | 49 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], #{'map':='key', 'second':='small'}=>[32 | 50 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], #{'map':='key', 'third':='small'}=>[32 | 51 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], 10=>'a0', 11=>'a1', 12=>'a2', 13=>'a3', 14=>'a4', 15=>'a5', 16=>'a6', 17=>'a7', 18=>'a8', 19=>'a9', 20=>'b0', 21=>'b1', 22=>'b2', 23=>'b3', 24=>'b4', 25=>'b5', 26=>'b6', 27=>'b7', 28=>'b8', 29=>'b9', 30=>[48 | 99,...], 31=>[49 | 99,...], 32=>[50 | 99,...], 33=>[51 | 99,...], 34=>[52 | 99,...], 35=>[53 | 99,...], 36=>[54 | 99,...], 37=>[55 | 99,...], 38=>[56 | 99,...], 39=>[57 | 99,...], <<_:16>> | [48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...] | float() | {[any(),...]} | #{10:='a0', 11:='a1', 12:='a2', 13:='a3', 14:='a4', 15:='a5', 17:='a7', 18:='a8', 19:='a9', 20:='b0', 21:='b1', 22:='b2', 23:='b3', 24:='b4', 25:='b5', 27:='b7', 28:='b8', 29:='b9', 30:=[any(),...], 31:=[any(),...], 32:=[any(),...], 33:=[any(),...], 34:=[any(),...], 35:=[any(),...], 37:=[any(),...], 38:=[any(),...], 39:=[any(),...], 'k16'=>'a6', 'k26'=>'b6', 'k36'=>[any(),...], 16=>'a6', 26=>'b6', 36=>[any(),...], <<_:16>> | [any(),...] | {_}=>[any(),...]}=>atom() | [1..255,...]})
+map_galore.erl:1210: The call map_galore:map_guard_sequence_2(#{'b':=5, #{'map':='key', 'one':='small'}:=[32 | 49 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], #{'map':='key', 'second':='small'}:=[32 | 50 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], #{'map':='key', 'third':='small'}:=[32 | 51 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], 10:='a0', 11:='a1', 12:='a2', 13:='a3', 14:='a4', 15:='a5', 16:='a6', 17:='a7', 18:='a8', 19:='a9', 20:='b0', 21:='b1', 22:='b2', 23:='b3', 24:='b4', 25:='b5', 26:='b6', 27:='b7', 28:='b8', 29:='b9', 30:=[48 | 99,...], 31:=[49 | 99,...], 32:=[50 | 99,...], 33:=[51 | 99,...], 34:=[52 | 99,...], 35:=[53 | 99,...], 36:=[54 | 99,...], 37:=[55 | 99,...], 38:=[56 | 99,...], 39:=[57 | 99,...], <<_:16>> | [48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...] | float() | {[[48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...] | 3,...]} | #{10:='a0', 11:='a1', 12:='a2', 13:='a3', 14:='a4', 15:='a5', 17:='a7', 18:='a8', 19:='a9', 20:='b0', 21:='b1', 22:='b2', 23:='b3', 24:='b4', 25:='b5', 27:='b7', 28:='b8', 29:='b9', 30:=[48 | 99,...], 31:=[49 | 99,...], 32:=[50 | 99,...], 33:=[51 | 99,...], 34:=[52 | 99,...], 35:=[53 | 99,...], 37:=[55 | 99,...], 38:=[56 | 99,...], 39:=[57 | 99,...], 'k16'=>'a6', 'k26'=>'b6', 'k36'=>[54 | 99,...], 16=>'a6', 26=>'b6', 36=>[54 | 99,...], <<_:16>> | [48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...] | {[[48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...],...]}=>[48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57 | 100 | 101,...]}=>atom() | [1..255,...]}) will never return since it differs in the 1st argument from the success typing arguments: (#{'a':='gg' | 'kk' | 'sc' | 3 | 4, 'b'=>'other' | 3 | 4 | 5, 'c'=>'sc2', #{'map':='key', 'one':='small'}=>[32 | 49 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], #{'map':='key', 'second':='small'}=>[32 | 50 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], #{'map':='key', 'third':='small'}=>[32 | 51 | 97 | 101 | 107 | 108 | 109 | 112 | 115 | 121,...], 10=>'a0', 11=>'a1', 12=>'a2', 13=>'a3', 14=>'a4', 15=>'a5', 16=>'a6', 17=>'a7', 18=>'a8', 19=>'a9', 20=>'b0', 21=>'b1', 22=>'b2', 23=>'b3', 24=>'b4', 25=>'b5', 26=>'b6', 27=>'b7', 28=>'b8', 29=>'b9', 30=>[48 | 99,...], 31=>[49 | 99,...], 32=>[50 | 99,...], 33=>[51 | 99,...], 34=>[52 | 99,...], 35=>[53 | 99,...], 36=>[54 | 99,...], 37=>[55 | 99,...], 38=>[56 | 99,...], 39=>[57 | 99,...], <<_:16>> | [48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57,...] | float() | {[any(),...]} | #{10:='a0', 11:='a1', 12:='a2', 13:='a3', 14:='a4', 15:='a5', 17:='a7', 18:='a8', 19:='a9', 20:='b0', 21:='b1', 22:='b2', 23:='b3', 24:='b4', 25:='b5', 27:='b7', 28:='b8', 29:='b9', 30:=[any(),...], 31:=[any(),...], 32:=[any(),...], 33:=[any(),...], 34:=[any(),...], 35:=[any(),...], 37:=[any(),...], 38:=[any(),...], 39:=[any(),...], 'k16'=>'a6', 'k26'=>'b6', 'k36'=>[any(),...], 16=>'a6', 26=>'b6', 36=>[any(),...], <<_:16>> | [any(),...] | {_}=>[any(),...]}=>atom() | [1..255,...]})
+map_galore.erl:1418: Fun application with arguments (#{'s':='none', 'v':='none'}) will never return since it differs in the 1st argument from the success typing arguments: (#{'s':='l' | 't' | 'v', 'v':='none' | <<_:16>> | [<<_:16>>,...] | {<<_:16>>,<<_:16>>}})
+map_galore.erl:1491: The test #{} =:= #{'a':=1} can never evaluate to 'true'
+map_galore.erl:1492: The test #{'a':=1} =:= #{} can never evaluate to 'true'
+map_galore.erl:1495: The test #{'a':=1} =:= #{'a':=2} can never evaluate to 'true'
+map_galore.erl:1496: The test #{'a':=2} =:= #{'a':=1} can never evaluate to 'true'
+map_galore.erl:1497: The test #{'a':=2, 'b':=1} =:= #{'a':=1, 'b':=3} can never evaluate to 'true'
+map_galore.erl:1498: The test #{'a':=1, 'b':=1} =:= #{'a':=1, 'b':=3} can never evaluate to 'true'
+map_galore.erl:1762: The call maps:get({1, 1},#{{1,float()}=>[101 | 108 | 112 | 116 | 117,...]}) will never return since the success typing arguments are (any(),map())
+map_galore.erl:1763: The call maps:get('a',#{}) will never return since the success typing arguments are (any(),map())
+map_galore.erl:1765: The call maps:get('a',#{'b':=1, 'c':=2}) will never return since the success typing arguments are (any(),map())
+map_galore.erl:186: The pattern #{'x':=2} can never match the type #{'x':=3}
+map_galore.erl:187: The pattern #{'x':=3} can never match the type {'a','b','c'}
+map_galore.erl:188: The pattern #{'x':=3} can never match the type #{'y':=3}
+map_galore.erl:189: The pattern #{'x':=3} can never match the type #{'x':=[101 | 104 | 114 | 116,...]}
+map_galore.erl:2304: Cons will produce an improper list since its 2nd argument is {'b','a'}
+map_galore.erl:2304: The call maps:from_list(nonempty_improper_list({'a','b'},{'b','a'})) will never return since it differs in the 1st argument from the success typing arguments: ([{_,_}])
+map_galore.erl:2305: The call maps:from_list('a') will never return since it differs in the 1st argument from the success typing arguments: ([{_,_}])
+map_galore.erl:2306: The call maps:from_list(42) will never return since it differs in the 1st argument from the success typing arguments: ([{_,_}])
+map_galore.erl:997: A key of type 'nonexisting' cannot exist in a map of type #{}
+map_galore.erl:998: A key of type 'nonexisting' cannot exist in a map of type #{1:='a', 2:='b', 4:='d', 5:='e', float()=>'c'}
diff --git a/lib/dialyzer/test/map_SUITE_data/results/map_in_guard b/lib/dialyzer/test/map_SUITE_data/results/map_in_guard
new file mode 100644
index 0000000000..1015f76128
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/results/map_in_guard
@@ -0,0 +1,4 @@
+
+map_in_guard.erl:10: The call map_in_guard:assoc_update('not_a_map') will never return since it differs in the 1st argument from the success typing arguments: (#{})
+map_in_guard.erl:13: The call map_in_guard:assoc_guard_clause('not_a_map') will never return since it differs in the 1st argument from the success typing arguments: (#{})
+map_in_guard.erl:20: The call map_in_guard:exact_guard_clause(#{}) will never return since it differs in the 1st argument from the success typing arguments: (#{'a':='q'})
diff --git a/lib/dialyzer/test/map_SUITE_data/results/map_in_guard2 b/lib/dialyzer/test/map_SUITE_data/results/map_in_guard2
new file mode 100644
index 0000000000..6bc0c010d7
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/results/map_in_guard2
@@ -0,0 +1,13 @@
+
+map_in_guard2.erl:10: The call map_in_guard2:assoc_guard_clause('not_a_map') will never return since it differs in the 1st argument from the success typing arguments: (map())
+map_in_guard2.erl:12: The pattern 'true' can never match the type 'false'
+map_in_guard2.erl:14: The call map_in_guard2:exact_guard_clause(#{}) will never return since it differs in the 1st argument from the success typing arguments: (#{'a':=_, ...})
+map_in_guard2.erl:17: Clause guard cannot succeed. The variable M was matched against the type 'not_a_map'
+map_in_guard2.erl:20: Function assoc_update/1 has no local return
+map_in_guard2.erl:20: Guard test is_map(M::'not_a_map') can never succeed
+map_in_guard2.erl:22: Clause guard cannot succeed. The variable M was matched against the type 'not_a_map'
+map_in_guard2.erl:22: Function assoc_guard_clause/1 has no local return
+map_in_guard2.erl:24: Clause guard cannot succeed. The variable M was matched against the type #{}
+map_in_guard2.erl:27: Clause guard cannot succeed. The variable M was matched against the type #{}
+map_in_guard2.erl:27: Function exact_guard_clause/1 has no local return
+map_in_guard2.erl:8: The call map_in_guard2:assoc_update('not_a_map') will never return since it differs in the 1st argument from the success typing arguments: (map())
diff --git a/lib/dialyzer/test/map_SUITE_data/results/map_size b/lib/dialyzer/test/map_SUITE_data/results/map_size
new file mode 100644
index 0000000000..fc6c1f028c
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/results/map_size
@@ -0,0 +1,13 @@
+
+map_size.erl:11: The pattern 1 can never match the type 0
+map_size.erl:13: Function t2/0 has no local return
+map_size.erl:15: Function p/1 has no local return
+map_size.erl:15: Guard test 1 =:= 0 can never succeed
+map_size.erl:17: Function t3/0 has no local return
+map_size.erl:21: The pattern 4 can never match the type 1 | 2 | 3
+map_size.erl:23: Function t4/0 has no local return
+map_size.erl:24: The pattern 0 can never match the type 1 | 2 | 3
+map_size.erl:26: Function t5/1 has no local return
+map_size.erl:5: Function t1/0 has no local return
+map_size.erl:7: The pattern 1 can never match the type 0
+map_size.erl:9: Function e1/0 has no local return
diff --git a/lib/dialyzer/test/map_SUITE_data/results/maps_merge b/lib/dialyzer/test/map_SUITE_data/results/maps_merge
new file mode 100644
index 0000000000..0c347b4cdb
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/results/maps_merge
@@ -0,0 +1,11 @@
+
+maps_merge.erl:10: The pattern #{_:=_} can never match the type #{'a':=1, 3:='ok', 'q'=>none(), 7=>none(), atom() | integer()=>_}
+maps_merge.erl:12: Function t3/0 has no local return
+maps_merge.erl:14: The pattern #{7:='q'} can never match the type #{'a':=1, 3:='ok', 'q'=>none(), 7=>none(), atom() | integer()=>_}
+maps_merge.erl:16: Function t4/0 has no local return
+maps_merge.erl:18: The pattern #{7:='q'} can never match the type #{'a':=1, 3:='ok', 'q'=>none(), 7=>none(), atom() | integer()=>_}
+maps_merge.erl:20: Function t5/0 has no local return
+maps_merge.erl:21: The pattern #{'a':=2} can never match the type #{'a':=1, 'q'=>none(), 11=>_, atom()=>_}
+maps_merge.erl:5: Function t1/0 has no local return
+maps_merge.erl:6: The pattern #{'a':=1} can never match the type #{}
+maps_merge.erl:8: Function t2/0 has no local return
diff --git a/lib/dialyzer/test/map_SUITE_data/results/opaque_key b/lib/dialyzer/test/map_SUITE_data/results/opaque_key
new file mode 100644
index 0000000000..fb7080cdc5
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/results/opaque_key
@@ -0,0 +1,15 @@
+
+opaque_key_adt.erl:41: Invalid type specification for function opaque_key_adt:s4/0. The success typing is () -> #{1:='a'}
+opaque_key_adt.erl:44: Invalid type specification for function opaque_key_adt:s5/0. The success typing is () -> #{2:=3}
+opaque_key_adt.erl:56: Invalid type specification for function opaque_key_adt:smt1/0. The success typing is () -> #{3:='a'}
+opaque_key_adt.erl:59: Invalid type specification for function opaque_key_adt:smt2/0. The success typing is () -> #{1:='a'}
+opaque_key_use.erl:13: The test opaque_key_use:t() =:= opaque_key_use:t(integer()) can never evaluate to 'true'
+opaque_key_use.erl:24: Attempt to test for equality between a term of type opaque_key_adt:t(integer()) and a term of opaque type opaque_key_adt:t()
+opaque_key_use.erl:37: Function adt_mm1/0 has no local return
+opaque_key_use.erl:40: The attempt to match a term of type opaque_key_adt:m() against the pattern #{A:=R} breaks the opaqueness of the term
+opaque_key_use.erl:48: Function adt_mu1/0 has no local return
+opaque_key_use.erl:51: Guard test is_map(M::opaque_key_adt:m()) breaks the opaqueness of its argument
+opaque_key_use.erl:53: Function adt_mu2/0 has no local return
+opaque_key_use.erl:56: Guard test is_map(M::opaque_key_adt:m()) breaks the opaqueness of its argument
+opaque_key_use.erl:58: Function adt_mu3/0 has no local return
+opaque_key_use.erl:60: Guard test is_map(M::opaque_key_adt:m()) breaks the opaqueness of its argument
diff --git a/lib/dialyzer/test/map_SUITE_data/results/order b/lib/dialyzer/test/map_SUITE_data/results/order
new file mode 100644
index 0000000000..7be789a11a
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/results/order
@@ -0,0 +1,17 @@
+
+order.erl:12: Function t2/0 has no local return
+order.erl:14: Guard test is_integer(Int::'b') can never succeed
+order.erl:16: The variable _Else can never match since previous clauses completely covered the type 'b'
+order.erl:19: Function t3/0 has no local return
+order.erl:21: Guard test is_integer(Int::'b') can never succeed
+order.erl:23: The variable _Else can never match since previous clauses completely covered the type 'b'
+order.erl:30: The variable _Else can never match since previous clauses completely covered the type 'b' | 1
+order.erl:33: Function t5/0 has no local return
+order.erl:36: The variable Atom can never match since previous clauses completely covered the type 1
+order.erl:37: The variable _Else can never match since previous clauses completely covered the type 1
+order.erl:40: Function t6/0 has no local return
+order.erl:42: Guard test is_integer(Int::'b') can never succeed
+order.erl:44: The variable _Else can never match since previous clauses completely covered the type 'b'
+order.erl:5: Function t1/0 has no local return
+order.erl:7: Guard test is_integer(Int::'b') can never succeed
+order.erl:9: The variable _Else can never match since previous clauses completely covered the type 'b'
diff --git a/lib/dialyzer/test/map_SUITE_data/results/subtract_value_flip b/lib/dialyzer/test/map_SUITE_data/results/subtract_value_flip
new file mode 100644
index 0000000000..e69de29bb2
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/results/subtract_value_flip
diff --git a/lib/dialyzer/test/map_SUITE_data/results/typeflow b/lib/dialyzer/test/map_SUITE_data/results/typeflow
new file mode 100644
index 0000000000..e3378a24bb
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/results/typeflow
@@ -0,0 +1,4 @@
+
+typeflow.erl:14: Function t2/1 has no local return
+typeflow.erl:16: The call lists:sort(integer()) will never return since it differs in the 1st argument from the success typing arguments: ([any()])
+typeflow.erl:9: The variable _ can never match since previous clauses completely covered the type #{'a':=integer(), ...}
diff --git a/lib/dialyzer/test/map_SUITE_data/results/typeflow2 b/lib/dialyzer/test/map_SUITE_data/results/typeflow2
new file mode 100644
index 0000000000..3adf638978
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/results/typeflow2
@@ -0,0 +1,13 @@
+
+typeflow2.erl:10: The pattern #{'a':=X} can never match the type #{'a'=>none(), _=>maybe_improper_list() | integer()}
+typeflow2.erl:11: The pattern #{'a':=X} can never match the type #{'a'=>none(), _=>maybe_improper_list() | integer()}
+typeflow2.erl:26: Function t2/1 has no local return
+typeflow2.erl:29: The call lists:sort(integer()) will never return since it differs in the 1st argument from the success typing arguments: ([any()])
+typeflow2.erl:42: The pattern #{'a':=X} can never match since previous clauses completely covered the type #{'a':=integer()}
+typeflow2.erl:43: The variable _ can never match since previous clauses completely covered the type #{'a':=integer()}
+typeflow2.erl:48: The pattern #{} can never match since previous clauses completely covered the type #{'a':=atom() | maybe_improper_list() | integer()}
+typeflow2.erl:58: The pattern #{'a':=X} can never match the type #{'a'=>none(), _=>maybe_improper_list() | integer()}
+typeflow2.erl:59: The pattern #{'a':=X} can never match the type #{'a'=>none(), _=>maybe_improper_list() | integer()}
+typeflow2.erl:60: The pattern #{'a':=X} can never match the type #{'a'=>none(), _=>maybe_improper_list() | integer()}
+typeflow2.erl:82: The pattern #{'a':=X} can never match the type #{}
+typeflow2.erl:83: The pattern #{'a':=X} can never match the type #{}
diff --git a/lib/dialyzer/test/map_SUITE_data/results/typesig b/lib/dialyzer/test/map_SUITE_data/results/typesig
new file mode 100644
index 0000000000..3049402860
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/results/typesig
@@ -0,0 +1,5 @@
+
+typesig.erl:5: Function t1/0 has no local return
+typesig.erl:5: The call typesig:test(#{'a':=1}) will never return since it differs in the 1st argument from the success typing arguments: (#{'a':={number()}, ...})
+typesig.erl:6: Function t2/0 has no local return
+typesig.erl:6: The call typesig:test(#{'a':={'b'}}) will never return since it differs in the 1st argument from the success typing arguments: (#{'a':={number()}, ...})
diff --git a/lib/dialyzer/test/map_SUITE_data/src/bad_argument.erl b/lib/dialyzer/test/map_SUITE_data/src/bad_argument.erl
new file mode 100644
index 0000000000..95e2b32ddc
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/bad_argument.erl
@@ -0,0 +1,19 @@
+-module(bad_argument).
+
+-export([t/0, t2/0, t3/0]).
+
+t() ->
+ _=(id1(#{a=>q}))#{b:=9}.
+
+t2() ->
+ _ = id2(4),
+ X = id2(3),
+ _ = (#{ X => q})#{3 := p},
+ X.
+
+t3() ->
+ (id3(not_a_map))#{a => b}.
+
+id1(X) -> X.
+id2(X) -> X.
+id3(X) -> X.
diff --git a/lib/dialyzer/test/map_SUITE_data/src/bug.erl b/lib/dialyzer/test/map_SUITE_data/src/bug.erl
new file mode 100644
index 0000000000..fc32f5641a
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/bug.erl
@@ -0,0 +1,63 @@
+-module(bug).
+
+-export([t1/0, f1/1
+ ,t2/0, f2/1
+ ,t3/0, f3/1
+ ,t4/0, f4/1
+ ,t5/0, f5/1
+ ]).
+
+t1() ->
+ V = f1(#{a=>b}),
+ case V of
+ #{a := Q} -> Q; %% Must not warn here
+ _ -> ok
+ end,
+ ok.
+
+f1(M) -> %% Should get map() succ typing
+ #{} = M.
+
+t2() ->
+ V = f2([#{a=>b}]),
+ case V of
+ [#{a := P}] -> P; %% Must not warn here
+ _ -> ok
+ end,
+ ok.
+
+f2(M) -> %% Should get [map(),...] succ typing
+ [#{}] = M.
+
+t3() ->
+ V = f3([#{a=>b},a]),
+ case V of
+ [#{a := P}, _Q] -> P; %% Must not warn here
+ _ -> ok
+ end,
+ ok.
+
+f3(M) -> %% Should get [map()|a,...] succ typing
+ [#{},a] = M.
+
+t4() ->
+ V = f4({#{a=>b},{}}),
+ case V of
+ {#{a := P},{}} -> P; %% Must not warn here
+ _ -> ok
+ end,
+ ok.
+
+f4(M) -> %% Should get {map(),{}} succ typing
+ {#{},{}} = M.
+
+t5() ->
+ V = f5(#{k=>q,a=>b}),
+ case V of
+ #{k := q, a := P} -> P; %% Must not warn here
+ _ -> ok
+ end,
+ ok.
+
+f5(M) -> %% Should get #{k:=q, ...} succ typing
+ #{k:=q} = M.
diff --git a/lib/dialyzer/test/map_SUITE_data/src/contract.erl b/lib/dialyzer/test/map_SUITE_data/src/contract.erl
new file mode 100644
index 0000000000..2b31be0d58
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/contract.erl
@@ -0,0 +1,14 @@
+-module(missing).
+
+-export([t1/0, t2/0, t3/0, t4/0]).
+
+-spec f(#{a := 1, b => 2, c => 3}) -> ok.
+f(_) -> ok.
+
+t1() -> f(#{b => 2}).
+
+t2() -> f(#{a => 1, c => 4}).
+
+t3() -> f(#{a => 1, b => 2, e => 3}).
+
+t4() -> f(#{a => 1, b => 2}).
diff --git a/lib/dialyzer/test/map_SUITE_data/src/contract_violation.erl b/lib/dialyzer/test/map_SUITE_data/src/contract_violation.erl
new file mode 100644
index 0000000000..850f2cad34
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/contract_violation.erl
@@ -0,0 +1,29 @@
+-module(contract_violation).
+
+-export([entry/1, beam_disasm_lines/2]).
+
+%%-----------------------------------------------------------------------
+
+-type lines() :: #{non_neg_integer() => {string(), non_neg_integer()}}.
+
+entry(Bin) ->
+ I = 42,
+ case beam_disasm_lines(Bin, ':-)') of
+ #{I := Loc} -> {good, Loc};
+ _ -> bad
+ end.
+
+-spec beam_disasm_lines(binary() | none, module()) -> lines().
+
+beam_disasm_lines(none, _) -> #{};
+beam_disasm_lines(<<NumLines:32, LineBin:NumLines/binary, FileBin/binary>>,
+ _Module) ->
+ Lines = binary_to_term(LineBin),
+ Files = binary_to_term(FileBin),
+ lines_collect_items(Lines, Files, #{}).
+
+lines_collect_items([], _, Acc) -> Acc;
+lines_collect_items([{FileNo, LineNo}|Rest], Files, Acc) ->
+ #{FileNo := File} = Files,
+ lines_collect_items(
+ Rest, Files, Acc#{map_size(Acc)+1 => {location, File, LineNo}}).
diff --git a/lib/dialyzer/test/map_SUITE_data/src/exact.erl b/lib/dialyzer/test/map_SUITE_data/src/exact.erl
new file mode 100644
index 0000000000..e5ad02ec54
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/exact.erl
@@ -0,0 +1,23 @@
+-module(exact).
+
+-export([t1/1, t2/1]).
+
+t1(M = #{}) ->
+ any_map(M),
+ case M of
+ #{a := _} -> error(fail);
+ _ -> ok
+ end.
+
+any_map(X) ->
+ X#{a => 1, a := 2}.
+
+t2(M = #{}) ->
+ has_a(M),
+ case M of
+ #{a := _} -> error(ok);
+ _ -> unreachable
+ end.
+
+has_a(M) ->
+ M#{a := 1, a => 2}.
diff --git a/lib/dialyzer/test/map_SUITE_data/src/guard_update.erl b/lib/dialyzer/test/map_SUITE_data/src/guard_update.erl
new file mode 100644
index 0000000000..19d0089401
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/guard_update.erl
@@ -0,0 +1,18 @@
+-module(guard_update).
+
+-export([t/0, t2/0]).
+
+t() ->
+ f(#{a=>2}). %% Illegal
+
+f(M)
+ when M#{b := 7} =/= q
+ -> ok.
+
+t2() ->
+ f2(#{a=>2}). %% Legal!
+
+f2(M)
+ when M#{b := 7} =/= q;
+ M =/= p
+ -> ok.
diff --git a/lib/dialyzer/test/map_SUITE_data/src/initial_dataflow.erl b/lib/dialyzer/test/map_SUITE_data/src/initial_dataflow.erl
new file mode 100644
index 0000000000..bbc0d5682a
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/initial_dataflow.erl
@@ -0,0 +1,11 @@
+-module(initial_dataflow).
+
+-export([test/0]).
+
+test() ->
+ false = assoc_guard(#{}),
+ true = assoc_guard(not_a_map),
+ ok.
+
+assoc_guard(#{}) -> true;
+assoc_guard(Q) -> false.
diff --git a/lib/dialyzer/test/map_SUITE_data/src/is_map_guard.erl b/lib/dialyzer/test/map_SUITE_data/src/is_map_guard.erl
new file mode 100644
index 0000000000..ceb4a8763a
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/is_map_guard.erl
@@ -0,0 +1,17 @@
+-module(is_map_guard).
+
+-export([t1/0, t2/0, implicit/1, explicit/1
+ ]).
+
+t1() ->
+ _ = implicit(#{}),
+ implicit(not_a_map).
+
+implicit(M) ->
+ M#{}.
+
+t2() ->
+ explicit(#{q=>d}),
+ explicit(still_not_map).
+
+explicit(M) when is_map(M) -> ok.
diff --git a/lib/dialyzer/test/map_SUITE_data/src/map_galore.erl b/lib/dialyzer/test/map_SUITE_data/src/map_galore.erl
new file mode 100644
index 0000000000..2611241379
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/map_galore.erl
@@ -0,0 +1,2824 @@
+%% %CopyrightBegin%
+%%
+%% Copyright Ericsson AB 2013. All Rights Reserved.
+%%
+%% Licensed under the Apache License, Version 2.0 (the "License");
+%% you may not use this file except in compliance with the License.
+%% You may obtain a copy of the License at
+%%
+%% http://www.apache.org/licenses/LICENSE-2.0
+%%
+%% Unless required by applicable law or agreed to in writing, software
+%% distributed under the License is distributed on an "AS IS" BASIS,
+%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+%% See the License for the specific language governing permissions and
+%% limitations under the License.
+%%
+%% %CopyrightEnd%
+%%
+-module(map_galore).
+-export([all/0, suite/0,groups/0,init_per_suite/1, end_per_suite/1,
+ init_per_group/2,end_per_group/2
+ ]).
+
+-export([
+ t_build_and_match_literals/1, t_build_and_match_literals_large/1,
+ t_update_literals/1, t_update_literals_large/1,
+ t_match_and_update_literals/1, t_match_and_update_literals_large/1,
+ t_update_map_expressions/1,
+ t_update_assoc/1, t_update_assoc_large/1,
+ t_update_exact/1, t_update_exact_large/1,
+ t_guard_bifs/1,
+ t_guard_sequence/1, t_guard_sequence_large/1,
+ t_guard_update/1, t_guard_update_large/1,
+ t_guard_receive/1, t_guard_receive_large/1,
+ t_guard_fun/1,
+ t_update_deep/1,
+ t_list_comprehension/1,
+ t_map_sort_literals/1,
+ t_map_equal/1,
+ t_map_compare/1,
+ t_map_size/1,
+ t_is_map/1,
+
+ %% Specific Map BIFs
+ t_bif_map_get/1,
+ t_bif_map_find/1,
+ t_bif_map_is_key/1,
+ t_bif_map_keys/1,
+ t_bif_map_merge/1,
+ t_bif_map_new/1,
+ t_bif_map_put/1,
+ t_bif_map_remove/1,
+ t_bif_map_update/1,
+ t_bif_map_values/1,
+ t_bif_map_to_list/1,
+ t_bif_map_from_list/1,
+
+ %% erlang
+ t_erlang_hash/1,
+ t_map_encode_decode/1,
+
+ %% non specific BIF related
+ t_bif_build_and_check/1,
+ t_bif_merge_and_check/1,
+
+ %% maps module not bifs
+ t_maps_fold/1,
+ t_maps_map/1,
+ t_maps_size/1,
+ t_maps_without/1,
+
+ %% misc
+ t_erts_internal_order/1,
+ t_erts_internal_hash/1,
+ t_pdict/1,
+ t_ets/1,
+ t_dets/1,
+ t_tracing/1,
+
+ %% instruction-level tests
+ t_has_map_fields/1,
+ y_regs/1
+ ]).
+
+-include_lib("stdlib/include/ms_transform.hrl").
+
+-define(CHECK(Cond,Term),
+ case (catch (Cond)) of
+ true -> true;
+ _ -> io:format("###### CHECK FAILED ######~nINPUT: ~p~n", [Term]),
+ exit(Term)
+ end).
+
+suite() -> [].
+
+all() -> [
+ t_build_and_match_literals, t_build_and_match_literals_large,
+ t_update_literals, t_update_literals_large,
+ t_match_and_update_literals, t_match_and_update_literals_large,
+ t_update_map_expressions,
+ t_update_assoc, t_update_assoc_large,
+ t_update_exact, t_update_exact_large,
+ t_guard_bifs,
+ t_guard_sequence, t_guard_sequence_large,
+ t_guard_update, t_guard_update_large,
+ t_guard_receive, t_guard_receive_large,
+ t_guard_fun, t_list_comprehension,
+ t_update_deep,
+ t_map_equal, t_map_compare,
+ t_map_sort_literals,
+
+ %% Specific Map BIFs
+ t_bif_map_get,t_bif_map_find,t_bif_map_is_key,
+ t_bif_map_keys, t_bif_map_merge, t_bif_map_new,
+ t_bif_map_put,
+ t_bif_map_remove, t_bif_map_update,
+ t_bif_map_values,
+ t_bif_map_to_list, t_bif_map_from_list,
+
+ %% erlang
+ t_erlang_hash, t_map_encode_decode,
+ t_map_size, t_is_map,
+
+ %% non specific BIF related
+ t_bif_build_and_check,
+ t_bif_merge_and_check,
+
+ %% maps module
+ t_maps_fold, t_maps_map,
+ t_maps_size, t_maps_without,
+
+
+ %% Other functions
+ t_erts_internal_order,
+ t_erts_internal_hash,
+ t_pdict,
+ t_ets,
+ t_tracing,
+
+ %% instruction-level tests
+ t_has_map_fields,
+ y_regs
+ ].
+
+groups() -> [].
+
+init_per_suite(Config) -> Config.
+end_per_suite(_Config) -> ok.
+
+init_per_group(_GroupName, Config) -> Config.
+end_per_group(_GroupName, Config) -> Config.
+
+%% tests
+
+t_build_and_match_literals(Config) when is_list(Config) ->
+ #{} = #{},
+ #{1:=a} = #{1=>a},
+ #{1:=a,2:=b} = #{1=>a,2=>b},
+ #{1:=a,2:=b,3:="c"} = #{1=>a,2=>b,3=>"c"},
+ #{1:=a,2:=b,3:="c","4":="d"} = #{1=>a,2=>b,3=>"c","4"=>"d"},
+ #{1:=a,2:=b,3:="c","4":="d",<<"5">>:=<<"e">>} =
+ #{1=>a,2=>b,3=>"c","4"=>"d",<<"5">>=><<"e">>},
+ #{1:=a,2:=b,3:="c","4":="d",<<"5">>:=<<"e">>,{"6",7}:="f"} =
+ #{1=>a,2=>b,3=>"c","4"=>"d",<<"5">>=><<"e">>,{"6",7}=>"f"},
+ #{1:=a,2:=b,3:="c","4":="d",<<"5">>:=<<"e">>,{"6",7}:="f",8:=g} =
+ #{1=>a,2=>b,3=>"c","4"=>"d",<<"5">>=><<"e">>,{"6",7}=>"f",8=>g},
+
+ #{[]:=a,42.0:=b,x:={x,y},[a,b]:=list} =
+ #{[]=>a,42.0=>b,x=>{x,y},[a,b]=>list},
+
+ #{<<"hi all">> := 1} = #{<<"hi",32,"all">> => 1},
+
+ #{a:=X,a:=X=3,b:=4} = #{a=>3,b=>4}, % weird but ok =)
+
+ #{ a:=#{ b:=#{c := third, b:=second}}, b:=first} =
+ #{ b=>first, a=>#{ b=>#{c => third, b=> second}}},
+
+ M = #{ map_1=>#{ map_2=>#{value_3 => third}, value_2=> second}, value_1=>first},
+ M = #{ map_1:=#{ map_2:=#{value_3 := third}, value_2:= second}, value_1:=first} =
+ #{ map_1=>#{ map_2=>#{value_3 => third}, value_2=> second}, value_1=>first},
+
+ %% error case
+ %V = 32,
+ %{'EXIT',{{badmatch,_},_}} = (catch (#{<<"hi all">> => 1} = #{<<"hi",V,"all">> => 1})),
+ {'EXIT',{{badmatch,_},_}} = (catch (#{x:=3,x:=2} = #{x=>3})),
+ {'EXIT',{{badmatch,_},_}} = (catch (#{x:=2} = #{x=>3})),
+ {'EXIT',{{badmatch,_},_}} = (catch (#{x:=3} = {a,b,c})),
+ {'EXIT',{{badmatch,_},_}} = (catch (#{x:=3} = #{y=>3})),
+ {'EXIT',{{badmatch,_},_}} = (catch (#{x:=3} = #{x=>"three"})),
+ ok.
+
+t_build_and_match_literals_large(Config) when is_list(Config) ->
+ % normal non-repeating
+ M0 = #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" },
+
+ #{10:=a0,20:=b0,30:="c0","40":="d0",<<"50">>:="e0",{["00"]}:="10"} = M0,
+ #{11:=a1,21:=b1,31:="c1","41":="d1",<<"51">>:="e1",{["01"]}:="11"} = M0,
+ #{12:=a2,22:=b2,32:="c2","42":="d2",<<"52">>:="e2",{["02"]}:="12"} = M0,
+ #{13:=a3,23:=b3,33:="c3","43":="d3",<<"53">>:="e3",{["03"]}:="13"} = M0,
+ #{14:=a4,24:=b4,34:="c4","44":="d4",<<"54">>:="e4",{["04"]}:="14"} = M0,
+
+ #{15:=a5,25:=b5,35:="c5","45":="d5",<<"55">>:="e5",{["05"]}:="15"} = M0,
+ #{16:=a6,26:=b6,36:="c6","46":="d6",<<"56">>:="e6",{["06"]}:="16"} = M0,
+ #{17:=a7,27:=b7,37:="c7","47":="d7",<<"57">>:="e7",{["07"]}:="17"} = M0,
+ #{18:=a8,28:=b8,38:="c8","48":="d8",<<"58">>:="e8",{["08"]}:="18"} = M0,
+ #{19:=a9,29:=b9,39:="c9","49":="d9",<<"59">>:="e9",{["09"]}:="19"} = M0,
+
+ 60 = map_size(M0),
+ 60 = maps:size(M0),
+
+ % with repeating
+ M1 = #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 10=>na0,20=>nb0,30=>"nc0","40"=>"nd0",<<"50">>=>"ne0",{["00"]}=>"n10",
+ 11=>na1,21=>nb1,31=>"nc1","41"=>"nd1",<<"51">>=>"ne1",{["01"]}=>"n11",
+ 12=>na2,22=>nb2,32=>"nc2","42"=>"nd2",<<"52">>=>"ne2",{["02"]}=>"n12",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+
+ 13=>na3,23=>nb3,33=>"nc3","43"=>"nd3",<<"53">>=>"ne3",{["03"]}=>"n13",
+ 14=>na4,24=>nb4,34=>"nc4","44"=>"nd4",<<"54">>=>"ne4",{["04"]}=>"n14",
+
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" },
+
+ #{10:=na0,20:=nb0,30:="nc0","40":="nd0",<<"50">>:="ne0",{["00"]}:="n10"} = M1,
+ #{11:=na1,21:=nb1,31:="nc1","41":="nd1",<<"51">>:="ne1",{["01"]}:="n11"} = M1,
+ #{12:=na2,22:=nb2,32:="nc2","42":="nd2",<<"52">>:="ne2",{["02"]}:="n12"} = M1,
+ #{13:=na3,23:=nb3,33:="nc3","43":="nd3",<<"53">>:="ne3",{["03"]}:="n13"} = M1,
+ #{14:=na4,24:=nb4,34:="nc4","44":="nd4",<<"54">>:="ne4",{["04"]}:="n14"} = M1,
+
+ #{15:=a5,25:=b5,35:="c5","45":="d5",<<"55">>:="e5",{["05"]}:="15"} = M1,
+ #{16:=a6,26:=b6,36:="c6","46":="d6",<<"56">>:="e6",{["06"]}:="16"} = M1,
+ #{17:=a7,27:=b7,37:="c7","47":="d7",<<"57">>:="e7",{["07"]}:="17"} = M1,
+ #{18:=a8,28:=b8,38:="c8","48":="d8",<<"58">>:="e8",{["08"]}:="18"} = M1,
+ #{19:=a9,29:=b9,39:="c9","49":="d9",<<"59">>:="e9",{["09"]}:="19"} = M1,
+
+ 60 = map_size(M1),
+ 60 = maps:size(M1),
+
+ % with floats
+
+ M2 = #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19",
+
+ 10.0=>fa0,20.0=>fb0,30.0=>"fc0",
+ 11.0=>fa1,21.0=>fb1,31.0=>"fc1",
+ 12.0=>fa2,22.0=>fb2,32.0=>"fc2",
+ 13.0=>fa3,23.0=>fb3,33.0=>"fc3",
+ 14.0=>fa4,24.0=>fb4,34.0=>"fc4",
+
+ 15.0=>fa5,25.0=>fb5,35.0=>"fc5",
+ 16.0=>fa6,26.0=>fb6,36.0=>"fc6",
+ 17.0=>fa7,27.0=>fb7,37.0=>"fc7",
+ 18.0=>fa8,28.0=>fb8,38.0=>"fc8",
+ 19.0=>fa9,29.0=>fb9,39.0=>"fc9"},
+
+ #{10:=a0,20:=b0,30:="c0","40":="d0",<<"50">>:="e0",{["00"]}:="10"} = M2,
+ #{11:=a1,21:=b1,31:="c1","41":="d1",<<"51">>:="e1",{["01"]}:="11"} = M2,
+ #{12:=a2,22:=b2,32:="c2","42":="d2",<<"52">>:="e2",{["02"]}:="12"} = M2,
+ #{13:=a3,23:=b3,33:="c3","43":="d3",<<"53">>:="e3",{["03"]}:="13"} = M2,
+ #{14:=a4,24:=b4,34:="c4","44":="d4",<<"54">>:="e4",{["04"]}:="14"} = M2,
+
+ #{15:=a5,25:=b5,35:="c5","45":="d5",<<"55">>:="e5",{["05"]}:="15"} = M2,
+ #{16:=a6,26:=b6,36:="c6","46":="d6",<<"56">>:="e6",{["06"]}:="16"} = M2,
+ #{17:=a7,27:=b7,37:="c7","47":="d7",<<"57">>:="e7",{["07"]}:="17"} = M2,
+ #{18:=a8,28:=b8,38:="c8","48":="d8",<<"58">>:="e8",{["08"]}:="18"} = M2,
+ #{19:=a9,29:=b9,39:="c9","49":="d9",<<"59">>:="e9",{["09"]}:="19"} = M2,
+
+ #{10.0:=fa0,20.0:=fb0,30.0:="fc0","40":="d0",<<"50">>:="e0",{["00"]}:="10"} = M2,
+ #{11.0:=fa1,21.0:=fb1,31.0:="fc1","41":="d1",<<"51">>:="e1",{["01"]}:="11"} = M2,
+ #{12.0:=fa2,22.0:=fb2,32.0:="fc2","42":="d2",<<"52">>:="e2",{["02"]}:="12"} = M2,
+ #{13.0:=fa3,23.0:=fb3,33.0:="fc3","43":="d3",<<"53">>:="e3",{["03"]}:="13"} = M2,
+ #{14.0:=fa4,24.0:=fb4,34.0:="fc4","44":="d4",<<"54">>:="e4",{["04"]}:="14"} = M2,
+
+ #{15.0:=fa5,25.0:=fb5,35.0:="fc5","45":="d5",<<"55">>:="e5",{["05"]}:="15"} = M2,
+ #{16.0:=fa6,26.0:=fb6,36.0:="fc6","46":="d6",<<"56">>:="e6",{["06"]}:="16"} = M2,
+ #{17.0:=fa7,27.0:=fb7,37.0:="fc7","47":="d7",<<"57">>:="e7",{["07"]}:="17"} = M2,
+ #{18.0:=fa8,28.0:=fb8,38.0:="fc8","48":="d8",<<"58">>:="e8",{["08"]}:="18"} = M2,
+ #{19.0:=fa9,29.0:=fb9,39.0:="fc9","49":="d9",<<"59">>:="e9",{["09"]}:="19"} = M2,
+
+ 90 = map_size(M2),
+ 90 = maps:size(M2),
+
+ % with bignums
+ M3 = #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19",
+
+ 10.0=>fa0,20.0=>fb0,30.0=>"fc0",
+ 11.0=>fa1,21.0=>fb1,31.0=>"fc1",
+ 12.0=>fa2,22.0=>fb2,32.0=>"fc2",
+ 13.0=>fa3,23.0=>fb3,33.0=>"fc3",
+ 14.0=>fa4,24.0=>fb4,34.0=>"fc4",
+
+ 15.0=>fa5,25.0=>fb5,35.0=>"fc5",
+ 16.0=>fa6,26.0=>fb6,36.0=>"fc6",
+ 17.0=>fa7,27.0=>fb7,37.0=>"fc7",
+ 18.0=>fa8,28.0=>fb8,38.0=>"fc8",
+ 19.0=>fa9,29.0=>fb9,39.0=>"fc9",
+
+ 36893488147419103232=>big1, 73786976294838206464=>big2,
+ 147573952589676412928=>big3, 18446744073709551616=>big4,
+ 4294967296=>big5, 8589934592=>big6,
+ 4294967295=>big7, 67108863=>big8
+ },
+
+ #{10:=a0,20:=b0,30:="c0","40":="d0",<<"50">>:="e0",{["00"]}:="10"} = M3,
+ #{11:=a1,21:=b1,31:="c1","41":="d1",<<"51">>:="e1",{["01"]}:="11"} = M3,
+ #{12:=a2,22:=b2,32:="c2","42":="d2",<<"52">>:="e2",{["02"]}:="12"} = M3,
+ #{13:=a3,23:=b3,33:="c3","43":="d3",<<"53">>:="e3",{["03"]}:="13"} = M3,
+ #{14:=a4,24:=b4,34:="c4","44":="d4",<<"54">>:="e4",{["04"]}:="14"} = M3,
+
+ #{15:=a5,25:=b5,35:="c5","45":="d5",<<"55">>:="e5",{["05"]}:="15"} = M3,
+ #{16:=a6,26:=b6,36:="c6","46":="d6",<<"56">>:="e6",{["06"]}:="16"} = M3,
+ #{17:=a7,27:=b7,37:="c7","47":="d7",<<"57">>:="e7",{["07"]}:="17"} = M3,
+ #{18:=a8,28:=b8,38:="c8","48":="d8",<<"58">>:="e8",{["08"]}:="18"} = M3,
+ #{19:=a9,29:=b9,39:="c9","49":="d9",<<"59">>:="e9",{["09"]}:="19"} = M3,
+
+ #{10.0:=fa0,20.0:=fb0,30.0:="fc0","40":="d0",<<"50">>:="e0",{["00"]}:="10"} = M3,
+ #{11.0:=fa1,21.0:=fb1,31.0:="fc1","41":="d1",<<"51">>:="e1",{["01"]}:="11"} = M3,
+ #{12.0:=fa2,22.0:=fb2,32.0:="fc2","42":="d2",<<"52">>:="e2",{["02"]}:="12"} = M3,
+ #{13.0:=fa3,23.0:=fb3,33.0:="fc3","43":="d3",<<"53">>:="e3",{["03"]}:="13"} = M3,
+ #{14.0:=fa4,24.0:=fb4,34.0:="fc4","44":="d4",<<"54">>:="e4",{["04"]}:="14"} = M3,
+
+ #{15.0:=fa5,25.0:=fb5,35.0:="fc5","45":="d5",<<"55">>:="e5",{["05"]}:="15"} = M3,
+ #{16.0:=fa6,26.0:=fb6,36.0:="fc6","46":="d6",<<"56">>:="e6",{["06"]}:="16"} = M3,
+ #{17.0:=fa7,27.0:=fb7,37.0:="fc7","47":="d7",<<"57">>:="e7",{["07"]}:="17"} = M3,
+ #{18.0:=fa8,28.0:=fb8,38.0:="fc8","48":="d8",<<"58">>:="e8",{["08"]}:="18"} = M3,
+ #{19.0:=fa9,29.0:=fb9,39.0:="fc9","49":="d9",<<"59">>:="e9",{["09"]}:="19"} = M3,
+
+ #{36893488147419103232:=big1,67108863:=big8,"45":="d5",<<"55">>:="e5",{["05"]}:="15"} = M3,
+ #{147573952589676412928:=big3,8589934592:=big6,"46":="d6",<<"56">>:="e6",{["06"]}:="16"} = M3,
+ #{4294967296:=big5,18446744073709551616:=big4,"47":="d7",<<"57">>:="e7",{["07"]}:="17"} = M3,
+ #{4294967295:=big7,73786976294838206464:=big2,"48":="d8",<<"58">>:="e8",{["08"]}:="18"} = M3,
+
+ 98 = map_size(M3),
+ 98 = maps:size(M3),
+
+ %% with maps
+
+ M4 = #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19",
+
+ 10.0=>fa0,20.0=>fb0,30.0=>"fc0",
+ 11.0=>fa1,21.0=>fb1,31.0=>"fc1",
+ 12.0=>fa2,22.0=>fb2,32.0=>"fc2",
+ 13.0=>fa3,23.0=>fb3,33.0=>"fc3",
+ 14.0=>fa4,24.0=>fb4,34.0=>"fc4",
+
+ 15.0=>fa5,25.0=>fb5,35.0=>"fc5",
+ 16.0=>fa6,26.0=>fb6,36.0=>"fc6",
+ 17.0=>fa7,27.0=>fb7,37.0=>"fc7",
+ 18.0=>fa8,28.0=>fb8,38.0=>"fc8",
+ 19.0=>fa9,29.0=>fb9,39.0=>"fc9",
+
+ #{ one => small, map => key } => "small map key 1",
+ #{ second => small, map => key } => "small map key 2",
+ #{ third => small, map => key } => "small map key 3",
+
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } => "large map key 1",
+
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ k16=>a6,k26=>b6,k36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } => "large map key 2" },
+
+ #{10:=a0,20:=b0,30:="c0","40":="d0",<<"50">>:="e0",{["00"]}:="10"} = M4,
+ #{11:=a1,21:=b1,31:="c1","41":="d1",<<"51">>:="e1",{["01"]}:="11"} = M4,
+ #{12:=a2,22:=b2,32:="c2","42":="d2",<<"52">>:="e2",{["02"]}:="12"} = M4,
+ #{13:=a3,23:=b3,33:="c3","43":="d3",<<"53">>:="e3",{["03"]}:="13"} = M4,
+ #{14:=a4,24:=b4,34:="c4","44":="d4",<<"54">>:="e4",{["04"]}:="14"} = M4,
+
+ #{15:=a5,25:=b5,35:="c5","45":="d5",<<"55">>:="e5",{["05"]}:="15"} = M4,
+ #{16:=a6,26:=b6,36:="c6","46":="d6",<<"56">>:="e6",{["06"]}:="16"} = M4,
+ #{17:=a7,27:=b7,37:="c7","47":="d7",<<"57">>:="e7",{["07"]}:="17"} = M4,
+ #{18:=a8,28:=b8,38:="c8","48":="d8",<<"58">>:="e8",{["08"]}:="18"} = M4,
+ #{19:=a9,29:=b9,39:="c9","49":="d9",<<"59">>:="e9",{["09"]}:="19"} = M4,
+
+ #{ #{ one => small, map => key } := "small map key 1",
+ #{ second => small, map => key } := "small map key 2",
+ #{ third => small, map => key } := "small map key 3" } = M4,
+
+ #{ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } := "large map key 1",
+
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ k16=>a6,k26=>b6,k36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } := "large map key 2" } = M4,
+
+
+ #{ 15:=V1,25:=b5,35:=V2,"45":="d5",<<"55">>:=V3,{["05"]}:="15",
+ #{ one => small, map => key } := "small map key 1",
+ #{ second => small, map => key } := V4,
+ #{ third => small, map => key } := "small map key 3",
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } := V5 } = M4,
+
+ a5 = V1,
+ "c5" = V2,
+ "e5" = V3,
+ "small map key 2" = V4,
+ "large map key 1" = V5,
+
+ 95 = map_size(M4),
+ 95 = maps:size(M4),
+
+ % call for value
+
+ M5 = #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19",
+
+ 10.0=>fa0,20.0=>fb0,30.0=>"fc0",
+ 11.0=>fa1,21.0=>fb1,31.0=>"fc1",
+ 12.0=>fa2,22.0=>fb2,32.0=>"fc2",
+ 13.0=>fa3,23.0=>fb3,33.0=>"fc3",
+ 14.0=>fa4,24.0=>fb4,34.0=>"fc4",
+
+ 15.0=>fa5,25.0=>fb5,35.0=>"fc5",
+ 16.0=>fa6,26.0=>fb6,36.0=>"fc6",
+ 17.0=>fa7,27.0=>fb7,37.0=>"fc7",
+ 18.0=>fa8,28.0=>fb8,38.0=>"fc8",
+ 19.0=>fa9,29.0=>fb9,39.0=>"fc9",
+
+ #{ one => small, map => key } => "small map key 1",
+ #{ second => small, map => key } => "small map key 2",
+ #{ third => small, map => key } => "small map key 3",
+
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } => "large map key 1",
+
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ k16=>a6,k26=>b6,k36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } => "large map key 2" },
+
+ #{10:=a0,20:=b0,30:="c0","40":="d0",<<"50">>:="e0",{["00"]}:="10"} = M5,
+ #{11:=a1,21:=b1,31:="c1","41":="d1",<<"51">>:="e1",{["01"]}:="11"} = M5,
+ #{12:=a2,22:=b2,32:="c2","42":="d2",<<"52">>:="e2",{["02"]}:="12"} = M5,
+ #{13:=a3,23:=b3,33:="c3","43":="d3",<<"53">>:="e3",{["03"]}:="13"} = M5,
+ #{14:=a4,24:=b4,34:="c4","44":="d4",<<"54">>:="e4",{["04"]}:="14"} = M5,
+
+ #{15:=a5,25:=b5,35:="c5","45":="d5",<<"55">>:="e5",{["05"]}:="15"} = M5,
+ #{16:=a6,26:=b6,36:="c6","46":="d6",<<"56">>:="e6",{["06"]}:="16"} = M5,
+ #{17:=a7,27:=b7,37:="c7","47":="d7",<<"57">>:="e7",{["07"]}:="17"} = M5,
+ #{18:=a8,28:=b8,38:="c8","48":="d8",<<"58">>:="e8",{["08"]}:="18"} = M5,
+ #{19:=a9,29:=b9,39:="c9","49":="d9",<<"59">>:="e9",{["09"]}:="19"} = M5,
+
+ #{ #{ one => small, map => key } := "small map key 1",
+ #{ second => small, map => key } := "small map key 2",
+ #{ third => small, map => key } := "small map key 3" } = M5,
+
+ #{ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } := "large map key 1",
+
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ k16=>a6,k26=>b6,k36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } := "large map key 2" } = M5,
+
+ 95 = map_size(M5),
+ 95 = maps:size(M5),
+
+ %% remember
+
+ #{10:=a0,20:=b0,30:="c0","40":="d0",<<"50">>:="e0",{["00"]}:="10"} = M0,
+ #{11:=a1,21:=b1,31:="c1","41":="d1",<<"51">>:="e1",{["01"]}:="11"} = M0,
+ #{12:=a2,22:=b2,32:="c2","42":="d2",<<"52">>:="e2",{["02"]}:="12"} = M0,
+ #{13:=a3,23:=b3,33:="c3","43":="d3",<<"53">>:="e3",{["03"]}:="13"} = M0,
+ #{14:=a4,24:=b4,34:="c4","44":="d4",<<"54">>:="e4",{["04"]}:="14"} = M0,
+
+ #{10:=na0,20:=nb0,30:="nc0","40":="nd0",<<"50">>:="ne0",{["00"]}:="n10"} = M1,
+ #{11:=na1,21:=nb1,31:="nc1","41":="nd1",<<"51">>:="ne1",{["01"]}:="n11"} = M1,
+ #{12:=na2,22:=nb2,32:="nc2","42":="nd2",<<"52">>:="ne2",{["02"]}:="n12"} = M1,
+ #{13:=na3,23:=nb3,33:="nc3","43":="nd3",<<"53">>:="ne3",{["03"]}:="n13"} = M1,
+ #{14:=na4,24:=nb4,34:="nc4","44":="nd4",<<"54">>:="ne4",{["04"]}:="n14"} = M1,
+
+ #{15:=a5,25:=b5,35:="c5","45":="d5",<<"55">>:="e5",{["05"]}:="15"} = M1,
+ #{16:=a6,26:=b6,36:="c6","46":="d6",<<"56">>:="e6",{["06"]}:="16"} = M1,
+ #{17:=a7,27:=b7,37:="c7","47":="d7",<<"57">>:="e7",{["07"]}:="17"} = M1,
+ #{18:=a8,28:=b8,38:="c8","48":="d8",<<"58">>:="e8",{["08"]}:="18"} = M1,
+ #{19:=a9,29:=b9,39:="c9","49":="d9",<<"59">>:="e9",{["09"]}:="19"} = M1,
+
+ #{15:=a5,25:=b5,35:="c5","45":="d5",<<"55">>:="e5",{["05"]}:="15"} = M2,
+ #{16:=a6,26:=b6,36:="c6","46":="d6",<<"56">>:="e6",{["06"]}:="16"} = M2,
+ #{17:=a7,27:=b7,37:="c7","47":="d7",<<"57">>:="e7",{["07"]}:="17"} = M2,
+ #{18:=a8,28:=b8,38:="c8","48":="d8",<<"58">>:="e8",{["08"]}:="18"} = M2,
+ #{19:=a9,29:=b9,39:="c9","49":="d9",<<"59">>:="e9",{["09"]}:="19"} = M2,
+
+ #{10.0:=fa0,20.0:=fb0,30.0:="fc0","40":="d0",<<"50">>:="e0",{["00"]}:="10"} = M2,
+ #{11.0:=fa1,21.0:=fb1,31.0:="fc1","41":="d1",<<"51">>:="e1",{["01"]}:="11"} = M2,
+ #{12.0:=fa2,22.0:=fb2,32.0:="fc2","42":="d2",<<"52">>:="e2",{["02"]}:="12"} = M2,
+ #{13.0:=fa3,23.0:=fb3,33.0:="fc3","43":="d3",<<"53">>:="e3",{["03"]}:="13"} = M2,
+ #{14.0:=fa4,24.0:=fb4,34.0:="fc4","44":="d4",<<"54">>:="e4",{["04"]}:="14"} = M2,
+
+ #{15:=a5,25:=b5,35:="c5","45":="d5",<<"55">>:="e5",{["05"]}:="15"} = M3,
+ #{16:=a6,26:=b6,36:="c6","46":="d6",<<"56">>:="e6",{["06"]}:="16"} = M3,
+ #{17:=a7,27:=b7,37:="c7","47":="d7",<<"57">>:="e7",{["07"]}:="17"} = M3,
+ #{18:=a8,28:=b8,38:="c8","48":="d8",<<"58">>:="e8",{["08"]}:="18"} = M3,
+ #{19:=a9,29:=b9,39:="c9","49":="d9",<<"59">>:="e9",{["09"]}:="19"} = M3,
+
+ #{10.0:=fa0,20.0:=fb0,30.0:="fc0","40":="d0",<<"50">>:="e0",{["00"]}:="10"} = M3,
+ #{11.0:=fa1,21.0:=fb1,31.0:="fc1","41":="d1",<<"51">>:="e1",{["01"]}:="11"} = M3,
+ #{12.0:=fa2,22.0:=fb2,32.0:="fc2","42":="d2",<<"52">>:="e2",{["02"]}:="12"} = M3,
+ #{13.0:=fa3,23.0:=fb3,33.0:="fc3","43":="d3",<<"53">>:="e3",{["03"]}:="13"} = M3,
+ #{14.0:=fa4,24.0:=fb4,34.0:="fc4","44":="d4",<<"54">>:="e4",{["04"]}:="14"} = M3,
+
+ #{15.0:=fa5,25.0:=fb5,35.0:="fc5","45":="d5",<<"55">>:="e5",{["05"]}:="15"} = M3,
+ #{16.0:=fa6,26.0:=fb6,36.0:="fc6","46":="d6",<<"56">>:="e6",{["06"]}:="16"} = M3,
+ #{17.0:=fa7,27.0:=fb7,37.0:="fc7","47":="d7",<<"57">>:="e7",{["07"]}:="17"} = M3,
+ #{18.0:=fa8,28.0:=fb8,38.0:="fc8","48":="d8",<<"58">>:="e8",{["08"]}:="18"} = M3,
+ #{19.0:=fa9,29.0:=fb9,39.0:="fc9","49":="d9",<<"59">>:="e9",{["09"]}:="19"} = M3,
+
+ #{36893488147419103232:=big1,67108863:=big8,"45":="d5",<<"55">>:="e5",{["05"]}:="15"} = M3,
+ #{147573952589676412928:=big3,8589934592:=big6,"46":="d6",<<"56">>:="e6",{["06"]}:="16"} = M3,
+ #{4294967296:=big5,18446744073709551616:=big4,"47":="d7",<<"57">>:="e7",{["07"]}:="17"} = M3,
+ #{4294967295:=big7,73786976294838206464:=big2,"48":="d8",<<"58">>:="e8",{["08"]}:="18"} = M3,
+
+ ok.
+
+
+t_map_size(Config) when is_list(Config) ->
+ 0 = map_size(#{}),
+ 1 = map_size(#{a=>1}),
+ 1 = map_size(#{a=>"wat"}),
+ 2 = map_size(#{a=>1, b=>2}),
+ 3 = map_size(#{a=>1, b=>2, b=>"3","33"=><<"n">>}),
+
+ true = map_is_size(#{a=>1}, 1),
+ true = map_is_size(#{a=>1, a=>2}, 1),
+ M = #{ "a" => 1, "b" => 2},
+ true = map_is_size(M, 2),
+ false = map_is_size(M, 3),
+ true = map_is_size(M#{ "a" => 2}, 2),
+ false = map_is_size(M#{ "c" => 2}, 2),
+
+ Ks = [build_key(fun(K) -> <<1,K:32,1>> end,I)||I<-lists:seq(1,100)],
+ ok = build_and_check_size(Ks,0,#{}),
+
+ %% try deep collisions
+ %% statistically we get another subtree at 50k -> 100k elements
+ %% Try to be nice and don't use too much memory in the testcase,
+
+ N = 500000,
+ Is = lists:seq(1,N),
+ N = map_size(maps:from_list([{I,I}||I<-Is])),
+ N = map_size(maps:from_list([{<<I:32>>,I}||I<-Is])),
+ N = map_size(maps:from_list([{integer_to_list(I),I}||I<-Is])),
+ N = map_size(maps:from_list([{float(I),I}||I<-Is])),
+
+ %% Error cases.
+ do_badmap(fun(T) ->
+ {'EXIT',{{badmap,T},_}} =
+ (catch map_size(T))
+ end),
+ ok.
+
+build_and_check_size([K|Ks],N,M0) ->
+ N = map_size(M0),
+ M1 = M0#{ K => K },
+ build_and_check_size(Ks,N + 1,M1);
+build_and_check_size([],N,M) ->
+ N = map_size(M),
+ ok.
+
+map_is_size(M,N) when map_size(M) =:= N -> true;
+map_is_size(_,_) -> false.
+
+t_is_map(Config) when is_list(Config) ->
+ true = is_map(#{}),
+ true = is_map(#{a=>1}),
+ false = is_map({a,b}),
+ false = is_map(x),
+ if is_map(#{}) -> ok end,
+ if is_map(#{b=>1}) -> ok end,
+ if not is_map([1,2,3]) -> ok end,
+ if not is_map(x) -> ok end,
+ ok.
+
+% test map updates without matching
+t_update_literals_large(Config) when is_list(Config) ->
+ Map = #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19",
+
+ 10.0=>fa0,20.0=>fb0,30.0=>"fc0",
+ 11.0=>fa1,21.0=>fb1,31.0=>"fc1",
+ 12.0=>fa2,22.0=>fb2,32.0=>"fc2",
+ 13.0=>fa3,23.0=>fb3,33.0=>"fc3",
+ 14.0=>fa4,24.0=>fb4,34.0=>"fc4",
+
+ 15.0=>fa5,25.0=>fb5,35.0=>"fc5",
+ 16.0=>fa6,26.0=>fb6,36.0=>"fc6",
+ 17.0=>fa7,27.0=>fb7,37.0=>"fc7",
+ 18.0=>fa8,28.0=>fb8,38.0=>"fc8",
+ 19.0=>fa9,29.0=>fb9,39.0=>"fc9",
+
+ #{ one => small, map => key } => "small map key 1",
+ #{ second => small, map => key } => "small map key 2",
+ #{ third => small, map => key } => "small map key 3",
+
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } => "large map key 1",
+
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ k16=>a6,k26=>b6,k36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } => "large map key 2" },
+
+ #{x:="d",q:="4"} = loop_update_literals_x_q(Map, [
+ {"a","1"},{"b","2"},{"c","3"},{"d","4"}
+ ]),
+ ok.
+
+t_update_literals(Config) when is_list(Config) ->
+ Map = #{x=>1,y=>2,z=>3,q=>4},
+ #{x:="d",q:="4"} = loop_update_literals_x_q(Map, [
+ {"a","1"},{"b","2"},{"c","3"},{"d","4"}
+ ]),
+ ok.
+
+
+loop_update_literals_x_q(Map, []) -> Map;
+loop_update_literals_x_q(Map, [{X,Q}|Vs]) ->
+ loop_update_literals_x_q(Map#{q=>Q,x=>X},Vs).
+
+% test map updates with matching
+t_match_and_update_literals(Config) when is_list(Config) ->
+ Map = #{ x=>0,y=>"untouched",z=>"also untouched",q=>1,
+ #{ "one" => small, map => key } => "small map key 1" },
+ #{x:=16,q:=21,y:="untouched",z:="also untouched"} = loop_match_and_update_literals_x_q(Map, [
+ {1,2},{3,4},{5,6},{7,8}
+ ]),
+ M0 = #{ "hi" => "hello", int => 3, <<"key">> => <<"value">>,
+ 4 => number, 18446744073709551629 => wat},
+ M1 = #{},
+ M2 = M1#{ "hi" => "hello", int => 3, <<"key">> => <<"value">>,
+ 4 => number, 18446744073709551629 => wat},
+ M0 = M2,
+
+ #{ 4 := another_number, int := 3 } = M2#{ 4 => another_number },
+ ok.
+
+t_match_and_update_literals_large(Config) when is_list(Config) ->
+ Map = #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19",
+
+ 10.0=>fa0,20.0=>fb0,30.0=>"fc0",
+ 11.0=>fa1,21.0=>fb1,31.0=>"fc1",
+ 12.0=>fa2,22.0=>fb2,32.0=>"fc2",
+ 13.0=>fa3,23.0=>fb3,33.0=>"fc3",
+ 14.0=>fa4,24.0=>fb4,34.0=>"fc4",
+
+ 15.0=>fa5,25.0=>fb5,35.0=>"fc5",
+ 16.0=>fa6,26.0=>fb6,36.0=>"fc6",
+ 17.0=>fa7,27.0=>fb7,37.0=>"fc7",
+ 18.0=>fa8,28.0=>fb8,38.0=>"fc8",
+ 19.0=>fa9,29.0=>fb9,39.0=>"fc9",
+
+ x=>0,y=>"untouched",z=>"also untouched",q=>1,
+
+ #{ "one" => small, map => key } => "small map key 1",
+ #{ second => small, map => key } => "small map key 2",
+ #{ third => small, map => key } => "small map key 3",
+
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } => "large map key 1",
+
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ k16=>a6,k26=>b6,k36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } => "large map key 2" },
+
+ #{x:=16,q:=21,y:="untouched",z:="also untouched"} = loop_match_and_update_literals_x_q(Map, [
+ {1,2},{3,4},{5,6},{7,8}
+ ]),
+ M0 = Map#{ "hi" => "hello", int => 3, <<"key">> => <<"value">>,
+ 4 => number, 18446744073709551629 => wat},
+ M1 = Map#{},
+ M2 = M1#{ "hi" => "hello", int => 3, <<"key">> => <<"value">>,
+ 4 => number, 18446744073709551629 => wat},
+ M0 = M2,
+
+ #{ 4 := another_number, int := 3 } = M2#{ 4 => another_number },
+ ok.
+
+
+loop_match_and_update_literals_x_q(Map, []) -> Map;
+loop_match_and_update_literals_x_q(#{ q:=Q0, x:=X0,
+ #{ "one" => small, map => key } := "small map key 1" } = Map, [{X,Q}|Vs]) ->
+ loop_match_and_update_literals_x_q(Map#{q=>Q0+Q,x=>X0+X},Vs).
+
+
+t_update_map_expressions(Config) when is_list(Config) ->
+ M = maps:new(),
+ #{ a := 1 } = M#{a => 1},
+
+ #{ b := 2 } = (maps:new())#{ b => 2 },
+
+ #{ a :=42, b:=42, c:=42 } = (maps:from_list([{a,1},{b,2},{c,3}]))#{ a := 42, b := 42, c := 42 },
+ #{ "a" :=1, "b":=42, "c":=42 } = (maps:from_list([{"a",1},{"b",2}]))#{ "b" := 42, "c" => 42 },
+ Ks = lists:seq($a,$z),
+ #{ "aa" := {$a,$a}, "ac":=41, "dc":=42 } =
+ (maps:from_list([{[K1,K2],{K1,K2}}|| K1 <- Ks, K2 <- Ks]))#{ "ac" := 41, "dc" => 42 },
+
+ %% Error cases.
+ do_badmap(fun(T) ->
+ {'EXIT',{{badmap,T},_}} =
+ (catch (T)#{a:=42,b=>2})
+ end),
+ ok.
+
+t_update_assoc(Config) when is_list(Config) ->
+ M0 = #{1=>a,2=>b,3.0=>c,4=>d,5=>e},
+
+ M1 = M0#{1=>42,2=>100,4=>[a,b,c]},
+ #{1:=42,2:=100,3.0:=c,4:=[a,b,c],5:=e} = M1,
+ #{1:=42,2:=b,4:=d,5:=e,2.0:=100,3.0:=c,4.0:=[a,b,c]} = M0#{1.0=>float,1:=42,2.0=>wrong,2.0=>100,4.0=>[a,b,c]},
+
+ M2 = M0#{3.0=>new},
+ #{1:=a,2:=b,3.0:=new,4:=d,5:=e} = M2,
+ M2 = M0#{3.0:=wrong,3.0=>new},
+
+ %% Errors cases.
+ do_badmap(fun(T) ->
+ {'EXIT',{{badmap,T},_}} =
+ (catch T#{nonexisting=>val})
+ end),
+ ok.
+
+
+t_update_assoc_large(Config) when is_list(Config) ->
+ M0 = #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19",
+
+ 10.0=>fa0,20.0=>fb0,30.0=>"fc0",
+ 11.0=>fa1,21.0=>fb1,31.0=>"fc1",
+ 12.0=>fa2,22.0=>fb2,32.0=>"fc2",
+ 13.0=>fa3,23.0=>fb3,33.0=>"fc3",
+ 14.0=>fa4,24.0=>fb4,34.0=>"fc4",
+
+ 15.0=>fa5,25.0=>fb5,35.0=>"fc5",
+ 16.0=>fa6,26.0=>fb6,36.0=>"fc6",
+ 17.0=>fa7,27.0=>fb7,37.0=>"fc7",
+ 18.0=>fa8,28.0=>fb8,38.0=>"fc8",
+ 19.0=>fa9,29.0=>fb9,39.0=>"fc9",
+
+ #{ one => small, map => key } => "small map key 1",
+ #{ second => small, map => key } => "small map key 2",
+ #{ third => small, map => key } => "small map key 3",
+
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } => "large map key 1",
+
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ k16=>a6,k26=>b6,k36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } => "large map key 2" },
+
+
+ M1 = M0#{1=>42,2=>100,4=>[a,b,c]},
+ #{1:=42,2:=100,10.0:=fa0,4:=[a,b,c],25:=b5} = M1,
+ #{ 10:=43, 24:=b4, 15:=a5, 35:="c5", 2.0:=100, 13.0:=fa3, 4.0:=[a,b,c]} =
+ M0#{1.0=>float,10:=43,2.0=>wrong,2.0=>100,4.0=>[a,b,c]},
+
+ M2 = M0#{13.0=>new},
+ #{10:=a0,20:=b0,13.0:=new,"40":="d0",<<"50">>:="e0"} = M2,
+ M2 = M0#{13.0:=wrong,13.0=>new},
+
+ ok.
+
+t_update_exact(Config) when is_list(Config) ->
+ M0 = #{1=>a,2=>b,3.0=>c,4=>d,5=>e},
+
+ M1 = M0#{1:=42,2:=100,4:=[a,b,c]},
+ #{1:=42,2:=100,3.0:=c,4:=[a,b,c],5:=e} = M1,
+ M1 = M0#{1:=wrong,1=>42,2=>wrong,2:=100,4:=[a,b,c]},
+
+ M2 = M0#{3.0:=new},
+ #{1:=a,2:=b,3.0:=new,4:=d,5:=e} = M2,
+ M2 = M0#{3.0=>wrong,3.0:=new},
+ true = M2 =/= M0#{3=>right,3.0:=new},
+ #{ 3 := right, 3.0 := new } = M0#{3=>right,3.0:=new},
+
+ M3 = #{ 1 => val},
+ #{1 := update2,1.0 := new_val4} = M3#{
+ 1.0 => new_val1, 1 := update, 1=> update3,
+ 1 := update2, 1.0 := new_val2, 1.0 => new_val3,
+ 1.0 => new_val4 },
+
+ %% Errors cases.
+ do_badmap(fun(T) ->
+ {'EXIT',{{badmap,T},_}} =
+ (catch T#{nonexisting=>val})
+ end),
+ Empty = #{},
+ {'EXIT',{{badkey,nonexisting},_}} = (catch Empty#{nonexisting:=val}),
+ {'EXIT',{{badkey,nonexisting},_}} = (catch M0#{nonexisting:=val}),
+ {'EXIT',{{badkey,1.0},_}} = (catch M0#{1.0:=v,1.0=>v2}),
+ {'EXIT',{{badkey,42},_}} = (catch M0#{42.0:=v,42:=v2}),
+ {'EXIT',{{badkey,42.0},_}} = (catch M0#{42=>v1,42.0:=v2,42:=v3}),
+
+ ok.
+
+t_update_exact_large(Config) when is_list(Config) ->
+ M0 = #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19",
+
+ 10.0=>fa0,20.0=>fb0,30.0=>"fc0",
+ 11.0=>fa1,21.0=>fb1,31.0=>"fc1",
+ 12.0=>fa2,22.0=>fb2,32.0=>"fc2",
+ 13.0=>fa3,23.0=>fb3,33.0=>"fc3",
+ 14.0=>fa4,24.0=>fb4,34.0=>"fc4",
+
+ 15.0=>fa5,25.0=>fb5,35.0=>"fc5",
+ 16.0=>fa6,26.0=>fb6,36.0=>"fc6",
+ 17.0=>fa7,27.0=>fb7,37.0=>"fc7",
+ 18.0=>fa8,28.0=>fb8,38.0=>"fc8",
+ 19.0=>fa9,29.0=>fb9,39.0=>"fc9",
+
+ #{ one => small, map => key } => "small map key 1",
+ #{ second => small, map => key } => "small map key 2",
+ #{ third => small, map => key } => "small map key 3",
+
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } => "large map key 1",
+
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ k16=>a6,k26=>b6,k36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } => "large map key 2" },
+
+
+ M1 = M0#{10:=42,<<"55">>:=100,10.0:=[a,b,c]},
+ #{ 10:=42,<<"55">>:=100,{["05"]}:="15",10.0:=[a,b,c],
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } := "large map key 1" } = M1,
+
+ M1 = M0#{10:=wrong,10=>42,<<"55">>=>wrong,<<"55">>:=100,10.0:=[a,b,c]},
+
+ M2 = M0#{13.0:=new},
+ #{10:=a0,20:=b0,13.0:=new} = M2,
+ M2 = M0#{13.0=>wrong,13.0:=new},
+
+ %% Errors cases.
+ {'EXIT',{{badkey,nonexisting},_}} = (catch M0#{nonexisting:=val}),
+ {'EXIT',{{badkey,1.0},_}} = (catch M0#{1.0:=v,1.0=>v2}),
+ {'EXIT',{{badkey,42},_}} = (catch M0#{42.0:=v,42:=v2}),
+ {'EXIT',{{badkey,42.0},_}} = (catch M0#{42=>v1,42.0:=v2,42:=v3}),
+
+ ok.
+
+t_update_deep(Config) when is_list(Config) ->
+ N = 250000,
+ M0 = maps:from_list([{integer_to_list(I),a}||I<-lists:seq(1,N)]),
+ #{ "1" := a, "10" := a, "100" := a, "1000" := a, "10000" := a } = M0,
+
+ M1 = M0#{ "1" := b, "10" := b, "100" := b, "1000" := b, "10000" := b },
+ #{ "1" := a, "10" := a, "100" := a, "1000" := a, "10000" := a } = M0,
+ #{ "1" := b, "10" := b, "100" := b, "1000" := b, "10000" := b } = M1,
+
+ M2 = M0#{ "1" => c, "10" => c, "100" => c, "1000" => c, "10000" => c },
+ #{ "1" := a, "10" := a, "100" := a, "1000" := a, "10000" := a } = M0,
+ #{ "1" := b, "10" := b, "100" := b, "1000" := b, "10000" := b } = M1,
+ #{ "1" := c, "10" := c, "100" := c, "1000" := c, "10000" := c } = M2,
+
+ M3 = M2#{ "n1" => d, "n10" => d, "n100" => d, "n1000" => d, "n10000" => d },
+ #{ "1" := a, "10" := a, "100" := a, "1000" := a, "10000" := a } = M0,
+ #{ "1" := b, "10" := b, "100" := b, "1000" := b, "10000" := b } = M1,
+ #{ "1" := c, "10" := c, "100" := c, "1000" := c, "10000" := c } = M2,
+ #{ "1" := c, "10" := c, "100" := c, "1000" := c, "10000" := c } = M3,
+ #{ "n1" := d, "n10" := d, "n100" := d, "n1000" := d, "n10000" := d } = M3,
+ ok.
+
+t_guard_bifs(Config) when is_list(Config) ->
+ true = map_guard_head(#{a=>1}),
+ false = map_guard_head([]),
+ true = map_guard_body(#{a=>1}),
+ false = map_guard_body({}),
+ true = map_guard_pattern(#{a=>1, <<"hi">> => "hi" }),
+ false = map_guard_pattern("list"),
+ ok.
+
+map_guard_head(M) when is_map(M) -> true;
+map_guard_head(_) -> false.
+
+map_guard_body(M) -> is_map(M).
+
+map_guard_pattern(#{}) -> true;
+map_guard_pattern(_) -> false.
+
+t_guard_sequence(Config) when is_list(Config) ->
+ {1, "a"} = map_guard_sequence_1(#{seq=>1,val=>"a"}),
+ {2, "b"} = map_guard_sequence_1(#{seq=>2,val=>"b"}),
+ {3, "c"} = map_guard_sequence_1(#{seq=>3,val=>"c"}),
+ {4, "d"} = map_guard_sequence_1(#{seq=>4,val=>"d"}),
+ {5, "e"} = map_guard_sequence_1(#{seq=>5,val=>"e"}),
+
+ {1,M1} = map_guard_sequence_2(M1 = #{a=>3}),
+ {2,M2} = map_guard_sequence_2(M2 = #{a=>4, b=>4}),
+ {3,gg,M3} = map_guard_sequence_2(M3 = #{a=>gg, b=>4}),
+ {4,sc,sc,M4} = map_guard_sequence_2(M4 = #{a=>sc, b=>3, c=>sc2}),
+ {5,kk,kk,M5} = map_guard_sequence_2(M5 = #{a=>kk, b=>other, c=>sc2}),
+
+ %% error case
+ {'EXIT',{function_clause,_}} = (catch map_guard_sequence_1(#{seq=>6,val=>"e"})),
+ {'EXIT',{function_clause,_}} = (catch map_guard_sequence_2(#{b=>5})),
+ ok.
+
+t_guard_sequence_large(Config) when is_list(Config) ->
+ M0 = #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00",03]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01",03]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02",03]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03",03]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04",03]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05",03]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06",03]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07",03]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08",03]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09",03]}=>"19",
+
+ 10.0=>fa0,20.0=>fb0,30.0=>"fc0",
+ 11.0=>fa1,21.0=>fb1,31.0=>"fc1",
+ 12.0=>fa2,22.0=>fb2,32.0=>"fc2",
+ 13.0=>fa3,23.0=>fb3,33.0=>"fc3",
+ 14.0=>fa4,24.0=>fb4,34.0=>"fc4",
+
+ 15.0=>fa5,25.0=>fb5,35.0=>"fc5",
+ 16.0=>fa6,26.0=>fb6,36.0=>"fc6",
+ 17.0=>fa7,27.0=>fb7,37.0=>"fc7",
+ 18.0=>fa8,28.0=>fb8,38.0=>"fc8",
+ 19.0=>fa9,29.0=>fb9,39.0=>"fc9",
+
+ #{ one => small, map => key } => "small map key 1",
+ #{ second => small, map => key } => "small map key 2",
+ #{ third => small, map => key } => "small map key 3",
+
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } => "large map key 1",
+
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ k16=>a6,k26=>b6,k36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } => "large map key 2" },
+
+ {1, "a"} = map_guard_sequence_1(M0#{seq=>1,val=>"a"}),
+ {2, "b"} = map_guard_sequence_1(M0#{seq=>2,val=>"b"}),
+ {3, "c"} = map_guard_sequence_1(M0#{seq=>3,val=>"c"}),
+ {4, "d"} = map_guard_sequence_1(M0#{seq=>4,val=>"d"}),
+ {5, "e"} = map_guard_sequence_1(M0#{seq=>5,val=>"e"}),
+
+ {1,M1} = map_guard_sequence_2(M1 = M0#{a=>3}),
+ {2,M2} = map_guard_sequence_2(M2 = M0#{a=>4, b=>4}),
+ {3,gg,M3} = map_guard_sequence_2(M3 = M0#{a=>gg, b=>4}),
+ {4,sc,sc,M4} = map_guard_sequence_2(M4 = M0#{a=>sc, b=>3, c=>sc2}),
+ {5,kk,kk,M5} = map_guard_sequence_2(M5 = M0#{a=>kk, b=>other, c=>sc2}),
+
+ {'EXIT',{function_clause,_}} = (catch map_guard_sequence_1(M0#{seq=>6,val=>"e"})),
+ {'EXIT',{function_clause,_}} = (catch map_guard_sequence_2(M0#{b=>5})),
+ ok.
+
+
+map_guard_sequence_1(#{seq:=1=Seq, val:=Val}) -> {Seq,Val};
+map_guard_sequence_1(#{seq:=2=Seq, val:=Val}) -> {Seq,Val};
+map_guard_sequence_1(#{seq:=3=Seq, val:=Val}) -> {Seq,Val};
+map_guard_sequence_1(#{seq:=4=Seq, val:=Val}) -> {Seq,Val};
+map_guard_sequence_1(#{seq:=5=Seq, val:=Val}) -> {Seq,Val}.
+
+map_guard_sequence_2(#{ a:=3 }=M) -> {1, M};
+map_guard_sequence_2(#{ a:=4 }=M) -> {2, M};
+map_guard_sequence_2(#{ a:=X, a:=X, b:=4 }=M) -> {3,X,M};
+map_guard_sequence_2(#{ a:=X, a:=Y, b:=3 }=M) when X =:= Y -> {4,X,Y,M};
+map_guard_sequence_2(#{ a:=X, a:=Y }=M) when X =:= Y -> {5,X,Y,M}.
+
+
+t_guard_update(Config) when is_list(Config) ->
+ error = map_guard_update(#{},#{}),
+ first = map_guard_update(#{}, #{x=>first}),
+ second = map_guard_update(#{y=>old}, #{x=>second,y=>old}),
+ ok.
+
+t_guard_update_large(Config) when is_list(Config) ->
+ M0 = #{ 70=>a0,80=>b0,90=>"c0","40"=>"d0",<<"50">>=>"e0",{["00",03]}=>"10",
+ 71=>a1,81=>b1,91=>"c1","41"=>"d1",<<"51">>=>"e1",{["01",03]}=>"11",
+ 72=>a2,82=>b2,92=>"c2","42"=>"d2",<<"52">>=>"e2",{["02",03]}=>"12",
+ 73=>a3,83=>b3,93=>"c3","43"=>"d3",<<"53">>=>"e3",{["03",03]}=>"13",
+ 74=>a4,84=>b4,94=>"c4","44"=>"d4",<<"54">>=>"e4",{["04",03]}=>"14",
+
+ 75=>a5,85=>b5,95=>"c5","45"=>"d5",<<"55">>=>"e5",{["05",03]}=>"15",
+ 76=>a6,86=>b6,96=>"c6","46"=>"d6",<<"56">>=>"e6",{["06",03]}=>"16",
+ 77=>a7,87=>b7,97=>"c7","47"=>"d7",<<"57">>=>"e7",{["07",03]}=>"17",
+ 78=>a8,88=>b8,98=>"c8","48"=>"d8",<<"58">>=>"e8",{["08",03]}=>"18",
+ 79=>a9,89=>b9,99=>"c9","49"=>"d9",<<"59">>=>"e9",{["09",03]}=>"19",
+
+ 70.0=>fa0,80.0=>fb0,90.0=>"fc0",
+ 71.0=>fa1,81.0=>fb1,91.0=>"fc1",
+ 72.0=>fa2,82.0=>fb2,92.0=>"fc2",
+ 73.0=>fa3,83.0=>fb3,93.0=>"fc3",
+ 74.0=>fa4,84.0=>fb4,94.0=>"fc4",
+
+ 75.0=>fa5,85.0=>fb5,95.0=>"fc5",
+ 76.0=>fa6,86.0=>fb6,96.0=>"fc6",
+ 77.0=>fa7,87.0=>fb7,97.0=>"fc7",
+ 78.0=>fa8,88.0=>fb8,98.0=>"fc8",
+ 79.0=>fa9,89.0=>fb9,99.0=>"fc9",
+
+ #{ one => small, map => key } => "small map key 1",
+ #{ second => small, map => key } => "small map key 2",
+ #{ third => small, map => key } => "small map key 3",
+
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ 16=>a6,26=>b6,36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } => "large map key 1",
+
+ #{ 10=>a0,20=>b0,30=>"c0","40"=>"d0",<<"50">>=>"e0",{["00"]}=>"10",
+ 11=>a1,21=>b1,31=>"c1","41"=>"d1",<<"51">>=>"e1",{["01"]}=>"11",
+ 12=>a2,22=>b2,32=>"c2","42"=>"d2",<<"52">>=>"e2",{["02"]}=>"12",
+ 13=>a3,23=>b3,33=>"c3","43"=>"d3",<<"53">>=>"e3",{["03"]}=>"13",
+ 14=>a4,24=>b4,34=>"c4","44"=>"d4",<<"54">>=>"e4",{["04"]}=>"14",
+
+ 15=>a5,25=>b5,35=>"c5","45"=>"d5",<<"55">>=>"e5",{["05"]}=>"15",
+ k16=>a6,k26=>b6,k36=>"c6","46"=>"d6",<<"56">>=>"e6",{["06"]}=>"16",
+ 17=>a7,27=>b7,37=>"c7","47"=>"d7",<<"57">>=>"e7",{["07"]}=>"17",
+ 18=>a8,28=>b8,38=>"c8","48"=>"d8",<<"58">>=>"e8",{["08"]}=>"18",
+ 19=>a9,29=>b9,39=>"c9","49"=>"d9",<<"59">>=>"e9",{["09"]}=>"19" } => "large map key 2" },
+
+
+ error = map_guard_update(M0#{},M0#{}),
+ first = map_guard_update(M0#{},M0#{x=>first}),
+ second = map_guard_update(M0#{y=>old}, M0#{x=>second,y=>old}),
+ ok.
+
+
+map_guard_update(M1, M2) when M1#{x=>first} =:= M2 -> first;
+map_guard_update(M1, M2) when M1#{x=>second} =:= M2 -> second;
+map_guard_update(_, _) -> error.
+
+t_guard_receive(Config) when is_list(Config) ->
+ M0 = #{ id => 0 },
+ Pid = spawn_link(fun() -> guard_receive_loop() end),
+ Big = 36893488147419103229,
+ B1 = <<"some text">>,
+ B2 = <<"was appended">>,
+ B3 = <<B1/binary, B2/binary>>,
+
+ #{id:=1, res:=Big} = M1 = call(Pid, M0#{op=>sub,in=>{1 bsl 65, 3}}),
+ #{id:=2, res:=26} = M2 = call(Pid, M1#{op=>idiv,in=>{53,2}}),
+ #{id:=3, res:=832} = M3 = call(Pid, M2#{op=>imul,in=>{26,32}}),
+ #{id:=4, res:=4} = M4 = call(Pid, M3#{op=>add,in=>{1,3}}),
+ #{id:=5, res:=Big} = M5 = call(Pid, M4#{op=>sub,in=>{1 bsl 65, 3}}),
+ #{id:=6, res:=B3} = M6 = call(Pid, M5#{op=>"append",in=>{B1,B2}}),
+ #{id:=7, res:=4} = _ = call(Pid, M6#{op=>add,in=>{1,3}}),
+
+
+ %% update old maps and check id update
+ #{id:=2, res:=B3} = call(Pid, M1#{op=>"append",in=>{B1,B2}}),
+ #{id:=5, res:=99} = call(Pid, M4#{op=>add,in=>{33, 66}}),
+
+ %% cleanup
+ done = call(Pid, done),
+ ok.
+
+-define(t_guard_receive_large_procs, 1500).
+
+t_guard_receive_large(Config) when is_list(Config) ->
+ M = lists:foldl(fun(_,#{procs := Ps } = M) ->
+ M#{ procs := Ps#{ spawn_link(fun() -> grecv_loop() end) => 0 }}
+ end, #{procs => #{}, done => 0}, lists:seq(1,?t_guard_receive_large_procs)),
+ lists:foreach(fun(Pid) ->
+ Pid ! {self(), hello}
+ end, maps:keys(maps:get(procs,M))),
+ ok = guard_receive_large_loop(M),
+ ok.
+
+guard_receive_large_loop(#{done := ?t_guard_receive_large_procs}) ->
+ ok;
+guard_receive_large_loop(M) ->
+ receive
+ #{pid := Pid, msg := hello} ->
+ case M of
+ #{done := Count, procs := #{Pid := 150}} ->
+ Pid ! {self(), done},
+ guard_receive_large_loop(M#{done := Count + 1});
+ #{procs := #{Pid := Count} = Ps} ->
+ Pid ! {self(), hello},
+ guard_receive_large_loop(M#{procs := Ps#{Pid := Count + 1}})
+ end
+ end.
+
+grecv_loop() ->
+ receive
+ {_, done} ->
+ ok;
+ {Pid, hello} ->
+ Pid ! #{pid=>self(), msg=>hello},
+ grecv_loop()
+ end.
+
+call(Pid, M) ->
+ Pid ! {self(), M}, receive {Pid, Res} -> Res end.
+
+guard_receive_loop() ->
+ receive
+ {Pid, #{ id:=Id, op:="append", in:={X,Y}}=M} when is_binary(X), is_binary(Y) ->
+ Pid ! {self(), M#{ id=>Id+1, res=><<X/binary,Y/binary>>}},
+ guard_receive_loop();
+ {Pid, #{ id:=Id, op:=add, in:={X,Y}}} ->
+ Pid ! {self(), #{ id=>Id+1, res=>X+Y}},
+ guard_receive_loop();
+ {Pid, #{ id:=Id, op:=sub, in:={X,Y}}=M} ->
+ Pid ! {self(), M#{ id=>Id+1, res=>X-Y}},
+ guard_receive_loop();
+ {Pid, #{ id:=Id, op:=idiv, in:={X,Y}}=M} ->
+ Pid ! {self(), M#{ id=>Id+1, res=>X div Y}},
+ guard_receive_loop();
+ {Pid, #{ id:=Id, op:=imul, in:={X,Y}}=M} ->
+ Pid ! {self(), M#{ id=>Id+1, res=>X * Y}},
+ guard_receive_loop();
+ {Pid, done} ->
+ Pid ! {self(), done};
+ {Pid, Other} ->
+ Pid ! {error, Other},
+ guard_receive_loop()
+ end.
+
+
+t_list_comprehension(Config) when is_list(Config) ->
+ [#{k:=1},#{k:=2},#{k:=3}] = [#{k=>I} || I <- [1,2,3]],
+
+ Ks = lists:seq($a,$z),
+ Ms = [#{[K1,K2]=>{K1,K2}} || K1 <- Ks, K2 <- Ks],
+ [#{"aa" := {$a,$a}},#{"ab":={$a,$b}}|_] = Ms,
+ [#{"zz" := {$z,$z}},#{"zy":={$z,$y}}|_] = lists:reverse(Ms),
+ ok.
+
+t_guard_fun(Config) when is_list(Config) ->
+ F1 = fun
+ (#{s:=v,v:=V}) -> {v,V};
+ (#{s:=t,v:={V,V}}) -> {t,V};
+ (#{s:=l,v:=[V,V]}) -> {l,V}
+ end,
+
+ F2 = fun
+ (#{s:=T,v:={V,V}}) -> {T,V};
+ (#{s:=T,v:=[V,V]}) -> {T,V};
+ (#{s:=T,v:=V}) -> {T,V}
+ end,
+ V = <<"hi">>,
+
+ {v,V} = F1(#{s=>v,v=>V}),
+ {t,V} = F1(#{s=>t,v=>{V,V}}),
+ {l,V} = F1(#{s=>l,v=>[V,V]}),
+
+ {v,V} = F2(#{s=>v,v=>V}),
+ {t,V} = F2(#{s=>t,v=>{V,V}}),
+ {l,V} = F2(#{s=>l,v=>[V,V]}),
+
+ %% error case
+ {'EXIT', {function_clause,[{?MODULE,_,[#{s:=none,v:=none}],_}|_]}} = (catch F1(#{s=>none,v=>none})),
+ ok.
+
+
+t_map_sort_literals(Config) when is_list(Config) ->
+ % test relation
+
+ %% size order
+ true = #{ a => 1, b => 2} < #{ a => 1, b => 1, c => 1},
+ true = #{ b => 1, a => 1} < #{ c => 1, a => 1, b => 1},
+ false = #{ c => 1, b => 1, a => 1} < #{ c => 1, a => 1},
+
+ %% key order
+ true = #{ a => 1 } < #{ b => 1},
+ false = #{ b => 1 } < #{ a => 1},
+ true = #{ a => 1, b => 1, c => 1 } < #{ b => 1, c => 1, d => 1},
+ true = #{ b => 1, c => 1, d => 1 } > #{ a => 1, b => 1, c => 1},
+ true = #{ c => 1, b => 1, a => 1 } < #{ b => 1, c => 1, d => 1},
+ true = #{ "a" => 1 } < #{ <<"a">> => 1},
+ false = #{ <<"a">> => 1 } < #{ "a" => 1},
+ true = #{ 1 => 1 } < #{ 1.0 => 1},
+ false = #{ 1.0 => 1 } < #{ 1 => 1},
+
+ %% value order
+ true = #{ a => 1 } < #{ a => 2},
+ false = #{ a => 2 } < #{ a => 1},
+ false = #{ a => 2, b => 1 } < #{ a => 1, b => 3},
+ true = #{ a => 1, b => 1 } < #{ a => 1, b => 3},
+ false = #{ a => 1 } < #{ a => 1.0},
+ false = #{ a => 1.0 } < #{ a => 1},
+
+ true = #{ "a" => "hi", b => 134 } == #{ b => 134,"a" => "hi"},
+
+ %% large maps
+
+ M = maps:from_list([{I,I}||I <- lists:seq(1,500)]),
+
+ %% size order
+ true = M#{ a => 1, b => 2} < M#{ a => 1, b => 1, c => 1},
+ true = M#{ b => 1, a => 1} < M#{ c => 1, a => 1, b => 1},
+ false = M#{ c => 1, b => 1, a => 1} < M#{ c => 1, a => 1},
+
+ %% key order
+ true = M#{ a => 1 } < M#{ b => 1},
+ false = M#{ b => 1 } < M#{ a => 1},
+ true = M#{ a => 1, b => 1, c => 1 } < M#{ b => 1, c => 1, d => 1},
+ true = M#{ b => 1, c => 1, d => 1 } > M#{ a => 1, b => 1, c => 1},
+ true = M#{ c => 1, b => 1, a => 1 } < M#{ b => 1, c => 1, d => 1},
+ true = M#{ "a" => 1 } < M#{ <<"a">> => 1},
+ false = M#{ <<"a">> => 1 } < #{ "a" => 1},
+ true = M#{ 1 => 1 } < maps:remove(1,M#{ 1.0 => 1}),
+ false = M#{ 1.0 => 1 } < M#{ 1 => 1},
+
+ %% value order
+ true = M#{ a => 1 } < M#{ a => 2},
+ false = M#{ a => 2 } < M#{ a => 1},
+ false = M#{ a => 2, b => 1 } < M#{ a => 1, b => 3},
+ true = M#{ a => 1, b => 1 } < M#{ a => 1, b => 3},
+ false = M#{ a => 1 } < M#{ a => 1.0},
+ false = M#{ a => 1.0 } < M#{ a => 1},
+
+ true = M#{ "a" => "hi", b => 134 } == M#{ b => 134,"a" => "hi"},
+
+ %% lists:sort
+
+ SortVs = [#{"a"=>1},#{a=>2},#{1=>3},#{<<"a">>=>4}],
+ [#{1:=ok},#{a:=ok},#{"a":=ok},#{<<"a">>:=ok}] = lists:sort([#{"a"=>ok},#{a=>ok},#{1=>ok},#{<<"a">>=>ok}]),
+ [#{1:=3},#{a:=2},#{"a":=1},#{<<"a">>:=4}] = lists:sort(SortVs),
+ [#{1:=3},#{a:=2},#{"a":=1},#{<<"a">>:=4}] = lists:sort(lists:reverse(SortVs)),
+ ok.
+
+t_map_equal(Config) when is_list(Config) ->
+ true = #{} =:= #{},
+ false = #{} =:= #{a=>1},
+ false = #{a=>1} =:= #{},
+ true = #{ "a" => "hi", b => 134 } =:= #{ b => 134,"a" => "hi"},
+
+ false = #{ a => 1 } =:= #{ a => 2},
+ false = #{ a => 2 } =:= #{ a => 1},
+ false = #{ a => 2, b => 1 } =:= #{ a => 1, b => 3},
+ false = #{ a => 1, b => 1 } =:= #{ a => 1, b => 3},
+
+ true = #{ a => 1 } =:= #{ a => 1},
+ true = #{ "a" => 2 } =:= #{ "a" => 2},
+ true = #{ "a" => 2, b => 3 } =:= #{ "a" => 2, b => 3},
+ true = #{ a => 1, b => 3, c => <<"wat">> } =:= #{ a => 1, b => 3, c=><<"wat">>},
+ ok.
+
+
+t_map_compare(Config) when is_list(Config) ->
+ Seed = {erlang:monotonic_time(),
+ erlang:time_offset(),
+ erlang:unique_integer()},
+ io:format("seed = ~p\n", [Seed]),
+ random:seed(Seed),
+ repeat(100, fun(_) -> float_int_compare() end, []),
+ repeat(100, fun(_) -> recursive_compare() end, []),
+ ok.
+
+float_int_compare() ->
+ Terms = numeric_keys(3),
+ %%io:format("Keys to use: ~p\n", [Terms]),
+ Pairs = lists:map(fun(K) -> list_to_tuple([{K,V} || V <- Terms]) end, Terms),
+ lists:foreach(fun(Size) ->
+ MapGen = fun() -> map_gen(list_to_tuple(Pairs), Size) end,
+ repeat(100, fun do_compare/1, [MapGen, MapGen])
+ end,
+ lists:seq(1,length(Terms))),
+ ok.
+
+numeric_keys(N) ->
+ lists:foldl(fun(_,Acc) ->
+ Int = random:uniform(N*4) - N*2,
+ Float = float(Int),
+ [Int, Float, Float * 0.99, Float * 1.01 | Acc]
+ end,
+ [],
+ lists:seq(1,N)).
+
+
+repeat(0, _, _) ->
+ ok;
+repeat(N, Fun, Arg) ->
+ Fun(Arg),
+ repeat(N-1, Fun, Arg).
+
+copy_term(T) ->
+ Papa = self(),
+ P = spawn_link(fun() -> receive Msg -> Papa ! Msg end end),
+ P ! T,
+ receive R -> R end.
+
+do_compare([Gen1, Gen2]) ->
+ M1 = Gen1(),
+ M2 = Gen2(),
+ %%io:format("Maps to compare: ~p AND ~p\n", [M1, M2]),
+ C = (M1 < M2),
+ Erlang = maps_lessthan(M1, M2),
+ C = Erlang,
+ ?CHECK(M1==M1, M1),
+
+ %% Change one key from int to float (or vice versa) and check compare
+ ML1 = maps:to_list(M1),
+ {K1,V1} = lists:nth(random:uniform(length(ML1)), ML1),
+ case K1 of
+ I when is_integer(I) ->
+ case maps:find(float(I),M1) of
+ error ->
+ M1f = maps:remove(I, maps:put(float(I), V1, M1)),
+ ?CHECK(M1f > M1, [M1f, M1]);
+ _ -> ok
+ end;
+
+ F when is_float(F), round(F) == F ->
+ case maps:find(round(F),M1) of
+ error ->
+ M1i = maps:remove(F, maps:put(round(F), V1, M1)),
+ ?CHECK(M1i < M1, [M1i, M1]);
+ _ -> ok
+ end;
+
+ _ -> ok % skip floats with decimals
+ end,
+
+ ?CHECK(M2 == M2, [M2]).
+
+
+maps_lessthan(M1, M2) ->
+ case {maps:size(M1),maps:size(M2)} of
+ {_S,_S} ->
+ {K1,V1} = lists:unzip(term_sort(maps:to_list(M1))),
+ {K2,V2} = lists:unzip(term_sort(maps:to_list(M2))),
+
+ case erts_internal:cmp_term(K1,K2) of
+ -1 -> true;
+ 0 -> (V1 < V2);
+ 1 -> false
+ end;
+
+ {S1, S2} ->
+ S1 < S2
+ end.
+
+term_sort(L) ->
+ lists:sort(fun(A,B) -> erts_internal:cmp_term(A,B) =< 0 end,
+ L).
+
+
+cmp(T1, T2, Exact) when is_tuple(T1) and is_tuple(T2) ->
+ case {size(T1),size(T2)} of
+ {_S,_S} -> cmp(tuple_to_list(T1), tuple_to_list(T2), Exact);
+ {S1,S2} when S1 < S2 -> -1;
+ {S1,S2} when S1 > S2 -> 1
+ end;
+
+cmp([H1|T1], [H2|T2], Exact) ->
+ case cmp(H1,H2, Exact) of
+ 0 -> cmp(T1,T2, Exact);
+ C -> C
+ end;
+
+cmp(M1, M2, Exact) when is_map(M1) andalso is_map(M2) ->
+ cmp_maps(M1,M2,Exact);
+cmp(M1, M2, Exact) ->
+ cmp_others(M1, M2, Exact).
+
+cmp_maps(M1, M2, Exact) ->
+ case {maps:size(M1),maps:size(M2)} of
+ {_S,_S} ->
+ {K1,V1} = lists:unzip(term_sort(maps:to_list(M1))),
+ {K2,V2} = lists:unzip(term_sort(maps:to_list(M2))),
+
+ case cmp(K1, K2, true) of
+ 0 -> cmp(V1, V2, Exact);
+ C -> C
+ end;
+
+ {S1,S2} when S1 < S2 -> -1;
+ {S1,S2} when S1 > S2 -> 1
+ end.
+
+cmp_others(I, F, true) when is_integer(I), is_float(F) ->
+ -1;
+cmp_others(F, I, true) when is_float(F), is_integer(I) ->
+ 1;
+cmp_others(T1, T2, _) ->
+ case {T1<T2, T1==T2} of
+ {true,false} -> -1;
+ {false,true} -> 0;
+ {false,false} -> 1
+ end.
+
+map_gen(Pairs, Size) ->
+ {_,L} = lists:foldl(fun(_, {Keys, Acc}) ->
+ KI = random:uniform(size(Keys)),
+ K = element(KI,Keys),
+ KV = element(random:uniform(size(K)), K),
+ {erlang:delete_element(KI,Keys), [KV | Acc]}
+ end,
+ {Pairs, []},
+ lists:seq(1,Size)),
+
+ maps:from_list(L).
+
+
+recursive_compare() ->
+ Leafs = {atom, 17, 16.9, 17.1, [], self(), spawn(fun() -> ok end), make_ref(), make_ref()},
+ {A, B} = term_gen_recursive(Leafs, 0, 0),
+ %%io:format("Recursive term A = ~p\n", [A]),
+ %%io:format("Recursive term B = ~p\n", [B]),
+
+ ?CHECK({true,false} =:= case do_cmp(A, B, false) of
+ -1 -> {A<B, A>=B};
+ 0 -> {A==B, A/=B};
+ 1 -> {A>B, A=<B}
+ end,
+ {A,B}),
+ A2 = copy_term(A),
+ ?CHECK(A == A2, {A,A2}),
+ ?CHECK(0 =:= cmp(A, A2, false), {A,A2}),
+
+ B2 = copy_term(B),
+ ?CHECK(B == B2, {B,B2}),
+ ?CHECK(0 =:= cmp(B, B2, false), {B,B2}),
+ ok.
+
+do_cmp(A, B, Exact) ->
+ C = cmp(A, B, Exact),
+ C.
+
+%% Generate two terms {A,B} that may only differ
+%% at float vs integer types.
+term_gen_recursive(Leafs, Flags, Depth) ->
+ MaxDepth = 10,
+ Rnd = case {Flags, Depth} of
+ {_, MaxDepth} -> % Only leafs
+ random:uniform(size(Leafs)) + 3;
+ {0, 0} -> % Only containers
+ random:uniform(3);
+ {0,_} -> % Anything
+ random:uniform(size(Leafs)+3)
+ end,
+ case Rnd of
+ 1 -> % Make map
+ Size = random:uniform(size(Leafs)),
+ lists:foldl(fun(_, {Acc1,Acc2}) ->
+ {K1,K2} = term_gen_recursive(Leafs, Flags,
+ Depth+1),
+ {V1,V2} = term_gen_recursive(Leafs, Flags, Depth+1),
+ {maps:put(K1,V1, Acc1), maps:put(K2,V2, Acc2)}
+ end,
+ {maps:new(), maps:new()},
+ lists:seq(1,Size));
+ 2 -> % Make cons
+ {Car1,Car2} = term_gen_recursive(Leafs, Flags, Depth+1),
+ {Cdr1,Cdr2} = term_gen_recursive(Leafs, Flags, Depth+1),
+ {[Car1 | Cdr1], [Car2 | Cdr2]};
+ 3 -> % Make tuple
+ Size = random:uniform(size(Leafs)),
+ L = lists:map(fun(_) -> term_gen_recursive(Leafs, Flags, Depth+1) end,
+ lists:seq(1,Size)),
+ {L1, L2} = lists:unzip(L),
+ {list_to_tuple(L1), list_to_tuple(L2)};
+
+ N -> % Make leaf
+ case element(N-3, Leafs) of
+ I when is_integer(I) ->
+ case random:uniform(4) of
+ 1 -> {I, float(I)};
+ 2 -> {float(I), I};
+ _ -> {I,I}
+ end;
+ T -> {T,T}
+ end
+ end.
+
+%% BIFs
+t_bif_map_get(Config) when is_list(Config) ->
+ %% small map
+ 1 = maps:get(a, #{ a=> 1}),
+ 2 = maps:get(b, #{ a=> 1, b => 2}),
+ "hi" = maps:get("hello", #{ a=>1, "hello" => "hi"}),
+ "tuple hi" = maps:get({1,1.0}, #{ a=>a, {1,1.0} => "tuple hi"}),
+
+ M0 = #{ k1=>"v1", <<"k2">> => <<"v3">> },
+ "v4" = maps:get(<<"k2">>, M0#{<<"k2">> => "v4"}),
+
+ %% large map
+ M1 = maps:from_list([{I,I}||I<-lists:seq(1,100)] ++
+ [{a,1},{b,2},{"hello","hi"},{{1,1.0},"tuple hi"},
+ {k1,"v1"},{<<"k2">>,"v3"}]),
+ 1 = maps:get(a, M1),
+ 2 = maps:get(b, M1),
+ "hi" = maps:get("hello", M1),
+ "tuple hi" = maps:get({1,1.0}, M1),
+ "v3" = maps:get(<<"k2">>, M1),
+
+ %% error cases
+ do_badmap(fun(T) ->
+ {'EXIT',{{badmap,T},[{maps,get,_,_}|_]}} =
+ (catch maps:get(a, T))
+ end),
+
+ {'EXIT',{{badkey,{1,1}},[{maps,get,_,_}|_]}} =
+ (catch maps:get({1,1}, #{{1,1.0} => "tuple"})),
+ {'EXIT',{{badkey,a},[{maps,get,_,_}|_]}} = (catch maps:get(a, #{})),
+ {'EXIT',{{badkey,a},[{maps,get,_,_}|_]}} =
+ (catch maps:get(a, #{b=>1, c=>2})),
+ ok.
+
+t_bif_map_find(Config) when is_list(Config) ->
+ %% small map
+ {ok, 1} = maps:find(a, #{ a=> 1}),
+ {ok, 2} = maps:find(b, #{ a=> 1, b => 2}),
+ {ok, "int"} = maps:find(1, #{ 1 => "int"}),
+ {ok, "float"} = maps:find(1.0, #{ 1.0=> "float"}),
+
+ {ok, "hi"} = maps:find("hello", #{ a=>1, "hello" => "hi"}),
+ {ok, "tuple hi"} = maps:find({1,1.0}, #{ a=>a, {1,1.0} => "tuple hi"}),
+
+ M0 = #{ k1=>"v1", <<"k2">> => <<"v3">> },
+ {ok, "v4"} = maps:find(<<"k2">>, M0#{ <<"k2">> => "v4" }),
+
+ %% large map
+ M1 = maps:from_list([{I,I}||I<-lists:seq(1,100)] ++
+ [{a,1},{b,2},{"hello","hi"},{{1,1.0},"tuple hi"},
+ {k1,"v1"},{<<"k2">>,"v3"}]),
+ {ok, 1} = maps:find(a, M1),
+ {ok, 2} = maps:find(b, M1),
+ {ok, "hi"} = maps:find("hello", M1),
+ {ok, "tuple hi"} = maps:find({1,1.0}, M1),
+ {ok, "v3"} = maps:find(<<"k2">>, M1),
+
+ %% error case
+ error = maps:find(a,#{}),
+ error = maps:find(a,#{b=>1, c=>2}),
+ error = maps:find(1.0, #{ 1 => "int"}),
+ error = maps:find(1, #{ 1.0 => "float"}),
+ error = maps:find({1.0,1}, #{ a=>a, {1,1.0} => "tuple hi"}), % reverse types in tuple key
+
+ do_badmap(fun(T) ->
+ {'EXIT',{{badmap,T},[{maps,find,_,_}|_]}} =
+ (catch maps:find(a, T))
+ end),
+ ok.
+
+
+t_bif_map_is_key(Config) when is_list(Config) ->
+ M1 = #{ "hi" => "hello", int => 3, <<"key">> => <<"value">>, 4 => number},
+
+ true = maps:is_key("hi", M1),
+ true = maps:is_key(int, M1),
+ true = maps:is_key(<<"key">>, M1),
+ true = maps:is_key(4, M1),
+
+ false = maps:is_key(5, M1),
+ false = maps:is_key(<<"key2">>, M1),
+ false = maps:is_key("h", M1),
+ false = maps:is_key("hello", M1),
+ false = maps:is_key(atom, M1),
+ false = maps:is_key(any, #{}),
+
+ false = maps:is_key("hi", maps:remove("hi", M1)),
+ true = maps:is_key("hi", M1),
+ true = maps:is_key(1, maps:put(1, "number", M1)),
+ false = maps:is_key(1.0, maps:put(1, "number", M1)),
+
+ %% error case
+ do_badmap(fun(T) ->
+ {'EXIT',{{badmap,T},[{maps,is_key,_,_}|_]}} =
+ (catch maps:is_key(a, T))
+ end),
+ ok.
+
+t_bif_map_keys(Config) when is_list(Config) ->
+ [] = maps:keys(#{}),
+
+ [1,2,3,4,5] = lists:sort(maps:keys(#{ 1 => a, 2 => b, 3 => c, 4 => d, 5 => e})),
+ [1,2,3,4,5] = lists:sort(maps:keys(#{ 4 => d, 5 => e, 1 => a, 2 => b, 3 => c})),
+
+ % values in key order: [4,int,"hi",<<"key">>]
+ M1 = #{ "hi" => "hello", int => 3, <<"key">> => <<"value">>, 4 => number},
+ [4,int,"hi",<<"key">>] = lists:sort(maps:keys(M1)),
+
+ %% error case
+ do_badmap(fun(T) ->
+ {'EXIT',{{badmap,T},[{maps,keys,_,_}|_]}} =
+ (catch maps:keys(T))
+ end),
+ ok.
+
+t_bif_map_new(Config) when is_list(Config) ->
+ #{} = maps:new(),
+ 0 = erlang:map_size(maps:new()),
+ ok.
+
+t_bif_map_merge(Config) when is_list(Config) ->
+ 0 = erlang:map_size(maps:merge(#{},#{})),
+
+ M0 = #{ "hi" => "hello", int => 3, <<"key">> => <<"value">>,
+ 4 => number, 18446744073709551629 => wat},
+
+ #{ "hi" := "hello", int := 3, <<"key">> := <<"value">>,
+ 4 := number, 18446744073709551629 := wat} = maps:merge(#{}, M0),
+
+ #{ "hi" := "hello", int := 3, <<"key">> := <<"value">>,
+ 4 := number, 18446744073709551629 := wat} = maps:merge(M0, #{}),
+
+ M1 = #{ "hi" => "hello again", float => 3.3, {1,2} => "tuple", 4 => integer },
+
+ #{4 := number, 18446744073709551629 := wat, float := 3.3, int := 3,
+ {1,2} := "tuple", "hi" := "hello", <<"key">> := <<"value">>} = maps:merge(M1,M0),
+
+ #{4 := integer, 18446744073709551629 := wat, float := 3.3, int := 3,
+ {1,2} := "tuple", "hi" := "hello again", <<"key">> := <<"value">>} = maps:merge(M0,M1),
+
+ %% try deep collisions
+ N = 150000,
+ Is = lists:seq(1,N),
+ M2 = maps:from_list([{I,I}||I<-Is]),
+ 150000 = maps:size(M2),
+ M3 = maps:from_list([{<<I:32>>,I}||I<-Is]),
+ 150000 = maps:size(M3),
+ M4 = maps:merge(M2,M3),
+ 300000 = maps:size(M4),
+ M5 = maps:from_list([{integer_to_list(I),I}||I<-Is]),
+ 150000 = maps:size(M5),
+ M6 = maps:merge(M4,M5),
+ 450000 = maps:size(M6),
+ M7 = maps:from_list([{float(I),I}||I<-Is]),
+ 150000 = maps:size(M7),
+ M8 = maps:merge(M7,M6),
+ 600000 = maps:size(M8),
+
+ #{ 1 := 1, "1" := 1, <<1:32>> := 1 } = M8,
+ #{ 10 := 10, "10" := 10, <<10:32>> := 10 } = M8,
+ #{ 100 := 100, "100" := 100, <<100:32>> := 100 } = M8,
+ #{ 1000 := 1000, "1000" := 1000, <<1000:32>> := 1000 } = M8,
+ #{ 10000 := 10000, "10000" := 10000, <<10000:32>> := 10000 } = M8,
+ #{ 100000 := 100000, "100000" := 100000, <<100000:32>> := 100000 } = M8,
+
+ %% overlapping
+ M8 = maps:merge(M2,M8),
+ M8 = maps:merge(M3,M8),
+ M8 = maps:merge(M4,M8),
+ M8 = maps:merge(M5,M8),
+ M8 = maps:merge(M6,M8),
+ M8 = maps:merge(M7,M8),
+ M8 = maps:merge(M8,M8),
+
+ %% maps:merge/2 and mixed
+
+ Ks1 = [764492191,2361333849], %% deep collision
+ Ks2 = lists:seq(1,33),
+ M9 = maps:from_list([{K,K}||K <- Ks1]),
+ M10 = maps:from_list([{K,K}||K <- Ks2]),
+ M11 = maps:merge(M9,M10),
+ ok = check_keys_exist(Ks1 ++ Ks2, M11),
+
+ %% error case
+ do_badmap(fun(T) ->
+ {'EXIT',{{badmap,T},[{maps,merge,_,_}|_]}} =
+ (catch maps:merge(#{}, T)),
+ {'EXIT',{{badmap,T},[{maps,merge,_,_}|_]}} =
+ (catch maps:merge(T, #{})),
+ {'EXIT',{{badmap,T},[{maps,merge,_,_}|_]}} =
+ (catch maps:merge(T, T))
+ end),
+ ok.
+
+
+t_bif_map_put(Config) when is_list(Config) ->
+ M0 = #{ "hi" => "hello", int => 3, <<"key">> => <<"value">>,
+ 4 => number, 18446744073709551629 => wat},
+
+ M1 = #{ "hi" := "hello"} = maps:put("hi", "hello", #{}),
+
+ true = is_members(["hi"],maps:keys(M1)),
+ true = is_members(["hello"],maps:values(M1)),
+
+ M2 = #{ int := 3 } = maps:put(int, 3, M1),
+
+ true = is_members([int,"hi"],maps:keys(M2)),
+ true = is_members([3,"hello"],maps:values(M2)),
+
+ M3 = #{ <<"key">> := <<"value">> } = maps:put(<<"key">>, <<"value">>, M2),
+
+ true = is_members([int,"hi",<<"key">>],maps:keys(M3)),
+ true = is_members([3,"hello",<<"value">>],maps:values(M3)),
+
+ M4 = #{ 18446744073709551629 := wat } = maps:put(18446744073709551629, wat, M3),
+
+ true = is_members([18446744073709551629,int,"hi",<<"key">>],maps:keys(M4)),
+ true = is_members([wat,3,"hello",<<"value">>],maps:values(M4)),
+
+ M0 = #{ 4 := number } = M5 = maps:put(4, number, M4),
+
+ true = is_members([4,18446744073709551629,int,"hi",<<"key">>],maps:keys(M5)),
+ true = is_members([number,wat,3,"hello",<<"value">>],maps:values(M5)),
+
+ M6 = #{ <<"key">> := <<"other value">> } = maps:put(<<"key">>, <<"other value">>, M5),
+
+ true = is_members([4,18446744073709551629,int,"hi",<<"key">>],maps:keys(M6)),
+ true = is_members([number,wat,3,"hello",<<"other value">>],maps:values(M6)),
+
+ %% error case
+ do_badmap(fun(T) ->
+ {'EXIT',{{badmap,T},[{maps,put,_,_}|_]}} =
+ (catch maps:put(1, a, T))
+ end),
+ ok.
+
+is_members(Ks,Ls) when length(Ks) =/= length(Ls) -> false;
+is_members(Ks,Ls) -> is_members_do(Ks,Ls).
+
+is_members_do([],[]) -> true;
+is_members_do([],_) -> false;
+is_members_do([K|Ks],Ls) ->
+ is_members_do(Ks, lists:delete(K,Ls)).
+
+t_bif_map_remove(Config) when is_list(Config) ->
+ 0 = erlang:map_size(maps:remove(some_key, #{})),
+
+ M0 = #{ "hi" => "hello", int => 3, <<"key">> => <<"value">>,
+ 4 => number, 18446744073709551629 => wat},
+
+ M1 = maps:remove("hi", M0),
+ true = is_members([4,18446744073709551629,int,<<"key">>],maps:keys(M1)),
+ true = is_members([number,wat,3,<<"value">>],maps:values(M1)),
+
+ M2 = maps:remove(int, M1),
+ true = is_members([4,18446744073709551629,<<"key">>],maps:keys(M2)),
+ true = is_members([number,wat,<<"value">>],maps:values(M2)),
+
+ M3 = maps:remove(<<"key">>, M2),
+ true = is_members([4,18446744073709551629],maps:keys(M3)),
+ true = is_members([number,wat],maps:values(M3)),
+
+ M4 = maps:remove(18446744073709551629, M3),
+ true = is_members([4],maps:keys(M4)),
+ true = is_members([number],maps:values(M4)),
+
+ M5 = maps:remove(4, M4),
+ [] = maps:keys(M5),
+ [] = maps:values(M5),
+
+ M0 = maps:remove(5,M0),
+ M0 = maps:remove("hi there",M0),
+
+ #{ "hi" := "hello", int := 3, 4 := number} = maps:remove(18446744073709551629,maps:remove(<<"key">>,M0)),
+
+ %% error case
+ do_badmap(fun(T) ->
+ {'EXIT',{{badmap,T},[{maps,remove,_,_}|_]}} =
+ (catch maps:remove(a, T))
+ end),
+ ok.
+
+t_bif_map_update(Config) when is_list(Config) ->
+ M0 = #{ "hi" => "hello", int => 3, <<"key">> => <<"value">>,
+ 4 => number, 18446744073709551629 => wat},
+
+ #{ "hi" := "hello again", int := 3, <<"key">> := <<"value">>,
+ 4 := number, 18446744073709551629 := wat} = maps:update("hi", "hello again", M0),
+
+ #{ "hi" := "hello", int := 1337, <<"key">> := <<"value">>,
+ 4 := number, 18446744073709551629 := wat} = maps:update(int, 1337, M0),
+
+ #{ "hi" := "hello", int := 3, <<"key">> := <<"new value">>,
+ 4 := number, 18446744073709551629 := wat} = maps:update(<<"key">>, <<"new value">>, M0),
+
+ #{ "hi" := "hello", int := 3, <<"key">> := <<"value">>,
+ 4 := integer, 18446744073709551629 := wat} = maps:update(4, integer, M0),
+
+ #{ "hi" := "hello", int := 3, <<"key">> := <<"value">>,
+ 4 := number, 18446744073709551629 := wazzup} = maps:update(18446744073709551629, wazzup, M0),
+
+ %% error case
+ do_badmap(fun(T) ->
+ {'EXIT',{{badmap,T},[{maps,update,_,_}|_]}} =
+ (catch maps:update(1, none, T))
+ end),
+ ok.
+
+
+
+t_bif_map_values(Config) when is_list(Config) ->
+
+ [] = maps:values(#{}),
+ [1] = maps:values(#{a=>1}),
+
+ true = is_members([a,b,c,d,e],maps:values(#{ 1 => a, 2 => b, 3 => c, 4 => d, 5 => e})),
+ true = is_members([a,b,c,d,e],maps:values(#{ 4 => d, 5 => e, 1 => a, 2 => b, 3 => c})),
+
+ M1 = #{ "hi" => "hello", int => 3, <<"key">> => <<"value">>, 4 => number},
+ M2 = M1#{ "hi" => "hello2", <<"key">> => <<"value2">> },
+ true = is_members([number,3,"hello2",<<"value2">>],maps:values(M2)),
+ true = is_members([number,3,"hello",<<"value">>],maps:values(M1)),
+
+ Vs = lists:seq(1000,20000),
+ M3 = maps:from_list([{K,K}||K<-Vs]),
+ M4 = maps:merge(M1,M3),
+ M5 = maps:merge(M2,M3),
+ true = is_members(Vs,maps:values(M3)),
+ true = is_members([number,3,"hello",<<"value">>]++Vs,maps:values(M4)),
+ true = is_members([number,3,"hello2",<<"value2">>]++Vs,maps:values(M5)),
+
+ %% error case
+ do_badmap(fun(T) ->
+ {'EXIT',{{badmap,T},[{maps,values,_,_}|_]}} =
+ (catch maps:values(T))
+ end),
+ ok.
+
+t_erlang_hash(Config) when is_list(Config) ->
+
+ ok = t_bif_erlang_phash2(),
+ ok = t_bif_erlang_phash(),
+ ok = t_bif_erlang_hash(),
+
+ ok.
+
+t_bif_erlang_phash2() ->
+
+ 39679005 = erlang:phash2(#{}),
+ 33667975 = erlang:phash2(#{ a => 1, "a" => 2, <<"a">> => 3, {a,b} => 4 }), % 78942764
+ 95332690 = erlang:phash2(#{ 1 => a, 2 => "a", 3 => <<"a">>, 4 => {a,b} }), % 37338230
+ 108954384 = erlang:phash2(#{ 1 => a }), % 14363616
+ 59617982 = erlang:phash2(#{ a => 1 }), % 51612236
+
+ 42770201 = erlang:phash2(#{{} => <<>>}), % 37468437
+ 71687700 = erlang:phash2(#{<<>> => {}}), % 44049159
+
+ M0 = #{ a => 1, "key" => <<"value">> },
+ M1 = maps:remove("key",M0),
+ M2 = M1#{ "key" => <<"value">> },
+
+ 70249457 = erlang:phash2(M0), % 118679416
+ 59617982 = erlang:phash2(M1), % 51612236
+ 70249457 = erlang:phash2(M2), % 118679416
+ ok.
+
+t_bif_erlang_phash() ->
+ Sz = 1 bsl 32,
+ 1113425985 = erlang:phash(#{},Sz), % 268440612
+ 1510068139 = erlang:phash(#{ a => 1, "a" => 2, <<"a">> => 3, {a,b} => 4 },Sz), % 1196461908
+ 3182345590 = erlang:phash(#{ 1 => a, 2 => "a", 3 => <<"a">>, 4 => {a,b} },Sz), % 3944426064
+ 2927531828 = erlang:phash(#{ 1 => a },Sz), % 1394238263
+ 1670235874 = erlang:phash(#{ a => 1 },Sz), % 4066388227
+
+ 3935089469 = erlang:phash(#{{} => <<>>},Sz), % 1578050717
+ 71692856 = erlang:phash(#{<<>> => {}},Sz), % 1578050717
+
+ M0 = #{ a => 1, "key" => <<"value">> },
+ M1 = maps:remove("key",M0),
+ M2 = M1#{ "key" => <<"value">> },
+
+ 2620391445 = erlang:phash(M0,Sz), % 3590546636
+ 1670235874 = erlang:phash(M1,Sz), % 4066388227
+ 2620391445 = erlang:phash(M2,Sz), % 3590546636
+ ok.
+
+t_bif_erlang_hash() ->
+ Sz = 1 bsl 27 - 1,
+ 39684169 = erlang:hash(#{},Sz), % 5158
+ 33673142 = erlang:hash(#{ a => 1, "a" => 2, <<"a">> => 3, {a,b} => 4 },Sz), % 71555838
+ 95337869 = erlang:hash(#{ 1 => a, 2 => "a", 3 => <<"a">>, 4 => {a,b} },Sz), % 5497225
+ 108959561 = erlang:hash(#{ 1 => a },Sz), % 126071654
+ 59623150 = erlang:hash(#{ a => 1 },Sz), % 126426236
+
+ 42775386 = erlang:hash(#{{} => <<>>},Sz), % 101655720
+ 71692856 = erlang:hash(#{<<>> => {}},Sz), % 101655720
+
+ M0 = #{ a => 1, "key" => <<"value">> },
+ M1 = maps:remove("key",M0),
+ M2 = M1#{ "key" => <<"value">> },
+
+ 70254632 = erlang:hash(M0,Sz), % 38260486
+ 59623150 = erlang:hash(M1,Sz), % 126426236
+ 70254632 = erlang:hash(M2,Sz), % 38260486
+ ok.
+
+
+t_map_encode_decode(Config) when is_list(Config) ->
+ <<131,116,0,0,0,0>> = erlang:term_to_binary(#{}),
+ Pairs = [
+ {a,b},{"key","values"},{<<"key">>,<<"value">>},
+ {1,b},{[atom,1],{<<"wat">>,1,2,3}},
+ {aa,"values"},
+ {1 bsl 64 + (1 bsl 50 - 1), sc1},
+ {99, sc2},
+ {1 bsl 65 + (1 bsl 51 - 1), sc3},
+ {88, sc4},
+ {1 bsl 66 + (1 bsl 52 - 1), sc5},
+ {77, sc6},
+ {1 bsl 67 + (1 bsl 53 - 1), sc3},
+ {75, sc6}, {-10,sc8},
+ {<<>>, sc9}, {3.14158, sc10},
+ {[3.14158], sc11}, {more_atoms, sc12},
+ {{more_tuples}, sc13}, {self(), sc14},
+ {{},{}},{[],[]}
+ ],
+ ok = map_encode_decode_and_match(Pairs,[],#{}),
+
+ %% check sorting
+
+ %% literally #{ b=>2, a=>1 } in the internal order
+ #{ a:=1, b:=2 } =
+ erlang:binary_to_term(<<131,116,0,0,0,2,100,0,1,98,97,2,100,0,1,97,97,1>>),
+
+
+ %% literally #{ "hi" => "value", a=>33, b=>55 } in the internal order
+ #{ a:=33, b:=55, "hi" := "value"} = erlang:binary_to_term(<<131,116,0,0,0,3,
+ 107,0,2,104,105, % "hi" :: list()
+ 107,0,5,118,97,108,117,101, % "value" :: list()
+ 100,0,1,97, % a :: atom()
+ 97,33, % 33 :: integer()
+ 100,0,1,98, % b :: atom()
+ 97,55 % 55 :: integer()
+ >>),
+
+ %% Maps of different sizes
+ lists:foldl(fun(Key, M0) ->
+ M1 = M0#{Key => Key},
+ case Key rem 17 of
+ 0 ->
+ M1 = binary_to_term(term_to_binary(M1));
+ _ ->
+ ok
+ end,
+ M1
+ end,
+ #{},
+ lists:seq(1,10000)),
+
+ %% many maps in same binary
+ MapList = lists:foldl(fun(K, [M|_]=Acc) -> [M#{K => K} | Acc] end,
+ [#{}],
+ lists:seq(1,100)),
+ MapList = binary_to_term(term_to_binary(MapList)),
+ MapListR = lists:reverse(MapList),
+ MapListR = binary_to_term(term_to_binary(MapListR)),
+
+ %% error cases
+ %% template: <<131,116,0,0,0,2,100,0,1,97,100,0,1,98,97,1,97,1>>
+ %% which is: #{ a=>1, b=>1 }
+
+ %% uniqueness violation
+ %% literally #{ a=>1, "hi"=>"value", a=>2 }
+ {'EXIT',{badarg,[{_,_,_,_}|_]}} = (catch
+ erlang:binary_to_term(<<131,116,0,0,0,3,
+ 100,0,1,97,
+ 97,1,
+ 107,0,2,104,105,
+ 107,0,5,118,97,108,117,101,
+ 100,0,1,97,
+ 97,2>>)),
+
+ %% bad size (too large)
+ {'EXIT',{badarg,[{_,_,_,_}|_]}} = (catch
+ erlang:binary_to_term(<<131,116,0,0,0,12,100,0,1,97,97,1,100,0,1,98,97,1>>)),
+
+ %% bad size (too small) .. should fail just truncate it .. weird.
+ %% possibly change external format so truncated will be #{a:=1}
+ #{ a:=b } =
+ erlang:binary_to_term(<<131,116,0,0,0,1,100,0,1,97,100,0,1,98,97,1,97,1>>),
+
+ ok.
+
+map_encode_decode_and_match([{K,V}|Pairs], EncodedPairs, M0) ->
+ M1 = maps:put(K,V,M0),
+ B0 = erlang:term_to_binary(M1),
+ Ls = [{erlang:term_to_binary(K), erlang:term_to_binary(V)}|EncodedPairs],
+ ok = match_encoded_map(B0, length(Ls), Ls),
+ %% decode and match it
+ M1 = erlang:binary_to_term(B0),
+ map_encode_decode_and_match(Pairs,Ls,M1);
+map_encode_decode_and_match([],_,_) -> ok.
+
+match_encoded_map(<<131,116,Size:32,Encoded/binary>>,Size,Items) ->
+ match_encoded_map_stripped_size(Encoded,Items,Items);
+match_encoded_map(_,_,_) -> no_match_size.
+
+match_encoded_map_stripped_size(<<>>,_,_) -> ok;
+match_encoded_map_stripped_size(B0,[{<<131,K/binary>>,<<131,V/binary>>}|Items],Ls) ->
+ Ksz = byte_size(K),
+ Vsz = byte_size(V),
+ case B0 of
+ <<K:Ksz/binary,V:Vsz/binary,B1/binary>> ->
+ match_encoded_map_stripped_size(B1,Ls,Ls);
+ _ ->
+ match_encoded_map_stripped_size(B0,Items,Ls)
+ end;
+match_encoded_map_stripped_size(_,[],_) -> fail.
+
+
+t_bif_map_to_list(Config) when is_list(Config) ->
+ [] = maps:to_list(#{}),
+ [{a,1},{b,2}] = lists:sort(maps:to_list(#{a=>1,b=>2})),
+ [{a,1},{b,2},{c,3}] = lists:sort(maps:to_list(#{c=>3,a=>1,b=>2})),
+ [{a,1},{b,2},{g,3}] = lists:sort(maps:to_list(#{g=>3,a=>1,b=>2})),
+ [{a,1},{b,2},{g,3},{"c",4}] = lists:sort(maps:to_list(#{g=>3,a=>1,b=>2,"c"=>4})),
+ [{3,v2},{hi,v4},{{hi,3},v5},{"hi",v3},{<<"hi">>,v1}] =
+ lists:sort(maps:to_list(#{<<"hi">>=>v1,3=>v2,"hi"=>v3,hi=>v4,{hi,3}=>v5})),
+
+ [{3,v7},{hi,v9},{{hi,3},v10},{"hi",v8},{<<"hi">>,v6}] =
+ lists:sort(maps:to_list(#{<<"hi">>=>v1,3=>v2,"hi"=>v3,hi=>v4,{hi,3}=>v5,
+ <<"hi">>=>v6,3=>v7,"hi"=>v8,hi=>v9,{hi,3}=>v10})),
+
+ %% error cases
+ do_badmap(fun(T) ->
+ {'EXIT', {{badmap,T},_}} =
+ (catch maps:to_list(T))
+ end),
+ ok.
+
+
+t_bif_map_from_list(Config) when is_list(Config) ->
+ #{} = maps:from_list([]),
+ A = maps:from_list([]),
+ 0 = erlang:map_size(A),
+
+ #{a:=1,b:=2} = maps:from_list([{a,1},{b,2}]),
+ #{c:=3,a:=1,b:=2} = maps:from_list([{a,1},{b,2},{c,3}]),
+ #{g:=3,a:=1,b:=2} = maps:from_list([{a,1},{b,2},{g,3}]),
+
+ #{a:=2} = maps:from_list([{a,1},{a,3},{a,2}]),
+
+ #{ <<"hi">>:=v1,3:=v3,"hi":=v6,hi:=v4,{hi,3}:=v5} =
+ maps:from_list([{3,v3},{"hi",v6},{hi,v4},{{hi,3},v5},{<<"hi">>,v1}]),
+
+ #{<<"hi">>:=v6,3:=v8,"hi":=v11,hi:=v9,{hi,3}:=v10} =
+ maps:from_list([ {{hi,3},v3}, {"hi",v0},{3,v1}, {<<"hi">>,v4}, {hi,v2},
+ {<<"hi">>,v6}, {{hi,3},v10},{"hi",v11}, {hi,v9}, {3,v8}]),
+
+ %% repeated keys (large -> small)
+ Ps1 = [{a,I}|| I <- lists:seq(1,32)],
+ Ps2 = [{a,I}|| I <- lists:seq(33,64)],
+
+ M = maps:from_list(Ps1 ++ [{b,1},{c,1}] ++ Ps2),
+ #{ a := 64, b := 1, c := 1 } = M,
+
+ %% error cases
+ {'EXIT', {badarg,_}} = (catch maps:from_list([{a,b},b])),
+ {'EXIT', {badarg,_}} = (catch maps:from_list([{a,b},{b,b,3}])),
+ {'EXIT', {badarg,_}} = (catch maps:from_list([{a,b},<<>>])),
+ {'EXIT', {badarg,_}} = (catch maps:from_list([{a,b}|{b,a}])),
+ {'EXIT', {badarg,_}} = (catch maps:from_list(a)),
+ {'EXIT', {badarg,_}} = (catch maps:from_list(42)),
+ ok.
+
+t_bif_build_and_check(Config) when is_list(Config) ->
+ ok = check_build_and_remove(750,[
+ fun(K) -> [K,K] end,
+ fun(K) -> [float(K),K] end,
+ fun(K) -> K end,
+ fun(K) -> {1,K} end,
+ fun(K) -> {K} end,
+ fun(K) -> [K|K] end,
+ fun(K) -> [K,1,2,3,4] end,
+ fun(K) -> {K,atom} end,
+ fun(K) -> float(K) end,
+ fun(K) -> integer_to_list(K) end,
+ fun(K) -> list_to_atom(integer_to_list(K)) end,
+ fun(K) -> [K,{K,[K,{K,[K]}]}] end,
+ fun(K) -> <<K:32>> end
+ ]),
+
+ ok.
+
+check_build_and_remove(_,[]) -> ok;
+check_build_and_remove(N,[F|Fs]) ->
+ {M,Ks} = build_and_check(N, maps:new(), F, []),
+ ok = remove_and_check(Ks,M),
+ check_build_and_remove(N,Fs).
+
+build_and_check(0, M0, _, Ks) -> {M0, Ks};
+build_and_check(N, M0, F, Ks) ->
+ K = build_key(F,N),
+ M1 = maps:put(K,K,M0),
+ ok = check_keys_exist([I||{I,_} <- [{K,M1}|Ks]], M1),
+ M2 = maps:update(K,v,M1),
+ v = maps:get(K,M2),
+ build_and_check(N-1,M1,F,[{K,M1}|Ks]).
+
+remove_and_check([],_) -> ok;
+remove_and_check([{K,Mc}|Ks], M0) ->
+ K = maps:get(K,M0),
+ true = maps:is_key(K,M0),
+ true = Mc =:= M0,
+ true = M0 == Mc,
+ M1 = maps:remove(K,M0),
+ false = M1 =:= Mc,
+ false = Mc == M1,
+ false = maps:is_key(K,M1),
+ true = maps:is_key(K,M0),
+ ok = check_keys_exist([I||{I,_} <- Ks],M1),
+ error = maps:find(K,M1),
+ remove_and_check(Ks, M1).
+
+build_key(F,N) when N rem 3 =:= 0 -> F(N);
+build_key(F,N) when N rem 3 =:= 1 -> K = F(N), {K,K};
+build_key(F,N) when N rem 3 =:= 2 -> K = F(N), [K,K].
+
+check_keys_exist([], _) -> ok;
+check_keys_exist([K|Ks],M) ->
+ true = maps:is_key(K,M),
+ check_keys_exist(Ks,M).
+
+t_bif_merge_and_check(Config) when is_list(Config) ->
+
+ io:format("rand:export_seed() -> ~p\n",[rand:export_seed()]),
+
+ %% simple disjunct ones
+ %% make sure all keys are unique
+ Kss = [[a,b,c,d],
+ [1,2,3,4],
+ [],
+ ["hi"],
+ [e],
+ [build_key(fun(K) -> {small,K} end, I) || I <- lists:seq(1,32)],
+ lists:seq(5, 28),
+ lists:seq(29, 59),
+ [build_key(fun(K) -> integer_to_list(K) end, I) || I <- lists:seq(2000,10000)],
+ [build_key(fun(K) -> <<K:32>> end, I) || I <- lists:seq(1,80)],
+ [build_key(fun(K) -> {<<K:32>>} end, I) || I <- lists:seq(100,1000)]],
+
+
+ KsMs = build_keys_map_pairs(Kss),
+ Cs = [{CKs1,CM1,CKs2,CM2} || {CKs1,CM1} <- KsMs, {CKs2,CM2} <- KsMs],
+ ok = merge_and_check_combo(Cs),
+
+ %% overlapping ones
+
+ KVs1 = [{a,1},{b,2},{c,3}],
+ KVs2 = [{b,3},{c,4},{d,5}],
+ KVs = [{I,I} || I <- lists:seq(1,32)],
+ KVs3 = KVs1 ++ KVs,
+ KVs4 = KVs2 ++ KVs,
+
+ M1 = maps:from_list(KVs1),
+ M2 = maps:from_list(KVs2),
+ M3 = maps:from_list(KVs3),
+ M4 = maps:from_list(KVs4),
+
+ M12 = maps:merge(M1,M2),
+ ok = check_key_values(KVs2 ++ [{a,1}], M12),
+ M21 = maps:merge(M2,M1),
+ ok = check_key_values(KVs1 ++ [{d,5}], M21),
+
+ M34 = maps:merge(M3,M4),
+ ok = check_key_values(KVs4 ++ [{a,1}], M34),
+ M43 = maps:merge(M4,M3),
+ ok = check_key_values(KVs3 ++ [{d,5}], M43),
+
+ M14 = maps:merge(M1,M4),
+ ok = check_key_values(KVs4 ++ [{a,1}], M14),
+ M41 = maps:merge(M4,M1),
+ ok = check_key_values(KVs1 ++ [{d,5}] ++ KVs, M41),
+
+ [begin Ma = random_map(SzA, a),
+ Mb = random_map(SzB, b),
+ ok = merge_maps(Ma, Mb)
+ end || SzA <- [3,10,20,100,200,1000], SzB <- [3,10,20,100,200,1000]],
+
+ ok.
+
+% Generate random map with an average of Sz number of pairs: K -> {V,K}
+random_map(Sz, V) ->
+ random_map_insert(#{}, 0, V, Sz*2).
+
+random_map_insert(M0, K0, _, Sz) when K0 > Sz ->
+ M0;
+random_map_insert(M0, K0, V, Sz) ->
+ Key = K0 + rand:uniform(3),
+ random_map_insert(M0#{Key => {V,Key}}, Key, V, Sz).
+
+
+merge_maps(A, B) ->
+ AB = maps:merge(A, B),
+ %%io:format("A=~p\nB=~p\n",[A,B]),
+ maps_foreach(fun(K,VB) -> VB = maps:get(K, AB)
+ end, B),
+ maps_foreach(fun(K,VA) ->
+ case {maps:get(K, AB),maps:find(K, B)} of
+ {VA, error} -> ok;
+ {VB, {ok, VB}} -> ok
+ end
+ end, A),
+
+ maps_foreach(fun(K,V) ->
+ case {maps:find(K, A),maps:find(K, B)} of
+ {{ok, V}, error} -> ok;
+ {error, {ok, V}} -> ok;
+ {{ok,_}, {ok, V}} -> ok
+ end
+ end, AB),
+ ok.
+
+maps_foreach(Fun, Map) ->
+ maps:fold(fun(K,V,_) -> Fun(K,V) end, void, Map).
+
+
+check_key_values([],_) -> ok;
+check_key_values([{K,V}|KVs],M) ->
+ V = maps:get(K,M),
+ check_key_values(KVs,M).
+
+merge_and_check_combo([]) -> ok;
+merge_and_check_combo([{Ks1,M1,Ks2,M2}|Cs]) ->
+ M12 = maps:merge(M1,M2),
+ ok = check_keys_exist(Ks1 ++ Ks2, M12),
+ M21 = maps:merge(M2,M1),
+ ok = check_keys_exist(Ks1 ++ Ks2, M21),
+
+ true = M12 =:= M21,
+ M12 = M21,
+
+ merge_and_check_combo(Cs).
+
+build_keys_map_pairs([]) -> [];
+build_keys_map_pairs([Ks|Kss]) ->
+ M = maps:from_list(keys_to_pairs(Ks)),
+ ok = check_keys_exist(Ks, M),
+ [{Ks,M}|build_keys_map_pairs(Kss)].
+
+keys_to_pairs(Ks) -> [{K,K} || K <- Ks].
+
+
+%% Maps module, not BIFs
+t_maps_fold(_Config) ->
+ Vs = lists:seq(1,100),
+ M = maps:from_list([{{k,I},{v,I}}||I<-Vs]),
+
+ %% fold
+ 5050 = maps:fold(fun({k,_},{v,V},A) -> V + A end, 0, M),
+
+ ok.
+
+t_maps_map(_Config) ->
+ Vs = lists:seq(1,100),
+ M1 = maps:from_list([{I,I}||I<-Vs]),
+ M2 = maps:from_list([{I,{token,I}}||I<-Vs]),
+
+ M2 = maps:map(fun(_K,V) -> {token,V} end, M1),
+ ok.
+
+t_maps_size(_Config) ->
+ Vs = lists:seq(1,100),
+ lists:foldl(fun(I,M) ->
+ M1 = maps:put(I,I,M),
+ I = maps:size(M1),
+ M1
+ end, #{}, Vs),
+ ok.
+
+
+t_maps_without(_Config) ->
+ Ki = [11,22,33,44,55,66,77,88,99],
+ M0 = maps:from_list([{{k,I},{v,I}}||I<-lists:seq(1,100)]),
+ M1 = maps:from_list([{{k,I},{v,I}}||I<-lists:seq(1,100) -- Ki]),
+ M1 = maps:without([{k,I}||I <- Ki],M0),
+ ok.
+
+t_erts_internal_order(_Config) when is_list(_Config) ->
+ M = #{0 => 0,2147483648 => 0},
+ true = M =:= binary_to_term(term_to_binary(M)),
+
+ F1 = fun(_, _) -> 0 end,
+ F2 = fun(_, _) -> 1 end,
+ M0 = maps:from_list( [{-2147483649, 0}, {0,0}, {97, 0}, {false, 0}, {flower, 0}, {F1, 0}, {F2, 0}, {<<>>, 0}]),
+ M1 = maps:merge(M0, #{0 => 1}),
+ 8 = maps:size(M1),
+ 1 = maps:get(0,M1),
+ ok.
+
+t_erts_internal_hash(_Config) when is_list(_Config) ->
+ K1 = 0.0,
+ K2 = 0.0/-1,
+ M = maps:from_list([{I,I}||I<-lists:seq(1,32)]),
+
+ M1 = M#{ K1 => a, K2 => b },
+ b = maps:get(K2,M1),
+
+ M2 = M#{ K2 => a, K1 => b },
+ b = maps:get(K1,M2),
+
+ %% test previously faulty hash list optimization
+
+ M3 = M#{[0] => a, [0,0] => b, [0,0,0] => c, [0,0,0,0] => d},
+ a = maps:get([0],M3),
+ b = maps:get([0,0],M3),
+ c = maps:get([0,0,0],M3),
+ d = maps:get([0,0,0,0],M3),
+
+ M4 = M#{{[0]} => a, {[0,0]} => b, {[0,0,0]} => c, {[0,0,0,0]} => d},
+ a = maps:get({[0]},M4),
+ b = maps:get({[0,0]},M4),
+ c = maps:get({[0,0,0]},M4),
+ d = maps:get({[0,0,0,0]},M4),
+
+ M5 = M3#{[0,0,0] => e, [0,0,0,0] => f, [0,0,0,0,0] => g,
+ [0,0,0,0,0,0] => h, [0,0,0,0,0,0,0] => i,
+ [0,0,0,0,0,0,0,0] => j, [0,0,0,0,0,0,0,0,0] => k},
+
+ a = maps:get([0],M5),
+ b = maps:get([0,0],M5),
+ e = maps:get([0,0,0],M5),
+ f = maps:get([0,0,0,0],M5),
+ g = maps:get([0,0,0,0,0],M5),
+ h = maps:get([0,0,0,0,0,0],M5),
+ i = maps:get([0,0,0,0,0,0,0],M5),
+ j = maps:get([0,0,0,0,0,0,0,0],M5),
+ k = maps:get([0,0,0,0,0,0,0,0,0],M5),
+
+ M6 = M4#{{[0,0,0]} => e, {[0,0,0,0]} => f, {[0,0,0,0,0]} => g,
+ {[0,0,0,0,0,0]} => h, {[0,0,0,0,0,0,0]} => i,
+ {[0,0,0,0,0,0,0,0]} => j, {[0,0,0,0,0,0,0,0,0]} => k},
+
+ a = maps:get({[0]},M6),
+ b = maps:get({[0,0]},M6),
+ e = maps:get({[0,0,0]},M6),
+ f = maps:get({[0,0,0,0]},M6),
+ g = maps:get({[0,0,0,0,0]},M6),
+ h = maps:get({[0,0,0,0,0,0]},M6),
+ i = maps:get({[0,0,0,0,0,0,0]},M6),
+ j = maps:get({[0,0,0,0,0,0,0,0]},M6),
+ k = maps:get({[0,0,0,0,0,0,0,0,0]},M6),
+
+ M7 = maps:merge(M5,M6),
+
+ a = maps:get([0],M7),
+ b = maps:get([0,0],M7),
+ e = maps:get([0,0,0],M7),
+ f = maps:get([0,0,0,0],M7),
+ g = maps:get([0,0,0,0,0],M7),
+ h = maps:get([0,0,0,0,0,0],M7),
+ i = maps:get([0,0,0,0,0,0,0],M7),
+ j = maps:get([0,0,0,0,0,0,0,0],M7),
+ k = maps:get([0,0,0,0,0,0,0,0,0],M7),
+ a = maps:get({[0]},M7),
+ b = maps:get({[0,0]},M7),
+ e = maps:get({[0,0,0]},M7),
+ f = maps:get({[0,0,0,0]},M7),
+ g = maps:get({[0,0,0,0,0]},M7),
+ h = maps:get({[0,0,0,0,0,0]},M7),
+ i = maps:get({[0,0,0,0,0,0,0]},M7),
+ j = maps:get({[0,0,0,0,0,0,0,0]},M7),
+ k = maps:get({[0,0,0,0,0,0,0,0,0]},M7),
+ ok.
+
+t_pdict(_Config) ->
+
+ put(#{ a => b, b => a},#{ c => d}),
+ put(get(#{ a => b, b => a}),1),
+ 1 = get(#{ c => d}),
+ #{ c := d } = get(#{ a => b, b => a}).
+
+t_ets(_Config) ->
+
+ Tid = ets:new(map_table,[]),
+
+ [ets:insert(Tid,{maps:from_list([{I,-I}]),I}) || I <- lists:seq(1,100)],
+
+
+ [{#{ 2 := -2},2}] = ets:lookup(Tid,#{ 2 => -2 }),
+
+ %% Test equal
+ [3,4] = lists:sort(
+ ets:select(Tid,[{{'$1','$2'},
+ [{'or',{'==','$1',#{ 3 => -3 }},
+ {'==','$1',#{ 4 => -4 }}}],
+ ['$2']}])),
+ %% Test match
+ [30,50] = lists:sort(
+ ets:select(Tid,
+ [{{#{ 30 => -30}, '$1'},[],['$1']},
+ {{#{ 50 => -50}, '$1'},[],['$1']}]
+ )),
+
+ ets:insert(Tid,{#{ a => b, b => c, c => a},transitivity}),
+
+ %% Test equal with map of different size
+ [] = ets:select(Tid,[{{'$1','_'},[{'==','$1',#{ b => c }}],['$_']}]),
+
+ %% Test match with map of different size
+ %[{#{ a := b },_}] = ets:select(Tid,[{{#{ b => c },'_'},[],['$_']}]),
+
+ %%% Test match with don't care value
+ %[{#{ a := b },_}] = ets:select(Tid,[{{#{ b => '_' },'_'},[],['$_']}]),
+
+ %% Test is_map bif
+ 101 = length(ets:select(Tid,[{'$1',[{is_map,{element,1,'$1'}}],['$1']}])),
+ ets:insert(Tid,{not_a_map,2}),
+ 101 = length(ets:select(Tid,[{'$1',[{is_map,{element,1,'$1'}}],['$1']}])),
+ ets:insert(Tid,{{nope,a,tuple},2}),
+ 101 = length(ets:select(Tid,[{'$1',[{is_map,{element,1,'$1'}}],['$1']}])),
+
+ %% Test map_size bif
+ [3] = ets:select(Tid,[{{'$1','_'},[{'==',{map_size,'$1'},3}],
+ [{map_size,'$1'}]}]),
+
+ true = ets:delete(Tid,#{50 => -50}),
+ [] = ets:lookup(Tid,#{50 => -50}),
+
+ ets:delete(Tid),
+ ok.
+
+t_dets(_Config) ->
+ ok.
+
+t_tracing(_Config) ->
+
+ dbg:stop_clear(),
+ {ok,Tracer} = dbg:tracer(process,{fun trace_collector/2, self()}),
+ dbg:p(self(),c),
+
+ %% Test basic map call
+ {ok,_} = dbg:tpl(?MODULE,id,x),
+ #{ a => b },
+ {trace,_,call,{?MODULE,id,[#{ a := b }]}} = getmsg(Tracer),
+ {trace,_,return_from,{?MODULE,id,1},#{ a := b }} = getmsg(Tracer),
+ dbg:ctpl(),
+
+ %% Test equals in argument list
+ {ok,_} = dbg:tpl(?MODULE,id,[{['$1'],[{'==','$1',#{ b => c}}],
+ [{return_trace}]}]),
+ #{ a => b },
+ #{ b => c },
+ {trace,_,call,{?MODULE,id,[#{ b := c }]}} = getmsg(Tracer),
+ {trace,_,return_from,{?MODULE,id,1},#{ b := c }} = getmsg(Tracer),
+ dbg:ctpl(),
+
+ %% Test match in head
+ {ok,_} = dbg:tpl(?MODULE,id,[{[#{b => c}],[],[]}]),
+ #{ a => b },
+ #{ b => c },
+ {trace,_,call,{?MODULE,id,[#{ b := c }]}} = getmsg(Tracer),
+ dbg:ctpl(),
+
+ % Test map guard bifs
+ {ok,_} = dbg:tpl(?MODULE,id,[{['$1'],[{is_map,{element,1,'$1'}}],[]}]),
+ #{ a => b },
+ {1,2},
+ {#{ a => b},2},
+ {trace,_,call,{?MODULE,id,[{#{ a := b },2}]}} = getmsg(Tracer),
+ dbg:ctpl(),
+
+ {ok,_} = dbg:tpl(?MODULE,id,[{['$1'],[{'==',{map_size,{element,1,'$1'}},2}],[]}]),
+ #{ a => b },
+ {1,2},
+ {#{ a => b},2},
+ {#{ a => b, b => c},atom},
+ {trace,_,call,{?MODULE,id,[{#{ a := b, b := c },atom}]}} = getmsg(Tracer),
+ dbg:ctpl(),
+
+ %MS = dbg:fun2ms(fun([A]) when A == #{ a => b} -> ok end),
+ %dbg:tpl(?MODULE,id,MS),
+ %#{ a => b },
+ %#{ b => c },
+ %{trace,_,call,{?MODULE,id,[#{ a := b }]}} = getmsg(Tracer),
+ %dbg:ctpl(),
+
+ %% Check to extra messages
+ timeout = getmsg(Tracer),
+
+ dbg:stop_clear(),
+ ok.
+
+getmsg(_Tracer) ->
+ receive V -> V after 100 -> timeout end.
+
+trace_collector(Msg,Parent) ->
+ io:format("~p~n",[Msg]),
+ Parent ! Msg,
+ Parent.
+
+t_has_map_fields(Config) when is_list(Config) ->
+ true = has_map_fields_1(#{one=>1}),
+ true = has_map_fields_1(#{one=>1,two=>2}),
+ false = has_map_fields_1(#{two=>2}),
+ false = has_map_fields_1(#{}),
+
+ true = has_map_fields_2(#{c=>1,b=>2,a=>3}),
+ true = has_map_fields_2(#{c=>1,b=>2,a=>3,x=>42}),
+ false = has_map_fields_2(#{b=>2,c=>1}),
+ false = has_map_fields_2(#{x=>y}),
+ false = has_map_fields_2(#{}),
+
+ true = has_map_fields_3(#{c=>1,b=>2,a=>3}),
+ true = has_map_fields_3(#{c=>1,b=>2,a=>3,[]=>42}),
+ true = has_map_fields_3(#{b=>2,a=>3,[]=>42,42.0=>43}),
+ true = has_map_fields_3(#{a=>3,[]=>42,42.0=>43}),
+ true = has_map_fields_3(#{[]=>42,42.0=>43}),
+ false = has_map_fields_3(#{b=>2,c=>1}),
+ false = has_map_fields_3(#{[]=>y}),
+ false = has_map_fields_3(#{42.0=>x,a=>99}),
+ false = has_map_fields_3(#{}),
+
+ ok.
+
+has_map_fields_1(#{one:=_}) -> true;
+has_map_fields_1(#{}) -> false.
+
+has_map_fields_2(#{a:=_,b:=_,c:=_}) -> true;
+has_map_fields_2(#{}) -> false.
+
+has_map_fields_3(#{a:=_,b:=_}) -> true;
+has_map_fields_3(#{[]:=_,42.0:=_}) -> true;
+has_map_fields_3(#{}) -> false.
+
+y_regs(Config) when is_list(Config) ->
+ Val = [length(Config)],
+ Map0 = y_regs_update(#{}, Val),
+ Map2 = y_regs_update(Map0, Val),
+
+ Map3 = maps:from_list([{I,I*I} || I <- lists:seq(1, 100)]),
+ Map4 = y_regs_update(Map3, Val),
+
+ true = is_map(Map2) andalso is_map(Map4),
+
+ ok.
+
+y_regs_update(Map0, Val0) ->
+ Val1 = {t,Val0},
+ K1 = {key,1},
+ K2 = {key,2},
+ Map1 = Map0#{K1=>K1,
+ a=>Val0,b=>Val0,c=>Val0,d=>Val0,e=>Val0,
+ f=>Val0,g=>Val0,h=>Val0,i=>Val0,j=>Val0,
+ k=>Val0,l=>Val0,m=>Val0,n=>Val0,o=>Val0,
+ p=>Val0,q=>Val0,r=>Val0,s=>Val0,t=>Val0,
+ u=>Val0,v=>Val0,w=>Val0,x=>Val0,y=>Val0,
+ z=>Val0,
+ aa=>Val0,ab=>Val0,ac=>Val0,ad=>Val0,ae=>Val0,
+ af=>Val0,ag=>Val0,ah=>Val0,ai=>Val0,aj=>Val0,
+ ak=>Val0,al=>Val0,am=>Val0,an=>Val0,ao=>Val0,
+ ap=>Val0,aq=>Val0,ar=>Val0,as=>Val0,at=>Val0,
+ au=>Val0,av=>Val0,aw=>Val0,ax=>Val0,ay=>Val0,
+ az=>Val0,
+ K2=>[a,b,c]},
+ Map2 = Map1#{K1=>K1,
+ a:=Val1,b:=Val1,c:=Val1,d:=Val1,e:=Val1,
+ f:=Val1,g:=Val1,h:=Val1,i:=Val1,j:=Val1,
+ k:=Val1,l:=Val1,m:=Val1,n:=Val1,o:=Val1,
+ p:=Val1,q:=Val1,r:=Val1,s:=Val1,t:=Val1,
+ u:=Val1,v:=Val1,w:=Val1,x:=Val1,y:=Val1,
+ z:=Val1,
+ aa:=Val1,ab:=Val1,ac:=Val1,ad:=Val1,ae:=Val1,
+ af:=Val1,ag:=Val1,ah:=Val1,ai:=Val1,aj:=Val1,
+ ak:=Val1,al:=Val1,am:=Val1,an:=Val1,ao:=Val1,
+ ap:=Val1,aq:=Val1,ar:=Val1,as:=Val1,at:=Val1,
+ au:=Val1,av:=Val1,aw:=Val1,ax:=Val1,ay:=Val1,
+ az:=Val1,
+ K2=>[a,b,c]},
+
+ %% Traverse the maps to validate them.
+ _ = erlang:phash2({Map1,Map2}, 100000),
+
+ _ = {K1,K2,Val0,Val1}, %Force use of Y registers.
+ Map2.
+
+do_badmap(Test) ->
+ Terms = [Test,fun erlang:abs/1,make_ref(),self(),0.0/-1,
+ <<0:1024>>,<<1:1>>,<<>>,<<1,2,3>>,
+ [],{a,b,c},[a,b],atom,10.0,42,(1 bsl 65) + 3],
+ [Test(T) || T <- Terms].
diff --git a/lib/dialyzer/test/map_SUITE_data/src/map_in_guard.erl b/lib/dialyzer/test/map_SUITE_data/src/map_in_guard.erl
new file mode 100644
index 0000000000..6176ef1fdf
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/map_in_guard.erl
@@ -0,0 +1,35 @@
+-module(map_in_guard).
+
+-export([test/0, raw_expr/0]).
+
+test() ->
+ false = assoc_guard(#{}),
+ true = assoc_guard(not_a_map),
+ #{a := true} = assoc_update(#{}),
+ {'EXIT', {{badmap, not_a_map}, [{?MODULE, assoc_update, 1, _}|_]}}
+ = (catch assoc_update(not_a_map)),
+ ok = assoc_guard_clause(#{}),
+ {'EXIT', {function_clause, [{?MODULE, assoc_guard_clause, _, _}|_]}}
+ = (catch assoc_guard_clause(not_a_map)),
+ true = exact_guard(#{a=>1}),
+ {'EXIT', {function_clause, [{?MODULE, assoc_guard_clause, _, _}|_]}}
+ %% There's nothing we can do to find the error here, is there?
+ = (catch (begin true = exact_guard(#{}) end)),
+ ok = exact_guard_clause(#{a => q}),
+ {'EXIT', {function_clause, [{?MODULE, exact_guard_clause, _, _}|_]}}
+ = (catch exact_guard_clause(#{})),
+ ok.
+
+assoc_guard(M) when is_map(M#{a => b}) -> true;
+assoc_guard(Q) -> false.
+
+assoc_update(M) -> M#{a => true}.
+
+assoc_guard_clause(M) when is_map(M#{a => 3}) -> ok.
+
+exact_guard(M) when (false =/= M#{a := b}) -> true;
+exact_guard(_) -> false.
+
+exact_guard_clause(M) when (false =/= M#{a := b}) -> ok.
+
+raw_expr() when #{}; true -> ok. %% Must not warn here!
diff --git a/lib/dialyzer/test/map_SUITE_data/src/map_in_guard2.erl b/lib/dialyzer/test/map_SUITE_data/src/map_in_guard2.erl
new file mode 100644
index 0000000000..ac2205e8fa
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/map_in_guard2.erl
@@ -0,0 +1,27 @@
+-module(map_in_guard2).
+
+-export([test/0]).
+
+test() ->
+ false = assoc_guard(not_a_map),
+ {'EXIT', {{badmap, not_a_map}, [{?MODULE, assoc_update, 1, _}|_]}}
+ = (catch assoc_update(not_a_map)),
+ {'EXIT', {function_clause, [{?MODULE, assoc_guard_clause, _, _}|_]}}
+ = (catch assoc_guard_clause(not_a_map)),
+ {'EXIT', {function_clause, [{?MODULE, assoc_guard_clause, _, _}|_]}}
+ = (catch (begin true = exact_guard(#{}) end)),
+ {'EXIT', {function_clause, [{?MODULE, exact_guard_clause, _, _}|_]}}
+ = (catch exact_guard_clause(#{})),
+ ok.
+
+assoc_guard(M) when is_map(M#{a => b}) -> true;
+assoc_guard(_) -> false.
+
+assoc_update(M) -> M#{a => true}.
+
+assoc_guard_clause(M) when is_map(M#{a => 3}) -> ok.
+
+exact_guard(M) when (false =/= M#{a := b}) -> true;
+exact_guard(_) -> false.
+
+exact_guard_clause(M) when (false =/= M#{a := b}) -> ok.
diff --git a/lib/dialyzer/test/map_SUITE_data/src/map_size.erl b/lib/dialyzer/test/map_SUITE_data/src/map_size.erl
new file mode 100644
index 0000000000..2da4f6904e
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/map_size.erl
@@ -0,0 +1,36 @@
+-module(map_size).
+
+-export([t1/0, e1/0, t2/0, t3/0, t4/0, t5/1, t6/1, t7/1]).
+
+t1() ->
+ 0 = maps:size(#{}),
+ 1 = maps:size(#{}).
+
+e1() ->
+ 0 = map_size(#{}),
+ 1 = map_size(#{}).
+
+t2() -> p(#{a=>x}).
+
+p(M) when map_size(M) =:= 0 -> ok.
+
+t3() ->
+ 1 = map_size(cio()),
+ 2 = map_size(cio()),
+ 3 = map_size(cio()),
+ 4 = map_size(cio()).
+
+t4() ->
+ 0 = map_size(cio()).
+
+t5(M) when map_size(M) =:= 0 ->
+ #{a := _} = M. %% Only t5 has no local return; want better message
+
+t6(M) when map_size(M) =:= 0 ->
+ #{} = M.
+
+t7(M=#{a := _}) when map_size(M) =:= 1 ->
+ #{b := _} = M. %% We should warn here too
+
+-spec cio() -> #{3 := ok, 9 => _, 11 => x}.
+cio() -> binary_to_term(<<131,116,0,0,0,2,97,3,100,0,2,111,107,97,9,97,6>>).
diff --git a/lib/dialyzer/test/map_SUITE_data/src/maps_merge.erl b/lib/dialyzer/test/map_SUITE_data/src/maps_merge.erl
new file mode 100644
index 0000000000..d4f3c6887a
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/maps_merge.erl
@@ -0,0 +1,29 @@
+-module(maps_merge).
+
+-export([t1/0, t2/0, t3/0, t4/0, t5/0]).
+
+t1() ->
+ #{a:=1} = maps:merge(#{}, #{}).
+
+t2() ->
+ #{hej := _} = maps:merge(cao(), cio()),
+ #{{} := _} = maps:merge(cao(), cio()).
+
+t3() ->
+ #{a:=1} = maps:merge(cao(), cio()),
+ #{7:=q} = maps:merge(cao(), cio()).
+
+t4() ->
+ #{a:=1} = maps:merge(cio(), cao()),
+ #{7:=q} = maps:merge(cio(), cao()).
+
+t5() ->
+ #{a:=2} = maps:merge(cao(), #{}).
+
+-spec cao() -> #{a := 1, q => none(), 11 => _, atom() => _}.
+cao() ->
+ binary_to_term(<<131,116,0,0,0,3,100,0,1,97,97,1,100,0,1,98,97,9,100,0,1,
+ 102,104,0>>).
+
+-spec cio() -> #{3 := ok, 7 => none(), z => _, integer() => _}.
+cio() -> binary_to_term(<<131,116,0,0,0,2,97,3,100,0,2,111,107,97,9,97,6>>).
diff --git a/lib/dialyzer/test/map_SUITE_data/src/opaque_key/opaque_key_adt.erl b/lib/dialyzer/test/map_SUITE_data/src/opaque_key/opaque_key_adt.erl
new file mode 100644
index 0000000000..b98c713c6b
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/opaque_key/opaque_key_adt.erl
@@ -0,0 +1,69 @@
+-module(opaque_key_adt).
+
+-compile(export_all).
+
+-export_type([t/0, t/1, m/0, s/1, sm/1]).
+
+-opaque t() :: #{atom() => integer()}.
+-opaque t(A) :: #{A => integer()}.
+
+-opaque m() :: #{t() => integer()}.
+-type mt() :: #{t() => integer()}.
+
+-opaque s(K) :: #{K => integer(), integer() => atom()}.
+-opaque sm(K) :: #{K := integer(), integer() := atom()}.
+-type smt(K) :: #{K := integer(), integer() := atom()}.
+
+-spec t0() -> t().
+t0() -> #{}.
+
+-spec t1() -> t(integer()).
+t1() -> #{3 => 1}.
+
+-spec m0() -> m().
+m0() -> #{#{} => 3}.
+
+-spec mt0() -> mt().
+mt0() -> #{#{} => 3}.
+
+-spec s0() -> s(atom()).
+s0() -> #{}.
+
+-spec s1() -> s(atom()).
+s1() -> #{3 => a}.
+
+-spec s2() -> s(atom() | 3).
+s2() -> #{3 => a}. %% Contract breakage (not found)
+
+-spec s3() -> s(atom() | 3).
+s3() -> #{3 => 5, a => 6, 7 => 8}.
+
+-spec s4() -> s(integer()).
+s4() -> #{1 => a}. %% Contract breakage
+
+-spec s5() -> s(1).
+s5() -> #{2 => 3}. %% Contract breakage
+
+-spec s6() -> s(1).
+s6() -> #{1 => 3}.
+
+-spec s7() -> s(integer()).
+s7() -> #{1 => 3}.
+
+-spec sm1() -> sm(1).
+sm1() -> #{1 => 2, 3 => a}.
+
+-spec smt1() -> smt(1).
+smt1() -> #{3 => a}. %% Contract breakage
+
+-spec smt2() -> smt(1).
+smt2() -> #{1 => a}. %% Contract breakage
+
+-spec smt3() -> smt(q).
+smt3() -> #{q => 1}. %% Slight contract breakage (probably requires better map type)
+
+-spec smt4() -> smt(q).
+smt4() -> #{q => 2, 3 => a}.
+
+-spec smt5() -> smt(1).
+smt5() -> #{1 => 2, 3 => a}.
diff --git a/lib/dialyzer/test/map_SUITE_data/src/opaque_key/opaque_key_use.erl b/lib/dialyzer/test/map_SUITE_data/src/opaque_key/opaque_key_use.erl
new file mode 100644
index 0000000000..917413fdd2
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/opaque_key/opaque_key_use.erl
@@ -0,0 +1,97 @@
+-module(opaque_key_use).
+
+-compile(export_all).
+
+-export_type([t/0, t/1]).
+
+-opaque t() :: #{atom() => integer()}.
+-opaque t(A) :: #{A => integer()}.
+
+tt1() ->
+ A = t0(),
+ B = t1(),
+ A =:= B. % never 'true'
+
+-spec t0() -> t().
+t0() -> #{a => 1}.
+
+-spec t1() -> t(integer()).
+t1() -> #{3 => 1}.
+
+adt_tt1() ->
+ A = adt_t0(),
+ B = adt_t1(),
+ A =:= B. % opaque attempt
+
+adt_tt2() ->
+ A = adt_t0(),
+ B = adt_t1(),
+ #{A => 1 % opaque key
+ ,B => 2 % opaque key
+ }.
+
+adt_tt3() ->
+ A = map_adt:t0(),
+ #{A => 1}. % opaque key
+
+adt_mm1() ->
+ A = adt_t0(),
+ M = adt_m0(),
+ #{A := R} = M, % opaque attempt
+ R.
+
+%% adt_ms1() ->
+%% A = adt_t0(),
+%% M = adt_m0(),
+%% M#{A}. % opaque arg
+
+adt_mu1() ->
+ A = adt_t0(),
+ M = adt_m0(),
+ M#{A := 4}. % opaque arg
+
+adt_mu2() ->
+ A = adt_t0(),
+ M = adt_m0(),
+ M#{A => 4}. % opaque arg
+
+adt_mu3() ->
+ M = adt_m0(),
+ M#{}. % opaque arg
+
+adt_mtm1() ->
+ A = adt_t0(),
+ M = adt_mt0(),
+ #{A := R} = M, % opaque key
+ R.
+
+%% adt_mts1() ->
+%% A = adt_t0(),
+%% M = adt_mt0(),
+%% M#{A}. % opaque key
+
+adt_mtu1() ->
+ A = adt_t0(),
+ M = adt_mt0(),
+ M#{A := 4}. % opaque key
+
+adt_mtu2() ->
+ A = adt_t0(),
+ M = adt_mt0(),
+ M#{A => 4}. % opaque key
+
+adt_mtu3() ->
+ M = adt_mt0(),
+ M#{}. % Ok to not warn
+
+adt_t0() ->
+ opaque_key_adt:t0().
+
+adt_t1() ->
+ opaque_key_adt:t1().
+
+adt_m0() ->
+ opaque_key_adt:m0().
+
+adt_mt0() ->
+ opaque_key_adt:mt0().
diff --git a/lib/dialyzer/test/map_SUITE_data/src/order.erl b/lib/dialyzer/test/map_SUITE_data/src/order.erl
new file mode 100644
index 0000000000..51868d7e94
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/order.erl
@@ -0,0 +1,56 @@
+-module(order).
+
+-export([t1/0, t2/0, t3/0, t4/0, t5/0, t6/0]).
+
+t1() ->
+ case maps:get(a, #{a=>1, a=>b}) of
+ Int when is_integer(Int) -> fail;
+ Atom when is_atom(Atom) -> error(ok);
+ _Else -> fail
+ end.
+
+t2() ->
+ case maps:get(a, #{a=>id_1(1), a=>id_b(b)}) of
+ Int when is_integer(Int) -> fail;
+ Atom when is_atom(Atom) -> error(ok);
+ _Else -> fail
+ end.
+
+t3() ->
+ case maps:get(a, #{a=>id_1(1), id_a(a)=>id_b(b)}) of
+ Int when is_integer(Int) -> fail;
+ Atom when is_atom(Atom) -> error(ok);
+ _Else -> fail
+ end.
+
+t4() ->
+ case maps:get(a, #{a=>id_1(1), a_or_b()=>id_b(b)}) of
+ Int when is_integer(Int) -> ok;
+ Atom when is_atom(Atom) -> ok;
+ _Else -> fail
+ end.
+
+t5() ->
+ case maps:get(c, #{c=>id_1(1), a_or_b()=>id_b(b)}) of
+ Int when is_integer(Int) -> error(ok);
+ Atom when is_atom(Atom) -> fail;
+ _Else -> fail
+ end.
+
+t6() ->
+ case maps:get(a, #{a_or_b()=>id_1(1), id_a(a)=>id_b(b)}) of
+ Int when is_integer(Int) -> fail;
+ Atom when is_atom(Atom) -> error(ok);
+ _Else -> fail
+ end.
+
+id_1(X) -> X.
+
+id_a(X) -> X.
+
+id_b(X) -> X.
+
+any() -> binary_to_term(<<>>).
+
+-spec a_or_b() -> a | b.
+a_or_b() -> any().
diff --git a/lib/dialyzer/test/map_SUITE_data/src/subtract_value_flip.erl b/lib/dialyzer/test/map_SUITE_data/src/subtract_value_flip.erl
new file mode 100644
index 0000000000..97e6b54e3c
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/subtract_value_flip.erl
@@ -0,0 +1,9 @@
+-module(subtract_value_flip).
+
+-export([t1/1]).
+
+t1(#{type := _Smth} = Map) ->
+ case Map of
+ #{type := a} -> ok;
+ #{type := b} -> error
+ end.
diff --git a/lib/dialyzer/test/map_SUITE_data/src/typeflow.erl b/lib/dialyzer/test/map_SUITE_data/src/typeflow.erl
new file mode 100644
index 0000000000..b43fd6897b
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/typeflow.erl
@@ -0,0 +1,25 @@
+-module(typeflow).
+
+-export([t1/1, t2/1, t3/1, t4/1]).
+
+t1(M = #{}) ->
+ a_is_integer(M),
+ case M of
+ #{a := X} when is_integer(X) -> ok;
+ _ -> fail
+ end.
+
+a_is_integer(#{a := X}) when is_integer(X) -> ok.
+
+t2(M = #{}) ->
+ a_is_integer(M),
+ lists:sort(maps:get(a, M)),
+ ok.
+
+t3(M = #{}) ->
+ lists:sort(maps:get(a, M)),
+ ok.
+
+t4(M) ->
+ lists:sort(maps:get(a, M)),
+ ok.
diff --git a/lib/dialyzer/test/map_SUITE_data/src/typeflow2.erl b/lib/dialyzer/test/map_SUITE_data/src/typeflow2.erl
new file mode 100644
index 0000000000..71a9657a60
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/typeflow2.erl
@@ -0,0 +1,88 @@
+-module(typeflow2).
+
+-export([t1/1, t2/1, t3/1, t4/1, t5/1, t6/1, t7/1, optional3/1]).
+
+t1(L) ->
+ M = only_integers_and_lists(L),
+ optional(M),
+ case M of
+ #{a := X} when is_integer(X) -> ok;
+ #{a := X} when is_list(X) -> ok; %% Must warn here
+ #{a := X} when is_pid(X) -> ok;
+ _ -> fail
+ end.
+
+optional(#{a:=X}) ->
+ true = is_integer(X);
+optional(#{}) ->
+ true.
+
+only_integers_and_lists(L) -> only_integers_and_lists(L, #{}).
+
+only_integers_and_lists([], M) -> M;
+only_integers_and_lists([{K,V}|T], M) when is_integer(V); is_list(V)->
+ only_integers_and_lists(T, M#{K => V}).
+
+t2(L) ->
+ M = only_integers_and_lists(L),
+ optional(M),
+ lists:sort(maps:get(a, M)),
+ ok.
+
+t3(L) ->
+ M = only_integers_and_lists(L),
+ lists:sort(maps:get(a, M)),
+ ok.
+
+t4(V) ->
+ M=map_with(a,V),
+ optional2(M),
+ case M of
+ #{a := X} when is_integer(X) -> ok;
+ #{a := X} when is_list(X) -> ok; %% Must warn here
+ _ -> fail
+ end.
+
+optional2(#{a:=X}) ->
+ true = is_integer(X);
+optional2(#{}) ->
+ true.
+
+map_with(K, V) when is_integer(V); is_list(V); is_atom(V) -> #{K => V}.
+
+t5(L) ->
+ M = only_integers_and_lists(L),
+ optional3(M),
+ case M of
+ #{a := X} when is_integer(X) -> ok;
+ #{a := X} when is_list(X) -> ok; %% Must warn here
+ #{a := X} when is_pid(X) -> ok; %% Must warn here
+ #{a := X} when is_atom(X) -> ok;
+ _ -> fail
+ end.
+
+t6(L) ->
+ M = only_integers_and_lists(L),
+ case M of
+ #{a := X} when is_integer(X) -> ok;
+ #{a := X} when is_list(X) -> ok; %% Must not warn here
+ _ -> fail
+ end.
+
+optional3(#{a:=X}) ->
+ true = is_integer(X);
+optional3(#{}) ->
+ true.
+
+t7(M) ->
+ optional4(M),
+ case M of
+ #{a := X} when is_integer(X) -> ok;
+ #{a := X} when is_list(X) -> ok;
+ #{a := X} when is_pid(X) -> ok; %% Must warn here
+ #{a := X} when is_atom(X) -> ok; %% Must warn here
+ _ -> fail %% Must not warn here (requires parsing)
+ end.
+
+-spec optional4(#{a=>integer()|list()}) -> true.
+optional4(#{}) -> true.
diff --git a/lib/dialyzer/test/map_SUITE_data/src/typesig.erl b/lib/dialyzer/test/map_SUITE_data/src/typesig.erl
new file mode 100644
index 0000000000..b50511af41
--- /dev/null
+++ b/lib/dialyzer/test/map_SUITE_data/src/typesig.erl
@@ -0,0 +1,9 @@
+-module(typesig).
+
+-export([t1/0, t2/0, t3/0, test/1]).
+
+t1() -> test(#{a=>1}).
+t2() -> test(#{a=>{b}}).
+t3() -> test(#{a=>{3}}).
+
+test(#{a:={X}}) -> X+1.
diff --git a/lib/dialyzer/test/small_SUITE_data/results/literals b/lib/dialyzer/test/small_SUITE_data/results/literals
index 222d2c0cdb..1ee39453a4 100644
--- a/lib/dialyzer/test/small_SUITE_data/results/literals
+++ b/lib/dialyzer/test/small_SUITE_data/results/literals
@@ -5,6 +5,7 @@ literals.erl:14: Function t2/0 has no local return
literals.erl:15: Record construction #r{id::'a'} violates the declared type of field id::'integer'
literals.erl:17: Function t3/0 has no local return
literals.erl:18: Record construction #r{id::'a'} violates the declared type of field id::'integer'
+literals.erl:20: Function t4/0 has no local return
literals.erl:21: Record construction #r{id::'a'} violates the declared type of field id::'integer'
literals.erl:23: Function m1/1 has no local return
literals.erl:23: Matching of pattern {'r', 'a'} tagged with a record name violates the declared type of #r{id::'integer'}
@@ -12,3 +13,5 @@ literals.erl:26: Function m2/1 has no local return
literals.erl:26: Matching of pattern {'r', 'a'} tagged with a record name violates the declared type of #r{id::'integer'}
literals.erl:29: Function m3/1 has no local return
literals.erl:29: The pattern {{'r', 'a'}} can never match the type any()
+literals.erl:32: Function m4/1 has no local return
+literals.erl:32: Matching of pattern {'r', 'a'} tagged with a record name violates the declared type of #r{id::'integer'}
diff --git a/lib/dialyzer/test/small_SUITE_data/results/maps1 b/lib/dialyzer/test/small_SUITE_data/results/maps1
index e88c91f21f..a178e96b20 100644
--- a/lib/dialyzer/test/small_SUITE_data/results/maps1
+++ b/lib/dialyzer/test/small_SUITE_data/results/maps1
@@ -1,4 +1,4 @@
maps1.erl:43: Function t3/0 has no local return
-maps1.erl:44: The call maps1:foo(~{'greger'=>3, ~{'arne'=>'anka'}~=>45}~,1) will never return since it differs in the 2nd argument from the success typing arguments: (#{},'b')
-maps1.erl:52: The call Mod:'function'(~{'literal'=>'map'}~,'another_arg') requires that Mod is of type atom() not #{}
+maps1.erl:44: The call maps1:foo(#{'greger'=>3, #{'arne'=>'anka'}=>45},1) will never return since it differs in the 1st and 2nd argument from the success typing arguments: (#{'beta':=_, ...},'b')
+maps1.erl:52: The variable Mod can never match since previous clauses completely covered the type #{}
diff --git a/lib/dialyzer/test/small_SUITE_data/results/maps_difftype b/lib/dialyzer/test/small_SUITE_data/results/maps_difftype
index 8980321135..3018b888db 100644
--- a/lib/dialyzer/test/small_SUITE_data/results/maps_difftype
+++ b/lib/dialyzer/test/small_SUITE_data/results/maps_difftype
@@ -1,3 +1,3 @@
maps_difftype.erl:10: Function empty_mismatch/1 has no local return
-maps_difftype.erl:11: The pattern ~{}~ can never match the type tuple()
+maps_difftype.erl:11: The pattern #{} can never match the type tuple()
diff --git a/lib/dialyzer/test/small_SUITE_data/results/maps_sum b/lib/dialyzer/test/small_SUITE_data/results/maps_sum
index a19c0bba96..bd192bdb93 100644
--- a/lib/dialyzer/test/small_SUITE_data/results/maps_sum
+++ b/lib/dialyzer/test/small_SUITE_data/results/maps_sum
@@ -1,4 +1,4 @@
-maps_sum.erl:15: Invalid type specification for function maps_sum:wrong1/1. The success typing is (#{}) -> any()
+maps_sum.erl:15: Invalid type specification for function maps_sum:wrong1/1. The success typing is (map()) -> any()
maps_sum.erl:26: Function wrong2/1 has no local return
maps_sum.erl:27: The call lists:foldl(fun((_,_,_) -> any()),0,Data::any()) will never return since it differs in the 1st argument from the success typing arguments: (fun((_,_) -> any()),any(),[any()])
diff --git a/lib/dialyzer/test/small_SUITE_data/src/literals.erl b/lib/dialyzer/test/small_SUITE_data/src/literals.erl
index abd7033712..354a0f4cdc 100644
--- a/lib/dialyzer/test/small_SUITE_data/src/literals.erl
+++ b/lib/dialyzer/test/small_SUITE_data/src/literals.erl
@@ -2,7 +2,7 @@
%% Bad records inside structures used to be ignored. The reason:
%% v3_core:unfold() does not annotate the parts of a literal.
-%% This example does not work perfectly yet, in particular Maps.
+%% This example does not work perfectly yet.
-export([t1/0, t2/0, t3/0, t4/0, m1/1, m2/1, m3/1, m4/1]).
@@ -18,7 +18,7 @@ t3() ->
{#r{id = a}}. % violation
t4() ->
- #{a => #r{id = a}}. % violation found, but t4() returns... (bug)
+ #{a => #r{id = a}}. % violation
m1(#r{id = a}) -> % violation
ok.
@@ -29,5 +29,5 @@ m2([#r{id = a}]) -> % violation
m3({#r{id = a}}) -> % can never match; not so good
ok.
-m4(#{a := #r{id = a}}) -> % violation not found
+m4(#{a := #r{id = a}}) -> % violation
ok.
diff --git a/lib/dialyzer/test/small_SUITE_data/src/maps1.erl b/lib/dialyzer/test/small_SUITE_data/src/maps1.erl
index bb2f66a498..597358d16a 100644
--- a/lib/dialyzer/test/small_SUITE_data/src/maps1.erl
+++ b/lib/dialyzer/test/small_SUITE_data/src/maps1.erl
@@ -21,7 +21,7 @@ recv(Packet, Fun, Chan) ->
#{id := Can_id, data := Can_data} = P = decode(Packet),
Fun(P).
--spec decode(<<_:64,_:_*8>>) -> #{id => <<_:11>>,timestamp => char()}.
+-spec decode(<<_:64,_:_*8>>) -> #{id => <<_:11>>,timestamp => char(),_ => _}.
decode(<<_:12, Len:4, Timestamp:16, 0:3, Id:11/bitstring, 0:18,
Data:Len/binary, _/binary>>) ->
#{id => Id, data => Data, timestamp => Timestamp}.
diff --git a/lib/dialyzer/vsn.mk b/lib/dialyzer/vsn.mk
index 44982ab46d..077fe01e85 100644
--- a/lib/dialyzer/vsn.mk
+++ b/lib/dialyzer/vsn.mk
@@ -1 +1 @@
-DIALYZER_VSN = 2.9
+DIALYZER_VSN = 3.0