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e00722533b25ea353e4c3adcc178f00a92fcfbf3
mercury/compiler/term_constr_initial.m
Zoltan Somogyi 8c03f3c2ca Classify all the options in the oc_buildsys section. 
compiler/options.m:
    Consider all the options that used to be listed in the oc_buildsys section.
    Keep many options as oc_buildsys, but reclassify others in option
    categories that better fit their semantics. Create some new categories
    for them.

    To make that semantics more visible and understandable, give several
    options more descriptive names,

    Shorten some other names where this does not compromise understandability.

compiler/compile_target_code.m:
    Rename do_make_init_obj_file to make_init_obj_file, after

    - inlining the old make_init_obj_file predicate in its only caller, and
    - deleting it to free up the name.

compiler/compute_grade.m:
compiler/globals.m:
compiler/handle_options.m:
compiler/link_target_code.m:
compiler/make.build.m:
compiler/make.check_up_to_date.m:
compiler/make.dependencies.m:
compiler/make.library_install.m:
compiler/make.program_target.m:
compiler/make.top_level.m:
compiler/mercury_compile_main.m:
compiler/op_mode.m:
    Conform to the changes above.

compiler/color_schemes.m:
compiler/copy_util.m:
compiler/stack_alloc.m:
compiler/term_constr_initial.m:
    Fix comments.
2025-06-14 09:54:31 +02:00

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%-----------------------------------------------------------------------------%
% vim: ft=mercury ts=4 sw=4 et
%----------------------------------------------------------------------------%
% Copyright (C) 2003, 2005-2011 The University of Melbourne.
% Copyright (C) 2014-2016, 2018, 2020-2025 The Mercury team.
% This file may only be copied under the terms of the GNU General
% Public License - see the file COPYING in the Mercury distribution.
%----------------------------------------------------------------------------%
%
% File: term_constr_initial.m.
% Main author: juliensf.
%
% This module fills in the appropriate argument size information and
% termination property for builtin and compiler generated predicates.
% It also handles the processing of termination pragmas and sets
% the termination properties for foreign procedures.
%
% Handling of pragma terminates/does_not_terminate
%
% At the moment we set the termination status as appropriate, set the arg
% size information to true and fill in the size_var_map with dummy values
% (because intermodule optimization requires these values to be in place).
% If we ever support user specified arg size constraints this scheme
% will need modifying - in particular we will need to make sure that
% the identity of the variables in the size_var_map matches those
% in the constraints.
%
% A lot of this code is based on that in termination.m that does the
% equivalent job for the old termination analyser.
%
%----------------------------------------------------------------------------%
:- module transform_hlds.term_constr_initial.
:- interface.
:- import_module hlds.
:- import_module hlds.hlds_module.
%----------------------------------------------------------------------------%
% Prepare a module for running the main termination pass.
% This involves setting up argument size and termination information
% for builtin and compiler-generated predicates and also setting
% the termination status of those predicates that have termination
% pragmas attached to them.
%
% XXX Fix handling of terminates/does_not_terminate foreign proc.
% attributes.
%
:- pred term2_preprocess_module(module_info::in, module_info::out) is det.
%----------------------------------------------------------------------------%
%----------------------------------------------------------------------------%
:- implementation.
:- import_module hlds.hlds_markers.
:- import_module hlds.hlds_pred.
:- import_module hlds.pred_name.
:- import_module hlds.status.
:- import_module libs.
:- import_module libs.lp_rational.
:- import_module libs.polyhedron.
:- import_module libs.rat.
:- import_module mdbcomp.
:- import_module mdbcomp.builtin_modules.
:- import_module mdbcomp.prim_data.
:- import_module mdbcomp.program_representation.
:- import_module parse_tree.
:- import_module parse_tree.prog_data.
:- import_module parse_tree.prog_data_pragma.
:- import_module parse_tree.var_table.
:- import_module transform_hlds.term_constr_data.
:- import_module transform_hlds.term_constr_errors.
:- import_module transform_hlds.term_constr_main_types.
:- import_module transform_hlds.term_constr_util.
:- import_module transform_hlds.term_util.
:- import_module bool.
:- import_module int.
:- import_module list.
:- import_module map.
:- import_module maybe.
:- import_module pair.
:- import_module require.
:- import_module set.
:- import_module string.
:- import_module term.
%----------------------------------------------------------------------------%
%
% Process each predicate and set the termination property.
%
% Sets termination to `cannot_loop' if:
% - there is a `terminates' pragma defined for the predicate.
% - there is a `check_termination' pragma defined for the predicate
% *and* the compiler is not currently generating the intermodule
% optimization file.
% - the predicate is builtin or compiler generated. (These are assumed
% to terminate.)
%
% Set the termination to `can_loop' if:
% - there is a `does_not_terminate' pragma defined for this predicate.
% - the predicate is imported and there is no other source of information
% - about it (termination_info pragmas, terminates pragmas, builtin).
%
% XXX This does the wrong thing for copy/2 & typed_unify/2. In both cases,
% the constraints should show that |HeadVar__1| = |HeadVar__2|, but they don't.
term2_preprocess_module(!ModuleInfo) :-
should_we_believe_check_termination_markers(!.ModuleInfo,
BelieveCheckTerm),
module_info_get_valid_pred_ids(!.ModuleInfo, PredIds),
process_builtin_preds(BelieveCheckTerm, PredIds, !ModuleInfo),
process_imported_preds(PredIds, !ModuleInfo).
%----------------------------------------------------------------------------%
%
% Set the argument size constraints for imported procedures.
%
% When interargument size constraints are imported from other modules there
% are two parts. The first of the these is a list of ints. Each int
% represents one of a procedure's arguments (including typeinfo related ones).
%
% XXX Since typeinfos all became zero sized we don't actually need this list.
% (I forget the reason we did need it, I think it was something to do with
% the fact that the compiler cannot (presently) distinguish between typeinfos
% it has introduced and ones that were there anyway - in some of the library
% modules).
%
% The second piece of information here is the constraints themselves which
% have been using the integer variable ids to represent actual variables.
%
% We now know the actual head_vars so we create size_vars and substitute
% these into the actual constraints.
%
:- pred process_imported_preds(list(pred_id)::in,
module_info::in, module_info::out) is det.
process_imported_preds(PredIds, !ModuleInfo) :-
list.foldl(process_imported_pred, PredIds, !ModuleInfo).
:- pred process_imported_pred(pred_id::in, module_info::in, module_info::out)
is det.
process_imported_pred(PredId, !ModuleInfo) :-
module_info_get_type_spec_tables(!.ModuleInfo, TypeSpecTables),
TypeSpecTables = type_spec_tables(_, TypeSpecPredIds, _, _),
( if set.member(PredId, TypeSpecPredIds) then
true
else
module_info_pred_info(!.ModuleInfo, PredId, PredInfo0),
process_imported_procs(PredInfo0, PredInfo),
module_info_set_pred_info(PredId, PredInfo, !ModuleInfo)
).
:- pred process_imported_procs(pred_info::in, pred_info::out) is det.
process_imported_procs(!PredInfo) :-
some [!ProcTable] (
pred_info_get_proc_table(!.PredInfo, !:ProcTable),
ProcIds = pred_info_all_procids(!.PredInfo),
list.foldl(process_imported_proc, ProcIds, !ProcTable),
pred_info_set_proc_table(!.ProcTable, !PredInfo)
).
:- pred process_imported_proc(proc_id::in, proc_table::in, proc_table::out)
is det.
process_imported_proc(ProcId, !ProcTable) :-
some [!ProcInfo] (
map.lookup(!.ProcTable, ProcId, !:ProcInfo),
proc_info_get_termination2_info(!.ProcInfo, Term2Info0),
MaybeImportSuccess = term2_info_get_import_success(Term2Info0),
% Check that there is something to import.
(
MaybeImportSuccess = yes(_),
process_imported_term_info(!.ProcInfo, Term2Info0, Term2Info),
proc_info_set_termination2_info(Term2Info, !ProcInfo),
map.det_update(ProcId, !.ProcInfo, !ProcTable)
;
MaybeImportSuccess = no
)
).
:- pred process_imported_term_info(proc_info::in,
termination2_info::in, termination2_info::out) is det.
process_imported_term_info(ProcInfo, !Term2Info) :-
proc_info_get_headvars(ProcInfo, HeadVars),
make_size_var_map(HeadVars, _SizeVarset, SizeVarMap),
list.length(HeadVars, NumHeadVars),
HeadVarIds = 0 .. NumHeadVars - 1,
map.from_corresponding_lists(HeadVarIds, HeadVars, IdsToProgVars),
create_substitution_map(HeadVarIds, IdsToProgVars, SizeVarMap, SubstMap),
create_arg_size_polyhedron(SubstMap,
term2_info_get_import_success(!.Term2Info), MaybeSuccessPoly),
create_arg_size_polyhedron(SubstMap,
term2_info_get_import_failure(!.Term2Info), MaybeFailurePoly),
SizeVars = prog_vars_to_size_vars(SizeVarMap, HeadVars),
term2_info_set_size_var_map(SizeVarMap, !Term2Info),
term2_info_set_head_vars(SizeVars, !Term2Info),
term2_info_set_success_constrs(MaybeSuccessPoly, !Term2Info),
term2_info_set_failure_constrs(MaybeFailurePoly, !Term2Info),
% We don't use these fields after this point.
term2_info_set_import_success(no, !Term2Info),
term2_info_set_import_failure(no, !Term2Info).
:- pred create_substitution_map(list(int)::in, map(int, prog_var)::in,
size_var_map::in, map(int, size_var)::out) is det.
create_substitution_map(Ids, IdToProgVar, SizeVarMap, IdToSizeVar) :-
list.foldl(
( pred(Id::in, !.Map::in, !:Map::out) is det :-
map.lookup(IdToProgVar, Id, ProgVar),
map.lookup(SizeVarMap, ProgVar, SizeVar),
map.set(Id, SizeVar, !Map)
), Ids, map.init, IdToSizeVar).
:- pred create_arg_size_polyhedron(map(int, var)::in,
maybe(pragma_constr_arg_size_info)::in, maybe(polyhedron)::out) is det.
create_arg_size_polyhedron(_, no, no).
create_arg_size_polyhedron(SubstMap, yes(PragmaArgSizeInfo),
yes(Polyhedron)) :-
list.map(create_arg_size_constraint(SubstMap),
PragmaArgSizeInfo, Constraints),
Polyhedron = polyhedron.from_constraints(Constraints).
:- pred create_arg_size_constraint(map(int, var)::in, arg_size_constr::in,
lp_constraint::out) is det.
create_arg_size_constraint(SubstMap, le(Terms0, Constant), Constraint) :-
list.map(create_lp_term(SubstMap), Terms0, Terms),
Constraint = construct_constraint(Terms, lp_lt_eq, Constant).
create_arg_size_constraint(SubstMap, eq(Terms0, Constant), Constraint) :-
list.map(create_lp_term(SubstMap), Terms0, Terms),
Constraint = construct_constraint(Terms, lp_eq, Constant).
:- pred create_lp_term(map(int, var)::in, arg_size_term::in, lp_term::out)
is det.
create_lp_term(SubstMap, ArgSizeTerm, Var - Coefficient) :-
ArgSizeTerm = arg_size_term(VarId, Coefficient),
map.lookup(SubstMap, VarId, Var).
%----------------------------------------------------------------------------%
%
% Set up information for builtins.
%
:- pred process_builtin_preds(maybe_believe_check_termination::in,
list(pred_id)::in, module_info::in, module_info::out) is det.
process_builtin_preds(_, [], !ModuleInfo).
process_builtin_preds(BelieveCheckTerm, [PredId | PredIds], !ModuleInfo) :-
process_builtin_pred(BelieveCheckTerm, PredId, !ModuleInfo),
process_builtin_preds(BelieveCheckTerm, PredIds, !ModuleInfo).
:- pred process_builtin_pred(maybe_believe_check_termination::in,
pred_id::in, module_info::in, module_info::out) is det.
process_builtin_pred(BelieveCheckTerm, PredId, !ModuleInfo) :-
module_info_pred_info(!.ModuleInfo, PredId, PredInfo0),
process_builtin_procs(BelieveCheckTerm, !.ModuleInfo, PredId,
PredInfo0, PredInfo),
module_info_set_pred_info(PredId, PredInfo, !ModuleInfo).
% It is possible for compiler generated/mercury builtin predicates
% to be imported or locally defined, so they must be covered here
% separately.
%
:- pred process_builtin_procs(maybe_believe_check_termination::in,
module_info::in, pred_id::in, pred_info::in, pred_info::out) is det.
process_builtin_procs(BelieveCheckTerm, ModuleInfo, PredId, !PredInfo) :-
pred_info_get_status(!.PredInfo, PredStatus),
pred_info_get_markers(!.PredInfo, Markers),
pred_info_get_context(!.PredInfo, Context),
some [!ProcTable] (
pred_info_get_proc_table(!.PredInfo, !:ProcTable),
ProcIds = pred_info_all_procids(!.PredInfo),
( if
set_compiler_gen_terminates(ModuleInfo, !.PredInfo, PredId,
ProcIds, !ProcTable)
then
true
else if
% Since we cannot see their definition, we consider procedures
% which have a `:- pragma external_{pred/func}' to be imported.
pred_status_defined_in_this_module(PredStatus) = yes
then
% XXX At the moment if a procedure has a pragma terminates
% declaration its argument size information is set to true.
% If we allow the user to specify the arg size info this will
% need to change. This also means that the size_var_map for the
% procedure is never created. This causes problems with
% intermodule optimization. The current workaround is to set up
% a dummy size_var_map for each procedure.
( if marker_is_present(Markers, marker_terminates) then
TermStatus = cannot_loop(term_reason_pragma_supplied),
change_procs_constr_termination_info(ProcIds, yes, TermStatus,
!ProcTable),
ArgSizeInfo = polyhedron.universe,
change_procs_constr_arg_size_info(ProcIds, yes, ArgSizeInfo,
!ProcTable),
initialise_size_var_maps(ProcIds, !ProcTable)
else
true
)
else
% Not defined in this module.
% All of the predicates that are processed in this section
% are imported in some way. With imported predicates, any
% 'check_termination' pragmas will be checked by the compiler
% when it compiles the relevant source file (that the predicate
% was imported from). When making the intermodule optimization
% interfaces, the check_termination will not be checked when
% the relevant source file is compiled, so it cannot be
% depended upon.
( if
(
marker_is_present(Markers, marker_terminates)
;
BelieveCheckTerm = do_believe_check_termination,
marker_is_present(Markers, marker_check_termination)
)
then
change_procs_constr_termination_info(ProcIds, yes,
cannot_loop(term_reason_pragma_supplied), !ProcTable)
else
change_procs_constr_termination_info(ProcIds, no,
can_loop([]), !ProcTable)
),
ArgSizeInfo = polyhedron.universe,
change_procs_constr_arg_size_info(ProcIds, yes, ArgSizeInfo,
!ProcTable)
),
( if marker_is_present(Markers, marker_does_not_terminate) then
TerminationInfo =
can_loop([term2_error(Context, does_not_term_pragma(PredId))]),
NonTermArgSizeInfo = polyhedron.universe,
change_procs_constr_termination_info(ProcIds, yes,
TerminationInfo, !ProcTable),
change_procs_constr_arg_size_info(ProcIds, yes,
NonTermArgSizeInfo, !ProcTable),
initialise_size_var_maps(ProcIds, !ProcTable)
else
true
),
pred_info_set_proc_table(!.ProcTable, !PredInfo)
).
:- pred set_compiler_gen_terminates(module_info::in, pred_info::in,
pred_id::in, list(proc_id)::in, proc_table::in, proc_table::out)
is semidet.
set_compiler_gen_terminates(ModuleInfo, PredInfo, PredId, ProcIds,
!ProcTable) :-
% XXX This code looks to be a near-identical copy of the predicate
% of the same name in termination.m.
( if
hlds_pred.pred_info_is_builtin(PredInfo)
then
set_builtin_terminates(ModuleInfo, PredInfo, PredId, ProcIds,
!ProcTable)
else if
% XXX The origin test should be the only one needed;
% we should pay no attention to the name.
( if
Name = pred_info_name(PredInfo),
pred_info_get_orig_arity(PredInfo,
pred_form_arity(PredFormArityInt)),
special_pred_name_arity(SpecialPredId0, Name, _, PredFormArityInt),
ModuleName = pred_info_module(PredInfo),
any_mercury_builtin_module(ModuleName)
then
SpecialPredId = SpecialPredId0
else
pred_info_get_origin(PredInfo, PredOrigin),
PredOrigin = origin_compiler(made_for_uci(SpecialPredId, _))
)
then
set_generated_terminates(ModuleInfo, SpecialPredId, ProcIds,
!ProcTable)
else
fail
).
:- pred set_generated_terminates(module_info::in, special_pred_id::in,
list(proc_id)::in, proc_table::in, proc_table::out) is det.
set_generated_terminates(_, _, [], !ProcTable).
set_generated_terminates(ModuleInfo, SpecialPredId, [ProcId | ProcIds],
!ProcTable) :-
map.lookup(!.ProcTable, ProcId, ProcInfo0),
proc_info_get_headvars(ProcInfo0, HeadVars),
proc_info_get_var_table(ProcInfo0, VarTable),
special_pred_id_to_termination(SpecialPredId, HeadVars, ModuleInfo,
VarTable, ArgSize, Termination, VarMap, HeadSizeVars),
some [!Term2Info] (
proc_info_get_termination2_info(ProcInfo0, !:Term2Info),
term2_info_set_success_constrs(yes(ArgSize), !Term2Info),
TermStatus = yes(Termination),
term2_info_set_term_status(TermStatus, !Term2Info),
IntermodStatus = yes(not_mutually_recursive),
term2_info_set_intermod_status(IntermodStatus, !Term2Info),
term2_info_set_size_var_map(VarMap, !Term2Info),
term2_info_set_head_vars(HeadSizeVars, !Term2Info),
proc_info_set_termination2_info(!.Term2Info, ProcInfo0, ProcInfo)
),
map.det_update(ProcId, ProcInfo, !ProcTable),
set_generated_terminates(ModuleInfo, SpecialPredId, ProcIds, !ProcTable).
% Handle the generation of constraints for special predicates.
% XXX argument size constraints for unify predicates for types
% with user-defined equality may not be correct.
%
:- pred special_pred_id_to_termination(special_pred_id::in, list(prog_var)::in,
module_info::in, var_table::in, constr_arg_size_info::out,
constr_termination_info::out, size_var_map::out, list(size_var)::out)
is det.
special_pred_id_to_termination(SpecialPredId, HeadProgVars, ModuleInfo,
VarTable, ArgSizeInfo, Termination, SizeVarMap, HeadSizeVars) :-
(
SpecialPredId = spec_pred_compare,
make_spec_pred_constr_term_info(HeadProgVars, ModuleInfo, VarTable,
ArgSizeInfo, Termination, SizeVarMap, HeadSizeVars)
;
SpecialPredId = spec_pred_unify,
make_size_var_map(HeadProgVars, _SizeVarset, SizeVarMap),
HeadSizeVars = prog_vars_to_size_vars(SizeVarMap, HeadProgVars),
Zeros = find_zero_size_vars(ModuleInfo, VarTable, SizeVarMap),
NonZeroHeadSizeVars = list.negated_filter(is_zero_size_var(Zeros),
HeadSizeVars),
% Unify may have more than two input arguments if one of them is a
% type-info related arg, or some such thing. Since all these have
% zero size type, after removing them there are two possibilities.
% The list of non-zero size type head_vars is empty (if the
% arguments are zero sized) or it contains two elements.
(
NonZeroHeadSizeVars = [],
Constrs = []
;
NonZeroHeadSizeVars = [VarA, VarB],
Constrs = [make_vars_eq_constraint(VarA, VarB)]
;
( NonZeroHeadSizeVars = [_]
; NonZeroHeadSizeVars = [_, _, _ | _]
),
unexpected($pred, "wrong number of args for unify")
),
Polyhedron = polyhedron.from_constraints(Constrs),
ArgSizeInfo = Polyhedron,
Termination = cannot_loop(term_reason_builtin)
;
SpecialPredId = spec_pred_index,
NumToDrop = list.length(HeadProgVars) - 2,
( if list.drop(NumToDrop, HeadProgVars, _ZeroSizeHeadVars) then
make_spec_pred_constr_term_info(HeadProgVars, ModuleInfo, VarTable,
ArgSizeInfo, Termination, SizeVarMap, HeadSizeVars)
else
unexpected($pred, "less than two arguments to builtin index")
)
).
% Sets the termination status and argument size information for
% those special_preds (compare and index) where the arguments
% are either zero sized or unconstrained in size.
%
:- pred make_spec_pred_constr_term_info(list(prog_var)::in, module_info::in,
var_table::in, constr_arg_size_info::out, constr_termination_info::out,
size_var_map::out, list(size_var)::out) is det.
make_spec_pred_constr_term_info(HeadProgVars, ModuleInfo, VarTable,
ArgSize, Termination, SizeVarMap, HeadSizeVars) :-
make_size_var_map(HeadProgVars, _SizeVarset, SizeVarMap),
Zeros = find_zero_size_vars(ModuleInfo, VarTable, SizeVarMap),
Constraints = create_nonneg_constraints(SizeVarMap, Zeros),
Polyhedron = polyhedron.from_constraints(Constraints),
ArgSize = Polyhedron,
Termination = cannot_loop(term_reason_builtin),
HeadSizeVars = prog_vars_to_size_vars(SizeVarMap, HeadProgVars).
% Set the termination information for builtin predicates.
% The list of proc_ids must refer to builtin predicates.
%
:- pred set_builtin_terminates(module_info::in, pred_info::in,
pred_id::in, list(proc_id)::in, proc_table::in, proc_table::out) is det.
set_builtin_terminates(_, _, _, [], !ProcTable).
set_builtin_terminates(ModuleInfo, PredInfo, PredId, [ProcId | ProcIds],
!ProcTable) :-
map.lookup(!.ProcTable, ProcId, ProcInfo0),
proc_info_get_headvars(ProcInfo0, HeadVars),
PredModule = pred_info_module(PredInfo),
PredName = pred_info_name(PredInfo),
pred_info_get_orig_arity(PredInfo, pred_form_arity(PredFormArityInt)),
make_size_var_map(HeadVars, _SizeVarset, SizeVarMap),
( if no_type_info_builtin(PredModule, PredName, PredFormArityInt) then
Constrs = process_no_type_info_builtin(PredName, HeadVars, SizeVarMap)
else if all_args_input_or_zero_size(ModuleInfo, PredInfo, ProcInfo0) then
Constrs = []
else
unexpected($pred, "builtin with non-zero size args")
),
Polyhedron = polyhedron.from_constraints(Constrs),
ArgSizeInfo = yes(Polyhedron),
HeadSizeVars = prog_vars_to_size_vars(SizeVarMap, HeadVars),
some [!Term2Info] (
proc_info_get_termination2_info(ProcInfo0, !:Term2Info),
term2_info_set_success_constrs(ArgSizeInfo, !Term2Info),
TermStatus = yes(cannot_loop(term_reason_builtin)),
term2_info_set_term_status(TermStatus, !Term2Info),
IntermodStatus = yes(not_mutually_recursive),
term2_info_set_intermod_status(IntermodStatus, !Term2Info),
term2_info_set_size_var_map(SizeVarMap, !Term2Info),
term2_info_set_head_vars(HeadSizeVars, !Term2Info),
proc_info_set_termination2_info(!.Term2Info, ProcInfo0, ProcInfo)
),
map.det_update(ProcId, ProcInfo, !ProcTable),
set_builtin_terminates(ModuleInfo, PredInfo, PredId, ProcIds, !ProcTable).
:- func process_no_type_info_builtin(string, list(prog_var), size_var_map)
= lp_constraint_conj.
process_no_type_info_builtin(PredName, HeadVars, SizeVarMap) = Constraints :-
% This predicate should handle every predicate listed by
% no_type_info_builtin in mdbcomp/program_representation.m.
%
% NOTE We assume that no PredName occurs in more than one builtin module,
% which is a fragile assumption.
(
HeadVars = [],
unexpected($pred,
"unrecognised arity-0 no_type_info_builtin " ++ PredName)
;
HeadVars = [_],
unexpected($pred,
"unrecognised arity-1 no_type_info_builtin " ++ PredName)
;
HeadVars = [HeadVar1, HeadVar2],
( if
( PredName = "get_future"
; PredName = "increment_size"
; PredName = "new_future"
; PredName = "partial_inst_copy"
; PredName = "signal_future"
; PredName = "store_at_ref_impure"
; PredName = "unsafe_promise_unique"
; PredName = "unsafe_type_cast"
; PredName = "wait_future"
)
then
(
( PredName = "partial_inst_copy"
; PredName = "unsafe_type_cast"
; PredName = "unsafe_promise_unique"
),
SizeVar1 = prog_var_to_size_var(SizeVarMap, HeadVar1),
SizeVar2 = prog_var_to_size_var(SizeVarMap, HeadVar2),
Constraints = [make_vars_eq_constraint(SizeVar1, SizeVar2)]
;
( PredName = "get_future"
; PredName = "increment_size"
; PredName = "new_future"
; PredName = "signal_future"
; PredName = "store_at_ref_impure"
; PredName = "wait_future"
),
Constraints = []
)
else
unexpected($pred,
"unrecognised arity-2 no_type_info_builtin " ++ PredName)
)
;
HeadVars = [_, _, _],
( if
( PredName = "compare_local_uint_words"
; PredName = "semidet_call_3"
; PredName = "superclass_from_typeclass_info"
; PredName = "table_lookup_insert_typeclassinfo"
; PredName = "table_lookup_insert_typeinfo"
; PredName = "table_restore_any_answer"
; PredName = "type_info_from_typeclass_info"
; PredName = "unconstrained_type_info_from_typeclass_info"
)
then
Constraints = []
else
unexpected($pred,
"unrecognised arity-3 no_type_info_builtin " ++ PredName)
)
;
HeadVars = [_, _, _, _],
( if
( PredName = "compare_local_int16_bitfields"
; PredName = "compare_local_int32_bitfields"
; PredName = "compare_local_int8_bitfields"
; PredName = "instance_constraint_from_typeclass_info"
; PredName = "result_call_4"
; PredName = "semidet_call_4"
; PredName = "table_lookup_insert_enum"
; PredName = "unify_remote_arg_words"
)
then
Constraints = []
else
unexpected($pred,
"unrecognised arity-4 no_type_info_builtin " ++ PredName)
)
;
HeadVars = [_, _, _, _, _],
( if
( PredName = "compare_local_uint_bitfields"
; PredName = "compare_remote_uint_words"
; PredName = "result_call_5"
; PredName = "semidet_call_5"
)
then
Constraints = []
else
unexpected($pred,
"unrecognised arity-5 no_type_info_builtin " ++ PredName)
)
;
HeadVars = [_, _, _, _, _, _],
( if
( PredName = "compare_remote_int16_bitfields"
; PredName = "compare_remote_int32_bitfields"
; PredName = "compare_remote_int8_bitfields"
; PredName = "result_call_6"
; PredName = "semidet_call_6"
)
then
Constraints = []
else
unexpected($pred,
"unrecognised arity-6 no_type_info_builtin " ++ PredName)
)
;
HeadVars = [_, _, _, _, _, _, _],
( if
( PredName = "compare_remote_uint_bitfields"
; PredName = "result_call_7"
; PredName = "semidet_call_7"
)
then
Constraints = []
else
unexpected($pred,
"unrecognised arity-7 no_type_info_builtin " ++ PredName)
)
;
HeadVars = [_, _, _, _, _, _, _, _],
( if
( PredName = "result_call_8"
; PredName = "semidet_call_8"
)
then
Constraints = []
else
unexpected($pred,
"unrecognised arity-8 no_type_info_builtin " ++ PredName)
)
;
HeadVars = [_, _, _, _, _, _, _, _, _],
( if
PredName = "result_call_9"
then
Constraints = []
else
unexpected($pred,
"unrecognised arity-9 no_type_info_builtin " ++ PredName)
)
;
HeadVars = [_, _, _, _, _, _, _, _, _, _ | _],
unexpected($pred,
"unrecognised arity-10+ no_type_info_builtin " ++ PredName)
).
%----------------------------------------------------------------------------%
:- pred initialise_size_var_maps(list(proc_id)::in,
proc_table::in, proc_table::out) is det.
initialise_size_var_maps([], !ProcTable).
initialise_size_var_maps([ProcId | ProcIds], !ProcTable) :-
map.lookup(!.ProcTable, ProcId, ProcInfo0),
proc_info_get_termination2_info(ProcInfo0, Term2Info0),
proc_info_get_headvars(ProcInfo0, HeadVars),
make_size_var_map(HeadVars, _SizeVarset, SizeVarMap),
term2_info_set_size_var_map(SizeVarMap, Term2Info0, Term2Info),
proc_info_set_termination2_info(Term2Info, ProcInfo0, ProcInfo),
map.det_update(ProcId, ProcInfo, !ProcTable),
initialise_size_var_maps(ProcIds, !ProcTable).
%----------------------------------------------------------------------------%
:- end_module transform_hlds.term_constr_initial.
%----------------------------------------------------------------------------%
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