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mercury/compiler/term_traversal.m
Fergus Henderson 11d8161692 Add support for nested modules. 
Estimated hours taken: 50

Add support for nested modules.

- module names may themselves be module-qualified
- modules may contain `:- include_module' declarations
  which name sub-modules
- a sub-module has access to all the declarations in the
  parent module (including its implementation section).

This support is not yet complete; see the BUGS and LIMITATIONS below.

LIMITATIONS
- source file names must match module names
	(just as they did previously)
- mmc doesn't allow path names on the command line any more
	(e.g. `mmc --make-int ../library/foo.m').
- import_module declarations must use the fully-qualified module name
- module qualifiers must use the fully-qualified module name
- no support for root-qualified module names
	(e.g. `:parent:child' instead of `parent:child').
- modules may not be physically nested (only logical nesting, via
  `include_module').

BUGS
- doesn't check that the parent module is imported/used before allowing
	import/use of its sub-modules.
- doesn't check that there is an include_module declaration in the
	parent for each module claiming to be a child of that parent
- privacy of private modules is not enforced

-------------------

NEWS:
	Mention that we support nested modules.

library/ops.m:
library/nc_builtin.nl:
library/sp_builtin.nl:
compiler/mercury_to_mercury.m:
	Add `include_module' as a new prefix operator.
	Change the associativity of `:' from xfy to yfx
	(since this made parsing module qualifiers slightly easier).

compiler/prog_data.m:
	Add new `include_module' declaration.
	Change the `module_name' and `module_specifier' types
	from strings to sym_names, so that module names can
	themselves be module qualified.

compiler/modules.m:
	Add predicates module_name_to_file_name/2 and
	file_name_to_module_name/2.
	Lots of changes to handle parent module dependencies,
	to create parent interface (`.int0') files, to read them in,
	to output correct dependencies information for them to the
	`.d' and `.dep' files, etc.
	Rewrite a lot of the code to improve the readability
	(add comments, use subroutines, better variable names).
	Also fix a couple of bugs:
	- generate_dependencies was using the transitive implementation
	  dependencies rather than the transitive interface dependencies
	  to compute the `.int3' dependencies when writing `.d' files
	  (this bug was introduced during crs's changes to support
	  `.trans_opt' files)
	- when creating the `.int' file, it was reading in the
	  interfaces for modules imported in the implementation section,
	  not just those in the interface section.
	  This meant that the compiler missed a lot of errors.

library/graph.m:
library/lexer.m:
library/term.m:
library/term_io.m:
library/varset.m:
compiler/*.m:
	Add `:- import_module' declarations to the interface needed
	by declarations in the interface.  (The previous version
	of the compiler did not detect these missing interface imports,
	due to the above-mentioned bug in modules.m.)

compiler/mercury_compile.m:
compiler/intermod.m:
	Change mercury_compile__maybe_grab_optfiles and
	intermod__grab_optfiles so that they grab the opt files for
	parent modules as well as the ones for imported modules.

compiler/mercury_compile.m:
	Minor changes to handle parent module dependencies.
	(Also improve the wording of the warning about trans-opt
	dependencies.)

compiler/make_hlds.m:
compiler/module_qual.m:
	Ignore `:- include_module' declarations.

compiler/module_qual.m:
	A couple of small changes to handle nested module names.

compiler/prog_out.m:
compiler/prog_util.m:
	Add new predicates string_to_sym_name/3 (prog_util.m) and
	sym_name_to_string/{2,3} (prog_out.m).

compiler/*.m:
	Replace many occurrences of `string' with `module_name'.
	Change code that prints out module names or converts
	them to strings or filenames to handle the fact that
	module names are now sym_names intead of strings.
	Also change a few places (e.g. in intermod.m, hlds_module.m)
	where the code assumed that any qualified symbol was
	fully-qualified.

compiler/prog_io.m:
compiler/prog_io_goal.m:
	Move sym_name_and_args/3, parse_qualified_term/4 and
	parse_qualified_term/5 preds from prog_io_goal.m to prog_io.m,
	since they are very similar to the parse_symbol_name/2 predicate
	already in prog_io.m.  Rewrite these predicates, both
	to improve maintainability, and to handle the newly
	allowed syntax (module-qualified module names).
	Rename parse_qualified_term/5 as `parse_implicit_qualified_term'.

compiler/prog_io.m:
	Rewrite the handling of `:- module' and `:- end_module'
	declarations, so that it can handle nested modules.
	Add code to parse `include_module' declarations.

compiler/prog_util.m:
compiler/*.m:
	Add new predicates mercury_public_builtin_module/1 and
	mercury_private_builtin_module/1 in prog_util.m.
	Change most of the hard-coded occurrences of "mercury_builtin"
	to call mercury_private_builtin_module/1 or
	mercury_public_builtin_module/1 or both.

compiler/llds_out.m:
	Add llds_out__sym_name_mangle/2, for mangling module names.

compiler/special_pred.m:
compiler/mode_util.m:
compiler/clause_to_proc.m:
compiler/prog_io_goal.m:
compiler/lambda.m:
compiler/polymorphism.m:
	Move the predicates in_mode/1, out_mode/1, and uo_mode/1
	from special_pred.m to mode_util.m, and change various
	hard-coded definitions to instead call these predicates.

compiler/polymorphism.m:
	Ensure that the type names `type_info' and `typeclass_info' are
	module-qualified in the generated code.  This avoids a problem
	where the code generated by polymorphism.m was not considered
	type-correct, due to the type `type_info' not matching
	`mercury_builtin:type_info'.

compiler/check_typeclass.m:
	Simplify the code for check_instance_pred and
	get_matching_instance_pred_ids.

compiler/mercury_compile.m:
compiler/modules.m:
	Disallow directory names in command-line arguments.

compiler/options.m:
compiler/handle_options.m:
compiler/mercury_compile.m:
compiler/modules.m:
	Add a `--make-private-interface' option.
	The private interface file `<module>.int0' contains
	all the declarations in the module; it is used for
	compiling sub-modules.

scripts/Mmake.rules:
scripts/Mmake.vars.in:
	Add support for creating `.int0' and `.date0' files
	by invoking mmc with `--make-private-interface'.

doc/user_guide.texi:
	Document `--make-private-interface' and the `.int0'
	and `.date0' file extensions.

doc/reference_manual.texi:
	Document nested modules.

util/mdemangle.c:
profiler/demangle.m:
	Demangle names with multiple module qualifiers.

tests/general/Mmakefile:
tests/general/string_format_test.m:
tests/general/string_format_test.exp:
tests/general/string__format_test.m:
tests/general/string__format_test.exp:
tests/general/.cvsignore:
	Change the `:- module string__format_test' declaration in
	`string__format_test.m' to `:- module string_format_test',
	because with the original declaration the `__' was taken
	as a module qualifier, which lead to an error message.
	Hence rename the file accordingly, to avoid the warning
	about file name not matching module name.

tests/invalid/Mmakefile:
tests/invalid/missing_interface_import.m:
tests/invalid/missing_interface_import.err_exp:
	Regression test to check that the compiler reports
	errors for missing `import_module' in the interface section.

tests/invalid/*.err_exp:
tests/warnings/unused_args_test.exp:
tests/warnings/unused_import.exp:
	Update the expected diagnostics output for the test cases to
	reflect a few minor changes to the warning messages.

tests/hard_coded/Mmakefile:
tests/hard_coded/parent.m:
tests/hard_coded/parent.child.m:
tests/hard_coded/parent.exp:
tests/hard_coded/parent2.m:
tests/hard_coded/parent2.child.m:
tests/hard_coded/parent2.exp:
	Two simple tests case for the use of nested modules with
	separate compilation.
1998-03-03 17:48:14 +00:00

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%-----------------------------------------------------------------------------%
% Copyright (C) 1997-1998 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.
%-----------------------------------------------------------------------------%
%
% term_traversal.m
%
% Main author: crs.
% Significant rewrite by zs.
%
% This module contains the code used to traverse procedure bodies
% for both passes of termination analysis.
%
% For details, please refer to the papers mentioned in termination.m.
%
%-----------------------------------------------------------------------------%
:- module term_traversal.
:- interface.
:- import_module term_util, term_errors.
:- import_module hlds_module, hlds_pred, hlds_goal, prog_data.
:- import_module list, bag, map, std_util, set, term.
:- type traversal_info
---> ok(
set(path_info),
% Information about the paths we have
% followed. With a conjunction of
% length N, each of whose elements is
% a branched control structure, the
% number of paths through the
% conjunction is 2^N. The reason why
% we use a set of path_infos instead
% of a list is that this can postpone
% the representation getting too big
% if (as is at least moderately likely)
% many of the paths have identical
% properties.
list(term_errors__error)
% Have we processed a call to a
% procedure whose maybe termination
% info was yes(can_loop(_))?
% If yes, record the error here.
% (This is not an error in pass 1,
% but we want to find this out in
% pass 1 so we can avoid doing pass 2.)
)
; error(
list(term_errors__error),
% Errors which are fatal in both
% passes.
list(term_errors__error)
% Have we processed a call to a
% procedure whose maybe termination
% info was yes(can_loop(_))?
% If yes, record the error here.
% (This is not an error in pass 1,
% but we want to find this out in
% pass 1 so we can avoid doing pass 2.)
).
:- type path_info
---> path_info(
pred_proc_id, % The identify of the procedure
% that this path is within.
maybe(pair(pred_proc_id, term__context)),
% If no, path was started at the end
% of the procedure given by field 1.
% If yes, the arg names the procedure
% at the call to which the path started
% and the context of the call.
% In pass 1, all starts should be no.
% In pass 2, all starts should be yes.
int,
list(pred_proc_id),
bag(var)
% These three fields describe the
% right hand side of the inequation
% we are propagating.
).
:- type traversal_params.
:- pred init_traversal_params(module_info::in, functor_info::in,
pred_proc_id::in, term__context::in, map(var, type)::in,
used_args::in, used_args::in, int::in, int::in,
traversal_params::out) is det.
:- pred traverse_goal(hlds_goal::in, traversal_params::in,
traversal_info::in, traversal_info::out) is det.
:- pred upper_bound_active_vars(list(path_info)::in, bag(var)::out) is det.
:- implementation.
:- import_module hlds_data, type_util.
:- import_module bool, int, require.
traverse_goal(Goal, Params, Info0, Info) :-
Goal = GoalExpr - GoalInfo,
(
goal_info_get_determinism(GoalInfo, Detism),
determinism_components(Detism, _, at_most_zero)
->
cannot_succeed(Info0, Info1)
;
Info1 = Info0
),
traverse_goal_2(GoalExpr, GoalInfo, Params, Info1, Info).
:- pred traverse_goal_2(hlds_goal_expr::in, hlds_goal_info::in,
traversal_params::in, traversal_info::in, traversal_info::out) is det.
traverse_goal_2(unify(_Var, _RHS, _UniMode, Unification, _Context),
_GoalInfo, Params, Info0, Info) :-
(
Unification = construct(OutVar, ConsId, Args, Modes),
(
unify_change(OutVar, ConsId, Args, Modes, Params,
Gamma, InVars, OutVars0)
->
bag__insert(OutVars0, OutVar, OutVars),
record_change(InVars, OutVars, Gamma, [], Info0, Info)
;
% length(Args) is not necessarily equal to length(Modes)
% for higher order constructions.
Info = Info0
)
;
Unification = deconstruct(InVar, ConsId, Args, Modes, _),
(
unify_change(InVar, ConsId, Args, Modes, Params,
Gamma0, InVars0, OutVars)
->
bag__insert(InVars0, InVar, InVars),
Gamma is 0 - Gamma0,
record_change(InVars, OutVars, Gamma, [], Info0, Info)
;
error("higher order deconstruction")
)
;
Unification = assign(OutVar, InVar),
bag__init(Empty),
bag__insert(Empty, InVar, InVars),
bag__insert(Empty, OutVar, OutVars),
record_change(InVars, OutVars, 0, [], Info0, Info)
;
Unification = simple_test(_InVar1, _InVar2),
Info = Info0
;
Unification = complicated_unify(_, _),
error("Unexpected complicated_unify in termination analysis")
).
traverse_goal_2(conj(Goals), _, Params, Info0, Info) :-
list__reverse(Goals, RevGoals),
traverse_conj(RevGoals, Params, Info0, Info).
traverse_goal_2(switch(_, _, Cases, _), _, Params, Info0, Info) :-
traverse_switch(Cases, Params, Info0, Info).
traverse_goal_2(disj(Goals, _StoreMap), _, Params, Info0, Info) :-
traverse_disj(Goals, Params, Info0, Info).
traverse_goal_2(not(Goal), _, Params, Info0, Info) :-
% Since goal cannot bind any active variables,
% we don't need to traverse Goal for pass1,
% but it shouldn't hurt either.
traverse_goal(Goal, Params, Info0, Info).
traverse_goal_2(some(_Vars, Goal), _GoalInfo, Params, Info0, Info) :-
traverse_goal(Goal, Params, Info0, Info).
traverse_goal_2(if_then_else(_, Cond, Then, Else, _), _, Params, Info0, Info) :-
traverse_conj([Then, Cond], Params, Info0, Info1),
traverse_goal(Else, Params, Info0, Info2),
combine_paths(Info1, Info2, Params, Info).
traverse_goal_2(pragma_c_code(_, CallPredId, CallProcId, Args, _, _, _),
GoalInfo, Params, Info0, Info) :-
params_get_module_info(Params, Module),
module_info_pred_proc_info(Module, CallPredId, CallProcId, _,
CallProcInfo),
proc_info_argmodes(CallProcInfo, CallArgModes),
partition_call_args(Module, CallArgModes, Args, _InVars, OutVars),
goal_info_get_context(GoalInfo, Context),
error_if_intersect(OutVars, Context, pragma_c_code, Info0, Info).
traverse_goal_2(higher_order_call(_, _, _, _, _, _),
GoalInfo, Params, Info0, Info) :-
goal_info_get_context(GoalInfo, Context),
add_error(Context, horder_call, Params, Info0, Info).
% For now, we'll pretend that the class method call is a higher order
% call. In reality, we could probably analyse further than this, since
% we know that the method being called must come from one of the
% instance declarations, and we could potentially (globally) analyse
% these.
traverse_goal_2(class_method_call(_, _, _, _, _, _),
GoalInfo, Params, Info0, Info) :-
goal_info_get_context(GoalInfo, Context),
add_error(Context, horder_call, Params, Info0, Info).
traverse_goal_2(call(CallPredId, CallProcId, Args, _, _, _),
GoalInfo, Params, Info0, Info) :-
goal_info_get_context(GoalInfo, Context),
params_get_module_info(Params, Module),
params_get_ppid(Params, PPId),
CallPPId = proc(CallPredId, CallProcId),
module_info_pred_proc_info(Module, CallPredId, CallProcId, _,
CallProcInfo),
proc_info_argmodes(CallProcInfo, CallArgModes),
proc_info_get_maybe_arg_size_info(CallProcInfo, CallArgSizeInfo),
proc_info_get_maybe_termination_info(CallProcInfo, CallTerminationInfo),
partition_call_args(Module, CallArgModes, Args, InVars, OutVars),
% Handle existing paths
(
CallArgSizeInfo = yes(finite(CallGamma, OutputSuppliers)),
remove_unused_args(InVars, Args, OutputSuppliers, UsedInVars),
record_change(UsedInVars, OutVars, CallGamma, [], Info0, Info1)
;
CallArgSizeInfo = yes(infinite(_)),
error_if_intersect(OutVars, Context,
inf_termination_const(PPId, CallPPId), Info0, Info1)
;
CallArgSizeInfo = no,
% We should get to this point only in pass 1.
% In pass 2, OutputSuppliersMap will be empty,
% which will lead to a runtime abort in map__lookup.
params_get_output_suppliers(Params, OutputSuppliersMap),
map__lookup(OutputSuppliersMap, CallPPId, OutputSuppliers),
remove_unused_args(InVars, Args, OutputSuppliers, UsedInVars),
record_change(UsedInVars, OutVars, 0, [CallPPId], Info0, Info1)
),
% Did we call a non-terminating procedure?
(
CallTerminationInfo = yes(can_loop(_))
->
called_can_loop(Context, can_loop_proc_called(PPId, CallPPId),
Params, Info1, Info2)
;
Info2 = Info1
),
% Did we call a procedure with some procedure-valued arguments?
(
% This is an overapproximation, since it includes
% higher order outputs. XXX
params_get_var_types(Params, VarTypes),
horder_vars(Args, VarTypes)
->
add_error(Context, horder_args(PPId, CallPPId), Params,
Info2, Info3)
;
Info3 = Info2
),
% Do we start another path?
(
params_get_rec_input_suppliers(Params, RecInputSuppliersMap),
map__search(RecInputSuppliersMap, CallPPId, RecInputSuppliers)
->
% We should get to this point only in pass 2, and then
% only if this call is to a procedure in the current SCC.
% In pass 1, RecInputSuppliersMap will be empty.
compute_rec_start_vars(Args, RecInputSuppliers, Bag),
PathStart = yes(CallPPId - Context),
NewPath = path_info(PPId, PathStart, 0, [], Bag),
add_path(NewPath, Info3, Info)
;
Info = Info3
).
%-----------------------------------------------------------------------------%
% Traverse_conj should be invoked with a reversed list of goals.
% This is to keep stack consumption down.
:- pred traverse_conj(list(hlds_goal)::in, traversal_params::in,
traversal_info::in, traversal_info::out) is det.
traverse_conj([], _, Info, Info).
traverse_conj([Goal | Goals], Params, Info0, Info) :-
traverse_goal(Goal, Params, Info0, Info1),
traverse_conj(Goals, Params, Info1, Info).
:- pred traverse_disj(list(hlds_goal)::in, traversal_params::in,
traversal_info::in, traversal_info::out) is det.
traverse_disj([], _, _, ok(Empty, [])) :-
set__init(Empty).
traverse_disj([Goal | Goals], Params, Info0, Info) :-
traverse_goal(Goal, Params, Info0, Info1),
traverse_disj(Goals, Params, Info0, Info2),
combine_paths(Info1, Info2, Params, Info).
:- pred traverse_switch(list(case)::in, traversal_params::in,
traversal_info::in, traversal_info::out) is det.
traverse_switch([], _, _, ok(Empty, [])) :-
set__init(Empty).
traverse_switch([case(_, Goal) | Cases], Params, Info0, Info) :-
traverse_goal(Goal, Params, Info0, Info1),
traverse_switch(Cases, Params, Info0, Info2),
combine_paths(Info1, Info2, Params, Info).
%-----------------------------------------------------------------------------%
:- pred cannot_succeed(traversal_info::in, traversal_info::out) is det.
cannot_succeed(error(Errors, CanLoop), error(Errors, CanLoop)).
cannot_succeed(ok(_, CanLoop), ok(Empty, CanLoop)) :-
set__init(Empty).
:- pred add_path(path_info::in, traversal_info::in, traversal_info::out) is det.
add_path(_, error(Errors, CanLoop), error(Errors, CanLoop)).
add_path(Path, ok(Paths0, CanLoop), ok(Paths, CanLoop)) :-
set__insert(Paths0, Path, Paths).
:- pred add_error(term__context::in, termination_error::in,
traversal_params::in, traversal_info::in, traversal_info::out) is det.
add_error(Context, Error, Params, error(Errors0, CanLoop),
error(Errors, CanLoop)) :-
Errors1 = [Context - Error | Errors0],
params_get_max_errors(Params, MaxErrors),
list__take_upto(MaxErrors, Errors1, Errors).
add_error(Context, Error, _, ok(_, CanLoop),
error([Context - Error], CanLoop)).
:- pred called_can_loop(term__context::in, termination_error::in,
traversal_params::in, traversal_info::in, traversal_info::out) is det.
called_can_loop(Context, Error, Params, error(Errors, CanLoop0),
error(Errors, CanLoop)) :-
CanLoop1 = [Context - Error | CanLoop0],
params_get_max_errors(Params, MaxErrors),
list__take_upto(MaxErrors, CanLoop1, CanLoop).
called_can_loop(Context, Error, Params, ok(Paths, CanLoop0),
ok(Paths, CanLoop)) :-
CanLoop1 = [Context - Error | CanLoop0],
params_get_max_errors(Params, MaxErrors),
list__take_upto(MaxErrors, CanLoop1, CanLoop).
:- pred combine_paths(traversal_info::in, traversal_info::in,
traversal_params::in, traversal_info::out) is det.
combine_paths(error(Errors1, CanLoop1), error(Errors2, CanLoop2), Params,
error(Errors, CanLoop)) :-
params_get_max_errors(Params, MaxErrors),
list__append(Errors1, Errors2, Errors3),
list__take_upto(MaxErrors, Errors3, Errors),
list__append(CanLoop1, CanLoop2, CanLoop3),
list__take_upto(MaxErrors, CanLoop3, CanLoop).
combine_paths(error(Errors1, CanLoop1), ok(_, CanLoop2), Params,
error(Errors1, CanLoop)) :-
params_get_max_errors(Params, MaxErrors),
list__append(CanLoop1, CanLoop2, CanLoop3),
list__take_upto(MaxErrors, CanLoop3, CanLoop).
combine_paths(ok(_, CanLoop1), error(Errors2, CanLoop2), Params,
error(Errors2, CanLoop)) :-
params_get_max_errors(Params, MaxErrors),
list__append(CanLoop1, CanLoop2, CanLoop3),
list__take_upto(MaxErrors, CanLoop3, CanLoop).
combine_paths(ok(Paths1, CanLoop1), ok(Paths2, CanLoop2), Params,
Info) :-
params_get_max_errors(Params, MaxErrors),
list__append(CanLoop1, CanLoop2, CanLoop3),
list__take_upto(MaxErrors, CanLoop3, CanLoop),
set__union(Paths2, Paths1, Paths),
params_get_max_paths(Params, MaxPaths),
(
% Don't try to track the state of too many paths;
% doing so can require too much memory.
set__count(Paths, Count),
Count =< MaxPaths
->
Info = ok(Paths, CanLoop)
;
params_get_context(Params, Context),
Info = error([Context - too_many_paths], CanLoop)
).
%-----------------------------------------------------------------------------%
:- pred compute_rec_start_vars(list(var)::in, list(bool)::in,
bag(var)::out) is det.
compute_rec_start_vars([], [], Out) :-
bag__init(Out).
compute_rec_start_vars([_|_], [], _Out) :-
error("Unmatched vars in compute_rec_start_vars\n").
compute_rec_start_vars([], [_|_], _Out) :-
error("Unmatched vars in compute_rec_start_vars\n").
compute_rec_start_vars([Var | Vars], [RecInputSupplier | RecInputSuppliers],
Out) :-
compute_rec_start_vars(Vars, RecInputSuppliers, Out1),
( RecInputSupplier = yes ->
bag__insert(Out1, Var, Out)
;
Out = Out1
).
%-----------------------------------------------------------------------------%
% unify_change is invoked for unifications of the form X = f(Yi),
% with the first argument giving the identity of X, the second the
% identity of f, the third and fourth the identity and modes of the Yi.
% unify_change returns the norm of f and the bags of input and output
% variables among the Yi. It is up to the caller to look after the
% sign of the norm of f and after the membership of X in either the
% input or output bags. The predicate fails if invoked on a higher
% order unification.
:- pred unify_change(var::in, cons_id::in, list(var)::in, list(uni_mode)::in,
traversal_params::in, int::out, bag(var)::out, bag(var)::out)
is semidet.
unify_change(OutVar, ConsId, Args0, Modes0, Params, Gamma, InVars, OutVars) :-
params_get_functor_info(Params, FunctorInfo),
params_get_var_types(Params, VarTypes),
map__lookup(VarTypes, OutVar, Type),
\+ type_is_higher_order(Type, _, _),
( type_to_type_id(Type, TypeId, _) ->
params_get_module_info(Params, Module),
functor_norm(FunctorInfo, TypeId, ConsId, Module,
Gamma, Args0, Args, Modes0, Modes),
split_unification_vars(Args, Modes, Module, InVars, OutVars)
;
error("variable type in traverse_goal_2")
).
%-----------------------------------------------------------------------------%
:- pred record_change(bag(var)::in, bag(var)::in, int::in,
list(pred_proc_id)::in, traversal_info::in, traversal_info::out) is det.
record_change(_, _, _, _, error(Errors, CanLoop), error(Errors, CanLoop)).
record_change(InVars, OutVars, Gamma, CalledPPIds, ok(Paths0, CanLoop),
ok(NewPaths, CanLoop)) :-
set__to_sorted_list(Paths0, PathsList0),
set__init(NewPaths0),
record_change_2(PathsList0, InVars, OutVars, Gamma, CalledPPIds,
NewPaths0, NewPaths).
:- pred record_change_2(list(path_info)::in, bag(var)::in, bag(var)::in,
int::in, list(pred_proc_id)::in,
set(path_info)::in, set(path_info)::out) is det.
record_change_2([], _, _, _, _, PathSet, PathSet).
record_change_2([Path0 | Paths0], InVars, OutVars, CallGamma, CallPPIds,
PathSet0, PathSet) :-
Path0 = path_info(ProcData, Start, Gamma0, PPIds0, Vars0),
( bag__intersect(OutVars, Vars0) ->
% The change produces some active variables.
Gamma is CallGamma + Gamma0,
list__append(CallPPIds, PPIds0, PPIds),
bag__subtract(Vars0, OutVars, Vars1),
bag__union(InVars, Vars1, Vars),
Path = path_info(ProcData, Start, Gamma, PPIds, Vars)
;
% The change produces no active variables.
Path = Path0
),
set__insert(PathSet0, Path, PathSet1),
record_change_2(Paths0, InVars, OutVars, CallGamma, CallPPIds,
PathSet1, PathSet).
%-----------------------------------------------------------------------------%
:- pred error_if_intersect(bag(var)::in, term__context::in,
termination_error::in, traversal_info::in, traversal_info::out) is det.
error_if_intersect(_, _, _, error(Errors, CanLoop), error(Errors, CanLoop)).
error_if_intersect(OutVars, Context, ErrorMsg, ok(Paths, CanLoop), Info)
:-
(
set__to_sorted_list(Paths, PathList),
some_active_vars_in_bag(PathList, OutVars)
->
Info = error([Context - ErrorMsg], CanLoop)
;
Info = ok(Paths, CanLoop)
).
:- pred some_active_vars_in_bag(list(path_info)::in, bag(var)::in) is semidet.
some_active_vars_in_bag([Path | Paths], OutVars) :-
(
Path = path_info(_, _, _, _, Vars),
bag__intersect(Vars, OutVars)
;
some_active_vars_in_bag(Paths, OutVars)
).
%-----------------------------------------------------------------------------%
upper_bound_active_vars([], ActiveVars) :-
bag__init(ActiveVars).
upper_bound_active_vars([Path | Paths], ActiveVars) :-
upper_bound_active_vars(Paths, ActiveVars1),
Path = path_info(_, _, _, _, ActiveVars2),
bag__least_upper_bound(ActiveVars1, ActiveVars2, ActiveVars).
%-----------------------------------------------------------------------------%
:- type traversal_params
---> traversal_params(
module_info,
functor_info,
pred_proc_id, % The procedure we are tracing through.
term__context, % The context of the procedure.
map(var, type),
map(pred_proc_id, list(bool)),
% Output suppliers of each procedure.
% Empty during pass 2.
map(pred_proc_id, list(bool)),
% Rec input suppliers of each procedure.
% Empty during pass 1.
int, % Max number of errors to gather.
int % Max number of paths to analyze.
).
init_traversal_params(ModuleInfo, FunctorInfo, PredProcId, Context, VarTypes,
OutputSuppliers, RecInputSuppliers, MaxErrors, MaxPaths,
Params) :-
Params = traversal_params(ModuleInfo, FunctorInfo, PredProcId, Context,
VarTypes, OutputSuppliers, RecInputSuppliers,
MaxErrors, MaxPaths).
:- pred params_get_module_info(traversal_params::in, module_info::out)
is det.
:- pred params_get_functor_info(traversal_params::in, functor_info::out)
is det.
:- pred params_get_ppid(traversal_params::in, pred_proc_id::out)
is det.
:- pred params_get_context(traversal_params::in, term__context::out)
is det.
:- pred params_get_var_types(traversal_params::in, map(var, type)::out)
is det.
:- pred params_get_output_suppliers(traversal_params::in,
map(pred_proc_id, list(bool))::out) is det.
:- pred params_get_rec_input_suppliers(traversal_params::in,
map(pred_proc_id, list(bool))::out) is det.
:- pred params_get_max_errors(traversal_params::in, int::out) is det.
:- pred params_get_max_paths(traversal_params::in, int::out) is det.
params_get_module_info(Params, A) :-
Params = traversal_params(A, _, _, _, _, _, _, _, _).
params_get_functor_info(Params, B) :-
Params = traversal_params(_, B, _, _, _, _, _, _, _).
params_get_ppid(Params, C) :-
Params = traversal_params(_, _, C, _, _, _, _, _, _).
params_get_context(Params, D) :-
Params = traversal_params(_, _, _, D, _, _, _, _, _).
params_get_var_types(Params, E) :-
Params = traversal_params(_, _, _, _, E, _, _, _, _).
params_get_output_suppliers(Params, F) :-
Params = traversal_params(_, _, _, _, _, F, _, _, _).
params_get_rec_input_suppliers(Params, G) :-
Params = traversal_params(_, _, _, _, _, _, G, _, _).
params_get_max_errors(Params, H) :-
Params = traversal_params(_, _, _, _, _, _, _, H, _).
params_get_max_paths(Params, I) :-
Params = traversal_params(_, _, _, _, _, _, _, _, I).
%-----------------------------------------------------------------------------%
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