diff options
Diffstat (limited to 'toolchain-layer/recipes-devtools/gcc/gcc-4.5/linaro/gcc-4.5-linaro-r99511.patch')
-rw-r--r-- | toolchain-layer/recipes-devtools/gcc/gcc-4.5/linaro/gcc-4.5-linaro-r99511.patch | 582 |
1 files changed, 0 insertions, 582 deletions
diff --git a/toolchain-layer/recipes-devtools/gcc/gcc-4.5/linaro/gcc-4.5-linaro-r99511.patch b/toolchain-layer/recipes-devtools/gcc/gcc-4.5/linaro/gcc-4.5-linaro-r99511.patch deleted file mode 100644 index 8d096c25d0..0000000000 --- a/toolchain-layer/recipes-devtools/gcc/gcc-4.5/linaro/gcc-4.5-linaro-r99511.patch +++ /dev/null @@ -1,582 +0,0 @@ -2011-05-13 Revital Eres <revital.eres@linaro.org> - - gcc/ - * loop-doloop.c (doloop_condition_get): Support new form of - doloop pattern and use prev_nondebug_insn instead of PREV_INSN. - * config/arm/thumb2.md (*thumb2_addsi3_compare0): Remove "*". - (doloop_end): New. - * config/arm/arm.md (*addsi3_compare0): Remove "*". - * params.def (sms-min-sc): New param flag. - * doc/invoke.texi (sms-min-sc): Document it. - * ddg.c (create_ddg_dep_from_intra_loop_link): If a true dep edge - enters the branch create an anti edge in the opposite direction - to prevent the creation of reg-moves. - (get_node_of_insn_uid, check_closing_branch_deps): Delete - functions. - (create_ddg): Restore previous definition and implementation. - * ddg.h (create_ddg): Restore previous definition. - * modulo-sched.c: Adjust comment to reflect the fact we are - scheduling closing branch. - (PS_STAGE_COUNT): Rename to CALC_STAGE_COUNT and redefine. - (stage_count): New field in struct partial_schedule. - (calculate_stage_count): New function. - (normalize_sched_times): Rename to reset_sched_times and handle - incrementing the sched time of the nodes by a constant value - passed as parameter. - (duplicate_insns_of_cycles): Skip closing branch. - (sms_schedule_by_order): Schedule closing branch. - (ps_insn_find_column): Handle closing branch. - (sms_schedule): Call reset_sched_times and adjust the code to - support scheduling of the closing branch. Use sms-min-sc. - Support new form of doloop pattern. - (ps_insert_empty_row): Update calls to normalize_sched_times - and rotate_partial_schedule functions. - (mark_doloop_insns): Remove. - -=== modified file 'gcc/ddg.c' ---- old/gcc/ddg.c 2011-03-24 07:45:38 +0000 -+++ new/gcc/ddg.c 2011-05-11 08:00:14 +0000 -@@ -60,8 +60,6 @@ - static ddg_edge_ptr create_ddg_edge (ddg_node_ptr, ddg_node_ptr, dep_type, - dep_data_type, int, int); - static void add_edge_to_ddg (ddg_ptr g, ddg_edge_ptr); --static ddg_node_ptr get_node_of_insn_uid (ddg_ptr, int); -- - - /* Auxiliary variable for mem_read_insn_p/mem_write_insn_p. */ - static bool mem_ref_p; -@@ -199,6 +197,11 @@ - } - } - -+ /* If a true dep edge enters the branch create an anti edge in the -+ opposite direction to prevent the creation of reg-moves. */ -+ if ((DEP_TYPE (link) == REG_DEP_TRUE) && JUMP_P (dest_node->insn)) -+ create_ddg_dep_no_link (g, dest_node, src_node, ANTI_DEP, REG_DEP, 1); -+ - latency = dep_cost (link); - e = create_ddg_edge (src_node, dest_node, t, dt, latency, distance); - add_edge_to_ddg (g, e); -@@ -452,65 +455,12 @@ - sched_free_deps (head, tail, false); - } - --/* Given DOLOOP_INSNS which holds the instructions that -- belong to the do-loop part; mark closing_branch_deps field in ddg G -- as TRUE if the do-loop part's instructions are dependent on the other -- loop instructions. Otherwise mark it as FALSE. */ --static void --check_closing_branch_deps (ddg_ptr g, sbitmap doloop_insns) --{ -- sbitmap_iterator sbi; -- unsigned int u = 0; -- -- EXECUTE_IF_SET_IN_SBITMAP (doloop_insns, 0, u, sbi) -- { -- ddg_edge_ptr e; -- ddg_node_ptr u_node = get_node_of_insn_uid (g, u); -- -- gcc_assert (u_node); -- -- for (e = u_node->in; e != 0; e = e->next_in) -- { -- ddg_node_ptr v_node = e->src; -- -- if (((unsigned int) INSN_UID (v_node->insn) == u) -- || DEBUG_INSN_P (v_node->insn)) -- continue; -- -- /* Ignore dependencies between memory writes and the -- jump. */ -- if (JUMP_P (u_node->insn) -- && e->type == OUTPUT_DEP -- && mem_write_insn_p (v_node->insn)) -- continue; -- if (!TEST_BIT (doloop_insns, INSN_UID (v_node->insn))) -- { -- g->closing_branch_deps = 1; -- return; -- } -- } -- for (e = u_node->out; e != 0; e = e->next_out) -- { -- ddg_node_ptr v_node = e->dest; -- -- if (((unsigned int) INSN_UID (v_node->insn) == u) -- || DEBUG_INSN_P (v_node->insn)) -- continue; -- if (!TEST_BIT (doloop_insns, INSN_UID (v_node->insn))) -- { -- g->closing_branch_deps = 1; -- return; -- } -- } -- } -- g->closing_branch_deps = 0; --} - - /* Given a basic block, create its DDG and return a pointer to a variable - of ddg type that represents it. - Initialize the ddg structure fields to the appropriate values. */ - ddg_ptr --create_ddg (basic_block bb, sbitmap doloop_insns) -+create_ddg (basic_block bb, int closing_branch_deps) - { - ddg_ptr g; - rtx insn, first_note; -@@ -520,6 +470,7 @@ - g = (ddg_ptr) xcalloc (1, sizeof (struct ddg)); - - g->bb = bb; -+ g->closing_branch_deps = closing_branch_deps; - - /* Count the number of insns in the BB. */ - for (insn = BB_HEAD (bb); insn != NEXT_INSN (BB_END (bb)); -@@ -592,11 +543,6 @@ - /* Build the data dependency graph. */ - build_intra_loop_deps (g); - build_inter_loop_deps (g); -- -- /* Check whether the do-loop part is decoupled from the other loop -- instructions. */ -- check_closing_branch_deps (g, doloop_insns); -- - return g; - } - -@@ -890,18 +836,6 @@ - return NULL; - } - --/* Given the uid of an instruction UID return the node that represents it. */ --static ddg_node_ptr --get_node_of_insn_uid (ddg_ptr g, int uid) --{ -- int i; -- -- for (i = 0; i < g->num_nodes; i++) -- if (uid == INSN_UID (g->nodes[i].insn)) -- return &g->nodes[i]; -- return NULL; --} -- - /* Given a set OPS of nodes in the DDG, find the set of their successors - which are not in OPS, and set their bits in SUCC. Bits corresponding to - OPS are cleared from SUCC. Leaves the other bits in SUCC unchanged. */ - -=== modified file 'gcc/ddg.h' ---- old/gcc/ddg.h 2011-03-24 07:45:38 +0000 -+++ new/gcc/ddg.h 2011-05-11 08:00:14 +0000 -@@ -167,7 +167,7 @@ - }; - - --ddg_ptr create_ddg (basic_block, sbitmap); -+ddg_ptr create_ddg (basic_block, int closing_branch_deps); - void free_ddg (ddg_ptr); - - void print_ddg (FILE *, ddg_ptr); - -=== modified file 'gcc/doc/invoke.texi' ---- old/gcc/doc/invoke.texi 2011-04-17 23:04:58 +0000 -+++ new/gcc/doc/invoke.texi 2011-05-11 08:00:14 +0000 -@@ -8430,6 +8430,10 @@ - The maximum number of best instructions in the ready list that are considered - for renaming in the selective scheduler. The default value is 2. - -+@item sms-min-sc -+The minimum value of stage count that swing modulo scheduler will -+generate. The default value is 2. -+ - @item max-last-value-rtl - The maximum size measured as number of RTLs that can be recorded in an expression - in combiner for a pseudo register as last known value of that register. The default - -=== modified file 'gcc/modulo-sched.c' ---- old/gcc/modulo-sched.c 2011-03-24 07:45:38 +0000 -+++ new/gcc/modulo-sched.c 2011-05-11 08:00:14 +0000 -@@ -84,14 +84,13 @@ - II cycles (i.e. use register copies to prevent a def from overwriting - itself before reaching the use). - -- SMS works with countable loops (1) whose control part can be easily -- decoupled from the rest of the loop and (2) whose loop count can -- be easily adjusted. This is because we peel a constant number of -- iterations into a prologue and epilogue for which we want to avoid -- emitting the control part, and a kernel which is to iterate that -- constant number of iterations less than the original loop. So the -- control part should be a set of insns clearly identified and having -- its own iv, not otherwise used in the loop (at-least for now), which -+ SMS works with countable loops whose loop count can be easily -+ adjusted. This is because we peel a constant number of iterations -+ into a prologue and epilogue for which we want to avoid emitting -+ the control part, and a kernel which is to iterate that constant -+ number of iterations less than the original loop. So the control -+ part should be a set of insns clearly identified and having its -+ own iv, not otherwise used in the loop (at-least for now), which - initializes a register before the loop to the number of iterations. - Currently SMS relies on the do-loop pattern to recognize such loops, - where (1) the control part comprises of all insns defining and/or -@@ -116,7 +115,7 @@ - - /* The number of different iterations the nodes in ps span, assuming - the stage boundaries are placed efficiently. */ --#define CALC_STAGE_COUNT(min_cycle,max_cycle,ii) ((max_cycle - min_cycle \ -+#define CALC_STAGE_COUNT(max_cycle,min_cycle,ii) ((max_cycle - min_cycle \ - + 1 + ii - 1) / ii) - /* The stage count of ps. */ - #define PS_STAGE_COUNT(ps) (((partial_schedule_ptr)(ps))->stage_count) -@@ -200,7 +199,6 @@ - static void duplicate_insns_of_cycles (partial_schedule_ptr, - int, int, int, rtx); - static int calculate_stage_count (partial_schedule_ptr ps); -- - #define SCHED_ASAP(x) (((node_sched_params_ptr)(x)->aux.info)->asap) - #define SCHED_TIME(x) (((node_sched_params_ptr)(x)->aux.info)->time) - #define SCHED_FIRST_REG_MOVE(x) \ -@@ -318,7 +316,7 @@ - : prev_nondebug_insn (tail)); - - for (insn = head; insn != first_insn_not_to_check; insn = NEXT_INSN (insn)) -- if (reg_mentioned_p (reg, insn) && NONDEBUG_INSN_P (insn)) -+ if (reg_mentioned_p (reg, insn) && !DEBUG_INSN_P (insn)) - { - if (dump_file) - { -@@ -337,24 +335,6 @@ - #endif - } - --/* Mark in DOLOOP_INSNS the instructions that belong to the do-loop part. -- Use TAIL to recognize that part. */ --static void --mark_doloop_insns (sbitmap doloop_insns, rtx tail) --{ -- rtx first_insn_not_to_check, insn; -- -- /* This is the first instruction which belongs the doloop part. */ -- first_insn_not_to_check = (GET_CODE (PATTERN (tail)) == PARALLEL ? tail -- : prev_nondebug_insn (tail)); -- -- sbitmap_zero (doloop_insns); -- for (insn = first_insn_not_to_check; insn != NEXT_INSN (tail); -- insn = NEXT_INSN (insn)) -- if (NONDEBUG_INSN_P (insn)) -- SET_BIT (doloop_insns, INSN_UID (insn)); --} -- - /* Check if COUNT_REG is set to a constant in the PRE_HEADER block, so - that the number of iterations is a compile-time constant. If so, - return the rtx that sets COUNT_REG to a constant, and set COUNT to -@@ -607,44 +587,42 @@ - ddg_node_ptr u = crr_insn->node; - int normalized_time = SCHED_TIME (u) - amount; - int new_min_cycle = PS_MIN_CYCLE (ps) - amount; -- /* The first cycle in row zero after the rotation. */ -- int new_first_cycle_in_row_zero = -- new_min_cycle + ii - SMODULO (new_min_cycle, ii); -+ int sc_until_cycle_zero, stage; - -- if (dump_file) -- fprintf (dump_file, "crr_insn->node=%d, crr_insn->cycle=%d,\ -- min_cycle=%d\n", crr_insn->node->cuid, SCHED_TIME -- (u), ps->min_cycle); -+ if (dump_file) -+ { -+ /* Print the scheduling times after the rotation. */ -+ fprintf (dump_file, "crr_insn->node=%d (insn id %d), " -+ "crr_insn->cycle=%d, min_cycle=%d", crr_insn->node->cuid, -+ INSN_UID (crr_insn->node->insn), SCHED_TIME (u), -+ normalized_time); -+ if (JUMP_P (crr_insn->node->insn)) -+ fprintf (dump_file, " (branch)"); -+ fprintf (dump_file, "\n"); -+ } -+ - gcc_assert (SCHED_TIME (u) >= ps->min_cycle); - gcc_assert (SCHED_TIME (u) <= ps->max_cycle); - SCHED_TIME (u) = normalized_time; -- crr_insn->cycle = normalized_time; - SCHED_ROW (u) = SMODULO (normalized_time, ii); -- -- /* If min_cycle is in row zero after the rotation then -- the stage count can be calculated by dividing the cycle -- with ii. Otherwise, the calculation is done by dividing the -- SMSed kernel into two intervals: -- -- 1) min_cycle <= interval 0 < first_cycle_in_row_zero -- 2) first_cycle_in_row_zero <= interval 1 < max_cycle -- -- Cycles in interval 0 are in stage 0. The stage of cycles -- in interval 1 should be added by 1 to take interval 0 into -- account. */ -- if (SMODULO (new_min_cycle, ii) == 0) -- SCHED_STAGE (u) = normalized_time / ii; -- else -- { -- if (crr_insn->cycle < new_first_cycle_in_row_zero) -- SCHED_STAGE (u) = 0; -- else -- SCHED_STAGE (u) = -- ((SCHED_TIME (u) - new_first_cycle_in_row_zero) / ii) + 1; -+ -+ /* The calculation of stage count is done adding the number -+ of stages before cycle zero and after cycle zero. */ -+ sc_until_cycle_zero = CALC_STAGE_COUNT (-1, new_min_cycle, ii); -+ -+ if (SCHED_TIME (u) < 0) -+ { -+ stage = CALC_STAGE_COUNT (-1, SCHED_TIME (u), ii); -+ SCHED_STAGE (u) = sc_until_cycle_zero - stage; -+ } -+ else -+ { -+ stage = CALC_STAGE_COUNT (SCHED_TIME (u), 0, ii); -+ SCHED_STAGE (u) = sc_until_cycle_zero + stage - 1; - } - } - } -- -+ - /* Set SCHED_COLUMN of each node according to its position in PS. */ - static void - set_columns_for_ps (partial_schedule_ptr ps) -@@ -694,8 +672,8 @@ - - /* Do not duplicate any insn which refers to count_reg as it - belongs to the control part. -- If closing_branch_deps is true the closing branch is scheduled -- as well and thus should be ignored. -+ The closing branch is scheduled as well and thus should -+ be ignored. - TODO: This should be done by analyzing the control part of - the loop. */ - if (reg_mentioned_p (count_reg, u_node->insn) -@@ -945,8 +923,7 @@ - basic_block condition_bb = NULL; - edge latch_edge; - gcov_type trip_count = 0; -- sbitmap doloop_insns; -- -+ - loop_optimizer_init (LOOPS_HAVE_PREHEADERS - | LOOPS_HAVE_RECORDED_EXITS); - if (number_of_loops () <= 1) -@@ -971,7 +948,6 @@ - setup_sched_infos (); - haifa_sched_init (); - -- doloop_insns = sbitmap_alloc (get_max_uid () + 1); - /* Allocate memory to hold the DDG array one entry for each loop. - We use loop->num as index into this array. */ - g_arr = XCNEWVEC (ddg_ptr, number_of_loops ()); -@@ -1104,16 +1080,18 @@ - - continue; - } -- mark_doloop_insns (doloop_insns, tail); -- if (! (g = create_ddg (bb, doloop_insns))) -+ -+ /* Always schedule the closing branch with the rest of the -+ instructions. The branch is rotated to be in row ii-1 at the -+ end of the scheduling procedure to make sure it's the last -+ instruction in the iteration. */ -+ if (! (g = create_ddg (bb, 1))) - { - if (dump_file) - fprintf (dump_file, "SMS create_ddg failed\n"); - continue; - } -- if (dump_file) -- fprintf (dump_file, "SMS closing_branch_deps: %d\n", -- g->closing_branch_deps); -+ - g_arr[loop->num] = g; - if (dump_file) - fprintf (dump_file, "...OK\n"); -@@ -1215,16 +1193,17 @@ - - ps = sms_schedule_by_order (g, mii, maxii, node_order); - -- if (ps) -- { -- stage_count = calculate_stage_count (ps); -- gcc_assert(stage_count >= 1); -- PS_STAGE_COUNT(ps) = stage_count; -- } -- -- /* Stage count of 1 means that there is no interleaving between -- iterations, let the scheduling passes do the job. */ -- if (stage_count <= 1 -+ if (ps) -+ { -+ stage_count = calculate_stage_count (ps); -+ gcc_assert(stage_count >= 1); -+ PS_STAGE_COUNT(ps) = stage_count; -+ } -+ -+ /* The default value of PARAM_SMS_MIN_SC is 2 as stage count of -+ 1 means that there is no interleaving between iterations thus -+ we let the scheduling passes do the job in this case. */ -+ if (stage_count < (unsigned) PARAM_VALUE (PARAM_SMS_MIN_SC) - || (count_init && (loop_count <= stage_count)) - || (flag_branch_probabilities && (trip_count <= stage_count))) - { -@@ -1242,21 +1221,12 @@ - else - { - struct undo_replace_buff_elem *reg_move_replaces; -- int amount; -- -- /* Set the stage boundaries. If the DDG is built with closing_branch_deps, -- the closing_branch was scheduled and should appear in the last (ii-1) -- row. Otherwise, we are free to schedule the branch, and we let nodes -- that were scheduled at the first PS_MIN_CYCLE cycle appear in the first -- row; this should reduce stage_count to minimum. -- TODO: Revisit the issue of scheduling the insns of the -- control part relative to the branch when the control part -- has more than one insn. */ -- amount = (g->closing_branch_deps)? SCHED_TIME (g->closing_branch) + 1: -- PS_MIN_CYCLE (ps); -+ int amount = SCHED_TIME (g->closing_branch) + 1; -+ -+ /* Set the stage boundaries. The closing_branch was scheduled -+ and should appear in the last (ii-1) row. */ - reset_sched_times (ps, amount); - rotate_partial_schedule (ps, amount); -- - set_columns_for_ps (ps); - - canon_loop (loop); -@@ -1267,13 +1237,8 @@ - "SMS succeeded %d %d (with ii, sc)\n", ps->ii, - stage_count); - print_partial_schedule (ps, dump_file); -- if (!g->closing_branch_deps) -- fprintf (dump_file, -- "SMS Branch (%d) will later be scheduled at \ -- cycle %d.\n", -- g->closing_branch->cuid, PS_MIN_CYCLE (ps) - 1); -- } -- -+ } -+ - /* case the BCT count is not known , Do loop-versioning */ - if (count_reg && ! count_init) - { -@@ -1318,7 +1283,6 @@ - } - - free (g_arr); -- sbitmap_free (doloop_insns); - - /* Release scheduler data, needed until now because of DFA. */ - haifa_sched_finish (); -@@ -1826,13 +1790,6 @@ - RESET_BIT (tobe_scheduled, u); - continue; - } -- /* Closing branch handled later unless closing_branch_deps -- is true. */ -- if (JUMP_P (insn) && !g->closing_branch_deps) -- { -- RESET_BIT (tobe_scheduled, u); -- continue; -- } - - if (TEST_BIT (sched_nodes, u)) - continue; -@@ -2675,9 +2632,9 @@ - last_in_row = next_ps_i; - } - -- /* If closing_branch_deps is true we are scheduling the closing -- branch as well. Make sure there is no dependent instruction after -- it as the branch should be the last instruction. */ -+ /* The closing branch is scheduled as well. Make sure there is no -+ dependent instruction after it as the branch should be the last -+ instruction in the row. */ - if (JUMP_P (ps_i->node->insn)) - { - if (first_must_follow) -@@ -2918,51 +2875,21 @@ - return ps_i; - } - --/* Calculate the stage count of the partial schedule PS. */ -+/* Calculate the stage count of the partial schedule PS. The calculation -+ takes into account the rotation to bring the closing branch to row -+ ii-1. */ - int - calculate_stage_count (partial_schedule_ptr ps) - { -- int stage_count; -- -- /* If closing_branch_deps is false then the stage -- boundaries are placed efficiently, meaning that min_cycle will be -- placed at row 0. Otherwise, the closing branch will be placed in -- row ii-1. For the later case we assume the final SMSed kernel can -- be divided into two intervals. This assumption is used for the -- stage count calculation: -- -- 1) min_cycle <= interval 0 < first_cycle_in_row_zero -- 2) first_cycle_in_row_zero <= interval 1 < max_cycle -- */ -- stage_count = -- CALC_STAGE_COUNT (PS_MIN_CYCLE (ps), PS_MAX_CYCLE (ps), ps->ii); -- if (ps->g->closing_branch_deps) -- { -- int new_min_cycle; -- int new_min_cycle_row; -- int rotation_amount = SCHED_TIME (ps->g->closing_branch) + 1; -- -- /* This is the new value of min_cycle after the final rotation to -- bring closing branch into row ii-1. */ -- new_min_cycle = PS_MIN_CYCLE (ps) - rotation_amount; -- /* This is the row which the the new min_cycle will be placed in. */ -- new_min_cycle_row = SMODULO (new_min_cycle, ps->ii); -- /* If the row of min_cycle is zero then interval 0 is empty. -- Otherwise, we need to calculate interval 1 and add it by one -- to take interval 0 into account. */ -- if (new_min_cycle_row != 0) -- { -- int new_max_cycle, first_cycle_in_row_zero; -- -- new_max_cycle = PS_MAX_CYCLE (ps) - rotation_amount; -- first_cycle_in_row_zero = -- new_min_cycle + ps->ii - new_min_cycle_row; -- -- stage_count = -- CALC_STAGE_COUNT (first_cycle_in_row_zero, new_max_cycle, -- ps->ii) + 1; -- } -- } -+ int rotation_amount = (SCHED_TIME (ps->g->closing_branch)) + 1; -+ int new_min_cycle = PS_MIN_CYCLE (ps) - rotation_amount; -+ int new_max_cycle = PS_MAX_CYCLE (ps) - rotation_amount; -+ int stage_count = CALC_STAGE_COUNT (-1, new_min_cycle, ps->ii); -+ -+ /* The calculation of stage count is done adding the number of stages -+ before cycle zero and after cycle zero. */ -+ stage_count += CALC_STAGE_COUNT (new_max_cycle, 0, ps->ii); -+ - return stage_count; - } - - -=== modified file 'gcc/params.def' ---- old/gcc/params.def 2011-02-01 14:20:13 +0000 -+++ new/gcc/params.def 2011-05-11 08:00:14 +0000 -@@ -324,6 +324,11 @@ - "sms-max-ii-factor", - "A factor for tuning the upper bound that swing modulo scheduler uses for scheduling a loop", - 100, 0, 0) -+/* The minimum value of stage count that swing modulo scheduler will generate. */ -+DEFPARAM(PARAM_SMS_MIN_SC, -+ "sms-min-sc", -+ "The minimum value of stage count that swing modulo scheduler will generate.", -+ 2, 1, 1) - DEFPARAM(PARAM_SMS_DFA_HISTORY, - "sms-dfa-history", - "The number of cycles the swing modulo scheduler considers when checking conflicts using DFA", - |