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mercury/compiler/code_gen.m
Paul Bone 2efb78955e The loop control transformation now works. 
This patch commits the code-generator parts of the loop control transformation.
It also makes corrections and changes to the source-to-source, runtime and
library parts of the transformation.

Preliminary results look good, loop controlled right-recursive dependent code
performs as fast as independent right-recursive code, and it does so using the
minimum number of contexts (8 on apollo (an i7)).  Previously, when
transforming code by hand, we needed 32 contexts on a 4 core system (taura).
The reason for this is that we changed our design so that the master context
would become blocked if there was no free slot.  This ensures that once a
worker finishes it's current job new work is either already available or can be
made available promptly.

compiler/par_conj_gen.m:
compiler/code_gen.m:
    Generate code for the new loop_control scope.

compiler/llds_out_instr.m:
    Write out the lc_spawn_off instruction correctly.

compiler/code_info.m:
    Add support for storing out-of-line code in the code_info structure.

compiler/proc_gen.m:
    After generating a procedure's body add any out-of-line code stored in the
    code_info structure onto the end of the procedure (after the exit code).

compiler/par_loop_control.m:
    Add missing parts to the loop control transformation:
        + Add the barrier in the base case.
        + Transform non-parallel recursive calls.
        + Add a join_and_terminate call to the end of the forked-off code.

    Make minor corrections to comments.

runtime/mercury_par_builtin.h:
runtime/mercury_par_builtin.c:
    MR_lc_wait_free_slot and MR_lc_spawn_off no-longer mangle the labels they
    are passed.

    Fix a typeo that caused a bug.

    Add debugging code.

library/par_builtin.m:
    Store the value of LC in a stack slot during lc_wait_for_slot, This makes
    sure it is available in the case that lc_wait_for_slot suspends the
    context.

    Remove the loop_control_slot type, we now use integers to represent the
    position of a slot within a loop control structure.
2011-10-09 09:56:20 +00:00

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%---------------------------------------------------------------------------%
% vim: ft=mercury ts=4 sw=4 et
%---------------------------------------------------------------------------%
% Copyright (C) 1994-2011 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: code_gen.m.
% Main authors: conway, zs.
%
% The task of this module is to provide a generic predicate that can be called
% from anywhere in the code generator to generate code for a goal. We forward
% most of the actual construction of code for particular types of goals
% to other modules. The generation of code for unifications is done
% by unify_gen, for calls, higher-order calls and method calls by call_gen,
% for commits by commit_gen, for if-then-elses and negations by ite_gen,
% for switches by switch_gen and its subsidiary modules, for disjunctions
% by disj_gen, for parallel conjunctions by par_conj_gen, and for foreign_procs
% by pragma_c_gen. The only goals handled directly by code_gen are sequential
% conjunctions.
%
%---------------------------------------------------------------------------%
:- module ll_backend.code_gen.
:- interface.
:- import_module hlds.code_model.
:- import_module hlds.hlds_goal.
:- import_module ll_backend.code_info.
:- import_module ll_backend.llds.
%---------------------------------------------------------------------------%
% Translate a HLDS goal to LLDS.
%
:- pred generate_goal(code_model::in, hlds_goal::in, llds_code::out,
code_info::in, code_info::out) is det.
%---------------------------------------------------------------------------%
%---------------------------------------------------------------------------%
:- implementation.
:- import_module hlds.hlds_desc.
:- import_module hlds.hlds_pred.
:- import_module hlds.instmap.
:- import_module libs.globals.
:- import_module ll_backend.call_gen.
:- import_module ll_backend.commit_gen.
:- import_module ll_backend.disj_gen.
:- import_module ll_backend.ite_gen.
:- import_module ll_backend.opt_debug.
:- import_module ll_backend.par_conj_gen.
:- import_module ll_backend.pragma_c_gen.
:- import_module ll_backend.switch_gen.
:- import_module ll_backend.unify_gen.
:- import_module parse_tree.prog_data.
:- import_module parse_tree.set_of_var.
:- import_module bool.
:- import_module cord.
:- import_module int.
:- import_module io.
:- import_module list.
:- import_module map.
:- import_module maybe.
:- import_module require.
:- import_module set.
:- import_module string.
%---------------------------------------------------------------------------%
generate_goal(ContextModel, Goal, Code, !CI) :-
% Generate a goal. This predicate arranges for the necessary updates of
% the generic data structures before and after the actual code generation,
% which is delegated to goal-specific predicates.
trace [compiletime(flag("codegen_goal")), io(!IO)] (
some [ModuleInfo, VarSet, GoalDesc] (
code_info.get_module_info(!.CI, ModuleInfo),
code_info.get_varset(!.CI, VarSet),
GoalDesc = describe_goal(ModuleInfo, VarSet, Goal),
( should_trace_code_gen(!.CI) ->
io.format("\nGOAL START: %s\n", [s(GoalDesc)], !IO)
;
true
)
)
),
% Make any changes to liveness before Goal.
get_forward_live_vars(!.CI, ForwardLiveVarsBeforeGoal),
Goal = hlds_goal(GoalExpr, GoalInfo),
HasSubGoals = goal_expr_has_subgoals(GoalExpr),
pre_goal_update(GoalInfo, HasSubGoals, !CI),
get_instmap(!.CI, InstMap),
( instmap_is_reachable(InstMap) ->
CodeModel = goal_info_get_code_model(GoalInfo),
% Sanity check: code of some code models should occur
% only in limited contexts.
(
CodeModel = model_det
;
CodeModel = model_semi,
(
ContextModel = model_det,
unexpected($module, $pred, "semidet model in det context")
;
( ContextModel = model_semi
; ContextModel = model_non
)
)
;
CodeModel = model_non,
(
( ContextModel = model_det
; ContextModel = model_semi
),
unexpected($module, $pred,
"nondet model in det/semidet context")
;
ContextModel = model_non
)
),
generate_goal_expr(GoalExpr, GoalInfo, CodeModel,
ForwardLiveVarsBeforeGoal, GoalCode, !CI),
Features = goal_info_get_features(GoalInfo),
get_proc_info(!.CI, ProcInfo),
% If the predicate's evaluation method is memo, loopcheck or minimal
% model, the goal generated the variable that represents the call table
% tip, *and* tracing is enabled, then we save this variable to its
% stack slot. This is necessary to enable retries across this procedure
% to reset the call table entry to uninitialized, effectively removing
% the call table entry.
%
% If tracing is not enabled, then CallTableVar isn't guaranteed
% to have a stack slot.
(
set.member(feature_call_table_gen, Features),
get_proc_info(!.CI, ProcInfo),
proc_info_get_call_table_tip(ProcInfo, MaybeCallTableVar),
MaybeCallTableVar = yes(CallTableVar),
get_maybe_trace_info(!.CI, yes(_))
->
save_variables_on_stack([CallTableVar], TipSaveCode, !CI),
CodeUptoTip = GoalCode ++ TipSaveCode
;
CodeUptoTip = GoalCode
),
% After the goal that generates the variables needed at the exception
% port, on which deep_profiling.m puts the save_deep_excp_vars feature,
% save those variables in their stack slots. The procedure layout
% structure gives the identity of their slots, and exception.m
% expects to find the variables in their stack slots.
%
% These variables are computed by the call port code and are needed
% by the exit and fail port codes, so their lifetime is the entire
% procedure invocation. If the procedure makes any calls other than
% the ones inserted by deep profiling, then all the variables will have
% stack slots, and we save them all on the stack. If the procedure
% doesn't make any such calls, then the variables won't have stack
% slots, but they won't *need* stack slots either, since there is no
% way for such a leaf procedure to throw an exception. (Throwing
% requires calling exception.throw, directly or indirectly.)
( set.member(feature_save_deep_excp_vars, Features) ->
DeepSaveVars = compute_deep_save_excp_vars(ProcInfo),
save_variables_on_stack(DeepSaveVars, DeepSaveCode, !CI),
Code = CodeUptoTip ++ DeepSaveCode
;
Code = CodeUptoTip
),
% Make live any variables which subsequent goals will expect to be
% live, but were not generated.
set_instmap(InstMap, !CI),
post_goal_update(GoalInfo, !CI)
;
Code = empty
),
trace [compiletime(flag("codegen_goal")), io(!IO)] (
some [ModuleInfo, VarSet, GoalDesc] (
code_info.get_module_info(!.CI, ModuleInfo),
code_info.get_varset(!.CI, VarSet),
GoalDesc = describe_goal(ModuleInfo, VarSet, Goal),
( should_trace_code_gen(!.CI) ->
io.format("\nGOAL FINISH: %s\n", [s(GoalDesc)], !IO),
Instrs = cord.list(Code),
write_instrs(Instrs, no, yes, !IO)
;
true
)
)
).
:- func compute_deep_save_excp_vars(proc_info) = list(prog_var).
compute_deep_save_excp_vars(ProcInfo) = DeepSaveVars :-
proc_info_get_maybe_deep_profile_info(ProcInfo, MaybeDeepProfInfo),
(
MaybeDeepProfInfo = yes(DeepProfInfo),
MaybeDeepLayout = DeepProfInfo ^ deep_layout,
MaybeDeepLayout = yes(DeepLayout)
->
ExcpVars = DeepLayout ^ deep_layout_excp,
ExcpVars = hlds_deep_excp_vars(TopCSDVar, MiddleCSDVar,
MaybeOldOutermostVar),
proc_info_get_stack_slots(ProcInfo, StackSlots),
( map.search(StackSlots, TopCSDVar, _) ->
% If one of these variables has a stack slot, the others must
% have one too.
(
MaybeOldOutermostVar = yes(OldOutermostVar),
DeepSaveVars = [TopCSDVar, MiddleCSDVar, OldOutermostVar]
;
MaybeOldOutermostVar = no,
DeepSaveVars = [TopCSDVar, MiddleCSDVar]
)
;
DeepSaveVars = []
)
;
unexpected($module, $pred, "inconsistent proc_info")
).
%---------------------------------------------------------------------------%
:- pred generate_goal_expr(hlds_goal_expr::in, hlds_goal_info::in,
code_model::in, set_of_progvar::in, llds_code::out,
code_info::in, code_info::out) is det.
generate_goal_expr(GoalExpr, GoalInfo, CodeModel, ForwardLiveVarsBeforeGoal,
Code, !CI) :-
(
GoalExpr = unify(_, _, _, Uni, _),
unify_gen.generate_unification(CodeModel, Uni, GoalInfo, Code, !CI)
;
GoalExpr = conj(ConjType, Goals),
(
ConjType = plain_conj,
generate_conj(Goals, CodeModel, cord.init, Code, !CI)
;
ConjType = parallel_conj,
par_conj_gen.generate_par_conj(Goals, GoalInfo, CodeModel, Code,
!CI)
)
;
GoalExpr = disj(Goals),
disj_gen.generate_disj(CodeModel, Goals, GoalInfo, Code, !CI)
;
GoalExpr = negation(Goal),
ite_gen.generate_negation(CodeModel, Goal, GoalInfo, Code, !CI)
;
GoalExpr = if_then_else(_Vars, Cond, Then, Else),
ite_gen.generate_ite(CodeModel, Cond, Then, Else, GoalInfo, Code, !CI)
;
GoalExpr = switch(Var, CanFail, CaseList),
switch_gen.generate_switch(CodeModel, Var, CanFail, CaseList, GoalInfo,
Code, !CI)
;
GoalExpr = scope(Reason, SubGoal),
( Reason = from_ground_term(TermVar, from_ground_term_construct) ->
unify_gen.generate_ground_term(TermVar, SubGoal, !CI),
Code = empty
; Reason = loop_control(LCVar, LCSVar) ->
par_conj_gen.generate_loop_control(SubGoal, LCVar, LCSVar, Code,
!CI)
;
commit_gen.generate_scope(Reason, CodeModel, GoalInfo,
ForwardLiveVarsBeforeGoal, SubGoal, Code, !CI)
)
;
GoalExpr = generic_call(GenericCall, Args, Modes, Det),
call_gen.generate_generic_call(CodeModel, GenericCall, Args,
Modes, Det, GoalInfo, Code, !CI)
;
GoalExpr = plain_call(PredId, ProcId, Args, BuiltinState, _, _),
(
BuiltinState = not_builtin,
call_gen.generate_call(CodeModel, PredId, ProcId, Args, GoalInfo,
Code, !CI)
;
( BuiltinState = inline_builtin
; BuiltinState = out_of_line_builtin
),
call_gen.generate_builtin(CodeModel, PredId, ProcId, Args,
Code, !CI)
)
;
GoalExpr = call_foreign_proc(Attributes, PredId, ProcId,
Args, ExtraArgs, MaybeTraceRuntimeCond, PragmaCode),
Lang = get_foreign_language(Attributes),
(
Lang = lang_c,
generate_foreign_proc_code(CodeModel, Attributes,
PredId, ProcId, Args, ExtraArgs, MaybeTraceRuntimeCond,
PragmaCode, GoalInfo, Code, !CI)
;
( Lang = lang_java
; Lang = lang_csharp
; Lang = lang_il
; Lang = lang_erlang
),
unexpected($module, $pred, "foreign code other than C")
)
;
GoalExpr = shorthand(_),
% These should have been expanded out by now.
unexpected($module, $pred, "shorthand")
).
%---------------------------------------------------------------------------%
% Generate a conjoined series of goals. State information flows directly
% from one conjunct to the next.
%
% We call generate_goals to generate code for up to 1000 goals.
% If there are any more goals left after that, we let generate_goals
% give up all its stack frames before calling it again. This allows us
% to generate code for *very* long sequences of goals even if the compiler
% is compiled in a grade that does not allow tail recursion.
%
:- pred generate_conj(list(hlds_goal)::in, code_model::in,
llds_code::in, llds_code::out, code_info::in, code_info::out) is det.
generate_conj([], _, !Code, !CI).
generate_conj(Goals @ [_ | _], CodeModel, !Code, !CI) :-
generate_goals(Goals, 1000, CodeModel, LeftOverGoals, !Code, !CI),
generate_conj(LeftOverGoals, CodeModel, !Code, !CI).
:- pred generate_goals(list(hlds_goal)::in, int::in, code_model::in,
list(hlds_goal)::out, llds_code::in, llds_code::out,
code_info::in, code_info::out) is det.
generate_goals([], _, _, [], !Code, !CI).
generate_goals([Goal | Goals], N, CodeModel, LeftOverGoals, !Code, !CI) :-
( N > 0 ->
generate_goal(CodeModel, Goal, GoalCode, !CI),
!:Code = !.Code ++ GoalCode,
get_instmap(!.CI, Instmap),
( instmap_is_unreachable(Instmap) ->
LeftOverGoals = []
;
generate_goals(Goals, N - 1, CodeModel, LeftOverGoals, !Code, !CI)
)
;
LeftOverGoals = [Goal | Goals]
).
%---------------------------------------------------------------------------%
:- end_module ll_backend.code_gen.
%---------------------------------------------------------------------------%
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