/* Instruction scheduling pass.
- Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999,
- 2000, 2001, 2002, 2003, 2004, 2005, 2006 Free Software Foundation, Inc.
+ Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000,
+ 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008
+ Free Software Foundation, Inc.
Contributed by Michael Tiemann (tiemann@cygnus.com) Enhanced by,
and currently maintained by, Jim Wilson (wilson@cygnus.com)
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
-Software Foundation; either version 2, or (at your option) any later
+Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
for more details.
You should have received a copy of the GNU General Public License
-along with GCC; see the file COPYING. If not, write to the Free
-Software Foundation, 51 Franklin Street, Fifth Floor, Boston, MA
-02110-1301, USA. */
+along with GCC; see the file COPYING3. If not see
+<http://www.gnu.org/licenses/>. */
/* Instruction scheduling pass. This file, along with sched-deps.c,
contains the generic parts. The actual entry point is found for
compute_block_backward_dependences ().
Dependencies set up by memory references are treated in exactly the
- same way as other dependencies, by using LOG_LINKS backward
- dependences. LOG_LINKS are translated into INSN_DEPEND forward
- dependences for the purpose of forward list scheduling.
+ same way as other dependencies, by using insn backward dependences
+ INSN_BACK_DEPS. INSN_BACK_DEPS are translated into forward dependences
+ INSN_FORW_DEPS the purpose of forward list scheduling.
Having optimized the critical path, we may have also unduly
extended the lifetimes of some registers. If an operation requires
#include "target.h"
#include "output.h"
#include "params.h"
+#include "vecprim.h"
+#include "dbgcnt.h"
+#include "cfgloop.h"
#ifdef INSN_SCHEDULING
machine cycle. It can be defined in the config/mach/mach.h file,
otherwise we set it to 1. */
-static int issue_rate;
+int issue_rate;
/* sched-verbose controls the amount of debugging output the
scheduler prints. It is controlled by -fsched-verbose=N:
either to stderr, or to the dump listing file (-dRS). */
FILE *sched_dump = 0;
-/* Highest uid before scheduling. */
-static int old_max_uid;
-
/* fix_sched_param() is called from toplev.c upon detection
of the -fsched-verbose=N option. */
warning (0, "fix_sched_param: unknown param: %s", param);
}
-struct haifa_insn_data *h_i_d;
+/* This is a placeholder for the scheduler parameters common
+ to all schedulers. */
+struct common_sched_info_def *common_sched_info;
-#define LINE_NOTE(INSN) (h_i_d[INSN_UID (INSN)].line_note)
-#define INSN_TICK(INSN) (h_i_d[INSN_UID (INSN)].tick)
-#define INTER_TICK(INSN) (h_i_d[INSN_UID (INSN)].inter_tick)
+#define INSN_TICK(INSN) (HID (INSN)->tick)
+#define INTER_TICK(INSN) (HID (INSN)->inter_tick)
/* If INSN_TICK of an instruction is equal to INVALID_TICK,
then it should be recalculated from scratch. */
For now, all instructions are equally good. */
#define ISSUE_POINTS(INSN) 1
-/* Vector indexed by basic block number giving the starting line-number
- for each basic block. */
-static rtx *line_note_head;
-
/* List of important notes we must keep around. This is a pointer to the
last element in the list. */
-static rtx note_list;
+rtx note_list;
static struct spec_info_def spec_info_var;
/* Description of the speculative part of the scheduling.
If NULL - no speculation. */
-static spec_info_t spec_info;
+spec_info_t spec_info = NULL;
/* True, if recovery block was added during scheduling of current block.
Used to determine, if we need to fix INSN_TICKs. */
-static bool added_recovery_block_p;
+static bool haifa_recovery_bb_recently_added_p;
+
+/* True, if recovery block was added during this scheduling pass.
+ Used to determine if we should have empty memory pools of dependencies
+ after finishing current region. */
+bool haifa_recovery_bb_ever_added_p;
/* Counters of different types of speculative instructions. */
static int nr_begin_data, nr_be_in_data, nr_begin_control, nr_be_in_control;
-/* Pointers to GLAT data. See init_glat for more information. */
-regset *glat_start, *glat_end;
-
/* Array used in {unlink, restore}_bb_notes. */
static rtx *bb_header = 0;
-/* Number of basic_blocks. */
-static int old_last_basic_block;
-
/* Basic block after which recovery blocks will be created. */
static basic_block before_recovery;
+/* Basic block just before the EXIT_BLOCK and after recovery, if we have
+ created it. */
+basic_block after_recovery;
+
+/* FALSE if we add bb to another region, so we don't need to initialize it. */
+bool adding_bb_to_current_region_p = true;
+
/* Queues, etc. */
/* An instruction is ready to be scheduled when all insns preceding it
sufficient time has passed to make them ready. As time passes,
insns move from the "Queued" set to the "Ready" list.
- The "Pending" list (P) are the insns in the INSN_DEPEND of the unscheduled
- insns, i.e., those that are ready, queued, and pending.
+ The "Pending" list (P) are the insns in the INSN_FORW_DEPS of the
+ unscheduled insns, i.e., those that are ready, queued, and pending.
The "Queued" set (Q) is implemented by the variable `insn_queue'.
The "Ready" list (R) is implemented by the variables `ready' and
`n_ready'.
QUEUE_READY - INSN is in ready list.
N >= 0 - INSN queued for X [where NEXT_Q_AFTER (q_ptr, X) == N] cycles. */
-#define QUEUE_INDEX(INSN) (h_i_d[INSN_UID (INSN)].queue_index)
+#define QUEUE_INDEX(INSN) (HID (INSN)->queue_index)
/* The following variable value refers for all current and future
reservations of the processor units. */
/* The following variable value is size of memory representing all
current and future reservations of the processor units. */
-static size_t dfa_state_size;
+size_t dfa_state_size;
/* The following array is used to find the best insn from ready when
the automaton pipeline interface is used. */
-static char *ready_try;
-
-/* Describe the ready list of the scheduler.
- VEC holds space enough for all insns in the current region. VECLEN
- says how many exactly.
- FIRST is the index of the element with the highest priority; i.e. the
- last one in the ready list, since elements are ordered by ascending
- priority.
- N_READY determines how many insns are on the ready list. */
+char *ready_try = NULL;
-struct ready_list
-{
- rtx *vec;
- int veclen;
- int first;
- int n_ready;
-};
+/* The ready list. */
+struct ready_list ready = {NULL, 0, 0, 0};
-/* The pointer to the ready list. */
-static struct ready_list *readyp;
+/* The pointer to the ready list (to be removed). */
+static struct ready_list *readyp = &ready;
/* Scheduling clock. */
static int clock_var;
-/* Number of instructions in current scheduling region. */
-static int rgn_n_insns;
-
-static int may_trap_exp (rtx, int);
+static int may_trap_exp (const_rtx, int);
/* Nonzero iff the address is comprised from at most 1 register. */
#define CONST_BASED_ADDRESS_P(x) \
/* Returns a class that insn with GET_DEST(insn)=x may belong to,
as found by analyzing insn's expression. */
+\f
+static int haifa_luid_for_non_insn (rtx x);
+
+/* Haifa version of sched_info hooks common to all headers. */
+const struct common_sched_info_def haifa_common_sched_info =
+ {
+ NULL, /* fix_recovery_cfg */
+ NULL, /* add_block */
+ NULL, /* estimate_number_of_insns */
+ haifa_luid_for_non_insn, /* luid_for_non_insn */
+ SCHED_PASS_UNKNOWN /* sched_pass_id */
+ };
+
+const struct sched_scan_info_def *sched_scan_info;
+
+/* Mapping from instruction UID to its Logical UID. */
+VEC (int, heap) *sched_luids = NULL;
+
+/* Next LUID to assign to an instruction. */
+int sched_max_luid = 1;
+
+/* Haifa Instruction Data. */
+VEC (haifa_insn_data_def, heap) *h_i_d = NULL;
+
+void (* sched_init_only_bb) (basic_block, basic_block);
+
+/* Split block function. Different schedulers might use different functions
+ to handle their internal data consistent. */
+basic_block (* sched_split_block) (basic_block, rtx);
+
+/* Create empty basic block after the specified block. */
+basic_block (* sched_create_empty_bb) (basic_block);
+
static int
-may_trap_exp (rtx x, int is_store)
+may_trap_exp (const_rtx x, int is_store)
{
enum rtx_code code;
}
}
-/* Classifies insn for the purpose of verifying that it can be
- moved speculatively, by examining it's patterns, returning:
+/* Classifies rtx X of an insn for the purpose of verifying that X can be
+ executed speculatively (and consequently the insn can be moved
+ speculatively), by examining X, returning:
TRAP_RISKY: store, or risky non-load insn (e.g. division by variable).
TRAP_FREE: non-load insn.
IFREE: load from a globally safe location.
PFREE_CANDIDATE, PRISKY_CANDIDATE: load that need to be checked for
being either PFREE or PRISKY. */
-int
-haifa_classify_insn (rtx insn)
+static int
+haifa_classify_rtx (const_rtx x)
{
- rtx pat = PATTERN (insn);
int tmp_class = TRAP_FREE;
int insn_class = TRAP_FREE;
enum rtx_code code;
- if (GET_CODE (pat) == PARALLEL)
+ if (GET_CODE (x) == PARALLEL)
{
- int i, len = XVECLEN (pat, 0);
+ int i, len = XVECLEN (x, 0);
for (i = len - 1; i >= 0; i--)
{
- code = GET_CODE (XVECEXP (pat, 0, i));
- switch (code)
- {
- case CLOBBER:
- /* Test if it is a 'store'. */
- tmp_class = may_trap_exp (XEXP (XVECEXP (pat, 0, i), 0), 1);
- break;
- case SET:
- /* Test if it is a store. */
- tmp_class = may_trap_exp (SET_DEST (XVECEXP (pat, 0, i)), 1);
- if (tmp_class == TRAP_RISKY)
- break;
- /* Test if it is a load. */
- tmp_class
- = WORST_CLASS (tmp_class,
- may_trap_exp (SET_SRC (XVECEXP (pat, 0, i)),
- 0));
- break;
- case COND_EXEC:
- case TRAP_IF:
- tmp_class = TRAP_RISKY;
- break;
- default:
- ;
- }
+ tmp_class = haifa_classify_rtx (XVECEXP (x, 0, i));
insn_class = WORST_CLASS (insn_class, tmp_class);
if (insn_class == TRAP_RISKY || insn_class == IRISKY)
break;
}
else
{
- code = GET_CODE (pat);
+ code = GET_CODE (x);
switch (code)
{
case CLOBBER:
/* Test if it is a 'store'. */
- tmp_class = may_trap_exp (XEXP (pat, 0), 1);
+ tmp_class = may_trap_exp (XEXP (x, 0), 1);
break;
case SET:
/* Test if it is a store. */
- tmp_class = may_trap_exp (SET_DEST (pat), 1);
+ tmp_class = may_trap_exp (SET_DEST (x), 1);
if (tmp_class == TRAP_RISKY)
break;
/* Test if it is a load. */
tmp_class =
WORST_CLASS (tmp_class,
- may_trap_exp (SET_SRC (pat), 0));
+ may_trap_exp (SET_SRC (x), 0));
break;
case COND_EXEC:
+ tmp_class = haifa_classify_rtx (COND_EXEC_CODE (x));
+ if (tmp_class == TRAP_RISKY)
+ break;
+ tmp_class = WORST_CLASS (tmp_class,
+ may_trap_exp (COND_EXEC_TEST (x), 0));
+ break;
case TRAP_IF:
tmp_class = TRAP_RISKY;
break;
return insn_class;
}
+int
+haifa_classify_insn (const_rtx insn)
+{
+ return haifa_classify_rtx (PATTERN (insn));
+}
+
/* Forward declarations. */
-HAIFA_INLINE static int insn_cost1 (rtx, enum reg_note, rtx, rtx);
static int priority (rtx);
static int rank_for_schedule (const void *, const void *);
static void swap_sort (rtx *, int);
static void queue_insn (rtx, int);
static int schedule_insn (rtx);
-static int find_set_reg_weight (rtx);
-static void find_insn_reg_weight (basic_block);
-static void find_insn_reg_weight1 (rtx);
+static int find_set_reg_weight (const_rtx);
+static void find_insn_reg_weight (const_rtx);
static void adjust_priority (rtx);
static void advance_one_cycle (void);
+static void extend_h_i_d (void);
+
/* Notes handling mechanism:
=========================
Generally, NOTES are saved before scheduling and restored after scheduling.
- The scheduler distinguishes between three types of notes:
+ The scheduler distinguishes between two types of notes:
- (1) LINE_NUMBER notes, generated and used for debugging. Here,
- before scheduling a region, a pointer to the LINE_NUMBER note is
- added to the insn following it (in save_line_notes()), and the note
- is removed (in rm_line_notes() and unlink_line_notes()). After
- scheduling the region, this pointer is used for regeneration of
- the LINE_NUMBER note (in restore_line_notes()).
-
- (2) LOOP_BEGIN, LOOP_END, SETJMP, EHREGION_BEG, EHREGION_END notes:
+ (1) LOOP_BEGIN, LOOP_END, SETJMP, EHREGION_BEG, EHREGION_END notes:
Before scheduling a region, a pointer to the note is added to the insn
that follows or precedes it. (This happens as part of the data dependence
computation). After scheduling an insn, the pointer contained in it is
used for regenerating the corresponding note (in reemit_notes).
- (3) All other notes (e.g. INSN_DELETED): Before scheduling a block,
+ (2) All other notes (e.g. INSN_DELETED): Before scheduling a block,
these notes are put in a list (in rm_other_notes() and
unlink_other_notes ()). After scheduling the block, these notes are
inserted at the beginning of the block (in schedule_block()). */
-static rtx unlink_other_notes (rtx, rtx);
-static rtx unlink_line_notes (rtx, rtx);
-static void reemit_notes (rtx);
-
-static rtx *ready_lastpos (struct ready_list *);
static void ready_add (struct ready_list *, rtx, bool);
-static void ready_sort (struct ready_list *);
static rtx ready_remove_first (struct ready_list *);
static void queue_to_ready (struct ready_list *);
static void debug_ready_list (struct ready_list *);
-static void move_insn (rtx);
-
/* The following functions are used to implement multi-pass scheduling
on the first cycle. */
-static rtx ready_element (struct ready_list *, int);
static rtx ready_remove (struct ready_list *, int);
static void ready_remove_insn (rtx);
-static int max_issue (struct ready_list *, int *, int);
-static rtx choose_ready (struct ready_list *);
+static int choose_ready (struct ready_list *, rtx *);
static void fix_inter_tick (rtx, rtx);
static int fix_tick_ready (rtx);
static void change_queue_index (rtx, int);
-static void resolve_dep (rtx, rtx);
/* The following functions are used to implement scheduling of data/control
speculative instructions. */
static void extend_h_i_d (void);
-static void extend_ready (int);
-static void extend_global (rtx);
-static void extend_all (rtx);
static void init_h_i_d (rtx);
static void generate_recovery_code (rtx);
-static void process_insn_depend_be_in_spec (rtx, rtx, ds_t);
+static void process_insn_forw_deps_be_in_spec (rtx, rtx, ds_t);
static void begin_speculative_block (rtx);
static void add_to_speculative_block (rtx);
-static dw_t dep_weak (ds_t);
-static edge find_fallthru_edge (basic_block);
-static void init_before_recovery (void);
-static basic_block create_recovery_block (void);
+static void init_before_recovery (basic_block *);
static void create_check_block_twin (rtx, bool);
static void fix_recovery_deps (basic_block);
-static void associate_line_notes_with_blocks (basic_block);
-static void change_pattern (rtx, rtx);
-static int speculate_insn (rtx, ds_t, rtx *);
+static void haifa_change_pattern (rtx, rtx);
static void dump_new_block_header (int, basic_block, rtx, rtx);
static void restore_bb_notes (basic_block);
-static void extend_bb (basic_block);
static void fix_jump_move (rtx);
static void move_block_after_check (rtx);
static void move_succs (VEC(edge,gc) **, basic_block);
-static void init_glat (void);
-static void init_glat1 (basic_block);
-static void attach_life_info1 (basic_block);
-static void free_glat (void);
static void sched_remove_insn (rtx);
-static void clear_priorities (rtx);
+static void clear_priorities (rtx, rtx_vec_t *);
+static void calc_priorities (rtx_vec_t);
static void add_jump_dependencies (rtx, rtx);
-static rtx bb_note (basic_block);
-static void calc_priorities (rtx);
#ifdef ENABLE_CHECKING
static int has_edge_p (VEC(edge,gc) *, int);
static void check_cfg (rtx, rtx);
-static void check_sched_flags (void);
#endif
#endif /* INSN_SCHEDULING */
\f
/* Point to state used for the current scheduling pass. */
-struct sched_info *current_sched_info;
+struct haifa_sched_info *current_sched_info;
\f
#ifndef INSN_SCHEDULING
void
}
#else
-/* Working copy of frontend's sched_info variable. */
-static struct sched_info current_sched_info_var;
-
/* Pointer to the last instruction scheduled. Used by rank_for_schedule,
so that insns independent of the last scheduled insn will be preferred
over dependent instructions. */
static rtx last_scheduled_insn;
-/* Compute cost of executing INSN given the dependence LINK on the insn USED.
+/* Cached cost of the instruction. Use below function to get cost of the
+ insn. -1 here means that the field is not initialized. */
+#define INSN_COST(INSN) (HID (INSN)->cost)
+
+/* Compute cost of executing INSN.
This is the number of cycles between instruction issue and
instruction results. */
-
HAIFA_INLINE int
-insn_cost (rtx insn, rtx link, rtx used)
+insn_cost (rtx insn)
{
- return insn_cost1 (insn, used ? REG_NOTE_KIND (link) : REG_NOTE_MAX,
- link, used);
-}
+ int cost;
-/* Compute cost of executing INSN given the dependence on the insn USED.
- If LINK is not NULL, then its REG_NOTE_KIND is used as a dependence type.
- Otherwise, dependence between INSN and USED is assumed to be of type
- DEP_TYPE. This function was introduced as a workaround for
- targetm.adjust_cost hook.
- This is the number of cycles between instruction issue and
- instruction results. */
+ if (sel_sched_p ())
+ {
+ if (recog_memoized (insn) < 0)
+ return 0;
-HAIFA_INLINE static int
-insn_cost1 (rtx insn, enum reg_note dep_type, rtx link, rtx used)
-{
- int cost = INSN_COST (insn);
+ cost = insn_default_latency (insn);
+ if (cost < 0)
+ cost = 0;
+
+ return cost;
+ }
+
+ cost = INSN_COST (insn);
if (cost < 0)
{
}
}
- /* In this case estimate cost without caring how insn is used. */
- if (used == 0)
- return cost;
+ return cost;
+}
+
+/* Compute cost of dependence LINK.
+ This is the number of cycles between instruction issue and
+ instruction results.
+ ??? We also use this function to call recog_memoized on all insns. */
+int
+dep_cost_1 (dep_t link, dw_t dw)
+{
+ rtx insn = DEP_PRO (link);
+ rtx used = DEP_CON (link);
+ int cost;
/* A USE insn should never require the value used to be computed.
This allows the computation of a function's result and parameter
values to overlap the return and call. */
if (recog_memoized (used) < 0)
- cost = 0;
+ {
+ cost = 0;
+ recog_memoized (insn);
+ }
else
{
- gcc_assert (!link || dep_type == REG_NOTE_KIND (link));
+ enum reg_note dep_type = DEP_TYPE (link);
+
+ cost = insn_cost (insn);
if (INSN_CODE (insn) >= 0)
{
else if (bypass_p (insn))
cost = insn_latency (insn, used);
}
+
if (targetm.sched.adjust_cost_2)
- cost = targetm.sched.adjust_cost_2 (used, (int) dep_type, insn, cost);
- else
{
- gcc_assert (link);
- if (targetm.sched.adjust_cost)
- cost = targetm.sched.adjust_cost (used, link, insn, cost);
+ cost = targetm.sched.adjust_cost_2 (used, (int) dep_type, insn, cost,
+ dw);
+ }
+ else if (targetm.sched.adjust_cost != NULL)
+ {
+ /* This variable is used for backward compatibility with the
+ targets. */
+ rtx dep_cost_rtx_link = alloc_INSN_LIST (NULL_RTX, NULL_RTX);
+
+ /* Make it self-cycled, so that if some tries to walk over this
+ incomplete list he/she will be caught in an endless loop. */
+ XEXP (dep_cost_rtx_link, 1) = dep_cost_rtx_link;
+
+ /* Targets use only REG_NOTE_KIND of the link. */
+ PUT_REG_NOTE_KIND (dep_cost_rtx_link, DEP_TYPE (link));
+
+ cost = targetm.sched.adjust_cost (used, dep_cost_rtx_link,
+ insn, cost);
+
+ free_INSN_LIST_node (dep_cost_rtx_link);
}
if (cost < 0)
return cost;
}
-/* Compute the priority number for INSN. */
+/* Compute cost of dependence LINK.
+ This is the number of cycles between instruction issue and
+ instruction results. */
+int
+dep_cost (dep_t link)
+{
+ return dep_cost_1 (link, 0);
+}
+
+/* Use this sel-sched.c friendly function in reorder2 instead of increasing
+ INSN_PRIORITY explicitly. */
+void
+increase_insn_priority (rtx insn, int amount)
+{
+ if (!sel_sched_p ())
+ {
+ /* We're dealing with haifa-sched.c INSN_PRIORITY. */
+ if (INSN_PRIORITY_KNOWN (insn))
+ INSN_PRIORITY (insn) += amount;
+ }
+ else
+ {
+ /* In sel-sched.c INSN_PRIORITY is not kept up to date.
+ Use EXPR_PRIORITY instead. */
+ sel_add_to_insn_priority (insn, amount);
+ }
+}
+
+/* Return 'true' if DEP should be included in priority calculations. */
+static bool
+contributes_to_priority_p (dep_t dep)
+{
+ /* Critical path is meaningful in block boundaries only. */
+ if (!current_sched_info->contributes_to_priority (DEP_CON (dep),
+ DEP_PRO (dep)))
+ return false;
+
+ /* If flag COUNT_SPEC_IN_CRITICAL_PATH is set,
+ then speculative instructions will less likely be
+ scheduled. That is because the priority of
+ their producers will increase, and, thus, the
+ producers will more likely be scheduled, thus,
+ resolving the dependence. */
+ if (sched_deps_info->generate_spec_deps
+ && !(spec_info->flags & COUNT_SPEC_IN_CRITICAL_PATH)
+ && (DEP_STATUS (dep) & SPECULATIVE))
+ return false;
+
+ return true;
+}
+/* Compute the priority number for INSN. */
static int
priority (rtx insn)
{
- rtx link;
-
if (! INSN_P (insn))
return 0;
- if (! INSN_PRIORITY_KNOWN (insn))
- {
- int this_priority = 0;
+ /* We should not be interested in priority of an already scheduled insn. */
+ gcc_assert (QUEUE_INDEX (insn) != QUEUE_SCHEDULED);
- if (INSN_DEPEND (insn) == 0)
- this_priority = insn_cost (insn, 0, 0);
+ if (!INSN_PRIORITY_KNOWN (insn))
+ {
+ int this_priority = -1;
+
+ if (sd_lists_empty_p (insn, SD_LIST_FORW))
+ /* ??? We should set INSN_PRIORITY to insn_cost when and insn has
+ some forward deps but all of them are ignored by
+ contributes_to_priority hook. At the moment we set priority of
+ such insn to 0. */
+ this_priority = insn_cost (insn);
else
{
rtx prev_first, twin;
/* For recovery check instructions we calculate priority slightly
different than that of normal instructions. Instead of walking
- through INSN_DEPEND (check) list, we walk through INSN_DEPEND list
- of each instruction in the corresponding recovery block. */
+ through INSN_FORW_DEPS (check) list, we walk through
+ INSN_FORW_DEPS list of each instruction in the corresponding
+ recovery block. */
- rec = RECOVERY_BLOCK (insn);
+ /* Selective scheduling does not define RECOVERY_BLOCK macro. */
+ rec = sel_sched_p () ? NULL : RECOVERY_BLOCK (insn);
if (!rec || rec == EXIT_BLOCK_PTR)
{
prev_first = PREV_INSN (insn);
do
{
- for (link = INSN_DEPEND (twin); link; link = XEXP (link, 1))
+ sd_iterator_def sd_it;
+ dep_t dep;
+
+ FOR_EACH_DEP (twin, SD_LIST_FORW, sd_it, dep)
{
rtx next;
int next_priority;
-
- next = XEXP (link, 0);
-
+
+ next = DEP_CON (dep);
+
if (BLOCK_FOR_INSN (next) != rec)
{
- /* Critical path is meaningful in block boundaries
- only. */
- if (! (*current_sched_info->contributes_to_priority)
- (next, insn)
- /* If flag COUNT_SPEC_IN_CRITICAL_PATH is set,
- then speculative instructions will less likely be
- scheduled. That is because the priority of
- their producers will increase, and, thus, the
- producers will more likely be scheduled, thus,
- resolving the dependence. */
- || ((current_sched_info->flags & DO_SPECULATION)
- && (DEP_STATUS (link) & SPECULATIVE)
- && !(spec_info->flags
- & COUNT_SPEC_IN_CRITICAL_PATH)))
+ int cost;
+
+ if (!contributes_to_priority_p (dep))
continue;
-
- next_priority = insn_cost1 (insn,
- twin == insn ?
- REG_NOTE_KIND (link) :
- REG_DEP_ANTI,
- twin == insn ? link : 0,
- next) + priority (next);
+
+ if (twin == insn)
+ cost = dep_cost (dep);
+ else
+ {
+ struct _dep _dep1, *dep1 = &_dep1;
+
+ init_dep (dep1, insn, next, REG_DEP_ANTI);
+
+ cost = dep_cost (dep1);
+ }
+
+ next_priority = cost + priority (next);
if (next_priority > this_priority)
this_priority = next_priority;
}
while (twin != prev_first);
}
+
+ if (this_priority < 0)
+ {
+ gcc_assert (this_priority == -1);
+
+ this_priority = insn_cost (insn);
+ }
+
INSN_PRIORITY (insn) = this_priority;
- INSN_PRIORITY_KNOWN (insn) = 1;
+ INSN_PRIORITY_STATUS (insn) = 1;
}
return INSN_PRIORITY (insn);
{
rtx tmp = *(const rtx *) y;
rtx tmp2 = *(const rtx *) x;
- rtx link;
- int tmp_class, tmp2_class, depend_count1, depend_count2;
+ int tmp_class, tmp2_class;
int val, priority_val, weight_val, info_val;
/* The insn in a schedule group should be issued the first. */
if (SCHED_GROUP_P (tmp) != SCHED_GROUP_P (tmp2))
return SCHED_GROUP_P (tmp2) ? 1 : -1;
+ /* Make sure that priority of TMP and TMP2 are initialized. */
+ gcc_assert (INSN_PRIORITY_KNOWN (tmp) && INSN_PRIORITY_KNOWN (tmp2));
+
/* Prefer insn with higher priority. */
priority_val = INSN_PRIORITY (tmp2) - INSN_PRIORITY (tmp);
ds1 = TODO_SPEC (tmp) & SPECULATIVE;
if (ds1)
- dw1 = dep_weak (ds1);
+ dw1 = ds_weak (ds1);
else
dw1 = NO_DEP_WEAK;
ds2 = TODO_SPEC (tmp2) & SPECULATIVE;
if (ds2)
- dw2 = dep_weak (ds2);
+ dw2 = ds_weak (ds2);
else
dw2 = NO_DEP_WEAK;
/* Compare insns based on their relation to the last-scheduled-insn. */
if (INSN_P (last_scheduled_insn))
{
+ dep_t dep1;
+ dep_t dep2;
+
/* Classify the instructions into three classes:
1) Data dependent on last schedule insn.
2) Anti/Output dependent on last scheduled insn.
3) Independent of last scheduled insn, or has latency of one.
Choose the insn from the highest numbered class if different. */
- link = find_insn_list (tmp, INSN_DEPEND (last_scheduled_insn));
- if (link == 0 || insn_cost (last_scheduled_insn, link, tmp) == 1)
+ dep1 = sd_find_dep_between (last_scheduled_insn, tmp, true);
+
+ if (dep1 == NULL || dep_cost (dep1) == 1)
tmp_class = 3;
- else if (REG_NOTE_KIND (link) == 0) /* Data dependence. */
+ else if (/* Data dependence. */
+ DEP_TYPE (dep1) == REG_DEP_TRUE)
tmp_class = 1;
else
tmp_class = 2;
- link = find_insn_list (tmp2, INSN_DEPEND (last_scheduled_insn));
- if (link == 0 || insn_cost (last_scheduled_insn, link, tmp2) == 1)
+ dep2 = sd_find_dep_between (last_scheduled_insn, tmp2, true);
+
+ if (dep2 == NULL || dep_cost (dep2) == 1)
tmp2_class = 3;
- else if (REG_NOTE_KIND (link) == 0) /* Data dependence. */
+ else if (/* Data dependence. */
+ DEP_TYPE (dep2) == REG_DEP_TRUE)
tmp2_class = 1;
else
tmp2_class = 2;
/* Prefer the insn which has more later insns that depend on it.
This gives the scheduler more freedom when scheduling later
instructions at the expense of added register pressure. */
- depend_count1 = 0;
- for (link = INSN_DEPEND (tmp); link; link = XEXP (link, 1))
- depend_count1++;
- depend_count2 = 0;
- for (link = INSN_DEPEND (tmp2); link; link = XEXP (link, 1))
- depend_count2++;
+ val = (sd_lists_size (tmp2, SD_LIST_FORW)
+ - sd_lists_size (tmp, SD_LIST_FORW));
- val = depend_count2 - depend_count1;
- if (val)
+ if (val != 0)
return val;
/* If insns are equally good, sort by INSN_LUID (original insn order),
fprintf (sched_dump, "queued for %d cycles.\n", n_cycles);
}
-
+
QUEUE_INDEX (insn) = next_q;
}
/* Return a pointer to the bottom of the ready list, i.e. the insn
with the lowest priority. */
-HAIFA_INLINE static rtx *
+rtx *
ready_lastpos (struct ready_list *ready)
{
gcc_assert (ready->n_ready >= 1);
insn with the highest priority is 0, and the lowest priority has
N_READY - 1. */
-HAIFA_INLINE static rtx
+rtx
ready_element (struct ready_list *ready, int index)
{
gcc_assert (ready->n_ready && index < ready->n_ready);
/* Sort the ready list READY by ascending priority, using the SCHED_SORT
macro. */
-HAIFA_INLINE static void
+void
ready_sort (struct ready_list *ready)
{
rtx *first = ready_lastpos (ready);
/* PREV is an insn that is ready to execute. Adjust its priority if that
will help shorten or lengthen register lifetimes as appropriate. Also
- provide a hook for the target to tweek itself. */
+ provide a hook for the target to tweak itself. */
HAIFA_INLINE static void
adjust_priority (rtx prev)
targetm.sched.adjust_priority (prev, INSN_PRIORITY (prev));
}
-/* Advance time on one cycle. */
-HAIFA_INLINE static void
-advance_one_cycle (void)
+/* Advance DFA state STATE on one cycle. */
+void
+advance_state (state_t state)
{
+ if (targetm.sched.dfa_pre_advance_cycle)
+ targetm.sched.dfa_pre_advance_cycle ();
+
if (targetm.sched.dfa_pre_cycle_insn)
- state_transition (curr_state,
+ state_transition (state,
targetm.sched.dfa_pre_cycle_insn ());
- state_transition (curr_state, NULL);
+ state_transition (state, NULL);
if (targetm.sched.dfa_post_cycle_insn)
- state_transition (curr_state,
+ state_transition (state,
targetm.sched.dfa_post_cycle_insn ());
+
+ if (targetm.sched.dfa_post_advance_cycle)
+ targetm.sched.dfa_post_advance_cycle ();
+}
+
+/* Advance time on one cycle. */
+HAIFA_INLINE static void
+advance_one_cycle (void)
+{
+ advance_state (curr_state);
+ if (sched_verbose >= 6)
+ fprintf (sched_dump, ";;\tAdvanced a state.\n");
}
/* Clock at which the previous instruction was issued. */
static int
schedule_insn (rtx insn)
{
- rtx link;
+ sd_iterator_def sd_it;
+ dep_t dep;
int advance = 0;
if (sched_verbose >= 1)
/* Scheduling instruction should have all its dependencies resolved and
should have been removed from the ready list. */
- gcc_assert (INSN_DEP_COUNT (insn) == 0);
- gcc_assert (!LOG_LINKS (insn));
- gcc_assert (QUEUE_INDEX (insn) == QUEUE_NOWHERE);
+ gcc_assert (sd_lists_empty_p (insn, SD_LIST_BACK));
+ gcc_assert (QUEUE_INDEX (insn) == QUEUE_NOWHERE);
QUEUE_INDEX (insn) = QUEUE_SCHEDULED;
-
- /* Now we can free RESOLVED_DEPS list. */
- if (current_sched_info->flags & USE_DEPS_LIST)
- free_DEPS_LIST_list (&RESOLVED_DEPS (insn));
- else
- free_INSN_LIST_list (&RESOLVED_DEPS (insn));
-
+
gcc_assert (INSN_TICK (insn) >= MIN_TICK);
if (INSN_TICK (insn) > clock_var)
/* INSN has been prematurely moved from the queue to the ready list.
INSN_TICK (insn) = clock_var;
/* Update dependent instructions. */
- for (link = INSN_DEPEND (insn); link; link = XEXP (link, 1))
+ for (sd_it = sd_iterator_start (insn, SD_LIST_FORW);
+ sd_iterator_cond (&sd_it, &dep);)
{
- rtx next = XEXP (link, 0);
+ rtx next = DEP_CON (dep);
- resolve_dep (next, insn);
+ /* Resolve the dependence between INSN and NEXT.
+ sd_resolve_dep () moves current dep to another list thus
+ advancing the iterator. */
+ sd_resolve_dep (sd_it);
- if (!RECOVERY_BLOCK (insn)
- || RECOVERY_BLOCK (insn) == EXIT_BLOCK_PTR)
+ if (!IS_SPECULATION_BRANCHY_CHECK_P (insn))
{
int effective_cost;
/* Check always has only one forward dependence (to the first insn in
the recovery block), therefore, this will be executed only once. */
{
- gcc_assert (XEXP (link, 1) == 0);
+ gcc_assert (sd_lists_empty_p (insn, SD_LIST_FORW));
fix_recovery_deps (RECOVERY_BLOCK (insn));
}
}
+ /* This is the place where scheduler doesn't *basically* need backward and
+ forward dependencies for INSN anymore. Nevertheless they are used in
+ heuristics in rank_for_schedule (), early_queue_to_ready () and in
+ some targets (e.g. rs6000). Thus the earliest place where we *can*
+ remove dependencies is after targetm.sched.md_finish () call in
+ schedule_block (). But, on the other side, the safest place to remove
+ dependencies is when we are finishing scheduling entire region. As we
+ don't generate [many] dependencies during scheduling itself, we won't
+ need memory until beginning of next region.
+ Bottom line: Dependencies are removed for all insns in the end of
+ scheduling the region. */
+
/* Annotate the instruction with issue information -- TImode
indicates that the instruction is expected not to be able
to issue on the same cycle as the previous insn. A machine
/* Functions for handling of notes. */
+/* Insert the INSN note at the end of the notes list. */
+static void
+add_to_note_list (rtx insn, rtx *note_list_end_p)
+{
+ PREV_INSN (insn) = *note_list_end_p;
+ if (*note_list_end_p)
+ NEXT_INSN (*note_list_end_p) = insn;
+ *note_list_end_p = insn;
+}
+
+/* Add note list that ends on FROM_END to the end of TO_ENDP. */
+void
+concat_note_lists (rtx from_end, rtx *to_endp)
+{
+ rtx from_start;
+
+ if (from_end == NULL)
+ /* It's easy when have nothing to concat. */
+ return;
+
+ if (*to_endp == NULL)
+ /* It's also easy when destination is empty. */
+ {
+ *to_endp = from_end;
+ return;
+ }
+
+ from_start = from_end;
+ /* A note list should be traversed via PREV_INSN. */
+ while (PREV_INSN (from_start) != NULL)
+ from_start = PREV_INSN (from_start);
+
+ add_to_note_list (from_start, to_endp);
+ *to_endp = from_end;
+}
+
/* Delete notes beginning with INSN and put them in the chain
of notes ended by NOTE_LIST.
Returns the insn following the notes. */
-
static rtx
unlink_other_notes (rtx insn, rtx tail)
{
while (insn != tail && NOTE_NOT_BB_P (insn))
{
rtx next = NEXT_INSN (insn);
+ basic_block bb = BLOCK_FOR_INSN (insn);
+
/* Delete the note from its current position. */
if (prev)
NEXT_INSN (prev) = next;
if (next)
PREV_INSN (next) = prev;
+ if (bb)
+ {
+ /* Basic block can begin with either LABEL or
+ NOTE_INSN_BASIC_BLOCK. */
+ gcc_assert (BB_HEAD (bb) != insn);
+
+ /* Check if we are removing last insn in the BB. */
+ if (BB_END (bb) == insn)
+ BB_END (bb) = prev;
+ }
+
/* See sched_analyze to see how these are handled. */
- if (NOTE_LINE_NUMBER (insn) != NOTE_INSN_EH_REGION_BEG
- && NOTE_LINE_NUMBER (insn) != NOTE_INSN_EH_REGION_END)
- {
- /* Insert the note at the end of the notes list. */
- PREV_INSN (insn) = note_list;
- if (note_list)
- NEXT_INSN (note_list) = insn;
- note_list = insn;
- }
+ if (NOTE_KIND (insn) != NOTE_INSN_EH_REGION_BEG
+ && NOTE_KIND (insn) != NOTE_INSN_EH_REGION_END)
+ add_to_note_list (insn, ¬e_list);
insn = next;
}
- return insn;
-}
-
-/* Delete line notes beginning with INSN. Record line-number notes so
- they can be reused. Returns the insn following the notes. */
-static rtx
-unlink_line_notes (rtx insn, rtx tail)
-{
- rtx prev = PREV_INSN (insn);
-
- while (insn != tail && NOTE_P (insn))
+ if (insn == tail)
{
- rtx next = NEXT_INSN (insn);
-
- if (write_symbols != NO_DEBUG && NOTE_LINE_NUMBER (insn) > 0)
- {
- /* Delete the note from its current position. */
- if (prev)
- NEXT_INSN (prev) = next;
- if (next)
- PREV_INSN (next) = prev;
-
- /* Record line-number notes so they can be reused. */
- LINE_NOTE (insn) = insn;
- }
- else
- prev = insn;
-
- insn = next;
+ gcc_assert (sel_sched_p ());
+ return prev;
}
+
return insn;
}
/* Return the head and tail pointers of ebb starting at BEG and ending
at END. */
-
void
get_ebb_head_tail (basic_block beg, basic_block end, rtx *headp, rtx *tailp)
{
/* Return nonzero if there are no real insns in the range [ HEAD, TAIL ]. */
int
-no_real_insns_p (rtx head, rtx tail)
+no_real_insns_p (const_rtx head, const_rtx tail)
{
while (head != NEXT_INSN (tail))
{
return 1;
}
-/* Delete line notes from one block. Save them so they can be later restored
- (in restore_line_notes). HEAD and TAIL are the boundaries of the
- block in which notes should be processed. */
-
-void
-rm_line_notes (rtx head, rtx tail)
+/* Delete notes between HEAD and TAIL and put them in the chain
+ of notes ended by NOTE_LIST. */
+static void
+rm_other_notes (rtx head, rtx tail)
{
rtx next_tail;
rtx insn;
+ note_list = 0;
+ if (head == tail && (! INSN_P (head)))
+ return;
+
next_tail = NEXT_INSN (tail);
for (insn = head; insn != next_tail; insn = NEXT_INSN (insn))
{
if (NOTE_NOT_BB_P (insn))
{
prev = insn;
- insn = unlink_line_notes (insn, next_tail);
+ insn = unlink_other_notes (insn, next_tail);
- gcc_assert (prev != tail && prev != head && insn != next_tail);
+ gcc_assert ((sel_sched_p ()
+ || prev != tail) && prev != head && insn != next_tail);
}
}
}
-/* Save line number notes for each insn in block B. HEAD and TAIL are
- the boundaries of the block in which notes should be processed. */
-
+/* Same as above, but also process REG_SAVE_NOTEs of HEAD. */
void
-save_line_notes (int b, rtx head, rtx tail)
+remove_notes (rtx head, rtx tail)
{
- rtx next_tail;
+ /* rm_other_notes only removes notes which are _inside_ the
+ block---that is, it won't remove notes before the first real insn
+ or after the last real insn of the block. So if the first insn
+ has a REG_SAVE_NOTE which would otherwise be emitted before the
+ insn, it is redundant with the note before the start of the
+ block, and so we have to take it out. */
+ if (INSN_P (head))
+ {
+ rtx note;
- /* We must use the true line number for the first insn in the block
- that was computed and saved at the start of this pass. We can't
- use the current line number, because scheduling of the previous
- block may have changed the current line number. */
+ for (note = REG_NOTES (head); note; note = XEXP (note, 1))
+ if (REG_NOTE_KIND (note) == REG_SAVE_NOTE)
+ remove_note (head, note);
+ }
- rtx line = line_note_head[b];
- rtx insn;
+ /* Remove remaining note insns from the block, save them in
+ note_list. These notes are restored at the end of
+ schedule_block (). */
+ rm_other_notes (head, tail);
+}
- next_tail = NEXT_INSN (tail);
+/* Restore-other-notes: NOTE_LIST is the end of a chain of notes
+ previously found among the insns. Insert them just before HEAD. */
+rtx
+restore_other_notes (rtx head, basic_block head_bb)
+{
+ if (note_list != 0)
+ {
+ rtx note_head = note_list;
- for (insn = head; insn != next_tail; insn = NEXT_INSN (insn))
- if (NOTE_P (insn) && NOTE_LINE_NUMBER (insn) > 0)
- line = insn;
- else
- LINE_NOTE (insn) = line;
-}
+ if (head)
+ head_bb = BLOCK_FOR_INSN (head);
+ else
+ head = NEXT_INSN (bb_note (head_bb));
-/* After a block was scheduled, insert line notes into the insns list.
- HEAD and TAIL are the boundaries of the block in which notes should
- be processed. */
+ while (PREV_INSN (note_head))
+ {
+ set_block_for_insn (note_head, head_bb);
+ note_head = PREV_INSN (note_head);
+ }
+ /* In the above cycle we've missed this note. */
+ set_block_for_insn (note_head, head_bb);
-void
-restore_line_notes (rtx head, rtx tail)
-{
- rtx line, note, prev, new;
- int added_notes = 0;
- rtx next_tail, insn;
+ PREV_INSN (note_head) = PREV_INSN (head);
+ NEXT_INSN (PREV_INSN (head)) = note_head;
+ PREV_INSN (head) = note_list;
+ NEXT_INSN (note_list) = head;
- head = head;
- next_tail = NEXT_INSN (tail);
+ if (BLOCK_FOR_INSN (head) != head_bb)
+ BB_END (head_bb) = note_list;
- /* Determine the current line-number. We want to know the current
- line number of the first insn of the block here, in case it is
- different from the true line number that was saved earlier. If
- different, then we need a line number note before the first insn
- of this block. If it happens to be the same, then we don't want to
- emit another line number note here. */
- for (line = head; line; line = PREV_INSN (line))
- if (NOTE_P (line) && NOTE_LINE_NUMBER (line) > 0)
- break;
+ head = note_head;
+ }
- /* Walk the insns keeping track of the current line-number and inserting
- the line-number notes as needed. */
- for (insn = head; insn != next_tail; insn = NEXT_INSN (insn))
- if (NOTE_P (insn) && NOTE_LINE_NUMBER (insn) > 0)
- line = insn;
- /* This used to emit line number notes before every non-deleted note.
- However, this confuses a debugger, because line notes not separated
- by real instructions all end up at the same address. I can find no
- use for line number notes before other notes, so none are emitted. */
- else if (!NOTE_P (insn)
- && INSN_UID (insn) < old_max_uid
- && (note = LINE_NOTE (insn)) != 0
- && note != line
- && (line == 0
-#ifdef USE_MAPPED_LOCATION
- || NOTE_SOURCE_LOCATION (note) != NOTE_SOURCE_LOCATION (line)
-#else
- || NOTE_LINE_NUMBER (note) != NOTE_LINE_NUMBER (line)
- || NOTE_SOURCE_FILE (note) != NOTE_SOURCE_FILE (line)
-#endif
- ))
- {
- line = note;
- prev = PREV_INSN (insn);
- if (LINE_NOTE (note))
- {
- /* Re-use the original line-number note. */
- LINE_NOTE (note) = 0;
- PREV_INSN (note) = prev;
- NEXT_INSN (prev) = note;
- PREV_INSN (insn) = note;
- NEXT_INSN (note) = insn;
- set_block_for_insn (note, BLOCK_FOR_INSN (insn));
- }
- else
- {
- added_notes++;
- new = emit_note_after (NOTE_LINE_NUMBER (note), prev);
-#ifndef USE_MAPPED_LOCATION
- NOTE_SOURCE_FILE (new) = NOTE_SOURCE_FILE (note);
-#endif
- }
- }
- if (sched_verbose && added_notes)
- fprintf (sched_dump, ";; added %d line-number notes\n", added_notes);
+ return head;
}
-/* After scheduling the function, delete redundant line notes from the
- insns list. */
+/* Functions for computation of registers live/usage info. */
-void
-rm_redundant_line_notes (void)
-{
- rtx line = 0;
- rtx insn = get_insns ();
- int active_insn = 0;
- int notes = 0;
-
- /* Walk the insns deleting redundant line-number notes. Many of these
- are already present. The remainder tend to occur at basic
- block boundaries. */
- for (insn = get_last_insn (); insn; insn = PREV_INSN (insn))
- if (NOTE_P (insn) && NOTE_LINE_NUMBER (insn) > 0)
- {
- /* If there are no active insns following, INSN is redundant. */
- if (active_insn == 0)
- {
- notes++;
- SET_INSN_DELETED (insn);
- }
- /* If the line number is unchanged, LINE is redundant. */
- else if (line
-#ifdef USE_MAPPED_LOCATION
- && NOTE_SOURCE_LOCATION (line) == NOTE_SOURCE_LOCATION (insn)
-#else
- && NOTE_LINE_NUMBER (line) == NOTE_LINE_NUMBER (insn)
- && NOTE_SOURCE_FILE (line) == NOTE_SOURCE_FILE (insn)
-#endif
-)
- {
- notes++;
- SET_INSN_DELETED (line);
- line = insn;
- }
- else
- line = insn;
- active_insn = 0;
- }
- else if (!((NOTE_P (insn)
- && NOTE_LINE_NUMBER (insn) == NOTE_INSN_DELETED)
- || (NONJUMP_INSN_P (insn)
- && (GET_CODE (PATTERN (insn)) == USE
- || GET_CODE (PATTERN (insn)) == CLOBBER))))
- active_insn++;
-
- if (sched_verbose && notes)
- fprintf (sched_dump, ";; deleted %d line-number notes\n", notes);
-}
-
-/* Delete notes between HEAD and TAIL and put them in the chain
- of notes ended by NOTE_LIST. */
-
-void
-rm_other_notes (rtx head, rtx tail)
-{
- rtx next_tail;
- rtx insn;
-
- note_list = 0;
- if (head == tail && (! INSN_P (head)))
- return;
-
- next_tail = NEXT_INSN (tail);
- for (insn = head; insn != next_tail; insn = NEXT_INSN (insn))
- {
- rtx prev;
-
- /* Farm out notes, and maybe save them in NOTE_LIST.
- This is needed to keep the debugger from
- getting completely deranged. */
- if (NOTE_NOT_BB_P (insn))
- {
- prev = insn;
-
- insn = unlink_other_notes (insn, next_tail);
-
- gcc_assert (prev != tail && prev != head && insn != next_tail);
- }
- }
-}
-
-/* Functions for computation of registers live/usage info. */
-
-/* This function looks for a new register being defined.
- If the destination register is already used by the source,
- a new register is not needed. */
-
-static int
-find_set_reg_weight (rtx x)
+/* This function looks for a new register being defined.
+ If the destination register is already used by the source,
+ a new register is not needed. */
+static int
+find_set_reg_weight (const_rtx x)
{
if (GET_CODE (x) == CLOBBER
&& register_operand (SET_DEST (x), VOIDmode))
return 0;
}
-/* Calculate INSN_REG_WEIGHT for all insns of a block. */
-
-static void
-find_insn_reg_weight (basic_block bb)
-{
- rtx insn, next_tail, head, tail;
-
- get_ebb_head_tail (bb, bb, &head, &tail);
- next_tail = NEXT_INSN (tail);
-
- for (insn = head; insn != next_tail; insn = NEXT_INSN (insn))
- find_insn_reg_weight1 (insn);
-}
-
-/* Calculate INSN_REG_WEIGHT for single instruction.
- Separated from find_insn_reg_weight because of need
- to initialize new instruction in generate_recovery_code. */
+/* Calculate INSN_REG_WEIGHT for INSN. */
static void
-find_insn_reg_weight1 (rtx insn)
+find_insn_reg_weight (const_rtx insn)
{
int reg_weight = 0;
rtx x;
{
rtx insn;
rtx link;
+ rtx skip_insn;
q_ptr = NEXT_Q (q_ptr);
+ if (dbg_cnt (sched_insn) == false)
+ /* If debug counter is activated do not requeue insn next after
+ last_scheduled_insn. */
+ skip_insn = next_nonnote_insn (last_scheduled_insn);
+ else
+ skip_insn = NULL_RTX;
+
/* Add all pending insns that can be scheduled without stalls to the
ready list. */
for (link = insn_queue[q_ptr]; link; link = XEXP (link, 1))
See the comment in schedule_block for the rationale. */
if (!reload_completed
&& ready->n_ready > MAX_SCHED_READY_INSNS
- && !SCHED_GROUP_P (insn))
+ && !SCHED_GROUP_P (insn)
+ && insn != skip_insn)
{
if (sched_verbose >= 2)
fprintf (sched_dump, "requeued because ready full\n");
{
for ( ; prev_insn; prev_insn = PREV_INSN (prev_insn))
{
- rtx dep_link = 0;
- int dep_cost;
+ int cost;
+
+ if (prev_insn == current_sched_info->prev_head)
+ {
+ prev_insn = NULL;
+ break;
+ }
if (!NOTE_P (prev_insn))
{
- dep_link = find_insn_list (insn, INSN_DEPEND (prev_insn));
- if (dep_link)
+ dep_t dep;
+
+ dep = sd_find_dep_between (prev_insn, insn, true);
+
+ if (dep != NULL)
{
- dep_cost = insn_cost (prev_insn, dep_link, insn) ;
- if (targetm.sched.is_costly_dependence (prev_insn, insn,
- dep_link, dep_cost,
+ cost = dep_cost (dep);
+
+ if (targetm.sched.is_costly_dependence (dep, cost,
flag_sched_stalled_insns_dep - n_cycles))
return false;
}
NOTEs. The REG_SAVE_NOTE note following first one is contains the
saved value for NOTE_BLOCK_NUMBER which is useful for
NOTE_INSN_EH_REGION_{BEG,END} NOTEs. */
-
-static void
+void
reemit_notes (rtx insn)
{
rtx note, last = insn;
/* Move INSN. Reemit notes if needed. Update CFG, if needed. */
static void
-move_insn (rtx insn)
+move_insn (rtx insn, rtx last, rtx nt)
{
- rtx last = last_scheduled_insn;
-
if (PREV_INSN (insn) != last)
{
basic_block bb;
jump_p = control_flow_insn_p (insn);
gcc_assert (!jump_p
- || ((current_sched_info->flags & SCHED_RGN)
- && RECOVERY_BLOCK (insn)
- && RECOVERY_BLOCK (insn) != EXIT_BLOCK_PTR)
- || (current_sched_info->flags & SCHED_EBB));
+ || ((common_sched_info->sched_pass_id == SCHED_RGN_PASS)
+ && IS_SPECULATION_BRANCHY_CHECK_P (insn))
+ || (common_sched_info->sched_pass_id
+ == SCHED_EBB_PASS));
gcc_assert (BLOCK_FOR_INSN (PREV_INSN (insn)) == bb);
if (jump_p)
/* We move the block note along with jump. */
{
- /* NT is needed for assertion below. */
- rtx nt = current_sched_info->next_tail;
+ gcc_assert (nt);
note = NEXT_INSN (insn);
while (NOTE_NOT_BB_P (note) && note != nt)
gcc_assert (BB_END (bb) == last);
}
- set_block_for_insn (insn, bb);
+ df_insn_change_bb (insn, bb);
/* Update BB_END, if needed. */
if (BB_END (bb) == last)
BB_END (bb) = insn;
}
-
- reemit_notes (insn);
SCHED_GROUP_P (insn) = 0;
}
/* The following variable value is number of essential insns issued on
the current cycle. An insn is essential one if it changes the
processors state. */
-static int cycle_issued_insns;
+int cycle_issued_insns;
+
+/* This holds the value of the target dfa_lookahead hook. */
+int dfa_lookahead;
/* The following variable value is maximal number of tries of issuing
insns for the first cycle multipass insn scheduling. We define
of all instructions in READY. The function stops immediately,
if it reached the such a solution, that all instruction can be issued.
INDEX will contain index of the best insn in READY. The following
- function is used only for first cycle multipass scheduling. */
-static int
-max_issue (struct ready_list *ready, int *index, int max_points)
+ function is used only for first cycle multipass scheduling.
+
+ PRIVILEGED_N >= 0
+
+ This function expects recognized insns only. All USEs,
+ CLOBBERs, etc must be filtered elsewhere. */
+int
+max_issue (struct ready_list *ready, int privileged_n, state_t state,
+ int *index)
{
- int n, i, all, n_ready, best, delay, tries_num, points = -1;
+ int n, i, all, n_ready, best, delay, tries_num, points = -1, max_points;
+ int more_issue;
struct choice_entry *top;
rtx insn;
+ n_ready = ready->n_ready;
+ gcc_assert (dfa_lookahead >= 1 && privileged_n >= 0
+ && privileged_n <= n_ready);
+
+ /* Init MAX_LOOKAHEAD_TRIES. */
+ if (cached_first_cycle_multipass_dfa_lookahead != dfa_lookahead)
+ {
+ cached_first_cycle_multipass_dfa_lookahead = dfa_lookahead;
+ max_lookahead_tries = 100;
+ for (i = 0; i < issue_rate; i++)
+ max_lookahead_tries *= dfa_lookahead;
+ }
+
+ /* Init max_points. */
+ max_points = 0;
+ more_issue = issue_rate - cycle_issued_insns;
+
+ /* ??? We used to assert here that we never issue more insns than issue_rate.
+ However, some targets (e.g. MIPS/SB1) claim lower issue rate than can be
+ achieved to get better performance. Until these targets are fixed to use
+ scheduler hooks to manipulate insns priority instead, the assert should
+ be disabled.
+
+ gcc_assert (more_issue >= 0); */
+
+ for (i = 0; i < n_ready; i++)
+ if (!ready_try [i])
+ {
+ if (more_issue-- > 0)
+ max_points += ISSUE_POINTS (ready_element (ready, i));
+ else
+ break;
+ }
+
+ /* The number of the issued insns in the best solution. */
best = 0;
- memcpy (choice_stack->state, curr_state, dfa_state_size);
+
top = choice_stack;
- top->rest = cached_first_cycle_multipass_dfa_lookahead;
+
+ /* Set initial state of the search. */
+ memcpy (top->state, state, dfa_state_size);
+ top->rest = dfa_lookahead;
top->n = 0;
- n_ready = ready->n_ready;
+
+ /* Count the number of the insns to search among. */
for (all = i = 0; i < n_ready; i++)
if (!ready_try [i])
all++;
+
+ /* I is the index of the insn to try next. */
i = 0;
tries_num = 0;
for (;;)
{
- if (top->rest == 0 || i >= n_ready)
+ if (/* If we've reached a dead end or searched enough of what we have
+ been asked... */
+ top->rest == 0
+ /* Or have nothing else to try. */
+ || i >= n_ready)
{
+ /* ??? (... || i == n_ready). */
+ gcc_assert (i <= n_ready);
+
if (top == choice_stack)
break;
- if (best < top - choice_stack && ready_try [0])
+
+ if (best < top - choice_stack)
{
- best = top - choice_stack;
- *index = choice_stack [1].index;
- points = top->n;
- if (top->n == max_points || best == all)
- break;
+ if (privileged_n)
+ {
+ n = privileged_n;
+ /* Try to find issued privileged insn. */
+ while (n && !ready_try[--n]);
+ }
+
+ if (/* If all insns are equally good... */
+ privileged_n == 0
+ /* Or a privileged insn will be issued. */
+ || ready_try[n])
+ /* Then we have a solution. */
+ {
+ best = top - choice_stack;
+ /* This is the index of the insn issued first in this
+ solution. */
+ *index = choice_stack [1].index;
+ points = top->n;
+ if (top->n == max_points || best == all)
+ break;
+ }
}
+
+ /* Set ready-list index to point to the last insn
+ ('i++' below will advance it to the next insn). */
i = top->index;
+
+ /* Backtrack. */
ready_try [i] = 0;
top--;
- memcpy (curr_state, top->state, dfa_state_size);
+ memcpy (state, top->state, dfa_state_size);
}
else if (!ready_try [i])
{
if (tries_num > max_lookahead_tries)
break;
insn = ready_element (ready, i);
- delay = state_transition (curr_state, insn);
+ delay = state_transition (state, insn);
if (delay < 0)
{
- if (state_dead_lock_p (curr_state))
+ if (state_dead_lock_p (state))
top->rest = 0;
else
top->rest--;
+
n = top->n;
- if (memcmp (top->state, curr_state, dfa_state_size) != 0)
+ if (memcmp (top->state, state, dfa_state_size) != 0)
n += ISSUE_POINTS (insn);
+
+ /* Advance to the next choice_entry. */
top++;
- top->rest = cached_first_cycle_multipass_dfa_lookahead;
+ /* Initialize it. */
+ top->rest = dfa_lookahead;
top->index = i;
top->n = n;
- memcpy (top->state, curr_state, dfa_state_size);
+ memcpy (top->state, state, dfa_state_size);
+
ready_try [i] = 1;
i = -1;
}
}
+
+ /* Increase ready-list index. */
i++;
}
- while (top != choice_stack)
- {
- ready_try [top->index] = 0;
- top--;
- }
- memcpy (curr_state, choice_stack->state, dfa_state_size);
- if (sched_verbose >= 4)
- fprintf (sched_dump, ";;\t\tChoosed insn : %s; points: %d/%d\n",
- (*current_sched_info->print_insn) (ready_element (ready, *index),
- 0),
- points, max_points);
-
+ /* Restore the original state of the DFA. */
+ memcpy (state, choice_stack->state, dfa_state_size);
+
return best;
}
/* The following function chooses insn from READY and modifies
- *N_READY and READY. The following function is used only for first
- cycle multipass scheduling. */
-
-static rtx
-choose_ready (struct ready_list *ready)
+ READY. The following function is used only for first
+ cycle multipass scheduling.
+ Return:
+ -1 if cycle should be advanced,
+ 0 if INSN_PTR is set to point to the desirable insn,
+ 1 if choose_ready () should be restarted without advancing the cycle. */
+static int
+choose_ready (struct ready_list *ready, rtx *insn_ptr)
{
- int lookahead = 0;
+ int lookahead;
+
+ if (dbg_cnt (sched_insn) == false)
+ {
+ rtx insn;
+
+ insn = next_nonnote_insn (last_scheduled_insn);
+
+ if (QUEUE_INDEX (insn) == QUEUE_READY)
+ /* INSN is in the ready_list. */
+ {
+ ready_remove_insn (insn);
+ *insn_ptr = insn;
+ return 0;
+ }
+
+ /* INSN is in the queue. Advance cycle to move it to the ready list. */
+ return -1;
+ }
+
+ lookahead = 0;
if (targetm.sched.first_cycle_multipass_dfa_lookahead)
lookahead = targetm.sched.first_cycle_multipass_dfa_lookahead ();
if (lookahead <= 0 || SCHED_GROUP_P (ready_element (ready, 0)))
- return ready_remove_first (ready);
+ {
+ *insn_ptr = ready_remove_first (ready);
+ return 0;
+ }
else
{
/* Try to choose the better insn. */
int index = 0, i, n;
rtx insn;
- int more_issue, max_points, try_data = 1, try_control = 1;
+ int try_data = 1, try_control = 1;
+ ds_t ts;
- if (cached_first_cycle_multipass_dfa_lookahead != lookahead)
- {
- cached_first_cycle_multipass_dfa_lookahead = lookahead;
- max_lookahead_tries = 100;
- for (i = 0; i < issue_rate; i++)
- max_lookahead_tries *= lookahead;
- }
insn = ready_element (ready, 0);
if (INSN_CODE (insn) < 0)
- return ready_remove_first (ready);
+ {
+ *insn_ptr = ready_remove_first (ready);
+ return 0;
+ }
if (spec_info
&& spec_info->flags & (PREFER_NON_DATA_SPEC
}
}
- if ((!try_data && (TODO_SPEC (insn) & DATA_SPEC))
- || (!try_control && (TODO_SPEC (insn) & CONTROL_SPEC))
- || (targetm.sched.first_cycle_multipass_dfa_lookahead_guard_spec
- && !targetm.sched.first_cycle_multipass_dfa_lookahead_guard_spec
- (insn)))
+ ts = TODO_SPEC (insn);
+ if ((ts & SPECULATIVE)
+ && (((!try_data && (ts & DATA_SPEC))
+ || (!try_control && (ts & CONTROL_SPEC)))
+ || (targetm.sched.first_cycle_multipass_dfa_lookahead_guard_spec
+ && !targetm.sched
+ .first_cycle_multipass_dfa_lookahead_guard_spec (insn))))
/* Discard speculative instruction that stands first in the ready
list. */
{
change_queue_index (insn, 1);
- return 0;
+ return 1;
}
- max_points = ISSUE_POINTS (insn);
- more_issue = issue_rate - cycle_issued_insns - 1;
+ ready_try[0] = 0;
for (i = 1; i < ready->n_ready; i++)
{
insn = ready_element (ready, i);
+
ready_try [i]
- = (INSN_CODE (insn) < 0
- || (!try_data && (TODO_SPEC (insn) & DATA_SPEC))
- || (!try_control && (TODO_SPEC (insn) & CONTROL_SPEC))
- || (targetm.sched.first_cycle_multipass_dfa_lookahead_guard
- && !targetm.sched.first_cycle_multipass_dfa_lookahead_guard
- (insn)));
-
- if (!ready_try [i] && more_issue-- > 0)
- max_points += ISSUE_POINTS (insn);
+ = ((!try_data && (TODO_SPEC (insn) & DATA_SPEC))
+ || (!try_control && (TODO_SPEC (insn) & CONTROL_SPEC)));
}
- if (max_issue (ready, &index, max_points) == 0)
- return ready_remove_first (ready);
+ /* Let the target filter the search space. */
+ for (i = 1; i < ready->n_ready; i++)
+ if (!ready_try[i])
+ {
+ insn = ready_element (ready, i);
+
+#ifdef ENABLE_CHECKING
+ /* If this insn is recognizable we should have already
+ recognized it earlier.
+ ??? Not very clear where this is supposed to be done.
+ See dep_cost_1. */
+ gcc_assert (INSN_CODE (insn) >= 0
+ || recog_memoized (insn) < 0);
+#endif
+
+ ready_try [i]
+ = (/* INSN_CODE check can be omitted here as it is also done later
+ in max_issue (). */
+ INSN_CODE (insn) < 0
+ || (targetm.sched.first_cycle_multipass_dfa_lookahead_guard
+ && !targetm.sched.first_cycle_multipass_dfa_lookahead_guard
+ (insn)));
+ }
+
+ if (max_issue (ready, 1, curr_state, &index) == 0)
+ {
+ *insn_ptr = ready_remove_first (ready);
+ if (sched_verbose >= 4)
+ fprintf (sched_dump, ";;\t\tChosen insn (but can't issue) : %s \n",
+ (*current_sched_info->print_insn) (*insn_ptr, 0));
+ return 0;
+ }
else
- return ready_remove (ready, index);
+ {
+ if (sched_verbose >= 4)
+ fprintf (sched_dump, ";;\t\tChosen insn : %s\n",
+ (*current_sched_info->print_insn)
+ (ready_element (ready, index), 0));
+
+ *insn_ptr = ready_remove (ready, index);
+ return 0;
+ }
}
}
region. */
void
-schedule_block (basic_block *target_bb, int rgn_n_insns1)
+schedule_block (basic_block *target_bb)
{
- struct ready_list ready;
int i, first_cycle_insn_p;
int can_issue_more;
state_t temp_state = NULL; /* It is used for multipass scheduling. */
gcc_assert (head != tail || INSN_P (head));
- added_recovery_block_p = false;
+ haifa_recovery_bb_recently_added_p = false;
/* Debug info. */
if (sched_verbose)
state_reset (curr_state);
- /* Allocate the ready list. */
- readyp = &ready;
- ready.vec = NULL;
- ready_try = NULL;
- choice_stack = NULL;
-
- rgn_n_insns = -1;
- extend_ready (rgn_n_insns1 + 1);
-
+ /* Clear the ready list. */
ready.first = ready.veclen - 1;
ready.n_ready = 0;
q_ptr = 0;
q_size = 0;
- insn_queue = alloca ((max_insn_queue_index + 1) * sizeof (rtx));
+ insn_queue = XALLOCAVEC (rtx, max_insn_queue_index + 1);
memset (insn_queue, 0, (max_insn_queue_index + 1) * sizeof (rtx));
/* Start just before the beginning of time. */
";;\t\t before reload => truncated to %d insns\n", i);
}
- /* Delay all insns past it for 1 cycle. */
- while (i < ready.n_ready)
- queue_insn (ready_remove (&ready, i), 1);
+ /* Delay all insns past it for 1 cycle. If debug counter is
+ activated make an exception for the insn right after
+ last_scheduled_insn. */
+ {
+ rtx skip_insn;
+
+ if (dbg_cnt (sched_insn) == false)
+ skip_insn = next_nonnote_insn (last_scheduled_insn);
+ else
+ skip_insn = NULL_RTX;
+
+ while (i < ready.n_ready)
+ {
+ rtx insn;
+
+ insn = ready_remove (&ready, i);
+
+ if (insn != skip_insn)
+ queue_insn (insn, 1);
+ }
+ }
}
/* Now we can restore basic block notes and maintain precise cfg. */
there's nothing better to do (ready list is empty) but
there are still vacant dispatch slots in the current cycle. */
if (sched_verbose >= 6)
- fprintf(sched_dump,";;\t\tSecond chance\n");
+ fprintf (sched_dump,";;\t\tSecond chance\n");
memcpy (temp_state, curr_state, dfa_state_size);
if (early_queue_to_ready (temp_state, &ready))
ready_sort (&ready);
/* Select and remove the insn from the ready list. */
if (sort_p)
{
- insn = choose_ready (&ready);
- if (!insn)
+ int res;
+
+ insn = NULL_RTX;
+ res = choose_ready (&ready, &insn);
+
+ if (res < 0)
+ /* Finish cycle. */
+ break;
+ if (res > 0)
+ /* Restart choose_ready (). */
continue;
+
+ gcc_assert (insn != NULL_RTX);
}
else
insn = ready_remove_first (&ready);
asm_p = (GET_CODE (PATTERN (insn)) == ASM_INPUT
|| asm_noperands (PATTERN (insn)) >= 0);
if (!first_cycle_insn_p && asm_p)
- /* This is asm insn which is tryed to be issued on the
+ /* This is asm insn which is tried to be issued on the
cycle not first. Issue it on the next cycle. */
cost = 1;
else
generate_recovery_code (insn);
if (control_flow_insn_p (last_scheduled_insn)
- /* This is used to to switch basic blocks by request
+ /* This is used to switch basic blocks by request
from scheduler front-end (actually, sched-ebb.c only).
This is used to process blocks with single fallthru
edge. If succeeding block has jump, it [jump] will try
(*current_sched_info->begin_schedule_ready) (insn,
last_scheduled_insn);
- move_insn (insn);
+ move_insn (insn, last_scheduled_insn, current_sched_info->next_tail);
+ reemit_notes (insn);
last_scheduled_insn = insn;
if (memcmp (curr_state, temp_state, dfa_state_size) != 0)
}
}
+ if (sched_verbose)
+ fprintf (sched_dump, ";; total time = %d\n", clock_var);
+
if (!current_sched_info->queue_must_finish_empty
- || added_recovery_block_p)
+ || haifa_recovery_bb_recently_added_p)
{
/* INSN_TICK (minimum clock tick at which the insn becomes
ready) may be not correct for the insn in the subsequent
fix_inter_tick (NEXT_INSN (prev_head), last_scheduled_insn);
}
-#ifdef ENABLE_CHECKING
- /* After the reload the ia64 backend doesn't maintain BB_END, so
- if we want to check anything, better do it now.
- And it already clobbered previously scheduled code. */
- if (reload_completed)
- check_cfg (BB_HEAD (BLOCK_FOR_INSN (prev_head)), 0);
-#endif
-
if (targetm.sched.md_finish)
- targetm.sched.md_finish (sched_dump, sched_verbose);
+ {
+ targetm.sched.md_finish (sched_dump, sched_verbose);
+ /* Target might have added some instructions to the scheduled block
+ in its md_finish () hook. These new insns don't have any data
+ initialized and to identify them we extend h_i_d so that they'll
+ get zero luids. */
+ sched_init_luids (NULL, NULL, NULL, NULL);
+ }
+
+ if (sched_verbose)
+ fprintf (sched_dump, ";; new head = %d\n;; new tail = %d\n\n",
+ INSN_UID (head), INSN_UID (tail));
/* Update head/tail boundaries. */
head = NEXT_INSN (prev_head);
tail = last_scheduled_insn;
- /* Restore-other-notes: NOTE_LIST is the end of a chain of notes
- previously found among the insns. Insert them at the beginning
- of the insns. */
- if (note_list != 0)
- {
- basic_block head_bb = BLOCK_FOR_INSN (head);
- rtx note_head = note_list;
-
- while (PREV_INSN (note_head))
- {
- set_block_for_insn (note_head, head_bb);
- note_head = PREV_INSN (note_head);
- }
- /* In the above cycle we've missed this note: */
- set_block_for_insn (note_head, head_bb);
-
- PREV_INSN (note_head) = PREV_INSN (head);
- NEXT_INSN (PREV_INSN (head)) = note_head;
- PREV_INSN (head) = note_list;
- NEXT_INSN (note_list) = head;
- head = note_head;
- }
-
- /* Debugging. */
- if (sched_verbose)
- {
- fprintf (sched_dump, ";; total time = %d\n;; new head = %d\n",
- clock_var, INSN_UID (head));
- fprintf (sched_dump, ";; new tail = %d\n\n",
- INSN_UID (tail));
- }
+ head = restore_other_notes (head, NULL);
current_sched_info->head = head;
current_sched_info->tail = tail;
-
- free (ready.vec);
-
- free (ready_try);
- for (i = 0; i <= rgn_n_insns; i++)
- free (choice_stack [i].state);
- free (choice_stack);
}
\f
/* Set_priorities: compute priority of each insn in the block. */
n_insn++;
(void) priority (insn);
- if (INSN_PRIORITY_KNOWN (insn))
- sched_max_insns_priority =
- MAX (sched_max_insns_priority, INSN_PRIORITY (insn));
+ gcc_assert (INSN_PRIORITY_KNOWN (insn));
+
+ sched_max_insns_priority = MAX (sched_max_insns_priority,
+ INSN_PRIORITY (insn));
}
current_sched_info->sched_max_insns_priority = sched_max_insns_priority;
return n_insn;
}
-/* Next LUID to assign to an instruction. */
-static int luid;
+/* Set dump and sched_verbose for the desired debugging output. If no
+ dump-file was specified, but -fsched-verbose=N (any N), print to stderr.
+ For -fsched-verbose=N, N>=10, print everything to stderr. */
+void
+setup_sched_dump (void)
+{
+ sched_verbose = sched_verbose_param;
+ if (sched_verbose_param == 0 && dump_file)
+ sched_verbose = 1;
+ sched_dump = ((sched_verbose_param >= 10 || !dump_file)
+ ? stderr : dump_file);
+}
-/* Initialize some global state for the scheduler. */
+/* Initialize some global state for the scheduler. This function works
+ with the common data shared between all the schedulers. It is called
+ from the scheduler specific initialization routine. */
void
sched_init (void)
{
- basic_block b;
- rtx insn;
- int i;
-
- /* Switch to working copy of sched_info. */
- memcpy (¤t_sched_info_var, current_sched_info,
- sizeof (current_sched_info_var));
- current_sched_info = ¤t_sched_info_var;
-
/* Disable speculative loads in their presence if cc0 defined. */
#ifdef HAVE_cc0
flag_schedule_speculative_load = 0;
#endif
- /* Set dump and sched_verbose for the desired debugging output. If no
- dump-file was specified, but -fsched-verbose=N (any N), print to stderr.
- For -fsched-verbose=N, N>=10, print everything to stderr. */
- sched_verbose = sched_verbose_param;
- if (sched_verbose_param == 0 && dump_file)
- sched_verbose = 1;
- sched_dump = ((sched_verbose_param >= 10 || !dump_file)
- ? stderr : dump_file);
-
/* Initialize SPEC_INFO. */
if (targetm.sched.set_sched_flags)
{
spec_info = &spec_info_var;
targetm.sched.set_sched_flags (spec_info);
- if (current_sched_info->flags & DO_SPECULATION)
- spec_info->weakness_cutoff =
- (PARAM_VALUE (PARAM_SCHED_SPEC_PROB_CUTOFF) * MAX_DEP_WEAK) / 100;
+
+ if (spec_info->mask != 0)
+ {
+ spec_info->data_weakness_cutoff =
+ (PARAM_VALUE (PARAM_SCHED_SPEC_PROB_CUTOFF) * MAX_DEP_WEAK) / 100;
+ spec_info->control_weakness_cutoff =
+ (PARAM_VALUE (PARAM_SCHED_SPEC_PROB_CUTOFF)
+ * REG_BR_PROB_BASE) / 100;
+ }
else
- /* So we won't read anything accidently. */
- spec_info = 0;
-#ifdef ENABLE_CHECKING
- check_sched_flags ();
-#endif
+ /* So we won't read anything accidentally. */
+ spec_info = NULL;
+
}
else
- /* So we won't read anything accidently. */
+ /* So we won't read anything accidentally. */
spec_info = 0;
/* Initialize issue_rate. */
cached_first_cycle_multipass_dfa_lookahead = 0;
}
- old_max_uid = 0;
- h_i_d = 0;
- extend_h_i_d ();
-
- for (i = 0; i < old_max_uid; i++)
- {
- h_i_d[i].cost = -1;
- h_i_d[i].todo_spec = HARD_DEP;
- h_i_d[i].queue_index = QUEUE_NOWHERE;
- h_i_d[i].tick = INVALID_TICK;
- h_i_d[i].inter_tick = INVALID_TICK;
- }
+ if (targetm.sched.first_cycle_multipass_dfa_lookahead)
+ dfa_lookahead = targetm.sched.first_cycle_multipass_dfa_lookahead ();
+ else
+ dfa_lookahead = 0;
if (targetm.sched.init_dfa_pre_cycle_insn)
targetm.sched.init_dfa_pre_cycle_insn ();
dfa_start ();
dfa_state_size = state_size ();
- curr_state = xmalloc (dfa_state_size);
-
- h_i_d[0].luid = 0;
- luid = 1;
- FOR_EACH_BB (b)
- for (insn = BB_HEAD (b); ; insn = NEXT_INSN (insn))
- {
- INSN_LUID (insn) = luid;
-
- /* Increment the next luid, unless this is a note. We don't
- really need separate IDs for notes and we don't want to
- schedule differently depending on whether or not there are
- line-number notes, i.e., depending on whether or not we're
- generating debugging information. */
- if (!NOTE_P (insn))
- ++luid;
-
- if (insn == BB_END (b))
- break;
- }
-
- init_dependency_caches (luid);
init_alias_analysis ();
- line_note_head = 0;
- old_last_basic_block = 0;
- glat_start = 0;
- glat_end = 0;
- extend_bb (0);
+ df_set_flags (DF_LR_RUN_DCE);
+ df_note_add_problem ();
- if (current_sched_info->flags & USE_GLAT)
- init_glat ();
+ /* More problems needed for interloop dep calculation in SMS. */
+ if (common_sched_info->sched_pass_id == SCHED_SMS_PASS)
+ {
+ df_rd_add_problem ();
+ df_chain_add_problem (DF_DU_CHAIN + DF_UD_CHAIN);
+ }
+
+ df_analyze ();
+
+ /* Do not run DCE after reload, as this can kill nops inserted
+ by bundling. */
+ if (reload_completed)
+ df_clear_flags (DF_LR_RUN_DCE);
- /* Compute INSN_REG_WEIGHT for all blocks. We must do this before
- removing death notes. */
- FOR_EACH_BB_REVERSE (b)
- find_insn_reg_weight (b);
+ regstat_compute_calls_crossed ();
if (targetm.sched.md_init_global)
- targetm.sched.md_init_global (sched_dump, sched_verbose, old_max_uid);
-
- nr_begin_data = nr_begin_control = nr_be_in_data = nr_be_in_control = 0;
- before_recovery = 0;
+ targetm.sched.md_init_global (sched_dump, sched_verbose,
+ get_max_uid () + 1);
-#ifdef ENABLE_CHECKING
- /* This is used preferably for finding bugs in check_cfg () itself. */
- check_cfg (0, 0);
-#endif
+ curr_state = xmalloc (dfa_state_size);
}
-/* Free global data used during insn scheduling. */
+static void haifa_init_only_bb (basic_block, basic_block);
+/* Initialize data structures specific to the Haifa scheduler. */
void
-sched_finish (void)
+haifa_sched_init (void)
{
- free (h_i_d);
- free (curr_state);
- dfa_finish ();
- free_dependency_caches ();
- end_alias_analysis ();
- free (line_note_head);
- free_glat ();
+ setup_sched_dump ();
+ sched_init ();
+
+ if (spec_info != NULL)
+ {
+ sched_deps_info->use_deps_list = 1;
+ sched_deps_info->generate_spec_deps = 1;
+ }
+
+ /* Initialize luids, dependency caches, target and h_i_d for the
+ whole function. */
+ {
+ bb_vec_t bbs = VEC_alloc (basic_block, heap, n_basic_blocks);
+ basic_block bb;
+
+ sched_init_bbs ();
+
+ FOR_EACH_BB (bb)
+ VEC_quick_push (basic_block, bbs, bb);
+ sched_init_luids (bbs, NULL, NULL, NULL);
+ sched_deps_init (true);
+ sched_extend_target ();
+ haifa_init_h_i_d (bbs, NULL, NULL, NULL);
+
+ VEC_free (basic_block, heap, bbs);
+ }
+
+ sched_init_only_bb = haifa_init_only_bb;
+ sched_split_block = sched_split_block_1;
+ sched_create_empty_bb = sched_create_empty_bb_1;
+ haifa_recovery_bb_ever_added_p = false;
+
+#ifdef ENABLE_CHECKING
+ /* This is used preferably for finding bugs in check_cfg () itself.
+ We must call sched_bbs_init () before check_cfg () because check_cfg ()
+ assumes that the last insn in the last bb has a non-null successor. */
+ check_cfg (0, 0);
+#endif
+
+ nr_begin_data = nr_begin_control = nr_be_in_data = nr_be_in_control = 0;
+ before_recovery = 0;
+ after_recovery = 0;
+}
+
+/* Finish work with the data specific to the Haifa scheduler. */
+void
+haifa_sched_finish (void)
+{
+ sched_create_empty_bb = NULL;
+ sched_split_block = NULL;
+ sched_init_only_bb = NULL;
- if (targetm.sched.md_finish_global)
- targetm.sched.md_finish_global (sched_dump, sched_verbose);
-
if (spec_info && spec_info->dump)
{
char c = reload_completed ? 'a' : 'b';
c, nr_be_in_control);
}
+ /* Finalize h_i_d, dependency caches, and luids for the whole
+ function. Target will be finalized in md_global_finish (). */
+ sched_deps_finish ();
+ sched_finish_luids ();
+ current_sched_info = NULL;
+ sched_finish ();
+}
+
+/* Free global data used during insn scheduling. This function works with
+ the common data shared between the schedulers. */
+
+void
+sched_finish (void)
+{
+ haifa_finish_h_i_d ();
+ free (curr_state);
+
+ if (targetm.sched.md_finish_global)
+ targetm.sched.md_finish_global (sched_dump, sched_verbose);
+
+ end_alias_analysis ();
+
+ regstat_free_calls_crossed ();
+
+ dfa_finish ();
+
#ifdef ENABLE_CHECKING
/* After reload ia64 backend clobbers CFG, so can't check anything. */
if (!reload_completed)
check_cfg (0, 0);
#endif
-
- current_sched_info = NULL;
}
/* Fix INSN_TICKs of the instructions in the current block as well as
{
/* Set of instructions with corrected INSN_TICK. */
bitmap_head processed;
+ /* ??? It is doubtful if we should assume that cycle advance happens on
+ basic block boundaries. Basically insns that are unconditionally ready
+ on the start of the block are more preferable then those which have
+ a one cycle dependency over insn from the previous block. */
int next_clock = clock_var + 1;
bitmap_initialize (&processed, 0);
if (INSN_P (head))
{
int tick;
- rtx link;
+ sd_iterator_def sd_it;
+ dep_t dep;
tick = INSN_TICK (head);
gcc_assert (tick >= MIN_TICK);
INSN_TICK (head) = tick;
}
- for (link = INSN_DEPEND (head); link; link = XEXP (link, 1))
+ FOR_EACH_DEP (head, SD_LIST_RES_FORW, sd_it, dep)
{
rtx next;
- next = XEXP (link, 0);
+ next = DEP_CON (dep);
tick = INSN_TICK (next);
if (tick != INVALID_TICK
INTER_TICK (next) = tick;
else
tick = INTER_TICK (next);
-
+
INSN_TICK (next) = tick;
}
}
}
bitmap_clear (&processed);
}
+
+static int haifa_speculate_insn (rtx, ds_t, rtx *);
/* Check if NEXT is ready to be added to the ready or queue list.
If "yes", add it to the proper list.
try_ready (rtx next)
{
ds_t old_ts, *ts;
- rtx link;
ts = &TODO_SPEC (next);
old_ts = *ts;
&& ((old_ts & HARD_DEP)
|| (old_ts & SPECULATIVE)));
- if (!(current_sched_info->flags & DO_SPECULATION))
+ if (sd_lists_empty_p (next, SD_LIST_BACK))
+ /* NEXT has all its dependencies resolved. */
{
- if (!LOG_LINKS (next))
- *ts &= ~HARD_DEP;
+ /* Remove HARD_DEP bit from NEXT's status. */
+ *ts &= ~HARD_DEP;
+
+ if (current_sched_info->flags & DO_SPECULATION)
+ /* Remove all speculative bits from NEXT's status. */
+ *ts &= ~SPECULATIVE;
}
else
{
- *ts &= ~SPECULATIVE & ~HARD_DEP;
-
- link = LOG_LINKS (next);
- if (link)
- {
- /* LOG_LINKS are maintained sorted.
- So if DEP_STATUS of the first dep is SPECULATIVE,
- than all other deps are speculative too. */
- if (DEP_STATUS (link) & SPECULATIVE)
- {
- /* Now we've got NEXT with speculative deps only.
- 1. Look at the deps to see what we have to do.
- 2. Check if we can do 'todo'. */
- *ts = DEP_STATUS (link) & SPECULATIVE;
- while ((link = XEXP (link, 1)))
- *ts = ds_merge (*ts, DEP_STATUS (link) & SPECULATIVE);
-
- if (dep_weak (*ts) < spec_info->weakness_cutoff)
- /* Too few points. */
- *ts = (*ts & ~SPECULATIVE) | HARD_DEP;
+ /* One of the NEXT's dependencies has been resolved.
+ Recalculate NEXT's status. */
+
+ *ts &= ~SPECULATIVE & ~HARD_DEP;
+
+ if (sd_lists_empty_p (next, SD_LIST_HARD_BACK))
+ /* Now we've got NEXT with speculative deps only.
+ 1. Look at the deps to see what we have to do.
+ 2. Check if we can do 'todo'. */
+ {
+ sd_iterator_def sd_it;
+ dep_t dep;
+ bool first_p = true;
+
+ FOR_EACH_DEP (next, SD_LIST_BACK, sd_it, dep)
+ {
+ ds_t ds = DEP_STATUS (dep) & SPECULATIVE;
+
+ if (first_p)
+ {
+ first_p = false;
+
+ *ts = ds;
+ }
+ else
+ *ts = ds_merge (*ts, ds);
}
- else
- *ts |= HARD_DEP;
- }
+
+ if (ds_weak (*ts) < spec_info->data_weakness_cutoff)
+ /* Too few points. */
+ *ts = (*ts & ~SPECULATIVE) | HARD_DEP;
+ }
+ else
+ *ts |= HARD_DEP;
}
-
+
if (*ts & HARD_DEP)
gcc_assert (*ts == old_ts
&& QUEUE_INDEX (next) == QUEUE_NOWHERE);
else if (current_sched_info->new_ready)
- *ts = current_sched_info->new_ready (next, *ts);
+ *ts = current_sched_info->new_ready (next, *ts);
- /* * if !(old_ts & SPECULATIVE) (e.g. HARD_DEP or 0), then insn might
+ /* * if !(old_ts & SPECULATIVE) (e.g. HARD_DEP or 0), then insn might
have its original pattern or changed (speculative) one. This is due
to changing ebb in region scheduling.
* But if (old_ts & SPECULATIVE), then we are pretty sure that insn
has speculative pattern.
-
+
We can't assert (!(*ts & HARD_DEP) || *ts == old_ts) here because
control-speculative NEXT could have been discarded by sched-rgn.c
(the same case as when discarded by can_schedule_ready_p ()). */
-
+
if ((*ts & SPECULATIVE)
- /* If (old_ts == *ts), then (old_ts & SPECULATIVE) and we don't
+ /* If (old_ts == *ts), then (old_ts & SPECULATIVE) and we don't
need to change anything. */
&& *ts != old_ts)
{
gcc_assert ((*ts & SPECULATIVE) && !(*ts & ~SPECULATIVE));
- res = speculate_insn (next, *ts, &new_pat);
+ res = haifa_speculate_insn (next, *ts, &new_pat);
switch (res)
{
save it. */
ORIG_PAT (next) = PATTERN (next);
- change_pattern (next, new_pat);
+ haifa_change_pattern (next, new_pat);
break;
default:
or we simply don't care (*ts & HARD_DEP). */
gcc_assert (!ORIG_PAT (next)
- || !RECOVERY_BLOCK (next)
- || RECOVERY_BLOCK (next) == EXIT_BLOCK_PTR);
+ || !IS_SPECULATION_BRANCHY_CHECK_P (next));
if (*ts & HARD_DEP)
{
change_queue_index (next, QUEUE_NOWHERE);
return -1;
}
- else if (!(*ts & BEGIN_SPEC) && ORIG_PAT (next) && !RECOVERY_BLOCK (next))
+ else if (!(*ts & BEGIN_SPEC) && ORIG_PAT (next) && !IS_SPECULATION_CHECK_P (next))
/* We should change pattern of every previously speculative
instruction - and we determine if NEXT was speculative by using
- ORIG_PAT field. Except one case - simple checks have ORIG_PAT
- pat too, hence we also check for the RECOVERY_BLOCK. */
+ ORIG_PAT field. Except one case - speculation checks have ORIG_PAT
+ pat too, so skip them. */
{
- change_pattern (next, ORIG_PAT (next));
+ haifa_change_pattern (next, ORIG_PAT (next));
ORIG_PAT (next) = 0;
}
static int
fix_tick_ready (rtx next)
{
- rtx link;
int tick, delay;
- link = RESOLVED_DEPS (next);
-
- if (link)
+ if (!sd_lists_empty_p (next, SD_LIST_RES_BACK))
{
int full_p;
+ sd_iterator_def sd_it;
+ dep_t dep;
tick = INSN_TICK (next);
/* if tick is not equal to INVALID_TICK, then update
INSN_TICK of NEXT with the most recent resolved dependence
cost. Otherwise, recalculate from scratch. */
- full_p = tick == INVALID_TICK;
- do
- {
- rtx pro;
+ full_p = (tick == INVALID_TICK);
+
+ FOR_EACH_DEP (next, SD_LIST_RES_BACK, sd_it, dep)
+ {
+ rtx pro = DEP_PRO (dep);
int tick1;
- pro = XEXP (link, 0);
gcc_assert (INSN_TICK (pro) >= MIN_TICK);
- tick1 = INSN_TICK (pro) + insn_cost (pro, link, next);
+ tick1 = INSN_TICK (pro) + dep_cost (dep);
if (tick1 > tick)
tick = tick1;
+
+ if (!full_p)
+ break;
}
- while ((link = XEXP (link, 1)) && full_p);
}
else
tick = -1;
}
}
-/* INSN is being scheduled. Resolve the dependence between INSN and NEXT. */
-static void
-resolve_dep (rtx next, rtx insn)
-{
- rtx dep;
-
- INSN_DEP_COUNT (next)--;
-
- dep = remove_list_elem (insn, &LOG_LINKS (next));
- XEXP (dep, 1) = RESOLVED_DEPS (next);
- RESOLVED_DEPS (next) = dep;
-
- gcc_assert ((INSN_DEP_COUNT (next) != 0 || !LOG_LINKS (next))
- && (LOG_LINKS (next) || INSN_DEP_COUNT (next) == 0));
-}
+static int sched_ready_n_insns = -1;
-/* Extend H_I_D data. */
-static void
-extend_h_i_d (void)
+/* Initialize per region data structures. */
+void
+sched_extend_ready_list (int new_sched_ready_n_insns)
{
- /* We use LUID 0 for the fake insn (UID 0) which holds dependencies for
- pseudos which do not cross calls. */
- int new_max_uid = get_max_uid() + 1;
-
- h_i_d = xrecalloc (h_i_d, new_max_uid, old_max_uid, sizeof (*h_i_d));
- old_max_uid = new_max_uid;
+ int i;
- if (targetm.sched.h_i_d_extended)
- targetm.sched.h_i_d_extended ();
-}
+ if (sched_ready_n_insns == -1)
+ /* At the first call we need to initialize one more choice_stack
+ entry. */
+ {
+ i = 0;
+ sched_ready_n_insns = 0;
+ }
+ else
+ i = sched_ready_n_insns + 1;
-/* Extend READY, READY_TRY and CHOICE_STACK arrays.
- N_NEW_INSNS is the number of additional elements to allocate. */
-static void
-extend_ready (int n_new_insns)
-{
- int i;
+ ready.veclen = new_sched_ready_n_insns + issue_rate;
+ ready.vec = XRESIZEVEC (rtx, ready.vec, ready.veclen);
- readyp->veclen = rgn_n_insns + n_new_insns + 1 + issue_rate;
- readyp->vec = XRESIZEVEC (rtx, readyp->vec, readyp->veclen);
-
- ready_try = xrecalloc (ready_try, rgn_n_insns + n_new_insns + 1,
- rgn_n_insns + 1, sizeof (char));
+ gcc_assert (new_sched_ready_n_insns >= sched_ready_n_insns);
- rgn_n_insns += n_new_insns;
+ ready_try = (char *) xrecalloc (ready_try, new_sched_ready_n_insns,
+ sched_ready_n_insns, sizeof (*ready_try));
+ /* We allocate +1 element to save initial state in the choice_stack[0]
+ entry. */
choice_stack = XRESIZEVEC (struct choice_entry, choice_stack,
- rgn_n_insns + 1);
+ new_sched_ready_n_insns + 1);
- for (i = rgn_n_insns; n_new_insns--; i--)
+ for (; i <= new_sched_ready_n_insns; i++)
choice_stack[i].state = xmalloc (dfa_state_size);
+
+ sched_ready_n_insns = new_sched_ready_n_insns;
}
-/* Extend global scheduler structures (those, that live across calls to
- schedule_block) to include information about just emitted INSN. */
-static void
-extend_global (rtx insn)
+/* Free per region data structures. */
+void
+sched_finish_ready_list (void)
{
- gcc_assert (INSN_P (insn));
- /* These structures have scheduler scope. */
- extend_h_i_d ();
- init_h_i_d (insn);
+ int i;
- extend_dependency_caches (1, 0);
-}
+ free (ready.vec);
+ ready.vec = NULL;
+ ready.veclen = 0;
-/* Extends global and local scheduler structures to include information
- about just emitted INSN. */
-static void
-extend_all (rtx insn)
-{
- extend_global (insn);
+ free (ready_try);
+ ready_try = NULL;
- /* These structures have block scope. */
- extend_ready (1);
-
- (*current_sched_info->add_remove_insn) (insn, 0);
+ for (i = 0; i <= sched_ready_n_insns; i++)
+ free (choice_stack [i].state);
+ free (choice_stack);
+ choice_stack = NULL;
+
+ sched_ready_n_insns = -1;
}
-/* Initialize h_i_d entry of the new INSN with default values.
- Values, that are not explicitly initialized here, hold zero. */
-static void
-init_h_i_d (rtx insn)
+static int
+haifa_luid_for_non_insn (rtx x)
{
- INSN_LUID (insn) = luid++;
- INSN_COST (insn) = -1;
- TODO_SPEC (insn) = HARD_DEP;
- QUEUE_INDEX (insn) = QUEUE_NOWHERE;
- INSN_TICK (insn) = INVALID_TICK;
- INTER_TICK (insn) = INVALID_TICK;
- find_insn_reg_weight1 (insn);
+ gcc_assert (NOTE_P (x) || LABEL_P (x));
+
+ return 0;
}
/* Generates recovery code for INSN. */
/* Helper function.
Tries to add speculative dependencies of type FS between instructions
- in LINK list and TWIN. */
+ in deps_list L and TWIN. */
static void
-process_insn_depend_be_in_spec (rtx link, rtx twin, ds_t fs)
+process_insn_forw_deps_be_in_spec (rtx insn, rtx twin, ds_t fs)
{
- for (; link; link = XEXP (link, 1))
+ sd_iterator_def sd_it;
+ dep_t dep;
+
+ FOR_EACH_DEP (insn, SD_LIST_FORW, sd_it, dep)
{
ds_t ds;
rtx consumer;
- consumer = XEXP (link, 0);
+ consumer = DEP_CON (dep);
- ds = DEP_STATUS (link);
+ ds = DEP_STATUS (dep);
if (/* If we want to create speculative dep. */
fs
it can be removed from the ready (or queue) list only
due to backend decision. Hence we can't let the
probability of the speculative dep to decrease. */
- dep_weak (ds) <= dep_weak (fs))
- /* Transform it to be in speculative. */
- ds = (ds & ~BEGIN_SPEC) | fs;
+ ds_weak (ds) <= ds_weak (fs))
+ {
+ ds_t new_ds;
+
+ new_ds = (ds & ~BEGIN_SPEC) | fs;
+
+ if (/* consumer can 'be in speculative'. */
+ sched_insn_is_legitimate_for_speculation_p (consumer,
+ new_ds))
+ /* Transform it to be in speculative. */
+ ds = new_ds;
+ }
}
else
/* Mark the dep as 'be in speculative'. */
ds |= fs;
}
- add_back_forw_dep (consumer, twin, REG_NOTE_KIND (link), ds);
+ {
+ dep_def _new_dep, *new_dep = &_new_dep;
+
+ init_dep_1 (new_dep, twin, consumer, DEP_TYPE (dep), ds);
+ sd_add_dep (new_dep, false);
+ }
}
}
TODO_SPEC (insn) &= ~BEGIN_SPEC;
}
+static void haifa_init_insn (rtx);
+
/* Generates recovery code for BE_IN speculative INSN. */
static void
add_to_speculative_block (rtx insn)
{
ds_t ts;
- rtx link, twins = NULL;
+ sd_iterator_def sd_it;
+ dep_t dep;
+ rtx twins = NULL;
+ rtx_vec_t priorities_roots;
ts = TODO_SPEC (insn);
gcc_assert (!(ts & ~BE_IN_SPEC));
DONE_SPEC (insn) |= ts;
/* First we convert all simple checks to branchy. */
- for (link = LOG_LINKS (insn); link;)
+ for (sd_it = sd_iterator_start (insn, SD_LIST_SPEC_BACK);
+ sd_iterator_cond (&sd_it, &dep);)
{
- rtx check;
+ rtx check = DEP_PRO (dep);
- check = XEXP (link, 0);
-
- if (RECOVERY_BLOCK (check))
+ if (IS_SPECULATION_SIMPLE_CHECK_P (check))
{
create_check_block_twin (check, true);
- link = LOG_LINKS (insn);
+
+ /* Restart search. */
+ sd_it = sd_iterator_start (insn, SD_LIST_SPEC_BACK);
}
else
- link = XEXP (link, 1);
+ /* Continue search. */
+ sd_iterator_next (&sd_it);
}
- clear_priorities (insn);
-
- do
+ priorities_roots = NULL;
+ clear_priorities (insn, &priorities_roots);
+
+ while (1)
{
- rtx link, check, twin;
+ rtx check, twin;
basic_block rec;
- link = LOG_LINKS (insn);
- gcc_assert (!(DEP_STATUS (link) & BEGIN_SPEC)
- && (DEP_STATUS (link) & BE_IN_SPEC)
- && (DEP_STATUS (link) & DEP_TYPES) == DEP_TRUE);
+ /* Get the first backward dependency of INSN. */
+ sd_it = sd_iterator_start (insn, SD_LIST_SPEC_BACK);
+ if (!sd_iterator_cond (&sd_it, &dep))
+ /* INSN has no backward dependencies left. */
+ break;
+
+ gcc_assert ((DEP_STATUS (dep) & BEGIN_SPEC) == 0
+ && (DEP_STATUS (dep) & BE_IN_SPEC) != 0
+ && (DEP_STATUS (dep) & DEP_TYPES) == DEP_TRUE);
+
+ check = DEP_PRO (dep);
- check = XEXP (link, 0);
- gcc_assert (!RECOVERY_BLOCK (check) && !ORIG_PAT (check)
+ gcc_assert (!IS_SPECULATION_CHECK_P (check) && !ORIG_PAT (check)
&& QUEUE_INDEX (check) == QUEUE_NOWHERE);
-
+
rec = BLOCK_FOR_INSN (check);
-
- twin = emit_insn_before (copy_rtx (PATTERN (insn)), BB_END (rec));
- extend_global (twin);
- RESOLVED_DEPS (twin) = copy_DEPS_LIST_list (RESOLVED_DEPS (insn));
+ twin = emit_insn_before (copy_insn (PATTERN (insn)), BB_END (rec));
+ haifa_init_insn (twin);
+
+ sd_copy_back_deps (twin, insn, true);
if (sched_verbose && spec_info->dump)
/* INSN_BB (insn) isn't determined for twin insns yet.
/* Add dependences between TWIN and all appropriate
instructions from REC. */
- do
- {
- add_back_forw_dep (twin, check, REG_DEP_TRUE, DEP_TRUE);
-
- do
- {
- link = XEXP (link, 1);
- if (link)
- {
- check = XEXP (link, 0);
- if (BLOCK_FOR_INSN (check) == rec)
- break;
- }
- else
- break;
+ FOR_EACH_DEP (insn, SD_LIST_SPEC_BACK, sd_it, dep)
+ {
+ rtx pro = DEP_PRO (dep);
+
+ gcc_assert (DEP_TYPE (dep) == REG_DEP_TRUE);
+
+ /* INSN might have dependencies from the instructions from
+ several recovery blocks. At this iteration we process those
+ producers that reside in REC. */
+ if (BLOCK_FOR_INSN (pro) == rec)
+ {
+ dep_def _new_dep, *new_dep = &_new_dep;
+
+ init_dep (new_dep, pro, twin, REG_DEP_TRUE);
+ sd_add_dep (new_dep, false);
}
- while (1);
}
- while (link);
- process_insn_depend_be_in_spec (INSN_DEPEND (insn), twin, ts);
+ process_insn_forw_deps_be_in_spec (insn, twin, ts);
- for (link = LOG_LINKS (insn); link;)
+ /* Remove all dependencies between INSN and insns in REC. */
+ for (sd_it = sd_iterator_start (insn, SD_LIST_SPEC_BACK);
+ sd_iterator_cond (&sd_it, &dep);)
{
- check = XEXP (link, 0);
+ rtx pro = DEP_PRO (dep);
- if (BLOCK_FOR_INSN (check) == rec)
- {
- delete_back_forw_dep (insn, check);
- link = LOG_LINKS (insn);
- }
+ if (BLOCK_FOR_INSN (pro) == rec)
+ sd_delete_dep (sd_it);
else
- link = XEXP (link, 1);
+ sd_iterator_next (&sd_it);
}
}
- while (LOG_LINKS (insn));
- /* We can't add the dependence between insn and twin earlier because
- that would make twin appear in the INSN_DEPEND (insn). */
+ /* We couldn't have added the dependencies between INSN and TWINS earlier
+ because that would make TWINS appear in the INSN_BACK_DEPS (INSN). */
while (twins)
{
rtx twin;
twin = XEXP (twins, 0);
- calc_priorities (twin);
- add_back_forw_dep (twin, insn, REG_DEP_OUTPUT, DEP_OUTPUT);
+
+ {
+ dep_def _new_dep, *new_dep = &_new_dep;
+
+ init_dep (new_dep, insn, twin, REG_DEP_OUTPUT);
+ sd_add_dep (new_dep, false);
+ }
twin = XEXP (twins, 1);
free_INSN_LIST_node (twins);
twins = twin;
}
+
+ calc_priorities (priorities_roots);
+ VEC_free (rtx, heap, priorities_roots);
}
/* Extends and fills with zeros (only the new part) array pointed to by P. */
return p;
}
-/* Return the probability of speculation success for the speculation
- status DS. */
-static dw_t
-dep_weak (ds_t ds)
-{
- ds_t res = 1, dt;
- int n = 0;
-
- dt = FIRST_SPEC_TYPE;
- do
- {
- if (ds & dt)
- {
- res *= (ds_t) get_dep_weak (ds, dt);
- n++;
- }
-
- if (dt == LAST_SPEC_TYPE)
- break;
- dt <<= SPEC_TYPE_SHIFT;
- }
- while (1);
-
- gcc_assert (n);
- while (--n)
- res /= MAX_DEP_WEAK;
-
- if (res < MIN_DEP_WEAK)
- res = MIN_DEP_WEAK;
-
- gcc_assert (res <= MAX_DEP_WEAK);
-
- return (dw_t) res;
-}
-
/* Helper function.
Find fallthru edge from PRED. */
-static edge
+edge
find_fallthru_edge (basic_block pred)
{
edge e;
return NULL;
}
+/* Extend per basic block data structures. */
+static void
+sched_extend_bb (void)
+{
+ rtx insn;
+
+ /* The following is done to keep current_sched_info->next_tail non null. */
+ insn = BB_END (EXIT_BLOCK_PTR->prev_bb);
+ if (NEXT_INSN (insn) == 0
+ || (!NOTE_P (insn)
+ && !LABEL_P (insn)
+ /* Don't emit a NOTE if it would end up before a BARRIER. */
+ && !BARRIER_P (NEXT_INSN (insn))))
+ {
+ rtx note = emit_note_after (NOTE_INSN_DELETED, insn);
+ /* Make insn appear outside BB. */
+ set_block_for_insn (note, NULL);
+ BB_END (EXIT_BLOCK_PTR->prev_bb) = insn;
+ }
+}
+
+/* Init per basic block data structures. */
+void
+sched_init_bbs (void)
+{
+ sched_extend_bb ();
+}
+
/* Initialize BEFORE_RECOVERY variable. */
static void
-init_before_recovery (void)
+init_before_recovery (basic_block *before_recovery_ptr)
{
basic_block last;
edge e;
basic_block single, empty;
rtx x, label;
- single = create_empty_bb (last);
- empty = create_empty_bb (single);
+ /* If the fallthrough edge to exit we've found is from the block we've
+ created before, don't do anything more. */
+ if (last == after_recovery)
+ return;
+
+ adding_bb_to_current_region_p = false;
+
+ single = sched_create_empty_bb (last);
+ empty = sched_create_empty_bb (single);
+
+ /* Add new blocks to the root loop. */
+ if (current_loops != NULL)
+ {
+ add_bb_to_loop (single, VEC_index (loop_p, current_loops->larray, 0));
+ add_bb_to_loop (empty, VEC_index (loop_p, current_loops->larray, 0));
+ }
- single->count = last->count;
+ single->count = last->count;
empty->count = last->count;
single->frequency = last->frequency;
empty->frequency = last->frequency;
x = emit_jump_insn_after (gen_jump (label), BB_END (single));
JUMP_LABEL (x) = label;
LABEL_NUSES (label)++;
- extend_global (x);
+ haifa_init_insn (x);
emit_barrier_after (x);
- add_block (empty, 0);
- add_block (single, 0);
+ sched_init_only_bb (empty, NULL);
+ sched_init_only_bb (single, NULL);
+ sched_extend_bb ();
+ adding_bb_to_current_region_p = true;
before_recovery = single;
+ after_recovery = empty;
+
+ if (before_recovery_ptr)
+ *before_recovery_ptr = before_recovery;
if (sched_verbose >= 2 && spec_info->dump)
fprintf (spec_info->dump,
}
/* Returns new recovery block. */
-static basic_block
-create_recovery_block (void)
+basic_block
+sched_create_recovery_block (basic_block *before_recovery_ptr)
{
rtx label;
+ rtx barrier;
basic_block rec;
- added_recovery_block_p = true;
+ haifa_recovery_bb_recently_added_p = true;
+ haifa_recovery_bb_ever_added_p = true;
- if (!before_recovery)
- init_before_recovery ();
-
- label = gen_label_rtx ();
- gcc_assert (BARRIER_P (NEXT_INSN (BB_END (before_recovery))));
- label = emit_label_after (label, NEXT_INSN (BB_END (before_recovery)));
+ init_before_recovery (before_recovery_ptr);
- rec = create_basic_block (label, label, before_recovery);
+ barrier = get_last_bb_insn (before_recovery);
+ gcc_assert (BARRIER_P (barrier));
+
+ label = emit_label_after (gen_label_rtx (), barrier);
+
+ rec = create_basic_block (label, label, before_recovery);
+
+ /* A recovery block always ends with an unconditional jump. */
emit_barrier_after (BB_END (rec));
if (BB_PARTITION (before_recovery) != BB_UNPARTITIONED)
fprintf (spec_info->dump, ";;\t\tGenerated recovery block rec%d\n",
rec->index);
- before_recovery = rec;
-
return rec;
}
+/* Create edges: FIRST_BB -> REC; FIRST_BB -> SECOND_BB; REC -> SECOND_BB
+ and emit necessary jumps. */
+void
+sched_create_recovery_edges (basic_block first_bb, basic_block rec,
+ basic_block second_bb)
+{
+ rtx label;
+ rtx jump;
+ edge e;
+ int edge_flags;
+
+ /* This is fixing of incoming edge. */
+ /* ??? Which other flags should be specified? */
+ if (BB_PARTITION (first_bb) != BB_PARTITION (rec))
+ /* Partition type is the same, if it is "unpartitioned". */
+ edge_flags = EDGE_CROSSING;
+ else
+ edge_flags = 0;
+
+ e = make_edge (first_bb, rec, edge_flags);
+ label = block_label (second_bb);
+ jump = emit_jump_insn_after (gen_jump (label), BB_END (rec));
+ JUMP_LABEL (jump) = label;
+ LABEL_NUSES (label)++;
+
+ if (BB_PARTITION (second_bb) != BB_PARTITION (rec))
+ /* Partition type is the same, if it is "unpartitioned". */
+ {
+ /* Rewritten from cfgrtl.c. */
+ if (flag_reorder_blocks_and_partition
+ && targetm.have_named_sections)
+ /* We don't need the same note for the check because
+ any_condjump_p (check) == true. */
+ {
+ REG_NOTES (jump) = gen_rtx_EXPR_LIST (REG_CROSSING_JUMP,
+ NULL_RTX,
+ REG_NOTES (jump));
+ }
+ edge_flags = EDGE_CROSSING;
+ }
+ else
+ edge_flags = 0;
+
+ make_single_succ_edge (rec, second_bb, edge_flags);
+}
+
/* This function creates recovery code for INSN. If MUTATE_P is nonzero,
INSN is a simple check, that should be converted to branchy one. */
static void
create_check_block_twin (rtx insn, bool mutate_p)
{
basic_block rec;
- rtx label, check, twin, link;
+ rtx label, check, twin;
ds_t fs;
+ sd_iterator_def sd_it;
+ dep_t dep;
+ dep_def _new_dep, *new_dep = &_new_dep;
+ ds_t todo_spec;
+
+ gcc_assert (ORIG_PAT (insn) != NULL_RTX);
+
+ if (!mutate_p)
+ todo_spec = TODO_SPEC (insn);
+ else
+ {
+ gcc_assert (IS_SPECULATION_SIMPLE_CHECK_P (insn)
+ && (TODO_SPEC (insn) & SPECULATIVE) == 0);
- gcc_assert (ORIG_PAT (insn)
- && (!mutate_p
- || (RECOVERY_BLOCK (insn) == EXIT_BLOCK_PTR
- && !(TODO_SPEC (insn) & SPECULATIVE))));
+ todo_spec = CHECK_SPEC (insn);
+ }
+
+ todo_spec &= SPECULATIVE;
/* Create recovery block. */
- if (mutate_p || targetm.sched.needs_block_p (insn))
+ if (mutate_p || targetm.sched.needs_block_p (todo_spec))
{
- rec = create_recovery_block ();
+ rec = sched_create_recovery_block (NULL);
label = BB_HEAD (rec);
}
else
{
rec = EXIT_BLOCK_PTR;
- label = 0;
+ label = NULL_RTX;
}
/* Emit CHECK. */
- check = targetm.sched.gen_check (insn, label, mutate_p);
+ check = targetm.sched.gen_spec_check (insn, label, todo_spec);
if (rec != EXIT_BLOCK_PTR)
{
check = emit_insn_before (check, insn);
/* Extend data structures. */
- extend_all (check);
+ haifa_init_insn (check);
+
+ /* CHECK is being added to current region. Extend ready list. */
+ gcc_assert (sched_ready_n_insns != -1);
+ sched_extend_ready_list (sched_ready_n_insns + 1);
+
+ if (current_sched_info->add_remove_insn)
+ current_sched_info->add_remove_insn (insn, 0);
+
RECOVERY_BLOCK (check) = rec;
if (sched_verbose && spec_info->dump)
in the recovery block). */
if (rec != EXIT_BLOCK_PTR)
{
- rtx link;
+ sd_iterator_def sd_it;
+ dep_t dep;
- for (link = RESOLVED_DEPS (insn); link; link = XEXP (link, 1))
- if (DEP_STATUS (link) & DEP_OUTPUT)
+ FOR_EACH_DEP (insn, SD_LIST_RES_BACK, sd_it, dep)
+ if ((DEP_STATUS (dep) & DEP_OUTPUT) != 0)
{
- RESOLVED_DEPS (check) =
- alloc_DEPS_LIST (XEXP (link, 0), RESOLVED_DEPS (check), DEP_TRUE);
- PUT_REG_NOTE_KIND (RESOLVED_DEPS (check), REG_DEP_TRUE);
+ struct _dep _dep2, *dep2 = &_dep2;
+
+ init_dep (dep2, DEP_PRO (dep), check, REG_DEP_TRUE);
+
+ sd_add_dep (dep2, true);
}
twin = emit_insn_after (ORIG_PAT (insn), BB_END (rec));
- extend_global (twin);
+ haifa_init_insn (twin);
if (sched_verbose && spec_info->dump)
/* INSN_BB (insn) isn't determined for twin insns yet.
(TRUE | OUTPUT). */
}
- RESOLVED_DEPS (twin) = copy_DEPS_LIST_list (RESOLVED_DEPS (insn));
+ /* Copy all resolved back dependencies of INSN to TWIN. This will
+ provide correct value for INSN_TICK (TWIN). */
+ sd_copy_back_deps (twin, insn, true);
if (rec != EXIT_BLOCK_PTR)
/* In case of branchy check, fix CFG. */
{
basic_block first_bb, second_bb;
rtx jump;
- edge e;
- int edge_flags;
first_bb = BLOCK_FOR_INSN (check);
- e = split_block (first_bb, check);
- /* split_block emits note if *check == BB_END. Probably it
- is better to rip that note off. */
- gcc_assert (e->src == first_bb);
- second_bb = e->dest;
-
- /* This is fixing of incoming edge. */
- /* ??? Which other flags should be specified? */
- if (BB_PARTITION (first_bb) != BB_PARTITION (rec))
- /* Partition type is the same, if it is "unpartitioned". */
- edge_flags = EDGE_CROSSING;
- else
- edge_flags = 0;
-
- e = make_edge (first_bb, rec, edge_flags);
+ second_bb = sched_split_block (first_bb, check);
- add_block (second_bb, first_bb);
-
- gcc_assert (NOTE_INSN_BASIC_BLOCK_P (BB_HEAD (second_bb)));
- label = block_label (second_bb);
- jump = emit_jump_insn_after (gen_jump (label), BB_END (rec));
- JUMP_LABEL (jump) = label;
- LABEL_NUSES (label)++;
- extend_global (jump);
+ sched_create_recovery_edges (first_bb, rec, second_bb);
- if (BB_PARTITION (second_bb) != BB_PARTITION (rec))
- /* Partition type is the same, if it is "unpartitioned". */
- {
- /* Rewritten from cfgrtl.c. */
- if (flag_reorder_blocks_and_partition
- && targetm.have_named_sections
- /*&& !any_condjump_p (jump)*/)
- /* any_condjump_p (jump) == false.
- We don't need the same note for the check because
- any_condjump_p (check) == true. */
- {
- REG_NOTES (jump) = gen_rtx_EXPR_LIST (REG_CROSSING_JUMP,
- NULL_RTX,
- REG_NOTES (jump));
- }
- edge_flags = EDGE_CROSSING;
- }
- else
- edge_flags = 0;
-
- make_single_succ_edge (rec, second_bb, edge_flags);
-
- add_block (rec, EXIT_BLOCK_PTR);
+ sched_init_only_bb (second_bb, first_bb);
+ sched_init_only_bb (rec, EXIT_BLOCK_PTR);
+
+ jump = BB_END (rec);
+ haifa_init_insn (jump);
}
/* Move backward dependences from INSN to CHECK and
move forward dependences from INSN to TWIN. */
- for (link = LOG_LINKS (insn); link; link = XEXP (link, 1))
+
+ /* First, create dependencies between INSN's producers and CHECK & TWIN. */
+ FOR_EACH_DEP (insn, SD_LIST_BACK, sd_it, dep)
{
+ rtx pro = DEP_PRO (dep);
ds_t ds;
/* If BEGIN_DATA: [insn ~~TRUE~~> producer]:
twin ~~TRUE~~> producer
twin --ANTI--> check */
- ds = DEP_STATUS (link);
+ ds = DEP_STATUS (dep);
if (ds & BEGIN_SPEC)
{
ds &= ~BEGIN_SPEC;
}
+ init_dep_1 (new_dep, pro, check, DEP_TYPE (dep), ds);
+ sd_add_dep (new_dep, false);
+
if (rec != EXIT_BLOCK_PTR)
{
- add_back_forw_dep (check, XEXP (link, 0), REG_NOTE_KIND (link), ds);
- add_back_forw_dep (twin, XEXP (link, 0), REG_NOTE_KIND (link), ds);
+ DEP_CON (new_dep) = twin;
+ sd_add_dep (new_dep, false);
}
+ }
+
+ /* Second, remove backward dependencies of INSN. */
+ for (sd_it = sd_iterator_start (insn, SD_LIST_SPEC_BACK);
+ sd_iterator_cond (&sd_it, &dep);)
+ {
+ if ((DEP_STATUS (dep) & BEGIN_SPEC)
+ || mutate_p)
+ /* We can delete this dep because we overcome it with
+ BEGIN_SPECULATION. */
+ sd_delete_dep (sd_it);
else
- add_back_forw_dep (check, XEXP (link, 0), REG_NOTE_KIND (link), ds);
+ sd_iterator_next (&sd_it);
}
- for (link = LOG_LINKS (insn); link;)
- if ((DEP_STATUS (link) & BEGIN_SPEC)
- || mutate_p)
- /* We can delete this dep only if we totally overcome it with
- BEGIN_SPECULATION. */
- {
- delete_back_forw_dep (insn, XEXP (link, 0));
- link = LOG_LINKS (insn);
- }
- else
- link = XEXP (link, 1);
-
+ /* Future Speculations. Determine what BE_IN speculations will be like. */
fs = 0;
/* Fields (DONE_SPEC (x) & BEGIN_SPEC) and CHECK_SPEC (x) are set only
DONE_SPEC (insn) = ts & BEGIN_SPEC;
CHECK_SPEC (check) = ts & BEGIN_SPEC;
+ /* Luckiness of future speculations solely depends upon initial
+ BEGIN speculation. */
if (ts & BEGIN_DATA)
fs = set_dep_weak (fs, BE_IN_DATA, get_dep_weak (ts, BEGIN_DATA));
if (ts & BEGIN_CONTROL)
- fs = set_dep_weak (fs, BE_IN_CONTROL, get_dep_weak (ts, BEGIN_CONTROL));
+ fs = set_dep_weak (fs, BE_IN_CONTROL,
+ get_dep_weak (ts, BEGIN_CONTROL));
}
else
CHECK_SPEC (check) = CHECK_SPEC (insn);
/* Future speculations: call the helper. */
- process_insn_depend_be_in_spec (INSN_DEPEND (insn), twin, fs);
+ process_insn_forw_deps_be_in_spec (insn, twin, fs);
if (rec != EXIT_BLOCK_PTR)
{
if (!mutate_p)
{
- add_back_forw_dep (check, insn, REG_DEP_TRUE, DEP_TRUE);
- add_back_forw_dep (twin, insn, REG_DEP_OUTPUT, DEP_OUTPUT);
+ init_dep (new_dep, insn, check, REG_DEP_TRUE);
+ sd_add_dep (new_dep, false);
+
+ init_dep (new_dep, insn, twin, REG_DEP_OUTPUT);
+ sd_add_dep (new_dep, false);
}
else
{
fprintf (spec_info->dump, ";;\t\tRemoved simple check : %s\n",
(*current_sched_info->print_insn) (insn, 0));
- for (link = INSN_DEPEND (insn); link; link = INSN_DEPEND (insn))
- delete_back_forw_dep (XEXP (link, 0), insn);
+ /* Remove all dependencies of the INSN. */
+ {
+ sd_it = sd_iterator_start (insn, (SD_LIST_FORW
+ | SD_LIST_BACK
+ | SD_LIST_RES_BACK));
+ while (sd_iterator_cond (&sd_it, &dep))
+ sd_delete_dep (sd_it);
+ }
+ /* If former check (INSN) already was moved to the ready (or queue)
+ list, add new check (CHECK) there too. */
if (QUEUE_INDEX (insn) != QUEUE_NOWHERE)
try_ready (check);
+ /* Remove old check from instruction stream and free its
+ data. */
sched_remove_insn (insn);
}
- add_back_forw_dep (twin, check, REG_DEP_ANTI, DEP_ANTI);
+ init_dep (new_dep, check, twin, REG_DEP_ANTI);
+ sd_add_dep (new_dep, false);
}
else
- add_back_forw_dep (check, insn, REG_DEP_TRUE, DEP_TRUE | DEP_OUTPUT);
+ {
+ init_dep_1 (new_dep, insn, check, REG_DEP_TRUE, DEP_TRUE | DEP_OUTPUT);
+ sd_add_dep (new_dep, false);
+ }
if (!mutate_p)
/* Fix priorities. If MUTATE_P is nonzero, this is not necessary,
because it'll be done later in add_to_speculative_block. */
{
- clear_priorities (twin);
- calc_priorities (twin);
+ rtx_vec_t priorities_roots = NULL;
+
+ clear_priorities (twin, &priorities_roots);
+ calc_priorities (priorities_roots);
+ VEC_free (rtx, heap, priorities_roots);
}
}
static void
fix_recovery_deps (basic_block rec)
{
- rtx note, insn, link, jump, ready_list = 0;
+ rtx note, insn, jump, ready_list = 0;
bitmap_head in_ready;
+ rtx link;
bitmap_initialize (&in_ready, 0);
insn = PREV_INSN (insn);
do
- {
- for (link = INSN_DEPEND (insn); link;)
- {
- rtx consumer;
+ {
+ sd_iterator_def sd_it;
+ dep_t dep;
- consumer = XEXP (link, 0);
+ for (sd_it = sd_iterator_start (insn, SD_LIST_FORW);
+ sd_iterator_cond (&sd_it, &dep);)
+ {
+ rtx consumer = DEP_CON (dep);
if (BLOCK_FOR_INSN (consumer) != rec)
{
- delete_back_forw_dep (consumer, insn);
+ sd_delete_dep (sd_it);
if (!bitmap_bit_p (&in_ready, INSN_LUID (consumer)))
{
ready_list = alloc_INSN_LIST (consumer, ready_list);
bitmap_set_bit (&in_ready, INSN_LUID (consumer));
}
-
- link = INSN_DEPEND (insn);
}
else
{
- gcc_assert ((DEP_STATUS (link) & DEP_TYPES) == DEP_TRUE);
+ gcc_assert ((DEP_STATUS (dep) & DEP_TYPES) == DEP_TRUE);
- link = XEXP (link, 1);
+ sd_iterator_next (&sd_it);
}
}
add_jump_dependencies (insn, jump);
}
-/* The function saves line notes at the beginning of block B. */
-static void
-associate_line_notes_with_blocks (basic_block b)
+/* Change pattern of INSN to NEW_PAT. */
+void
+sched_change_pattern (rtx insn, rtx new_pat)
{
- rtx line;
+ int t;
- for (line = BB_HEAD (b); line; line = PREV_INSN (line))
- if (NOTE_P (line) && NOTE_LINE_NUMBER (line) > 0)
- {
- line_note_head[b->index] = line;
- break;
- }
- /* Do a forward search as well, since we won't get to see the first
- notes in a basic block. */
- for (line = BB_HEAD (b); line; line = NEXT_INSN (line))
- {
- if (INSN_P (line))
- break;
- if (NOTE_P (line) && NOTE_LINE_NUMBER (line) > 0)
- line_note_head[b->index] = line;
- }
+ t = validate_change (insn, &PATTERN (insn), new_pat, 0);
+ gcc_assert (t);
+ dfa_clear_single_insn_cache (insn);
}
-/* Changes pattern of the INSN to NEW_PAT. */
+/* Change pattern of INSN to NEW_PAT. Invalidate cached haifa
+ instruction data. */
static void
-change_pattern (rtx insn, rtx new_pat)
+haifa_change_pattern (rtx insn, rtx new_pat)
{
- int t;
+ sched_change_pattern (insn, new_pat);
- t = validate_change (insn, &PATTERN (insn), new_pat, 0);
- gcc_assert (t);
/* Invalidate INSN_COST, so it'll be recalculated. */
INSN_COST (insn) = -1;
/* Invalidate INSN_TICK, so it'll be recalculated. */
INSN_TICK (insn) = INVALID_TICK;
- dfa_clear_single_insn_cache (insn);
}
-
/* -1 - can't speculate,
0 - for speculation with REQUEST mode it is OK to use
current instruction pattern,
1 - need to change pattern for *NEW_PAT to be speculative. */
-static int
-speculate_insn (rtx insn, ds_t request, rtx *new_pat)
+int
+sched_speculate_insn (rtx insn, ds_t request, rtx *new_pat)
{
gcc_assert (current_sched_info->flags & DO_SPECULATION
- && (request & SPECULATIVE));
+ && (request & SPECULATIVE)
+ && sched_insn_is_legitimate_for_speculation_p (insn, request));
- if (!NONJUMP_INSN_P (insn)
- || HAS_INTERNAL_DEP (insn)
- || SCHED_GROUP_P (insn)
- || side_effects_p (PATTERN (insn))
- || (request & spec_info->mask) != request)
+ if ((request & spec_info->mask) != request)
return -1;
-
- gcc_assert (!RECOVERY_BLOCK (insn));
- if (request & BE_IN_SPEC)
- {
- if (may_trap_p (PATTERN (insn)))
- return -1;
-
- if (!(request & BEGIN_SPEC))
- return 0;
- }
+ if (request & BE_IN_SPEC
+ && !(request & BEGIN_SPEC))
+ return 0;
- return targetm.sched.speculate_insn (insn, request & BEGIN_SPEC, new_pat);
+ return targetm.sched.speculate_insn (insn, request, new_pat);
+}
+
+static int
+haifa_speculate_insn (rtx insn, ds_t request, rtx *new_pat)
+{
+ gcc_assert (sched_deps_info->generate_spec_deps
+ && !IS_SPECULATION_CHECK_P (insn));
+
+ if (HAS_INTERNAL_DEP (insn)
+ || SCHED_GROUP_P (insn))
+ return -1;
+
+ return sched_speculate_insn (insn, request, new_pat);
}
/* Print some information about block BB, which starts with HEAD and
if (first == last)
return;
- bb_header = xmalloc (last_basic_block * sizeof (*bb_header));
+ bb_header = XNEWVEC (rtx, last_basic_block);
/* Make a sentinel. */
if (last->next_bb != EXIT_BLOCK_PTR)
bb_header = 0;
}
-/* Extend per basic block data structures of the scheduler.
- If BB is NULL, initialize structures for the whole CFG.
- Otherwise, initialize them for the just created BB. */
-static void
-extend_bb (basic_block bb)
-{
- rtx insn;
-
- if (write_symbols != NO_DEBUG)
- {
- /* Save-line-note-head:
- Determine the line-number at the start of each basic block.
- This must be computed and saved now, because after a basic block's
- predecessor has been scheduled, it is impossible to accurately
- determine the correct line number for the first insn of the block. */
- line_note_head = xrecalloc (line_note_head, last_basic_block,
- old_last_basic_block,
- sizeof (*line_note_head));
-
- if (bb)
- associate_line_notes_with_blocks (bb);
- else
- FOR_EACH_BB (bb)
- associate_line_notes_with_blocks (bb);
- }
-
- old_last_basic_block = last_basic_block;
-
- if (current_sched_info->flags & USE_GLAT)
- {
- glat_start = xrealloc (glat_start,
- last_basic_block * sizeof (*glat_start));
- glat_end = xrealloc (glat_end, last_basic_block * sizeof (*glat_end));
- }
-
- /* The following is done to keep current_sched_info->next_tail non null. */
-
- insn = BB_END (EXIT_BLOCK_PTR->prev_bb);
- if (NEXT_INSN (insn) == 0
- || (!NOTE_P (insn)
- && !LABEL_P (insn)
- /* Don't emit a NOTE if it would end up before a BARRIER. */
- && !BARRIER_P (NEXT_INSN (insn))))
- {
- emit_note_after (NOTE_INSN_DELETED, insn);
- /* Make insn to appear outside BB. */
- BB_END (EXIT_BLOCK_PTR->prev_bb) = insn;
- }
-}
-
-/* Add a basic block BB to extended basic block EBB.
- If EBB is EXIT_BLOCK_PTR, then BB is recovery block.
- If EBB is NULL, then BB should be a new region. */
-void
-add_block (basic_block bb, basic_block ebb)
-{
- gcc_assert (current_sched_info->flags & DETACH_LIFE_INFO
- && bb->il.rtl->global_live_at_start == 0
- && bb->il.rtl->global_live_at_end == 0);
-
- extend_bb (bb);
-
- glat_start[bb->index] = 0;
- glat_end[bb->index] = 0;
-
- if (current_sched_info->add_block)
- /* This changes only data structures of the front-end. */
- current_sched_info->add_block (bb, ebb);
-}
-
/* Helper function.
Fix CFG after both in- and inter-block movement of
control_flow_insn_p JUMP. */
jump_bb = BLOCK_FOR_INSN (jump);
jump_bb_next = jump_bb->next_bb;
- gcc_assert (current_sched_info->flags & SCHED_EBB
- || (RECOVERY_BLOCK (jump)
- && RECOVERY_BLOCK (jump) != EXIT_BLOCK_PTR));
+ gcc_assert (common_sched_info->sched_pass_id == SCHED_EBB_PASS
+ || IS_SPECULATION_BRANCHY_CHECK_P (jump));
if (!NOTE_INSN_BASIC_BLOCK_P (BB_END (jump_bb_next)))
/* if jump_bb_next is not empty. */
update_bb_for_insn (jump_bb);
- gcc_assert (RECOVERY_BLOCK (jump)
- || RECOVERY_BLOCK (BB_END (jump_bb_next)));
+ gcc_assert (IS_SPECULATION_CHECK_P (jump)
+ || IS_SPECULATION_CHECK_P (BB_END (jump_bb_next)));
unlink_block (jump_bb_next);
link_block (jump_bb_next, bb);
move_succs (&(jump_bb->succs), bb);
move_succs (&(jump_bb_next->succs), jump_bb);
move_succs (&t, jump_bb_next);
+
+ df_mark_solutions_dirty ();
- if (current_sched_info->fix_recovery_cfg)
- current_sched_info->fix_recovery_cfg
- (bb->index, jump_bb->index, jump_bb_next->index);
+ common_sched_info->fix_recovery_cfg
+ (bb->index, jump_bb->index, jump_bb_next->index);
}
/* Helper function for move_block_after_check.
*succsp = 0;
}
-/* Initialize GLAT (global_live_at_{start, end}) structures.
- GLAT structures are used to substitute global_live_{start, end}
- regsets during scheduling. This is necessary to use such functions as
- split_block (), as they assume consistency of register live information. */
-static void
-init_glat (void)
-{
- basic_block bb;
-
- FOR_ALL_BB (bb)
- init_glat1 (bb);
-}
-
-/* Helper function for init_glat. */
-static void
-init_glat1 (basic_block bb)
-{
- gcc_assert (bb->il.rtl->global_live_at_start != 0
- && bb->il.rtl->global_live_at_end != 0);
-
- glat_start[bb->index] = bb->il.rtl->global_live_at_start;
- glat_end[bb->index] = bb->il.rtl->global_live_at_end;
-
- if (current_sched_info->flags & DETACH_LIFE_INFO)
- {
- bb->il.rtl->global_live_at_start = 0;
- bb->il.rtl->global_live_at_end = 0;
- }
-}
-
-/* Attach reg_live_info back to basic blocks.
- Also save regsets, that should not have been changed during scheduling,
- for checking purposes (see check_reg_live). */
-void
-attach_life_info (void)
-{
- basic_block bb;
-
- FOR_ALL_BB (bb)
- attach_life_info1 (bb);
-}
-
-/* Helper function for attach_life_info. */
-static void
-attach_life_info1 (basic_block bb)
-{
- gcc_assert (bb->il.rtl->global_live_at_start == 0
- && bb->il.rtl->global_live_at_end == 0);
-
- if (glat_start[bb->index])
- {
- gcc_assert (glat_end[bb->index]);
-
- bb->il.rtl->global_live_at_start = glat_start[bb->index];
- bb->il.rtl->global_live_at_end = glat_end[bb->index];
-
- /* Make them NULL, so they won't be freed in free_glat. */
- glat_start[bb->index] = 0;
- glat_end[bb->index] = 0;
-
-#ifdef ENABLE_CHECKING
- if (bb->index < NUM_FIXED_BLOCKS
- || current_sched_info->region_head_or_leaf_p (bb, 0))
- {
- glat_start[bb->index] = ALLOC_REG_SET (®_obstack);
- COPY_REG_SET (glat_start[bb->index],
- bb->il.rtl->global_live_at_start);
- }
-
- if (bb->index < NUM_FIXED_BLOCKS
- || current_sched_info->region_head_or_leaf_p (bb, 1))
- {
- glat_end[bb->index] = ALLOC_REG_SET (®_obstack);
- COPY_REG_SET (glat_end[bb->index], bb->il.rtl->global_live_at_end);
- }
-#endif
- }
- else
- {
- gcc_assert (!glat_end[bb->index]);
-
- bb->il.rtl->global_live_at_start = ALLOC_REG_SET (®_obstack);
- bb->il.rtl->global_live_at_end = ALLOC_REG_SET (®_obstack);
- }
-}
-
-/* Free GLAT information. */
-static void
-free_glat (void)
-{
-#ifdef ENABLE_CHECKING
- if (current_sched_info->flags & DETACH_LIFE_INFO)
- {
- basic_block bb;
-
- FOR_ALL_BB (bb)
- {
- if (glat_start[bb->index])
- FREE_REG_SET (glat_start[bb->index]);
- if (glat_end[bb->index])
- FREE_REG_SET (glat_end[bb->index]);
- }
- }
-#endif
-
- free (glat_start);
- free (glat_end);
-}
-
/* Remove INSN from the instruction stream.
INSN should have any dependencies. */
static void
sched_remove_insn (rtx insn)
{
+ sd_finish_insn (insn);
+
change_queue_index (insn, QUEUE_NOWHERE);
current_sched_info->add_remove_insn (insn, 1);
remove_insn (insn);
}
-/* Clear priorities of all instructions, that are
- forward dependent on INSN. */
+/* Clear priorities of all instructions, that are forward dependent on INSN.
+ Store in vector pointed to by ROOTS_PTR insns on which priority () should
+ be invoked to initialize all cleared priorities. */
static void
-clear_priorities (rtx insn)
+clear_priorities (rtx insn, rtx_vec_t *roots_ptr)
{
- rtx link;
+ sd_iterator_def sd_it;
+ dep_t dep;
+ bool insn_is_root_p = true;
+
+ gcc_assert (QUEUE_INDEX (insn) != QUEUE_SCHEDULED);
- for (link = LOG_LINKS (insn); link; link = XEXP (link, 1))
+ FOR_EACH_DEP (insn, SD_LIST_BACK, sd_it, dep)
{
- rtx pro;
+ rtx pro = DEP_PRO (dep);
- pro = XEXP (link, 0);
- if (INSN_PRIORITY_KNOWN (pro))
+ if (INSN_PRIORITY_STATUS (pro) >= 0
+ && QUEUE_INDEX (insn) != QUEUE_SCHEDULED)
{
- INSN_PRIORITY_KNOWN (pro) = 0;
- clear_priorities (pro);
+ /* If DEP doesn't contribute to priority then INSN itself should
+ be added to priority roots. */
+ if (contributes_to_priority_p (dep))
+ insn_is_root_p = false;
+
+ INSN_PRIORITY_STATUS (pro) = -1;
+ clear_priorities (pro, roots_ptr);
}
}
+
+ if (insn_is_root_p)
+ VEC_safe_push (rtx, heap, *roots_ptr, insn);
}
/* Recompute priorities of instructions, whose priorities might have been
- changed due to changes in INSN. */
+ changed. ROOTS is a vector of instructions whose priority computation will
+ trigger initialization of all cleared priorities. */
static void
-calc_priorities (rtx insn)
+calc_priorities (rtx_vec_t roots)
{
- rtx link;
-
- for (link = LOG_LINKS (insn); link; link = XEXP (link, 1))
- {
- rtx pro;
+ int i;
+ rtx insn;
- pro = XEXP (link, 0);
- if (!INSN_PRIORITY_KNOWN (pro))
- {
- priority (pro);
- calc_priorities (pro);
- }
- }
+ for (i = 0; VEC_iterate (rtx, roots, i, insn); i++)
+ priority (insn);
}
if (insn == jump)
break;
- if (!INSN_DEPEND (insn))
- add_back_forw_dep (jump, insn, REG_DEP_ANTI, DEP_ANTI);
+ if (sd_lists_empty_p (insn, SD_LIST_FORW))
+ {
+ dep_def _new_dep, *new_dep = &_new_dep;
+
+ init_dep (new_dep, insn, jump, REG_DEP_ANTI);
+ sd_add_dep (new_dep, false);
+ }
}
while (1);
- gcc_assert (LOG_LINKS (jump));
+
+ gcc_assert (!sd_lists_empty_p (jump, SD_LIST_BACK));
}
/* Return the NOTE_INSN_BASIC_BLOCK of BB. */
-static rtx
+rtx
bb_note (basic_block bb)
{
rtx note;
}
#ifdef ENABLE_CHECKING
-extern void debug_spec_status (ds_t);
-
-/* Dump information about the dependence status S. */
-void
-debug_spec_status (ds_t s)
-{
- FILE *f = stderr;
-
- if (s & BEGIN_DATA)
- fprintf (f, "BEGIN_DATA: %d; ", get_dep_weak (s, BEGIN_DATA));
- if (s & BE_IN_DATA)
- fprintf (f, "BE_IN_DATA: %d; ", get_dep_weak (s, BE_IN_DATA));
- if (s & BEGIN_CONTROL)
- fprintf (f, "BEGIN_CONTROL: %d; ", get_dep_weak (s, BEGIN_CONTROL));
- if (s & BE_IN_CONTROL)
- fprintf (f, "BE_IN_CONTROL: %d; ", get_dep_weak (s, BE_IN_CONTROL));
-
- if (s & HARD_DEP)
- fprintf (f, "HARD_DEP; ");
-
- if (s & DEP_TRUE)
- fprintf (f, "DEP_TRUE; ");
- if (s & DEP_ANTI)
- fprintf (f, "DEP_ANTI; ");
- if (s & DEP_OUTPUT)
- fprintf (f, "DEP_OUTPUT; ");
-
- fprintf (f, "\n");
-}
-
/* Helper function for check_cfg.
Return nonzero, if edge vector pointed to by EL has edge with TYPE in
its flags. */
gcc_assert (EDGE_COUNT (bb->succs) == 1
&& BARRIER_P (NEXT_INSN (head)));
else if (any_condjump_p (head))
- gcc_assert (EDGE_COUNT (bb->succs) > 1
- && !BARRIER_P (NEXT_INSN (head)));
+ gcc_assert (/* Usual case. */
+ (EDGE_COUNT (bb->succs) > 1
+ && !BARRIER_P (NEXT_INSN (head)))
+ /* Or jump to the next instruction. */
+ || (EDGE_COUNT (bb->succs) == 1
+ && (BB_HEAD (EDGE_I (bb->succs, 0)->dest)
+ == JUMP_LABEL (head))));
}
if (BB_END (bb) == head)
{
gcc_assert (bb == 0);
}
-/* Perform a few consistency checks of flags in different data structures. */
+#endif /* ENABLE_CHECKING */
+
+const struct sched_scan_info_def *sched_scan_info;
+
+/* Extend per basic block data structures. */
+static void
+extend_bb (void)
+{
+ if (sched_scan_info->extend_bb)
+ sched_scan_info->extend_bb ();
+}
+
+/* Init data for BB. */
+static void
+init_bb (basic_block bb)
+{
+ if (sched_scan_info->init_bb)
+ sched_scan_info->init_bb (bb);
+}
+
+/* Extend per insn data structures. */
+static void
+extend_insn (void)
+{
+ if (sched_scan_info->extend_insn)
+ sched_scan_info->extend_insn ();
+}
+
+/* Init data structures for INSN. */
+static void
+init_insn (rtx insn)
+{
+ if (sched_scan_info->init_insn)
+ sched_scan_info->init_insn (insn);
+}
+
+/* Init all insns in BB. */
static void
-check_sched_flags (void)
+init_insns_in_bb (basic_block bb)
{
- unsigned int f = current_sched_info->flags;
-
- if (flag_sched_stalled_insns)
- gcc_assert (!(f & DO_SPECULATION));
- if (f & DO_SPECULATION)
- gcc_assert (!flag_sched_stalled_insns
- && (f & DETACH_LIFE_INFO)
- && spec_info
- && spec_info->mask);
- if (f & DETACH_LIFE_INFO)
- gcc_assert (f & USE_GLAT);
+ rtx insn;
+
+ FOR_BB_INSNS (bb, insn)
+ init_insn (insn);
}
-/* Check global_live_at_{start, end} regsets.
- If FATAL_P is TRUE, then abort execution at the first failure.
- Otherwise, print diagnostics to STDERR (this mode is for calling
- from debugger). */
+/* A driver function to add a set of basic blocks (BBS),
+ a single basic block (BB), a set of insns (INSNS) or a single insn (INSN)
+ to the scheduling region. */
void
-check_reg_live (bool fatal_p)
+sched_scan (const struct sched_scan_info_def *ssi,
+ bb_vec_t bbs, basic_block bb, insn_vec_t insns, rtx insn)
{
- basic_block bb;
+ sched_scan_info = ssi;
- FOR_ALL_BB (bb)
+ if (bbs != NULL || bb != NULL)
{
- int i;
-
- i = bb->index;
+ extend_bb ();
- if (glat_start[i])
+ if (bbs != NULL)
{
- bool b = bitmap_equal_p (bb->il.rtl->global_live_at_start,
- glat_start[i]);
+ unsigned i;
+ basic_block x;
- if (!b)
- {
- gcc_assert (!fatal_p);
-
- fprintf (stderr, ";; check_reg_live_at_start (%d) failed.\n", i);
- }
+ for (i = 0; VEC_iterate (basic_block, bbs, i, x); i++)
+ init_bb (x);
}
- if (glat_end[i])
- {
- bool b = bitmap_equal_p (bb->il.rtl->global_live_at_end,
- glat_end[i]);
+ if (bb != NULL)
+ init_bb (bb);
+ }
- if (!b)
- {
- gcc_assert (!fatal_p);
+ extend_insn ();
- fprintf (stderr, ";; check_reg_live_at_end (%d) failed.\n", i);
- }
- }
+ if (bbs != NULL)
+ {
+ unsigned i;
+ basic_block x;
+
+ for (i = 0; VEC_iterate (basic_block, bbs, i, x); i++)
+ init_insns_in_bb (x);
+ }
+
+ if (bb != NULL)
+ init_insns_in_bb (bb);
+
+ if (insns != NULL)
+ {
+ unsigned i;
+ rtx x;
+
+ for (i = 0; VEC_iterate (rtx, insns, i, x); i++)
+ init_insn (x);
}
+
+ if (insn != NULL)
+ init_insn (insn);
+}
+
+
+/* Extend data structures for logical insn UID. */
+static void
+luids_extend_insn (void)
+{
+ int new_luids_max_uid = get_max_uid () + 1;
+
+ VEC_safe_grow_cleared (int, heap, sched_luids, new_luids_max_uid);
+}
+
+/* Initialize LUID for INSN. */
+static void
+luids_init_insn (rtx insn)
+{
+ int i = INSN_P (insn) ? 1 : common_sched_info->luid_for_non_insn (insn);
+ int luid;
+
+ if (i >= 0)
+ {
+ luid = sched_max_luid;
+ sched_max_luid += i;
+ }
+ else
+ luid = -1;
+
+ SET_INSN_LUID (insn, luid);
+}
+
+/* Initialize luids for BBS, BB, INSNS and INSN.
+ The hook common_sched_info->luid_for_non_insn () is used to determine
+ if notes, labels, etc. need luids. */
+void
+sched_init_luids (bb_vec_t bbs, basic_block bb, insn_vec_t insns, rtx insn)
+{
+ const struct sched_scan_info_def ssi =
+ {
+ NULL, /* extend_bb */
+ NULL, /* init_bb */
+ luids_extend_insn, /* extend_insn */
+ luids_init_insn /* init_insn */
+ };
+
+ sched_scan (&ssi, bbs, bb, insns, insn);
+}
+
+/* Free LUIDs. */
+void
+sched_finish_luids (void)
+{
+ VEC_free (int, heap, sched_luids);
+ sched_max_luid = 1;
+}
+
+/* Return logical uid of INSN. Helpful while debugging. */
+int
+insn_luid (rtx insn)
+{
+ return INSN_LUID (insn);
+}
+
+/* Extend per insn data in the target. */
+void
+sched_extend_target (void)
+{
+ if (targetm.sched.h_i_d_extended)
+ targetm.sched.h_i_d_extended ();
+}
+
+/* Extend global scheduler structures (those, that live across calls to
+ schedule_block) to include information about just emitted INSN. */
+static void
+extend_h_i_d (void)
+{
+ int reserve = (get_max_uid () + 1
+ - VEC_length (haifa_insn_data_def, h_i_d));
+ if (reserve > 0
+ && ! VEC_space (haifa_insn_data_def, h_i_d, reserve))
+ {
+ VEC_safe_grow_cleared (haifa_insn_data_def, heap, h_i_d,
+ 3 * get_max_uid () / 2);
+ sched_extend_target ();
+ }
+}
+
+/* Initialize h_i_d entry of the INSN with default values.
+ Values, that are not explicitly initialized here, hold zero. */
+static void
+init_h_i_d (rtx insn)
+{
+ if (INSN_LUID (insn) > 0)
+ {
+ INSN_COST (insn) = -1;
+ find_insn_reg_weight (insn);
+ QUEUE_INDEX (insn) = QUEUE_NOWHERE;
+ INSN_TICK (insn) = INVALID_TICK;
+ INTER_TICK (insn) = INVALID_TICK;
+ TODO_SPEC (insn) = HARD_DEP;
+ }
+}
+
+/* Initialize haifa_insn_data for BBS, BB, INSNS and INSN. */
+void
+haifa_init_h_i_d (bb_vec_t bbs, basic_block bb, insn_vec_t insns, rtx insn)
+{
+ const struct sched_scan_info_def ssi =
+ {
+ NULL, /* extend_bb */
+ NULL, /* init_bb */
+ extend_h_i_d, /* extend_insn */
+ init_h_i_d /* init_insn */
+ };
+
+ sched_scan (&ssi, bbs, bb, insns, insn);
+}
+
+/* Finalize haifa_insn_data. */
+void
+haifa_finish_h_i_d (void)
+{
+ VEC_free (haifa_insn_data_def, heap, h_i_d);
+}
+
+/* Init data for the new insn INSN. */
+static void
+haifa_init_insn (rtx insn)
+{
+ gcc_assert (insn != NULL);
+
+ sched_init_luids (NULL, NULL, NULL, insn);
+ sched_extend_target ();
+ sched_deps_init (false);
+ haifa_init_h_i_d (NULL, NULL, NULL, insn);
+
+ if (adding_bb_to_current_region_p)
+ {
+ sd_init_insn (insn);
+
+ /* Extend dependency caches by one element. */
+ extend_dependency_caches (1, false);
+ }
+}
+
+/* Init data for the new basic block BB which comes after AFTER. */
+static void
+haifa_init_only_bb (basic_block bb, basic_block after)
+{
+ gcc_assert (bb != NULL);
+
+ sched_init_bbs ();
+
+ if (common_sched_info->add_block)
+ /* This changes only data structures of the front-end. */
+ common_sched_info->add_block (bb, after);
+}
+
+/* A generic version of sched_split_block (). */
+basic_block
+sched_split_block_1 (basic_block first_bb, rtx after)
+{
+ edge e;
+
+ e = split_block (first_bb, after);
+ gcc_assert (e->src == first_bb);
+
+ /* sched_split_block emits note if *check == BB_END. Probably it
+ is better to rip that note off. */
+
+ return e->dest;
+}
+
+/* A generic version of sched_create_empty_bb (). */
+basic_block
+sched_create_empty_bb_1 (basic_block after)
+{
+ return create_empty_bb (after);
+}
+
+/* Insert PAT as an INSN into the schedule and update the necessary data
+ structures to account for it. */
+rtx
+sched_emit_insn (rtx pat)
+{
+ rtx insn = emit_insn_after (pat, last_scheduled_insn);
+ last_scheduled_insn = insn;
+ haifa_init_insn (insn);
+ return insn;
}
-#endif /* ENABLE_CHECKING */
#endif /* INSN_SCHEDULING */
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