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|
%-----------------------------------------------------------------------------%
% Copyright (C) 1995-1999 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.
%-----------------------------------------------------------------------------%
% This file contains auxiliary routines for the passes
% of the front and back ends of the compiler.
% Author: zs
:- module passes_aux.
:- interface.
:- import_module hlds_module, hlds_pred, prog_data.
:- import_module io, std_util, list, bool.
%-----------------------------------------------------------------------------%
:- type task ---> update_proc(pred(
proc_info, module_info, proc_info))
; update_proc_predid(pred(
proc_info, pred_id, module_info, proc_info))
; update_proc_predprocid(pred(
proc_info, pred_id, proc_id,
module_info, proc_info))
; update_proc_io(pred(
pred_id, proc_id, module_info,
proc_info, proc_info, io__state, io__state))
; update_proc_error(pred(
pred_id, proc_id, module_info, module_info,
proc_info, proc_info, int, int,
io__state, io__state))
; update_pred_error(pred_error_task)
; update_module(pred(
proc_info, proc_info,
module_info, module_info))
; update_module_io(pred(
pred_id, proc_id, proc_info, proc_info,
module_info, module_info,
io__state, io__state))
% It would be better to use an existentially-quantified type
% rather than `univ' here, but the current version of Mercury
% doesn't support existentially-quantified types.
; update_module_cookie(pred(
pred_id, proc_id, proc_info, proc_info,
univ, univ, module_info, module_info),
univ)
.
:- type pred_error_task ==
pred(pred_id, module_info, module_info, pred_info, pred_info,
int, int, io__state, io__state).
/****************
Note that update_module_cookie causes some difficulties.
Ideally, it should be implemented using existential types:
:- type task --->
...
; some [T] update_module_cookie(pred(
pred_id, proc_id, proc_info, proc_info,
T, T, module_info, module_info),
T)
That would avoid the need for messing about with type_to_univ and
univ_to_type.
Originally, it was implemented by changing `task' to `task(T)':
:- type task(T) --->
...
; update_module_cookie(pred(
pred_id, proc_id, proc_info, proc_info,
T, T, module_info, module_info),
T)
but that is not a good solution, because it causes a lot of warnings
about unbound type variables.
****************/
:- inst task = bound(( update_proc(pred(in, in, out) is det)
; update_proc_predid(pred(in, in, in, out) is det)
; update_proc_predprocid(pred(in, in, in, in, out)
is det)
; update_proc_io(pred(in, in, in, in, out, di, uo)
is det)
; update_proc_error(pred(in, in, in, out, in, out,
out, out, di, uo) is det)
; update_pred_error(pred(in, in, out, in, out,
out, out, di, uo) is det)
; update_module(pred(in, out, in, out) is det)
; update_module_io(pred(in, in, in, out,
in, out, di, uo) is det)
; update_module_cookie(pred(in, in, in, out, in, out,
in, out) is det, ground)
)).
:- inst pred_error_task =
(pred(in, in, out, in, out, out, out, di, uo) is det).
:- mode task :: task -> task.
:- pred process_all_nonimported_procs(task, module_info, module_info,
io__state, io__state).
:- mode process_all_nonimported_procs(task, in, out, di, uo) is det.
% Process procedures for which a given test succeeds.
:- pred process_matching_nonimported_procs(task, pred(pred_info),
module_info, module_info, io__state, io__state).
:- mode process_matching_nonimported_procs(task, pred(in) is semidet,
in, out, di, uo) is det.
:- pred process_matching_nonimported_procs(task, task, pred(pred_info),
module_info, module_info, io__state, io__state).
:- mode process_matching_nonimported_procs(task, out(task),
pred(in) is semidet, in, out, di, uo) is det.
:- pred process_all_nonimported_nonaditi_procs(task, module_info, module_info,
io__state, io__state).
:- mode process_all_nonimported_nonaditi_procs(task, in, out, di, uo) is det.
:- pred process_all_nonimported_nonaditi_procs(task, task,
module_info, module_info, io__state, io__state).
:- mode process_all_nonimported_nonaditi_procs(task, out(task),
in, out, di, uo) is det.
:- pred process_all_nonimported_procs(task, task,
module_info, module_info, io__state, io__state).
:- mode process_all_nonimported_procs(task, out(task), in, out, di, uo) is det.
:- pred write_pred_progress_message(string::in, pred_id::in, module_info::in,
io__state::di, io__state::uo) is det.
:- pred write_proc_progress_message(string::in, pred_id::in, proc_id::in,
module_info::in, io__state::di, io__state::uo) is det.
:- pred maybe_report_stats(bool::in, io__state::di, io__state::uo) is det.
:- pred maybe_write_string(bool::in, string::in,
io__state::di, io__state::uo) is det.
:- pred maybe_flush_output(bool::in, io__state::di, io__state::uo) is det.
:- pred report_error(string::in, io__state::di, io__state::uo) is det.
:- pred invoke_system_command(string::in, bool::out,
io__state::di, io__state::uo) is det.
:- pred maybe_report_sizes(module_info::in, io__state::di, io__state::uo)
is det.
:- pred report_pred_proc_id(module_info, pred_id, proc_id,
maybe(prog_context), prog_context, io__state, io__state).
:- mode report_pred_proc_id(in, in, in, in, out, di, uo) is det.
:- pred report_pred_name_mode(pred_or_func, string, list((mode)),
io__state, io__state).
:- mode report_pred_name_mode(in, in, in, di, uo) is det.
%-----------------------------------------------------------------------------%
:- implementation.
:- import_module options, globals, hlds_out, prog_out, mode_util.
:- import_module mercury_to_mercury.
:- import_module varset.
:- import_module int, map, tree234, require.
process_all_nonimported_procs(Task, ModuleInfo0, ModuleInfo) -->
{ True = lambda([_PredInfo::in] is semidet, true) },
process_matching_nonimported_procs(Task, True,
ModuleInfo0, ModuleInfo).
process_all_nonimported_nonaditi_procs(Task, ModuleInfo0, ModuleInfo) -->
{ NotAditi = lambda([PredInfo::in] is semidet, (
\+ hlds_pred__pred_info_is_aditi_relation(PredInfo)
)) },
process_matching_nonimported_procs(Task, NotAditi,
ModuleInfo0, ModuleInfo).
process_all_nonimported_nonaditi_procs(Task0, Task,
ModuleInfo0, ModuleInfo) -->
{ NotAditi = lambda([PredInfo::in] is semidet, (
\+ hlds_pred__pred_info_is_aditi_relation(PredInfo)
)) },
process_matching_nonimported_procs(Task0, Task, NotAditi,
ModuleInfo0, ModuleInfo).
process_all_nonimported_procs(Task0, Task, ModuleInfo0, ModuleInfo) -->
{ True = lambda([_PredInfo::in] is semidet, true) },
process_matching_nonimported_procs(Task0, Task, True,
ModuleInfo0, ModuleInfo).
process_matching_nonimported_procs(Task, Filter, ModuleInfo0, ModuleInfo) -->
{ module_info_predids(ModuleInfo0, PredIds) },
( { Task = update_pred_error(Pred) } ->
list__foldl2(process_nonimported_pred(Pred, Filter), PredIds,
ModuleInfo0, ModuleInfo)
;
process_nonimported_procs_in_preds(PredIds, Task, _, Filter,
ModuleInfo0, ModuleInfo)
).
process_matching_nonimported_procs(Task0, Task, Filter,
ModuleInfo0, ModuleInfo) -->
{ module_info_predids(ModuleInfo0, PredIds) },
process_nonimported_procs_in_preds(PredIds, Task0, Task, Filter,
ModuleInfo0, ModuleInfo).
:- pred process_nonimported_pred(pred_error_task, pred(pred_info), pred_id,
module_info, module_info, io__state, io__state).
:- mode process_nonimported_pred(in(pred_error_task), pred(in) is semidet, in,
in, out, di, uo) is det.
process_nonimported_pred(Task, Filter, PredId, ModuleInfo0, ModuleInfo,
IO0, IO) :-
module_info_pred_info(ModuleInfo0, PredId, PredInfo0),
(
( pred_info_is_imported(PredInfo0)
; \+ call(Filter, PredInfo0)
)
->
ModuleInfo = ModuleInfo0,
IO = IO0
;
call(Task, PredId, ModuleInfo0, ModuleInfo1,
PredInfo0, PredInfo, WarnCnt, ErrCnt, IO0, IO1),
module_info_set_pred_info(ModuleInfo1,
PredId, PredInfo, ModuleInfo2),
passes_aux__handle_errors(WarnCnt, ErrCnt,
ModuleInfo2, ModuleInfo, IO1, IO)
).
:- pred process_nonimported_procs_in_preds(list(pred_id), task, task,
pred(pred_info), module_info, module_info, io__state, io__state).
:- mode process_nonimported_procs_in_preds(in, task, out(task),
pred(in) is semidet, in, out, di, uo) is det.
process_nonimported_procs_in_preds([], Task, Task, _, ModuleInfo, ModuleInfo)
--> [].
process_nonimported_procs_in_preds([PredId | PredIds], Task0, Task, Filter,
ModuleInfo0, ModuleInfo) -->
{ module_info_preds(ModuleInfo0, PredTable) },
{ map__lookup(PredTable, PredId, PredInfo) },
( { call(Filter, PredInfo) } ->
{ pred_info_non_imported_procids(PredInfo, ProcIds) },
process_nonimported_procs(ProcIds, PredId, Task0, Task1,
ModuleInfo0, ModuleInfo1)
;
{ ModuleInfo1 = ModuleInfo0 },
{ Task1 = Task0 }
),
process_nonimported_procs_in_preds(PredIds, Task1, Task, Filter,
ModuleInfo1, ModuleInfo).
:- pred process_nonimported_procs(list(proc_id), pred_id, task, task,
module_info, module_info, io__state, io__state).
:- mode process_nonimported_procs(in, in, task, out(task), in, out, di, uo)
is det.
process_nonimported_procs([], _PredId, Task, Task,
ModuleInfo, ModuleInfo, State, State).
process_nonimported_procs([ProcId | ProcIds], PredId, Task0, Task,
ModuleInfo0, ModuleInfo, State0, State) :-
module_info_preds(ModuleInfo0, Preds0),
map__lookup(Preds0, PredId, Pred0),
pred_info_procedures(Pred0, Procs0),
map__lookup(Procs0, ProcId, Proc0),
(
Task0 = update_module(Closure),
call(Closure, Proc0, Proc, ModuleInfo0, ModuleInfo8),
Task1 = Task0,
State9 = State0
;
Task0 = update_module_io(Closure),
call(Closure, PredId, ProcId, Proc0, Proc,
ModuleInfo0, ModuleInfo8, State0, State9),
Task1 = Task0
;
Task0 = update_proc(Closure),
call(Closure, Proc0, ModuleInfo0, Proc),
ModuleInfo8 = ModuleInfo0,
Task1 = Task0,
State9 = State0
;
Task0 = update_proc_predid(Closure),
call(Closure, Proc0, PredId, ModuleInfo0, Proc),
ModuleInfo8 = ModuleInfo0,
Task1 = Task0,
State9 = State0
;
Task0 = update_proc_predprocid(Closure),
call(Closure, Proc0, PredId, ProcId, ModuleInfo0, Proc),
ModuleInfo8 = ModuleInfo0,
Task1 = Task0,
State9 = State0
;
Task0 = update_proc_io(Closure),
call(Closure, PredId, ProcId, ModuleInfo0,
Proc0, Proc, State0, State9),
ModuleInfo8 = ModuleInfo0,
Task1 = Task0
;
Task0 = update_proc_error(Closure),
call(Closure, PredId, ProcId, ModuleInfo0, ModuleInfo1,
Proc0, Proc, WarnCnt, ErrCnt, State0, State1),
Task1 = Task0,
passes_aux__handle_errors(WarnCnt, ErrCnt,
ModuleInfo1, ModuleInfo8, State1, State9)
;
Task0 = update_pred_error(_),
error("passes_aux:process_non_imported_procs")
;
Task0 = update_module_cookie(Closure, Cookie0),
call(Closure, PredId, ProcId, Proc0, Proc,
Cookie0, Cookie1, ModuleInfo0, ModuleInfo8),
Task1 = update_module_cookie(Closure, Cookie1),
State9 = State0
),
% If the pass changed the module_info, it may have changed
% the pred table or the proc table for this pred_id. Don't
% take any chances.
module_info_preds(ModuleInfo8, Preds8),
map__lookup(Preds8, PredId, Pred8),
pred_info_procedures(Pred8, Procs8),
map__det_update(Procs8, ProcId, Proc, Procs),
pred_info_set_procedures(Pred8, Procs, Pred),
map__det_update(Preds8, PredId, Pred, Preds),
module_info_set_preds(ModuleInfo8, Preds, ModuleInfo9),
process_nonimported_procs(ProcIds, PredId, Task1, Task,
ModuleInfo9, ModuleInfo, State9, State).
write_pred_progress_message(Message, PredId, ModuleInfo) -->
globals__io_lookup_bool_option(very_verbose, VeryVerbose),
( { VeryVerbose = yes } ->
io__write_string(Message),
hlds_out__write_pred_id(ModuleInfo, PredId),
io__write_string("\n")
;
[]
).
write_proc_progress_message(Message, PredId, ProcId, ModuleInfo) -->
globals__io_lookup_bool_option(very_verbose, VeryVerbose),
( { VeryVerbose = yes } ->
io__write_string(Message),
hlds_out__write_pred_proc_id(ModuleInfo, PredId, ProcId),
io__write_string("\n")
;
[]
).
maybe_report_stats(yes) --> io__report_stats.
maybe_report_stats(no) --> [].
maybe_write_string(yes, String) --> io__write_string(String).
maybe_write_string(no, _) --> [].
maybe_flush_output(yes) --> io__flush_output.
maybe_flush_output(no) --> [].
report_error(ErrorMessage) -->
io__write_string("Error: "),
io__write_string(ErrorMessage),
io__write_string("\n"),
io__set_exit_status(1).
:- pred passes_aux__handle_errors(int, int, module_info, module_info,
io__state, io__state).
:- mode passes_aux__handle_errors(in, in, in, out, di, uo) is det.
passes_aux__handle_errors(WarnCnt, ErrCnt, ModuleInfo1, ModuleInfo8,
State1, State9) :-
globals__io_lookup_bool_option(halt_at_warn, HaltAtWarn,
State1, State2),
(
(
ErrCnt > 0
;
WarnCnt > 0,
HaltAtWarn = yes
)
->
io__set_exit_status(1, State2, State9),
module_info_incr_errors(ModuleInfo1, ModuleInfo8)
;
ModuleInfo8 = ModuleInfo1,
State9 = State2
).
invoke_system_command(Command, Succeeded) -->
globals__io_lookup_bool_option(verbose, Verbose),
( { Verbose = yes } ->
io__write_string("% Invoking system command `"),
io__write_string(Command),
io__write_string("'...\n"),
io__flush_output
;
[]
),
io__call_system(Command, Result),
( { Result = ok(0) } ->
maybe_write_string(Verbose, "% done.\n"),
{ Succeeded = yes }
; { Result = ok(_) } ->
report_error("system command returned non-zero exit status."),
{ Succeeded = no }
;
report_error("unable to invoke system command."),
{ Succeeded = no }
).
maybe_report_sizes(HLDS) -->
globals__io_lookup_bool_option(statistics, Statistics),
( { Statistics = yes } ->
report_sizes(HLDS)
;
[]
).
:- pred report_sizes(module_info, io__state, io__state).
:- mode report_sizes(in, di, uo) is det.
report_sizes(ModuleInfo) -->
{ module_info_preds(ModuleInfo, Preds) },
tree_stats("Pred table", Preds),
{ module_info_types(ModuleInfo, Types) },
tree_stats("Type table", Types),
{ module_info_ctors(ModuleInfo, Ctors) },
tree_stats("Constructor table", Ctors).
:- pred tree_stats(string, map(_K, _V), io__state, io__state).
:- mode tree_stats(in, in, di, uo) is det.
tree_stats(Description, Tree) -->
{ map__count(Tree, Count) },
io__write_string(Description),
io__write_string(": count = "),
io__write_int(Count),
io__write_string("\n").
%-----------------------------------------------------------------------------%
report_pred_proc_id(ModuleInfo, PredId, ProcId, MaybeContext, Context) -->
{ module_info_pred_proc_info(ModuleInfo, PredId, ProcId,
PredInfo, ProcInfo) },
{ pred_info_name(PredInfo, PredName) },
{ pred_info_arity(PredInfo, Arity) },
{ pred_info_get_is_pred_or_func(PredInfo, PredOrFunc) },
{ proc_info_context(ProcInfo, Context) },
{ proc_info_argmodes(ProcInfo, ArgModes0) },
% We need to strip off the extra type_info arguments inserted at the
% front by polymorphism.m - we only want the last `PredArity' of them.
%
{ list__length(ArgModes0, NumArgModes) },
{ NumToDrop is NumArgModes - Arity },
( { list__drop(NumToDrop, ArgModes0, ArgModes1) } ->
{ ArgModes = ArgModes1 }
;
{ error("report_pred_proc_id: list__drop failed") }
),
(
{ MaybeContext = yes(OutContext) }
;
{ MaybeContext = no },
{ OutContext = Context }
),
prog_out__write_context(OutContext),
io__write_string("In `"),
report_pred_name_mode(PredOrFunc, PredName, ArgModes),
io__write_string("':\n").
report_pred_name_mode(predicate, PredName, ArgModes) -->
io__write_string(PredName),
( { ArgModes \= [] } ->
{ varset__init(InstVarSet) }, % XXX inst var names
io__write_string("("),
{ strip_builtin_qualifiers_from_mode_list(ArgModes,
ArgModes1) },
mercury_output_mode_list(ArgModes1, InstVarSet),
io__write_string(")")
;
[]
).
report_pred_name_mode(function, FuncName, ArgModes) -->
{ varset__init(InstVarSet) }, % XXX inst var names
{ strip_builtin_qualifiers_from_mode_list(ArgModes, ArgModes1) },
{ pred_args_to_func_args(ArgModes1, FuncArgModes, FuncRetMode) },
io__write_string(FuncName),
( { FuncArgModes \= [] } ->
io__write_string("("),
mercury_output_mode_list(FuncArgModes, InstVarSet),
io__write_string(")")
;
[]
),
io__write_string(" = "),
mercury_output_mode(FuncRetMode, InstVarSet).
%-----------------------------------------------------------------------------%
|
