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mercury/compiler/make_hlds_warn.m
Zoltan Somogyi 0ccb9bb116 Replace four goal types in the parse tree with one. 
The change allows us to eliminate duplicate and near-duplicate code.
Since none of those four goal types occurs frequently, the performance impact
is negligible.

compiler/prog_io_item.m:
    Replace some_expr, some_state_vars_expr, all_expr, and all_state_vars_expr
    with one goal type, quant_expr, with two parameters: some vs all, and
    ordinary vars vs state vars.

compiler/prog_io_dcg.m:
compiler/prog_io_goal.m:
    Factor out the commonalities in the code that read in these goals.

compiler/parse_tree_out_clause.m:
    Factor out the commonalities in the code that wrote out these goals.

compiler/goal_expr_to_goal.m:
    Factor out the commonalities in the conversion of these goals to the HLDS.

compiler/get_dependencies.m:
compiler/make_hlds_warn.m:
compiler/module_qual.collect_mq_info.m:
compiler/parse_tree_out.m:
compiler/prog_item.m:
compiler/prog_item_stats.m:
compiler/prog_util.m:
    Conform to the above.
2015-11-22 03:20:37 +11:00

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%-----------------------------------------------------------------------------%
% vim: ft=mercury ts=4 sw=4 et
%-----------------------------------------------------------------------------%
% Copyright (C) 1993-2012 The University of Melbourne.
% This file may only be copied under the terms of the GNU General
% Public License - see the file COPYING in the Mercury distribution.
%-----------------------------------------------------------------------------%
%
% File: make_hlds_warn.m.
%
% Generate whatever warnings the module being transformed to HLDS deserves.
%
%-----------------------------------------------------------------------------%
:- module hlds.make_hlds.make_hlds_warn.
:- interface.
:- import_module hlds.hlds_goal.
:- import_module hlds.hlds_module.
:- import_module hlds.quantification.
:- import_module parse_tree.
:- import_module parse_tree.error_util.
:- import_module parse_tree.prog_data.
:- import_module list.
:- import_module pair.
%-----------------------------------------------------------------------------%
% Warn about variables with overlapping scopes.
%
:- pred add_quant_warnings(simple_call_id::in, prog_varset::in,
list(quant_warning)::in, list(error_spec)::in, list(error_spec)::out)
is det.
% Warn about variables which occur only once but don't start with
% an underscore, or about variables which do start with an underscore
% but occur more than once, or about variables that do not occur in
% C code strings when they should.
%
:- pred warn_singletons(module_info::in, simple_call_id::in, prog_varset::in,
hlds_goal::in, list(error_spec)::in, list(error_spec)::out) is det.
% warn_singletons_in_pragma_foreign_proc checks to see if each variable
% is mentioned at least once in the foreign code fragments that ought to
% mention it. If not, it gives a warning.
%
% (Note that for some foreign languages it might not be appropriate
% to do this check, or you may need to add a transformation to map
% Mercury variable names into identifiers for that foreign language).
%
:- pred warn_singletons_in_pragma_foreign_proc(module_info::in,
pragma_foreign_proc_impl::in, foreign_language::in,
list(maybe(pair(string, mer_mode)))::in, prog_context::in,
simple_call_id::in, pred_id::in, proc_id::in,
list(error_spec)::in, list(error_spec)::out) is det.
% This predicate performs the following checks on promise ex declarations
% (see notes/promise_ex.html).
%
% - check for universally quantified variables
% - check if universal quantification is placed in the wrong position
% (i.e. after the `promise_exclusive' rather than before it)
% - check that its goal is a disjunction and that each arm of the
% disjunction has at most one call, and otherwise has only unifications.
%
:- pred check_promise_ex_decl(prog_vars::in, promise_type::in, goal::in,
prog_context::in, list(error_spec)::in, list(error_spec)::out) is det.
%----------------------------------------------------------------------------%
%----------------------------------------------------------------------------%
:- implementation.
:- import_module check_hlds.
:- import_module check_hlds.mode_util.
:- import_module hlds.goal_util.
:- import_module libs.
:- import_module libs.globals.
:- import_module libs.options.
:- import_module parse_tree.parse_tree_out_term.
:- import_module parse_tree.prog_out.
:- import_module parse_tree.set_of_var.
:- import_module bool.
:- import_module char.
:- import_module require.
:- import_module string.
:- import_module varset.
%----------------------------------------------------------------------------%
add_quant_warnings(PredCallId, VarSet, Warnings, !Specs) :-
WarningSpecs =
list.map(quant_warning_to_spec(PredCallId, VarSet), Warnings),
!:Specs = WarningSpecs ++ !.Specs.
:- func quant_warning_to_spec(simple_call_id, prog_varset, quant_warning)
= error_spec.
quant_warning_to_spec(PredCallId, VarSet, Warning) = Spec :-
Warning = warn_overlap(Vars, Context),
Pieces1 =
[words("In clause for"), simple_call(PredCallId), suffix(":"), nl],
( if Vars = [Var] then
Pieces2 = [words("warning: variable"),
quote(mercury_var_to_name_only(VarSet, Var)),
words("has overlapping scopes."), nl]
else
Pieces2 = [words("warning: variables"),
quote(mercury_vars_to_name_only(VarSet, Vars)),
words("each have overlapping scopes."), nl]
),
Msg = simple_msg(Context,
[option_is_set(warn_overlapping_scopes, yes,
[always(Pieces1 ++ Pieces2)])]),
Severity = severity_conditional(warn_overlapping_scopes, yes,
severity_warning, no),
Spec = error_spec(Severity, phase_parse_tree_to_hlds, [Msg]).
%-----------------------------------------------------------------------------%
warn_singletons(ModuleInfo, PredCallId, VarSet, Body, !Specs) :-
% We handle warnings about variables in the clause head specially.
% This is because the compiler transforms clause heads such as
%
% p(X, Y, Z) :- ...
%
% into
%
% p(HV1, HV2, HV3) :- HV1 = X, HV2 = Y, HV3 = Z, ...
%
% If more than one of the head variables is a singleton, programmers
% would expect a single warning naming them all, since to programmers,
% everything in the clause head is part of the same scope, but for the
% compiler, the singleton nature of e.g. Y is detected in its own scope,
% to wit, the HV2 = Y unification.
%
% Even though we discover the singleton nature of e.g. Y in that
% unification, we don't generate a warning for that scope. Instead,
% we gather all the singleton variables in the head, and generate a single
% message for them all here.
%
% We also do the same thing for variables whose names indicate they should
% be singletons, but aren't.
Info0 = warn_info(ModuleInfo, PredCallId, VarSet,
[], set_of_var.init, set_of_var.init, context_init),
QuantVars = set_of_var.init,
warn_singletons_in_goal(Body, QuantVars, Info0, Info),
Info = warn_info(_ModuleInfo, _PredCallId, _VarSet,
NewSpecs, SingletonHeadVarsSet, MultiHeadVarsSet, HeadContext),
!:Specs = NewSpecs ++ !.Specs,
set_of_var.to_sorted_list(SingletonHeadVarsSet, SingletonHeadVars),
set_of_var.to_sorted_list(MultiHeadVarsSet, MultiHeadVars),
(
SingletonHeadVars = []
;
SingletonHeadVars = [_ | _],
generate_variable_warning(sm_single, HeadContext, PredCallId, VarSet,
SingletonHeadVars, SingleSpec),
!:Specs = [SingleSpec | !.Specs]
),
(
MultiHeadVars = []
;
MultiHeadVars = [_ | _],
generate_variable_warning(sm_multi, HeadContext, PredCallId, VarSet,
MultiHeadVars, MultiSpec),
!:Specs = [MultiSpec | !.Specs]
).
:- type warn_info
---> warn_info(
% The current module.
wi_module_info :: module_info,
% The id and the varset of the procedure whose body
% we are checking.
wi_pred_call_id :: simple_call_id,
wi_varset :: prog_varset,
% The warnings we have generated while checking.
wi_specs :: list(error_spec),
% The set of variables that occur singleton in the clause head.
wi_singleton_headvars :: set_of_progvar,
% The set of variables that occur more than once in the clause
% head, even though their names say they SHOULD be singletons.
wi_multi_headvars :: set_of_progvar,
% The context of the clause head. Should be set to a meaningful
% value if either wi_singleton_headvars or wi_multi_headvars
% is not empty.
%
% It is possible for the clause head to occupy more than one
% line, and thus for different parts of it to have different
% contexts. Since we want to generate only a single error_spec,
% we arbitrarily pick the context of one of those variables.
wi_head_context :: prog_context
).
:- pred warn_singletons_in_goal(hlds_goal::in, set_of_progvar::in,
warn_info::in, warn_info::out) is det.
warn_singletons_in_goal(Goal, QuantVars, !Info) :-
Goal = hlds_goal(GoalExpr, GoalInfo),
(
GoalExpr = conj(_ConjType, Goals),
warn_singletons_in_goal_list(Goals, QuantVars, !Info)
;
GoalExpr = disj(Goals),
warn_singletons_in_goal_list(Goals, QuantVars, !Info)
;
GoalExpr = switch(_Var, _CanFail, Cases),
warn_singletons_in_cases(Cases, QuantVars, !Info)
;
GoalExpr = negation(SubGoal),
warn_singletons_in_goal(SubGoal, QuantVars, !Info)
;
GoalExpr = scope(Reason, SubGoal),
% Warn if any quantified variables occur only in the quantifier.
(
( Reason = exist_quant(Vars)
; Reason = promise_solutions(Vars, _)
),
(
Vars = [_ | _],
SubGoalVars = free_goal_vars(SubGoal),
set_of_var.init(EmptySet),
warn_singletons_goal_vars(Vars, GoalInfo, EmptySet,
SubGoalVars, !Info),
set_of_var.insert_list(Vars, QuantVars, SubQuantVars)
;
Vars = [],
SubQuantVars = QuantVars
),
warn_singletons_in_goal(SubGoal, SubQuantVars, !Info)
;
( Reason = promise_purity(_)
; Reason = require_detism(_)
; Reason = require_complete_switch(_)
; Reason = require_switch_arms_detism(_, _)
; Reason = commit(_)
; Reason = barrier(_)
; Reason = trace_goal(_, _, _, _, _)
),
warn_singletons_in_goal(SubGoal, QuantVars, !Info)
;
Reason = from_ground_term(TermVar, _Kind),
% There can be no singleton variables inside the scopes by
% construction. The only variable involved in the scope that
% can possibly be singleton is the one representing the entire
% ground term.
NonLocals = goal_info_get_nonlocals(GoalInfo),
warn_singletons_goal_vars([TermVar], GoalInfo, NonLocals,
QuantVars, !Info)
;
Reason = loop_control(_, _, _),
% These scopes are introduced only by compiler passes
% that execute after us.
sorry($module, $pred, "loop_control")
)
;
GoalExpr = if_then_else(Vars, Cond, Then, Else),
% Warn if any quantified variables do not occur in the condition
% or the "then" part of the if-then-else.
(
Vars = [_ | _],
CondVars = free_goal_vars(Cond),
ThenVars = free_goal_vars(Then),
set_of_var.union(CondVars, ThenVars, CondThenVars),
set_of_var.init(EmptySet),
warn_singletons_goal_vars(Vars, GoalInfo, EmptySet, CondThenVars,
!Info)
;
Vars = []
),
set_of_var.insert_list(Vars, QuantVars, CondThenQuantVars),
warn_singletons_in_goal(Cond, CondThenQuantVars, !Info),
warn_singletons_in_goal(Then, CondThenQuantVars, !Info),
warn_singletons_in_goal(Else, QuantVars, !Info)
;
GoalExpr = plain_call(_, _, Args, _, _, _),
NonLocals = goal_info_get_nonlocals(GoalInfo),
warn_singletons_goal_vars(Args, GoalInfo, NonLocals, QuantVars, !Info)
;
GoalExpr = generic_call(GenericCall, Args0, _, _, _),
goal_util.generic_call_vars(GenericCall, Args1),
Args = Args0 ++ Args1,
NonLocals = goal_info_get_nonlocals(GoalInfo),
warn_singletons_goal_vars(Args, GoalInfo, NonLocals, QuantVars, !Info)
;
GoalExpr = unify(Var, RHS, _, _, _),
warn_singletons_in_unify(Var, RHS, GoalInfo, QuantVars, !Info)
;
GoalExpr = call_foreign_proc(Attrs, PredId, ProcId, Args, _, _,
PragmaImpl),
Context = goal_info_get_context(GoalInfo),
Lang = get_foreign_language(Attrs),
NamesModes = list.map(foreign_arg_maybe_name_mode, Args),
warn_singletons_in_pragma_foreign_proc(!.Info ^ wi_module_info,
PragmaImpl, Lang, NamesModes, Context, !.Info ^ wi_pred_call_id,
PredId, ProcId, [], PragmaSpecs),
list.foldl(add_warn_spec, PragmaSpecs, !Info)
;
GoalExpr = shorthand(ShortHand),
(
% XXX STM We need to look at how we should handle Outer, Inner and
% MaybeOutputVars.
ShortHand = atomic_goal(_GoalType, _Outer, Inner,
_MaybeOutputVars, MainGoal, OrElseGoals, _OrElseInners),
Inner = atomic_interface_vars(InnerDI, InnerUO),
set_of_var.insert_list([InnerDI, InnerUO],
QuantVars, InsideQuantVars),
warn_singletons_in_goal(MainGoal, InsideQuantVars, !Info),
warn_singletons_in_goal_list(OrElseGoals, InsideQuantVars, !Info)
;
ShortHand = try_goal(_, _, SubGoal),
warn_singletons_in_goal(SubGoal, QuantVars, !Info)
;
ShortHand = bi_implication(GoalA, GoalB),
warn_singletons_in_goal_list([GoalA, GoalB], QuantVars, !Info)
)
).
:- pred warn_singletons_in_goal_list(list(hlds_goal)::in, set_of_progvar::in,
warn_info::in, warn_info::out) is det.
warn_singletons_in_goal_list([], _, !Info).
warn_singletons_in_goal_list([Goal | Goals], QuantVars, !Info) :-
warn_singletons_in_goal(Goal, QuantVars, !Info),
warn_singletons_in_goal_list(Goals, QuantVars, !Info).
:- pred warn_singletons_in_cases(list(case)::in, set_of_progvar::in,
warn_info::in, warn_info::out) is det.
warn_singletons_in_cases([], _, !Info).
warn_singletons_in_cases([Case | Cases], QuantVars, !Info) :-
Case = case(_MainConsId, _OtherConsIds, Goal),
warn_singletons_in_goal(Goal, QuantVars, !Info),
warn_singletons_in_cases(Cases, QuantVars, !Info).
:- pred warn_singletons_in_unify(prog_var::in,
unify_rhs::in, hlds_goal_info::in, set_of_progvar::in,
warn_info::in, warn_info::out) is det.
warn_singletons_in_unify(X, RHS, GoalInfo, QuantVars, !Info) :-
(
RHS = rhs_var(Y),
NonLocals = goal_info_get_nonlocals(GoalInfo),
warn_singletons_goal_vars([X, Y], GoalInfo, NonLocals, QuantVars,
!Info)
;
RHS = rhs_functor(_ConsId, _, Ys),
NonLocals = goal_info_get_nonlocals(GoalInfo),
warn_singletons_goal_vars([X | Ys], GoalInfo, NonLocals, QuantVars,
!Info)
;
RHS = rhs_lambda_goal(_Purity, _Groundness, _PredOrFunc,
_Eval, _NonLocals, LambdaVars, _Modes, _Det, LambdaGoal),
% Warn if any lambda-quantified variables occur only in the quantifier.
LambdaGoal = hlds_goal(_, LambdaGoalInfo),
LambdaNonLocals = goal_info_get_nonlocals(LambdaGoalInfo),
warn_singletons_goal_vars(LambdaVars, GoalInfo, LambdaNonLocals,
QuantVars, !Info),
% Warn if X (the variable we're unifying the lambda expression with)
% is singleton.
NonLocals = goal_info_get_nonlocals(GoalInfo),
warn_singletons_goal_vars([X], GoalInfo, NonLocals, QuantVars, !Info),
% Warn if the lambda-goal contains singletons.
warn_singletons_in_goal(LambdaGoal, QuantVars, !Info)
).
%-----------------------------------------------------------------------------%
% warn_singletons_goal_vars(Vars, GoalInfo, NonLocals, QuantVars, ...):
%
% Warn if any of the non-underscore variables in Vars don't occur in
% NonLocals and don't have the same name as any variable in QuantVars,
% or if any of the underscore variables in Vars do occur in NonLocals.
% Omit the warning if GoalInfo says we should.
%
:- pred warn_singletons_goal_vars(list(prog_var)::in,
hlds_goal_info::in, set_of_progvar::in, set_of_progvar::in,
warn_info::in, warn_info::out) is det.
warn_singletons_goal_vars(GoalVars, GoalInfo, NonLocals, QuantVars, !Info) :-
% Find all the variables in the goal that don't occur outside the goal
% (i.e. are singleton), have a variable name that doesn't start with "_"
% or "DCG_", and don't have the same name as any variable in QuantVars
% (i.e. weren't explicitly quantified).
VarSet = !.Info ^ wi_varset,
CallId = !.Info ^ wi_pred_call_id,
Context = goal_info_get_context(GoalInfo),
list.filter(is_singleton_var(NonLocals, QuantVars, VarSet), GoalVars,
SingleVars),
% If there were any such variables, issue a warning.
( if
( SingleVars = []
; goal_info_has_feature(GoalInfo, feature_dont_warn_singleton)
)
then
true
else
( if goal_info_has_feature(GoalInfo, feature_from_head) then
SingleHeadVars0 = !.Info ^ wi_singleton_headvars,
set_of_var.insert_list(SingleVars,
SingleHeadVars0, SingleHeadVars),
!Info ^ wi_singleton_headvars := SingleHeadVars,
!Info ^ wi_head_context := goal_info_get_context(GoalInfo)
else
generate_variable_warning(sm_single, Context, CallId, VarSet,
SingleVars, SingleSpec),
add_warn_spec(SingleSpec, !Info)
)
),
% Find all the variables in the goal that do occur outside the goal
% (i.e. are not singleton) and have a variable name that starts
% with "_". If there were any such variables, issue a warning.
list.filter(is_multi_var(NonLocals, VarSet), GoalVars, MultiVars),
(
MultiVars = []
;
MultiVars = [_ | _],
( if goal_info_has_feature(GoalInfo, feature_from_head) then
MultiHeadVars0 = !.Info ^ wi_multi_headvars,
set_of_var.insert_list(MultiVars, MultiHeadVars0, MultiHeadVars),
!Info ^ wi_multi_headvars := MultiHeadVars,
!Info ^ wi_head_context := goal_info_get_context(GoalInfo)
else
generate_variable_warning(sm_multi, Context, CallId, VarSet,
MultiVars, MultiSpec),
add_warn_spec(MultiSpec, !Info)
)
).
:- type single_or_multi
---> sm_single
; sm_multi.
:- pred generate_variable_warning(single_or_multi::in, prog_context::in,
simple_call_id::in, prog_varset::in, list(prog_var)::in, error_spec::out)
is det.
generate_variable_warning(SingleMulti, Context, CallId, VarSet, Vars, Spec) :-
(
SingleMulti = sm_single,
Count = "only once"
;
SingleMulti = sm_multi,
Count = "more than once"
),
Preamble = [words("In clause for"), simple_call(CallId), suffix(":"), nl],
VarStrs0 = list.map(mercury_var_to_name_only(VarSet), Vars),
list.sort_and_remove_dups(VarStrs0, VarStrs),
VarsPiece = quote(string.join_list(", ", VarStrs)),
( if VarStrs = [_] then
Pieces = [words("warning: variable"), VarsPiece,
words("occurs"), words(Count), words("in this scope."), nl]
else
Pieces = [words("warning: variables"), VarsPiece,
words("occur"), words(Count), words("in this scope."), nl]
),
Msg = simple_msg(Context,
[option_is_set(warn_singleton_vars, yes,
[always(Preamble ++ Pieces)])]),
Severity = severity_conditional(warn_singleton_vars, yes,
severity_warning, no),
Spec = error_spec(Severity, phase_parse_tree_to_hlds, [Msg]).
:- pred add_warn_spec(error_spec::in, warn_info::in, warn_info::out) is det.
add_warn_spec(Spec, !Info) :-
Specs0 = !.Info ^ wi_specs,
Specs = [Spec | Specs0],
!Info ^ wi_specs := Specs.
%-----------------------------------------------------------------------------%
warn_singletons_in_pragma_foreign_proc(ModuleInfo, PragmaImpl, Lang,
Args, Context, SimpleCallId, PredId, ProcId, !Specs) :-
LangStr = foreign_language_string(Lang),
PragmaImpl = fp_impl_ordinary(Code, _),
c_code_to_name_list(Code, C_CodeList),
list.filter_map(var_is_unmentioned(C_CodeList), Args, UnmentionedVars),
(
UnmentionedVars = []
;
UnmentionedVars = [_ | _],
Pieces = [words("In the"), words(LangStr), words("code for"),
simple_call(SimpleCallId), suffix(":"), nl] ++
variable_warning_start(UnmentionedVars) ++
[words("not occur in the"), words(LangStr), words("code."), nl],
Msg = simple_msg(Context,
[option_is_set(warn_singleton_vars, yes, [always(Pieces)])]),
Severity = severity_conditional(warn_singleton_vars, yes,
severity_warning, no),
Spec = error_spec(Severity, phase_parse_tree_to_hlds, [Msg]),
!:Specs = [Spec | !.Specs]
),
pragma_foreign_proc_body_checks(ModuleInfo, Lang, Context, SimpleCallId,
PredId, ProcId, C_CodeList, !Specs).
:- pred var_is_unmentioned(list(string)::in, maybe(pair(string, mer_mode))::in,
string::out) is semidet.
var_is_unmentioned(NameList1, MaybeArg, Name) :-
MaybeArg = yes(Name - _Mode),
not string.prefix(Name, "_"),
not list.member(Name, NameList1).
:- pred input_var_is_unmentioned(module_info::in,
list(string)::in, maybe(pair(string, mer_mode))::in,
string::out) is semidet.
input_var_is_unmentioned(ModuleInfo, NameList1, MaybeArg, Name) :-
MaybeArg = yes(Name - Mode),
mode_is_input(ModuleInfo, Mode),
not string.prefix(Name, "_"),
not list.member(Name, NameList1).
:- pred output_var_is_unmentioned(module_info::in,
list(string)::in, list(string)::in, maybe(pair(string, mer_mode))::in,
string::out) is semidet.
output_var_is_unmentioned(ModuleInfo, NameList1, NameList2, MaybeArg, Name) :-
MaybeArg = yes(Name - Mode),
mode_is_output(ModuleInfo, Mode),
not string.prefix(Name, "_"),
not list.member(Name, NameList1),
not list.member(Name, NameList2).
:- func variable_warning_start(list(string)) = list(format_component).
variable_warning_start(UnmentionedVars) = Pieces :-
( if UnmentionedVars = [Var] then
Pieces = [words("warning: variable"), quote(Var), words("does")]
else
Pieces = [words("warning: variables"),
words(add_quotes(string.join_list(", ", UnmentionedVars))),
words("do")]
).
% c_code_to_name_list(Code, List) is true iff List is a list of the
% identifiers used in the C code in Code.
%
:- pred c_code_to_name_list(string::in, list(string)::out) is det.
c_code_to_name_list(Code, List) :-
string.to_char_list(Code, CharList),
c_code_to_name_list_2(CharList, List).
:- pred c_code_to_name_list_2(list(char)::in, list(string)::out) is det.
c_code_to_name_list_2(C_Code, List) :-
get_first_c_name(C_Code, NameCharList, TheRest),
(
NameCharList = [],
% no names left
List = []
;
NameCharList = [_ | _],
c_code_to_name_list_2(TheRest, Names),
string.from_char_list(NameCharList, Name),
List = [Name | Names]
).
:- pred get_first_c_name(list(char)::in, list(char)::out, list(char)::out)
is det.
get_first_c_name([], [], []).
get_first_c_name([C | CodeChars], NameCharList, TheRest) :-
( if char.is_alnum_or_underscore(C) then
get_first_c_name_in_word(CodeChars, NameCharList0, TheRest),
NameCharList = [C | NameCharList0]
else
% Strip off any characters in the C code which don't form part
% of an identifier.
get_first_c_name(CodeChars, NameCharList, TheRest)
).
:- pred get_first_c_name_in_word(list(char)::in, list(char)::out,
list(char)::out) is det.
get_first_c_name_in_word([], [], []).
get_first_c_name_in_word([C | CodeChars], NameCharList, TheRest) :-
( if char.is_alnum_or_underscore(C) then
% There are more characters in the word.
get_first_c_name_in_word(CodeChars, NameCharList0, TheRest),
NameCharList = [C|NameCharList0]
else
% The word is finished.
NameCharList = [],
TheRest = CodeChars
).
:- pred is_singleton_var(set_of_progvar::in,
set_of_progvar::in, prog_varset::in, prog_var::in) is semidet.
is_singleton_var(NonLocals, QuantVars, VarSet, Var) :-
not set_of_var.member(NonLocals, Var),
varset.search_name(VarSet, Var, Name),
not string.prefix(Name, "_"),
not string.prefix(Name, "DCG_"),
not (
set_of_var.member(QuantVars, QuantVar),
varset.search_name(VarSet, QuantVar, Name)
).
:- pred is_multi_var(set_of_progvar::in, prog_varset::in, prog_var::in)
is semidet.
is_multi_var(NonLocals, VarSet, Var) :-
set_of_var.member(NonLocals, Var),
varset.search_name(VarSet, Var, Name),
string.prefix(Name, "_").
:- pred pragma_foreign_proc_body_checks(module_info::in, foreign_language::in,
prog_context::in, simple_call_id::in, pred_id::in, proc_id::in,
list(string)::in, list(error_spec)::in, list(error_spec)::out) is det.
pragma_foreign_proc_body_checks(ModuleInfo, Lang, Context, SimpleCallId,
PredId, ProcId, BodyPieces, !Specs) :-
module_info_pred_info(ModuleInfo, PredId, PredInfo),
pred_info_get_status(PredInfo, PredStatus),
IsImported = pred_status_is_imported(PredStatus),
(
IsImported = yes
;
IsImported = no,
check_fp_body_for_success_indicator(ModuleInfo, Lang, Context,
SimpleCallId, PredId, ProcId, BodyPieces, !Specs),
check_fp_body_for_return(Lang, Context, SimpleCallId, BodyPieces,
!Specs)
).
:- pred check_fp_body_for_success_indicator(module_info::in,
foreign_language::in, prog_context::in, simple_call_id::in,
pred_id::in, proc_id::in, list(string)::in,
list(error_spec)::in, list(error_spec)::out) is det.
check_fp_body_for_success_indicator(ModuleInfo, Lang, Context, SimpleCallId,
PredId, ProcId, BodyPieces, !Specs) :-
module_info_proc_info(ModuleInfo, PredId, ProcId, ProcInfo),
proc_info_get_declared_determinism(ProcInfo, MaybeDeclDetism),
(
MaybeDeclDetism = yes(Detism),
(
( Lang = lang_c
; Lang = lang_csharp
; Lang = lang_erlang
; Lang = lang_java
),
SuccIndStr = "SUCCESS_INDICATOR",
(
( Detism = detism_det
; Detism = detism_cc_multi
; Detism = detism_erroneous
),
( if list.member(SuccIndStr, BodyPieces) then
LangStr = foreign_language_string(Lang),
Pieces = [
words("Warning: the"), fixed(LangStr),
words("code for"), simple_call(SimpleCallId),
words("may set"), quote(SuccIndStr), suffix(","),
words("but it cannot fail.")
],
Msg = simple_msg(Context,
[option_is_set(warn_suspicious_foreign_procs, yes,
[always(Pieces)])]),
Severity = severity_conditional(
warn_suspicious_foreign_procs, yes,
severity_warning, no),
Spec = error_spec(Severity, phase_parse_tree_to_hlds,
[Msg]),
!:Specs = [Spec | !.Specs]
else
true
)
;
( Detism = detism_semi
; Detism = detism_cc_non
),
( if list.member(SuccIndStr, BodyPieces) then
true
else
LangStr = foreign_language_string(Lang),
Pieces = [
words("Warning: the"), fixed(LangStr),
words("code for"), simple_call(SimpleCallId),
words("does not appear to set"),
quote(SuccIndStr), suffix(","),
words("but it can fail.")
],
Msg = simple_msg(Context,
[option_is_set(warn_suspicious_foreign_procs, yes,
[always(Pieces)])]),
Severity = severity_conditional(
warn_suspicious_foreign_procs, yes,
severity_warning, no),
Spec = error_spec(Severity, phase_parse_tree_to_hlds,
[Msg]),
!:Specs = [Spec | !.Specs]
)
;
( Detism = detism_multi
; Detism = detism_non
; Detism = detism_failure
)
)
)
;
MaybeDeclDetism = no
).
% Check to see if a foreign_proc body contains a return statement
% (or whatever the foreign language equivalent is).
%
:- pred check_fp_body_for_return(foreign_language::in, prog_context::in,
simple_call_id::in, list(string)::in,
list(error_spec)::in, list(error_spec)::out) is det.
check_fp_body_for_return(Lang, Context, SimpleCallId, BodyPieces, !Specs) :-
(
( Lang = lang_c
; Lang = lang_csharp
; Lang = lang_java
),
( if list.member("return", BodyPieces) then
LangStr = foreign_language_string(Lang),
Pieces = [words("Warning: the"), fixed(LangStr),
words("code for"), simple_call(SimpleCallId),
words("may contain a"), quote("return"),
words("statement."), nl],
Msg = simple_msg(Context,
[option_is_set(warn_suspicious_foreign_procs, yes,
[always(Pieces)])]
),
Severity = severity_conditional(
warn_suspicious_foreign_procs, yes, severity_warning, no),
Spec = error_spec(Severity, phase_parse_tree_to_hlds, [Msg]),
!:Specs = [Spec | !.Specs]
else
true
)
;
Lang = lang_erlang
).
%-----------------------------------------------------------------------------%
%
% Promise_ex error checking.
%
check_promise_ex_decl(UnivVars, PromiseType, Goal, Context, !Specs) :-
% Are universally quantified variables present?
(
UnivVars = [],
promise_ex_error(PromiseType, Context,
"declaration has no universally quantified variables", !Specs)
;
UnivVars = [_ | _]
),
check_promise_ex_goal(PromiseType, Goal, !Specs).
% Check for misplaced universal quantification, otherwise find the
% disjunction, flatten it out into list form and perform further checks.
%
:- pred check_promise_ex_goal(promise_type::in, goal::in,
list(error_spec)::in, list(error_spec)::out) is det.
check_promise_ex_goal(PromiseType, Goal, !Specs) :-
( if
Goal = quant_expr(quant_some, quant_ordinary_vars, _, _, SubGoal)
then
check_promise_ex_goal(PromiseType, SubGoal, !Specs)
else if
Goal = disj_expr(_, _, _)
then
flatten_to_disj_list(Goal, DisjList),
list.map(flatten_to_conj_list, DisjList, DisjConjList),
check_promise_ex_disjunction(PromiseType, DisjConjList, !Specs)
else if
Goal = quant_expr(quant_all, quant_ordinary_vars, Context, _UnivVars,
SubGoal)
then
promise_ex_error(PromiseType, Context,
"universal quantification should come before " ++
"the declaration name", !Specs),
check_promise_ex_goal(PromiseType, SubGoal, !Specs)
else
promise_ex_error(PromiseType, goal_get_context(Goal),
"goal in declaration is not a disjunction", !Specs)
).
% Turns the goal of a promise_ex declaration into a list of goals,
% where each goal is an arm of the disjunction.
%
:- pred flatten_to_disj_list(goal::in, list(goal)::out) is det.
flatten_to_disj_list(Goal, GoalList) :-
( if Goal = disj_expr(_, GoalA, GoalB) then
flatten_to_disj_list(GoalA, GoalListA),
flatten_to_disj_list(GoalB, GoalListB),
GoalList = GoalListA ++ GoalListB
else
GoalList = [Goal]
).
% Takes a goal representing an arm of a disjunction and turns it into
% a list of conjunct goals.
%
:- pred flatten_to_conj_list(goal::in, list(goal)::out) is det.
flatten_to_conj_list(Goal, GoalList) :-
( if Goal = conj_expr(_, GoalA, GoalB) then
flatten_to_conj_list(GoalA, GoalListA),
flatten_to_conj_list(GoalB, GoalListB),
GoalList = GoalListA ++ GoalListB
else
GoalList = [Goal]
).
% Taking a list of arms of the disjunction, check each arm individually.
%
:- pred check_promise_ex_disjunction(promise_type::in, list(list(goal))::in,
list(error_spec)::in, list(error_spec)::out) is det.
check_promise_ex_disjunction(PromiseType, DisjConjList, !Specs) :-
(
DisjConjList = []
;
DisjConjList = [ConjList | Rest],
check_promise_ex_disj_arm(PromiseType, ConjList, no, !Specs),
check_promise_ex_disjunction(PromiseType, Rest, !Specs)
).
% Only one goal in an arm is allowed to be a call, the rest must be
% unifications.
%
:- pred check_promise_ex_disj_arm(promise_type::in, list(goal)::in, bool::in,
list(error_spec)::in, list(error_spec)::out) is det.
check_promise_ex_disj_arm(PromiseType, Goals, CallUsed, !Specs) :-
(
Goals = []
;
Goals = [HeadGoal | TailGoals],
( if
HeadGoal = unify_expr(_, _, _, _)
then
check_promise_ex_disj_arm(PromiseType, TailGoals,
CallUsed, !Specs)
else if
HeadGoal = quant_expr(quant_some, quant_ordinary_vars, _, _,
HeadSubGoal)
then
check_promise_ex_disj_arm(PromiseType, [HeadSubGoal | TailGoals],
CallUsed, !Specs)
else if
HeadGoal = call_expr(Context, _, _, _)
then
(
CallUsed = no
;
CallUsed = yes,
promise_ex_error(PromiseType, Context,
"disjunct contains more than one call", !Specs)
),
check_promise_ex_disj_arm(PromiseType, TailGoals, yes, !Specs)
else
promise_ex_error(PromiseType, goal_get_context(HeadGoal),
"disjunct is not a call or unification", !Specs),
check_promise_ex_disj_arm(PromiseType, TailGoals, CallUsed, !Specs)
)
).
% Called for any error in the above checks.
%
:- pred promise_ex_error(promise_type::in, prog_context::in, string::in,
list(error_spec)::in, list(error_spec)::out) is det.
promise_ex_error(PromiseType, Context, Message, !Specs) :-
Pieces = [words("In"), quote(prog_out.promise_to_string(PromiseType)),
words("declaration:"), nl,
words("error:"), words(Message), nl],
Msg = simple_msg(Context, [always(Pieces)]),
Spec = error_spec(severity_error, phase_parse_tree_to_hlds, [Msg]),
!:Specs = [Spec | !.Specs].
%-----------------------------------------------------------------------------%
:- end_module hlds.make_hlds.make_hlds_warn.
%-----------------------------------------------------------------------------%
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