From 496d7bb03214b7835638fa14d7275e89d3bec954 Mon Sep 17 00:00:00 2001 From: Maxim Kuvyrkov Date: Thu, 16 Mar 2006 05:27:03 +0000 Subject: target.h (struct spec_info_def): New opaque declaration. 2006-03-16 Maxim Kuvyrkov * target.h (struct spec_info_def): New opaque declaration. (struct gcc_target.sched): New fields: adjust_cost_2, h_i_d_extended, speculate_insn, needs_block_p, gen_check, first_cycle_multipass_dfa_lookahead_guard_spec, set_sched_flags. * target-def.h (TARGET_SCHED_ADJUST_COST_2, TARGET_SCHED_H_I_D_EXTENDED, TARGET_SCHED_SPECULATE_INSN, TARGET_SCHED_NEEDS_BLOCK_P, TARGET_SCHED_GEN_CHECK, TARGET_SCHED_FIRST_CYCLE_MULTIPASS_DFA_LOOKAHEAD_GUARD_SPEC, TARGET_SCHED_SET_SCHED_FLAGS): New macros to initialize fields in gcc_target.sched. (TARGET_SCHED): Use new macros. * rtl.h (copy_DEPS_LIST_list): New prototype. * sched-int.h (struct sched_info): Change signature of new_ready field, adjust all initializations. New fields: add_remove_insn, begin_schedule_ready, add_block, advance_target_bb, fix_recovery_cfg, region_head_or_leaf_p. (struct spec_info_def): New structure declaration. (spec_info_t): New typedef. (struct haifa_insn_data): New fields: todo_spec, done_spec, check_spec, recovery_block, orig_pat. (glat_start, glat_end): New variables declaraions. (TODO_SPEC, DONE_SPEC, CHECK_SPEC, RECOVERY_BLOCK, ORIG_PAT): New access macros. (enum SCHED_FLAGS): New constants: SCHED_RGN, SCHED_EBB, DETACH_LIFE_INFO, USE_GLAT. (enum SPEC_SCHED_FLAGS): New enumeration. (NOTE_NOTE_BB_P): New macro. (extend_dependency_caches, xrecalloc, unlink_bb_notes, add_block, attach_life_info, debug_spec_status, check_reg_live): New functions. (get_block_head_tail): Change signature to get_ebb_head_tail, adjust all uses in ddg.c, modulo-sched.c, haifa-sched.c, sched-rgn.c, sched-ebb.c (get_dep_weak, ds_merge): Prototype functions from sched-deps.c . * ddg.c (get_block_head_tail): Adjust all uses. * modulo-sched.c (get_block_head_tail): Adjust all uses. (sms_sched_info): Initialize new fields. (contributes_to_priority): Removed. * haifa-sched.c (params.h): New include. (get_block_head_tail): Adjust all uses. (ISSUE_POINTS): New macro. (glat_start, glat_end): New global variables. (spec_info_var, spec_info, added_recovery_block_p, nr_begin_data, nr_be_in_data, nr_begin_control, nr_be_in_control, bb_header, old_last_basic_block, before_recovery, current_sched_info_var, rgn_n_insns, luid): New static variables. (insn_cost1): New function. Move logic from insn_cost to here. (find_insn_reg_weight1): New function. Move logic from find_insn_reg_weight to here. (reemit_notes, move_insn, max_issue): Change signature. (move_insn1): Removed. (extend_h_i_d, extend_ready, extend_global, extend_all, init_h_i_d, extend_bb): New static functions to support extension of scheduler's data structures. (generate_recovery_code, process_insn_depend_be_in_spec, begin_speculative_block, add_to_speculative_block, init_before_recovery, create_recovery_block, create_check_block_twin, fix_recovery_deps): New static functions to support generation of recovery code. (fix_jump_move, find_fallthru_edge, dump_new_block_header, restore_bb_notes, move_block_after_check, move_succs): New static functions to support ebb scheduling. (init_glat, init_glat1, attach_life_info1, free_glat): New static functions to support handling of register live information. (associate_line_notes_with_blocks, change_pattern, speculate_insn, sched_remove_insn, clear_priorities, calc_priorities, bb_note, add_jump_dependencies): New static functions. (check_cfg, has_edge_p, check_sched_flags): New static functions for consistancy checking. (debug_spec_status): New function to call from debugger. (priority): Added code to handle speculation checks. (rank_for_schedule): Added code to distinguish speculative instructions. (schedule_insn): Added code to handle speculation checks. (unlink_other_notes, rm_line_notes, restore_line_notes, rm_other_notes): Fixed to handle ebbs. (move_insn): Added code to handle ebb scheduling. (max_issue): Added code to use ISSUE_POINTS of instructions. (choose_ready): Added code to choose between speculative and non-speculative instructions. (schedule_block): Added code to handle ebb scheduling and scheduling of speculative instructions. (sched_init): Initialize new variables. (sched_finish): Free new variables. Print statistics. (try_ready): Added code to handle speculative instructions. * lists.c (copy_DEPS_LIST_list): New function. * sched-deps.c (extend_dependency_caches): New function. Move logic from create_dependency_caches to here. (get_dep_weak, ds_merge): Make global. * genattr.c (main): Code to output prototype for dfa_clear_single_insn_cache. * genautomata.c (DFA_CLEAR_SINGLE_INSN_CACHE_FUNC_NAME): New macros. (output_dfa_clean_insn_cache_func): Code to output dfa_clear_single_insn_cache function. * sched-ebb.c (target_n_insns): Remove. Adjust all users to use n_insns. (can_schedule_ready_p, fix_basic_block_boundaries, add_missing_bbs): Removed. (n_insns, dont_calc_deps, ebb_head, ebb_tail, last_bb): New static variables. (begin_schedule_ready, add_remove_insn, add_block1, advance_target_bb, fix_recovery_cfg, ebb_head_or_leaf_p): Implement hooks from struct sched_info. (ebb_sched_info): Initialize new fields. (get_block_head_tail): Adjust all uses. (compute_jump_reg_dependencies): Fixed to use glat_start. (schedule_ebb): Code to remove unreachable last block. (schedule_ebbs): Added code to update register live information. * sched-rgn.c (region_sched_info): Initialize new fields. (get_block_head_tail): Adjust all uses. (last_was_jump): Removed. Adjust users. (begin_schedule_ready, add_remove_insn, insn_points, extend_regions, add_block1, fix_recovery_cfg, advance_target_bb, region_head_or_leaf_p): Implement new hooks. (check_dead_notes1): New static function. (struct region): New fields: dont_calc_deps, has_real_ebb. (RGN_DONT_CALC_DEPS, RGN_HAS_REAL_EBB): New access macros. (BB_TO_BLOCK): Fixed to handle EBBs. (EBB_FIRST_BB, EBB_LAST_BB): New macros. (ebb_head): New static variable. (debug_regions, contributes_to_priority): Fixed to handle EBBs. (find_single_block_regions, find_rgns, find_more_rgns): Initialize new fields. (compute_dom_prob_ps): New assertion. (check_live_1, update_live_1): Fixed to work with glat_start instead of global_live_at_start. (init_ready_list): New assertions. (can_schedule_ready_p): Split update code to begin_schedule_ready. (new_ready): Add support for BEGIN_CONTROL speculation. (schedule_insns): Fixed code that updates register live information to handle EBBs. (schedule_region): Fixed to handle EBBs. (init_regions): Use extend_regions and check_dead_notes1. * params.def (PARAM_MAX_SCHED_INSN_CONFLICT_DELAY, PARAM_SCHED_SPEC_PROB_CUTOFF): New parameters. * doc/tm.texi (TARGET_SCHED_ADJUST_COST_2, TARGET_SCHED_H_I_D_EXTENDED, TARGET_SCHED_SPECULATE_INSN, TARGET_SCHED_NEEDS_BLOCK_P, TARGET_SCHED_GEN_CHECK, TARGET_SCHED_FIRST_CYCLE_MULTIPASS_DFA_LOOKAHEAD_GUARD_SPEC, TARGET_SCHED_SET_SCHED_FLAGS): Document. * doc/invoke.texi (max-sched-insn-conflict-delay, sched-spec-prob-cutoff): Document. From-SVN: r112128 --- gcc/haifa-sched.c | 2465 +++++++++++++++++++++++++++++++++++++++++++++++------ 1 file changed, 2224 insertions(+), 241 deletions(-) (limited to 'gcc/haifa-sched.c') diff --git a/gcc/haifa-sched.c b/gcc/haifa-sched.c index 75300b5..84311b1 100644 --- a/gcc/haifa-sched.c +++ b/gcc/haifa-sched.c @@ -143,6 +143,7 @@ Software Foundation, 51 Franklin Street, Fifth Floor, Boston, MA #include "sched-int.h" #include "target.h" #include "output.h" +#include "params.h" #ifdef INSN_SCHEDULING @@ -195,6 +196,10 @@ struct haifa_insn_data *h_i_d; /* The minimal value of the INSN_TICK of an instruction. */ #define MIN_TICK (-max_insn_queue_index) +/* Issue points are used to distinguish between instructions in max_issue (). + 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; @@ -203,6 +208,30 @@ static rtx *line_note_head; last element in the list. */ static 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; + +/* 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; + +/* Counters of different types of speculative isntructions. */ +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; + /* Queues, etc. */ /* An instruction is ready to be scheduled when all insns preceding it @@ -299,6 +328,9 @@ static struct ready_list *readyp; /* 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); /* Nonzero iff the address is comprised from at most 1 register. */ @@ -462,13 +494,15 @@ haifa_classify_insn (rtx 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 (int); +static void find_insn_reg_weight (basic_block); +static void find_insn_reg_weight1 (rtx); static void adjust_priority (rtx); static void advance_one_cycle (void); @@ -497,7 +531,7 @@ static void advance_one_cycle (void); static rtx unlink_other_notes (rtx, rtx); static rtx unlink_line_notes (rtx, rtx); -static rtx reemit_notes (rtx, rtx); +static void reemit_notes (rtx); static rtx *ready_lastpos (struct ready_list *); static void ready_add (struct ready_list *, rtx, bool); @@ -509,15 +543,14 @@ static int early_queue_to_ready (state_t, struct ready_list *); static void debug_ready_list (struct ready_list *); -static rtx move_insn1 (rtx, rtx); -static rtx move_insn (rtx, rtx); +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 *); +static int max_issue (struct ready_list *, int *, int); static rtx choose_ready (struct ready_list *); @@ -526,6 +559,48 @@ 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 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 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 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 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 */ /* Point to state used for the current scheduling pass. */ @@ -538,6 +613,9 @@ schedule_insns (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. */ @@ -551,6 +629,21 @@ static rtx last_scheduled_insn; HAIFA_INLINE int insn_cost (rtx insn, rtx link, rtx used) { + return insn_cost1 (insn, used ? REG_NOTE_KIND (link) : REG_NOTE_MAX, + link, used); +} + +/* 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. */ + +HAIFA_INLINE static int +insn_cost1 (rtx insn, enum reg_note dep_type, rtx link, rtx used) +{ int cost = INSN_COST (insn); if (cost < 0) @@ -575,7 +668,7 @@ insn_cost (rtx insn, rtx link, rtx used) } /* In this case estimate cost without caring how insn is used. */ - if (link == 0 || used == 0) + if (used == 0) return cost; /* A USE insn should never require the value used to be computed. @@ -585,11 +678,13 @@ insn_cost (rtx insn, rtx link, rtx used) cost = 0; else { + gcc_assert (!link || dep_type == REG_NOTE_KIND (link)); + if (INSN_CODE (insn) >= 0) { - if (REG_NOTE_KIND (link) == REG_DEP_ANTI) + if (dep_type == REG_DEP_ANTI) cost = 0; - else if (REG_NOTE_KIND (link) == REG_DEP_OUTPUT) + else if (dep_type == REG_DEP_OUTPUT) { cost = (insn_default_latency (insn) - insn_default_latency (used)); @@ -600,8 +695,14 @@ insn_cost (rtx insn, rtx link, rtx used) cost = insn_latency (insn, used); } - if (targetm.sched.adjust_cost) - cost = targetm.sched.adjust_cost (used, link, insn, cost); + 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); + } if (cost < 0) cost = 0; @@ -628,21 +729,68 @@ priority (rtx insn) this_priority = insn_cost (insn, 0, 0); else { - for (link = INSN_DEPEND (insn); link; link = XEXP (link, 1)) - { - rtx next; - int next_priority; + rtx prev_first, twin; + basic_block rec; - next = XEXP (link, 0); + /* 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. */ - /* Critical path is meaningful in block boundaries only. */ - if (! (*current_sched_info->contributes_to_priority) (next, insn)) - continue; + rec = RECOVERY_BLOCK (insn); + if (!rec || rec == EXIT_BLOCK_PTR) + { + prev_first = PREV_INSN (insn); + twin = insn; + } + else + { + prev_first = NEXT_INSN (BB_HEAD (rec)); + twin = PREV_INSN (BB_END (rec)); + } - next_priority = insn_cost (insn, link, next) + priority (next); - if (next_priority > this_priority) - this_priority = next_priority; + do + { + for (link = INSN_DEPEND (twin); link; link = XEXP (link, 1)) + { + rtx next; + int next_priority; + + next = XEXP (link, 0); + + 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))) + continue; + + next_priority = insn_cost1 (insn, + twin == insn ? + REG_NOTE_KIND (link) : + REG_DEP_ANTI, + twin == insn ? link : 0, + next) + priority (next); + + if (next_priority > this_priority) + this_priority = next_priority; + } + } + + twin = PREV_INSN (twin); } + while (twin != prev_first); } INSN_PRIORITY (insn) = this_priority; INSN_PRIORITY_KNOWN (insn) = 1; @@ -684,6 +832,30 @@ rank_for_schedule (const void *x, const void *y) if (priority_val) return priority_val; + /* Prefer speculative insn with greater dependencies weakness. */ + if (spec_info) + { + ds_t ds1, ds2; + dw_t dw1, dw2; + int dw; + + ds1 = TODO_SPEC (tmp) & SPECULATIVE; + if (ds1) + dw1 = dep_weak (ds1); + else + dw1 = NO_DEP_WEAK; + + ds2 = TODO_SPEC (tmp2) & SPECULATIVE; + if (ds2) + dw2 = dep_weak (ds2); + else + dw2 = NO_DEP_WEAK; + + dw = dw2 - dw1; + if (dw > (NO_DEP_WEAK / 8) || dw < -(NO_DEP_WEAK / 8)) + return dw; + } + /* Prefer an insn with smaller contribution to registers-pressure. */ if (!reload_completed && (weight_val = INSN_REG_WEIGHT (tmp) - INSN_REG_WEIGHT (tmp2))) @@ -1015,17 +1187,29 @@ schedule_insn (rtx insn) /* Update dependent instructions. */ for (link = INSN_DEPEND (insn); link; link = XEXP (link, 1)) { - int effective_cost; rtx next = XEXP (link, 0); resolve_dep (next, insn); - effective_cost = try_ready (next); - - if (effective_cost >= 0 - && SCHED_GROUP_P (next) - && advance < effective_cost) - advance = effective_cost; + if (!RECOVERY_BLOCK (insn) + || RECOVERY_BLOCK (insn) == EXIT_BLOCK_PTR) + { + int effective_cost; + + effective_cost = try_ready (next); + + if (effective_cost >= 0 + && SCHED_GROUP_P (next) + && advance < effective_cost) + advance = effective_cost; + } + else + /* 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); + fix_recovery_deps (RECOVERY_BLOCK (insn)); + } } /* Annotate the instruction with issue information -- TImode @@ -1056,7 +1240,7 @@ unlink_other_notes (rtx insn, rtx tail) { rtx prev = PREV_INSN (insn); - while (insn != tail && NOTE_P (insn)) + while (insn != tail && NOTE_NOT_BB_P (insn)) { rtx next = NEXT_INSN (insn); /* Delete the note from its current position. */ @@ -1066,8 +1250,7 @@ unlink_other_notes (rtx insn, rtx tail) PREV_INSN (next) = prev; /* See sched_analyze to see how these are handled. */ - if (NOTE_LINE_NUMBER (insn) != NOTE_INSN_BASIC_BLOCK - && NOTE_LINE_NUMBER (insn) != NOTE_INSN_EH_REGION_BEG + 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. */ @@ -1113,31 +1296,43 @@ unlink_line_notes (rtx insn, rtx tail) return insn; } -/* Return the head and tail pointers of BB. */ +/* Return the head and tail pointers of ebb starting at BEG and ending + at END. */ void -get_block_head_tail (int b, rtx *headp, rtx *tailp) -{ - /* HEAD and TAIL delimit the basic block being scheduled. */ - rtx head = BB_HEAD (BASIC_BLOCK (b)); - rtx tail = BB_END (BASIC_BLOCK (b)); - - /* Don't include any notes or labels at the beginning of the - basic block, or notes at the ends of basic blocks. */ - while (head != tail) - { - if (NOTE_P (head)) - head = NEXT_INSN (head); - else if (NOTE_P (tail)) - tail = PREV_INSN (tail); - else if (LABEL_P (head)) - head = NEXT_INSN (head); - else - break; - } +get_ebb_head_tail (basic_block beg, basic_block end, rtx *headp, rtx *tailp) +{ + rtx beg_head = BB_HEAD (beg); + rtx beg_tail = BB_END (beg); + rtx end_head = BB_HEAD (end); + rtx end_tail = BB_END (end); + + /* Don't include any notes or labels at the beginning of the BEG + basic block, or notes at the end of the END basic blocks. */ + + if (LABEL_P (beg_head)) + beg_head = NEXT_INSN (beg_head); + + while (beg_head != beg_tail) + if (NOTE_P (beg_head)) + beg_head = NEXT_INSN (beg_head); + else + break; + + *headp = beg_head; + + if (beg == end) + end_head = beg_head; + else if (LABEL_P (end_head)) + end_head = NEXT_INSN (end_head); + + while (end_head != end_tail) + if (NOTE_P (end_tail)) + end_tail = PREV_INSN (end_tail); + else + break; - *headp = head; - *tailp = tail; + *tailp = end_tail; } /* Return nonzero if there are no real insns in the range [ HEAD, TAIL ]. */ @@ -1172,7 +1367,7 @@ rm_line_notes (rtx head, rtx tail) /* Farm out notes, and maybe save them in NOTE_LIST. This is needed to keep the debugger from getting completely deranged. */ - if (NOTE_P (insn)) + if (NOTE_NOT_BB_P (insn)) { prev = insn; insn = unlink_line_notes (insn, next_tail); @@ -1263,6 +1458,7 @@ restore_line_notes (rtx head, rtx tail) NEXT_INSN (prev) = note; PREV_INSN (insn) = note; NEXT_INSN (note) = insn; + set_block_for_insn (note, BLOCK_FOR_INSN (insn)); } else { @@ -1350,7 +1546,7 @@ rm_other_notes (rtx head, rtx tail) /* Farm out notes, and maybe save them in NOTE_LIST. This is needed to keep the debugger from getting completely deranged. */ - if (NOTE_P (insn)) + if (NOTE_NOT_BB_P (insn)) { prev = insn; @@ -1391,44 +1587,51 @@ find_set_reg_weight (rtx x) /* Calculate INSN_REG_WEIGHT for all insns of a block. */ static void -find_insn_reg_weight (int b) +find_insn_reg_weight (basic_block bb) { rtx insn, next_tail, head, tail; - get_block_head_tail (b, &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)) - { - int reg_weight = 0; - rtx x; - - /* Handle register life information. */ - if (! INSN_P (insn)) - continue; + find_insn_reg_weight1 (insn); +} - /* Increment weight for each register born here. */ - x = PATTERN (insn); - reg_weight += find_set_reg_weight (x); - if (GET_CODE (x) == PARALLEL) - { - int j; - for (j = XVECLEN (x, 0) - 1; j >= 0; j--) - { - x = XVECEXP (PATTERN (insn), 0, j); - reg_weight += find_set_reg_weight (x); - } - } - /* Decrement weight for each register that dies here. */ - for (x = REG_NOTES (insn); x; x = XEXP (x, 1)) +/* Calculate INSN_REG_WEIGHT for single insntruction. + Separated from find_insn_reg_weight because of need + to initialize new instruction in generate_recovery_code. */ +static void +find_insn_reg_weight1 (rtx insn) +{ + int reg_weight = 0; + rtx x; + + /* Handle register life information. */ + if (! INSN_P (insn)) + return; + + /* Increment weight for each register born here. */ + x = PATTERN (insn); + reg_weight += find_set_reg_weight (x); + if (GET_CODE (x) == PARALLEL) + { + int j; + for (j = XVECLEN (x, 0) - 1; j >= 0; j--) { - if (REG_NOTE_KIND (x) == REG_DEAD - || REG_NOTE_KIND (x) == REG_UNUSED) - reg_weight--; + x = XVECEXP (PATTERN (insn), 0, j); + reg_weight += find_set_reg_weight (x); } - - INSN_REG_WEIGHT (insn) = reg_weight; } + /* Decrement weight for each register that dies here. */ + for (x = REG_NOTES (insn); x; x = XEXP (x, 1)) + { + if (REG_NOTE_KIND (x) == REG_DEAD + || REG_NOTE_KIND (x) == REG_UNUSED) + reg_weight--; + } + + INSN_REG_WEIGHT (insn) = reg_weight; } /* Move insns that became ready to fire from queue to ready list. */ @@ -1670,36 +1873,17 @@ debug_ready_list (struct ready_list *ready) fprintf (sched_dump, "\n"); } -/* move_insn1: Remove INSN from insn chain, and link it after LAST insn. */ - -static rtx -move_insn1 (rtx insn, rtx last) -{ - NEXT_INSN (PREV_INSN (insn)) = NEXT_INSN (insn); - PREV_INSN (NEXT_INSN (insn)) = PREV_INSN (insn); - - NEXT_INSN (insn) = NEXT_INSN (last); - PREV_INSN (NEXT_INSN (last)) = insn; - - NEXT_INSN (last) = insn; - PREV_INSN (insn) = last; - - return insn; -} - /* Search INSN for REG_SAVE_NOTE note pairs for NOTE_INSN_EHREGION_{BEG,END}; and convert them back into 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. LAST is the last instruction - output by the instruction scheduler. Return the new value of LAST. */ + NOTE_INSN_EH_REGION_{BEG,END} NOTEs. */ -static rtx -reemit_notes (rtx insn, rtx last) +static void +reemit_notes (rtx insn) { - rtx note, retval; + rtx note, last = insn; - retval = last; for (note = REG_NOTES (insn); note; note = XEXP (note, 1)) { if (REG_NOTE_KIND (note) == REG_SAVE_NOTE) @@ -1710,31 +1894,96 @@ reemit_notes (rtx insn, rtx last) remove_note (insn, note); } } - return retval; } -/* Move INSN. Reemit notes if needed. +/* Move INSN. Reemit notes if needed. Update CFG, if needed. */ +static void +move_insn (rtx insn) +{ + rtx last = last_scheduled_insn; - Return the last insn emitted by the scheduler, which is the - return value from the first call to reemit_notes. */ + if (PREV_INSN (insn) != last) + { + basic_block bb; + rtx note; + int jump_p = 0; -static rtx -move_insn (rtx insn, rtx last) -{ - rtx retval = NULL; + bb = BLOCK_FOR_INSN (insn); + + /* BB_HEAD is either LABEL or NOTE. */ + gcc_assert (BB_HEAD (bb) != insn); + + if (BB_END (bb) == insn) + /* If this is last instruction in BB, move end marker one + instruction up. */ + { + /* Jumps are always placed at the end of basic block. */ + 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)); + + gcc_assert (BLOCK_FOR_INSN (PREV_INSN (insn)) == bb); + + BB_END (bb) = PREV_INSN (insn); + } - move_insn1 (insn, last); + gcc_assert (BB_END (bb) != last); - /* If this is the first call to reemit_notes, then record - its return value. */ - if (retval == NULL_RTX) - retval = reemit_notes (insn, insn); - else - reemit_notes (insn, insn); + if (jump_p) + /* We move the block note along with jump. */ + { + /* NT is needed for assertion below. */ + rtx nt = current_sched_info->next_tail; + + note = NEXT_INSN (insn); + while (NOTE_NOT_BB_P (note) && note != nt) + note = NEXT_INSN (note); + + if (note != nt + && (LABEL_P (note) + || BARRIER_P (note))) + note = NEXT_INSN (note); + + gcc_assert (NOTE_INSN_BASIC_BLOCK_P (note)); + } + else + note = insn; + + NEXT_INSN (PREV_INSN (insn)) = NEXT_INSN (note); + PREV_INSN (NEXT_INSN (note)) = PREV_INSN (insn); + + NEXT_INSN (note) = NEXT_INSN (last); + PREV_INSN (NEXT_INSN (last)) = note; - SCHED_GROUP_P (insn) = 0; + NEXT_INSN (last) = insn; + PREV_INSN (insn) = last; + + bb = BLOCK_FOR_INSN (last); + + if (jump_p) + { + fix_jump_move (insn); + + if (BLOCK_FOR_INSN (insn) != bb) + move_block_after_check (insn); + + gcc_assert (BB_END (bb) == last); + } + + set_block_for_insn (insn, bb); + + /* Update BB_END, if needed. */ + if (BB_END (bb) == last) + BB_END (bb) = insn; + } + + reemit_notes (insn); - return retval; + SCHED_GROUP_P (insn) = 0; } /* The following structure describe an entry of the stack of choices. */ @@ -1784,13 +2033,15 @@ static int cached_issue_rate = 0; insns is insns with the best rank (the first insn in READY). To make this function tries different samples of ready insns. READY is current queue `ready'. Global array READY_TRY reflects what - insns are already issued in this try. INDEX will contain index - of the best insn in READY. The following function is used only for - first cycle multipass scheduling. */ + insns are already issued in this try. MAX_POINTS is the sum of points + of all instructions in READY. The function stops immediatelly, + 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) +max_issue (struct ready_list *ready, int *index, int max_points) { - int n, i, all, n_ready, best, delay, tries_num; + int n, i, all, n_ready, best, delay, tries_num, points = -1; struct choice_entry *top; rtx insn; @@ -1815,7 +2066,8 @@ max_issue (struct ready_list *ready, int *index) { best = top - choice_stack; *index = choice_stack [1].index; - if (top->n == issue_rate - cycle_issued_insns || best == all) + points = top->n; + if (top->n == max_points || best == all) break; } i = top->index; @@ -1838,7 +2090,7 @@ max_issue (struct ready_list *ready, int *index) top->rest--; n = top->n; if (memcmp (top->state, curr_state, dfa_state_size) != 0) - n++; + n += ISSUE_POINTS (insn); top++; top->rest = cached_first_cycle_multipass_dfa_lookahead; top->index = i; @@ -1855,7 +2107,14 @@ max_issue (struct ready_list *ready, int *index) ready_try [top->index] = 0; top--; } - memcpy (curr_state, choice_stack->state, dfa_state_size); + 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); + return best; } @@ -1875,9 +2134,10 @@ choose_ready (struct ready_list *ready) else { /* Try to choose the better insn. */ - int index = 0, i; + int index = 0, i, n; rtx insn; - + int more_issue, max_points, try_data = 1, try_control = 1; + if (cached_first_cycle_multipass_dfa_lookahead != lookahead) { cached_first_cycle_multipass_dfa_lookahead = lookahead; @@ -1888,26 +2148,79 @@ choose_ready (struct ready_list *ready) insn = ready_element (ready, 0); if (INSN_CODE (insn) < 0) return ready_remove_first (ready); + + if (spec_info + && spec_info->flags & (PREFER_NON_DATA_SPEC + | PREFER_NON_CONTROL_SPEC)) + { + rtx x; + int s; + + for (i = 0, n = ready->n_ready; i < n; i++) + { + x = ready_element (ready, i); + s = TODO_SPEC (x); + + if (spec_info->flags & PREFER_NON_DATA_SPEC + && !(s & DATA_SPEC)) + { + try_data = 0; + if (!(spec_info->flags & PREFER_NON_CONTROL_SPEC) + || !try_control) + break; + } + + if (spec_info->flags & PREFER_NON_CONTROL_SPEC + && !(s & CONTROL_SPEC)) + { + try_control = 0; + if (!(spec_info->flags & PREFER_NON_DATA_SPEC) || !try_data) + break; + } + } + } + + 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))) + { + change_queue_index (insn, 1); + return 0; + } + + max_points = ISSUE_POINTS (insn); + more_issue = issue_rate - cycle_issued_insns - 1; + 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))); + && !targetm.sched.first_cycle_multipass_dfa_lookahead_guard + (insn))); + + if (!ready_try [i] && more_issue-- > 0) + max_points += ISSUE_POINTS (insn); } - if (max_issue (ready, &index) == 0) + + if (max_issue (ready, &index, max_points) == 0) return ready_remove_first (ready); else return ready_remove (ready, index); } } -/* Use forward list scheduling to rearrange insns of block B in region RGN, - possibly bringing insns from subsequent blocks in the same region. */ +/* Use forward list scheduling to rearrange insns of block pointed to by + TARGET_BB, possibly bringing insns from subsequent blocks in the same + region. */ void -schedule_block (int b, int rgn_n_insns) +schedule_block (basic_block *target_bb, int rgn_n_insns1) { struct ready_list ready; int i, first_cycle_insn_p; @@ -1930,35 +2243,28 @@ schedule_block (int b, int rgn_n_insns) gcc_assert (head != tail || INSN_P (head)); + added_recovery_block_p = false; + /* Debug info. */ if (sched_verbose) - { - fprintf (sched_dump, - ";; ======================================================\n"); - fprintf (sched_dump, - ";; -- basic block %d from %d to %d -- %s reload\n", - b, INSN_UID (head), INSN_UID (tail), - (reload_completed ? "after" : "before")); - fprintf (sched_dump, - ";; ======================================================\n"); - fprintf (sched_dump, "\n"); - } + dump_new_block_header (0, *target_bb, head, tail); state_reset (curr_state); /* Allocate the ready list. */ readyp = &ready; - ready.veclen = rgn_n_insns + 1 + issue_rate; + ready.vec = NULL; + ready_try = NULL; + choice_stack = NULL; + + rgn_n_insns = -1; + extend_ready (rgn_n_insns1 + 1); + ready.first = ready.veclen - 1; - ready.vec = XNEWVEC (rtx, ready.veclen); ready.n_ready = 0; /* It is used for first cycle multipass scheduling. */ temp_state = alloca (dfa_state_size); - ready_try = XCNEWVEC (char, rgn_n_insns + 1); - choice_stack = XNEWVEC (struct choice_entry, rgn_n_insns + 1); - for (i = 0; i <= rgn_n_insns; i++) - choice_stack[i].state = xmalloc (dfa_state_size); if (targetm.sched.md_init) targetm.sched.md_init (sched_dump, sched_verbose, ready.veclen); @@ -1966,6 +2272,9 @@ schedule_block (int b, int rgn_n_insns) /* We start inserting insns after PREV_HEAD. */ last_scheduled_insn = prev_head; + gcc_assert (NOTE_P (last_scheduled_insn) + && BLOCK_FOR_INSN (last_scheduled_insn) == *target_bb); + /* Initialize INSN_QUEUE. Q_SIZE is the total number of insns in the queue. */ q_ptr = 0; @@ -1981,6 +2290,9 @@ schedule_block (int b, int rgn_n_insns) in try_ready () (which is called through init_ready_list ()). */ (*current_sched_info->init_ready_list) (); + /* Now we can restore basic block notes and maintain precise cfg. */ + restore_bb_notes (*target_bb); + last_clock_var = -1; advance = 0; @@ -2048,7 +2360,7 @@ schedule_block (int b, int rgn_n_insns) if (sched_verbose >= 2) { - fprintf (sched_dump, ";;\tReady list (t =%3d): ", + fprintf (sched_dump, ";;\tReady list (t = %3d): ", clock_var); debug_ready_list (&ready); } @@ -2074,7 +2386,11 @@ schedule_block (int b, int rgn_n_insns) /* Select and remove the insn from the ready list. */ if (sort_p) - insn = choose_ready (&ready); + { + insn = choose_ready (&ready); + if (!insn) + continue; + } else insn = ready_remove_first (&ready); @@ -2136,11 +2452,50 @@ schedule_block (int b, int rgn_n_insns) continue; } - if (! (*current_sched_info->can_schedule_ready_p) (insn)) - goto next; + if (current_sched_info->can_schedule_ready_p + && ! (*current_sched_info->can_schedule_ready_p) (insn)) + /* We normally get here only if we don't want to move + insn from the split block. */ + { + TODO_SPEC (insn) = (TODO_SPEC (insn) & ~SPECULATIVE) | HARD_DEP; + continue; + } + + /* DECISSION is made. */ + + if (TODO_SPEC (insn) & SPECULATIVE) + generate_recovery_code (insn); + + if (control_flow_insn_p (last_scheduled_insn) + /* This is used to 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 successing block has jump, it [jump] will try + move at the end of current bb, thus corrupting CFG. */ + || current_sched_info->advance_target_bb (*target_bb, insn)) + { + *target_bb = current_sched_info->advance_target_bb + (*target_bb, 0); + + if (sched_verbose) + { + rtx x; - last_scheduled_insn = move_insn (insn, last_scheduled_insn); + x = next_real_insn (last_scheduled_insn); + gcc_assert (x); + dump_new_block_header (1, *target_bb, x, tail); + } + last_scheduled_insn = bb_note (*target_bb); + } + + /* Update counters, etc in the scheduler's front end. */ + (*current_sched_info->begin_schedule_ready) (insn, + last_scheduled_insn); + + move_insn (insn); + last_scheduled_insn = insn; + if (memcmp (curr_state, temp_state, dfa_state_size) != 0) { cycle_issued_insns++; @@ -2165,7 +2520,6 @@ schedule_block (int b, int rgn_n_insns) if (advance != 0) break; - next: first_cycle_insn_p = 0; /* Sort the ready list based on priority. This must be @@ -2202,17 +2556,33 @@ schedule_block (int b, int rgn_n_insns) { /* We must maintain QUEUE_INDEX between blocks in region. */ for (i = ready.n_ready - 1; i >= 0; i--) - QUEUE_INDEX (ready_element (&ready, i)) = QUEUE_NOWHERE; + { + rtx x; + + x = ready_element (&ready, i); + QUEUE_INDEX (x) = QUEUE_NOWHERE; + TODO_SPEC (x) = (TODO_SPEC (x) & ~SPECULATIVE) | HARD_DEP; + } if (q_size) for (i = 0; i <= max_insn_queue_index; i++) { rtx link; for (link = insn_queue[i]; link; link = XEXP (link, 1)) - QUEUE_INDEX (XEXP (link, 0)) = QUEUE_NOWHERE; + { + rtx x; + + x = XEXP (link, 0); + QUEUE_INDEX (x) = QUEUE_NOWHERE; + TODO_SPEC (x) = (TODO_SPEC (x) & ~SPECULATIVE) | HARD_DEP; + } free_INSN_LIST_list (&insn_queue[i]); } + } + if (!current_sched_info->queue_must_finish_empty + || added_recovery_block_p) + { /* INSN_TICK (minimum clock tick at which the insn becomes ready) may be not correct for the insn in the subsequent blocks of the region. We should use a correct value of @@ -2222,6 +2592,14 @@ schedule_block (int b, int rgn_n_insns) 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); @@ -2234,12 +2612,16 @@ schedule_block (int b, int rgn_n_insns) 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; @@ -2303,16 +2685,23 @@ set_priorities (rtx head, rtx tail) return n_insn; } +/* Next LUID to assign to an instruction. */ +static int luid; + /* Initialize some global state for the scheduler. */ void sched_init (void) { - int luid; 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; @@ -2327,6 +2716,25 @@ sched_init (void) 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; + else + /* So we won't read anything accidently. */ + spec_info = 0; +#ifdef ENABLE_CHECKING + check_sched_flags (); +#endif + } + else + /* So we won't read anything accidently. */ + spec_info = 0; + /* Initialize issue_rate. */ if (targetm.sched.issue_rate) issue_rate = targetm.sched.issue_rate (); @@ -2340,15 +2748,14 @@ sched_init (void) cached_first_cycle_multipass_dfa_lookahead = 0; } - /* We use LUID 0 for the fake insn (UID 0) which holds dependencies for - pseudos which do not cross calls. */ - old_max_uid = get_max_uid () + 1; - - h_i_d = XCNEWVEC (struct haifa_insn_data, old_max_uid); + 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; @@ -2387,59 +2794,30 @@ sched_init (void) init_alias_analysis (); - if (write_symbols != NO_DEBUG) - { - rtx line; - - line_note_head = XCNEWVEC (rtx, last_basic_block); - - /* 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. */ - - FOR_EACH_BB (b) - { - 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; - } - } - } - - /* The following is done to keep current_sched_info->next_tail non null. */ + line_note_head = 0; + old_last_basic_block = 0; + glat_start = 0; + glat_end = 0; + extend_bb (0); - 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; - } + if (current_sched_info->flags & USE_GLAT) + init_glat (); /* 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->index); + find_insn_reg_weight (b); 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; + +#ifdef ENABLE_CHECKING + /* This is used preferably for finding bugs in check_cfg () itself. */ + check_cfg (0, 0); +#endif } /* Free global data used during insn scheduling. */ @@ -2452,11 +2830,38 @@ sched_finish (void) dfa_finish (); free_dependency_caches (); end_alias_analysis (); - if (write_symbols != NO_DEBUG) - free (line_note_head); + free (line_note_head); + free_glat (); if (targetm.sched.md_finish_global) - targetm.sched.md_finish_global (sched_dump, sched_verbose); + targetm.sched.md_finish_global (sched_dump, sched_verbose); + + if (spec_info && spec_info->dump) + { + char c = reload_completed ? 'a' : 'b'; + + fprintf (spec_info->dump, + ";; %s:\n", current_function_name ()); + + fprintf (spec_info->dump, + ";; Procedure %cr-begin-data-spec motions == %d\n", + c, nr_begin_data); + fprintf (spec_info->dump, + ";; Procedure %cr-be-in-data-spec motions == %d\n", + c, nr_be_in_data); + fprintf (spec_info->dump, + ";; Procedure %cr-begin-control-spec motions == %d\n", + c, nr_begin_control); + fprintf (spec_info->dump, + ";; Procedure %cr-be-in-control-spec motions == %d\n", + c, nr_be_in_control); + } + +#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; } @@ -2538,26 +2943,164 @@ fix_inter_tick (rtx head, rtx tail) 0 < N - queued for N cycles. */ int try_ready (rtx next) -{ - if (LOG_LINKS (next) - || (current_sched_info->new_ready - && !current_sched_info->new_ready (next))) - { - gcc_assert (QUEUE_INDEX (next) == QUEUE_NOWHERE); - return -1; - } - - if (sched_verbose >= 2) - fprintf (sched_dump, ";;\t\tdependencies resolved: insn %s\n", - (*current_sched_info->print_insn) (next, 0)); - - adjust_priority (next); +{ + ds_t old_ts, *ts; + rtx link; - return fix_tick_ready (next); -} + ts = &TODO_SPEC (next); + old_ts = *ts; -/* Calculate INSN_TICK of NEXT and add it to either ready or queue list. */ -static int + gcc_assert (!(old_ts & ~(SPECULATIVE | HARD_DEP)) + && ((old_ts & HARD_DEP) + || (old_ts & SPECULATIVE))); + + if (!(current_sched_info->flags & DO_SPECULATION)) + { + if (!LOG_LINKS (next)) + *ts &= ~HARD_DEP; + } + 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; + } + 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); + + /* * 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 + need to change anything. */ + && *ts != old_ts) + { + int res; + rtx new_pat; + + gcc_assert ((*ts & SPECULATIVE) && !(*ts & ~SPECULATIVE)); + + res = speculate_insn (next, *ts, &new_pat); + + switch (res) + { + case -1: + /* It would be nice to change DEP_STATUS of all dependences, + which have ((DEP_STATUS & SPECULATIVE) == *ts) to HARD_DEP, + so we won't reanalyze anything. */ + *ts = (*ts & ~SPECULATIVE) | HARD_DEP; + break; + + case 0: + /* We follow the rule, that every speculative insn + has non-null ORIG_PAT. */ + if (!ORIG_PAT (next)) + ORIG_PAT (next) = PATTERN (next); + break; + + case 1: + if (!ORIG_PAT (next)) + /* If we gonna to overwrite the original pattern of insn, + save it. */ + ORIG_PAT (next) = PATTERN (next); + + change_pattern (next, new_pat); + break; + + default: + gcc_unreachable (); + } + } + + /* We need to restore pattern only if (*ts == 0), because otherwise it is + either correct (*ts & SPECULATIVE), + or we simply don't care (*ts & HARD_DEP). */ + + gcc_assert (!ORIG_PAT (next) + || !RECOVERY_BLOCK (next) + || RECOVERY_BLOCK (next) == EXIT_BLOCK_PTR); + + if (*ts == 0 && ORIG_PAT (next) && !RECOVERY_BLOCK (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. */ + { + change_pattern (next, ORIG_PAT (next)); + ORIG_PAT (next) = 0; + } + + if (*ts & HARD_DEP) + { + /* We can't assert (QUEUE_INDEX (next) == QUEUE_NOWHERE) here because + control-speculative NEXT could have been discarded by sched-rgn.c + (the same case as when discarded by can_schedule_ready_p ()). */ + /*gcc_assert (QUEUE_INDEX (next) == QUEUE_NOWHERE);*/ + + change_queue_index (next, QUEUE_NOWHERE); + return -1; + } + + if (sched_verbose >= 2) + { + int s = TODO_SPEC (next); + + fprintf (sched_dump, ";;\t\tdependencies resolved: insn %s", + (*current_sched_info->print_insn) (next, 0)); + + if (spec_info && spec_info->dump) + { + if (s & BEGIN_DATA) + fprintf (spec_info->dump, "; data-spec;"); + if (s & BEGIN_CONTROL) + fprintf (spec_info->dump, "; control-spec;"); + if (s & BE_IN_CONTROL) + fprintf (spec_info->dump, "; in-control-spec;"); + } + + fprintf (sched_dump, "\n"); + } + + adjust_priority (next); + + return fix_tick_ready (next); +} + +/* Calculate INSN_TICK of NEXT and add it to either ready or queue list. */ +static int fix_tick_ready (rtx next) { rtx link; @@ -2570,7 +3113,7 @@ fix_tick_ready (rtx next) int full_p; tick = INSN_TICK (next); - /* if tick is note equals to INVALID_TICK, then update + /* if tick is not equal to INVALID_TICK, then update INSN_TICK of NEXT with the most recent resolved dependence cost. Overwise, recalculate from scratch. */ full_p = tick == INVALID_TICK; @@ -2581,10 +3124,7 @@ fix_tick_ready (rtx next) pro = XEXP (link, 0); gcc_assert (INSN_TICK (pro) >= MIN_TICK); - /* We should specify FORWARD link to insn_cost, - but are giving a BACKWARD one. - This is ok, because only REG_NOTE_KIND of link is used. - May be substitute LINK with REG_NOTE_KIND? */ + tick1 = INSN_TICK (pro) + insn_cost (pro, link, next); if (tick1 > tick) tick = tick1; @@ -2601,7 +3141,7 @@ fix_tick_ready (rtx next) delay = QUEUE_READY; change_queue_index (next, delay); - + return delay; } @@ -2664,4 +3204,1447 @@ resolve_dep (rtx next, rtx insn) && (LOG_LINKS (next) || INSN_DEP_COUNT (next) == 0)); } +/* Extend H_I_D data. */ +static void +extend_h_i_d (void) +{ + /* 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; + + if (targetm.sched.h_i_d_extended) + targetm.sched.h_i_d_extended (); +} + +/* 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; + + 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)); + + rgn_n_insns += n_new_insns; + + choice_stack = XRESIZEVEC (struct choice_entry, choice_stack, + rgn_n_insns + 1); + + for (i = rgn_n_insns; n_new_insns--; i--) + choice_stack[i].state = xmalloc (dfa_state_size); +} + +/* 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) +{ + gcc_assert (INSN_P (insn)); + /* These structures have scheduler scope. */ + extend_h_i_d (); + init_h_i_d (insn); + + extend_dependency_caches (1, 0); +} + +/* Extends global and local scheduler structures to include information + about just emitted INSN. */ +static void +extend_all (rtx insn) +{ + extend_global (insn); + + /* These structures have block scope. */ + extend_ready (1); + + (*current_sched_info->add_remove_insn) (insn, 0); +} + +/* 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) +{ + 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); +} + +/* Generates recovery code for INSN. */ +static void +generate_recovery_code (rtx insn) +{ + if (TODO_SPEC (insn) & BEGIN_SPEC) + begin_speculative_block (insn); + + /* Here we have insn with no dependencies to + instructions other then CHECK_SPEC ones. */ + + if (TODO_SPEC (insn) & BE_IN_SPEC) + add_to_speculative_block (insn); +} + +/* Helper function. + Tries to add speculative dependencies of type FS between instructions + in LINK list and TWIN. */ +static void +process_insn_depend_be_in_spec (rtx link, rtx twin, ds_t fs) +{ + for (; link; link = XEXP (link, 1)) + { + ds_t ds; + rtx consumer; + + consumer = XEXP (link, 0); + + ds = DEP_STATUS (link); + + if (fs && (ds & DEP_TYPES) == DEP_TRUE) + ds = (ds & ~BEGIN_SPEC) | fs; + + add_back_forw_dep (consumer, twin, REG_NOTE_KIND (link), ds); + } +} + +/* Generates recovery code for BEGIN speculative INSN. */ +static void +begin_speculative_block (rtx insn) +{ + if (TODO_SPEC (insn) & BEGIN_DATA) + nr_begin_data++; + if (TODO_SPEC (insn) & BEGIN_CONTROL) + nr_begin_control++; + + create_check_block_twin (insn, false); + + TODO_SPEC (insn) &= ~BEGIN_SPEC; +} + +/* Generates recovery code for BE_IN speculative INSN. */ +static void +add_to_speculative_block (rtx insn) +{ + ds_t ts; + rtx link, twins = NULL; + + ts = TODO_SPEC (insn); + gcc_assert (!(ts & ~BE_IN_SPEC)); + + if (ts & BE_IN_DATA) + nr_be_in_data++; + if (ts & BE_IN_CONTROL) + nr_be_in_control++; + + TODO_SPEC (insn) &= ~BE_IN_SPEC; + gcc_assert (!TODO_SPEC (insn)); + + DONE_SPEC (insn) |= ts; + + /* First we convert all simple checks to branchy. */ + for (link = LOG_LINKS (insn); link;) + { + rtx check; + + check = XEXP (link, 0); + + if (RECOVERY_BLOCK (check)) + { + create_check_block_twin (check, true); + link = LOG_LINKS (insn); + } + else + link = XEXP (link, 1); + } + + clear_priorities (insn); + + do + { + rtx link, 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); + + check = XEXP (link, 0); + gcc_assert (!RECOVERY_BLOCK (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)); + + if (sched_verbose && spec_info->dump) + /* INSN_BB (insn) isn't determined for twin insns yet. + So we can't use current_sched_info->print_insn. */ + fprintf (spec_info->dump, ";;\t\tGenerated twin insn : %d/rec%d\n", + INSN_UID (twin), rec->index); + + twins = alloc_INSN_LIST (twin, twins); + + /* Add dependences between TWIN and all apropriate + 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; + } + while (1); + } + while (link); + + process_insn_depend_be_in_spec (INSN_DEPEND (insn), twin, ts); + + for (link = LOG_LINKS (insn); link;) + { + check = XEXP (link, 0); + + if (BLOCK_FOR_INSN (check) == rec) + { + delete_back_forw_dep (insn, check); + link = LOG_LINKS (insn); + } + else + link = XEXP (link, 1); + } + } + 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). */ + while (twins) + { + rtx twin; + + twin = XEXP (twins, 0); + calc_priorities (twin); + add_back_forw_dep (twin, insn, REG_DEP_OUTPUT, DEP_OUTPUT); + + twin = XEXP (twins, 1); + free_INSN_LIST_node (twins); + twins = twin; + } +} + +/* Extends and fills with zeros (only the new part) array pointed to by P. */ +void * +xrecalloc (void *p, size_t new_nmemb, size_t old_nmemb, size_t size) +{ + gcc_assert (new_nmemb >= old_nmemb); + p = XRESIZEVAR (void, p, new_nmemb * size); + memset (((char *) p) + old_nmemb * size, 0, (new_nmemb - old_nmemb) * size); + 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 +find_fallthru_edge (basic_block pred) +{ + edge e; + edge_iterator ei; + basic_block succ; + + succ = pred->next_bb; + gcc_assert (succ->prev_bb == pred); + + if (EDGE_COUNT (pred->succs) <= EDGE_COUNT (succ->preds)) + { + FOR_EACH_EDGE (e, ei, pred->succs) + if (e->flags & EDGE_FALLTHRU) + { + gcc_assert (e->dest == succ); + return e; + } + } + else + { + FOR_EACH_EDGE (e, ei, succ->preds) + if (e->flags & EDGE_FALLTHRU) + { + gcc_assert (e->src == pred); + return e; + } + } + + return NULL; +} + +/* Initialize BEFORE_RECOVERY variable. */ +static void +init_before_recovery (void) +{ + basic_block last; + edge e; + + last = EXIT_BLOCK_PTR->prev_bb; + e = find_fallthru_edge (last); + + if (e) + { + /* We create two basic blocks: + 1. Single instruction block is inserted right after E->SRC + and has jump to + 2. Empty block right before EXIT_BLOCK. + Between these two blocks recovery blocks will be emitted. */ + + basic_block single, empty; + rtx x, label; + + single = create_empty_bb (last); + empty = create_empty_bb (single); + + single->count = last->count; + empty->count = last->count; + single->frequency = last->frequency; + empty->frequency = last->frequency; + BB_COPY_PARTITION (single, last); + BB_COPY_PARTITION (empty, last); + + redirect_edge_succ (e, single); + make_single_succ_edge (single, empty, 0); + make_single_succ_edge (empty, EXIT_BLOCK_PTR, + EDGE_FALLTHRU | EDGE_CAN_FALLTHRU); + + label = block_label (empty); + x = emit_jump_insn_after (gen_jump (label), BB_END (single)); + JUMP_LABEL (x) = label; + LABEL_NUSES (label)++; + extend_global (x); + + emit_barrier_after (x); + + add_block (empty, 0); + add_block (single, 0); + + before_recovery = single; + + if (sched_verbose >= 2 && spec_info->dump) + fprintf (spec_info->dump, + ";;\t\tFixed fallthru to EXIT : %d->>%d->%d->>EXIT\n", + last->index, single->index, empty->index); + } + else + before_recovery = last; +} + +/* Returns new recovery block. */ +static basic_block +create_recovery_block (void) +{ + rtx label; + basic_block rec; + + added_recovery_block_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))); + + rec = create_basic_block (label, label, before_recovery); + emit_barrier_after (BB_END (rec)); + + if (BB_PARTITION (before_recovery) != BB_UNPARTITIONED) + BB_SET_PARTITION (rec, BB_COLD_PARTITION); + + if (sched_verbose && spec_info->dump) + fprintf (spec_info->dump, ";;\t\tGenerated recovery block rec%d\n", + rec->index); + + before_recovery = rec; + + return rec; +} + +/* 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; + ds_t fs; + + gcc_assert (ORIG_PAT (insn) + && (!mutate_p + || (RECOVERY_BLOCK (insn) == EXIT_BLOCK_PTR + && !(TODO_SPEC (insn) & SPECULATIVE)))); + + /* Create recovery block. */ + if (mutate_p || targetm.sched.needs_block_p (insn)) + { + rec = create_recovery_block (); + label = BB_HEAD (rec); + } + else + { + rec = EXIT_BLOCK_PTR; + label = 0; + } + + /* Emit CHECK. */ + check = targetm.sched.gen_check (insn, label, mutate_p); + + if (rec != EXIT_BLOCK_PTR) + { + /* To have mem_reg alive at the beginning of second_bb, + we emit check BEFORE insn, so insn after splitting + insn will be at the beginning of second_bb, which will + provide us with the correct life information. */ + check = emit_jump_insn_before (check, insn); + JUMP_LABEL (check) = label; + LABEL_NUSES (label)++; + } + else + check = emit_insn_before (check, insn); + + /* Extend data structures. */ + extend_all (check); + RECOVERY_BLOCK (check) = rec; + + if (sched_verbose && spec_info->dump) + fprintf (spec_info->dump, ";;\t\tGenerated check insn : %s\n", + (*current_sched_info->print_insn) (check, 0)); + + gcc_assert (ORIG_PAT (insn)); + + /* Initialize TWIN (twin is a dublicate of original instruction + in the recovery block). */ + if (rec != EXIT_BLOCK_PTR) + { + rtx link; + + for (link = RESOLVED_DEPS (insn); link; link = XEXP (link, 1)) + if (DEP_STATUS (link) & DEP_OUTPUT) + { + RESOLVED_DEPS (check) = + alloc_DEPS_LIST (XEXP (link, 0), RESOLVED_DEPS (check), DEP_TRUE); + PUT_REG_NOTE_KIND (RESOLVED_DEPS (check), REG_DEP_TRUE); + } + + twin = emit_insn_after (ORIG_PAT (insn), BB_END (rec)); + extend_global (twin); + + if (sched_verbose && spec_info->dump) + /* INSN_BB (insn) isn't determined for twin insns yet. + So we can't use current_sched_info->print_insn. */ + fprintf (spec_info->dump, ";;\t\tGenerated twin insn : %d/rec%d\n", + INSN_UID (twin), rec->index); + } + else + { + ORIG_PAT (check) = ORIG_PAT (insn); + HAS_INTERNAL_DEP (check) = 1; + twin = check; + /* ??? We probably should change all OUTPUT dependencies to + (TRUE | OUTPUT). */ + } + + RESOLVED_DEPS (twin) = copy_DEPS_LIST_list (RESOLVED_DEPS (insn)); + + 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); + + 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); + + 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); + } + + /* 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)) + { + ds_t ds; + + /* If BEGIN_DATA: [insn ~~TRUE~~> producer]: + check --TRUE--> producer ??? or ANTI ??? + twin --TRUE--> producer + twin --ANTI--> check + + If BEGIN_CONTROL: [insn ~~ANTI~~> producer]: + check --ANTI--> producer + twin --ANTI--> producer + twin --ANTI--> check + + If BE_IN_SPEC: [insn ~~TRUE~~> producer]: + check ~~TRUE~~> producer + twin ~~TRUE~~> producer + twin --ANTI--> check */ + + ds = DEP_STATUS (link); + + if (ds & BEGIN_SPEC) + { + gcc_assert (!mutate_p); + ds &= ~BEGIN_SPEC; + } + + 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); + } + else + add_back_forw_dep (check, XEXP (link, 0), REG_NOTE_KIND (link), ds); + } + + 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); + + fs = 0; + + /* Fields (DONE_SPEC (x) & BEGIN_SPEC) and CHECK_SPEC (x) are set only + here. */ + + gcc_assert (!DONE_SPEC (insn)); + + if (!mutate_p) + { + ds_t ts = TODO_SPEC (insn); + + DONE_SPEC (insn) = ts & BEGIN_SPEC; + CHECK_SPEC (check) = ts & BEGIN_SPEC; + + 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)); + } + else + CHECK_SPEC (check) = CHECK_SPEC (insn); + + /* Future speculations: call the helper. */ + process_insn_depend_be_in_spec (INSN_DEPEND (insn), twin, fs); + + if (rec != EXIT_BLOCK_PTR) + { + /* Which types of dependencies should we use here is, + generally, machine-dependent question... But, for now, + it is not. */ + + 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); + } + else + { + if (spec_info->dump) + 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); + + if (QUEUE_INDEX (insn) != QUEUE_NOWHERE) + try_ready (check); + + sched_remove_insn (insn); + } + + add_back_forw_dep (twin, check, REG_DEP_ANTI, DEP_ANTI); + } + else + add_back_forw_dep (check, insn, REG_DEP_TRUE, DEP_TRUE | DEP_OUTPUT); + + if (!mutate_p) + /* Fix priorities. If MUTATE_P is nonzero, this is not neccessary, + because it'll be done later in add_to_speculative_block. */ + { + clear_priorities (twin); + calc_priorities (twin); + } +} + +/* Removes dependency between instructions in the recovery block REC + and usual region instructions. It keeps inner dependences so it + won't be neccessary to recompute them. */ +static void +fix_recovery_deps (basic_block rec) +{ + rtx note, insn, link, jump, ready_list = 0; + bitmap_head in_ready; + + bitmap_initialize (&in_ready, 0); + + /* NOTE - a basic block note. */ + note = NEXT_INSN (BB_HEAD (rec)); + gcc_assert (NOTE_INSN_BASIC_BLOCK_P (note)); + insn = BB_END (rec); + gcc_assert (JUMP_P (insn)); + insn = PREV_INSN (insn); + + do + { + for (link = INSN_DEPEND (insn); link;) + { + rtx consumer; + + consumer = XEXP (link, 0); + + if (BLOCK_FOR_INSN (consumer) != rec) + { + delete_back_forw_dep (consumer, insn); + + 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); + + link = XEXP (link, 1); + } + } + + insn = PREV_INSN (insn); + } + while (insn != note); + + bitmap_clear (&in_ready); + + /* Try to add instructions to the ready or queue list. */ + for (link = ready_list; link; link = XEXP (link, 1)) + try_ready (XEXP (link, 0)); + free_INSN_LIST_list (&ready_list); + + /* Fixing jump's dependences. */ + insn = BB_HEAD (rec); + jump = BB_END (rec); + + gcc_assert (LABEL_P (insn)); + insn = NEXT_INSN (insn); + + gcc_assert (NOTE_INSN_BASIC_BLOCK_P (insn)); + 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) +{ + rtx line; + + 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; + } +} + +/* Changes pattern of the INSN to NEW_PAT. */ +static void +change_pattern (rtx insn, rtx new_pat) +{ + int t; + + 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) +{ + gcc_assert (current_sched_info->flags & DO_SPECULATION + && (request & SPECULATIVE)); + + if (!NONJUMP_INSN_P (insn) + || HAS_INTERNAL_DEP (insn) + || SCHED_GROUP_P (insn) + || side_effects_p (PATTERN (insn)) + || (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; + } + + return targetm.sched.speculate_insn (insn, request & BEGIN_SPEC, new_pat); +} + +/* Print some information about block BB, which starts with HEAD and + ends with TAIL, before scheduling it. + I is zero, if scheduler is about to start with the fresh ebb. */ +static void +dump_new_block_header (int i, basic_block bb, rtx head, rtx tail) +{ + if (!i) + fprintf (sched_dump, + ";; ======================================================\n"); + else + fprintf (sched_dump, + ";; =====================ADVANCING TO=====================\n"); + fprintf (sched_dump, + ";; -- basic block %d from %d to %d -- %s reload\n", + bb->index, INSN_UID (head), INSN_UID (tail), + (reload_completed ? "after" : "before")); + fprintf (sched_dump, + ";; ======================================================\n"); + fprintf (sched_dump, "\n"); +} + +/* Unlink basic block notes and labels and saves them, so they + can be easily restored. We unlink basic block notes in EBB to + provide back-compatability with the previous code, as target backends + assume, that there'll be only instructions between + current_sched_info->{head and tail}. We restore these notes as soon + as we can. + FIRST (LAST) is the first (last) basic block in the ebb. + NB: In usual case (FIRST == LAST) nothing is really done. */ +void +unlink_bb_notes (basic_block first, basic_block last) +{ + /* We DON'T unlink basic block notes of the first block in the ebb. */ + if (first == last) + return; + + bb_header = xmalloc (last_basic_block * sizeof (*bb_header)); + + /* Make a sentinel. */ + if (last->next_bb != EXIT_BLOCK_PTR) + bb_header[last->next_bb->index] = 0; + + first = first->next_bb; + do + { + rtx prev, label, note, next; + + label = BB_HEAD (last); + if (LABEL_P (label)) + note = NEXT_INSN (label); + else + note = label; + gcc_assert (NOTE_INSN_BASIC_BLOCK_P (note)); + + prev = PREV_INSN (label); + next = NEXT_INSN (note); + gcc_assert (prev && next); + + NEXT_INSN (prev) = next; + PREV_INSN (next) = prev; + + bb_header[last->index] = label; + + if (last == first) + break; + + last = last->prev_bb; + } + while (1); +} + +/* Restore basic block notes. + FIRST is the first basic block in the ebb. */ +static void +restore_bb_notes (basic_block first) +{ + if (!bb_header) + return; + + /* We DON'T unlink basic block notes of the first block in the ebb. */ + first = first->next_bb; + /* Remember: FIRST is actually a second basic block in the ebb. */ + + while (first != EXIT_BLOCK_PTR + && bb_header[first->index]) + { + rtx prev, label, note, next; + + label = bb_header[first->index]; + prev = PREV_INSN (label); + next = NEXT_INSN (prev); + + if (LABEL_P (label)) + note = NEXT_INSN (label); + else + note = label; + gcc_assert (NOTE_INSN_BASIC_BLOCK_P (note)); + + bb_header[first->index] = 0; + + NEXT_INSN (prev) = label; + NEXT_INSN (note) = next; + PREV_INSN (next) = note; + + first = first->next_bb; + } + + free (bb_header); + 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. */ +static void +fix_jump_move (rtx jump) +{ + basic_block bb, jump_bb, jump_bb_next; + + bb = BLOCK_FOR_INSN (PREV_INSN (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)); + + if (!NOTE_INSN_BASIC_BLOCK_P (BB_END (jump_bb_next))) + /* if jump_bb_next is not empty. */ + BB_END (jump_bb) = BB_END (jump_bb_next); + + if (BB_END (bb) != PREV_INSN (jump)) + /* Then there are instruction after jump that should be placed + to jump_bb_next. */ + BB_END (jump_bb_next) = BB_END (bb); + else + /* Otherwise jump_bb_next is empty. */ + BB_END (jump_bb_next) = NEXT_INSN (BB_HEAD (jump_bb_next)); + + /* To make assertion in move_insn happy. */ + BB_END (bb) = PREV_INSN (jump); + + update_bb_for_insn (jump_bb_next); +} + +/* Fix CFG after interblock movement of control_flow_insn_p JUMP. */ +static void +move_block_after_check (rtx jump) +{ + basic_block bb, jump_bb, jump_bb_next; + VEC(edge,gc) *t; + + bb = BLOCK_FOR_INSN (PREV_INSN (jump)); + jump_bb = BLOCK_FOR_INSN (jump); + jump_bb_next = jump_bb->next_bb; + + update_bb_for_insn (jump_bb); + + gcc_assert (RECOVERY_BLOCK (jump) + || RECOVERY_BLOCK (BB_END (jump_bb_next))); + + unlink_block (jump_bb_next); + link_block (jump_bb_next, bb); + + t = bb->succs; + bb->succs = 0; + move_succs (&(jump_bb->succs), bb); + move_succs (&(jump_bb_next->succs), jump_bb); + move_succs (&t, jump_bb_next); + + if (current_sched_info->fix_recovery_cfg) + current_sched_info->fix_recovery_cfg + (bb->index, jump_bb->index, jump_bb_next->index); +} + +/* Helper function for move_block_after_check. + This functions attaches edge vector pointed to by SUCCSP to + block TO. */ +static void +move_succs (VEC(edge,gc) **succsp, basic_block to) +{ + edge e; + edge_iterator ei; + + gcc_assert (to->succs == 0); + + to->succs = *succsp; + + FOR_EACH_EDGE (e, ei, to->succs) + e->src = to; + + *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 neccessary to use such functions as + split_block (), as they assume consistancy 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) +{ + 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. */ +static void +clear_priorities (rtx insn) +{ + rtx link; + + for (link = LOG_LINKS (insn); link; link = XEXP (link, 1)) + { + rtx pro; + + pro = XEXP (link, 0); + if (INSN_PRIORITY_KNOWN (pro)) + { + INSN_PRIORITY_KNOWN (pro) = 0; + clear_priorities (pro); + } + } +} + +/* Recompute priorities of instructions, whose priorities might have been + changed due to changes in INSN. */ +static void +calc_priorities (rtx insn) +{ + rtx link; + + for (link = LOG_LINKS (insn); link; link = XEXP (link, 1)) + { + rtx pro; + + pro = XEXP (link, 0); + if (!INSN_PRIORITY_KNOWN (pro)) + { + priority (pro); + calc_priorities (pro); + } + } +} + + +/* Add dependences between JUMP and other instructions in the recovery + block. INSN is the first insn the recovery block. */ +static void +add_jump_dependencies (rtx insn, rtx jump) +{ + do + { + insn = NEXT_INSN (insn); + if (insn == jump) + break; + + if (!INSN_DEPEND (insn)) + add_back_forw_dep (jump, insn, REG_DEP_ANTI, DEP_ANTI); + } + while (1); + gcc_assert (LOG_LINKS (jump)); +} + +/* Return the NOTE_INSN_BASIC_BLOCK of BB. */ +static rtx +bb_note (basic_block bb) +{ + rtx note; + + note = BB_HEAD (bb); + if (LABEL_P (note)) + note = NEXT_INSN (note); + + gcc_assert (NOTE_INSN_BASIC_BLOCK_P (note)); + return 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 non-zero, if edge vector pointed to by EL has edge with TYPE in + its flags. */ +static int +has_edge_p (VEC(edge,gc) *el, int type) +{ + edge e; + edge_iterator ei; + + FOR_EACH_EDGE (e, ei, el) + if (e->flags & type) + return 1; + return 0; +} + +/* Check few properties of CFG between HEAD and TAIL. + If HEAD (TAIL) is NULL check from the beginning (till the end) of the + instruction stream. */ +static void +check_cfg (rtx head, rtx tail) +{ + rtx next_tail; + basic_block bb = 0; + int not_first = 0, not_last; + + if (head == NULL) + head = get_insns (); + if (tail == NULL) + tail = get_last_insn (); + next_tail = NEXT_INSN (tail); + + do + { + not_last = head != tail; + + if (not_first) + gcc_assert (NEXT_INSN (PREV_INSN (head)) == head); + if (not_last) + gcc_assert (PREV_INSN (NEXT_INSN (head)) == head); + + if (LABEL_P (head) + || (NOTE_INSN_BASIC_BLOCK_P (head) + && (!not_first + || (not_first && !LABEL_P (PREV_INSN (head)))))) + { + gcc_assert (bb == 0); + bb = BLOCK_FOR_INSN (head); + if (bb != 0) + gcc_assert (BB_HEAD (bb) == head); + else + /* This is the case of jump table. See inside_basic_block_p (). */ + gcc_assert (LABEL_P (head) && !inside_basic_block_p (head)); + } + + if (bb == 0) + { + gcc_assert (!inside_basic_block_p (head)); + head = NEXT_INSN (head); + } + else + { + gcc_assert (inside_basic_block_p (head) + || NOTE_P (head)); + gcc_assert (BLOCK_FOR_INSN (head) == bb); + + if (LABEL_P (head)) + { + head = NEXT_INSN (head); + gcc_assert (NOTE_INSN_BASIC_BLOCK_P (head)); + } + else + { + if (control_flow_insn_p (head)) + { + gcc_assert (BB_END (bb) == head); + + if (any_uncondjump_p (head)) + 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))); + } + if (BB_END (bb) == head) + { + if (EDGE_COUNT (bb->succs) > 1) + gcc_assert (control_flow_insn_p (head) + || has_edge_p (bb->succs, EDGE_COMPLEX)); + bb = 0; + } + + head = NEXT_INSN (head); + } + } + + not_first = 1; + } + while (head != next_tail); + + gcc_assert (bb == 0); +} + +/* Perform few consistancy checks of flags in different data structures. */ +static void +check_sched_flags (void) +{ + 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); +} + +/* Checks global_live_at_{start, end} regsets. */ +void +check_reg_live (void) +{ + basic_block bb; + + FOR_ALL_BB (bb) + { + int i; + + i = bb->index; + + if (glat_start[i]) + gcc_assert (bitmap_equal_p (bb->il.rtl->global_live_at_start, + glat_start[i])); + if (glat_end[i]) + gcc_assert (bitmap_equal_p (bb->il.rtl->global_live_at_end, + glat_end[i])); + } +} +#endif /* ENABLE_CHECKING */ + #endif /* INSN_SCHEDULING */ -- cgit v1.1