X-Git-Url: http://git.sourceforge.jp/view?p=pf3gnuchains%2Fgcc-fork.git;a=blobdiff_plain;f=gcc%2Fsched-deps.c;h=817d8f966f983efaac4023c7e703f0ea78a8d3b3;hp=c3dc5793d2305810e3df7b00d1caf26e6213dc1a;hb=22f7168e83bec47d92c5530b64befbc781f2d49a;hpb=c5947ab74b33c00fda68d7477e66c18f5ccda500 diff --git a/gcc/sched-deps.c b/gcc/sched-deps.c index c3dc5793d23..817d8f966f9 100644 --- a/gcc/sched-deps.c +++ b/gcc/sched-deps.c @@ -1,7 +1,7 @@ /* Instruction scheduling pass. This file computes dependencies between instructions. Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, - 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006 + 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010 Free Software Foundation, Inc. Contributed by Michael Tiemann (tiemann@cygnus.com) Enhanced by, and currently maintained by, Jim Wilson (wilson@cygnus.com) @@ -10,7 +10,7 @@ This file is part of GCC. 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 @@ -19,15 +19,14 @@ FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License 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 +. */ #include "config.h" #include "system.h" #include "coretypes.h" #include "tm.h" -#include "toplev.h" +#include "diagnostic-core.h" #include "rtl.h" #include "tm_p.h" #include "hard-reg-set.h" @@ -37,12 +36,14 @@ Software Foundation, 51 Franklin Street, Fifth Floor, Boston, MA #include "insn-config.h" #include "insn-attr.h" #include "except.h" -#include "toplev.h" #include "recog.h" #include "sched-int.h" #include "params.h" #include "cselib.h" -#include "df.h" +#include "ira.h" +#include "target.h" + +#ifdef INSN_SCHEDULING #ifdef ENABLE_CHECKING #define CHECK (true) @@ -50,6 +51,18 @@ Software Foundation, 51 Franklin Street, Fifth Floor, Boston, MA #define CHECK (false) #endif +/* In deps->last_pending_memory_flush marks JUMP_INSNs that weren't + added to the list because of flush_pending_lists, stands just + for itself and not for any other pending memory reads/writes. */ +#define NON_FLUSH_JUMP_KIND REG_DEP_ANTI +#define NON_FLUSH_JUMP_P(x) (REG_NOTE_KIND (x) == NON_FLUSH_JUMP_KIND) + +/* Holds current parameters for the dependency analyzer. */ +struct sched_deps_info_def *sched_deps_info; + +/* The data is specific to the Haifa scheduler. */ +VEC(haifa_deps_insn_data_def, heap) *h_d_i_d = NULL; + /* Return the major type present in the DS. */ enum reg_note ds_to_dk (ds_t ds) @@ -86,12 +99,12 @@ dk_to_ds (enum reg_note dk) /* Functions to operate with dependence information container - dep_t. */ /* Init DEP with the arguments. */ -static void -init_dep_1 (dep_t dep, rtx pro, rtx con, enum reg_note kind, ds_t ds) +void +init_dep_1 (dep_t dep, rtx pro, rtx con, enum reg_note type, ds_t ds) { DEP_PRO (dep) = pro; DEP_CON (dep) = con; - DEP_KIND (dep) = kind; + DEP_TYPE (dep) = type; DEP_STATUS (dep) = ds; } @@ -103,7 +116,7 @@ init_dep (dep_t dep, rtx pro, rtx con, enum reg_note kind) { ds_t ds; - if ((current_sched_info->flags & USE_DEPS_LIST) != 0) + if ((current_sched_info->flags & USE_DEPS_LIST)) ds = dk_to_ds (kind); else ds = -1; @@ -118,19 +131,105 @@ copy_dep (dep_t to, dep_t from) memcpy (to, from, sizeof (*to)); } -/* Functions to operate with a single link from the dependencies lists - - dep_link_t. */ +static void dump_ds (FILE *, ds_t); -/* Return true if dep_link L is consistent. */ -static bool -dep_link_consistent_p (dep_link_t l) +/* Define flags for dump_dep (). */ + +/* Dump producer of the dependence. */ +#define DUMP_DEP_PRO (2) + +/* Dump consumer of the dependence. */ +#define DUMP_DEP_CON (4) + +/* Dump type of the dependence. */ +#define DUMP_DEP_TYPE (8) + +/* Dump status of the dependence. */ +#define DUMP_DEP_STATUS (16) + +/* Dump all information about the dependence. */ +#define DUMP_DEP_ALL (DUMP_DEP_PRO | DUMP_DEP_CON | DUMP_DEP_TYPE \ + |DUMP_DEP_STATUS) + +/* Dump DEP to DUMP. + FLAGS is a bit mask specifying what information about DEP needs + to be printed. + If FLAGS has the very first bit set, then dump all information about DEP + and propagate this bit into the callee dump functions. */ +static void +dump_dep (FILE *dump, dep_t dep, int flags) { - dep_link_t next = DEP_LINK_NEXT (l); + if (flags & 1) + flags |= DUMP_DEP_ALL; + + fprintf (dump, "<"); + + if (flags & DUMP_DEP_PRO) + fprintf (dump, "%d; ", INSN_UID (DEP_PRO (dep))); + + if (flags & DUMP_DEP_CON) + fprintf (dump, "%d; ", INSN_UID (DEP_CON (dep))); + + if (flags & DUMP_DEP_TYPE) + { + char t; + enum reg_note type = DEP_TYPE (dep); + + switch (type) + { + case REG_DEP_TRUE: + t = 't'; + break; + + case REG_DEP_OUTPUT: + t = 'o'; + break; + + case REG_DEP_ANTI: + t = 'a'; + break; + + default: + gcc_unreachable (); + break; + } + + fprintf (dump, "%c; ", t); + } + + if (flags & DUMP_DEP_STATUS) + { + if (current_sched_info->flags & USE_DEPS_LIST) + dump_ds (dump, DEP_STATUS (dep)); + } + + fprintf (dump, ">"); +} + +/* Default flags for dump_dep (). */ +static int dump_dep_flags = (DUMP_DEP_PRO | DUMP_DEP_CON); + +/* Dump all fields of DEP to STDERR. */ +void +sd_debug_dep (dep_t dep) +{ + dump_dep (stderr, dep, 1); + fprintf (stderr, "\n"); +} + +/* Determine whether DEP is a dependency link of a non-debug insn on a + debug insn. */ - return (next == NULL - || &DEP_LINK_NEXT (l) == DEP_LINK_PREV_NEXTP (next)); +static inline bool +depl_on_debug_p (dep_link_t dep) +{ + return (DEBUG_INSN_P (DEP_LINK_PRO (dep)) + && !DEBUG_INSN_P (DEP_LINK_CON (dep))); } +/* Functions to operate with a single link from the dependencies lists - + dep_link_t. */ + /* Attach L to appear after link X whose &DEP_LINK_NEXT (X) is given by PREV_NEXT_P. */ static void @@ -162,6 +261,10 @@ static void add_to_deps_list (dep_link_t link, deps_list_t l) { attach_dep_link (link, &DEPS_LIST_FIRST (l)); + + /* Don't count debug deps. */ + if (!depl_on_debug_p (link)) + ++DEPS_LIST_N_LINKS (l); } /* Detach dep_link L from the list. */ @@ -176,250 +279,153 @@ detach_dep_link (dep_link_t l) if (next != NULL) DEP_LINK_PREV_NEXTP (next) = prev_nextp; - /* Though this is property is not used anywhere but in the assert in - attach_dep_link (), this can prevent latent errors. */ DEP_LINK_PREV_NEXTP (l) = NULL; DEP_LINK_NEXT (l) = NULL; } -/* Move LINK from whatever list it is now to L. */ -void -move_dep_link (dep_link_t link, deps_list_t l) +/* Remove link LINK from list LIST. */ +static void +remove_from_deps_list (dep_link_t link, deps_list_t list) { detach_dep_link (link); - add_to_deps_list (link, l); -} - -/* Check L's and its successors' consistency. - This is, potentially, an expensive check, hence it should be guarded by - ENABLE_CHECKING at all times. */ -static bool -dep_links_consistent_p (dep_link_t l) -{ - while (l != NULL) - { - if (dep_link_consistent_p (l)) - l = DEP_LINK_NEXT (l); - else - return false; - } - return true; + /* Don't count debug deps. */ + if (!depl_on_debug_p (link)) + --DEPS_LIST_N_LINKS (list); } -/* Dump dep_nodes starting from l. */ +/* Move link LINK from list FROM to list TO. */ static void -dump_dep_links (FILE *dump, dep_link_t l) +move_dep_link (dep_link_t link, deps_list_t from, deps_list_t to) { - while (l != NULL) - { - dep_t d = DEP_LINK_DEP (l); - - fprintf (dump, "%d%c>%d ", INSN_UID (DEP_PRO (d)), - dep_link_consistent_p (l) ? '-' : '!', INSN_UID (DEP_CON (d))); - - l = DEP_LINK_NEXT (l); - } - - fprintf (dump, "\n"); + remove_from_deps_list (link, from); + add_to_deps_list (link, to); } -/* Dump dep_nodes starting from L to stderr. */ -void -debug_dep_links (dep_link_t l) +/* Return true of LINK is not attached to any list. */ +static bool +dep_link_is_detached_p (dep_link_t link) { - dump_dep_links (stderr, l); + return DEP_LINK_PREV_NEXTP (link) == NULL; } -/* Obstack to allocate dep_nodes and deps_lists on. */ -static struct obstack deps_obstack; +/* Pool to hold all dependency nodes (dep_node_t). */ +static alloc_pool dn_pool; -/* Obstack to hold forward dependencies lists (deps_list_t). */ -static struct obstack *dl_obstack = &deps_obstack; +/* Number of dep_nodes out there. */ +static int dn_pool_diff = 0; -/* Obstack to hold all dependency nodes (dep_node_t). */ -static struct obstack *dn_obstack = &deps_obstack; +/* Create a dep_node. */ +static dep_node_t +create_dep_node (void) +{ + dep_node_t n = (dep_node_t) pool_alloc (dn_pool); + dep_link_t back = DEP_NODE_BACK (n); + dep_link_t forw = DEP_NODE_FORW (n); -/* Functions to operate with dependences lists - deps_list_t. */ + DEP_LINK_NODE (back) = n; + DEP_LINK_NEXT (back) = NULL; + DEP_LINK_PREV_NEXTP (back) = NULL; -/* Allocate deps_list. + DEP_LINK_NODE (forw) = n; + DEP_LINK_NEXT (forw) = NULL; + DEP_LINK_PREV_NEXTP (forw) = NULL; - If ON_OBSTACK_P is true, allocate the list on the obstack. This is done for - INSN_FORW_DEPS lists because they should live till the end of scheduling. + ++dn_pool_diff; - INSN_BACK_DEPS and INSN_RESOLVED_BACK_DEPS lists are allocated on the free - store and are being freed in haifa-sched.c: schedule_insn (). */ -static deps_list_t -alloc_deps_list (bool on_obstack_p) -{ - if (on_obstack_p) - return obstack_alloc (dl_obstack, sizeof (struct _deps_list)); - else - return xmalloc (sizeof (struct _deps_list)); + return n; } -/* Initialize deps_list L. */ +/* Delete dep_node N. N must not be connected to any deps_list. */ static void -init_deps_list (deps_list_t l) -{ - DEPS_LIST_FIRST (l) = NULL; -} - -/* Create (allocate and init) deps_list. - The meaning of ON_OBSTACK_P is the same as in alloc_deps_list (). */ -deps_list_t -create_deps_list (bool on_obstack_p) +delete_dep_node (dep_node_t n) { - deps_list_t l = alloc_deps_list (on_obstack_p); - - init_deps_list (l); - return l; -} + gcc_assert (dep_link_is_detached_p (DEP_NODE_BACK (n)) + && dep_link_is_detached_p (DEP_NODE_FORW (n))); -/* Free dep_data_nodes that present in L. */ -static void -clear_deps_list (deps_list_t l) -{ - /* All dep_nodes are allocated on the dn_obstack. They'll be freed with - the obstack. */ + --dn_pool_diff; - DEPS_LIST_FIRST (l) = NULL; + pool_free (dn_pool, n); } -/* Free deps_list L. */ -void -free_deps_list (deps_list_t l) -{ - gcc_assert (deps_list_empty_p (l)); - free (l); -} +/* Pool to hold dependencies lists (deps_list_t). */ +static alloc_pool dl_pool; -/* Delete (clear and free) deps_list L. */ -void -delete_deps_list (deps_list_t l) -{ - clear_deps_list (l); - free_deps_list (l); -} +/* Number of deps_lists out there. */ +static int dl_pool_diff = 0; -/* Return true if L is empty. */ -bool -deps_list_empty_p (deps_list_t l) -{ - return DEPS_LIST_FIRST (l) == NULL; -} +/* Functions to operate with dependences lists - deps_list_t. */ -/* Check L's consistency. - This is, potentially, an expensive check, hence it should be guarded by - ENABLE_CHECKING at all times. */ +/* Return true if list L is empty. */ static bool -deps_list_consistent_p (deps_list_t l) -{ - dep_link_t first = DEPS_LIST_FIRST (l); - - return (first == NULL - || (&DEPS_LIST_FIRST (l) == DEP_LINK_PREV_NEXTP (first) - && dep_links_consistent_p (first))); -} - -/* Dump L to F. */ -static void -dump_deps_list (FILE *f, deps_list_t l) -{ - dump_dep_links (f, DEPS_LIST_FIRST (l)); -} - -/* Dump L to STDERR. */ -void -debug_deps_list (deps_list_t l) +deps_list_empty_p (deps_list_t l) { - dump_deps_list (stderr, l); + return DEPS_LIST_N_LINKS (l) == 0; } -/* Add a dependency described by DEP to the list L. - L should be either INSN_BACK_DEPS or INSN_RESOLVED_BACK_DEPS. */ -void -add_back_dep_to_deps_list (deps_list_t l, dep_t dep_from) +/* Create a new deps_list. */ +static deps_list_t +create_deps_list (void) { - dep_node_t n = (dep_node_t) obstack_alloc (dn_obstack, - sizeof (*n)); - dep_t dep_to = DEP_NODE_DEP (n); - dep_link_t back = DEP_NODE_BACK (n); - dep_link_t forw = DEP_NODE_FORW (n); - - copy_dep (dep_to, dep_from); - - DEP_LINK_NODE (back) = n; - DEP_LINK_NODE (forw) = n; + deps_list_t l = (deps_list_t) pool_alloc (dl_pool); - /* There is no particular need to initialize these four fields except to make - assert in attach_dep_link () happy. */ - DEP_LINK_NEXT (back) = NULL; - DEP_LINK_PREV_NEXTP (back) = NULL; - DEP_LINK_NEXT (forw) = NULL; - DEP_LINK_PREV_NEXTP (forw) = NULL; + DEPS_LIST_FIRST (l) = NULL; + DEPS_LIST_N_LINKS (l) = 0; - add_to_deps_list (back, l); + ++dl_pool_diff; + return l; } -/* Find the dep_link with producer PRO in deps_list L. */ -dep_link_t -find_link_by_pro_in_deps_list (deps_list_t l, rtx pro) +/* Free deps_list L. */ +static void +free_deps_list (deps_list_t l) { - dep_link_t link; + gcc_assert (deps_list_empty_p (l)); - FOR_EACH_DEP_LINK (link, l) - if (DEP_LINK_PRO (link) == pro) - return link; + --dl_pool_diff; - return NULL; + pool_free (dl_pool, l); } -/* Find the dep_link with consumer CON in deps_list L. */ -dep_link_t -find_link_by_con_in_deps_list (deps_list_t l, rtx con) +/* Return true if there is no dep_nodes and deps_lists out there. + After the region is scheduled all the dependency nodes and lists + should [generally] be returned to pool. */ +bool +deps_pools_are_empty_p (void) { - dep_link_t link; - - FOR_EACH_DEP_LINK (link, l) - if (DEP_LINK_CON (link) == con) - return link; - - return NULL; + return dn_pool_diff == 0 && dl_pool_diff == 0; } -/* Make a copy of FROM in TO with substituting consumer with CON. - TO and FROM should be RESOLVED_BACK_DEPS lists. */ -void -copy_deps_list_change_con (deps_list_t to, deps_list_t from, rtx con) +/* Remove all elements from L. */ +static void +clear_deps_list (deps_list_t l) { - dep_link_t l; + do + { + dep_link_t link = DEPS_LIST_FIRST (l); - gcc_assert (deps_list_empty_p (to)); + if (link == NULL) + break; - FOR_EACH_DEP_LINK (l, from) - { - add_back_dep_to_deps_list (to, DEP_LINK_DEP (l)); - DEP_LINK_CON (DEPS_LIST_FIRST (to)) = con; + remove_from_deps_list (link, l); } + while (1); } static regset reg_pending_sets; static regset reg_pending_clobbers; static regset reg_pending_uses; - -/* The following enumeration values tell us what dependencies we - should use to implement the barrier. We use true-dependencies for - TRUE_BARRIER and anti-dependencies for MOVE_BARRIER. */ -enum reg_pending_barrier_mode -{ - NOT_A_BARRIER = 0, - MOVE_BARRIER, - TRUE_BARRIER -}; - static enum reg_pending_barrier_mode reg_pending_barrier; +/* Hard registers implicitly clobbered or used (or may be implicitly + clobbered or used) by the currently analyzed insn. For example, + insn in its constraint has one register class. Even if there is + currently no hard register in the insn, the particular hard + register will be in the insn after reload pass because the + constraint requires it. */ +static HARD_REG_SET implicit_reg_pending_clobbers; +static HARD_REG_SET implicit_reg_pending_uses; + /* To speed up the test for duplicate dependency links we keep a record of dependencies created by add_dependence when the average number of instructions in a basic block is very large. @@ -433,70 +439,57 @@ static enum reg_pending_barrier_mode reg_pending_barrier; has enough entries to represent a dependency on any other insn in the insn chain. All bitmap for true dependencies cache is allocated then the rest two ones are also allocated. */ -static bitmap_head *true_dependency_cache; -static bitmap_head *output_dependency_cache; -static bitmap_head *anti_dependency_cache; -static bitmap_head *spec_dependency_cache; +static bitmap_head *true_dependency_cache = NULL; +static bitmap_head *output_dependency_cache = NULL; +static bitmap_head *anti_dependency_cache = NULL; +static bitmap_head *spec_dependency_cache = NULL; static int cache_size; -/* To speed up checking consistency of formed forward insn - dependencies we use the following cache. Another possible solution - could be switching off checking duplication of insns in forward - dependencies. */ -#ifdef ENABLE_CHECKING -static bitmap_head *forward_dependency_cache; -#endif - -static int deps_may_trap_p (rtx); +static int deps_may_trap_p (const_rtx); static void add_dependence_list (rtx, rtx, int, enum reg_note); -static void add_dependence_list_and_free (rtx, rtx *, int, enum reg_note); +static void add_dependence_list_and_free (struct deps_desc *, rtx, + rtx *, int, enum reg_note); static void delete_all_dependences (rtx); static void fixup_sched_groups (rtx); -static void flush_pending_lists (struct deps *, rtx, int, int); -static void sched_analyze_1 (struct deps *, rtx, rtx); -static void sched_analyze_2 (struct deps *, rtx, rtx); -static void sched_analyze_insn (struct deps *, rtx, rtx); +static void flush_pending_lists (struct deps_desc *, rtx, int, int); +static void sched_analyze_1 (struct deps_desc *, rtx, rtx); +static void sched_analyze_2 (struct deps_desc *, rtx, rtx); +static void sched_analyze_insn (struct deps_desc *, rtx, rtx); -static rtx sched_get_condition (rtx); -static int conditions_mutex_p (rtx, rtx); +static bool sched_has_condition_p (const_rtx); +static int conditions_mutex_p (const_rtx, const_rtx, bool, bool); -static enum DEPS_ADJUST_RESULT maybe_add_or_update_back_dep_1 (rtx, rtx, - enum reg_note, ds_t, rtx, rtx, dep_link_t **); -static enum DEPS_ADJUST_RESULT add_or_update_back_dep_1 (rtx, rtx, - enum reg_note, ds_t, rtx, rtx, dep_link_t **); -static void add_back_dep (rtx, rtx, enum reg_note, ds_t); +static enum DEPS_ADJUST_RESULT maybe_add_or_update_dep_1 (dep_t, bool, + rtx, rtx); +static enum DEPS_ADJUST_RESULT add_or_update_dep_1 (dep_t, bool, rtx, rtx); -static void adjust_add_sorted_back_dep (rtx, dep_link_t, dep_link_t *); -static void adjust_back_add_forw_dep (rtx, dep_link_t *); -static void delete_forw_dep (dep_link_t); -static dw_t estimate_dep_weak (rtx, rtx); -#ifdef INSN_SCHEDULING #ifdef ENABLE_CHECKING -static void check_dep_status (enum reg_note, ds_t, bool); -#endif +static void check_dep (dep_t, bool); #endif /* Return nonzero if a load of the memory reference MEM can cause a trap. */ static int -deps_may_trap_p (rtx mem) +deps_may_trap_p (const_rtx mem) { - rtx addr = XEXP (mem, 0); + const_rtx addr = XEXP (mem, 0); if (REG_P (addr) && REGNO (addr) >= FIRST_PSEUDO_REGISTER) { - rtx t = get_reg_known_value (REGNO (addr)); + const_rtx t = get_reg_known_value (REGNO (addr)); if (t) addr = t; } return rtx_addr_can_trap_p (addr); } -/* Find the condition under which INSN is executed. */ +/* Find the condition under which INSN is executed. If REV is not NULL, + it is set to TRUE when the returned comparison should be reversed + to get the actual condition. */ static rtx -sched_get_condition (rtx insn) +sched_get_condition_with_rev (const_rtx insn, bool *rev) { rtx pat = PATTERN (insn); rtx src; @@ -504,6 +497,9 @@ sched_get_condition (rtx insn) if (pat == 0) return 0; + if (rev) + *rev = false; + if (GET_CODE (pat) == COND_EXEC) return COND_EXEC_TEST (pat); @@ -521,22 +517,34 @@ sched_get_condition (rtx insn) if (revcode == UNKNOWN) return 0; - return gen_rtx_fmt_ee (revcode, GET_MODE (cond), XEXP (cond, 0), - XEXP (cond, 1)); + + if (rev) + *rev = true; + return cond; } return 0; } +/* True when we can find a condition under which INSN is executed. */ +static bool +sched_has_condition_p (const_rtx insn) +{ + return !! sched_get_condition_with_rev (insn, NULL); +} + -/* Return nonzero if conditions COND1 and COND2 can never be both true. */ +/* Return nonzero if conditions COND1 and COND2 can never be both true. */ static int -conditions_mutex_p (rtx cond1, rtx cond2) +conditions_mutex_p (const_rtx cond1, const_rtx cond2, bool rev1, bool rev2) { if (COMPARISON_P (cond1) && COMPARISON_P (cond2) - && GET_CODE (cond1) == reversed_comparison_code (cond2, NULL) + && GET_CODE (cond1) == + (rev1==rev2 + ? reversed_comparison_code (cond2, NULL) + : GET_CODE (cond2)) && XEXP (cond1, 0) == XEXP (cond2, 0) && XEXP (cond1, 1) == XEXP (cond2, 1)) return 1; @@ -546,18 +554,19 @@ conditions_mutex_p (rtx cond1, rtx cond2) /* Return true if insn1 and insn2 can never depend on one another because the conditions under which they are executed are mutually exclusive. */ bool -sched_insns_conditions_mutex_p (rtx insn1, rtx insn2) +sched_insns_conditions_mutex_p (const_rtx insn1, const_rtx insn2) { rtx cond1, cond2; + bool rev1 = false, rev2 = false; - /* flow.c doesn't handle conditional lifetimes entirely correctly; + /* df doesn't handle conditional lifetimes entirely correctly; calls mess up the conditional lifetimes. */ if (!CALL_P (insn1) && !CALL_P (insn2)) { - cond1 = sched_get_condition (insn1); - cond2 = sched_get_condition (insn2); + cond1 = sched_get_condition_with_rev (insn1, &rev1); + cond2 = sched_get_condition_with_rev (insn2, &rev2); if (cond1 && cond2 - && conditions_mutex_p (cond1, cond2) + && conditions_mutex_p (cond1, cond2, rev1, rev2) /* Make sure first instruction doesn't affect condition of second instruction if switched. */ && !modified_in_p (cond1, insn2) @@ -569,346 +578,817 @@ sched_insns_conditions_mutex_p (rtx insn1, rtx insn2) return false; } -/* Add ELEM wrapped in an dep_link with reg note kind DEP_TYPE to the - INSN_BACK_DEPS (INSN), if it is not already there. DEP_TYPE indicates the - type of dependence that this link represents. DS, if nonzero, - indicates speculations, through which this dependence can be overcome. - MEM1 and MEM2, if non-null, corresponds to memory locations in case of - data speculation. The function returns a value indicating if an old entry - has been changed or a new entry has been added to insn's backward deps. - In case of changed entry CHANGED_LINKPP sets to its address. - See also the definition of enum DEPS_ADJUST_RESULT in sched-int.h. - Actual manipulation of dependence data structures is performed in - add_or_update_back_dep_1. */ -static enum DEPS_ADJUST_RESULT -maybe_add_or_update_back_dep_1 (rtx insn, rtx elem, enum reg_note dep_type, - ds_t ds, rtx mem1, rtx mem2, - dep_link_t **changed_linkpp) +/* Return true if INSN can potentially be speculated with type DS. */ +bool +sched_insn_is_legitimate_for_speculation_p (const_rtx insn, ds_t ds) { - gcc_assert (INSN_P (insn) && INSN_P (elem)); + if (HAS_INTERNAL_DEP (insn)) + return false; - /* Don't depend an insn on itself. */ - if (insn == elem) + if (!NONJUMP_INSN_P (insn)) + return false; + + if (SCHED_GROUP_P (insn)) + return false; + + if (IS_SPECULATION_CHECK_P (CONST_CAST_RTX (insn))) + return false; + + if (side_effects_p (PATTERN (insn))) + return false; + + if (ds & BE_IN_SPEC) + /* The following instructions, which depend on a speculatively scheduled + instruction, cannot be speculatively scheduled along. */ { -#ifdef INSN_SCHEDULING - if (current_sched_info->flags & DO_SPECULATION) - /* INSN has an internal dependence, which we can't overcome. */ - HAS_INTERNAL_DEP (insn) = 1; -#endif - return 0; + if (may_trap_or_fault_p (PATTERN (insn))) + /* If instruction might fault, it cannot be speculatively scheduled. + For control speculation it's obvious why and for data speculation + it's because the insn might get wrong input if speculation + wasn't successful. */ + return false; + + if ((ds & BE_IN_DATA) + && sched_has_condition_p (insn)) + /* If this is a predicated instruction, then it cannot be + speculatively scheduled. See PR35659. */ + return false; } - return add_or_update_back_dep_1 (insn, elem, dep_type, - ds, mem1, mem2, changed_linkpp); + return true; } -/* This function has the same meaning of parameters and return values - as maybe_add_or_update_back_dep_1. The only difference between these - two functions is that INSN and ELEM are guaranteed not to be the same - in this one. */ -static enum DEPS_ADJUST_RESULT -add_or_update_back_dep_1 (rtx insn, rtx elem, enum reg_note dep_type, - ds_t ds ATTRIBUTE_UNUSED, - rtx mem1 ATTRIBUTE_UNUSED, rtx mem2 ATTRIBUTE_UNUSED, - dep_link_t **changed_linkpp ATTRIBUTE_UNUSED) +/* Initialize LIST_PTR to point to one of the lists present in TYPES_PTR, + initialize RESOLVED_P_PTR with true if that list consists of resolved deps, + and remove the type of returned [through LIST_PTR] list from TYPES_PTR. + This function is used to switch sd_iterator to the next list. + !!! For internal use only. Might consider moving it to sched-int.h. */ +void +sd_next_list (const_rtx insn, sd_list_types_def *types_ptr, + deps_list_t *list_ptr, bool *resolved_p_ptr) { - bool maybe_present_p = true, present_p = false; + sd_list_types_def types = *types_ptr; - gcc_assert (INSN_P (insn) && INSN_P (elem) && insn != elem); - -#ifdef INSN_SCHEDULING + if (types & SD_LIST_HARD_BACK) + { + *list_ptr = INSN_HARD_BACK_DEPS (insn); + *resolved_p_ptr = false; + *types_ptr = types & ~SD_LIST_HARD_BACK; + } + else if (types & SD_LIST_SPEC_BACK) + { + *list_ptr = INSN_SPEC_BACK_DEPS (insn); + *resolved_p_ptr = false; + *types_ptr = types & ~SD_LIST_SPEC_BACK; + } + else if (types & SD_LIST_FORW) + { + *list_ptr = INSN_FORW_DEPS (insn); + *resolved_p_ptr = false; + *types_ptr = types & ~SD_LIST_FORW; + } + else if (types & SD_LIST_RES_BACK) + { + *list_ptr = INSN_RESOLVED_BACK_DEPS (insn); + *resolved_p_ptr = true; + *types_ptr = types & ~SD_LIST_RES_BACK; + } + else if (types & SD_LIST_RES_FORW) + { + *list_ptr = INSN_RESOLVED_FORW_DEPS (insn); + *resolved_p_ptr = true; + *types_ptr = types & ~SD_LIST_RES_FORW; + } + else + { + *list_ptr = NULL; + *resolved_p_ptr = false; + *types_ptr = SD_LIST_NONE; + } +} -#ifdef ENABLE_CHECKING - check_dep_status (dep_type, ds, mem1 != NULL); -#endif +/* Return the summary size of INSN's lists defined by LIST_TYPES. */ +int +sd_lists_size (const_rtx insn, sd_list_types_def list_types) +{ + int size = 0; - /* If we already have a dependency for ELEM, then we do not need to - do anything. Avoiding the list walk below can cut compile times - dramatically for some code. */ - if (true_dependency_cache != NULL) + while (list_types != SD_LIST_NONE) { - enum reg_note present_dep_type; - - gcc_assert (output_dependency_cache); - gcc_assert (anti_dependency_cache); - if (!(current_sched_info->flags & USE_DEPS_LIST)) - { - if (bitmap_bit_p (&true_dependency_cache[INSN_LUID (insn)], - INSN_LUID (elem))) - present_dep_type = REG_DEP_TRUE; - else if (bitmap_bit_p (&output_dependency_cache[INSN_LUID (insn)], - INSN_LUID (elem))) - present_dep_type = REG_DEP_OUTPUT; - else if (bitmap_bit_p (&anti_dependency_cache[INSN_LUID (insn)], - INSN_LUID (elem))) - present_dep_type = REG_DEP_ANTI; - else - maybe_present_p = false; + deps_list_t list; + bool resolved_p; - if (maybe_present_p) - { - if ((int) dep_type >= (int) present_dep_type) - return DEP_PRESENT; - - present_p = true; - } - } - else - { - ds_t present_dep_types = 0; - - if (bitmap_bit_p (&true_dependency_cache[INSN_LUID (insn)], - INSN_LUID (elem))) - present_dep_types |= DEP_TRUE; - if (bitmap_bit_p (&output_dependency_cache[INSN_LUID (insn)], - INSN_LUID (elem))) - present_dep_types |= DEP_OUTPUT; - if (bitmap_bit_p (&anti_dependency_cache[INSN_LUID (insn)], - INSN_LUID (elem))) - present_dep_types |= DEP_ANTI; - - if (present_dep_types) - { - if (!(current_sched_info->flags & DO_SPECULATION) - || !bitmap_bit_p (&spec_dependency_cache[INSN_LUID (insn)], - INSN_LUID (elem))) - { - if ((present_dep_types | (ds & DEP_TYPES)) - == present_dep_types) - /* We already have all these bits. */ - return DEP_PRESENT; - } - else - { - /* Only true dependencies can be data speculative and - only anti dependencies can be control speculative. */ - gcc_assert ((present_dep_types & (DEP_TRUE | DEP_ANTI)) - == present_dep_types); - - /* if (additional dep is SPECULATIVE) then - we should update DEP_STATUS - else - we should reset existing dep to non-speculative. */ - } - - present_p = true; - } - else - maybe_present_p = false; - } + sd_next_list (insn, &list_types, &list, &resolved_p); + if (list) + size += DEPS_LIST_N_LINKS (list); } -#endif - /* Check that we don't already have this dependence. */ - if (maybe_present_p) + return size; +} + +/* Return true if INSN's lists defined by LIST_TYPES are all empty. */ + +bool +sd_lists_empty_p (const_rtx insn, sd_list_types_def list_types) +{ + while (list_types != SD_LIST_NONE) { - dep_link_t *linkp; + deps_list_t list; + bool resolved_p; - for (linkp = &DEPS_LIST_FIRST (INSN_BACK_DEPS (insn)); - *linkp != NULL; - linkp = &DEP_LINK_NEXT (*linkp)) - { - dep_t link = DEP_LINK_DEP (*linkp); + sd_next_list (insn, &list_types, &list, &resolved_p); + if (!deps_list_empty_p (list)) + return false; + } - gcc_assert (true_dependency_cache == 0 || present_p); - - if (DEP_PRO (link) == elem) - { - enum DEPS_ADJUST_RESULT changed_p = DEP_PRESENT; + return true; +} -#ifdef INSN_SCHEDULING - if (current_sched_info->flags & USE_DEPS_LIST) - { - ds_t new_status = ds | DEP_STATUS (link); +/* Initialize data for INSN. */ +void +sd_init_insn (rtx insn) +{ + INSN_HARD_BACK_DEPS (insn) = create_deps_list (); + INSN_SPEC_BACK_DEPS (insn) = create_deps_list (); + INSN_RESOLVED_BACK_DEPS (insn) = create_deps_list (); + INSN_FORW_DEPS (insn) = create_deps_list (); + INSN_RESOLVED_FORW_DEPS (insn) = create_deps_list (); - if (new_status & SPECULATIVE) - { - if (!(ds & SPECULATIVE) - || !(DEP_STATUS (link) & SPECULATIVE)) - /* Then this dep can't be speculative. */ - { - new_status &= ~SPECULATIVE; - if (true_dependency_cache - && (DEP_STATUS (link) & SPECULATIVE)) - bitmap_clear_bit (&spec_dependency_cache - [INSN_LUID (insn)], - INSN_LUID (elem)); - } - else - { - /* Both are speculative. Merging probabilities. */ - if (mem1) - { - dw_t dw; - - dw = estimate_dep_weak (mem1, mem2); - ds = set_dep_weak (ds, BEGIN_DATA, dw); - } - - new_status = ds_merge (DEP_STATUS (link), ds); - } - } + if (DEBUG_INSN_P (insn)) + DEBUG_INSN_SCHED_P (insn) = TRUE; - ds = new_status; - } + /* ??? It would be nice to allocate dependency caches here. */ +} - /* Clear corresponding cache entry because type of the link - may have changed. Keep them if we use_deps_list. */ - if (true_dependency_cache != NULL - && !(current_sched_info->flags & USE_DEPS_LIST)) - { - enum reg_note kind = DEP_KIND (link); +/* Free data for INSN. */ +void +sd_finish_insn (rtx insn) +{ + /* ??? It would be nice to deallocate dependency caches here. */ - switch (kind) - { - case REG_DEP_OUTPUT: - bitmap_clear_bit (&output_dependency_cache - [INSN_LUID (insn)], INSN_LUID (elem)); - break; - case REG_DEP_ANTI: - bitmap_clear_bit (&anti_dependency_cache - [INSN_LUID (insn)], INSN_LUID (elem)); - break; - default: - gcc_unreachable (); - } - } + if (DEBUG_INSN_P (insn)) + { + gcc_assert (DEBUG_INSN_SCHED_P (insn)); + DEBUG_INSN_SCHED_P (insn) = FALSE; + } - if ((current_sched_info->flags & USE_DEPS_LIST) - && DEP_STATUS (link) != ds) - { - DEP_STATUS (link) = ds; - changed_p = DEP_CHANGED; - } -#endif + free_deps_list (INSN_HARD_BACK_DEPS (insn)); + INSN_HARD_BACK_DEPS (insn) = NULL; - /* If this is a more restrictive type of dependence than the - existing one, then change the existing dependence to this - type. */ - if ((int) dep_type < (int) DEP_KIND (link)) - { - DEP_KIND (link) = dep_type; - changed_p = DEP_CHANGED; - } + free_deps_list (INSN_SPEC_BACK_DEPS (insn)); + INSN_SPEC_BACK_DEPS (insn) = NULL; -#ifdef INSN_SCHEDULING - /* If we are adding a dependency to INSN's LOG_LINKs, then - note that in the bitmap caches of dependency information. */ - if (true_dependency_cache != NULL) - { - if (!(current_sched_info->flags & USE_DEPS_LIST)) - { - if (DEP_KIND (link) == REG_DEP_TRUE) - bitmap_set_bit (&true_dependency_cache - [INSN_LUID (insn)], INSN_LUID (elem)); - else if (DEP_KIND (link) == REG_DEP_OUTPUT) - bitmap_set_bit (&output_dependency_cache - [INSN_LUID (insn)], INSN_LUID (elem)); - else if (DEP_KIND (link) == REG_DEP_ANTI) - bitmap_set_bit (&anti_dependency_cache - [INSN_LUID (insn)], INSN_LUID (elem)); - } - else - { - if (ds & DEP_TRUE) - bitmap_set_bit (&true_dependency_cache - [INSN_LUID (insn)], INSN_LUID (elem)); - if (ds & DEP_OUTPUT) - bitmap_set_bit (&output_dependency_cache - [INSN_LUID (insn)], INSN_LUID (elem)); - if (ds & DEP_ANTI) - bitmap_set_bit (&anti_dependency_cache - [INSN_LUID (insn)], INSN_LUID (elem)); - /* Note, that dep can become speculative only - at the moment of creation. Thus, we don't need to - check for it here. */ - } - } - - if (changed_linkpp && changed_p == DEP_CHANGED) - *changed_linkpp = linkp; + free_deps_list (INSN_RESOLVED_BACK_DEPS (insn)); + INSN_RESOLVED_BACK_DEPS (insn) = NULL; + + free_deps_list (INSN_FORW_DEPS (insn)); + INSN_FORW_DEPS (insn) = NULL; + + free_deps_list (INSN_RESOLVED_FORW_DEPS (insn)); + INSN_RESOLVED_FORW_DEPS (insn) = NULL; +} + +/* Find a dependency between producer PRO and consumer CON. + Search through resolved dependency lists if RESOLVED_P is true. + If no such dependency is found return NULL, + otherwise return the dependency and initialize SD_IT_PTR [if it is nonnull] + with an iterator pointing to it. */ +static dep_t +sd_find_dep_between_no_cache (rtx pro, rtx con, bool resolved_p, + sd_iterator_def *sd_it_ptr) +{ + sd_list_types_def pro_list_type; + sd_list_types_def con_list_type; + sd_iterator_def sd_it; + dep_t dep; + bool found_p = false; + + if (resolved_p) + { + pro_list_type = SD_LIST_RES_FORW; + con_list_type = SD_LIST_RES_BACK; + } + else + { + pro_list_type = SD_LIST_FORW; + con_list_type = SD_LIST_BACK; + } + + /* Walk through either back list of INSN or forw list of ELEM + depending on which one is shorter. */ + if (sd_lists_size (con, con_list_type) < sd_lists_size (pro, pro_list_type)) + { + /* Find the dep_link with producer PRO in consumer's back_deps. */ + FOR_EACH_DEP (con, con_list_type, sd_it, dep) + if (DEP_PRO (dep) == pro) + { + found_p = true; + break; + } + } + else + { + /* Find the dep_link with consumer CON in producer's forw_deps. */ + FOR_EACH_DEP (pro, pro_list_type, sd_it, dep) + if (DEP_CON (dep) == con) + { + found_p = true; + break; + } + } + + if (found_p) + { + if (sd_it_ptr != NULL) + *sd_it_ptr = sd_it; + + return dep; + } + + return NULL; +} + +/* Find a dependency between producer PRO and consumer CON. + Use dependency [if available] to check if dependency is present at all. + Search through resolved dependency lists if RESOLVED_P is true. + If the dependency or NULL if none found. */ +dep_t +sd_find_dep_between (rtx pro, rtx con, bool resolved_p) +{ + if (true_dependency_cache != NULL) + /* Avoiding the list walk below can cut compile times dramatically + for some code. */ + { + int elem_luid = INSN_LUID (pro); + int insn_luid = INSN_LUID (con); + + gcc_assert (output_dependency_cache != NULL + && anti_dependency_cache != NULL); + + if (!bitmap_bit_p (&true_dependency_cache[insn_luid], elem_luid) + && !bitmap_bit_p (&output_dependency_cache[insn_luid], elem_luid) + && !bitmap_bit_p (&anti_dependency_cache[insn_luid], elem_luid)) + return NULL; + } + + return sd_find_dep_between_no_cache (pro, con, resolved_p, NULL); +} + +/* Add or update a dependence described by DEP. + MEM1 and MEM2, if non-null, correspond to memory locations in case of + data speculation. + + The function returns a value indicating if an old entry has been changed + or a new entry has been added to insn's backward deps. + + This function merely checks if producer and consumer is the same insn + and doesn't create a dep in this case. Actual manipulation of + dependence data structures is performed in add_or_update_dep_1. */ +static enum DEPS_ADJUST_RESULT +maybe_add_or_update_dep_1 (dep_t dep, bool resolved_p, rtx mem1, rtx mem2) +{ + rtx elem = DEP_PRO (dep); + rtx insn = DEP_CON (dep); + + gcc_assert (INSN_P (insn) && INSN_P (elem)); + + /* Don't depend an insn on itself. */ + if (insn == elem) + { + if (sched_deps_info->generate_spec_deps) + /* INSN has an internal dependence, which we can't overcome. */ + HAS_INTERNAL_DEP (insn) = 1; + + return DEP_NODEP; + } + + return add_or_update_dep_1 (dep, resolved_p, mem1, mem2); +} + +/* Ask dependency caches what needs to be done for dependence DEP. + Return DEP_CREATED if new dependence should be created and there is no + need to try to find one searching the dependencies lists. + Return DEP_PRESENT if there already is a dependence described by DEP and + hence nothing is to be done. + Return DEP_CHANGED if there already is a dependence, but it should be + updated to incorporate additional information from DEP. */ +static enum DEPS_ADJUST_RESULT +ask_dependency_caches (dep_t dep) +{ + int elem_luid = INSN_LUID (DEP_PRO (dep)); + int insn_luid = INSN_LUID (DEP_CON (dep)); + + gcc_assert (true_dependency_cache != NULL + && output_dependency_cache != NULL + && anti_dependency_cache != NULL); + + if (!(current_sched_info->flags & USE_DEPS_LIST)) + { + enum reg_note present_dep_type; + + if (bitmap_bit_p (&true_dependency_cache[insn_luid], elem_luid)) + present_dep_type = REG_DEP_TRUE; + else if (bitmap_bit_p (&output_dependency_cache[insn_luid], elem_luid)) + present_dep_type = REG_DEP_OUTPUT; + else if (bitmap_bit_p (&anti_dependency_cache[insn_luid], elem_luid)) + present_dep_type = REG_DEP_ANTI; + else + /* There is no existing dep so it should be created. */ + return DEP_CREATED; + + if ((int) DEP_TYPE (dep) >= (int) present_dep_type) + /* DEP does not add anything to the existing dependence. */ + return DEP_PRESENT; + } + else + { + ds_t present_dep_types = 0; + + if (bitmap_bit_p (&true_dependency_cache[insn_luid], elem_luid)) + present_dep_types |= DEP_TRUE; + if (bitmap_bit_p (&output_dependency_cache[insn_luid], elem_luid)) + present_dep_types |= DEP_OUTPUT; + if (bitmap_bit_p (&anti_dependency_cache[insn_luid], elem_luid)) + present_dep_types |= DEP_ANTI; + + if (present_dep_types == 0) + /* There is no existing dep so it should be created. */ + return DEP_CREATED; + + if (!(current_sched_info->flags & DO_SPECULATION) + || !bitmap_bit_p (&spec_dependency_cache[insn_luid], elem_luid)) + { + if ((present_dep_types | (DEP_STATUS (dep) & DEP_TYPES)) + == present_dep_types) + /* DEP does not add anything to the existing dependence. */ + return DEP_PRESENT; + } + else + { + /* Only true dependencies can be data speculative and + only anti dependencies can be control speculative. */ + gcc_assert ((present_dep_types & (DEP_TRUE | DEP_ANTI)) + == present_dep_types); + + /* if (DEP is SPECULATIVE) then + ..we should update DEP_STATUS + else + ..we should reset existing dep to non-speculative. */ + } + } + + return DEP_CHANGED; +} + +/* Set dependency caches according to DEP. */ +static void +set_dependency_caches (dep_t dep) +{ + int elem_luid = INSN_LUID (DEP_PRO (dep)); + int insn_luid = INSN_LUID (DEP_CON (dep)); + + if (!(current_sched_info->flags & USE_DEPS_LIST)) + { + switch (DEP_TYPE (dep)) + { + case REG_DEP_TRUE: + bitmap_set_bit (&true_dependency_cache[insn_luid], elem_luid); + break; + + case REG_DEP_OUTPUT: + bitmap_set_bit (&output_dependency_cache[insn_luid], elem_luid); + break; + + case REG_DEP_ANTI: + bitmap_set_bit (&anti_dependency_cache[insn_luid], elem_luid); + break; + + default: + gcc_unreachable (); + } + } + else + { + ds_t ds = DEP_STATUS (dep); + + if (ds & DEP_TRUE) + bitmap_set_bit (&true_dependency_cache[insn_luid], elem_luid); + if (ds & DEP_OUTPUT) + bitmap_set_bit (&output_dependency_cache[insn_luid], elem_luid); + if (ds & DEP_ANTI) + bitmap_set_bit (&anti_dependency_cache[insn_luid], elem_luid); + + if (ds & SPECULATIVE) + { + gcc_assert (current_sched_info->flags & DO_SPECULATION); + bitmap_set_bit (&spec_dependency_cache[insn_luid], elem_luid); + } + } +} + +/* Type of dependence DEP have changed from OLD_TYPE. Update dependency + caches accordingly. */ +static void +update_dependency_caches (dep_t dep, enum reg_note old_type) +{ + int elem_luid = INSN_LUID (DEP_PRO (dep)); + int insn_luid = INSN_LUID (DEP_CON (dep)); + + /* Clear corresponding cache entry because type of the link + may have changed. Keep them if we use_deps_list. */ + if (!(current_sched_info->flags & USE_DEPS_LIST)) + { + switch (old_type) + { + case REG_DEP_OUTPUT: + bitmap_clear_bit (&output_dependency_cache[insn_luid], elem_luid); + break; + + case REG_DEP_ANTI: + bitmap_clear_bit (&anti_dependency_cache[insn_luid], elem_luid); + break; + + default: + gcc_unreachable (); + } + } + + set_dependency_caches (dep); +} + +/* Convert a dependence pointed to by SD_IT to be non-speculative. */ +static void +change_spec_dep_to_hard (sd_iterator_def sd_it) +{ + dep_node_t node = DEP_LINK_NODE (*sd_it.linkp); + dep_link_t link = DEP_NODE_BACK (node); + dep_t dep = DEP_NODE_DEP (node); + rtx elem = DEP_PRO (dep); + rtx insn = DEP_CON (dep); + + move_dep_link (link, INSN_SPEC_BACK_DEPS (insn), INSN_HARD_BACK_DEPS (insn)); + + DEP_STATUS (dep) &= ~SPECULATIVE; + + if (true_dependency_cache != NULL) + /* Clear the cache entry. */ + bitmap_clear_bit (&spec_dependency_cache[INSN_LUID (insn)], + INSN_LUID (elem)); +} + +/* Update DEP to incorporate information from NEW_DEP. + SD_IT points to DEP in case it should be moved to another list. + MEM1 and MEM2, if nonnull, correspond to memory locations in case if + data-speculative dependence should be updated. */ +static enum DEPS_ADJUST_RESULT +update_dep (dep_t dep, dep_t new_dep, + sd_iterator_def sd_it ATTRIBUTE_UNUSED, + rtx mem1 ATTRIBUTE_UNUSED, + rtx mem2 ATTRIBUTE_UNUSED) +{ + enum DEPS_ADJUST_RESULT res = DEP_PRESENT; + enum reg_note old_type = DEP_TYPE (dep); + + /* If this is a more restrictive type of dependence than the + existing one, then change the existing dependence to this + type. */ + if ((int) DEP_TYPE (new_dep) < (int) old_type) + { + DEP_TYPE (dep) = DEP_TYPE (new_dep); + res = DEP_CHANGED; + } + + if (current_sched_info->flags & USE_DEPS_LIST) + /* Update DEP_STATUS. */ + { + ds_t dep_status = DEP_STATUS (dep); + ds_t ds = DEP_STATUS (new_dep); + ds_t new_status = ds | dep_status; + + if (new_status & SPECULATIVE) + /* Either existing dep or a dep we're adding or both are + speculative. */ + { + if (!(ds & SPECULATIVE) + || !(dep_status & SPECULATIVE)) + /* The new dep can't be speculative. */ + { + new_status &= ~SPECULATIVE; + + if (dep_status & SPECULATIVE) + /* The old dep was speculative, but now it + isn't. */ + change_spec_dep_to_hard (sd_it); + } + else + { + /* Both are speculative. Merge probabilities. */ + if (mem1 != NULL) + { + dw_t dw; + + dw = estimate_dep_weak (mem1, mem2); + ds = set_dep_weak (ds, BEGIN_DATA, dw); + } + + new_status = ds_merge (dep_status, ds); + } + } + + ds = new_status; + + if (dep_status != ds) + { + DEP_STATUS (dep) = ds; + res = DEP_CHANGED; + } + } + + if (true_dependency_cache != NULL + && res == DEP_CHANGED) + update_dependency_caches (dep, old_type); + + return res; +} + +/* Add or update a dependence described by DEP. + MEM1 and MEM2, if non-null, correspond to memory locations in case of + data speculation. + + The function returns a value indicating if an old entry has been changed + or a new entry has been added to insn's backward deps or nothing has + been updated at all. */ +static enum DEPS_ADJUST_RESULT +add_or_update_dep_1 (dep_t new_dep, bool resolved_p, + rtx mem1 ATTRIBUTE_UNUSED, rtx mem2 ATTRIBUTE_UNUSED) +{ + bool maybe_present_p = true; + bool present_p = false; + + gcc_assert (INSN_P (DEP_PRO (new_dep)) && INSN_P (DEP_CON (new_dep)) + && DEP_PRO (new_dep) != DEP_CON (new_dep)); + +#ifdef ENABLE_CHECKING + check_dep (new_dep, mem1 != NULL); #endif - return changed_p; - } - } - /* We didn't find a dep. It shouldn't be present in the cache. */ - gcc_assert (!present_p); + + if (true_dependency_cache != NULL) + { + switch (ask_dependency_caches (new_dep)) + { + case DEP_PRESENT: + return DEP_PRESENT; + + case DEP_CHANGED: + maybe_present_p = true; + present_p = true; + break; + + case DEP_CREATED: + maybe_present_p = false; + present_p = false; + break; + + default: + gcc_unreachable (); + break; + } + } + + /* Check that we don't already have this dependence. */ + if (maybe_present_p) + { + dep_t present_dep; + sd_iterator_def sd_it; + + gcc_assert (true_dependency_cache == NULL || present_p); + + present_dep = sd_find_dep_between_no_cache (DEP_PRO (new_dep), + DEP_CON (new_dep), + resolved_p, &sd_it); + + if (present_dep != NULL) + /* We found an existing dependency between ELEM and INSN. */ + return update_dep (present_dep, new_dep, sd_it, mem1, mem2); + else + /* We didn't find a dep, it shouldn't present in the cache. */ + gcc_assert (!present_p); } /* Might want to check one level of transitivity to save conses. - This check should be done in maybe_add_or_update_back_dep_1. - Since we made it to add_or_update_back_dep_1, we must create + This check should be done in maybe_add_or_update_dep_1. + Since we made it to add_or_update_dep_1, we must create (or update) a link. */ - if (mem1) + if (mem1 != NULL_RTX) { - gcc_assert (current_sched_info->flags & DO_SPECULATION); - ds = set_dep_weak (ds, BEGIN_DATA, estimate_dep_weak (mem1, mem2)); + gcc_assert (sched_deps_info->generate_spec_deps); + DEP_STATUS (new_dep) = set_dep_weak (DEP_STATUS (new_dep), BEGIN_DATA, + estimate_dep_weak (mem1, mem2)); } - - add_back_dep (insn, elem, dep_type, ds); - + + sd_add_dep (new_dep, resolved_p); + return DEP_CREATED; } -/* This function creates a link between INSN and ELEM under any - conditions. DS describes speculative status of the link. */ +/* Initialize BACK_LIST_PTR with consumer's backward list and + FORW_LIST_PTR with producer's forward list. If RESOLVED_P is true + initialize with lists that hold resolved deps. */ static void -add_back_dep (rtx insn, rtx elem, enum reg_note dep_type, ds_t ds) +get_back_and_forw_lists (dep_t dep, bool resolved_p, + deps_list_t *back_list_ptr, + deps_list_t *forw_list_ptr) { - struct _dep _dep, *dep = &_dep; + rtx con = DEP_CON (dep); - gcc_assert (INSN_P (insn) && INSN_P (elem) && insn != elem); + if (!resolved_p) + { + if ((current_sched_info->flags & DO_SPECULATION) + && (DEP_STATUS (dep) & SPECULATIVE)) + *back_list_ptr = INSN_SPEC_BACK_DEPS (con); + else + *back_list_ptr = INSN_HARD_BACK_DEPS (con); - if (current_sched_info->flags & USE_DEPS_LIST) - init_dep_1 (dep, elem, insn, dep_type, ds); + *forw_list_ptr = INSN_FORW_DEPS (DEP_PRO (dep)); + } else - init_dep_1 (dep, elem, insn, dep_type, -1); + { + *back_list_ptr = INSN_RESOLVED_BACK_DEPS (con); + *forw_list_ptr = INSN_RESOLVED_FORW_DEPS (DEP_PRO (dep)); + } +} - add_back_dep_to_deps_list (INSN_BACK_DEPS (insn), dep); +/* Add dependence described by DEP. + If RESOLVED_P is true treat the dependence as a resolved one. */ +void +sd_add_dep (dep_t dep, bool resolved_p) +{ + dep_node_t n = create_dep_node (); + deps_list_t con_back_deps; + deps_list_t pro_forw_deps; + rtx elem = DEP_PRO (dep); + rtx insn = DEP_CON (dep); + + gcc_assert (INSN_P (insn) && INSN_P (elem) && insn != elem); + + if ((current_sched_info->flags & DO_SPECULATION) + && !sched_insn_is_legitimate_for_speculation_p (insn, DEP_STATUS (dep))) + DEP_STATUS (dep) &= ~SPECULATIVE; + + copy_dep (DEP_NODE_DEP (n), dep); + + get_back_and_forw_lists (dep, resolved_p, &con_back_deps, &pro_forw_deps); + + add_to_deps_list (DEP_NODE_BACK (n), con_back_deps); -#ifdef INSN_SCHEDULING #ifdef ENABLE_CHECKING - check_dep_status (dep_type, ds, false); + check_dep (dep, false); #endif + add_to_deps_list (DEP_NODE_FORW (n), pro_forw_deps); + /* If we are adding a dependency to INSN's LOG_LINKs, then note that in the bitmap caches of dependency information. */ if (true_dependency_cache != NULL) + set_dependency_caches (dep); +} + +/* Add or update backward dependence between INSN and ELEM + with given type DEP_TYPE and dep_status DS. + This function is a convenience wrapper. */ +enum DEPS_ADJUST_RESULT +sd_add_or_update_dep (dep_t dep, bool resolved_p) +{ + return add_or_update_dep_1 (dep, resolved_p, NULL_RTX, NULL_RTX); +} + +/* Resolved dependence pointed to by SD_IT. + SD_IT will advance to the next element. */ +void +sd_resolve_dep (sd_iterator_def sd_it) +{ + dep_node_t node = DEP_LINK_NODE (*sd_it.linkp); + dep_t dep = DEP_NODE_DEP (node); + rtx pro = DEP_PRO (dep); + rtx con = DEP_CON (dep); + + if ((current_sched_info->flags & DO_SPECULATION) + && (DEP_STATUS (dep) & SPECULATIVE)) + move_dep_link (DEP_NODE_BACK (node), INSN_SPEC_BACK_DEPS (con), + INSN_RESOLVED_BACK_DEPS (con)); + else + move_dep_link (DEP_NODE_BACK (node), INSN_HARD_BACK_DEPS (con), + INSN_RESOLVED_BACK_DEPS (con)); + + move_dep_link (DEP_NODE_FORW (node), INSN_FORW_DEPS (pro), + INSN_RESOLVED_FORW_DEPS (pro)); +} + +/* Make TO depend on all the FROM's producers. + If RESOLVED_P is true add dependencies to the resolved lists. */ +void +sd_copy_back_deps (rtx to, rtx from, bool resolved_p) +{ + sd_list_types_def list_type; + sd_iterator_def sd_it; + dep_t dep; + + list_type = resolved_p ? SD_LIST_RES_BACK : SD_LIST_BACK; + + FOR_EACH_DEP (from, list_type, sd_it, dep) { - if (!(current_sched_info->flags & USE_DEPS_LIST)) - { - if (dep_type == REG_DEP_TRUE) - bitmap_set_bit (&true_dependency_cache[INSN_LUID (insn)], - INSN_LUID (elem)); - else if (dep_type == REG_DEP_OUTPUT) - bitmap_set_bit (&output_dependency_cache[INSN_LUID (insn)], - INSN_LUID (elem)); - else if (dep_type == REG_DEP_ANTI) - bitmap_set_bit (&anti_dependency_cache[INSN_LUID (insn)], - INSN_LUID (elem)); - } - else - { - if (ds & DEP_TRUE) - bitmap_set_bit (&true_dependency_cache[INSN_LUID (insn)], - INSN_LUID (elem)); - if (ds & DEP_OUTPUT) - bitmap_set_bit (&output_dependency_cache[INSN_LUID (insn)], - INSN_LUID (elem)); - if (ds & DEP_ANTI) - bitmap_set_bit (&anti_dependency_cache[INSN_LUID (insn)], - INSN_LUID (elem)); - if (ds & SPECULATIVE) - { - gcc_assert (current_sched_info->flags & DO_SPECULATION); - bitmap_set_bit (&spec_dependency_cache[INSN_LUID (insn)], - INSN_LUID (elem)); - } - } + dep_def _new_dep, *new_dep = &_new_dep; + + copy_dep (new_dep, dep); + DEP_CON (new_dep) = to; + sd_add_dep (new_dep, resolved_p); + } +} + +/* Remove a dependency referred to by SD_IT. + SD_IT will point to the next dependence after removal. */ +void +sd_delete_dep (sd_iterator_def sd_it) +{ + dep_node_t n = DEP_LINK_NODE (*sd_it.linkp); + dep_t dep = DEP_NODE_DEP (n); + rtx pro = DEP_PRO (dep); + rtx con = DEP_CON (dep); + deps_list_t con_back_deps; + deps_list_t pro_forw_deps; + + if (true_dependency_cache != NULL) + { + int elem_luid = INSN_LUID (pro); + int insn_luid = INSN_LUID (con); + + bitmap_clear_bit (&true_dependency_cache[insn_luid], elem_luid); + bitmap_clear_bit (&anti_dependency_cache[insn_luid], elem_luid); + bitmap_clear_bit (&output_dependency_cache[insn_luid], elem_luid); + + if (current_sched_info->flags & DO_SPECULATION) + bitmap_clear_bit (&spec_dependency_cache[insn_luid], elem_luid); + } + + get_back_and_forw_lists (dep, sd_it.resolved_p, + &con_back_deps, &pro_forw_deps); + + remove_from_deps_list (DEP_NODE_BACK (n), con_back_deps); + remove_from_deps_list (DEP_NODE_FORW (n), pro_forw_deps); + + delete_dep_node (n); +} + +/* Dump size of the lists. */ +#define DUMP_LISTS_SIZE (2) + +/* Dump dependencies of the lists. */ +#define DUMP_LISTS_DEPS (4) + +/* Dump all information about the lists. */ +#define DUMP_LISTS_ALL (DUMP_LISTS_SIZE | DUMP_LISTS_DEPS) + +/* Dump deps_lists of INSN specified by TYPES to DUMP. + FLAGS is a bit mask specifying what information about the lists needs + to be printed. + If FLAGS has the very first bit set, then dump all information about + the lists and propagate this bit into the callee dump functions. */ +static void +dump_lists (FILE *dump, rtx insn, sd_list_types_def types, int flags) +{ + sd_iterator_def sd_it; + dep_t dep; + int all; + + all = (flags & 1); + + if (all) + flags |= DUMP_LISTS_ALL; + + fprintf (dump, "["); + + if (flags & DUMP_LISTS_SIZE) + fprintf (dump, "%d; ", sd_lists_size (insn, types)); + + if (flags & DUMP_LISTS_DEPS) + { + FOR_EACH_DEP (insn, types, sd_it, dep) + { + dump_dep (dump, dep, dump_dep_flags | all); + fprintf (dump, " "); + } } -#endif +} + +/* Dump all information about deps_lists of INSN specified by TYPES + to STDERR. */ +void +sd_debug_lists (rtx insn, sd_list_types_def types) +{ + dump_lists (stderr, insn, types, 1); + fprintf (stderr, "\n"); } /* A convenience wrapper to operate on an entire list. */ @@ -923,13 +1403,24 @@ add_dependence_list (rtx insn, rtx list, int uncond, enum reg_note dep_type) } } -/* Similar, but free *LISTP at the same time. */ +/* Similar, but free *LISTP at the same time, when the context + is not readonly. */ static void -add_dependence_list_and_free (rtx insn, rtx *listp, int uncond, - enum reg_note dep_type) +add_dependence_list_and_free (struct deps_desc *deps, rtx insn, rtx *listp, + int uncond, enum reg_note dep_type) { rtx list, next; + + /* We don't want to short-circuit dependencies involving debug + insns, because they may cause actual dependencies to be + disregarded. */ + if (deps->readonly || DEBUG_INSN_P (insn)) + { + add_dependence_list (insn, *listp, uncond, dep_type); + return; + } + for (list = *listp, *listp = NULL; list ; list = next) { next = XEXP (list, 1); @@ -939,27 +1430,66 @@ add_dependence_list_and_free (rtx insn, rtx *listp, int uncond, } } -/* Clear all dependencies for an insn. */ +/* Remove all occurences of INSN from LIST. Return the number of + occurences removed. */ -static void -delete_all_dependences (rtx insn) +static int +remove_from_dependence_list (rtx insn, rtx* listp) { - /* Clear caches, if they exist, as well as free the dependence. */ + int removed = 0; -#ifdef INSN_SCHEDULING - if (true_dependency_cache != NULL) + while (*listp) { - bitmap_clear (&true_dependency_cache[INSN_LUID (insn)]); - bitmap_clear (&output_dependency_cache[INSN_LUID (insn)]); - bitmap_clear (&anti_dependency_cache[INSN_LUID (insn)]); - /* We don't have to clear forward_dependency_cache here, - because it is formed later. */ - if (current_sched_info->flags & DO_SPECULATION) - bitmap_clear (&spec_dependency_cache[INSN_LUID (insn)]); + if (XEXP (*listp, 0) == insn) + { + remove_free_INSN_LIST_node (listp); + removed++; + continue; + } + + listp = &XEXP (*listp, 1); } -#endif - clear_deps_list (INSN_BACK_DEPS (insn)); + return removed; +} + +/* Same as above, but process two lists at once. */ +static int +remove_from_both_dependence_lists (rtx insn, rtx *listp, rtx *exprp) +{ + int removed = 0; + + while (*listp) + { + if (XEXP (*listp, 0) == insn) + { + remove_free_INSN_LIST_node (listp); + remove_free_EXPR_LIST_node (exprp); + removed++; + continue; + } + + listp = &XEXP (*listp, 1); + exprp = &XEXP (*exprp, 1); + } + + return removed; +} + +/* Clear all dependencies for an insn. */ +static void +delete_all_dependences (rtx insn) +{ + sd_iterator_def sd_it; + dep_t dep; + + /* The below cycle can be optimized to clear the caches and back_deps + in one call but that would provoke duplication of code from + delete_dep (). */ + + for (sd_it = sd_iterator_start (insn, SD_LIST_BACK); + sd_iterator_cond (&sd_it, &dep);) + sd_delete_dep (sd_it); } /* All insns in a scheduling group except the first should only have @@ -971,13 +1501,13 @@ delete_all_dependences (rtx insn) static void fixup_sched_groups (rtx insn) { - dep_link_t link; + sd_iterator_def sd_it; + dep_t dep; rtx prev_nonnote; - FOR_EACH_DEP_LINK (link, INSN_BACK_DEPS (insn)) + FOR_EACH_DEP (insn, SD_LIST_BACK, sd_it, dep) { rtx i = insn; - dep_t dep = DEP_LINK_DEP (link); rtx pro = DEP_PRO (dep); do @@ -986,16 +1516,16 @@ fixup_sched_groups (rtx insn) if (pro == i) goto next_link; - } while (SCHED_GROUP_P (i)); + } while (SCHED_GROUP_P (i) || DEBUG_INSN_P (i)); if (! sched_insns_conditions_mutex_p (i, pro)) - add_dependence (i, pro, DEP_KIND (dep)); + add_dependence (i, pro, DEP_TYPE (dep)); next_link:; } delete_all_dependences (insn); - prev_nonnote = prev_nonnote_insn (insn); + prev_nonnote = prev_nonnote_nondebug_insn (insn); if (BLOCK_FOR_INSN (insn) == BLOCK_FOR_INSN (prev_nonnote) && ! sched_insns_conditions_mutex_p (insn, prev_nonnote)) add_dependence (insn, prev_nonnote, REG_DEP_ANTI); @@ -1017,18 +1547,20 @@ fixup_sched_groups (rtx insn) so that we can do memory aliasing on it. */ static void -add_insn_mem_dependence (struct deps *deps, bool read_p, +add_insn_mem_dependence (struct deps_desc *deps, bool read_p, rtx insn, rtx mem) { rtx *insn_list; rtx *mem_list; rtx link; + gcc_assert (!deps->readonly); if (read_p) { insn_list = &deps->pending_read_insns; mem_list = &deps->pending_read_mems; - deps->pending_read_list_length++; + if (!DEBUG_INSN_P (insn)) + deps->pending_read_list_length++; } else { @@ -1040,7 +1572,7 @@ add_insn_mem_dependence (struct deps *deps, bool read_p, link = alloc_INSN_LIST (insn, *insn_list); *insn_list = link; - if (current_sched_info->use_cselib) + if (sched_deps_info->use_cselib) { mem = shallow_copy_rtx (mem); XEXP (mem, 0) = cselib_subst_to_values (XEXP (mem, 0)); @@ -1054,36 +1586,543 @@ add_insn_mem_dependence (struct deps *deps, bool read_p, dependencies for a read operation, similarly with FOR_WRITE. */ static void -flush_pending_lists (struct deps *deps, rtx insn, int for_read, +flush_pending_lists (struct deps_desc *deps, rtx insn, int for_read, int for_write) { if (for_write) { - add_dependence_list_and_free (insn, &deps->pending_read_insns, 1, - REG_DEP_ANTI); - free_EXPR_LIST_list (&deps->pending_read_mems); - deps->pending_read_list_length = 0; + add_dependence_list_and_free (deps, insn, &deps->pending_read_insns, + 1, REG_DEP_ANTI); + if (!deps->readonly) + { + free_EXPR_LIST_list (&deps->pending_read_mems); + deps->pending_read_list_length = 0; + } } - add_dependence_list_and_free (insn, &deps->pending_write_insns, 1, + add_dependence_list_and_free (deps, insn, &deps->pending_write_insns, 1, for_read ? REG_DEP_ANTI : REG_DEP_OUTPUT); - free_EXPR_LIST_list (&deps->pending_write_mems); - deps->pending_write_list_length = 0; - add_dependence_list_and_free (insn, &deps->last_pending_memory_flush, 1, - for_read ? REG_DEP_ANTI : REG_DEP_OUTPUT); - deps->last_pending_memory_flush = alloc_INSN_LIST (insn, NULL_RTX); - deps->pending_flush_length = 1; + add_dependence_list_and_free (deps, insn, + &deps->last_pending_memory_flush, 1, + for_read ? REG_DEP_ANTI : REG_DEP_OUTPUT); + if (!deps->readonly) + { + free_EXPR_LIST_list (&deps->pending_write_mems); + deps->pending_write_list_length = 0; + + deps->last_pending_memory_flush = alloc_INSN_LIST (insn, NULL_RTX); + deps->pending_flush_length = 1; + } +} + +/* Instruction which dependencies we are analyzing. */ +static rtx cur_insn = NULL_RTX; + +/* Implement hooks for haifa scheduler. */ + +static void +haifa_start_insn (rtx insn) +{ + gcc_assert (insn && !cur_insn); + + cur_insn = insn; +} + +static void +haifa_finish_insn (void) +{ + cur_insn = NULL; +} + +void +haifa_note_reg_set (int regno) +{ + SET_REGNO_REG_SET (reg_pending_sets, regno); +} + +void +haifa_note_reg_clobber (int regno) +{ + SET_REGNO_REG_SET (reg_pending_clobbers, regno); +} + +void +haifa_note_reg_use (int regno) +{ + SET_REGNO_REG_SET (reg_pending_uses, regno); +} + +static void +haifa_note_mem_dep (rtx mem, rtx pending_mem, rtx pending_insn, ds_t ds) +{ + if (!(ds & SPECULATIVE)) + { + mem = NULL_RTX; + pending_mem = NULL_RTX; + } + else + gcc_assert (ds & BEGIN_DATA); + + { + dep_def _dep, *dep = &_dep; + + init_dep_1 (dep, pending_insn, cur_insn, ds_to_dt (ds), + current_sched_info->flags & USE_DEPS_LIST ? ds : -1); + maybe_add_or_update_dep_1 (dep, false, pending_mem, mem); + } + +} + +static void +haifa_note_dep (rtx elem, ds_t ds) +{ + dep_def _dep; + dep_t dep = &_dep; + + init_dep (dep, elem, cur_insn, ds_to_dt (ds)); + maybe_add_or_update_dep_1 (dep, false, NULL_RTX, NULL_RTX); +} + +static void +note_reg_use (int r) +{ + if (sched_deps_info->note_reg_use) + sched_deps_info->note_reg_use (r); +} + +static void +note_reg_set (int r) +{ + if (sched_deps_info->note_reg_set) + sched_deps_info->note_reg_set (r); +} + +static void +note_reg_clobber (int r) +{ + if (sched_deps_info->note_reg_clobber) + sched_deps_info->note_reg_clobber (r); +} + +static void +note_mem_dep (rtx m1, rtx m2, rtx e, ds_t ds) +{ + if (sched_deps_info->note_mem_dep) + sched_deps_info->note_mem_dep (m1, m2, e, ds); +} + +static void +note_dep (rtx e, ds_t ds) +{ + if (sched_deps_info->note_dep) + sched_deps_info->note_dep (e, ds); +} + +/* Return corresponding to DS reg_note. */ +enum reg_note +ds_to_dt (ds_t ds) +{ + if (ds & DEP_TRUE) + return REG_DEP_TRUE; + else if (ds & DEP_OUTPUT) + return REG_DEP_OUTPUT; + else + { + gcc_assert (ds & DEP_ANTI); + return REG_DEP_ANTI; + } +} + + + +/* Functions for computation of info needed for register pressure + sensitive insn scheduling. */ + + +/* Allocate and return reg_use_data structure for REGNO and INSN. */ +static struct reg_use_data * +create_insn_reg_use (int regno, rtx insn) +{ + struct reg_use_data *use; + + use = (struct reg_use_data *) xmalloc (sizeof (struct reg_use_data)); + use->regno = regno; + use->insn = insn; + use->next_insn_use = INSN_REG_USE_LIST (insn); + INSN_REG_USE_LIST (insn) = use; + return use; +} + +/* Allocate and return reg_set_data structure for REGNO and INSN. */ +static struct reg_set_data * +create_insn_reg_set (int regno, rtx insn) +{ + struct reg_set_data *set; + + set = (struct reg_set_data *) xmalloc (sizeof (struct reg_set_data)); + set->regno = regno; + set->insn = insn; + set->next_insn_set = INSN_REG_SET_LIST (insn); + INSN_REG_SET_LIST (insn) = set; + return set; +} + +/* Set up insn register uses for INSN and dependency context DEPS. */ +static void +setup_insn_reg_uses (struct deps_desc *deps, rtx insn) +{ + unsigned i; + reg_set_iterator rsi; + rtx list; + struct reg_use_data *use, *use2, *next; + struct deps_reg *reg_last; + + EXECUTE_IF_SET_IN_REG_SET (reg_pending_uses, 0, i, rsi) + { + if (i < FIRST_PSEUDO_REGISTER + && TEST_HARD_REG_BIT (ira_no_alloc_regs, i)) + continue; + + if (find_regno_note (insn, REG_DEAD, i) == NULL_RTX + && ! REGNO_REG_SET_P (reg_pending_sets, i) + && ! REGNO_REG_SET_P (reg_pending_clobbers, i)) + /* Ignore use which is not dying. */ + continue; + + use = create_insn_reg_use (i, insn); + use->next_regno_use = use; + reg_last = &deps->reg_last[i]; + + /* Create the cycle list of uses. */ + for (list = reg_last->uses; list; list = XEXP (list, 1)) + { + use2 = create_insn_reg_use (i, XEXP (list, 0)); + next = use->next_regno_use; + use->next_regno_use = use2; + use2->next_regno_use = next; + } + } +} + +/* Register pressure info for the currently processed insn. */ +static struct reg_pressure_data reg_pressure_info[N_REG_CLASSES]; + +/* Return TRUE if INSN has the use structure for REGNO. */ +static bool +insn_use_p (rtx insn, int regno) +{ + struct reg_use_data *use; + + for (use = INSN_REG_USE_LIST (insn); use != NULL; use = use->next_insn_use) + if (use->regno == regno) + return true; + return false; +} + +/* Update the register pressure info after birth of pseudo register REGNO + in INSN. Arguments CLOBBER_P and UNUSED_P say correspondingly that + the register is in clobber or unused after the insn. */ +static void +mark_insn_pseudo_birth (rtx insn, int regno, bool clobber_p, bool unused_p) +{ + int incr, new_incr; + enum reg_class cl; + + gcc_assert (regno >= FIRST_PSEUDO_REGISTER); + cl = sched_regno_cover_class[regno]; + if (cl != NO_REGS) + { + incr = ira_reg_class_nregs[cl][PSEUDO_REGNO_MODE (regno)]; + if (clobber_p) + { + new_incr = reg_pressure_info[cl].clobber_increase + incr; + reg_pressure_info[cl].clobber_increase = new_incr; + } + else if (unused_p) + { + new_incr = reg_pressure_info[cl].unused_set_increase + incr; + reg_pressure_info[cl].unused_set_increase = new_incr; + } + else + { + new_incr = reg_pressure_info[cl].set_increase + incr; + reg_pressure_info[cl].set_increase = new_incr; + if (! insn_use_p (insn, regno)) + reg_pressure_info[cl].change += incr; + create_insn_reg_set (regno, insn); + } + gcc_assert (new_incr < (1 << INCREASE_BITS)); + } +} + +/* Like mark_insn_pseudo_regno_birth except that NREGS saying how many + hard registers involved in the birth. */ +static void +mark_insn_hard_regno_birth (rtx insn, int regno, int nregs, + bool clobber_p, bool unused_p) +{ + enum reg_class cl; + int new_incr, last = regno + nregs; + + while (regno < last) + { + gcc_assert (regno < FIRST_PSEUDO_REGISTER); + if (! TEST_HARD_REG_BIT (ira_no_alloc_regs, regno)) + { + cl = sched_regno_cover_class[regno]; + if (cl != NO_REGS) + { + if (clobber_p) + { + new_incr = reg_pressure_info[cl].clobber_increase + 1; + reg_pressure_info[cl].clobber_increase = new_incr; + } + else if (unused_p) + { + new_incr = reg_pressure_info[cl].unused_set_increase + 1; + reg_pressure_info[cl].unused_set_increase = new_incr; + } + else + { + new_incr = reg_pressure_info[cl].set_increase + 1; + reg_pressure_info[cl].set_increase = new_incr; + if (! insn_use_p (insn, regno)) + reg_pressure_info[cl].change += 1; + create_insn_reg_set (regno, insn); + } + gcc_assert (new_incr < (1 << INCREASE_BITS)); + } + } + regno++; + } +} + +/* Update the register pressure info after birth of pseudo or hard + register REG in INSN. Arguments CLOBBER_P and UNUSED_P say + correspondingly that the register is in clobber or unused after the + insn. */ +static void +mark_insn_reg_birth (rtx insn, rtx reg, bool clobber_p, bool unused_p) +{ + int regno; + + if (GET_CODE (reg) == SUBREG) + reg = SUBREG_REG (reg); + + if (! REG_P (reg)) + return; + + regno = REGNO (reg); + if (regno < FIRST_PSEUDO_REGISTER) + mark_insn_hard_regno_birth (insn, regno, + hard_regno_nregs[regno][GET_MODE (reg)], + clobber_p, unused_p); + else + mark_insn_pseudo_birth (insn, regno, clobber_p, unused_p); +} + +/* Update the register pressure info after death of pseudo register + REGNO. */ +static void +mark_pseudo_death (int regno) +{ + int incr; + enum reg_class cl; + + gcc_assert (regno >= FIRST_PSEUDO_REGISTER); + cl = sched_regno_cover_class[regno]; + if (cl != NO_REGS) + { + incr = ira_reg_class_nregs[cl][PSEUDO_REGNO_MODE (regno)]; + reg_pressure_info[cl].change -= incr; + } +} + +/* Like mark_pseudo_death except that NREGS saying how many hard + registers involved in the death. */ +static void +mark_hard_regno_death (int regno, int nregs) +{ + enum reg_class cl; + int last = regno + nregs; + + while (regno < last) + { + gcc_assert (regno < FIRST_PSEUDO_REGISTER); + if (! TEST_HARD_REG_BIT (ira_no_alloc_regs, regno)) + { + cl = sched_regno_cover_class[regno]; + if (cl != NO_REGS) + reg_pressure_info[cl].change -= 1; + } + regno++; + } +} + +/* Update the register pressure info after death of pseudo or hard + register REG. */ +static void +mark_reg_death (rtx reg) +{ + int regno; + + if (GET_CODE (reg) == SUBREG) + reg = SUBREG_REG (reg); + + if (! REG_P (reg)) + return; + + regno = REGNO (reg); + if (regno < FIRST_PSEUDO_REGISTER) + mark_hard_regno_death (regno, hard_regno_nregs[regno][GET_MODE (reg)]); + else + mark_pseudo_death (regno); +} + +/* Process SETTER of REG. DATA is an insn containing the setter. */ +static void +mark_insn_reg_store (rtx reg, const_rtx setter, void *data) +{ + if (setter != NULL_RTX && GET_CODE (setter) != SET) + return; + mark_insn_reg_birth + ((rtx) data, reg, false, + find_reg_note ((const_rtx) data, REG_UNUSED, reg) != NULL_RTX); +} + +/* Like mark_insn_reg_store except notice just CLOBBERs; ignore SETs. */ +static void +mark_insn_reg_clobber (rtx reg, const_rtx setter, void *data) +{ + if (GET_CODE (setter) == CLOBBER) + mark_insn_reg_birth ((rtx) data, reg, true, false); +} + +/* Set up reg pressure info related to INSN. */ +static void +setup_insn_reg_pressure_info (rtx insn) +{ + int i, len; + enum reg_class cl; + static struct reg_pressure_data *pressure_info; + rtx link; + + gcc_assert (sched_pressure_p); + + if (! INSN_P (insn)) + return; + + for (i = 0; i < ira_reg_class_cover_size; i++) + { + cl = ira_reg_class_cover[i]; + reg_pressure_info[cl].clobber_increase = 0; + reg_pressure_info[cl].set_increase = 0; + reg_pressure_info[cl].unused_set_increase = 0; + reg_pressure_info[cl].change = 0; + } + + note_stores (PATTERN (insn), mark_insn_reg_clobber, insn); + + note_stores (PATTERN (insn), mark_insn_reg_store, insn); + +#ifdef AUTO_INC_DEC + for (link = REG_NOTES (insn); link; link = XEXP (link, 1)) + if (REG_NOTE_KIND (link) == REG_INC) + mark_insn_reg_store (XEXP (link, 0), NULL_RTX, insn); +#endif + + for (link = REG_NOTES (insn); link; link = XEXP (link, 1)) + if (REG_NOTE_KIND (link) == REG_DEAD) + mark_reg_death (XEXP (link, 0)); + + len = sizeof (struct reg_pressure_data) * ira_reg_class_cover_size; + pressure_info + = INSN_REG_PRESSURE (insn) = (struct reg_pressure_data *) xmalloc (len); + INSN_MAX_REG_PRESSURE (insn) = (int *) xcalloc (ira_reg_class_cover_size + * sizeof (int), 1); + for (i = 0; i < ira_reg_class_cover_size; i++) + { + cl = ira_reg_class_cover[i]; + pressure_info[i].clobber_increase + = reg_pressure_info[cl].clobber_increase; + pressure_info[i].set_increase = reg_pressure_info[cl].set_increase; + pressure_info[i].unused_set_increase + = reg_pressure_info[cl].unused_set_increase; + pressure_info[i].change = reg_pressure_info[cl].change; + } } + + + +/* Internal variable for sched_analyze_[12] () functions. + If it is nonzero, this means that sched_analyze_[12] looks + at the most toplevel SET. */ +static bool can_start_lhs_rhs_p; + +/* Extend reg info for the deps context DEPS given that + we have just generated a register numbered REGNO. */ +static void +extend_deps_reg_info (struct deps_desc *deps, int regno) +{ + int max_regno = regno + 1; + + gcc_assert (!reload_completed); + + /* In a readonly context, it would not hurt to extend info, + but it should not be needed. */ + if (reload_completed && deps->readonly) + { + deps->max_reg = max_regno; + return; + } + + if (max_regno > deps->max_reg) + { + deps->reg_last = XRESIZEVEC (struct deps_reg, deps->reg_last, + max_regno); + memset (&deps->reg_last[deps->max_reg], + 0, (max_regno - deps->max_reg) + * sizeof (struct deps_reg)); + deps->max_reg = max_regno; + } +} + +/* Extends REG_INFO_P if needed. */ +void +maybe_extend_reg_info_p (void) +{ + /* Extend REG_INFO_P, if needed. */ + if ((unsigned int)max_regno - 1 >= reg_info_p_size) + { + size_t new_reg_info_p_size = max_regno + 128; + + gcc_assert (!reload_completed && sel_sched_p ()); + + reg_info_p = (struct reg_info_t *) xrecalloc (reg_info_p, + new_reg_info_p_size, + reg_info_p_size, + sizeof (*reg_info_p)); + reg_info_p_size = new_reg_info_p_size; + } +} + /* Analyze a single reference to register (reg:MODE REGNO) in INSN. The type of the reference is specified by REF and can be SET, CLOBBER, PRE_DEC, POST_DEC, PRE_INC, POST_INC or USE. */ static void -sched_analyze_reg (struct deps *deps, int regno, enum machine_mode mode, +sched_analyze_reg (struct deps_desc *deps, int regno, enum machine_mode mode, enum rtx_code ref, rtx insn) { + /* We could emit new pseudos in renaming. Extend the reg structures. */ + if (!reload_completed && sel_sched_p () + && (regno >= max_reg_num () - 1 || regno >= deps->max_reg)) + extend_deps_reg_info (deps, regno); + + maybe_extend_reg_info_p (); + /* A hard reg in a wide mode may really be multiple registers. If so, mark all of them just like the first. */ if (regno < FIRST_PSEUDO_REGISTER) @@ -1092,17 +2131,17 @@ sched_analyze_reg (struct deps *deps, int regno, enum machine_mode mode, if (ref == SET) { while (--i >= 0) - SET_REGNO_REG_SET (reg_pending_sets, regno + i); + note_reg_set (regno + i); } else if (ref == USE) { while (--i >= 0) - SET_REGNO_REG_SET (reg_pending_uses, regno + i); + note_reg_use (regno + i); } else { while (--i >= 0) - SET_REGNO_REG_SET (reg_pending_clobbers, regno + i); + note_reg_clobber (regno + i); } } @@ -1118,11 +2157,11 @@ sched_analyze_reg (struct deps *deps, int regno, enum machine_mode mode, else { if (ref == SET) - SET_REGNO_REG_SET (reg_pending_sets, regno); + note_reg_set (regno); else if (ref == USE) - SET_REGNO_REG_SET (reg_pending_uses, regno); + note_reg_use (regno); else - SET_REGNO_REG_SET (reg_pending_clobbers, regno); + note_reg_clobber (regno); /* Pseudos that are REG_EQUIV to something may be replaced by that during reloading. We need only add dependencies for @@ -1138,7 +2177,7 @@ sched_analyze_reg (struct deps *deps, int regno, enum machine_mode mode, already cross one. */ if (REG_N_CALLS_CROSSED (regno) == 0) { - if (ref == USE) + if (!deps->readonly && ref == USE && !DEBUG_INSN_P (insn)) deps->sched_before_next_call = alloc_INSN_LIST (insn, deps->sched_before_next_call); else @@ -1153,14 +2192,21 @@ sched_analyze_reg (struct deps *deps, int regno, enum machine_mode mode, destination of X, and reads of everything mentioned. */ static void -sched_analyze_1 (struct deps *deps, rtx x, rtx insn) +sched_analyze_1 (struct deps_desc *deps, rtx x, rtx insn) { rtx dest = XEXP (x, 0); enum rtx_code code = GET_CODE (x); + bool cslr_p = can_start_lhs_rhs_p; + can_start_lhs_rhs_p = false; + + gcc_assert (dest); if (dest == 0) return; + if (cslr_p && sched_deps_info->start_lhs) + sched_deps_info->start_lhs (dest); + if (GET_CODE (dest) == PARALLEL) { int i; @@ -1172,8 +2218,18 @@ sched_analyze_1 (struct deps *deps, rtx x, rtx insn) XEXP (XVECEXP (dest, 0, i), 0)), insn); - if (GET_CODE (x) == SET) - sched_analyze_2 (deps, SET_SRC (x), insn); + if (cslr_p && sched_deps_info->finish_lhs) + sched_deps_info->finish_lhs (); + + if (code == SET) + { + can_start_lhs_rhs_p = cslr_p; + + sched_analyze_2 (deps, SET_SRC (x), insn); + + can_start_lhs_rhs_p = false; + } + return; } @@ -1212,10 +2268,16 @@ sched_analyze_1 (struct deps *deps, rtx x, rtx insn) /* Treat all writes to a stack register as modifying the TOS. */ if (regno >= FIRST_STACK_REG && regno <= LAST_STACK_REG) { + int nregs; + /* Avoid analyzing the same register twice. */ if (regno != FIRST_STACK_REG) sched_analyze_reg (deps, FIRST_STACK_REG, mode, code, insn); - sched_analyze_reg (deps, FIRST_STACK_REG, mode, USE, insn); + + nregs = hard_regno_nregs[FIRST_STACK_REG][mode]; + while (--nregs >= 0) + SET_HARD_REG_BIT (implicit_reg_pending_uses, + FIRST_STACK_REG + nregs); } #endif } @@ -1224,16 +2286,21 @@ sched_analyze_1 (struct deps *deps, rtx x, rtx insn) /* Writing memory. */ rtx t = dest; - if (current_sched_info->use_cselib) + if (sched_deps_info->use_cselib) { + enum machine_mode address_mode + = targetm.addr_space.address_mode (MEM_ADDR_SPACE (dest)); + t = shallow_copy_rtx (dest); - cselib_lookup (XEXP (t, 0), Pmode, 1); + cselib_lookup_from_insn (XEXP (t, 0), address_mode, 1, insn); XEXP (t, 0) = cselib_subst_to_values (XEXP (t, 0)); } t = canon_rtx (t); - if ((deps->pending_read_list_length + deps->pending_write_list_length) - > MAX_PENDING_LIST_LENGTH) + /* Pending lists can't get larger with a readonly context. */ + if (!deps->readonly + && ((deps->pending_read_list_length + deps->pending_write_list_length) + > MAX_PENDING_LIST_LENGTH)) { /* Flush all pending reads and writes to prevent the pending lists from getting any larger. Insn scheduling runs too slowly when @@ -1252,7 +2319,8 @@ sched_analyze_1 (struct deps *deps, rtx x, rtx insn) { if (anti_dependence (XEXP (pending_mem, 0), t) && ! sched_insns_conditions_mutex_p (insn, XEXP (pending, 0))) - add_dependence (insn, XEXP (pending, 0), REG_DEP_ANTI); + note_mem_dep (t, XEXP (pending_mem, 0), XEXP (pending, 0), + DEP_ANTI); pending = XEXP (pending, 1); pending_mem = XEXP (pending_mem, 1); @@ -1264,7 +2332,8 @@ sched_analyze_1 (struct deps *deps, rtx x, rtx insn) { if (output_dependence (XEXP (pending_mem, 0), t) && ! sched_insns_conditions_mutex_p (insn, XEXP (pending, 0))) - add_dependence (insn, XEXP (pending, 0), REG_DEP_OUTPUT); + note_mem_dep (t, XEXP (pending_mem, 0), XEXP (pending, 0), + DEP_OUTPUT); pending = XEXP (pending, 1); pending_mem = XEXP (pending_mem, 1); @@ -1273,42 +2342,60 @@ sched_analyze_1 (struct deps *deps, rtx x, rtx insn) add_dependence_list (insn, deps->last_pending_memory_flush, 1, REG_DEP_ANTI); - add_insn_mem_dependence (deps, false, insn, dest); + if (!deps->readonly) + add_insn_mem_dependence (deps, false, insn, dest); } sched_analyze_2 (deps, XEXP (dest, 0), insn); } + if (cslr_p && sched_deps_info->finish_lhs) + sched_deps_info->finish_lhs (); + /* Analyze reads. */ if (GET_CODE (x) == SET) - sched_analyze_2 (deps, SET_SRC (x), insn); + { + can_start_lhs_rhs_p = cslr_p; + + sched_analyze_2 (deps, SET_SRC (x), insn); + + can_start_lhs_rhs_p = false; + } } /* Analyze the uses of memory and registers in rtx X in INSN. */ - static void -sched_analyze_2 (struct deps *deps, rtx x, rtx insn) +sched_analyze_2 (struct deps_desc *deps, rtx x, rtx insn) { int i; int j; enum rtx_code code; const char *fmt; + bool cslr_p = can_start_lhs_rhs_p; + can_start_lhs_rhs_p = false; + + gcc_assert (x); if (x == 0) return; + if (cslr_p && sched_deps_info->start_rhs) + sched_deps_info->start_rhs (x); + code = GET_CODE (x); switch (code) { case CONST_INT: case CONST_DOUBLE: + case CONST_FIXED: case CONST_VECTOR: case SYMBOL_REF: case CONST: case LABEL_REF: - /* Ignore constants. Note that we must handle CONST_DOUBLE here - because it may have a cc0_rtx in its CONST_DOUBLE_CHAIN field, but - this does not mean that this insn is using cc0. */ + /* Ignore constants. */ + if (cslr_p && sched_deps_info->finish_rhs) + sched_deps_info->finish_rhs (); + return; #ifdef HAVE_cc0 @@ -1318,6 +2405,10 @@ sched_analyze_2 (struct deps *deps, rtx x, rtx insn) /* Don't move CC0 setter to another block (it can set up the same flag for previous CC0 users which is safe). */ CANT_MOVE (prev_nonnote_insn (insn)) = 1; + + if (cslr_p && sched_deps_info->finish_rhs) + sched_deps_info->finish_rhs (); + return; #endif @@ -1338,6 +2429,10 @@ sched_analyze_2 (struct deps *deps, rtx x, rtx insn) sched_analyze_reg (deps, FIRST_STACK_REG, mode, SET, insn); } #endif + + if (cslr_p && sched_deps_info->finish_rhs) + sched_deps_info->finish_rhs (); + return; } @@ -1348,56 +2443,79 @@ sched_analyze_2 (struct deps *deps, rtx x, rtx insn) rtx pending, pending_mem; rtx t = x; - if (current_sched_info->use_cselib) + if (sched_deps_info->use_cselib) { + enum machine_mode address_mode + = targetm.addr_space.address_mode (MEM_ADDR_SPACE (t)); + t = shallow_copy_rtx (t); - cselib_lookup (XEXP (t, 0), Pmode, 1); + cselib_lookup_from_insn (XEXP (t, 0), address_mode, 1, insn); XEXP (t, 0) = cselib_subst_to_values (XEXP (t, 0)); } - t = canon_rtx (t); - pending = deps->pending_read_insns; - pending_mem = deps->pending_read_mems; - while (pending) - { - if (read_dependence (XEXP (pending_mem, 0), t) - && ! sched_insns_conditions_mutex_p (insn, XEXP (pending, 0))) - add_dependence (insn, XEXP (pending, 0), REG_DEP_ANTI); - - pending = XEXP (pending, 1); - pending_mem = XEXP (pending_mem, 1); - } - pending = deps->pending_write_insns; - pending_mem = deps->pending_write_mems; - while (pending) + if (!DEBUG_INSN_P (insn)) { - if (true_dependence (XEXP (pending_mem, 0), VOIDmode, - t, rtx_varies_p) - && ! sched_insns_conditions_mutex_p (insn, XEXP (pending, 0))) - { - if (current_sched_info->flags & DO_SPECULATION) - maybe_add_or_update_back_dep_1 (insn, XEXP (pending, 0), - REG_DEP_TRUE, - BEGIN_DATA | DEP_TRUE, - XEXP (pending_mem, 0), t, 0); - else - add_dependence (insn, XEXP (pending, 0), REG_DEP_TRUE); - } - - pending = XEXP (pending, 1); - pending_mem = XEXP (pending_mem, 1); + t = canon_rtx (t); + pending = deps->pending_read_insns; + pending_mem = deps->pending_read_mems; + while (pending) + { + if (read_dependence (XEXP (pending_mem, 0), t) + && ! sched_insns_conditions_mutex_p (insn, + XEXP (pending, 0))) + note_mem_dep (t, XEXP (pending_mem, 0), XEXP (pending, 0), + DEP_ANTI); + + pending = XEXP (pending, 1); + pending_mem = XEXP (pending_mem, 1); + } + + pending = deps->pending_write_insns; + pending_mem = deps->pending_write_mems; + while (pending) + { + if (true_dependence (XEXP (pending_mem, 0), VOIDmode, + t, rtx_varies_p) + && ! sched_insns_conditions_mutex_p (insn, + XEXP (pending, 0))) + note_mem_dep (t, XEXP (pending_mem, 0), XEXP (pending, 0), + sched_deps_info->generate_spec_deps + ? BEGIN_DATA | DEP_TRUE : DEP_TRUE); + + pending = XEXP (pending, 1); + pending_mem = XEXP (pending_mem, 1); + } + + for (u = deps->last_pending_memory_flush; u; u = XEXP (u, 1)) + { + if (! NON_FLUSH_JUMP_P (u)) + add_dependence (insn, XEXP (u, 0), REG_DEP_ANTI); + else if (deps_may_trap_p (x)) + { + if ((sched_deps_info->generate_spec_deps) + && sel_sched_p () && (spec_info->mask & BEGIN_CONTROL)) + { + ds_t ds = set_dep_weak (DEP_ANTI, BEGIN_CONTROL, + MAX_DEP_WEAK); + + note_dep (XEXP (u, 0), ds); + } + else + add_dependence (insn, XEXP (u, 0), REG_DEP_ANTI); + } + } } - for (u = deps->last_pending_memory_flush; u; u = XEXP (u, 1)) - if (! JUMP_P (XEXP (u, 0)) || deps_may_trap_p (x)) - add_dependence (insn, XEXP (u, 0), REG_DEP_ANTI); - /* Always add these dependencies to pending_reads, since this insn may be followed by a write. */ - add_insn_mem_dependence (deps, true, insn, x); + if (!deps->readonly) + add_insn_mem_dependence (deps, true, insn, x); - /* Take advantage of tail recursion here. */ sched_analyze_2 (deps, XEXP (x, 0), insn); + + if (cslr_p && sched_deps_info->finish_rhs) + sched_deps_info->finish_rhs (); + return; } @@ -1406,9 +2524,17 @@ sched_analyze_2 (struct deps *deps, rtx x, rtx insn) flush_pending_lists (deps, insn, true, false); break; + case PREFETCH: + if (PREFETCH_SCHEDULE_BARRIER_P (x)) + reg_pending_barrier = TRUE_BARRIER; + break; + + case UNSPEC_VOLATILE: + flush_pending_lists (deps, insn, true, true); + /* FALLTHRU */ + case ASM_OPERANDS: case ASM_INPUT: - case UNSPEC_VOLATILE: { /* Traditional and volatile asm instructions must be considered to use and clobber all hard registers, all pseudo-registers and all of @@ -1429,6 +2555,10 @@ sched_analyze_2 (struct deps *deps, rtx x, rtx insn) { for (j = 0; j < ASM_OPERANDS_INPUT_LENGTH (x); j++) sched_analyze_2 (deps, ASM_OPERANDS_INPUT (x, j), insn); + + if (cslr_p && sched_deps_info->finish_rhs) + sched_deps_info->finish_rhs (); + return; } break; @@ -1446,6 +2576,10 @@ sched_analyze_2 (struct deps *deps, rtx x, rtx insn) to get the proper antecedent for the read. */ sched_analyze_2 (deps, XEXP (x, 0), insn); sched_analyze_1 (deps, x, insn); + + if (cslr_p && sched_deps_info->finish_rhs) + sched_deps_info->finish_rhs (); + return; case POST_MODIFY: @@ -1454,6 +2588,10 @@ sched_analyze_2 (struct deps *deps, rtx x, rtx insn) sched_analyze_2 (deps, XEXP (x, 0), insn); sched_analyze_2 (deps, XEXP (x, 1), insn); sched_analyze_1 (deps, x, insn); + + if (cslr_p && sched_deps_info->finish_rhs) + sched_deps_info->finish_rhs (); + return; default: @@ -1470,18 +2608,40 @@ sched_analyze_2 (struct deps *deps, rtx x, rtx insn) for (j = 0; j < XVECLEN (x, i); j++) sched_analyze_2 (deps, XVECEXP (x, i, j), insn); } + + if (cslr_p && sched_deps_info->finish_rhs) + sched_deps_info->finish_rhs (); } /* Analyze an INSN with pattern X to find all dependencies. */ - static void -sched_analyze_insn (struct deps *deps, rtx x, rtx insn) +sched_analyze_insn (struct deps_desc *deps, rtx x, rtx insn) { RTX_CODE code = GET_CODE (x); rtx link; unsigned i; reg_set_iterator rsi; + if (! reload_completed) + { + HARD_REG_SET temp; + + extract_insn (insn); + preprocess_constraints (); + ira_implicitly_set_insn_hard_regs (&temp); + AND_COMPL_HARD_REG_SET (temp, ira_no_alloc_regs); + IOR_HARD_REG_SET (implicit_reg_pending_clobbers, temp); + } + + can_start_lhs_rhs_p = (NONJUMP_INSN_P (insn) + && code == SET); + + if (may_trap_p (x)) + /* Avoid moving trapping instructions accross function calls that might + not always return. */ + add_dependence_list (insn, deps->last_function_call_may_noreturn, + 1, REG_DEP_ANTI); + if (code == COND_EXEC) { sched_analyze_2 (deps, COND_EXEC_TEST (x), insn); @@ -1499,7 +2659,8 @@ sched_analyze_insn (struct deps *deps, rtx x, rtx insn) and others know that a value is dead. Depend on the last call instruction so that reg-stack won't get confused. */ if (code == CLOBBER) - add_dependence_list (insn, deps->last_function_call, 1, REG_DEP_OUTPUT); + add_dependence_list (insn, deps->last_function_call, 1, + REG_DEP_OUTPUT); } else if (code == PARALLEL) { @@ -1540,31 +2701,42 @@ sched_analyze_insn (struct deps *deps, rtx x, rtx insn) if (JUMP_P (insn)) { rtx next; - next = next_nonnote_insn (insn); + next = next_nonnote_nondebug_insn (insn); if (next && BARRIER_P (next)) - reg_pending_barrier = TRUE_BARRIER; + reg_pending_barrier = MOVE_BARRIER; else { rtx pending, pending_mem; - regset_head tmp_uses, tmp_sets; - INIT_REG_SET (&tmp_uses); - INIT_REG_SET (&tmp_sets); - - (*current_sched_info->compute_jump_reg_dependencies) - (insn, &deps->reg_conditional_sets, &tmp_uses, &tmp_sets); - /* Make latency of jump equal to 0 by using anti-dependence. */ - EXECUTE_IF_SET_IN_REG_SET (&tmp_uses, 0, i, rsi) - { - struct deps_reg *reg_last = &deps->reg_last[i]; - add_dependence_list (insn, reg_last->sets, 0, REG_DEP_ANTI); - add_dependence_list (insn, reg_last->clobbers, 0, REG_DEP_ANTI); - reg_last->uses_length++; - reg_last->uses = alloc_INSN_LIST (insn, reg_last->uses); - } - IOR_REG_SET (reg_pending_sets, &tmp_sets); - CLEAR_REG_SET (&tmp_uses); - CLEAR_REG_SET (&tmp_sets); + if (sched_deps_info->compute_jump_reg_dependencies) + { + regset_head tmp_uses, tmp_sets; + INIT_REG_SET (&tmp_uses); + INIT_REG_SET (&tmp_sets); + + (*sched_deps_info->compute_jump_reg_dependencies) + (insn, &deps->reg_conditional_sets, &tmp_uses, &tmp_sets); + /* Make latency of jump equal to 0 by using anti-dependence. */ + EXECUTE_IF_SET_IN_REG_SET (&tmp_uses, 0, i, rsi) + { + struct deps_reg *reg_last = &deps->reg_last[i]; + add_dependence_list (insn, reg_last->sets, 0, REG_DEP_ANTI); + add_dependence_list (insn, reg_last->implicit_sets, + 0, REG_DEP_ANTI); + add_dependence_list (insn, reg_last->clobbers, 0, + REG_DEP_ANTI); + + if (!deps->readonly) + { + reg_last->uses_length++; + reg_last->uses = alloc_INSN_LIST (insn, reg_last->uses); + } + } + IOR_REG_SET (reg_pending_sets, &tmp_sets); + + CLEAR_REG_SET (&tmp_uses); + CLEAR_REG_SET (&tmp_sets); + } /* All memory writes and volatile reads must happen before the jump. Non-volatile reads must happen before the jump iff @@ -1598,164 +2770,297 @@ sched_analyze_insn (struct deps *deps, rtx x, rtx insn) /* If this instruction can throw an exception, then moving it changes where block boundaries fall. This is mighty confusing elsewhere. - Therefore, prevent such an instruction from being moved. */ - if (can_throw_internal (insn)) + Therefore, prevent such an instruction from being moved. Same for + non-jump instructions that define block boundaries. + ??? Unclear whether this is still necessary in EBB mode. If not, + add_branch_dependences should be adjusted for RGN mode instead. */ + if (((CALL_P (insn) || JUMP_P (insn)) && can_throw_internal (insn)) + || (NONJUMP_INSN_P (insn) && control_flow_insn_p (insn))) reg_pending_barrier = MOVE_BARRIER; - /* Add dependencies if a scheduling barrier was found. */ - if (reg_pending_barrier) + if (sched_pressure_p) { - /* In the case of barrier the most added dependencies are not - real, so we use anti-dependence here. */ - if (sched_get_condition (insn)) - { - EXECUTE_IF_SET_IN_REG_SET (&deps->reg_last_in_use, 0, i, rsi) - { - struct deps_reg *reg_last = &deps->reg_last[i]; - add_dependence_list (insn, reg_last->uses, 0, REG_DEP_ANTI); - add_dependence_list - (insn, reg_last->sets, 0, - reg_pending_barrier == TRUE_BARRIER ? REG_DEP_TRUE : REG_DEP_ANTI); - add_dependence_list - (insn, reg_last->clobbers, 0, - reg_pending_barrier == TRUE_BARRIER ? REG_DEP_TRUE : REG_DEP_ANTI); - } - } - else - { - EXECUTE_IF_SET_IN_REG_SET (&deps->reg_last_in_use, 0, i, rsi) - { - struct deps_reg *reg_last = &deps->reg_last[i]; - add_dependence_list_and_free (insn, ®_last->uses, 0, - REG_DEP_ANTI); - add_dependence_list_and_free - (insn, ®_last->sets, 0, - reg_pending_barrier == TRUE_BARRIER ? REG_DEP_TRUE : REG_DEP_ANTI); - add_dependence_list_and_free - (insn, ®_last->clobbers, 0, - reg_pending_barrier == TRUE_BARRIER ? REG_DEP_TRUE : REG_DEP_ANTI); - reg_last->uses_length = 0; - reg_last->clobbers_length = 0; - } - } + setup_insn_reg_uses (deps, insn); + setup_insn_reg_pressure_info (insn); + } + + /* Add register dependencies for insn. */ + if (DEBUG_INSN_P (insn)) + { + rtx prev = deps->last_debug_insn; + rtx u; - for (i = 0; i < (unsigned)deps->max_reg; i++) + if (!deps->readonly) + deps->last_debug_insn = insn; + + if (prev) + add_dependence (insn, prev, REG_DEP_ANTI); + + add_dependence_list (insn, deps->last_function_call, 1, + REG_DEP_ANTI); + + for (u = deps->last_pending_memory_flush; u; u = XEXP (u, 1)) + if (! NON_FLUSH_JUMP_P (u) || !sel_sched_p ()) + add_dependence (insn, XEXP (u, 0), REG_DEP_ANTI); + + EXECUTE_IF_SET_IN_REG_SET (reg_pending_uses, 0, i, rsi) { struct deps_reg *reg_last = &deps->reg_last[i]; - reg_last->sets = alloc_INSN_LIST (insn, reg_last->sets); - SET_REGNO_REG_SET (&deps->reg_last_in_use, i); - } + add_dependence_list (insn, reg_last->sets, 1, REG_DEP_ANTI); + add_dependence_list (insn, reg_last->clobbers, 1, REG_DEP_ANTI); - flush_pending_lists (deps, insn, true, true); - CLEAR_REG_SET (&deps->reg_conditional_sets); - reg_pending_barrier = NOT_A_BARRIER; + if (!deps->readonly) + reg_last->uses = alloc_INSN_LIST (insn, reg_last->uses); + } + CLEAR_REG_SET (reg_pending_uses); + + /* Quite often, a debug insn will refer to stuff in the + previous instruction, but the reason we want this + dependency here is to make sure the scheduler doesn't + gratuitously move a debug insn ahead. This could dirty + DF flags and cause additional analysis that wouldn't have + occurred in compilation without debug insns, and such + additional analysis can modify the generated code. */ + prev = PREV_INSN (insn); + + if (prev && NONDEBUG_INSN_P (prev)) + add_dependence (insn, prev, REG_DEP_ANTI); } else { - /* If the current insn is conditional, we can't free any - of the lists. */ - if (sched_get_condition (insn)) + EXECUTE_IF_SET_IN_REG_SET (reg_pending_uses, 0, i, rsi) { - EXECUTE_IF_SET_IN_REG_SET (reg_pending_uses, 0, i, rsi) + struct deps_reg *reg_last = &deps->reg_last[i]; + add_dependence_list (insn, reg_last->sets, 0, REG_DEP_TRUE); + add_dependence_list (insn, reg_last->implicit_sets, 0, REG_DEP_ANTI); + add_dependence_list (insn, reg_last->clobbers, 0, REG_DEP_TRUE); + + if (!deps->readonly) { - struct deps_reg *reg_last = &deps->reg_last[i]; - add_dependence_list (insn, reg_last->sets, 0, REG_DEP_TRUE); - add_dependence_list (insn, reg_last->clobbers, 0, REG_DEP_TRUE); reg_last->uses = alloc_INSN_LIST (insn, reg_last->uses); reg_last->uses_length++; } + } + + for (i = 0; i < FIRST_PSEUDO_REGISTER; i++) + if (TEST_HARD_REG_BIT (implicit_reg_pending_uses, i)) + { + struct deps_reg *reg_last = &deps->reg_last[i]; + add_dependence_list (insn, reg_last->sets, 0, REG_DEP_TRUE); + add_dependence_list (insn, reg_last->implicit_sets, 0, + REG_DEP_ANTI); + add_dependence_list (insn, reg_last->clobbers, 0, REG_DEP_TRUE); + + if (!deps->readonly) + { + reg_last->uses = alloc_INSN_LIST (insn, reg_last->uses); + reg_last->uses_length++; + } + } + + /* If the current insn is conditional, we can't free any + of the lists. */ + if (sched_has_condition_p (insn)) + { EXECUTE_IF_SET_IN_REG_SET (reg_pending_clobbers, 0, i, rsi) { struct deps_reg *reg_last = &deps->reg_last[i]; add_dependence_list (insn, reg_last->sets, 0, REG_DEP_OUTPUT); + add_dependence_list (insn, reg_last->implicit_sets, 0, + REG_DEP_ANTI); add_dependence_list (insn, reg_last->uses, 0, REG_DEP_ANTI); - reg_last->clobbers = alloc_INSN_LIST (insn, reg_last->clobbers); - reg_last->clobbers_length++; + + if (!deps->readonly) + { + reg_last->clobbers + = alloc_INSN_LIST (insn, reg_last->clobbers); + reg_last->clobbers_length++; + } } EXECUTE_IF_SET_IN_REG_SET (reg_pending_sets, 0, i, rsi) { struct deps_reg *reg_last = &deps->reg_last[i]; add_dependence_list (insn, reg_last->sets, 0, REG_DEP_OUTPUT); + add_dependence_list (insn, reg_last->implicit_sets, 0, + REG_DEP_ANTI); add_dependence_list (insn, reg_last->clobbers, 0, REG_DEP_OUTPUT); add_dependence_list (insn, reg_last->uses, 0, REG_DEP_ANTI); - reg_last->sets = alloc_INSN_LIST (insn, reg_last->sets); - SET_REGNO_REG_SET (&deps->reg_conditional_sets, i); + + if (!deps->readonly) + { + reg_last->sets = alloc_INSN_LIST (insn, reg_last->sets); + SET_REGNO_REG_SET (&deps->reg_conditional_sets, i); + } } } else { - EXECUTE_IF_SET_IN_REG_SET (reg_pending_uses, 0, i, rsi) - { - struct deps_reg *reg_last = &deps->reg_last[i]; - add_dependence_list (insn, reg_last->sets, 0, REG_DEP_TRUE); - add_dependence_list (insn, reg_last->clobbers, 0, REG_DEP_TRUE); - reg_last->uses_length++; - reg_last->uses = alloc_INSN_LIST (insn, reg_last->uses); - } EXECUTE_IF_SET_IN_REG_SET (reg_pending_clobbers, 0, i, rsi) { struct deps_reg *reg_last = &deps->reg_last[i]; if (reg_last->uses_length > MAX_PENDING_LIST_LENGTH || reg_last->clobbers_length > MAX_PENDING_LIST_LENGTH) { - add_dependence_list_and_free (insn, ®_last->sets, 0, - REG_DEP_OUTPUT); - add_dependence_list_and_free (insn, ®_last->uses, 0, - REG_DEP_ANTI); - add_dependence_list_and_free (insn, ®_last->clobbers, 0, + add_dependence_list_and_free (deps, insn, ®_last->sets, 0, REG_DEP_OUTPUT); - reg_last->sets = alloc_INSN_LIST (insn, reg_last->sets); - reg_last->clobbers_length = 0; - reg_last->uses_length = 0; + add_dependence_list_and_free (deps, insn, + ®_last->implicit_sets, 0, + REG_DEP_ANTI); + add_dependence_list_and_free (deps, insn, ®_last->uses, 0, + REG_DEP_ANTI); + add_dependence_list_and_free + (deps, insn, ®_last->clobbers, 0, REG_DEP_OUTPUT); + + if (!deps->readonly) + { + reg_last->sets = alloc_INSN_LIST (insn, reg_last->sets); + reg_last->clobbers_length = 0; + reg_last->uses_length = 0; + } } else { add_dependence_list (insn, reg_last->sets, 0, REG_DEP_OUTPUT); + add_dependence_list (insn, reg_last->implicit_sets, 0, + REG_DEP_ANTI); add_dependence_list (insn, reg_last->uses, 0, REG_DEP_ANTI); } - reg_last->clobbers_length++; - reg_last->clobbers = alloc_INSN_LIST (insn, reg_last->clobbers); + + if (!deps->readonly) + { + reg_last->clobbers_length++; + reg_last->clobbers + = alloc_INSN_LIST (insn, reg_last->clobbers); + } } EXECUTE_IF_SET_IN_REG_SET (reg_pending_sets, 0, i, rsi) { struct deps_reg *reg_last = &deps->reg_last[i]; - add_dependence_list_and_free (insn, ®_last->sets, 0, + + add_dependence_list_and_free (deps, insn, ®_last->sets, 0, REG_DEP_OUTPUT); - add_dependence_list_and_free (insn, ®_last->clobbers, 0, + add_dependence_list_and_free (deps, insn, + ®_last->implicit_sets, + 0, REG_DEP_ANTI); + add_dependence_list_and_free (deps, insn, ®_last->clobbers, 0, REG_DEP_OUTPUT); - add_dependence_list_and_free (insn, ®_last->uses, 0, + add_dependence_list_and_free (deps, insn, ®_last->uses, 0, REG_DEP_ANTI); - reg_last->sets = alloc_INSN_LIST (insn, reg_last->sets); - reg_last->uses_length = 0; - reg_last->clobbers_length = 0; - CLEAR_REGNO_REG_SET (&deps->reg_conditional_sets, i); + + if (!deps->readonly) + { + reg_last->sets = alloc_INSN_LIST (insn, reg_last->sets); + reg_last->uses_length = 0; + reg_last->clobbers_length = 0; + CLEAR_REGNO_REG_SET (&deps->reg_conditional_sets, i); + } } } + } + for (i = 0; i < FIRST_PSEUDO_REGISTER; i++) + if (TEST_HARD_REG_BIT (implicit_reg_pending_clobbers, i)) + { + struct deps_reg *reg_last = &deps->reg_last[i]; + add_dependence_list (insn, reg_last->sets, 0, REG_DEP_ANTI); + add_dependence_list (insn, reg_last->clobbers, 0, REG_DEP_ANTI); + add_dependence_list (insn, reg_last->uses, 0, REG_DEP_ANTI); + + if (!deps->readonly) + reg_last->implicit_sets + = alloc_INSN_LIST (insn, reg_last->implicit_sets); + } + + if (!deps->readonly) + { IOR_REG_SET (&deps->reg_last_in_use, reg_pending_uses); IOR_REG_SET (&deps->reg_last_in_use, reg_pending_clobbers); IOR_REG_SET (&deps->reg_last_in_use, reg_pending_sets); + for (i = 0; i < FIRST_PSEUDO_REGISTER; i++) + if (TEST_HARD_REG_BIT (implicit_reg_pending_uses, i) + || TEST_HARD_REG_BIT (implicit_reg_pending_clobbers, i)) + SET_REGNO_REG_SET (&deps->reg_last_in_use, i); + + /* Set up the pending barrier found. */ + deps->last_reg_pending_barrier = reg_pending_barrier; } + CLEAR_REG_SET (reg_pending_uses); CLEAR_REG_SET (reg_pending_clobbers); CLEAR_REG_SET (reg_pending_sets); + CLEAR_HARD_REG_SET (implicit_reg_pending_clobbers); + CLEAR_HARD_REG_SET (implicit_reg_pending_uses); - /* If we are currently in a libcall scheduling group, then mark the - current insn as being in a scheduling group and that it can not - be moved into a different basic block. */ - - if (deps->libcall_block_tail_insn) + /* Add dependencies if a scheduling barrier was found. */ + if (reg_pending_barrier) { - SCHED_GROUP_P (insn) = 1; - CANT_MOVE (insn) = 1; + /* In the case of barrier the most added dependencies are not + real, so we use anti-dependence here. */ + if (sched_has_condition_p (insn)) + { + EXECUTE_IF_SET_IN_REG_SET (&deps->reg_last_in_use, 0, i, rsi) + { + struct deps_reg *reg_last = &deps->reg_last[i]; + add_dependence_list (insn, reg_last->uses, 0, REG_DEP_ANTI); + add_dependence_list (insn, reg_last->sets, 0, + reg_pending_barrier == TRUE_BARRIER + ? REG_DEP_TRUE : REG_DEP_ANTI); + add_dependence_list (insn, reg_last->implicit_sets, 0, + REG_DEP_ANTI); + add_dependence_list (insn, reg_last->clobbers, 0, + reg_pending_barrier == TRUE_BARRIER + ? REG_DEP_TRUE : REG_DEP_ANTI); + } + } + else + { + EXECUTE_IF_SET_IN_REG_SET (&deps->reg_last_in_use, 0, i, rsi) + { + struct deps_reg *reg_last = &deps->reg_last[i]; + add_dependence_list_and_free (deps, insn, ®_last->uses, 0, + REG_DEP_ANTI); + add_dependence_list_and_free (deps, insn, ®_last->sets, 0, + reg_pending_barrier == TRUE_BARRIER + ? REG_DEP_TRUE : REG_DEP_ANTI); + add_dependence_list_and_free (deps, insn, + ®_last->implicit_sets, 0, + REG_DEP_ANTI); + add_dependence_list_and_free (deps, insn, ®_last->clobbers, 0, + reg_pending_barrier == TRUE_BARRIER + ? REG_DEP_TRUE : REG_DEP_ANTI); + + if (!deps->readonly) + { + reg_last->uses_length = 0; + reg_last->clobbers_length = 0; + } + } + } + + if (!deps->readonly) + for (i = 0; i < (unsigned)deps->max_reg; i++) + { + struct deps_reg *reg_last = &deps->reg_last[i]; + reg_last->sets = alloc_INSN_LIST (insn, reg_last->sets); + SET_REGNO_REG_SET (&deps->reg_last_in_use, i); + } + + /* Flush pending lists on jumps, but not on speculative checks. */ + if (JUMP_P (insn) && !(sel_sched_p () + && sel_insn_is_speculation_check (insn))) + flush_pending_lists (deps, insn, true, true); + + if (!deps->readonly) + CLEAR_REG_SET (&deps->reg_conditional_sets); + reg_pending_barrier = NOT_A_BARRIER; } /* If a post-call group is still open, see if it should remain so. This insn must be a simple move of a hard reg to a pseudo or vice-versa. - We must avoid moving these insns for correctness on - SMALL_REGISTER_CLASS machines, and for special registers like + We must avoid moving these insns for correctness on targets + with small register classes, and for special registers like PIC_OFFSET_TABLE_REGNUM. For simplicity, extend this to all hard regs for all targets. */ @@ -1765,7 +3070,30 @@ sched_analyze_insn (struct deps *deps, rtx x, rtx insn) int src_regno, dest_regno; if (set == NULL) - goto end_call_group; + { + if (DEBUG_INSN_P (insn)) + /* We don't want to mark debug insns as part of the same + sched group. We know they really aren't, but if we use + debug insns to tell that a call group is over, we'll + get different code if debug insns are not there and + instructions that follow seem like they should be part + of the call group. + + Also, if we did, fixup_sched_groups() would move the + deps of the debug insn to the call insn, modifying + non-debug post-dependency counts of the debug insn + dependencies and otherwise messing with the scheduling + order. + + Instead, let such debug insns be scheduled freely, but + keep the call group open in case there are insns that + should be part of it afterwards. Since we grant debug + insns higher priority than even sched group insns, it + will all turn out all right. */ + goto debug_dont_end_call_group; + else + goto end_call_group; + } tmp = SET_DEST (set); if (GET_CODE (tmp) == SUBREG) @@ -1792,301 +3120,369 @@ sched_analyze_insn (struct deps *deps, rtx x, rtx insn) if (src_regno < FIRST_PSEUDO_REGISTER || dest_regno < FIRST_PSEUDO_REGISTER) { - if (deps->in_post_call_group_p == post_call_initial) + if (!deps->readonly + && deps->in_post_call_group_p == post_call_initial) deps->in_post_call_group_p = post_call; - SCHED_GROUP_P (insn) = 1; - CANT_MOVE (insn) = 1; + if (!sel_sched_p () || sched_emulate_haifa_p) + { + SCHED_GROUP_P (insn) = 1; + CANT_MOVE (insn) = 1; + } } else { end_call_group: - deps->in_post_call_group_p = not_post_call; + if (!deps->readonly) + deps->in_post_call_group_p = not_post_call; } } - /* Fixup the dependencies in the sched group. */ - if (SCHED_GROUP_P (insn)) - fixup_sched_groups (insn); + debug_dont_end_call_group: + if ((current_sched_info->flags & DO_SPECULATION) + && !sched_insn_is_legitimate_for_speculation_p (insn, 0)) + /* INSN has an internal dependency (e.g. r14 = [r14]) and thus cannot + be speculated. */ + { + if (sel_sched_p ()) + sel_mark_hard_insn (insn); + else + { + sd_iterator_def sd_it; + dep_t dep; + + for (sd_it = sd_iterator_start (insn, SD_LIST_SPEC_BACK); + sd_iterator_cond (&sd_it, &dep);) + change_spec_dep_to_hard (sd_it); + } + } } -/* Analyze every insn between HEAD and TAIL inclusive, creating backward - dependencies for each insn. */ +/* Return TRUE if INSN might not always return normally (e.g. call exit, + longjmp, loop forever, ...). */ +static bool +call_may_noreturn_p (rtx insn) +{ + rtx call; + + /* const or pure calls that aren't looping will always return. */ + if (RTL_CONST_OR_PURE_CALL_P (insn) + && !RTL_LOOPING_CONST_OR_PURE_CALL_P (insn)) + return false; + + call = PATTERN (insn); + if (GET_CODE (call) == PARALLEL) + call = XVECEXP (call, 0, 0); + if (GET_CODE (call) == SET) + call = SET_SRC (call); + if (GET_CODE (call) == CALL + && MEM_P (XEXP (call, 0)) + && GET_CODE (XEXP (XEXP (call, 0), 0)) == SYMBOL_REF) + { + rtx symbol = XEXP (XEXP (call, 0), 0); + if (SYMBOL_REF_DECL (symbol) + && TREE_CODE (SYMBOL_REF_DECL (symbol)) == FUNCTION_DECL) + { + if (DECL_BUILT_IN_CLASS (SYMBOL_REF_DECL (symbol)) + == BUILT_IN_NORMAL) + switch (DECL_FUNCTION_CODE (SYMBOL_REF_DECL (symbol))) + { + case BUILT_IN_BCMP: + case BUILT_IN_BCOPY: + case BUILT_IN_BZERO: + case BUILT_IN_INDEX: + case BUILT_IN_MEMCHR: + case BUILT_IN_MEMCMP: + case BUILT_IN_MEMCPY: + case BUILT_IN_MEMMOVE: + case BUILT_IN_MEMPCPY: + case BUILT_IN_MEMSET: + case BUILT_IN_RINDEX: + case BUILT_IN_STPCPY: + case BUILT_IN_STPNCPY: + case BUILT_IN_STRCAT: + case BUILT_IN_STRCHR: + case BUILT_IN_STRCMP: + case BUILT_IN_STRCPY: + case BUILT_IN_STRCSPN: + case BUILT_IN_STRLEN: + case BUILT_IN_STRNCAT: + case BUILT_IN_STRNCMP: + case BUILT_IN_STRNCPY: + case BUILT_IN_STRPBRK: + case BUILT_IN_STRRCHR: + case BUILT_IN_STRSPN: + case BUILT_IN_STRSTR: + /* Assume certain string/memory builtins always return. */ + return false; + default: + break; + } + } + } + + /* For all other calls assume that they might not always return. */ + return true; +} +/* Analyze INSN with DEPS as a context. */ void -sched_analyze (struct deps *deps, rtx head, rtx tail) +deps_analyze_insn (struct deps_desc *deps, rtx insn) { - rtx insn; - - if (current_sched_info->use_cselib) - cselib_init (true); + if (sched_deps_info->start_insn) + sched_deps_info->start_insn (insn); - /* Before reload, if the previous block ended in a call, show that - we are inside a post-call group, so as to keep the lifetimes of - hard registers correct. */ - if (! reload_completed && !LABEL_P (head)) + if (NONJUMP_INSN_P (insn) || DEBUG_INSN_P (insn) || JUMP_P (insn)) { - insn = prev_nonnote_insn (head); - if (insn && CALL_P (insn)) - deps->in_post_call_group_p = post_call_initial; + /* Make each JUMP_INSN (but not a speculative check) + a scheduling barrier for memory references. */ + if (!deps->readonly + && JUMP_P (insn) + && !(sel_sched_p () + && sel_insn_is_speculation_check (insn))) + { + /* Keep the list a reasonable size. */ + if (deps->pending_flush_length++ > MAX_PENDING_LIST_LENGTH) + flush_pending_lists (deps, insn, true, true); + else + { + deps->last_pending_memory_flush + = alloc_INSN_LIST (insn, deps->last_pending_memory_flush); + /* Signal to sched_analyze_insn that this jump stands + just for its own, not any other pending memory + reads/writes flush_pending_lists had to flush. */ + PUT_REG_NOTE_KIND (deps->last_pending_memory_flush, + NON_FLUSH_JUMP_KIND); + } + } + + sched_analyze_insn (deps, PATTERN (insn), insn); } - for (insn = head;; insn = NEXT_INSN (insn)) + else if (CALL_P (insn)) { - rtx link, end_seq, r0, set; + int i; - if (INSN_P (insn)) - { - /* Clear out the stale LOG_LINKS from flow. */ - free_INSN_LIST_list (&LOG_LINKS (insn)); + CANT_MOVE (insn) = 1; - /* These two lists will be freed in schedule_insn (). */ - INSN_BACK_DEPS (insn) = create_deps_list (false); - INSN_RESOLVED_BACK_DEPS (insn) = create_deps_list (false); + if (find_reg_note (insn, REG_SETJMP, NULL)) + { + /* This is setjmp. Assume that all registers, not just + hard registers, may be clobbered by this call. */ + reg_pending_barrier = MOVE_BARRIER; + } + else + { + for (i = 0; i < FIRST_PSEUDO_REGISTER; i++) + /* A call may read and modify global register variables. */ + if (global_regs[i]) + { + SET_REGNO_REG_SET (reg_pending_sets, i); + SET_HARD_REG_BIT (implicit_reg_pending_uses, i); + } + /* Other call-clobbered hard regs may be clobbered. + Since we only have a choice between 'might be clobbered' + and 'definitely not clobbered', we must include all + partly call-clobbered registers here. */ + else if (HARD_REGNO_CALL_PART_CLOBBERED (i, reg_raw_mode[i]) + || TEST_HARD_REG_BIT (regs_invalidated_by_call, i)) + SET_REGNO_REG_SET (reg_pending_clobbers, i); + /* We don't know what set of fixed registers might be used + by the function, but it is certain that the stack pointer + is among them, but be conservative. */ + else if (fixed_regs[i]) + SET_HARD_REG_BIT (implicit_reg_pending_uses, i); + /* The frame pointer is normally not used by the function + itself, but by the debugger. */ + /* ??? MIPS o32 is an exception. It uses the frame pointer + in the macro expansion of jal but does not represent this + fact in the call_insn rtl. */ + else if (i == FRAME_POINTER_REGNUM + || (i == HARD_FRAME_POINTER_REGNUM + && (! reload_completed || frame_pointer_needed))) + SET_HARD_REG_BIT (implicit_reg_pending_uses, i); + } - /* This one should be allocated on the obstack because it should live - till the scheduling ends. */ - INSN_FORW_DEPS (insn) = create_deps_list (true); - } + /* For each insn which shouldn't cross a call, add a dependence + between that insn and this call insn. */ + add_dependence_list_and_free (deps, insn, + &deps->sched_before_next_call, 1, + REG_DEP_ANTI); - if (NONJUMP_INSN_P (insn) || JUMP_P (insn)) - { - /* Make each JUMP_INSN a scheduling barrier for memory - references. */ - if (JUMP_P (insn)) - { - /* Keep the list a reasonable size. */ - if (deps->pending_flush_length++ > MAX_PENDING_LIST_LENGTH) - flush_pending_lists (deps, insn, true, true); - else - deps->last_pending_memory_flush - = alloc_INSN_LIST (insn, deps->last_pending_memory_flush); - } - sched_analyze_insn (deps, PATTERN (insn), insn); - } - else if (CALL_P (insn)) - { - int i; + sched_analyze_insn (deps, PATTERN (insn), insn); - CANT_MOVE (insn) = 1; + /* If CALL would be in a sched group, then this will violate + convention that sched group insns have dependencies only on the + previous instruction. - if (find_reg_note (insn, REG_SETJMP, NULL)) - { - /* This is setjmp. Assume that all registers, not just - hard registers, may be clobbered by this call. */ - reg_pending_barrier = MOVE_BARRIER; - } - else + Of course one can say: "Hey! What about head of the sched group?" + And I will answer: "Basic principles (one dep per insn) are always + the same." */ + gcc_assert (!SCHED_GROUP_P (insn)); + + /* In the absence of interprocedural alias analysis, we must flush + all pending reads and writes, and start new dependencies starting + from here. But only flush writes for constant calls (which may + be passed a pointer to something we haven't written yet). */ + flush_pending_lists (deps, insn, true, ! RTL_CONST_OR_PURE_CALL_P (insn)); + + if (!deps->readonly) + { + /* Remember the last function call for limiting lifetimes. */ + free_INSN_LIST_list (&deps->last_function_call); + deps->last_function_call = alloc_INSN_LIST (insn, NULL_RTX); + + if (call_may_noreturn_p (insn)) { - for (i = 0; i < FIRST_PSEUDO_REGISTER; i++) - /* A call may read and modify global register variables. */ - if (global_regs[i]) - { - SET_REGNO_REG_SET (reg_pending_sets, i); - SET_REGNO_REG_SET (reg_pending_uses, i); - } - /* Other call-clobbered hard regs may be clobbered. - Since we only have a choice between 'might be clobbered' - and 'definitely not clobbered', we must include all - partly call-clobbered registers here. */ - else if (HARD_REGNO_CALL_PART_CLOBBERED (i, reg_raw_mode[i]) - || TEST_HARD_REG_BIT (regs_invalidated_by_call, i)) - SET_REGNO_REG_SET (reg_pending_clobbers, i); - /* We don't know what set of fixed registers might be used - by the function, but it is certain that the stack pointer - is among them, but be conservative. */ - else if (fixed_regs[i]) - SET_REGNO_REG_SET (reg_pending_uses, i); - /* The frame pointer is normally not used by the function - itself, but by the debugger. */ - /* ??? MIPS o32 is an exception. It uses the frame pointer - in the macro expansion of jal but does not represent this - fact in the call_insn rtl. */ - else if (i == FRAME_POINTER_REGNUM - || (i == HARD_FRAME_POINTER_REGNUM - && (! reload_completed || frame_pointer_needed))) - SET_REGNO_REG_SET (reg_pending_uses, i); + /* Remember the last function call that might not always return + normally for limiting moves of trapping insns. */ + free_INSN_LIST_list (&deps->last_function_call_may_noreturn); + deps->last_function_call_may_noreturn + = alloc_INSN_LIST (insn, NULL_RTX); } - /* For each insn which shouldn't cross a call, add a dependence - between that insn and this call insn. */ - add_dependence_list_and_free (insn, &deps->sched_before_next_call, 1, - REG_DEP_ANTI); + /* Before reload, begin a post-call group, so as to keep the + lifetimes of hard registers correct. */ + if (! reload_completed) + deps->in_post_call_group_p = post_call; + } + } + + if (sched_deps_info->use_cselib) + cselib_process_insn (insn); + + /* EH_REGION insn notes can not appear until well after we complete + scheduling. */ + if (NOTE_P (insn)) + gcc_assert (NOTE_KIND (insn) != NOTE_INSN_EH_REGION_BEG + && NOTE_KIND (insn) != NOTE_INSN_EH_REGION_END); + + if (sched_deps_info->finish_insn) + sched_deps_info->finish_insn (); + + /* Fixup the dependencies in the sched group. */ + if ((NONJUMP_INSN_P (insn) || JUMP_P (insn)) + && SCHED_GROUP_P (insn) && !sel_sched_p ()) + fixup_sched_groups (insn); +} + +/* Initialize DEPS for the new block beginning with HEAD. */ +void +deps_start_bb (struct deps_desc *deps, rtx head) +{ + gcc_assert (!deps->readonly); + + /* Before reload, if the previous block ended in a call, show that + we are inside a post-call group, so as to keep the lifetimes of + hard registers correct. */ + if (! reload_completed && !LABEL_P (head)) + { + rtx insn = prev_nonnote_nondebug_insn (head); + + if (insn && CALL_P (insn)) + deps->in_post_call_group_p = post_call_initial; + } +} + +/* Analyze every insn between HEAD and TAIL inclusive, creating backward + dependencies for each insn. */ +void +sched_analyze (struct deps_desc *deps, rtx head, rtx tail) +{ + rtx insn; - sched_analyze_insn (deps, PATTERN (insn), insn); + if (sched_deps_info->use_cselib) + cselib_init (CSELIB_RECORD_MEMORY); - /* In the absence of interprocedural alias analysis, we must flush - all pending reads and writes, and start new dependencies starting - from here. But only flush writes for constant calls (which may - be passed a pointer to something we haven't written yet). */ - flush_pending_lists (deps, insn, true, !CONST_OR_PURE_CALL_P (insn)); + deps_start_bb (deps, head); - /* Remember the last function call for limiting lifetimes. */ - free_INSN_LIST_list (&deps->last_function_call); - deps->last_function_call = alloc_INSN_LIST (insn, NULL_RTX); + for (insn = head;; insn = NEXT_INSN (insn)) + { - /* Before reload, begin a post-call group, so as to keep the - lifetimes of hard registers correct. */ - if (! reload_completed) - deps->in_post_call_group_p = post_call; + if (INSN_P (insn)) + { + /* And initialize deps_lists. */ + sd_init_insn (insn); } - /* EH_REGION insn notes can not appear until well after we complete - scheduling. */ - if (NOTE_P (insn)) - gcc_assert (NOTE_LINE_NUMBER (insn) != NOTE_INSN_EH_REGION_BEG - && NOTE_LINE_NUMBER (insn) != NOTE_INSN_EH_REGION_END); - - if (current_sched_info->use_cselib) - cselib_process_insn (insn); - - /* Now that we have completed handling INSN, check and see if it is - a CLOBBER beginning a libcall block. If it is, record the - end of the libcall sequence. - - We want to schedule libcall blocks as a unit before reload. While - this restricts scheduling, it preserves the meaning of a libcall - block. - - As a side effect, we may get better code due to decreased register - pressure as well as less chance of a foreign insn appearing in - a libcall block. */ - if (!reload_completed - /* Note we may have nested libcall sequences. We only care about - the outermost libcall sequence. */ - && deps->libcall_block_tail_insn == 0 - /* The sequence must start with a clobber of a register. */ - && NONJUMP_INSN_P (insn) - && GET_CODE (PATTERN (insn)) == CLOBBER - && (r0 = XEXP (PATTERN (insn), 0), REG_P (r0)) - && REG_P (XEXP (PATTERN (insn), 0)) - /* The CLOBBER must also have a REG_LIBCALL note attached. */ - && (link = find_reg_note (insn, REG_LIBCALL, NULL_RTX)) != 0 - && (end_seq = XEXP (link, 0)) != 0 - /* The insn referenced by the REG_LIBCALL note must be a - simple nop copy with the same destination as the register - mentioned in the clobber. */ - && (set = single_set (end_seq)) != 0 - && SET_DEST (set) == r0 && SET_SRC (set) == r0 - /* And finally the insn referenced by the REG_LIBCALL must - also contain a REG_EQUAL note and a REG_RETVAL note. */ - && find_reg_note (end_seq, REG_EQUAL, NULL_RTX) != 0 - && find_reg_note (end_seq, REG_RETVAL, NULL_RTX) != 0) - deps->libcall_block_tail_insn = XEXP (link, 0); - - /* If we have reached the end of a libcall block, then close the - block. */ - if (deps->libcall_block_tail_insn == insn) - deps->libcall_block_tail_insn = 0; + deps_analyze_insn (deps, insn); if (insn == tail) { - if (current_sched_info->use_cselib) + if (sched_deps_info->use_cselib) cselib_finish (); return; } } gcc_unreachable (); } - -/* The following function adds forward dependence (FROM, TO) with - given DEP_TYPE. The forward dependence should be not exist before. */ - -void -add_forw_dep (dep_link_t link) +/* Helper for sched_free_deps (). + Delete INSN's (RESOLVED_P) backward dependencies. */ +static void +delete_dep_nodes_in_back_deps (rtx insn, bool resolved_p) { - dep_t dep = DEP_LINK_DEP (link); - rtx to = DEP_CON (dep); - rtx from = DEP_PRO (dep); + sd_iterator_def sd_it; + dep_t dep; + sd_list_types_def types; -#ifdef ENABLE_CHECKING - /* If add_dependence is working properly there should never - be notes, deleted insns or duplicates in the backward - links. Thus we need not check for them here. - - However, if we have enabled checking we might as well go - ahead and verify that add_dependence worked properly. */ - gcc_assert (INSN_P (from)); - gcc_assert (!INSN_DELETED_P (from)); - if (true_dependency_cache) + if (resolved_p) + types = SD_LIST_RES_BACK; + else + types = SD_LIST_BACK; + + for (sd_it = sd_iterator_start (insn, types); + sd_iterator_cond (&sd_it, &dep);) { - gcc_assert (!bitmap_bit_p (&forward_dependency_cache[INSN_LUID (from)], - INSN_LUID (to))); - bitmap_set_bit (&forward_dependency_cache[INSN_LUID (from)], - INSN_LUID (to)); + dep_link_t link = *sd_it.linkp; + dep_node_t node = DEP_LINK_NODE (link); + deps_list_t back_list; + deps_list_t forw_list; + + get_back_and_forw_lists (dep, resolved_p, &back_list, &forw_list); + remove_from_deps_list (link, back_list); + delete_dep_node (node); } - - gcc_assert (find_link_by_con_in_deps_list (INSN_FORW_DEPS (from), to) - == NULL); -#endif - - add_to_deps_list (DEP_NODE_FORW (DEP_LINK_NODE (link)), - INSN_FORW_DEPS (from)); - - INSN_DEP_COUNT (to) += 1; } -/* Examine insns in the range [ HEAD, TAIL ] and Use the backward - dependences from INSN_BACK_DEPS list to build forward dependences in - INSN_FORW_DEPS. */ - +/* Delete (RESOLVED_P) dependencies between HEAD and TAIL together with + deps_lists. */ void -compute_forward_dependences (rtx head, rtx tail) +sched_free_deps (rtx head, rtx tail, bool resolved_p) { rtx insn; - rtx next_tail; + rtx next_tail = NEXT_INSN (tail); - next_tail = NEXT_INSN (tail); for (insn = head; insn != next_tail; insn = NEXT_INSN (insn)) - { - dep_link_t link; - - if (! INSN_P (insn)) - continue; - - if (current_sched_info->flags & DO_SPECULATION) - { - /* We will add links, preserving order, from INSN_BACK_DEPS to - NEW. */ - dep_link_t new = NULL; - - link = DEPS_LIST_FIRST (INSN_BACK_DEPS (insn)); - - while (link != NULL) - { - dep_link_t next = DEP_LINK_NEXT (link); - - detach_dep_link (link); - adjust_add_sorted_back_dep (insn, link, &new); - - link = next; - } - - /* Attach NEW to be the list of backward dependencies. */ - if (new != NULL) - { - DEP_LINK_PREV_NEXTP (new) - = &DEPS_LIST_FIRST (INSN_BACK_DEPS (insn)); + if (INSN_P (insn) && INSN_LUID (insn) > 0) + { + /* Clear resolved back deps together with its dep_nodes. */ + delete_dep_nodes_in_back_deps (insn, resolved_p); - DEPS_LIST_FIRST (INSN_BACK_DEPS (insn)) = new; - } - } + /* Clear forward deps and leave the dep_nodes to the + corresponding back_deps list. */ + if (resolved_p) + clear_deps_list (INSN_RESOLVED_FORW_DEPS (insn)); + else + clear_deps_list (INSN_FORW_DEPS (insn)); - FOR_EACH_DEP_LINK (link, INSN_BACK_DEPS (insn)) - add_forw_dep (link); - } + sd_finish_insn (insn); + } } /* Initialize variables for region data dependence analysis. - n_bbs is the number of region blocks. */ + When LAZY_REG_LAST is true, do not allocate reg_last array + of struct deps_desc immediately. */ void -init_deps (struct deps *deps) +init_deps (struct deps_desc *deps, bool lazy_reg_last) { int max_reg = (reload_completed ? FIRST_PSEUDO_REGISTER : max_reg_num ()); deps->max_reg = max_reg; - deps->reg_last = XCNEWVEC (struct deps_reg, max_reg); + if (lazy_reg_last) + deps->reg_last = NULL; + else + deps->reg_last = XCNEWVEC (struct deps_reg, max_reg); INIT_REG_SET (&deps->reg_last_in_use); INIT_REG_SET (&deps->reg_conditional_sets); @@ -2099,19 +3495,42 @@ init_deps (struct deps *deps) deps->pending_flush_length = 0; deps->last_pending_memory_flush = 0; deps->last_function_call = 0; + deps->last_function_call_may_noreturn = 0; deps->sched_before_next_call = 0; deps->in_post_call_group_p = not_post_call; - deps->libcall_block_tail_insn = 0; + deps->last_debug_insn = 0; + deps->last_reg_pending_barrier = NOT_A_BARRIER; + deps->readonly = 0; +} + +/* Init only reg_last field of DEPS, which was not allocated before as + we inited DEPS lazily. */ +void +init_deps_reg_last (struct deps_desc *deps) +{ + gcc_assert (deps && deps->max_reg > 0); + gcc_assert (deps->reg_last == NULL); + + deps->reg_last = XCNEWVEC (struct deps_reg, deps->max_reg); } + /* Free insn lists found in DEPS. */ void -free_deps (struct deps *deps) +free_deps (struct deps_desc *deps) { unsigned i; reg_set_iterator rsi; + /* We set max_reg to 0 when this context was already freed. */ + if (deps->max_reg == 0) + { + gcc_assert (deps->reg_last == NULL); + return; + } + deps->max_reg = 0; + free_INSN_LIST_list (&deps->pending_read_insns); free_EXPR_LIST_list (&deps->pending_read_mems); free_INSN_LIST_list (&deps->pending_write_insns); @@ -2128,45 +3547,118 @@ free_deps (struct deps *deps) free_INSN_LIST_list (®_last->uses); if (reg_last->sets) free_INSN_LIST_list (®_last->sets); + if (reg_last->implicit_sets) + free_INSN_LIST_list (®_last->implicit_sets); if (reg_last->clobbers) free_INSN_LIST_list (®_last->clobbers); } CLEAR_REG_SET (&deps->reg_last_in_use); CLEAR_REG_SET (&deps->reg_conditional_sets); - free (deps->reg_last); + /* As we initialize reg_last lazily, it is possible that we didn't allocate + it at all. */ + if (deps->reg_last) + free (deps->reg_last); + deps->reg_last = NULL; + + deps = NULL; +} + +/* Remove INSN from dependence contexts DEPS. Caution: reg_conditional_sets + is not handled. */ +void +remove_from_deps (struct deps_desc *deps, rtx insn) +{ + int removed; + unsigned i; + reg_set_iterator rsi; + + removed = remove_from_both_dependence_lists (insn, &deps->pending_read_insns, + &deps->pending_read_mems); + if (!DEBUG_INSN_P (insn)) + deps->pending_read_list_length -= removed; + removed = remove_from_both_dependence_lists (insn, &deps->pending_write_insns, + &deps->pending_write_mems); + deps->pending_write_list_length -= removed; + removed = remove_from_dependence_list (insn, &deps->last_pending_memory_flush); + deps->pending_flush_length -= removed; + + EXECUTE_IF_SET_IN_REG_SET (&deps->reg_last_in_use, 0, i, rsi) + { + struct deps_reg *reg_last = &deps->reg_last[i]; + if (reg_last->uses) + remove_from_dependence_list (insn, ®_last->uses); + if (reg_last->sets) + remove_from_dependence_list (insn, ®_last->sets); + if (reg_last->implicit_sets) + remove_from_dependence_list (insn, ®_last->implicit_sets); + if (reg_last->clobbers) + remove_from_dependence_list (insn, ®_last->clobbers); + if (!reg_last->uses && !reg_last->sets && !reg_last->implicit_sets + && !reg_last->clobbers) + CLEAR_REGNO_REG_SET (&deps->reg_last_in_use, i); + } + + if (CALL_P (insn)) + { + remove_from_dependence_list (insn, &deps->last_function_call); + remove_from_dependence_list (insn, + &deps->last_function_call_may_noreturn); + } + remove_from_dependence_list (insn, &deps->sched_before_next_call); } -/* If it is profitable to use them, initialize caches for tracking - dependency information. LUID is the number of insns to be scheduled, - it is used in the estimate of profitability. */ +/* Init deps data vector. */ +static void +init_deps_data_vector (void) +{ + int reserve = (sched_max_luid + 1 + - VEC_length (haifa_deps_insn_data_def, h_d_i_d)); + if (reserve > 0 + && ! VEC_space (haifa_deps_insn_data_def, h_d_i_d, reserve)) + VEC_safe_grow_cleared (haifa_deps_insn_data_def, heap, h_d_i_d, + 3 * sched_max_luid / 2); +} +/* If it is profitable to use them, initialize or extend (depending on + GLOBAL_P) dependency data. */ void -init_dependency_caches (int luid) +sched_deps_init (bool global_p) { - /* ?!? We could save some memory by computing a per-region luid mapping - which could reduce both the number of vectors in the cache and the size - of each vector. Instead we just avoid the cache entirely unless the - average number of instructions in a basic block is very high. See - the comment before the declaration of true_dependency_cache for - what we consider "very high". */ - if (luid / n_basic_blocks > 100 * 5) + /* Average number of insns in the basic block. + '+ 1' is used to make it nonzero. */ + int insns_in_block = sched_max_luid / n_basic_blocks + 1; + + init_deps_data_vector (); + + /* We use another caching mechanism for selective scheduling, so + we don't use this one. */ + if (!sel_sched_p () && global_p && insns_in_block > 100 * 5) { + /* ?!? We could save some memory by computing a per-region luid mapping + which could reduce both the number of vectors in the cache and the + size of each vector. Instead we just avoid the cache entirely unless + the average number of instructions in a basic block is very high. See + the comment before the declaration of true_dependency_cache for + what we consider "very high". */ cache_size = 0; - extend_dependency_caches (luid, true); + extend_dependency_caches (sched_max_luid, true); } - /* Lifetime of this obstack is whole function scheduling (not single region - scheduling) because some dependencies can be manually generated for - outside regions. See dont_calc_deps in sched-{rgn, ebb}.c . - - Possible solution would be to have two obstacks: - * the big one for regular dependencies with region scheduling lifetime, - * and the small one for manually generated dependencies with function - scheduling lifetime. */ - gcc_obstack_init (&deps_obstack); + if (global_p) + { + dl_pool = create_alloc_pool ("deps_list", sizeof (struct _deps_list), + /* Allocate lists for one block at a time. */ + insns_in_block); + dn_pool = create_alloc_pool ("dep_node", sizeof (struct _dep_node), + /* Allocate nodes for one block at a time. + We assume that average insn has + 5 producers. */ + 5 * insns_in_block); + } } + /* Create or extend (depending on CREATE_P) dependency caches to size N. */ void @@ -2182,10 +3674,7 @@ extend_dependency_caches (int n, bool create_p) output_dependency_cache, luid); anti_dependency_cache = XRESIZEVEC (bitmap_head, anti_dependency_cache, luid); -#ifdef ENABLE_CHECKING - forward_dependency_cache = XRESIZEVEC (bitmap_head, - forward_dependency_cache, luid); -#endif + if (current_sched_info->flags & DO_SPECULATION) spec_dependency_cache = XRESIZEVEC (bitmap_head, spec_dependency_cache, luid); @@ -2195,9 +3684,7 @@ extend_dependency_caches (int n, bool create_p) bitmap_initialize (&true_dependency_cache[i], 0); bitmap_initialize (&output_dependency_cache[i], 0); bitmap_initialize (&anti_dependency_cache[i], 0); -#ifdef ENABLE_CHECKING - bitmap_initialize (&forward_dependency_cache[i], 0); -#endif + if (current_sched_info->flags & DO_SPECULATION) bitmap_initialize (&spec_dependency_cache[i], 0); } @@ -2205,12 +3692,17 @@ extend_dependency_caches (int n, bool create_p) } } -/* Free the caches allocated in init_dependency_caches. */ - +/* Finalize dependency information for the whole function. */ void -free_dependency_caches (void) +sched_deps_finish (void) { - obstack_free (&deps_obstack, NULL); + gcc_assert (deps_pools_are_empty_p ()); + free_alloc_pool_if_empty (&dn_pool); + free_alloc_pool_if_empty (&dl_pool); + gcc_assert (dn_pool == NULL && dl_pool == NULL); + + VEC_free (haifa_deps_insn_data_def, heap, h_d_i_d); + cache_size = 0; if (true_dependency_cache) { @@ -2221,10 +3713,8 @@ free_dependency_caches (void) bitmap_clear (&true_dependency_cache[i]); bitmap_clear (&output_dependency_cache[i]); bitmap_clear (&anti_dependency_cache[i]); -#ifdef ENABLE_CHECKING - bitmap_clear (&forward_dependency_cache[i]); -#endif - if (current_sched_info->flags & DO_SPECULATION) + + if (sched_deps_info->generate_spec_deps) bitmap_clear (&spec_dependency_cache[i]); } free (true_dependency_cache); @@ -2233,15 +3723,13 @@ free_dependency_caches (void) output_dependency_cache = NULL; free (anti_dependency_cache); anti_dependency_cache = NULL; -#ifdef ENABLE_CHECKING - free (forward_dependency_cache); - forward_dependency_cache = NULL; -#endif - if (current_sched_info->flags & DO_SPECULATION) + + if (sched_deps_info->generate_spec_deps) { free (spec_dependency_cache); spec_dependency_cache = NULL; } + } } @@ -2251,10 +3739,25 @@ free_dependency_caches (void) void init_deps_global (void) { + CLEAR_HARD_REG_SET (implicit_reg_pending_clobbers); + CLEAR_HARD_REG_SET (implicit_reg_pending_uses); reg_pending_sets = ALLOC_REG_SET (®_obstack); reg_pending_clobbers = ALLOC_REG_SET (®_obstack); reg_pending_uses = ALLOC_REG_SET (®_obstack); reg_pending_barrier = NOT_A_BARRIER; + + if (!sel_sched_p () || sched_emulate_haifa_p) + { + sched_deps_info->start_insn = haifa_start_insn; + sched_deps_info->finish_insn = haifa_finish_insn; + + sched_deps_info->note_reg_set = haifa_note_reg_set; + sched_deps_info->note_reg_clobber = haifa_note_reg_clobber; + sched_deps_info->note_reg_use = haifa_note_reg_use; + + sched_deps_info->note_mem_dep = haifa_note_mem_dep; + sched_deps_info->note_dep = haifa_note_dep; + } } /* Free everything used by the dependency analysis code. */ @@ -2267,74 +3770,8 @@ finish_deps_global (void) FREE_REG_SET (reg_pending_uses); } -/* Insert LINK into the dependence chain pointed to by LINKP and - maintain the sort order. */ -static void -adjust_add_sorted_back_dep (rtx insn, dep_link_t link, dep_link_t *linkp) -{ - gcc_assert (current_sched_info->flags & DO_SPECULATION); - - /* If the insn cannot move speculatively, but the link is speculative, - make it hard dependence. */ - if (HAS_INTERNAL_DEP (insn) - && (DEP_LINK_STATUS (link) & SPECULATIVE)) - { - DEP_LINK_STATUS (link) &= ~SPECULATIVE; - - if (true_dependency_cache) - bitmap_clear_bit (&spec_dependency_cache[INSN_LUID (insn)], - INSN_LUID (DEP_LINK_PRO (link))); - } - - /* Non-speculative links go at the head of deps_list, followed by - speculative links. */ - if (DEP_LINK_STATUS (link) & SPECULATIVE) - while (*linkp && !(DEP_LINK_STATUS (*linkp) & SPECULATIVE)) - linkp = &DEP_LINK_NEXT (*linkp); - - attach_dep_link (link, linkp); - - if (CHECK) - gcc_assert (deps_list_consistent_p (INSN_BACK_DEPS (insn))); -} - -/* Move the dependence pointed to by LINKP to the back dependencies - of INSN, and also add this dependence to the forward ones. All dep_links, - except one pointed to by LINKP, must be sorted. */ -static void -adjust_back_add_forw_dep (rtx insn, dep_link_t *linkp) -{ - dep_link_t link; - - gcc_assert (current_sched_info->flags & DO_SPECULATION); - - link = *linkp; - detach_dep_link (link); - - adjust_add_sorted_back_dep (insn, link, - &DEPS_LIST_FIRST (INSN_BACK_DEPS (insn))); - add_forw_dep (link); -} - -/* Remove forward dependence described by L. */ -static void -delete_forw_dep (dep_link_t l) -{ - gcc_assert (current_sched_info->flags & DO_SPECULATION); - -#ifdef ENABLE_CHECKING - if (true_dependency_cache) - bitmap_clear_bit (&forward_dependency_cache[INSN_LUID (DEP_LINK_PRO (l))], - INSN_LUID (DEP_LINK_CON (l))); -#endif - - detach_dep_link (l); - - INSN_DEP_COUNT (DEP_LINK_CON (l))--; -} - /* Estimate the weakness of dependence between MEM1 and MEM2. */ -static dw_t +dw_t estimate_dep_weak (rtx mem1, rtx mem2) { rtx r1, r2; @@ -2368,91 +3805,37 @@ void add_dependence (rtx insn, rtx elem, enum reg_note dep_type) { ds_t ds; - + bool internal; + if (dep_type == REG_DEP_TRUE) ds = DEP_TRUE; else if (dep_type == REG_DEP_OUTPUT) ds = DEP_OUTPUT; - else if (dep_type == REG_DEP_ANTI) - ds = DEP_ANTI; else - gcc_unreachable (); - - maybe_add_or_update_back_dep_1 (insn, elem, dep_type, ds, 0, 0, 0); -} - -/* Add or update backward dependence between INSN and ELEM - with given type DEP_TYPE and dep_status DS. - This function is a convenience wrapper. */ -enum DEPS_ADJUST_RESULT -add_or_update_back_dep (rtx insn, rtx elem, enum reg_note dep_type, ds_t ds) -{ - return add_or_update_back_dep_1 (insn, elem, dep_type, ds, 0, 0, 0); -} - -/* Add or update both backward and forward dependencies between INSN and ELEM - with given type DEP_TYPE and dep_status DS. */ -void -add_or_update_back_forw_dep (rtx insn, rtx elem, enum reg_note dep_type, - ds_t ds) -{ - enum DEPS_ADJUST_RESULT res; - dep_link_t *linkp; - - res = add_or_update_back_dep_1 (insn, elem, dep_type, ds, 0, 0, &linkp); - - if (res == DEP_CHANGED || res == DEP_CREATED) { - if (res == DEP_CHANGED) - delete_forw_dep (DEP_NODE_FORW (DEP_LINK_NODE (*linkp))); - else if (res == DEP_CREATED) - linkp = &DEPS_LIST_FIRST (INSN_BACK_DEPS (insn)); - - adjust_back_add_forw_dep (insn, linkp); + gcc_assert (dep_type == REG_DEP_ANTI); + ds = DEP_ANTI; } -} - -/* Add both backward and forward dependencies between INSN and ELEM - with given type DEP_TYPE and dep_status DS. */ -void -add_back_forw_dep (rtx insn, rtx elem, enum reg_note dep_type, ds_t ds) -{ - add_back_dep (insn, elem, dep_type, ds); - adjust_back_add_forw_dep (insn, &DEPS_LIST_FIRST (INSN_BACK_DEPS (insn))); - - if (CHECK) - gcc_assert (deps_list_consistent_p (INSN_BACK_DEPS (insn))); -} - -/* Remove a dependency referred to by L. */ -void -delete_back_forw_dep (dep_link_t l) -{ - dep_node_t n = DEP_LINK_NODE (l); - - gcc_assert (current_sched_info->flags & DO_SPECULATION); - - if (true_dependency_cache != NULL) - { - dep_t dep = DEP_NODE_DEP (n); - int elem_luid = INSN_LUID (DEP_PRO (dep)); - int insn_luid = INSN_LUID (DEP_CON (dep)); - bitmap_clear_bit (&true_dependency_cache[insn_luid], elem_luid); - bitmap_clear_bit (&anti_dependency_cache[insn_luid], elem_luid); - bitmap_clear_bit (&output_dependency_cache[insn_luid], elem_luid); - bitmap_clear_bit (&spec_dependency_cache[insn_luid], elem_luid); - } + /* When add_dependence is called from inside sched-deps.c, we expect + cur_insn to be non-null. */ + internal = cur_insn != NULL; + if (internal) + gcc_assert (insn == cur_insn); + else + cur_insn = insn; - delete_forw_dep (DEP_NODE_FORW (n)); - detach_dep_link (DEP_NODE_BACK (n)); + note_dep (elem, ds); + if (!internal) + cur_insn = NULL; } /* Return weakness of speculative type TYPE in the dep_status DS. */ dw_t -get_dep_weak (ds_t ds, ds_t type) +get_dep_weak_1 (ds_t ds, ds_t type) { ds = ds & type; + switch (type) { case BEGIN_DATA: ds >>= BEGIN_DATA_BITS_OFFSET; break; @@ -2462,10 +3845,18 @@ get_dep_weak (ds_t ds, ds_t type) default: gcc_unreachable (); } - gcc_assert (MIN_DEP_WEAK <= ds && ds <= MAX_DEP_WEAK); return (dw_t) ds; } +dw_t +get_dep_weak (ds_t ds, ds_t type) +{ + dw_t dw = get_dep_weak_1 (ds, type); + + gcc_assert (MIN_DEP_WEAK <= dw && dw <= MAX_DEP_WEAK); + return dw; +} + /* Return the dep_status, which has the same parameters as DS, except for speculative type TYPE, that will have weakness DW. */ ds_t @@ -2485,9 +3876,12 @@ set_dep_weak (ds_t ds, ds_t type, dw_t dw) return ds; } -/* Return the join of two dep_statuses DS1 and DS2. */ -ds_t -ds_merge (ds_t ds1, ds_t ds2) +/* Return the join of two dep_statuses DS1 and DS2. + If MAX_P is true then choose the greater probability, + otherwise multiply probabilities. + This function assumes that both DS1 and DS2 contain speculative bits. */ +static ds_t +ds_merge_1 (ds_t ds1, ds_t ds2, bool max_p) { ds_t ds, t; @@ -2504,12 +3898,24 @@ ds_merge (ds_t ds1, ds_t ds2) ds |= ds2 & t; else if ((ds1 & t) && (ds2 & t)) { + dw_t dw1 = get_dep_weak (ds1, t); + dw_t dw2 = get_dep_weak (ds2, t); ds_t dw; - dw = ((ds_t) get_dep_weak (ds1, t)) * ((ds_t) get_dep_weak (ds2, t)); - dw /= MAX_DEP_WEAK; - if (dw < MIN_DEP_WEAK) - dw = MIN_DEP_WEAK; + if (!max_p) + { + dw = ((ds_t) dw1) * ((ds_t) dw2); + dw /= MAX_DEP_WEAK; + if (dw < MIN_DEP_WEAK) + dw = MIN_DEP_WEAK; + } + else + { + if (dw1 >= dw2) + dw = dw1; + else + dw = dw2; + } ds = set_dep_weak (ds, t, (dw_t) dw); } @@ -2523,30 +3929,203 @@ ds_merge (ds_t ds1, ds_t ds2) return ds; } -#ifdef INSN_SCHEDULING +/* Return the join of two dep_statuses DS1 and DS2. + This function assumes that both DS1 and DS2 contain speculative bits. */ +ds_t +ds_merge (ds_t ds1, ds_t ds2) +{ + return ds_merge_1 (ds1, ds2, false); +} + +/* Return the join of two dep_statuses DS1 and DS2. */ +ds_t +ds_full_merge (ds_t ds, ds_t ds2, rtx mem1, rtx mem2) +{ + ds_t new_status = ds | ds2; + + if (new_status & SPECULATIVE) + { + if ((ds && !(ds & SPECULATIVE)) + || (ds2 && !(ds2 & SPECULATIVE))) + /* Then this dep can't be speculative. */ + new_status &= ~SPECULATIVE; + else + { + /* Both are speculative. Merging probabilities. */ + if (mem1) + { + dw_t dw; + + dw = estimate_dep_weak (mem1, mem2); + ds = set_dep_weak (ds, BEGIN_DATA, dw); + } + + if (!ds) + new_status = ds2; + else if (!ds2) + new_status = ds; + else + new_status = ds_merge (ds2, ds); + } + } + + return new_status; +} + +/* Return the join of DS1 and DS2. Use maximum instead of multiplying + probabilities. */ +ds_t +ds_max_merge (ds_t ds1, ds_t ds2) +{ + if (ds1 == 0 && ds2 == 0) + return 0; + + if (ds1 == 0 && ds2 != 0) + return ds2; + + if (ds1 != 0 && ds2 == 0) + return ds1; + + return ds_merge_1 (ds1, ds2, true); +} + +/* Return the probability of speculation success for the speculation + status DS. */ +dw_t +ds_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; +} + +/* Return a dep status that contains all speculation types of DS. */ +ds_t +ds_get_speculation_types (ds_t ds) +{ + if (ds & BEGIN_DATA) + ds |= BEGIN_DATA; + if (ds & BE_IN_DATA) + ds |= BE_IN_DATA; + if (ds & BEGIN_CONTROL) + ds |= BEGIN_CONTROL; + if (ds & BE_IN_CONTROL) + ds |= BE_IN_CONTROL; + + return ds & SPECULATIVE; +} + +/* Return a dep status that contains maximal weakness for each speculation + type present in DS. */ +ds_t +ds_get_max_dep_weak (ds_t ds) +{ + if (ds & BEGIN_DATA) + ds = set_dep_weak (ds, BEGIN_DATA, MAX_DEP_WEAK); + if (ds & BE_IN_DATA) + ds = set_dep_weak (ds, BE_IN_DATA, MAX_DEP_WEAK); + if (ds & BEGIN_CONTROL) + ds = set_dep_weak (ds, BEGIN_CONTROL, MAX_DEP_WEAK); + if (ds & BE_IN_CONTROL) + ds = set_dep_weak (ds, BE_IN_CONTROL, MAX_DEP_WEAK); + + return ds; +} + +/* Dump information about the dependence status S. */ +static void +dump_ds (FILE *f, ds_t s) +{ + fprintf (f, "{"); + + if (s & BEGIN_DATA) + fprintf (f, "BEGIN_DATA: %d; ", get_dep_weak_1 (s, BEGIN_DATA)); + if (s & BE_IN_DATA) + fprintf (f, "BE_IN_DATA: %d; ", get_dep_weak_1 (s, BE_IN_DATA)); + if (s & BEGIN_CONTROL) + fprintf (f, "BEGIN_CONTROL: %d; ", get_dep_weak_1 (s, BEGIN_CONTROL)); + if (s & BE_IN_CONTROL) + fprintf (f, "BE_IN_CONTROL: %d; ", get_dep_weak_1 (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, "}"); +} + +DEBUG_FUNCTION void +debug_ds (ds_t s) +{ + dump_ds (stderr, s); + fprintf (stderr, "\n"); +} + #ifdef ENABLE_CHECKING /* Verify that dependence type and status are consistent. If RELAXED_P is true, then skip dep_weakness checks. */ static void -check_dep_status (enum reg_note dt, ds_t ds, bool relaxed_p) +check_dep (dep_t dep, bool relaxed_p) { + enum reg_note dt = DEP_TYPE (dep); + ds_t ds = DEP_STATUS (dep); + + gcc_assert (DEP_PRO (dep) != DEP_CON (dep)); + + if (!(current_sched_info->flags & USE_DEPS_LIST)) + { + gcc_assert (ds == -1); + return; + } + /* Check that dependence type contains the same bits as the status. */ if (dt == REG_DEP_TRUE) gcc_assert (ds & DEP_TRUE); else if (dt == REG_DEP_OUTPUT) gcc_assert ((ds & DEP_OUTPUT) - && !(ds & DEP_TRUE)); - else + && !(ds & DEP_TRUE)); + else gcc_assert ((dt == REG_DEP_ANTI) && (ds & DEP_ANTI) && !(ds & (DEP_OUTPUT | DEP_TRUE))); /* HARD_DEP can not appear in dep_status of a link. */ - gcc_assert (!(ds & HARD_DEP)); + gcc_assert (!(ds & HARD_DEP)); /* Check that dependence status is set correctly when speculation is not supported. */ - if (!(current_sched_info->flags & DO_SPECULATION)) + if (!sched_deps_info->generate_spec_deps) gcc_assert (!(ds & SPECULATIVE)); else if (ds & SPECULATIVE) { @@ -2584,8 +4163,8 @@ check_dep_status (enum reg_note dt, ds_t ds, bool relaxed_p) /* Subsequent speculations should resolve true dependencies. */ gcc_assert ((ds & DEP_TYPES) == DEP_TRUE); } - - /* Check that true and anti dependencies can't have other speculative + + /* Check that true and anti dependencies can't have other speculative statuses. */ if (ds & DEP_TRUE) gcc_assert (ds & (BEGIN_DATA | BE_IN_SPEC)); @@ -2595,5 +4174,6 @@ check_dep_status (enum reg_note dt, ds_t ds, bool relaxed_p) gcc_assert (ds & BEGIN_CONTROL); } } -#endif -#endif +#endif /* ENABLE_CHECKING */ + +#endif /* INSN_SCHEDULING */