path: root/toolchain-layer/recipes-devtools/gcc/gcc-4.6/linaro/gcc-4.6-linaro-r106747.patch

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.
	* 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.

=== modified file 'gcc/config/arm/arm.md'
--- old/gcc/config/arm/arm.md	2011-05-06 11:28:27 +0000
+++ new/gcc/config/arm/arm.md	2011-05-13 13:42:39 +0000
@@ -791,7 +791,7 @@
   ""
 )
 
-(define_insn "*addsi3_compare0"
+(define_insn "addsi3_compare0"
   [(set (reg:CC_NOOV CC_REGNUM)
 	(compare:CC_NOOV
 	 (plus:SI (match_operand:SI 1 "s_register_operand" "r, r")

=== modified file 'gcc/config/arm/thumb2.md'
--- old/gcc/config/arm/thumb2.md	2011-01-03 20:52:22 +0000
+++ new/gcc/config/arm/thumb2.md	2011-05-11 07:15:47 +0000
@@ -836,7 +836,7 @@
   "operands[4] = GEN_INT (- INTVAL (operands[2]));"
 )
 
-(define_insn "*thumb2_addsi3_compare0"
+(define_insn "thumb2_addsi3_compare0"
   [(set (reg:CC_NOOV CC_REGNUM)
 	(compare:CC_NOOV
 	  (plus:SI (match_operand:SI 1 "s_register_operand" "l,  0, r")
@@ -1118,3 +1118,54 @@
   "
   operands[2] = GEN_INT (32 - INTVAL (operands[2]));
   ")
+
+;; Define the subtract-one-and-jump insns so loop.c
+;; knows what to generate.
+(define_expand "doloop_end"
+  [(use (match_operand 0 "" ""))      ; loop pseudo
+   (use (match_operand 1 "" ""))      ; iterations; zero if unknown
+   (use (match_operand 2 "" ""))      ; max iterations
+   (use (match_operand 3 "" ""))      ; loop level
+   (use (match_operand 4 "" ""))]     ; label
+  "TARGET_32BIT"
+  "
+ {
+   /* Currently SMS relies on the do-loop pattern to recognize loops
+      where (1) the control part consists of all insns defining and/or
+      using a certain 'count' register and (2) the loop count can be
+      adjusted by modifying this register prior to the loop.
+      ??? The possible introduction of a new block to initialize the
+      new IV can potentially affect branch optimizations.  */
+   if (optimize > 0 && flag_modulo_sched)
+   {
+     rtx s0;
+     rtx bcomp;
+     rtx loc_ref;
+     rtx cc_reg;
+     rtx insn;
+     rtx cmp;
+
+    /* Only use this on innermost loops.  */
+     if (INTVAL (operands[3]) > 1)
+       FAIL;
+     if (GET_MODE (operands[0]) != SImode)
+       FAIL;
+
+     s0 = operands [0];
+     if (TARGET_THUMB2)
+       insn = emit_insn (gen_thumb2_addsi3_compare0 (s0, s0, GEN_INT (-1)));
+     else
+       insn = emit_insn (gen_addsi3_compare0 (s0, s0, GEN_INT (-1)));
+
+     cmp = XVECEXP (PATTERN (insn), 0, 0);
+     cc_reg = SET_DEST (cmp);
+     bcomp = gen_rtx_NE (VOIDmode, cc_reg, const0_rtx);
+     loc_ref = gen_rtx_LABEL_REF (VOIDmode, operands [4]);
+     emit_jump_insn (gen_rtx_SET (VOIDmode, pc_rtx,
+                                  gen_rtx_IF_THEN_ELSE (VOIDmode, bcomp,
+                                                        loc_ref, pc_rtx)));
+     DONE;
+   }else
+      FAIL;
+}")
+

=== modified file 'gcc/ddg.c'
--- old/gcc/ddg.c	2010-11-30 11:41:24 +0000
+++ new/gcc/ddg.c	2011-05-11 07:15:47 +0000
@@ -197,6 +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);

=== modified file 'gcc/doc/invoke.texi'
--- old/gcc/doc/invoke.texi	2011-04-18 11:31:29 +0000
+++ new/gcc/doc/invoke.texi	2011-05-11 07:15:47 +0000
@@ -8730,6 +8730,10 @@
 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/loop-doloop.c'
--- old/gcc/loop-doloop.c	2010-11-30 11:41:24 +0000
+++ new/gcc/loop-doloop.c	2011-05-11 07:15:47 +0000
@@ -78,6 +78,8 @@
   rtx inc_src;
   rtx condition;
   rtx pattern;
+  rtx cc_reg = NULL_RTX;
+  rtx reg_orig = NULL_RTX;
 
   /* The canonical doloop pattern we expect has one of the following
      forms:
@@ -96,7 +98,16 @@
      2)  (set (reg) (plus (reg) (const_int -1))
          (set (pc) (if_then_else (reg != 0)
 	                         (label_ref (label))
-			         (pc))).  */
+			         (pc))).  
+
+     Some targets (ARM) do the comparison before the branch, as in the
+     following form:
+
+     3) (parallel [(set (cc) (compare ((plus (reg) (const_int -1), 0)))
+                   (set (reg) (plus (reg) (const_int -1)))])
+        (set (pc) (if_then_else (cc == NE)
+                                (label_ref (label))
+                                (pc))) */
 
   pattern = PATTERN (doloop_pat);
 
@@ -104,19 +115,47 @@
     {
       rtx cond;
       rtx prev_insn = prev_nondebug_insn (doloop_pat);
+      rtx cmp_arg1, cmp_arg2;
+      rtx cmp_orig;
 
-      /* We expect the decrement to immediately precede the branch.  */
+      /* In case the pattern is not PARALLEL we expect two forms
+	 of doloop which are cases 2) and 3) above: in case 2) the
+	 decrement immediately precedes the branch, while in case 3)
+	 the compare and decrement instructions immediately precede
+	 the branch.  */
 
       if (prev_insn == NULL_RTX || !INSN_P (prev_insn))
         return 0;
 
       cmp = pattern;
-      inc = PATTERN (PREV_INSN (doloop_pat));
+      if (GET_CODE (PATTERN (prev_insn)) == PARALLEL)
+        {
+	  /* The third case: the compare and decrement instructions
+	     immediately precede the branch.  */
+	  cmp_orig = XVECEXP (PATTERN (prev_insn), 0, 0);
+	  if (GET_CODE (cmp_orig) != SET)
+	    return 0;
+	  if (GET_CODE (SET_SRC (cmp_orig)) != COMPARE)
+	    return 0;
+	  cmp_arg1 = XEXP (SET_SRC (cmp_orig), 0);
+          cmp_arg2 = XEXP (SET_SRC (cmp_orig), 1);
+	  if (cmp_arg2 != const0_rtx 
+	      || GET_CODE (cmp_arg1) != PLUS)
+	    return 0;
+	  reg_orig = XEXP (cmp_arg1, 0);
+	  if (XEXP (cmp_arg1, 1) != GEN_INT (-1) 
+	      || !REG_P (reg_orig))
+	    return 0;
+	  cc_reg = SET_DEST (cmp_orig);
+	  
+	  inc = XVECEXP (PATTERN (prev_insn), 0, 1);
+	}
+      else
+        inc = PATTERN (prev_insn);
       /* We expect the condition to be of the form (reg != 0)  */
       cond = XEXP (SET_SRC (cmp), 0);
       if (GET_CODE (cond) != NE || XEXP (cond, 1) != const0_rtx)
         return 0;
-
     }
   else
     {
@@ -162,11 +201,15 @@
     return 0;
 
   if ((XEXP (condition, 0) == reg)
+      /* For the third case:  */  
+      || ((cc_reg != NULL_RTX)
+	  && (XEXP (condition, 0) == cc_reg)
+	  && (reg_orig == reg))
       || (GET_CODE (XEXP (condition, 0)) == PLUS
-		   && XEXP (XEXP (condition, 0), 0) == reg))
+	  && XEXP (XEXP (condition, 0), 0) == reg))
    {
      if (GET_CODE (pattern) != PARALLEL)
-     /*  The second form we expect:
+     /*  For the second form we expect:
 
          (set (reg) (plus (reg) (const_int -1))
          (set (pc) (if_then_else (reg != 0)
@@ -181,7 +224,24 @@
                      (set (reg) (plus (reg) (const_int -1)))
                      (additional clobbers and uses)])
 
-         So we return that form instead.
+        For the third form we expect:
+
+        (parallel [(set (cc) (compare ((plus (reg) (const_int -1)), 0))
+                   (set (reg) (plus (reg) (const_int -1)))])
+        (set (pc) (if_then_else (cc == NE)
+                                (label_ref (label))
+                                (pc))) 
+
+        which is equivalent to the following:
+
+        (parallel [(set (cc) (compare (reg,  1))
+                   (set (reg) (plus (reg) (const_int -1)))
+                   (set (pc) (if_then_else (NE == cc)
+                                           (label_ref (label))
+                                           (pc))))])
+
+        So we return the second form instead for the two cases.
+
      */
         condition = gen_rtx_fmt_ee (NE, VOIDmode, inc_src, const1_rtx);
 

=== modified file 'gcc/modulo-sched.c'
--- old/gcc/modulo-sched.c	2011-02-14 17:59:10 +0000
+++ new/gcc/modulo-sched.c	2011-05-11 07:15:47 +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
@@ -116,8 +115,10 @@
 
 /* The number of different iterations the nodes in ps span, assuming
    the stage boundaries are placed efficiently.  */
-#define PS_STAGE_COUNT(ps) ((PS_MAX_CYCLE (ps) - PS_MIN_CYCLE (ps) \
-			     + 1 + (ps)->ii - 1) / (ps)->ii)
+#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)
 
 /* A single instruction in the partial schedule.  */
 struct ps_insn
@@ -155,6 +156,8 @@
   int max_cycle;
 
   ddg_ptr g;	/* The DDG of the insns in the partial schedule.  */
+
+  int stage_count;  /* The stage count of the partial schedule.  */
 };
 
 /* We use this to record all the register replacements we do in
@@ -195,7 +198,7 @@
                                     rtx, rtx);
 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) \
@@ -310,10 +313,10 @@
      either a single (parallel) branch-on-count or a (non-parallel)
      branch immediately preceded by a single (decrement) insn.  */
   first_insn_not_to_check = (GET_CODE (PATTERN (tail)) == PARALLEL ? tail
-                             : PREV_INSN (tail));
+                             : prev_nondebug_insn (tail));
 
   for (insn = head; insn != first_insn_not_to_check; insn = NEXT_INSN (insn))
-    if (reg_mentioned_p (reg, insn))
+    if (reg_mentioned_p (reg, insn) && !DEBUG_INSN_P (insn))
       {
         if (dump_file)
         {
@@ -569,13 +572,12 @@
     }
 }
 
-/* Bump the SCHED_TIMEs of all nodes to start from zero.  Set the values
-   of SCHED_ROW and SCHED_STAGE.  */
+/* Bump the SCHED_TIMEs of all nodes by AMOUNT.  Set the values of
+   SCHED_ROW and SCHED_STAGE.  */
 static void
-normalize_sched_times (partial_schedule_ptr ps)
+reset_sched_times (partial_schedule_ptr ps, int amount)
 {
   int row;
-  int amount = PS_MIN_CYCLE (ps);
   int ii = ps->ii;
   ps_insn_ptr crr_insn;
 
@@ -584,19 +586,43 @@
       {
 	ddg_node_ptr u = crr_insn->node;
 	int normalized_time = SCHED_TIME (u) - amount;
+	int new_min_cycle = PS_MIN_CYCLE (ps) - amount;
+        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;
-	SCHED_ROW (u) = normalized_time % ii;
-	SCHED_STAGE (u) = normalized_time / ii;
+	SCHED_ROW (u) = SMODULO (normalized_time, ii);
+      
+        /* 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)
@@ -646,9 +672,12 @@
 
         /* Do not duplicate any insn which refers to count_reg as it
            belongs to the control part.
+           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))
+        if (reg_mentioned_p (count_reg, u_node->insn)
+            || JUMP_P (ps_ij->node->insn))
           continue;
 
 	if (for_prolog)
@@ -1009,9 +1038,11 @@
 	continue;
       }
 
-      /* Don't handle BBs with calls or barriers, or !single_set insns,
-         or auto-increment insns (to avoid creating invalid reg-moves
-         for the auto-increment insns).
+      /* Don't handle BBs with calls or barriers or auto-increment insns 
+	 (to avoid creating invalid reg-moves for the auto-increment insns),
+	 or !single_set with the exception of instructions that include
+	 count_reg---these instructions are part of the control part
+	 that do-loop recognizes.
          ??? Should handle auto-increment insns.
          ??? Should handle insns defining subregs.  */
      for (insn = head; insn != NEXT_INSN (tail); insn = NEXT_INSN (insn))
@@ -1021,7 +1052,8 @@
         if (CALL_P (insn)
             || BARRIER_P (insn)
             || (NONDEBUG_INSN_P (insn) && !JUMP_P (insn)
-                && !single_set (insn) && GET_CODE (PATTERN (insn)) != USE)
+                && !single_set (insn) && GET_CODE (PATTERN (insn)) != USE
+                && !reg_mentioned_p (count_reg, insn))
             || (FIND_REG_INC_NOTE (insn, NULL_RTX) != 0)
             || (INSN_P (insn) && (set = single_set (insn))
                 && GET_CODE (SET_DEST (set)) == SUBREG))
@@ -1049,7 +1081,11 @@
 	  continue;
 	}
 
-      if (! (g = create_ddg (bb, 0)))
+      /* 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");
@@ -1157,14 +1193,17 @@
 
       ps = sms_schedule_by_order (g, mii, maxii, node_order);
 
-      if (ps){
-	stage_count = PS_STAGE_COUNT (ps);
-        gcc_assert(stage_count >= 1);
-      }
+       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
+      /* 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)))
 	{
@@ -1182,32 +1221,24 @@
       else
 	{
 	  struct undo_replace_buff_elem *reg_move_replaces;
-
-	  if (dump_file)
-	    {
+          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);
+
+          if (dump_file)
+            {
 	      fprintf (dump_file,
 		       "SMS succeeded %d %d (with ii, sc)\n", ps->ii,
 		       stage_count);
 	      print_partial_schedule (ps, dump_file);
-	      fprintf (dump_file,
-		       "SMS Branch (%d) will later be scheduled at cycle %d.\n",
-		       g->closing_branch->cuid, PS_MIN_CYCLE (ps) - 1);
 	    }
-
-	  /* 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.  */
-	  normalize_sched_times (ps);
-	  rotate_partial_schedule (ps, PS_MIN_CYCLE (ps));
-	  set_columns_for_ps (ps);
-
-	  canon_loop (loop);
-
+ 
           /* case the BCT count is not known , Do loop-versioning */
 	  if (count_reg && ! count_init)
             {
@@ -1760,12 +1791,6 @@
 	      continue;
 	    }
 
-	  if (JUMP_P (insn)) /* Closing branch handled later.  */
-	    {
-	      RESET_BIT (tobe_scheduled, u);
-	      continue;
-	    }
-
 	  if (TEST_BIT (sched_nodes, u))
 	    continue;
 
@@ -1893,8 +1918,8 @@
   if (dump_file)
     fprintf (dump_file, "split_row=%d\n", split_row);
 
-  normalize_sched_times (ps);
-  rotate_partial_schedule (ps, ps->min_cycle);
+  reset_sched_times (ps, PS_MIN_CYCLE (ps));
+  rotate_partial_schedule (ps, PS_MIN_CYCLE (ps));
 
   rows_new = (ps_insn_ptr *) xcalloc (new_ii, sizeof (ps_insn_ptr));
   for (row = 0; row < split_row; row++)
@@ -2571,6 +2596,7 @@
   ps_insn_ptr next_ps_i;
   ps_insn_ptr first_must_follow = NULL;
   ps_insn_ptr last_must_precede = NULL;
+  ps_insn_ptr last_in_row = NULL;
   int row;
 
   if (! ps_i)
@@ -2597,8 +2623,37 @@
 	  else
             last_must_precede = next_ps_i;
         }
+      /* The closing branch must be the last in the row.  */
+      if (must_precede 
+	  && TEST_BIT (must_precede, next_ps_i->node->cuid) 
+	  && JUMP_P (next_ps_i->node->insn))     
+	return false;
+             
+       last_in_row = next_ps_i;
     }
 
+  /* 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)
+	return false;
+      if (last_in_row)
+	{
+	  /* Make the branch the last in the row.  New instructions
+	     will be inserted at the beginning of the row or after the
+	     last must_precede instruction thus the branch is guaranteed
+	     to remain the last instruction in the row.  */
+	  last_in_row->next_in_row = ps_i;
+	  ps_i->prev_in_row = last_in_row;
+	  ps_i->next_in_row = NULL;
+	}
+      else
+	ps->rows[row] = ps_i;
+      return true;
+    }
+  
   /* Now insert the node after INSERT_AFTER_PSI.  */
 
   if (! last_must_precede)
@@ -2820,6 +2875,24 @@
   return ps_i;
 }
 
+/* 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 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;
+}
+
 /* Rotate the rows of PS such that insns scheduled at time
    START_CYCLE will appear in row 0.  Updates max/min_cycles.  */
 void

=== modified file 'gcc/params.def'
--- old/gcc/params.def	2011-04-18 11:31:29 +0000
+++ new/gcc/params.def	2011-05-11 07:15:47 +0000
@@ -344,6 +344,11 @@
 	 "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",