===================================================================
@@ -17711,14 +17711,216 @@ get_next_active_insn (rtx_insn *insn, rt
return insn;
}
+/* Move instruction at POS to the end of the READY list. */
+
+static void
+move_to_end_of_ready (rtx_insn **ready, int pos, int lastpos)
+{
+ rtx_insn *tmp;
+ int i;
+
+ tmp = ready[pos];
+ for (i = pos; i < lastpos; i++)
+ ready[i] = ready[i + 1];
+ ready[lastpos] = tmp;
+}
+
+/* Do Power6 specific sched_reorder2 reordering of ready list. */
+
+static int
+power6_sched_reorder2 (rtx_insn **ready, int lastpos)
+{
+ /* For Power6, we need to handle some special cases to try and keep the
+ store queue from overflowing and triggering expensive flushes.
+
+ This code monitors how load and store instructions are being issued
+ and skews the ready list one way or the other to increase the likelihood
+ that a desired instruction is issued at the proper time.
+
+ A couple of things are done. First, we maintain a "load_store_pendulum"
+ to track the current state of load/store issue.
+
+ - If the pendulum is at zero, then no loads or stores have been
+ issued in the current cycle so we do nothing.
+
+ - If the pendulum is 1, then a single load has been issued in this
+ cycle and we attempt to locate another load in the ready list to
+ issue with it.
+
+ - If the pendulum is -2, then two stores have already been
+ issued in this cycle, so we increase the priority of the first load
+ in the ready list to increase it's likelihood of being chosen first
+ in the next cycle.
+
+ - If the pendulum is -1, then a single store has been issued in this
+ cycle and we attempt to locate another store in the ready list to
+ issue with it, preferring a store to an adjacent memory location to
+ facilitate store pairing in the store queue.
+
+ - If the pendulum is 2, then two loads have already been
+ issued in this cycle, so we increase the priority of the first store
+ in the ready list to increase it's likelihood of being chosen first
+ in the next cycle.
+
+ - If the pendulum < -2 or > 2, then do nothing.
+
+ Note: This code covers the most common scenarios. There exist non
+ load/store instructions which make use of the LSU and which
+ would need to be accounted for to strictly model the behavior
+ of the machine. Those instructions are currently unaccounted
+ for to help minimize compile time overhead of this code.
+ */
+ int pos;
+ rtx load_mem, str_mem;
+
+ if (is_store_insn (last_scheduled_insn, &str_mem))
+ /* Issuing a store, swing the load_store_pendulum to the left */
+ load_store_pendulum--;
+ else if (is_load_insn (last_scheduled_insn, &load_mem))
+ /* Issuing a load, swing the load_store_pendulum to the right */
+ load_store_pendulum++;
+ else
+ return cached_can_issue_more;
+
+ /* If the pendulum is balanced, or there is only one instruction on
+ the ready list, then all is well, so return. */
+ if ((load_store_pendulum == 0) || (lastpos <= 0))
+ return cached_can_issue_more;
+
+ if (load_store_pendulum == 1)
+ {
+ /* A load has been issued in this cycle. Scan the ready list
+ for another load to issue with it */
+ pos = lastpos;
+
+ while (pos >= 0)
+ {
+ if (is_load_insn (ready[pos], &load_mem))
+ {
+ /* Found a load. Move it to the head of the ready list,
+ and adjust it's priority so that it is more likely to
+ stay there */
+ move_to_end_of_ready (ready, pos, lastpos);
+
+ if (!sel_sched_p ()
+ && INSN_PRIORITY_KNOWN (ready[lastpos]))
+ INSN_PRIORITY (ready[lastpos])++;
+ break;
+ }
+ pos--;
+ }
+ }
+ else if (load_store_pendulum == -2)
+ {
+ /* Two stores have been issued in this cycle. Increase the
+ priority of the first load in the ready list to favor it for
+ issuing in the next cycle. */
+ pos = lastpos;
+
+ while (pos >= 0)
+ {
+ if (is_load_insn (ready[pos], &load_mem)
+ && !sel_sched_p ()
+ && INSN_PRIORITY_KNOWN (ready[pos]))
+ {
+ INSN_PRIORITY (ready[pos])++;
+
+ /* Adjust the pendulum to account for the fact that a load
+ was found and increased in priority. This is to prevent
+ increasing the priority of multiple loads */
+ load_store_pendulum--;
+
+ break;
+ }
+ pos--;
+ }
+ }
+ else if (load_store_pendulum == -1)
+ {
+ /* A store has been issued in this cycle. Scan the ready list for
+ another store to issue with it, preferring a store to an adjacent
+ memory location */
+ int first_store_pos = -1;
+
+ pos = lastpos;
+
+ while (pos >= 0)
+ {
+ if (is_store_insn (ready[pos], &str_mem))
+ {
+ rtx str_mem2;
+ /* Maintain the index of the first store found on the
+ list */
+ if (first_store_pos == -1)
+ first_store_pos = pos;
+
+ if (is_store_insn (last_scheduled_insn, &str_mem2)
+ && adjacent_mem_locations (str_mem, str_mem2))
+ {
+ /* Found an adjacent store. Move it to the head of the
+ ready list, and adjust it's priority so that it is
+ more likely to stay there */
+ move_to_end_of_ready (ready, pos, lastpos);
+
+ if (!sel_sched_p ()
+ && INSN_PRIORITY_KNOWN (ready[lastpos]))
+ INSN_PRIORITY (ready[lastpos])++;
+
+ first_store_pos = -1;
+
+ break;
+ };
+ }
+ pos--;
+ }
+
+ if (first_store_pos >= 0)
+ {
+ /* An adjacent store wasn't found, but a non-adjacent store was,
+ so move the non-adjacent store to the front of the ready
+ list, and adjust its priority so that it is more likely to
+ stay there. */
+ move_to_end_of_ready (ready, first_store_pos, lastpos);
+ if (!sel_sched_p ()
+ && INSN_PRIORITY_KNOWN (ready[lastpos]))
+ INSN_PRIORITY (ready[lastpos])++;
+ }
+ }
+ else if (load_store_pendulum == 2)
+ {
+ /* Two loads have been issued in this cycle. Increase the priority
+ of the first store in the ready list to favor it for issuing in
+ the next cycle. */
+ pos = lastpos;
+
+ while (pos >= 0)
+ {
+ if (is_store_insn (ready[pos], &str_mem)
+ && !sel_sched_p ()
+ && INSN_PRIORITY_KNOWN (ready[pos]))
+ {
+ INSN_PRIORITY (ready[pos])++;
+
+ /* Adjust the pendulum to account for the fact that a store
+ was found and increased in priority. This is to prevent
+ increasing the priority of multiple stores */
+ load_store_pendulum++;
+
+ break;
+ }
+ pos--;
+ }
+ }
+
+ return cached_can_issue_more;
+}
+
/* Do Power9 specific sched_reorder2 reordering of ready list. */
static int
power9_sched_reorder2 (rtx_insn **ready, int lastpos)
{
int pos;
- int i;
- rtx_insn *tmp;
enum attr_type type, type2;
type = get_attr_type (last_scheduled_insn);
@@ -17738,10 +17940,7 @@ power9_sched_reorder2 (rtx_insn **ready,
if (recog_memoized (ready[pos]) >= 0
&& get_attr_type (ready[pos]) == TYPE_DIV)
{
- tmp = ready[pos];
- for (i = pos; i < lastpos; i++)
- ready[i] = ready[i + 1];
- ready[lastpos] = tmp;
+ move_to_end_of_ready (ready, pos, lastpos);
break;
}
pos--;
@@ -17784,10 +17983,7 @@ power9_sched_reorder2 (rtx_insn **ready,
{
/* Found a vector insn to pair with, move it to the
end of the ready list so it is scheduled next. */
- tmp = ready[pos];
- for (i = pos; i < lastpos; i++)
- ready[i] = ready[i + 1];
- ready[lastpos] = tmp;
+ move_to_end_of_ready (ready, pos, lastpos);
vec_pairing = 1;
return cached_can_issue_more;
}
@@ -17801,10 +17997,7 @@ power9_sched_reorder2 (rtx_insn **ready,
{
/* Didn't find a vector to pair with but did find a vecload,
move it to the end of the ready list. */
- tmp = ready[vecload_pos];
- for (i = vecload_pos; i < lastpos; i++)
- ready[i] = ready[i + 1];
- ready[lastpos] = tmp;
+ move_to_end_of_ready (ready, vecload_pos, lastpos);
vec_pairing = 1;
return cached_can_issue_more;
}
@@ -17828,10 +18021,7 @@ power9_sched_reorder2 (rtx_insn **ready,
{
/* Found a vecload insn to pair with, move it to the
end of the ready list so it is scheduled next. */
- tmp = ready[pos];
- for (i = pos; i < lastpos; i++)
- ready[i] = ready[i + 1];
- ready[lastpos] = tmp;
+ move_to_end_of_ready (ready, pos, lastpos);
vec_pairing = 1;
return cached_can_issue_more;
}
@@ -17846,10 +18036,7 @@ power9_sched_reorder2 (rtx_insn **ready,
{
/* Didn't find a vecload to pair with but did find a vector
insn, move it to the end of the ready list. */
- tmp = ready[vec_pos];
- for (i = vec_pos; i < lastpos; i++)
- ready[i] = ready[i + 1];
- ready[lastpos] = tmp;
+ move_to_end_of_ready (ready, vec_pos, lastpos);
vec_pairing = 1;
return cached_can_issue_more;
}
@@ -17903,198 +18090,9 @@ rs6000_sched_reorder2 (FILE *dump, int s
if (sched_verbose)
fprintf (dump, "// rs6000_sched_reorder2 :\n");
- /* For Power6, we need to handle some special cases to try and keep the
- store queue from overflowing and triggering expensive flushes.
-
- This code monitors how load and store instructions are being issued
- and skews the ready list one way or the other to increase the likelihood
- that a desired instruction is issued at the proper time.
-
- A couple of things are done. First, we maintain a "load_store_pendulum"
- to track the current state of load/store issue.
-
- - If the pendulum is at zero, then no loads or stores have been
- issued in the current cycle so we do nothing.
-
- - If the pendulum is 1, then a single load has been issued in this
- cycle and we attempt to locate another load in the ready list to
- issue with it.
-
- - If the pendulum is -2, then two stores have already been
- issued in this cycle, so we increase the priority of the first load
- in the ready list to increase it's likelihood of being chosen first
- in the next cycle.
-
- - If the pendulum is -1, then a single store has been issued in this
- cycle and we attempt to locate another store in the ready list to
- issue with it, preferring a store to an adjacent memory location to
- facilitate store pairing in the store queue.
-
- - If the pendulum is 2, then two loads have already been
- issued in this cycle, so we increase the priority of the first store
- in the ready list to increase it's likelihood of being chosen first
- in the next cycle.
-
- - If the pendulum < -2 or > 2, then do nothing.
-
- Note: This code covers the most common scenarios. There exist non
- load/store instructions which make use of the LSU and which
- would need to be accounted for to strictly model the behavior
- of the machine. Those instructions are currently unaccounted
- for to help minimize compile time overhead of this code.
- */
+ /* Do Power6 dependent reordering if necessary. */
if (rs6000_tune == PROCESSOR_POWER6 && last_scheduled_insn)
- {
- int pos;
- int i;
- rtx_insn *tmp;
- rtx load_mem, str_mem;
-
- if (is_store_insn (last_scheduled_insn, &str_mem))
- /* Issuing a store, swing the load_store_pendulum to the left */
- load_store_pendulum--;
- else if (is_load_insn (last_scheduled_insn, &load_mem))
- /* Issuing a load, swing the load_store_pendulum to the right */
- load_store_pendulum++;
- else
- return cached_can_issue_more;
-
- /* If the pendulum is balanced, or there is only one instruction on
- the ready list, then all is well, so return. */
- if ((load_store_pendulum == 0) || (*pn_ready <= 1))
- return cached_can_issue_more;
-
- if (load_store_pendulum == 1)
- {
- /* A load has been issued in this cycle. Scan the ready list
- for another load to issue with it */
- pos = *pn_ready-1;
-
- while (pos >= 0)
- {
- if (is_load_insn (ready[pos], &load_mem))
- {
- /* Found a load. Move it to the head of the ready list,
- and adjust it's priority so that it is more likely to
- stay there */
- tmp = ready[pos];
- for (i=pos; i<*pn_ready-1; i++)
- ready[i] = ready[i + 1];
- ready[*pn_ready-1] = tmp;
-
- if (!sel_sched_p () && INSN_PRIORITY_KNOWN (tmp))
- INSN_PRIORITY (tmp)++;
- break;
- }
- pos--;
- }
- }
- else if (load_store_pendulum == -2)
- {
- /* Two stores have been issued in this cycle. Increase the
- priority of the first load in the ready list to favor it for
- issuing in the next cycle. */
- pos = *pn_ready-1;
-
- while (pos >= 0)
- {
- if (is_load_insn (ready[pos], &load_mem)
- && !sel_sched_p ()
- && INSN_PRIORITY_KNOWN (ready[pos]))
- {
- INSN_PRIORITY (ready[pos])++;
-
- /* Adjust the pendulum to account for the fact that a load
- was found and increased in priority. This is to prevent
- increasing the priority of multiple loads */
- load_store_pendulum--;
-
- break;
- }
- pos--;
- }
- }
- else if (load_store_pendulum == -1)
- {
- /* A store has been issued in this cycle. Scan the ready list for
- another store to issue with it, preferring a store to an adjacent
- memory location */
- int first_store_pos = -1;
-
- pos = *pn_ready-1;
-
- while (pos >= 0)
- {
- if (is_store_insn (ready[pos], &str_mem))
- {
- rtx str_mem2;
- /* Maintain the index of the first store found on the
- list */
- if (first_store_pos == -1)
- first_store_pos = pos;
-
- if (is_store_insn (last_scheduled_insn, &str_mem2)
- && adjacent_mem_locations (str_mem, str_mem2))
- {
- /* Found an adjacent store. Move it to the head of the
- ready list, and adjust it's priority so that it is
- more likely to stay there */
- tmp = ready[pos];
- for (i=pos; i<*pn_ready-1; i++)
- ready[i] = ready[i + 1];
- ready[*pn_ready-1] = tmp;
-
- if (!sel_sched_p () && INSN_PRIORITY_KNOWN (tmp))
- INSN_PRIORITY (tmp)++;
-
- first_store_pos = -1;
-
- break;
- };
- }
- pos--;
- }
-
- if (first_store_pos >= 0)
- {
- /* An adjacent store wasn't found, but a non-adjacent store was,
- so move the non-adjacent store to the front of the ready
- list, and adjust its priority so that it is more likely to
- stay there. */
- tmp = ready[first_store_pos];
- for (i=first_store_pos; i<*pn_ready-1; i++)
- ready[i] = ready[i + 1];
- ready[*pn_ready-1] = tmp;
- if (!sel_sched_p () && INSN_PRIORITY_KNOWN (tmp))
- INSN_PRIORITY (tmp)++;
- }
- }
- else if (load_store_pendulum == 2)
- {
- /* Two loads have been issued in this cycle. Increase the priority
- of the first store in the ready list to favor it for issuing in
- the next cycle. */
- pos = *pn_ready-1;
-
- while (pos >= 0)
- {
- if (is_store_insn (ready[pos], &str_mem)
- && !sel_sched_p ()
- && INSN_PRIORITY_KNOWN (ready[pos]))
- {
- INSN_PRIORITY (ready[pos])++;
-
- /* Adjust the pendulum to account for the fact that a store
- was found and increased in priority. This is to prevent
- increasing the priority of multiple stores */
- load_store_pendulum++;
-
- break;
- }
- pos--;
- }
- }
- }
+ return power6_sched_reorder2 (ready, *pn_ready - 1);
/* Do Power9 dependent reordering if necessary. */
if (rs6000_tune == PROCESSOR_POWER9 && last_scheduled_insn