/* IRA allocation based on graph coloring.
- Copyright (C) 2006, 2007, 2008
+ Copyright (C) 2006, 2007, 2008, 2009, 2010
Free Software Foundation, Inc.
Contributed by Vladimir Makarov <vmakarov@redhat.com>.
/* Vec representing the stack of allocnos used during coloring. */
static VEC(ira_allocno_t,heap) *allocno_stack_vec;
-/* Vec representing conflict allocnos used during assigning. */
-static VEC(ira_allocno_t,heap) *conflict_allocno_vec;
-
/* Array used to choose an allocno for spilling. */
static ira_allocno_t *allocnos_for_spilling;
\f
+/* This page contains functions used to find conflicts using allocno
+ live ranges. */
+
+/* Return TRUE if live ranges of allocnos A1 and A2 intersect. It is
+ used to find a conflict for new allocnos or allocnos with the
+ different cover classes. */
+static bool
+allocnos_have_intersected_live_ranges_p (ira_allocno_t a1, ira_allocno_t a2)
+{
+ if (a1 == a2)
+ return false;
+ if (ALLOCNO_REG (a1) != NULL && ALLOCNO_REG (a2) != NULL
+ && (ORIGINAL_REGNO (ALLOCNO_REG (a1))
+ == ORIGINAL_REGNO (ALLOCNO_REG (a2))))
+ return false;
+ return ira_allocno_live_ranges_intersect_p (ALLOCNO_LIVE_RANGES (a1),
+ ALLOCNO_LIVE_RANGES (a2));
+}
+
+#ifdef ENABLE_IRA_CHECKING
+
+/* Return TRUE if live ranges of pseudo-registers REGNO1 and REGNO2
+ intersect. This should be used when there is only one region.
+ Currently this is used during reload. */
+static bool
+pseudos_have_intersected_live_ranges_p (int regno1, int regno2)
+{
+ ira_allocno_t a1, a2;
+
+ ira_assert (regno1 >= FIRST_PSEUDO_REGISTER
+ && regno2 >= FIRST_PSEUDO_REGISTER);
+ /* Reg info caclulated by dataflow infrastructure can be different
+ from one calculated by regclass. */
+ if ((a1 = ira_loop_tree_root->regno_allocno_map[regno1]) == NULL
+ || (a2 = ira_loop_tree_root->regno_allocno_map[regno2]) == NULL)
+ return false;
+ return allocnos_have_intersected_live_ranges_p (a1, a2);
+}
+
+#endif
+
+\f
+
/* This page contains functions used to choose hard registers for
allocnos. */
register was already allocated for an allocno. */
static bool allocated_hardreg_p[FIRST_PSEUDO_REGISTER];
-/* Array used to check already processed allocnos during the current
- update_copy_costs call. */
-static int *allocno_update_cost_check;
+/* Describes one element in a queue of allocnos whose costs need to be
+ updated. Each allocno in the queue is known to have a cover class. */
+struct update_cost_queue_elem
+{
+ /* This element is in the queue iff CHECK == update_cost_check. */
+ int check;
+
+ /* COST_HOP_DIVISOR**N, where N is the length of the shortest path
+ connecting this allocno to the one being allocated. */
+ int divisor;
+
+ /* The next allocno in the queue, or null if this is the last element. */
+ ira_allocno_t next;
+};
+
+/* The first element in a queue of allocnos whose copy costs need to be
+ updated. Null if the queue is empty. */
+static ira_allocno_t update_cost_queue;
+
+/* The last element in the queue described by update_cost_queue.
+ Not valid if update_cost_queue is null. */
+static struct update_cost_queue_elem *update_cost_queue_tail;
+
+/* A pool of elements in the queue described by update_cost_queue.
+ Elements are indexed by ALLOCNO_NUM. */
+static struct update_cost_queue_elem *update_cost_queue_elems;
/* The current value of update_copy_cost call count. */
static int update_cost_check;
static void
initiate_cost_update (void)
{
- allocno_update_cost_check
- = (int *) ira_allocate (ira_allocnos_num * sizeof (int));
- memset (allocno_update_cost_check, 0, ira_allocnos_num * sizeof (int));
+ size_t size;
+
+ size = ira_allocnos_num * sizeof (struct update_cost_queue_elem);
+ update_cost_queue_elems
+ = (struct update_cost_queue_elem *) ira_allocate (size);
+ memset (update_cost_queue_elems, 0, size);
update_cost_check = 0;
}
static void
finish_cost_update (void)
{
- ira_free (allocno_update_cost_check);
+ ira_free (update_cost_queue_elems);
}
/* When we traverse allocnos to update hard register costs, the cost
hop from given allocno to directly connected allocnos. */
#define COST_HOP_DIVISOR 4
-/* This recursive function updates costs (decrease if DECR_P) of the
- unassigned allocnos connected by copies with ALLOCNO. This update
- increases chances to remove some copies. Copy cost is proportional
- the copy frequency divided by DIVISOR. */
+/* Start a new cost-updating pass. */
static void
-update_copy_costs_1 (ira_allocno_t allocno, int hard_regno,
- bool decr_p, int divisor)
+start_update_cost (void)
{
- int i, cost, update_cost;
- enum machine_mode mode;
- enum reg_class rclass, cover_class;
- ira_allocno_t another_allocno;
- ira_copy_t cp, next_cp;
+ update_cost_check++;
+ update_cost_queue = NULL;
+}
- cover_class = ALLOCNO_COVER_CLASS (allocno);
- if (cover_class == NO_REGS)
- return;
- if (allocno_update_cost_check[ALLOCNO_NUM (allocno)] == update_cost_check)
- return;
- allocno_update_cost_check[ALLOCNO_NUM (allocno)] = update_cost_check;
- ira_assert (hard_regno >= 0);
- i = ira_class_hard_reg_index[cover_class][hard_regno];
- ira_assert (i >= 0);
- rclass = REGNO_REG_CLASS (hard_regno);
- mode = ALLOCNO_MODE (allocno);
- for (cp = ALLOCNO_COPIES (allocno); cp != NULL; cp = next_cp)
+/* Add (ALLOCNO, DIVISOR) to the end of update_cost_queue,
+ unless ALLOCNO is already in the queue, or has no cover class. */
+static inline void
+queue_update_cost (ira_allocno_t allocno, int divisor)
+{
+ struct update_cost_queue_elem *elem;
+
+ elem = &update_cost_queue_elems[ALLOCNO_NUM (allocno)];
+ if (elem->check != update_cost_check
+ && ALLOCNO_COVER_CLASS (allocno) != NO_REGS)
{
- if (cp->first == allocno)
- {
- next_cp = cp->next_first_allocno_copy;
- another_allocno = cp->second;
- }
- else if (cp->second == allocno)
- {
- next_cp = cp->next_second_allocno_copy;
- another_allocno = cp->first;
- }
+ elem->check = update_cost_check;
+ elem->divisor = divisor;
+ elem->next = NULL;
+ if (update_cost_queue == NULL)
+ update_cost_queue = allocno;
else
- gcc_unreachable ();
- if (cover_class
- != ALLOCNO_COVER_CLASS (another_allocno)
- || ALLOCNO_ASSIGNED_P (another_allocno))
- continue;
- cost = (cp->second == allocno
- ? ira_register_move_cost[mode][rclass]
- [ALLOCNO_COVER_CLASS (another_allocno)]
- : ira_register_move_cost[mode]
- [ALLOCNO_COVER_CLASS (another_allocno)][rclass]);
- if (decr_p)
- cost = -cost;
- ira_allocate_and_set_or_copy_costs
- (&ALLOCNO_UPDATED_HARD_REG_COSTS (another_allocno), cover_class,
- ALLOCNO_COVER_CLASS_COST (another_allocno),
- ALLOCNO_HARD_REG_COSTS (another_allocno));
- ira_allocate_and_set_or_copy_costs
- (&ALLOCNO_UPDATED_CONFLICT_HARD_REG_COSTS (another_allocno),
- cover_class, 0,
- ALLOCNO_CONFLICT_HARD_REG_COSTS (another_allocno));
- update_cost = cp->freq * cost / divisor;
- ALLOCNO_UPDATED_HARD_REG_COSTS (another_allocno)[i] += update_cost;
- ALLOCNO_UPDATED_CONFLICT_HARD_REG_COSTS (another_allocno)[i]
- += update_cost;
- if (update_cost != 0)
- update_copy_costs_1 (another_allocno, hard_regno,
- decr_p, divisor * COST_HOP_DIVISOR);
+ update_cost_queue_tail->next = allocno;
+ update_cost_queue_tail = elem;
}
}
-/* Update the cost of allocnos to increase chances to remove some
- copies as the result of subsequent assignment. */
-static void
-update_copy_costs (ira_allocno_t allocno, bool decr_p)
+/* Try to remove the first element from update_cost_queue. Return false
+ if the queue was empty, otherwise make (*ALLOCNO, *DIVISOR) describe
+ the removed element. */
+static inline bool
+get_next_update_cost (ira_allocno_t *allocno, int *divisor)
{
- update_cost_check++;
- update_copy_costs_1 (allocno, ALLOCNO_HARD_REGNO (allocno), decr_p, 1);
+ struct update_cost_queue_elem *elem;
+
+ if (update_cost_queue == NULL)
+ return false;
+
+ *allocno = update_cost_queue;
+ elem = &update_cost_queue_elems[ALLOCNO_NUM (*allocno)];
+ *divisor = elem->divisor;
+ update_cost_queue = elem->next;
+ return true;
}
-/* This recursive function updates COSTS (decrease if DECR_P) by
- conflict costs of the unassigned allocnos connected by copies with
- ALLOCNO. This update increases chances to remove some copies.
- Copy cost is proportional to the copy frequency divided by
- DIVISOR. */
+/* Update the cost of allocnos to increase chances to remove some
+ copies as the result of subsequent assignment. */
static void
-update_conflict_hard_regno_costs (int *costs, ira_allocno_t allocno,
- int divisor, bool decr_p)
+update_copy_costs (ira_allocno_t allocno, bool decr_p)
{
- int i, cost, class_size, freq, mult, div;
- int *conflict_costs;
- bool cont_p;
+ int i, cost, update_cost, hard_regno, divisor;
enum machine_mode mode;
- enum reg_class cover_class;
+ enum reg_class rclass, cover_class;
ira_allocno_t another_allocno;
ira_copy_t cp, next_cp;
+ hard_regno = ALLOCNO_HARD_REGNO (allocno);
+ ira_assert (hard_regno >= 0);
+
cover_class = ALLOCNO_COVER_CLASS (allocno);
- /* Probably 5 hops will be enough. */
- if (divisor > (COST_HOP_DIVISOR * COST_HOP_DIVISOR
- * COST_HOP_DIVISOR * COST_HOP_DIVISOR * COST_HOP_DIVISOR))
- return;
if (cover_class == NO_REGS)
return;
- /* Check that it was already visited. */
- if (allocno_update_cost_check[ALLOCNO_NUM (allocno)] == update_cost_check)
- return;
- allocno_update_cost_check[ALLOCNO_NUM (allocno)] = update_cost_check;
- mode = ALLOCNO_MODE (allocno);
- class_size = ira_class_hard_regs_num[cover_class];
- for (cp = ALLOCNO_COPIES (allocno); cp != NULL; cp = next_cp)
+ i = ira_class_hard_reg_index[cover_class][hard_regno];
+ ira_assert (i >= 0);
+ rclass = REGNO_REG_CLASS (hard_regno);
+
+ start_update_cost ();
+ divisor = 1;
+ do
{
- if (cp->first == allocno)
- {
- next_cp = cp->next_first_allocno_copy;
- another_allocno = cp->second;
- }
- else if (cp->second == allocno)
- {
- next_cp = cp->next_second_allocno_copy;
- another_allocno = cp->first;
- }
- else
- gcc_unreachable ();
- if (cover_class != ALLOCNO_COVER_CLASS (another_allocno)
- || ALLOCNO_ASSIGNED_P (another_allocno)
- || ALLOCNO_MAY_BE_SPILLED_P (another_allocno))
- continue;
- ira_allocate_and_copy_costs
- (&ALLOCNO_UPDATED_CONFLICT_HARD_REG_COSTS (another_allocno),
- cover_class, ALLOCNO_CONFLICT_HARD_REG_COSTS (another_allocno));
- conflict_costs
- = ALLOCNO_UPDATED_CONFLICT_HARD_REG_COSTS (another_allocno);
- if (conflict_costs == NULL)
- cont_p = true;
- else
+ mode = ALLOCNO_MODE (allocno);
+ for (cp = ALLOCNO_COPIES (allocno); cp != NULL; cp = next_cp)
{
- mult = cp->freq;
- freq = ALLOCNO_FREQ (another_allocno);
- if (freq == 0)
- freq = 1;
- div = freq * divisor;
- cont_p = false;
- for (i = class_size - 1; i >= 0; i--)
+ if (cp->first == allocno)
{
- cost = conflict_costs [i] * mult / div;
- if (cost == 0)
- continue;
- cont_p = true;
- if (decr_p)
- cost = -cost;
- costs[i] += cost;
+ next_cp = cp->next_first_allocno_copy;
+ another_allocno = cp->second;
+ }
+ else if (cp->second == allocno)
+ {
+ next_cp = cp->next_second_allocno_copy;
+ another_allocno = cp->first;
}
+ else
+ gcc_unreachable ();
+
+ cover_class = ALLOCNO_COVER_CLASS (another_allocno);
+ if (! ira_reg_classes_intersect_p[rclass][cover_class]
+ || ALLOCNO_ASSIGNED_P (another_allocno))
+ continue;
+
+ cost = (cp->second == allocno
+ ? ira_get_register_move_cost (mode, rclass, cover_class)
+ : ira_get_register_move_cost (mode, cover_class, rclass));
+ if (decr_p)
+ cost = -cost;
+
+ update_cost = cp->freq * cost / divisor;
+ if (update_cost == 0)
+ continue;
+
+ ira_allocate_and_set_or_copy_costs
+ (&ALLOCNO_UPDATED_HARD_REG_COSTS (another_allocno), cover_class,
+ ALLOCNO_UPDATED_COVER_CLASS_COST (another_allocno),
+ ALLOCNO_HARD_REG_COSTS (another_allocno));
+ ira_allocate_and_set_or_copy_costs
+ (&ALLOCNO_UPDATED_CONFLICT_HARD_REG_COSTS (another_allocno),
+ cover_class, 0,
+ ALLOCNO_CONFLICT_HARD_REG_COSTS (another_allocno));
+ i = ira_class_hard_reg_index[cover_class][hard_regno];
+ ira_assert (i >= 0);
+ ALLOCNO_UPDATED_HARD_REG_COSTS (another_allocno)[i] += update_cost;
+ ALLOCNO_UPDATED_CONFLICT_HARD_REG_COSTS (another_allocno)[i]
+ += update_cost;
+
+ queue_update_cost (another_allocno, divisor * COST_HOP_DIVISOR);
}
- if (cont_p)
- update_conflict_hard_regno_costs (costs, another_allocno,
- divisor * COST_HOP_DIVISOR, decr_p);
}
+ while (get_next_update_cost (&allocno, &divisor));
+}
+
+/* This function updates COSTS (decrease if DECR_P) for hard_registers
+ of COVER_CLASS by conflict costs of the unassigned allocnos
+ connected by copies with allocnos in update_cost_queue. This
+ update increases chances to remove some copies. */
+static void
+update_conflict_hard_regno_costs (int *costs, enum reg_class cover_class,
+ bool decr_p)
+{
+ int i, cost, class_size, freq, mult, div, divisor;
+ int index, hard_regno;
+ int *conflict_costs;
+ bool cont_p;
+ enum reg_class another_cover_class;
+ ira_allocno_t allocno, another_allocno;
+ ira_copy_t cp, next_cp;
+
+ while (get_next_update_cost (&allocno, &divisor))
+ for (cp = ALLOCNO_COPIES (allocno); cp != NULL; cp = next_cp)
+ {
+ if (cp->first == allocno)
+ {
+ next_cp = cp->next_first_allocno_copy;
+ another_allocno = cp->second;
+ }
+ else if (cp->second == allocno)
+ {
+ next_cp = cp->next_second_allocno_copy;
+ another_allocno = cp->first;
+ }
+ else
+ gcc_unreachable ();
+ another_cover_class = ALLOCNO_COVER_CLASS (another_allocno);
+ if (! ira_reg_classes_intersect_p[cover_class][another_cover_class]
+ || ALLOCNO_ASSIGNED_P (another_allocno)
+ || ALLOCNO_MAY_BE_SPILLED_P (ALLOCNO_FIRST_COALESCED_ALLOCNO
+ (another_allocno)))
+ continue;
+ class_size = ira_class_hard_regs_num[another_cover_class];
+ ira_allocate_and_copy_costs
+ (&ALLOCNO_UPDATED_CONFLICT_HARD_REG_COSTS (another_allocno),
+ another_cover_class,
+ ALLOCNO_CONFLICT_HARD_REG_COSTS (another_allocno));
+ conflict_costs
+ = ALLOCNO_UPDATED_CONFLICT_HARD_REG_COSTS (another_allocno);
+ if (conflict_costs == NULL)
+ cont_p = true;
+ else
+ {
+ mult = cp->freq;
+ freq = ALLOCNO_FREQ (another_allocno);
+ if (freq == 0)
+ freq = 1;
+ div = freq * divisor;
+ cont_p = false;
+ for (i = class_size - 1; i >= 0; i--)
+ {
+ hard_regno = ira_class_hard_regs[another_cover_class][i];
+ ira_assert (hard_regno >= 0);
+ index = ira_class_hard_reg_index[cover_class][hard_regno];
+ if (index < 0)
+ continue;
+ cost = conflict_costs [i] * mult / div;
+ if (cost == 0)
+ continue;
+ cont_p = true;
+ if (decr_p)
+ cost = -cost;
+ costs[index] += cost;
+ }
+ }
+ /* Probably 5 hops will be enough. */
+ if (cont_p
+ && divisor <= (COST_HOP_DIVISOR
+ * COST_HOP_DIVISOR
+ * COST_HOP_DIVISOR
+ * COST_HOP_DIVISOR))
+ queue_update_cost (another_allocno, divisor * COST_HOP_DIVISOR);
+ }
}
/* Sort allocnos according to the profit of usage of a hard register
ira_allocno_t p2 = *(const ira_allocno_t *) v2p;
int c1, c2;
- c1 = ALLOCNO_UPDATED_MEMORY_COST (p1) - ALLOCNO_COVER_CLASS_COST (p1);
- c2 = ALLOCNO_UPDATED_MEMORY_COST (p2) - ALLOCNO_COVER_CLASS_COST (p2);
+ c1 = ALLOCNO_UPDATED_MEMORY_COST (p1) - ALLOCNO_UPDATED_COVER_CLASS_COST (p1);
+ c2 = ALLOCNO_UPDATED_MEMORY_COST (p2) - ALLOCNO_UPDATED_COVER_CLASS_COST (p2);
if (c1 - c2)
return c1 - c2;
assign_hard_reg (ira_allocno_t allocno, bool retry_p)
{
HARD_REG_SET conflicting_regs;
- int i, j, hard_regno, best_hard_regno, class_size;
- int cost, mem_cost, min_cost, full_cost, min_full_cost, add_cost;
+ int i, j, k, hard_regno, best_hard_regno, class_size;
+ int cost, mem_cost, min_cost, full_cost, min_full_cost;
int *a_costs;
int *conflict_costs;
- enum reg_class cover_class, rclass;
+ enum reg_class cover_class, conflict_cover_class;
enum machine_mode mode;
ira_allocno_t a, conflict_allocno;
ira_allocno_conflict_iterator aci;
static int costs[FIRST_PSEUDO_REGISTER], full_costs[FIRST_PSEUDO_REGISTER];
+#ifndef HONOR_REG_ALLOC_ORDER
+ enum reg_class rclass;
+ int add_cost;
+#endif
#ifdef STACK_REGS
bool no_stack_reg_p;
#endif
#ifdef STACK_REGS
no_stack_reg_p = false;
#endif
+ start_update_cost ();
for (a = ALLOCNO_NEXT_COALESCED_ALLOCNO (allocno);;
a = ALLOCNO_NEXT_COALESCED_ALLOCNO (a))
{
#ifdef STACK_REGS
no_stack_reg_p = no_stack_reg_p || ALLOCNO_TOTAL_NO_STACK_REG_P (a);
#endif
- for (cost = ALLOCNO_COVER_CLASS_COST (a), i = 0; i < class_size; i++)
+ for (cost = ALLOCNO_UPDATED_COVER_CLASS_COST (a), i = 0;
+ i < class_size;
+ i++)
if (a_costs != NULL)
{
costs[i] += a_costs[i];
if (retry_p || bitmap_bit_p (consideration_allocno_bitmap,
ALLOCNO_NUM (conflict_allocno)))
{
- ira_assert (cover_class == ALLOCNO_COVER_CLASS (conflict_allocno));
+ conflict_cover_class = ALLOCNO_COVER_CLASS (conflict_allocno);
+ ira_assert (ira_reg_classes_intersect_p
+ [cover_class][conflict_cover_class]);
if (allocno_coalesced_p)
{
if (bitmap_bit_p (processed_coalesced_allocno_bitmap,
}
if (ALLOCNO_ASSIGNED_P (conflict_allocno))
{
- if ((hard_regno = ALLOCNO_HARD_REGNO (conflict_allocno)) >= 0)
+ if ((hard_regno = ALLOCNO_HARD_REGNO (conflict_allocno)) >= 0
+ && ira_class_hard_reg_index[cover_class][hard_regno] >= 0)
{
IOR_HARD_REG_SET
(conflicting_regs,
conflicting_regs))
goto fail;
}
- continue;
}
- else if (! ALLOCNO_MAY_BE_SPILLED_P (conflict_allocno))
+ else if (! ALLOCNO_MAY_BE_SPILLED_P (ALLOCNO_FIRST_COALESCED_ALLOCNO
+ (conflict_allocno)))
{
ira_allocate_and_copy_costs
(&ALLOCNO_UPDATED_CONFLICT_HARD_REG_COSTS (conflict_allocno),
- cover_class,
+ conflict_cover_class,
ALLOCNO_CONFLICT_HARD_REG_COSTS (conflict_allocno));
conflict_costs
= ALLOCNO_UPDATED_CONFLICT_HARD_REG_COSTS (conflict_allocno);
if (conflict_costs != NULL)
for (j = class_size - 1; j >= 0; j--)
- full_costs[j] -= conflict_costs[j];
- VEC_safe_push (ira_allocno_t, heap, conflict_allocno_vec,
- conflict_allocno);
+ {
+ hard_regno = ira_class_hard_regs[cover_class][j];
+ ira_assert (hard_regno >= 0);
+ k = (ira_class_hard_reg_index
+ [conflict_cover_class][hard_regno]);
+ if (k < 0)
+ continue;
+ full_costs[j] -= conflict_costs[k];
+ }
+ queue_update_cost (conflict_allocno, COST_HOP_DIVISOR);
}
}
if (a == allocno)
}
/* Take into account preferences of allocnos connected by copies to
the conflict allocnos. */
- update_cost_check++;
- while (VEC_length (ira_allocno_t, conflict_allocno_vec) != 0)
- {
- conflict_allocno = VEC_pop (ira_allocno_t, conflict_allocno_vec);
- update_conflict_hard_regno_costs (full_costs, conflict_allocno,
- COST_HOP_DIVISOR, true);
- }
- update_cost_check++;
+ update_conflict_hard_regno_costs (full_costs, cover_class, true);
+
/* Take preferences of allocnos connected by copies into
account. */
+ start_update_cost ();
for (a = ALLOCNO_NEXT_COALESCED_ALLOCNO (allocno);;
a = ALLOCNO_NEXT_COALESCED_ALLOCNO (a))
{
- update_conflict_hard_regno_costs (full_costs, a,
- COST_HOP_DIVISOR, false);
+ queue_update_cost (a, COST_HOP_DIVISOR);
if (a == allocno)
break;
}
+ update_conflict_hard_regno_costs (full_costs, cover_class, false);
min_cost = min_full_cost = INT_MAX;
/* We don't care about giving callee saved registers to allocnos no
living through calls because call clobbered registers are
continue;
cost = costs[i];
full_cost = full_costs[i];
+#ifndef HONOR_REG_ALLOC_ORDER
if (! allocated_hardreg_p[hard_regno]
&& ira_hard_reg_not_in_set_p (hard_regno, mode, call_used_reg_set))
/* We need to save/restore the hard register in
cost += add_cost;
full_cost += add_cost;
}
+#endif
if (min_cost > cost)
min_cost = cost;
if (min_full_cost > full_cost)
best_hard_regno = -1;
}
fail:
- if (best_hard_regno < 0
+ if (flag_ira_algorithm != IRA_ALGORITHM_PRIORITY
+ && best_hard_regno < 0
&& ALLOCNO_NEXT_COALESCED_ALLOCNO (allocno) != allocno)
{
for (j = 0, a = ALLOCNO_NEXT_COALESCED_ALLOCNO (allocno);;
a = ALLOCNO_NEXT_COALESCED_ALLOCNO (a))
{
+ ira_assert (! ALLOCNO_IN_GRAPH_P (a));
sorted_allocnos[j++] = a;
if (a == allocno)
break;
}
- qsort (sorted_allocnos, j, sizeof (ira_allocno_t),
+ qsort (sorted_allocnos, j, sizeof (ira_allocno_t),
allocno_cost_compare_func);
for (i = 0; i < j; i++)
{
of given *cover* class in the uncolorable_bucket. */
static int uncolorable_allocnos_num[N_REG_CLASSES];
+/* Return the current spill priority of allocno A. The less the
+ number, the more preferable the allocno for spilling. */
+static int
+allocno_spill_priority (ira_allocno_t a)
+{
+ return (ALLOCNO_TEMP (a)
+ / (ALLOCNO_LEFT_CONFLICTS_SIZE (a)
+ * ira_reg_class_nregs[ALLOCNO_COVER_CLASS (a)][ALLOCNO_MODE (a)]
+ + 1));
+}
+
/* Add ALLOCNO to bucket *BUCKET_PTR. ALLOCNO should be not in a bucket
before the call. */
static void
-add_ira_allocno_to_bucket (ira_allocno_t allocno, ira_allocno_t *bucket_ptr)
+add_allocno_to_bucket (ira_allocno_t allocno, ira_allocno_t *bucket_ptr)
{
ira_allocno_t first_allocno;
enum reg_class cover_class;
their priority. ALLOCNO should be not in a bucket before the
call. */
static void
-add_ira_allocno_to_ordered_bucket (ira_allocno_t allocno,
- ira_allocno_t *bucket_ptr)
+add_allocno_to_ordered_bucket (ira_allocno_t allocno,
+ ira_allocno_t *bucket_ptr)
{
ira_allocno_t before, after;
enum reg_class cover_class;
conflicting allocnos from the uncolorable bucket to the colorable
one. */
static void
-push_ira_allocno_to_stack (ira_allocno_t allocno)
+push_allocno_to_stack (ira_allocno_t allocno)
{
- int conflicts_num, conflict_size, size;
+ int left_conflicts_size, conflict_size, size;
ira_allocno_t a, conflict_allocno;
enum reg_class cover_class;
ira_allocno_conflict_iterator aci;
-
+
ALLOCNO_IN_GRAPH_P (allocno) = false;
VEC_safe_push (ira_allocno_t, heap, allocno_stack_vec, allocno);
cover_class = ALLOCNO_COVER_CLASS (allocno);
a = ALLOCNO_NEXT_COALESCED_ALLOCNO (a))
{
FOR_EACH_ALLOCNO_CONFLICT (a, conflict_allocno, aci)
- if (bitmap_bit_p (coloring_allocno_bitmap,
- ALLOCNO_NUM (conflict_allocno)))
- {
- ira_assert (cover_class == ALLOCNO_COVER_CLASS (conflict_allocno));
- if (allocno_coalesced_p)
- {
- if (bitmap_bit_p (processed_coalesced_allocno_bitmap,
- ALLOCNO_NUM (conflict_allocno)))
- continue;
- bitmap_set_bit (processed_coalesced_allocno_bitmap,
- ALLOCNO_NUM (conflict_allocno));
- }
- if (ALLOCNO_IN_GRAPH_P (conflict_allocno)
- && ! ALLOCNO_ASSIGNED_P (conflict_allocno))
- {
- conflicts_num = ALLOCNO_LEFT_CONFLICTS_NUM (conflict_allocno);
- conflict_size
- = (ira_reg_class_nregs
- [cover_class][ALLOCNO_MODE (conflict_allocno)]);
- ira_assert
- (ALLOCNO_LEFT_CONFLICTS_NUM (conflict_allocno) >= size);
- if (conflicts_num + conflict_size
- <= ALLOCNO_AVAILABLE_REGS_NUM (conflict_allocno))
- {
- ALLOCNO_LEFT_CONFLICTS_NUM (conflict_allocno) -= size;
+ {
+ conflict_allocno = ALLOCNO_FIRST_COALESCED_ALLOCNO (conflict_allocno);
+ if (bitmap_bit_p (coloring_allocno_bitmap,
+ ALLOCNO_NUM (conflict_allocno)))
+ {
+ ira_assert (cover_class
+ == ALLOCNO_COVER_CLASS (conflict_allocno));
+ if (allocno_coalesced_p)
+ {
+ if (bitmap_bit_p (processed_coalesced_allocno_bitmap,
+ ALLOCNO_NUM (conflict_allocno)))
continue;
- }
- conflicts_num
- = ALLOCNO_LEFT_CONFLICTS_NUM (conflict_allocno) - size;
- if (uncolorable_allocnos_splay_tree[cover_class] != NULL
- && !ALLOCNO_SPLAY_REMOVED_P (conflict_allocno)
- && USE_SPLAY_P (cover_class))
- {
- ira_assert
+ bitmap_set_bit (processed_coalesced_allocno_bitmap,
+ ALLOCNO_NUM (conflict_allocno));
+ }
+ if (ALLOCNO_IN_GRAPH_P (conflict_allocno)
+ && ! ALLOCNO_ASSIGNED_P (conflict_allocno))
+ {
+ left_conflicts_size
+ = ALLOCNO_LEFT_CONFLICTS_SIZE (conflict_allocno);
+ conflict_size
+ = (ira_reg_class_nregs
+ [cover_class][ALLOCNO_MODE (conflict_allocno)]);
+ ira_assert
+ (ALLOCNO_LEFT_CONFLICTS_SIZE (conflict_allocno) >= size);
+ if (left_conflicts_size + conflict_size
+ <= ALLOCNO_AVAILABLE_REGS_NUM (conflict_allocno))
+ {
+ ALLOCNO_LEFT_CONFLICTS_SIZE (conflict_allocno) -= size;
+ continue;
+ }
+ left_conflicts_size
+ = ALLOCNO_LEFT_CONFLICTS_SIZE (conflict_allocno) - size;
+ if (uncolorable_allocnos_splay_tree[cover_class] != NULL
+ && !ALLOCNO_SPLAY_REMOVED_P (conflict_allocno)
+ && USE_SPLAY_P (cover_class))
+ {
+ ira_assert
(splay_tree_lookup
(uncolorable_allocnos_splay_tree[cover_class],
(splay_tree_key) conflict_allocno) != NULL);
- splay_tree_remove
- (uncolorable_allocnos_splay_tree[cover_class],
- (splay_tree_key) conflict_allocno);
- ALLOCNO_SPLAY_REMOVED_P (conflict_allocno) = true;
- VEC_safe_push (ira_allocno_t, heap,
- removed_splay_allocno_vec,
- conflict_allocno);
- }
- ALLOCNO_LEFT_CONFLICTS_NUM (conflict_allocno) = conflicts_num;
- if (conflicts_num + conflict_size
- <= ALLOCNO_AVAILABLE_REGS_NUM (conflict_allocno))
- {
- delete_allocno_from_bucket (conflict_allocno,
- &uncolorable_allocno_bucket);
- add_ira_allocno_to_ordered_bucket (conflict_allocno,
- &colorable_allocno_bucket);
- }
- }
- }
+ splay_tree_remove
+ (uncolorable_allocnos_splay_tree[cover_class],
+ (splay_tree_key) conflict_allocno);
+ ALLOCNO_SPLAY_REMOVED_P (conflict_allocno) = true;
+ VEC_safe_push (ira_allocno_t, heap,
+ removed_splay_allocno_vec,
+ conflict_allocno);
+ }
+ ALLOCNO_LEFT_CONFLICTS_SIZE (conflict_allocno)
+ = left_conflicts_size;
+ if (left_conflicts_size + conflict_size
+ <= ALLOCNO_AVAILABLE_REGS_NUM (conflict_allocno))
+ {
+ delete_allocno_from_bucket
+ (conflict_allocno, &uncolorable_allocno_bucket);
+ add_allocno_to_ordered_bucket
+ (conflict_allocno, &colorable_allocno_bucket);
+ }
+ }
+ }
+ }
if (a == allocno)
break;
}
{
fprintf (ira_dump_file, " Pushing");
print_coalesced_allocno (allocno);
- fprintf (ira_dump_file, "%s\n", colorable_p ? "" : "(potential spill)");
+ if (colorable_p)
+ fprintf (ira_dump_file, "\n");
+ else
+ fprintf (ira_dump_file, "(potential spill: %spri=%d, cost=%d)\n",
+ ALLOCNO_BAD_SPILL_P (allocno) ? "bad spill, " : "",
+ allocno_spill_priority (allocno), ALLOCNO_TEMP (allocno));
}
cover_class = ALLOCNO_COVER_CLASS (allocno);
ira_assert ((colorable_p
- && (ALLOCNO_LEFT_CONFLICTS_NUM (allocno)
+ && (ALLOCNO_LEFT_CONFLICTS_SIZE (allocno)
+ ira_reg_class_nregs[cover_class][ALLOCNO_MODE (allocno)]
<= ALLOCNO_AVAILABLE_REGS_NUM (allocno)))
|| (! colorable_p
- && (ALLOCNO_LEFT_CONFLICTS_NUM (allocno)
+ && (ALLOCNO_LEFT_CONFLICTS_SIZE (allocno)
+ ira_reg_class_nregs[cover_class][ALLOCNO_MODE
(allocno)]
> ALLOCNO_AVAILABLE_REGS_NUM (allocno))));
if (! colorable_p)
ALLOCNO_MAY_BE_SPILLED_P (allocno) = true;
- push_ira_allocno_to_stack (allocno);
+ push_allocno_to_stack (allocno);
}
/* Put all allocnos from colorable bucket onto the coloring stack. */
/* Puts ALLOCNO chosen for potential spilling onto the coloring
stack. */
static void
-push_ira_allocno_to_spill (ira_allocno_t allocno)
+push_allocno_to_spill (ira_allocno_t allocno)
{
delete_allocno_from_bucket (allocno, &uncolorable_allocno_bucket);
ALLOCNO_MAY_BE_SPILLED_P (allocno) = true;
if (internal_flag_ira_verbose > 3 && ira_dump_file != NULL)
- fprintf (ira_dump_file, " Pushing p%d(%d) (potential spill)\n",
+ fprintf (ira_dump_file, " Pushing p%d(%d) (spill for NO_REGS)\n",
ALLOCNO_NUM (allocno), ALLOCNO_REGNO (allocno));
- push_ira_allocno_to_stack (allocno);
+ push_allocno_to_stack (allocno);
}
/* Return the frequency of exit edges (if EXIT_P) or entry from/to the
- loop given by its LOOP_NODE. */
+ loop given by its LOOP_NODE. */
int
ira_loop_edge_freq (ira_loop_tree_node_t loop_node, int regno, bool exit_p)
{
ira_loop_tree_node_t parent_node, loop_node;
regno = ALLOCNO_REGNO (a);
- cost = ALLOCNO_UPDATED_MEMORY_COST (a) - ALLOCNO_COVER_CLASS_COST (a);
+ cost = ALLOCNO_UPDATED_MEMORY_COST (a) - ALLOCNO_UPDATED_COVER_CLASS_COST (a);
if (ALLOCNO_CAP (a) != NULL)
return cost;
loop_node = ALLOCNO_LOOP_TREE_NODE (a);
* ira_loop_edge_freq (loop_node, regno, true)
+ ira_memory_move_cost[mode][rclass][0]
* ira_loop_edge_freq (loop_node, regno, false))
- - (ira_register_move_cost[mode][rclass][rclass]
+ - (ira_get_register_move_cost (mode, rclass, rclass)
* (ira_loop_edge_freq (loop_node, regno, false)
+ ira_loop_edge_freq (loop_node, regno, true))));
return cost;
{
int pri1, pri2, diff;
ira_allocno_t a1 = (ira_allocno_t) k1, a2 = (ira_allocno_t) k2;
-
- pri1 = (IRA_ALLOCNO_TEMP (a1)
- / (ALLOCNO_LEFT_CONFLICTS_NUM (a1)
+
+ pri1 = (ALLOCNO_TEMP (a1)
+ / (ALLOCNO_LEFT_CONFLICTS_SIZE (a1)
* ira_reg_class_nregs[ALLOCNO_COVER_CLASS (a1)][ALLOCNO_MODE (a1)]
+ 1));
- pri2 = (IRA_ALLOCNO_TEMP (a2)
- / (ALLOCNO_LEFT_CONFLICTS_NUM (a2)
+ pri2 = (ALLOCNO_TEMP (a2)
+ / (ALLOCNO_LEFT_CONFLICTS_SIZE (a2)
* ira_reg_class_nregs[ALLOCNO_COVER_CLASS (a2)][ALLOCNO_MODE (a2)]
+ 1));
if ((diff = pri1 - pri2) != 0)
return diff;
- if ((diff = IRA_ALLOCNO_TEMP (a1) - IRA_ALLOCNO_TEMP (a2)) != 0)
+ if ((diff = ALLOCNO_TEMP (a1) - ALLOCNO_TEMP (a2)) != 0)
return diff;
return ALLOCNO_NUM (a1) - ALLOCNO_NUM (a2);
}
}
/* ??? Remove cost of copies between the coalesced
allocnos. */
- IRA_ALLOCNO_TEMP (allocno) = cost;
+ ALLOCNO_TEMP (allocno) = cost;
}
/* Define place where to put uncolorable allocnos of the same cover
class. */
cover_class = ALLOCNO_COVER_CLASS (allocno);
if (cover_class == NO_REGS)
{
- push_ira_allocno_to_spill (allocno);
+ push_allocno_to_spill (allocno);
continue;
}
/* Potential spilling. */
allocno = VEC_pop (ira_allocno_t, removed_splay_allocno_vec);
ALLOCNO_SPLAY_REMOVED_P (allocno) = false;
rclass = ALLOCNO_COVER_CLASS (allocno);
- if (ALLOCNO_LEFT_CONFLICTS_NUM (allocno)
+ if (ALLOCNO_LEFT_CONFLICTS_SIZE (allocno)
+ ira_reg_class_nregs [rclass][ALLOCNO_MODE (allocno)]
> ALLOCNO_AVAILABLE_REGS_NUM (allocno))
splay_tree_insert
if (ALLOCNO_IN_GRAPH_P (i_allocno))
{
i++;
- if (IRA_ALLOCNO_TEMP (i_allocno) == INT_MAX)
- {
- ira_allocno_t a;
- int cost = 0;
-
- for (a = ALLOCNO_NEXT_COALESCED_ALLOCNO (i_allocno);;
- a = ALLOCNO_NEXT_COALESCED_ALLOCNO (a))
- {
- cost += calculate_allocno_spill_cost (i_allocno);
- if (a == i_allocno)
- break;
- }
- /* ??? Remove cost of copies between the coalesced
- allocnos. */
- IRA_ALLOCNO_TEMP (i_allocno) = cost;
- }
- i_allocno_cost = IRA_ALLOCNO_TEMP (i_allocno);
- i_allocno_pri
- = (i_allocno_cost
- / (ALLOCNO_LEFT_CONFLICTS_NUM (i_allocno)
- * ira_reg_class_nregs[ALLOCNO_COVER_CLASS
- (i_allocno)]
- [ALLOCNO_MODE (i_allocno)] + 1));
- if (allocno == NULL || allocno_pri > i_allocno_pri
- || (allocno_pri == i_allocno_pri
- && (allocno_cost > i_allocno_cost
- || (allocno_cost == i_allocno_cost
- && (ALLOCNO_NUM (allocno)
- > ALLOCNO_NUM (i_allocno))))))
+ ira_assert (ALLOCNO_TEMP (i_allocno) != INT_MAX);
+ i_allocno_cost = ALLOCNO_TEMP (i_allocno);
+ i_allocno_pri = allocno_spill_priority (i_allocno);
+ if (allocno == NULL
+ || (! ALLOCNO_BAD_SPILL_P (i_allocno)
+ && ALLOCNO_BAD_SPILL_P (allocno))
+ || (! (ALLOCNO_BAD_SPILL_P (i_allocno)
+ && ! ALLOCNO_BAD_SPILL_P (allocno))
+ && (allocno_pri > i_allocno_pri
+ || (allocno_pri == i_allocno_pri
+ && (allocno_cost > i_allocno_cost
+ || (allocno_cost == i_allocno_cost
+ && (ALLOCNO_NUM (allocno)
+ > ALLOCNO_NUM (i_allocno))))))))
{
allocno = i_allocno;
allocno_cost = i_allocno_cost;
}
ira_assert (ALLOCNO_IN_GRAPH_P (allocno)
&& ALLOCNO_COVER_CLASS (allocno) == cover_class
- && (ALLOCNO_LEFT_CONFLICTS_NUM (allocno)
+ && (ALLOCNO_LEFT_CONFLICTS_SIZE (allocno)
+ ira_reg_class_nregs[cover_class][ALLOCNO_MODE
(allocno)]
> ALLOCNO_AVAILABLE_REGS_NUM (allocno)));
static void
setup_allocno_available_regs_num (ira_allocno_t allocno)
{
- int i, n, hard_regs_num;
+ int i, n, hard_regs_num, hard_regno;
+ enum machine_mode mode;
enum reg_class cover_class;
ira_allocno_t a;
HARD_REG_SET temp_set;
if (a == allocno)
break;
}
+ mode = ALLOCNO_MODE (allocno);
for (n = 0, i = hard_regs_num - 1; i >= 0; i--)
- if (TEST_HARD_REG_BIT (temp_set, ira_class_hard_regs[cover_class][i]))
- n++;
+ {
+ hard_regno = ira_class_hard_regs[cover_class][i];
+ if (TEST_HARD_REG_BIT (temp_set, hard_regno)
+ || TEST_HARD_REG_BIT (prohibited_class_mode_regs[cover_class][mode],
+ hard_regno))
+ n++;
+ }
if (internal_flag_ira_verbose > 2 && n > 0 && ira_dump_file != NULL)
fprintf (ira_dump_file, " Reg %d of %s has %d regs less\n",
ALLOCNO_REGNO (allocno), reg_class_names[cover_class], n);
ALLOCNO_AVAILABLE_REGS_NUM (allocno) -= n;
}
-/* Set up ALLOCNO_LEFT_CONFLICTS_NUM for ALLOCNO. */
+/* Set up ALLOCNO_LEFT_CONFLICTS_SIZE for ALLOCNO. */
static void
-setup_allocno_left_conflicts_num (ira_allocno_t allocno)
+setup_allocno_left_conflicts_size (ira_allocno_t allocno)
{
int i, hard_regs_num, hard_regno, conflict_allocnos_size;
ira_allocno_t a, conflict_allocno;
a = ALLOCNO_NEXT_COALESCED_ALLOCNO (a))
{
FOR_EACH_ALLOCNO_CONFLICT (a, conflict_allocno, aci)
- if (bitmap_bit_p (consideration_allocno_bitmap,
- ALLOCNO_NUM (conflict_allocno)))
- {
- ira_assert (cover_class
- == ALLOCNO_COVER_CLASS (conflict_allocno));
- if (allocno_coalesced_p)
- {
- if (bitmap_bit_p (processed_coalesced_allocno_bitmap,
- ALLOCNO_NUM (conflict_allocno)))
- continue;
- bitmap_set_bit (processed_coalesced_allocno_bitmap,
- ALLOCNO_NUM (conflict_allocno));
- }
- if (! ALLOCNO_ASSIGNED_P (conflict_allocno))
- conflict_allocnos_size
- += (ira_reg_class_nregs
- [cover_class][ALLOCNO_MODE (conflict_allocno)]);
- else if ((hard_regno = ALLOCNO_HARD_REGNO (conflict_allocno))
- >= 0)
- {
- int last = (hard_regno
- + hard_regno_nregs
+ {
+ conflict_allocno
+ = ALLOCNO_FIRST_COALESCED_ALLOCNO (conflict_allocno);
+ if (bitmap_bit_p (consideration_allocno_bitmap,
+ ALLOCNO_NUM (conflict_allocno)))
+ {
+ ira_assert (cover_class
+ == ALLOCNO_COVER_CLASS (conflict_allocno));
+ if (allocno_coalesced_p)
+ {
+ if (bitmap_bit_p (processed_coalesced_allocno_bitmap,
+ ALLOCNO_NUM (conflict_allocno)))
+ continue;
+ bitmap_set_bit (processed_coalesced_allocno_bitmap,
+ ALLOCNO_NUM (conflict_allocno));
+ }
+ if (! ALLOCNO_ASSIGNED_P (conflict_allocno))
+ conflict_allocnos_size
+ += (ira_reg_class_nregs
+ [cover_class][ALLOCNO_MODE (conflict_allocno)]);
+ else if ((hard_regno = ALLOCNO_HARD_REGNO (conflict_allocno))
+ >= 0)
+ {
+ int last = (hard_regno
+ + hard_regno_nregs
[hard_regno][ALLOCNO_MODE (conflict_allocno)]);
-
- while (hard_regno < last)
- {
- if (! TEST_HARD_REG_BIT (temp_set, hard_regno))
- {
- conflict_allocnos_size++;
- SET_HARD_REG_BIT (temp_set, hard_regno);
- }
- hard_regno++;
- }
- }
- }
+
+ while (hard_regno < last)
+ {
+ if (! TEST_HARD_REG_BIT (temp_set, hard_regno))
+ {
+ conflict_allocnos_size++;
+ SET_HARD_REG_BIT (temp_set, hard_regno);
+ }
+ hard_regno++;
+ }
+ }
+ }
+ }
if (a == allocno)
break;
}
- ALLOCNO_LEFT_CONFLICTS_NUM (allocno) = conflict_allocnos_size;
+ ALLOCNO_LEFT_CONFLICTS_SIZE (allocno) = conflict_allocnos_size;
}
/* Put ALLOCNO in a bucket corresponding to its number and size of its
static void
put_allocno_into_bucket (ira_allocno_t allocno)
{
- int hard_regs_num;
enum reg_class cover_class;
cover_class = ALLOCNO_COVER_CLASS (allocno);
- hard_regs_num = ira_class_hard_regs_num[cover_class];
if (ALLOCNO_FIRST_COALESCED_ALLOCNO (allocno) != allocno)
return;
ALLOCNO_IN_GRAPH_P (allocno) = true;
- setup_allocno_left_conflicts_num (allocno);
+ setup_allocno_left_conflicts_size (allocno);
setup_allocno_available_regs_num (allocno);
- if (ALLOCNO_LEFT_CONFLICTS_NUM (allocno)
+ if (ALLOCNO_LEFT_CONFLICTS_SIZE (allocno)
+ ira_reg_class_nregs[cover_class][ALLOCNO_MODE (allocno)]
<= ALLOCNO_AVAILABLE_REGS_NUM (allocno))
- add_ira_allocno_to_bucket (allocno, &colorable_allocno_bucket);
+ add_allocno_to_bucket (allocno, &colorable_allocno_bucket);
else
- add_ira_allocno_to_bucket (allocno, &uncolorable_allocno_bucket);
+ add_allocno_to_bucket (allocno, &uncolorable_allocno_bucket);
}
/* The function is used to sort allocnos according to their execution
conflict_allocno
= ALLOCNO_NEXT_COALESCED_ALLOCNO (conflict_allocno))
{
- if (ira_allocno_live_ranges_intersect_p (a, conflict_allocno))
+ if (allocnos_have_intersected_live_ranges_p (a,
+ conflict_allocno))
return true;
if (conflict_allocno == a1)
break;
{
next_cp = cp->next_first_allocno_copy;
regno = ALLOCNO_REGNO (cp->second);
+ /* For priority coloring we coalesce allocnos only with
+ the same cover class not with intersected cover
+ classes as it were possible. It is done for
+ simplicity. */
if ((reload_p
|| (ALLOCNO_COVER_CLASS (cp->second) == cover_class
&& ALLOCNO_MODE (cp->second) == mode))
- && cp->insn != NULL
+ && (cp->insn != NULL || cp->constraint_p)
&& ((! reload_p && ! ALLOCNO_ASSIGNED_P (cp->second))
|| (reload_p
&& ALLOCNO_ASSIGNED_P (cp->second)
ira_free (sorted_copies);
}
+/* Map: allocno number -> allocno priority. */
+static int *allocno_priorities;
+
+/* Set up priorities for N allocnos in array
+ CONSIDERATION_ALLOCNOS. */
+static void
+setup_allocno_priorities (ira_allocno_t *consideration_allocnos, int n)
+{
+ int i, length, nrefs, priority, max_priority, mult;
+ ira_allocno_t a;
+
+ max_priority = 0;
+ for (i = 0; i < n; i++)
+ {
+ a = consideration_allocnos[i];
+ nrefs = ALLOCNO_NREFS (a);
+ ira_assert (nrefs >= 0);
+ mult = floor_log2 (ALLOCNO_NREFS (a)) + 1;
+ ira_assert (mult >= 0);
+ allocno_priorities[ALLOCNO_NUM (a)]
+ = priority
+ = (mult
+ * (ALLOCNO_MEMORY_COST (a) - ALLOCNO_COVER_CLASS_COST (a))
+ * ira_reg_class_nregs[ALLOCNO_COVER_CLASS (a)][ALLOCNO_MODE (a)]);
+ if (priority < 0)
+ priority = -priority;
+ if (max_priority < priority)
+ max_priority = priority;
+ }
+ mult = max_priority == 0 ? 1 : INT_MAX / max_priority;
+ for (i = 0; i < n; i++)
+ {
+ a = consideration_allocnos[i];
+ length = ALLOCNO_EXCESS_PRESSURE_POINTS_NUM (a);
+ if (length <= 0)
+ length = 1;
+ allocno_priorities[ALLOCNO_NUM (a)]
+ = allocno_priorities[ALLOCNO_NUM (a)] * mult / length;
+ }
+}
+
+/* Sort allocnos according to their priorities which are calculated
+ analogous to ones in file `global.c'. */
+static int
+allocno_priority_compare_func (const void *v1p, const void *v2p)
+{
+ ira_allocno_t a1 = *(const ira_allocno_t *) v1p;
+ ira_allocno_t a2 = *(const ira_allocno_t *) v2p;
+ int pri1, pri2;
+
+ pri1 = allocno_priorities[ALLOCNO_NUM (a1)];
+ pri2 = allocno_priorities[ALLOCNO_NUM (a2)];
+ if (pri2 - pri1)
+ return pri2 - pri1;
+
+ /* If regs are equally good, sort by allocnos, so that the results of
+ qsort leave nothing to chance. */
+ return ALLOCNO_NUM (a1) - ALLOCNO_NUM (a2);
+}
+
/* Chaitin-Briggs coloring for allocnos in COLORING_ALLOCNO_BITMAP
taking into account allocnos in CONSIDERATION_ALLOCNO_BITMAP. */
static void
color_allocnos (void)
{
- unsigned int i;
+ unsigned int i, n;
bitmap_iterator bi;
ira_allocno_t a;
processed_coalesced_allocno_bitmap = ira_allocate_bitmap ();
if (flag_ira_coalesce)
coalesce_allocnos (false);
- /* Put the allocnos into the corresponding buckets. */
- colorable_allocno_bucket = NULL;
- uncolorable_allocno_bucket = NULL;
- EXECUTE_IF_SET_IN_BITMAP (coloring_allocno_bitmap, 0, i, bi)
+ if (flag_ira_algorithm == IRA_ALGORITHM_PRIORITY)
{
- a = ira_allocnos[i];
- if (ALLOCNO_COVER_CLASS (a) == NO_REGS)
+ n = 0;
+ EXECUTE_IF_SET_IN_BITMAP (coloring_allocno_bitmap, 0, i, bi)
{
- ALLOCNO_HARD_REGNO (a) = -1;
- ALLOCNO_ASSIGNED_P (a) = true;
- ira_assert (ALLOCNO_UPDATED_HARD_REG_COSTS (a) == NULL);
- ira_assert (ALLOCNO_UPDATED_CONFLICT_HARD_REG_COSTS (a) == NULL);
- if (internal_flag_ira_verbose > 3 && ira_dump_file != NULL)
+ a = ira_allocnos[i];
+ if (ALLOCNO_COVER_CLASS (a) == NO_REGS)
{
- fprintf (ira_dump_file, " Spill");
- print_coalesced_allocno (a);
- fprintf (ira_dump_file, "\n");
+ ALLOCNO_HARD_REGNO (a) = -1;
+ ALLOCNO_ASSIGNED_P (a) = true;
+ ira_assert (ALLOCNO_UPDATED_HARD_REG_COSTS (a) == NULL);
+ ira_assert (ALLOCNO_UPDATED_CONFLICT_HARD_REG_COSTS (a) == NULL);
+ if (internal_flag_ira_verbose > 3 && ira_dump_file != NULL)
+ {
+ fprintf (ira_dump_file, " Spill");
+ print_coalesced_allocno (a);
+ fprintf (ira_dump_file, "\n");
+ }
+ continue;
+ }
+ sorted_allocnos[n++] = a;
+ }
+ if (n != 0)
+ {
+ setup_allocno_priorities (sorted_allocnos, n);
+ qsort (sorted_allocnos, n, sizeof (ira_allocno_t),
+ allocno_priority_compare_func);
+ for (i = 0; i < n; i++)
+ {
+ a = sorted_allocnos[i];
+ if (internal_flag_ira_verbose > 3 && ira_dump_file != NULL)
+ {
+ fprintf (ira_dump_file, " ");
+ print_coalesced_allocno (a);
+ fprintf (ira_dump_file, " -- ");
+ }
+ if (assign_hard_reg (a, false))
+ {
+ if (internal_flag_ira_verbose > 3 && ira_dump_file != NULL)
+ fprintf (ira_dump_file, "assign hard reg %d\n",
+ ALLOCNO_HARD_REGNO (a));
+ }
+ else
+ {
+ if (internal_flag_ira_verbose > 3 && ira_dump_file != NULL)
+ fprintf (ira_dump_file, "assign memory\n");
+ }
}
- continue;
}
- put_allocno_into_bucket (a);
}
- push_allocnos_to_stack ();
- pop_allocnos_from_stack ();
+ else
+ {
+ /* Put the allocnos into the corresponding buckets. */
+ colorable_allocno_bucket = NULL;
+ uncolorable_allocno_bucket = NULL;
+ EXECUTE_IF_SET_IN_BITMAP (coloring_allocno_bitmap, 0, i, bi)
+ {
+ a = ira_allocnos[i];
+ if (ALLOCNO_COVER_CLASS (a) == NO_REGS)
+ {
+ ALLOCNO_HARD_REGNO (a) = -1;
+ ALLOCNO_ASSIGNED_P (a) = true;
+ ira_assert (ALLOCNO_UPDATED_HARD_REG_COSTS (a) == NULL);
+ ira_assert (ALLOCNO_UPDATED_CONFLICT_HARD_REG_COSTS (a) == NULL);
+ if (internal_flag_ira_verbose > 3 && ira_dump_file != NULL)
+ {
+ fprintf (ira_dump_file, " Spill");
+ print_coalesced_allocno (a);
+ fprintf (ira_dump_file, "\n");
+ }
+ continue;
+ }
+ put_allocno_into_bucket (a);
+ }
+ push_allocnos_to_stack ();
+ pop_allocnos_from_stack ();
+ }
if (flag_ira_coalesce)
/* We don't need coalesced allocnos for ira_reassign_pseudos. */
EXECUTE_IF_SET_IN_BITMAP (coloring_allocno_bitmap, 0, i, bi)
{
unsigned int j;
bitmap_iterator bi;
+ ira_loop_tree_node_t subloop_node, dest_loop_node;
+ edge e;
+ edge_iterator ei;
ira_assert (loop_tree_node->loop != NULL);
fprintf (ira_dump_file,
- "\n Loop %d (parent %d, header bb%d, depth %d)\n all:",
+ "\n Loop %d (parent %d, header bb%d, depth %d)\n bbs:",
loop_tree_node->loop->num,
(loop_tree_node->parent == NULL
? -1 : loop_tree_node->parent->loop->num),
loop_tree_node->loop->header->index,
loop_depth (loop_tree_node->loop));
+ for (subloop_node = loop_tree_node->children;
+ subloop_node != NULL;
+ subloop_node = subloop_node->next)
+ if (subloop_node->bb != NULL)
+ {
+ fprintf (ira_dump_file, " %d", subloop_node->bb->index);
+ FOR_EACH_EDGE (e, ei, subloop_node->bb->succs)
+ if (e->dest != EXIT_BLOCK_PTR
+ && ((dest_loop_node = IRA_BB_NODE (e->dest)->parent)
+ != loop_tree_node))
+ fprintf (ira_dump_file, "(->%d:l%d)",
+ e->dest->index, dest_loop_node->loop->num);
+ }
+ fprintf (ira_dump_file, "\n all:");
EXECUTE_IF_SET_IN_BITMAP (loop_tree_node->all_allocnos, 0, j, bi)
fprintf (ira_dump_file, " %dr%d", j, ALLOCNO_REGNO (ira_allocnos[j]));
fprintf (ira_dump_file, "\n modified regnos:");
for (j = 0; (int) j < ira_reg_class_cover_size; j++)
{
enum reg_class cover_class;
-
+
cover_class = ira_reg_class_cover[j];
if (loop_tree_node->reg_pressure[cover_class] == 0)
continue;
/* Color all mentioned allocnos including transparent ones. */
color_allocnos ();
/* Process caps. They are processed just once. */
- if (flag_ira_algorithm == IRA_ALGORITHM_MIXED
- || flag_ira_algorithm == IRA_ALGORITHM_REGIONAL)
+ if (flag_ira_region == IRA_REGION_MIXED
+ || flag_ira_region == IRA_REGION_ALL)
EXECUTE_IF_SET_IN_BITMAP (loop_tree_node->all_allocnos, 0, j, bi)
{
a = ira_allocnos[j];
/* Remove from processing in the next loop. */
bitmap_clear_bit (consideration_allocno_bitmap, j);
rclass = ALLOCNO_COVER_CLASS (a);
- if ((flag_ira_algorithm == IRA_ALGORITHM_MIXED
- && loop_tree_node->reg_pressure[rclass]
- <= ira_available_class_regs[rclass]))
+ if (flag_ira_region == IRA_REGION_MIXED
+ && (loop_tree_node->reg_pressure[rclass]
+ <= ira_available_class_regs[rclass]))
{
mode = ALLOCNO_MODE (a);
hard_regno = ALLOCNO_HARD_REGNO (a);
mode = ALLOCNO_MODE (a);
rclass = ALLOCNO_COVER_CLASS (a);
hard_regno = ALLOCNO_HARD_REGNO (a);
+ /* Use hard register class here. ??? */
if (hard_regno >= 0)
{
index = ira_class_hard_reg_index[rclass][hard_regno];
if (subloop_allocno == NULL
|| ALLOCNO_CAP (subloop_allocno) != NULL)
continue;
+ ira_assert (ALLOCNO_COVER_CLASS (subloop_allocno) == rclass);
ira_assert (bitmap_bit_p (subloop_node->all_allocnos,
ALLOCNO_NUM (subloop_allocno)));
- if (flag_ira_algorithm == IRA_ALGORITHM_MIXED
+ if ((flag_ira_region == IRA_REGION_MIXED)
&& (loop_tree_node->reg_pressure[rclass]
<= ira_available_class_regs[rclass]))
{
else
{
cover_class = ALLOCNO_COVER_CLASS (subloop_allocno);
- ira_allocate_and_set_costs
- (&ALLOCNO_HARD_REG_COSTS (subloop_allocno), cover_class,
- ALLOCNO_COVER_CLASS_COST (subloop_allocno));
- ira_allocate_and_set_costs
- (&ALLOCNO_CONFLICT_HARD_REG_COSTS (subloop_allocno),
- cover_class, 0);
- cost = (ira_register_move_cost[mode][rclass][rclass]
+ cost = (ira_get_register_move_cost (mode, rclass, rclass)
* (exit_freq + enter_freq));
- ALLOCNO_HARD_REG_COSTS (subloop_allocno)[index] -= cost;
- ALLOCNO_CONFLICT_HARD_REG_COSTS (subloop_allocno)[index]
+ ira_allocate_and_set_or_copy_costs
+ (&ALLOCNO_UPDATED_HARD_REG_COSTS (subloop_allocno), cover_class,
+ ALLOCNO_UPDATED_COVER_CLASS_COST (subloop_allocno),
+ ALLOCNO_HARD_REG_COSTS (subloop_allocno));
+ ira_allocate_and_set_or_copy_costs
+ (&ALLOCNO_UPDATED_CONFLICT_HARD_REG_COSTS (subloop_allocno),
+ cover_class, 0,
+ ALLOCNO_CONFLICT_HARD_REG_COSTS (subloop_allocno));
+ ALLOCNO_UPDATED_HARD_REG_COSTS (subloop_allocno)[index] -= cost;
+ ALLOCNO_UPDATED_CONFLICT_HARD_REG_COSTS (subloop_allocno)[index]
-= cost;
+ if (ALLOCNO_UPDATED_COVER_CLASS_COST (subloop_allocno)
+ > ALLOCNO_UPDATED_HARD_REG_COSTS (subloop_allocno)[index])
+ ALLOCNO_UPDATED_COVER_CLASS_COST (subloop_allocno)
+ = ALLOCNO_UPDATED_HARD_REG_COSTS (subloop_allocno)[index];
ALLOCNO_UPDATED_MEMORY_COST (subloop_allocno)
+= (ira_memory_move_cost[mode][rclass][0] * enter_freq
+ ira_memory_move_cost[mode][rclass][1] * exit_freq);
- if (ALLOCNO_COVER_CLASS_COST (subloop_allocno)
- > ALLOCNO_HARD_REG_COSTS (subloop_allocno)[index])
- ALLOCNO_COVER_CLASS_COST (subloop_allocno)
- = ALLOCNO_HARD_REG_COSTS (subloop_allocno)[index];
}
}
}
100);
if (internal_flag_ira_verbose > 0 && ira_dump_file != NULL)
fprintf (ira_dump_file, "\n**** Allocnos coloring:\n\n");
-
+
ira_traverse_loop_tree (false, ira_loop_tree_root, color_pass, NULL);
if (internal_flag_ira_verbose > 1 && ira_dump_file != NULL)
subloop_allocno = subloop_node->regno_allocno_map[regno];
if (subloop_allocno == NULL)
continue;
+ ira_assert (rclass == ALLOCNO_COVER_CLASS (subloop_allocno));
/* We have accumulated cost. To get the real cost of
allocno usage in the loop we should subtract costs of
the subloop allocnos. */
+= (ira_memory_move_cost[mode][rclass][0] * exit_freq
+ ira_memory_move_cost[mode][rclass][1] * enter_freq);
if (hard_regno2 != hard_regno)
- cost -= (ira_register_move_cost[mode][rclass][rclass]
+ cost -= (ira_get_register_move_cost (mode, rclass, rclass)
* (exit_freq + enter_freq));
}
}
if ((parent = loop_node->parent) != NULL
&& (parent_allocno = parent->regno_allocno_map[regno]) != NULL)
{
+ ira_assert (rclass == ALLOCNO_COVER_CLASS (parent_allocno));
exit_freq = ira_loop_edge_freq (loop_node, regno, true);
enter_freq = ira_loop_edge_freq (loop_node, regno, false);
if ((hard_regno2 = ALLOCNO_HARD_REGNO (parent_allocno)) < 0)
+= (ira_memory_move_cost[mode][rclass][1] * exit_freq
+ ira_memory_move_cost[mode][rclass][0] * enter_freq);
if (hard_regno2 != hard_regno)
- cost -= (ira_register_move_cost[mode][rclass][rclass]
+ cost -= (ira_get_register_move_cost (mode, rclass, rclass)
* (exit_freq + enter_freq));
}
}
}
else
gcc_unreachable ();
- if (cover_class != ALLOCNO_COVER_CLASS (another_a)
+ if (! ira_reg_classes_intersect_p[cover_class][ALLOCNO_COVER_CLASS
+ (another_a)]
|| ! ALLOCNO_ASSIGNED_P (another_a)
|| (hard_regno = ALLOCNO_HARD_REGNO (another_a)) < 0)
continue;
rclass = REGNO_REG_CLASS (hard_regno);
i = ira_class_hard_reg_index[cover_class][hard_regno];
- ira_assert (i >= 0);
+ if (i < 0)
+ continue;
cost = (cp->first == a
- ? ira_register_move_cost[mode][rclass][cover_class]
- : ira_register_move_cost[mode][cover_class][rclass]);
+ ? ira_get_register_move_cost (mode, rclass, cover_class)
+ : ira_get_register_move_cost (mode, cover_class, rclass));
ira_allocate_and_set_or_copy_costs
(&ALLOCNO_UPDATED_HARD_REG_COSTS (a),
cover_class, ALLOCNO_COVER_CLASS_COST (a),
}
}
-/* Map: allocno number -> allocno priority. */
-static int *allocno_priorities;
-
-/* Allocate array ALLOCNO_PRIORITIES and set up priorities for N allocnos in
- array CONSIDERATION_ALLOCNOS. */
-static void
-start_allocno_priorities (ira_allocno_t *consideration_allocnos, int n)
-{
- int i, length;
- ira_allocno_t a;
- allocno_live_range_t r;
-
- for (i = 0; i < n; i++)
- {
- a = consideration_allocnos[i];
- for (length = 0, r = ALLOCNO_LIVE_RANGES (a); r != NULL; r = r->next)
- length += r->finish - r->start + 1;
- if (length == 0)
- {
- allocno_priorities[ALLOCNO_NUM (a)] = 0;
- continue;
- }
- ira_assert (length > 0 && ALLOCNO_NREFS (a) >= 0);
- allocno_priorities[ALLOCNO_NUM (a)]
- = (((double) (floor_log2 (ALLOCNO_NREFS (a)) * ALLOCNO_FREQ (a))
- / length)
- * (10000 / REG_FREQ_MAX) * PSEUDO_REGNO_SIZE (ALLOCNO_REGNO (a)));
- }
-}
-
-/* Sort allocnos according to their priorities which are calculated
- analogous to ones in file `global.c'. */
-static int
-allocno_priority_compare_func (const void *v1p, const void *v2p)
-{
- ira_allocno_t a1 = *(const ira_allocno_t *) v1p;
- ira_allocno_t a2 = *(const ira_allocno_t *) v2p;
- int pri1, pri2;
-
- pri1 = allocno_priorities[ALLOCNO_NUM (a1)];
- pri2 = allocno_priorities[ALLOCNO_NUM (a2)];
- if (pri2 - pri1)
- return pri2 - pri1;
-
- /* If regs are equally good, sort by allocnos, so that the results of
- qsort leave nothing to chance. */
- return ALLOCNO_NUM (a1) - ALLOCNO_NUM (a2);
-}
-
/* Try to assign hard registers to the unassigned allocnos and
allocnos conflicting with them or conflicting with allocnos whose
regno >= START_REGNO. The function is called after ira_flattening,
continue;
FOR_EACH_ALLOCNO_CONFLICT (a, conflict_a, aci)
{
- ira_assert (cover_class == ALLOCNO_COVER_CLASS (conflict_a));
+ ira_assert (ira_reg_classes_intersect_p
+ [cover_class][ALLOCNO_COVER_CLASS (conflict_a)]);
if (bitmap_bit_p (allocnos_to_color, ALLOCNO_NUM (conflict_a)))
continue;
bitmap_set_bit (allocnos_to_color, ALLOCNO_NUM (conflict_a));
ira_free_bitmap (allocnos_to_color);
if (allocnos_to_color_num > 1)
{
- start_allocno_priorities (sorted_allocnos, allocnos_to_color_num);
+ setup_allocno_priorities (sorted_allocnos, allocnos_to_color_num);
qsort (sorted_allocnos, allocnos_to_color_num, sizeof (ira_allocno_t),
allocno_priority_compare_func);
}
if (a1 == NULL || ALLOCNO_HARD_REGNO (a1) >= 0)
{
if (a2 == NULL || ALLOCNO_HARD_REGNO (a2) >= 0)
- return (const int *) v1p - (const int *) v2p; /* Save the order. */
+ return regno1 - regno2;
return 1;
}
else if (a2 == NULL || ALLOCNO_HARD_REGNO (a2) >= 0)
total_size2 = MAX (PSEUDO_REGNO_BYTES (regno2), regno_max_ref_width[regno2]);
if ((diff = total_size2 - total_size1) != 0)
return diff;
- return (const int *) v1p - (const int *) v2p; /* Save the order. */
+ return regno1 - regno2;
}
/* Setup REGNO_COALESCED_ALLOCNO_COST and REGNO_COALESCED_ALLOCNO_NUM
return num;
}
+/* Array of live ranges of size IRA_ALLOCNOS_NUM. Live range for
+ given slot contains live ranges of coalesced allocnos assigned to
+ given slot. */
+static allocno_live_range_t *slot_coalesced_allocnos_live_ranges;
+
+/* Return TRUE if coalesced allocnos represented by ALLOCNO has live
+ ranges intersected with live ranges of coalesced allocnos assigned
+ to slot with number N. */
+static bool
+slot_coalesced_allocno_live_ranges_intersect_p (ira_allocno_t allocno, int n)
+{
+ ira_allocno_t a;
+
+ for (a = ALLOCNO_NEXT_COALESCED_ALLOCNO (allocno);;
+ a = ALLOCNO_NEXT_COALESCED_ALLOCNO (a))
+ {
+ if (ira_allocno_live_ranges_intersect_p
+ (slot_coalesced_allocnos_live_ranges[n], ALLOCNO_LIVE_RANGES (a)))
+ return true;
+ if (a == allocno)
+ break;
+ }
+ return false;
+}
+
+/* Update live ranges of slot to which coalesced allocnos represented
+ by ALLOCNO were assigned. */
+static void
+setup_slot_coalesced_allocno_live_ranges (ira_allocno_t allocno)
+{
+ int n;
+ ira_allocno_t a;
+ allocno_live_range_t r;
+
+ n = ALLOCNO_TEMP (allocno);
+ for (a = ALLOCNO_NEXT_COALESCED_ALLOCNO (allocno);;
+ a = ALLOCNO_NEXT_COALESCED_ALLOCNO (a))
+ {
+ r = ira_copy_allocno_live_range_list (ALLOCNO_LIVE_RANGES (a));
+ slot_coalesced_allocnos_live_ranges[n]
+ = ira_merge_allocno_live_ranges
+ (slot_coalesced_allocnos_live_ranges[n], r);
+ if (a == allocno)
+ break;
+ }
+}
+
/* We have coalesced allocnos involving in copies. Coalesce allocnos
further in order to share the same memory stack slot. Allocnos
representing sets of allocnos coalesced before the call are given
static bool
coalesce_spill_slots (ira_allocno_t *spilled_coalesced_allocnos, int num)
{
- int i, j;
+ int i, j, n, last_coalesced_allocno_num;
ira_allocno_t allocno, a;
bool merged_p = false;
-
+ bitmap set_jump_crosses = regstat_get_setjmp_crosses ();
+
+ slot_coalesced_allocnos_live_ranges
+ = (allocno_live_range_t *) ira_allocate (sizeof (allocno_live_range_t)
+ * ira_allocnos_num);
+ memset (slot_coalesced_allocnos_live_ranges, 0,
+ sizeof (allocno_live_range_t) * ira_allocnos_num);
+ last_coalesced_allocno_num = 0;
/* Coalesce non-conflicting spilled allocnos preferring most
frequently used. */
for (i = 0; i < num; i++)
{
allocno = spilled_coalesced_allocnos[i];
if (ALLOCNO_FIRST_COALESCED_ALLOCNO (allocno) != allocno
+ || bitmap_bit_p (set_jump_crosses, ALLOCNO_REGNO (allocno))
|| (ALLOCNO_REGNO (allocno) < ira_reg_equiv_len
- && (ira_reg_equiv_invariant_p[ALLOCNO_REGNO (allocno)]
- || ira_reg_equiv_const[ALLOCNO_REGNO (allocno)] != NULL_RTX)))
+ && (ira_reg_equiv_const[ALLOCNO_REGNO (allocno)] != NULL_RTX
+ || ira_reg_equiv_invariant_p[ALLOCNO_REGNO (allocno)])))
continue;
for (j = 0; j < i; j++)
{
a = spilled_coalesced_allocnos[j];
- if (ALLOCNO_FIRST_COALESCED_ALLOCNO (a) != a
- || (ALLOCNO_REGNO (a) < ira_reg_equiv_len
- && (ira_reg_equiv_invariant_p[ALLOCNO_REGNO (a)]
- || ira_reg_equiv_const[ALLOCNO_REGNO (a)] != NULL_RTX))
- || coalesced_allocno_conflict_p (allocno, a, true))
- continue;
+ n = ALLOCNO_TEMP (a);
+ if (ALLOCNO_FIRST_COALESCED_ALLOCNO (a) == a
+ && ! bitmap_bit_p (set_jump_crosses, ALLOCNO_REGNO (a))
+ && (ALLOCNO_REGNO (a) >= ira_reg_equiv_len
+ || (! ira_reg_equiv_invariant_p[ALLOCNO_REGNO (a)]
+ && ira_reg_equiv_const[ALLOCNO_REGNO (a)] == NULL_RTX))
+ && ! slot_coalesced_allocno_live_ranges_intersect_p (allocno, n))
+ break;
+ }
+ if (j >= i)
+ {
+ /* No coalescing: set up number for coalesced allocnos
+ represented by ALLOCNO. */
+ ALLOCNO_TEMP (allocno) = last_coalesced_allocno_num++;
+ setup_slot_coalesced_allocno_live_ranges (allocno);
+ }
+ else
+ {
allocno_coalesced_p = true;
merged_p = true;
if (internal_flag_ira_verbose > 3 && ira_dump_file != NULL)
" Coalescing spilled allocnos a%dr%d->a%dr%d\n",
ALLOCNO_NUM (allocno), ALLOCNO_REGNO (allocno),
ALLOCNO_NUM (a), ALLOCNO_REGNO (a));
+ ALLOCNO_TEMP (allocno) = ALLOCNO_TEMP (a);
+ setup_slot_coalesced_allocno_live_ranges (allocno);
merge_allocnos (a, allocno);
ira_assert (ALLOCNO_FIRST_COALESCED_ALLOCNO (a) == a);
}
}
+ for (i = 0; i < ira_allocnos_num; i++)
+ ira_finish_allocno_live_range_list
+ (slot_coalesced_allocnos_live_ranges[i]);
+ ira_free (slot_coalesced_allocnos_live_ranges);
return merged_p;
}
if (ALLOCNO_FIRST_COALESCED_ALLOCNO (allocno) != allocno
|| ALLOCNO_HARD_REGNO (allocno) >= 0
|| (ALLOCNO_REGNO (allocno) < ira_reg_equiv_len
- && (ira_reg_equiv_invariant_p[ALLOCNO_REGNO (allocno)]
- || ira_reg_equiv_const[ALLOCNO_REGNO (allocno)] != NULL_RTX)))
+ && (ira_reg_equiv_const[ALLOCNO_REGNO (allocno)] != NULL_RTX
+ || ira_reg_equiv_invariant_p[ALLOCNO_REGNO (allocno)])))
continue;
if (internal_flag_ira_verbose > 3 && ira_dump_file != NULL)
fprintf (ira_dump_file, " Slot %d (freq,size):", slot_num);
ALLOCNO_NUM (a), ALLOCNO_REGNO (a), ALLOCNO_FREQ (a),
MAX (PSEUDO_REGNO_BYTES (ALLOCNO_REGNO (a)),
reg_max_ref_width[ALLOCNO_REGNO (a)]));
-
+
if (a == allocno)
break;
}
}
/* Try to assign a hard register (except for FORBIDDEN_REGS) to
- allocno A and return TRUE in the case of success. That is an
- analog of retry_global_alloc for IRA. */
+ allocno A and return TRUE in the case of success. */
static bool
allocno_reload_assign (ira_allocno_t a, HARD_REG_SET forbidden_regs)
{
int hard_regno;
enum reg_class cover_class;
int regno = ALLOCNO_REGNO (a);
+ HARD_REG_SET saved;
+ COPY_HARD_REG_SET (saved, ALLOCNO_TOTAL_CONFLICT_HARD_REGS (a));
IOR_HARD_REG_SET (ALLOCNO_TOTAL_CONFLICT_HARD_REGS (a), forbidden_regs);
if (! flag_caller_saves && ALLOCNO_CALLS_CROSSED_NUM (a) != 0)
IOR_HARD_REG_SET (ALLOCNO_TOTAL_CONFLICT_HARD_REGS (a), call_used_reg_set);
}
else if (internal_flag_ira_verbose > 3 && ira_dump_file != NULL)
fprintf (ira_dump_file, "\n");
-
+ COPY_HARD_REG_SET (ALLOCNO_TOTAL_CONFLICT_HARD_REGS (a), saved);
return reg_renumber[regno] >= 0;
}
ira_reassign_pseudos (int *spilled_pseudo_regs, int num,
HARD_REG_SET bad_spill_regs,
HARD_REG_SET *pseudo_forbidden_regs,
- HARD_REG_SET *pseudo_previous_regs, bitmap spilled)
+ HARD_REG_SET *pseudo_previous_regs,
+ bitmap spilled)
{
- int i, m, n, regno;
+ int i, n, regno;
bool changed_p;
ira_allocno_t a, conflict_a;
HARD_REG_SET forbidden_regs;
ira_allocno_conflict_iterator aci;
+ bitmap temp = BITMAP_ALLOC (NULL);
+
+ /* Add pseudos which conflict with pseudos already in
+ SPILLED_PSEUDO_REGS to SPILLED_PSEUDO_REGS. This is preferable
+ to allocating in two steps as some of the conflicts might have
+ a higher priority than the pseudos passed in SPILLED_PSEUDO_REGS. */
+ for (i = 0; i < num; i++)
+ bitmap_set_bit (temp, spilled_pseudo_regs[i]);
+
+ for (i = 0, n = num; i < n; i++)
+ {
+ int regno = spilled_pseudo_regs[i];
+ bitmap_set_bit (temp, regno);
+
+ a = ira_regno_allocno_map[regno];
+ FOR_EACH_ALLOCNO_CONFLICT (a, conflict_a, aci)
+ if (ALLOCNO_HARD_REGNO (conflict_a) < 0
+ && ! ALLOCNO_DONT_REASSIGN_P (conflict_a)
+ && ! bitmap_bit_p (temp, ALLOCNO_REGNO (conflict_a)))
+ {
+ spilled_pseudo_regs[num++] = ALLOCNO_REGNO (conflict_a);
+ bitmap_set_bit (temp, ALLOCNO_REGNO (conflict_a));
+ /* ?!? This seems wrong. */
+ bitmap_set_bit (consideration_allocno_bitmap,
+ ALLOCNO_NUM (conflict_a));
+ }
+ }
if (num > 1)
qsort (spilled_pseudo_regs, num, sizeof (int), pseudo_reg_compare);
changed_p = false;
/* Try to assign hard registers to pseudos from
SPILLED_PSEUDO_REGS. */
- for (m = i = 0; i < num; i++)
+ for (i = 0; i < num; i++)
{
regno = spilled_pseudo_regs[i];
COPY_HARD_REG_SET (forbidden_regs, bad_spill_regs);
ira_assert (reg_renumber[regno] < 0);
if (internal_flag_ira_verbose > 3 && ira_dump_file != NULL)
fprintf (ira_dump_file,
- " Spill %d(a%d), cost=%d", regno, ALLOCNO_NUM (a),
+ " Try Assign %d(a%d), cost=%d", regno, ALLOCNO_NUM (a),
ALLOCNO_MEMORY_COST (a)
- ALLOCNO_COVER_CLASS_COST (a));
allocno_reload_assign (a, forbidden_regs);
CLEAR_REGNO_REG_SET (spilled, regno);
changed_p = true;
}
- else
- spilled_pseudo_regs[m++] = regno;
- }
- if (m == 0)
- return changed_p;
- if (internal_flag_ira_verbose > 3 && ira_dump_file != NULL)
- {
- fprintf (ira_dump_file, " Spilled regs");
- for (i = 0; i < m; i++)
- fprintf (ira_dump_file, " %d", spilled_pseudo_regs[i]);
- fprintf (ira_dump_file, "\n");
- }
- /* Try to assign hard registers to pseudos conflicting with ones
- from SPILLED_PSEUDO_REGS. */
- for (i = n = 0; i < m; i++)
- {
- regno = spilled_pseudo_regs[i];
- a = ira_regno_allocno_map[regno];
- FOR_EACH_ALLOCNO_CONFLICT (a, conflict_a, aci)
- if (ALLOCNO_HARD_REGNO (conflict_a) < 0
- && ! ALLOCNO_DONT_REASSIGN_P (conflict_a)
- && ! bitmap_bit_p (consideration_allocno_bitmap,
- ALLOCNO_NUM (conflict_a)))
- {
- sorted_allocnos[n++] = conflict_a;
- bitmap_set_bit (consideration_allocno_bitmap,
- ALLOCNO_NUM (conflict_a));
- }
- }
- if (n != 0)
- {
- start_allocno_priorities (sorted_allocnos, n);
- qsort (sorted_allocnos, n, sizeof (ira_allocno_t),
- allocno_priority_compare_func);
- for (i = 0; i < n; i++)
- {
- a = sorted_allocnos[i];
- regno = ALLOCNO_REGNO (a);
- COPY_HARD_REG_SET (forbidden_regs, bad_spill_regs);
- IOR_HARD_REG_SET (forbidden_regs, pseudo_forbidden_regs[regno]);
- IOR_HARD_REG_SET (forbidden_regs, pseudo_previous_regs[regno]);
- if (internal_flag_ira_verbose > 3 && ira_dump_file != NULL)
- fprintf (ira_dump_file,
- " Try assign %d(a%d), cost=%d",
- regno, ALLOCNO_NUM (a),
- ALLOCNO_MEMORY_COST (a)
- - ALLOCNO_COVER_CLASS_COST (a));
- if (allocno_reload_assign (a, forbidden_regs))
- {
- changed_p = true;
- bitmap_clear_bit (spilled, regno);
- }
- }
}
+ BITMAP_FREE (temp);
return changed_p;
}
bitmap_iterator bi;
struct ira_spilled_reg_stack_slot *slot = NULL;
- ira_assert (flag_ira && inherent_size == PSEUDO_REGNO_BYTES (regno)
+ ira_assert (inherent_size == PSEUDO_REGNO_BYTES (regno)
&& inherent_size <= total_size
&& ALLOCNO_HARD_REGNO (allocno) < 0);
if (! flag_ira_share_spill_slots)
if (slot->width < total_size
|| GET_MODE_SIZE (GET_MODE (slot->mem)) < inherent_size)
continue;
-
+
EXECUTE_IF_SET_IN_BITMAP (&slot->spilled_regs,
FIRST_PSEUDO_REGISTER, i, bi)
{
another_allocno = ira_regno_allocno_map[i];
- if (ira_allocno_live_ranges_intersect_p (allocno,
- another_allocno))
+ if (allocnos_have_intersected_live_ranges_p (allocno,
+ another_allocno))
goto cont;
}
for (cost = 0, cp = ALLOCNO_COPIES (allocno);
if (x != NULL_RTX)
{
ira_assert (slot->width >= total_size);
+#ifdef ENABLE_IRA_CHECKING
EXECUTE_IF_SET_IN_BITMAP (&slot->spilled_regs,
FIRST_PSEUDO_REGISTER, i, bi)
{
- ira_assert (! ira_pseudo_live_ranges_intersect_p (regno, i));
+ ira_assert (! pseudos_have_intersected_live_ranges_p (regno, i));
}
+#endif
SET_REGNO_REG_SET (&slot->spilled_regs, regno);
if (internal_flag_ira_verbose > 3 && ira_dump_file)
{
int slot_num;
ira_allocno_t allocno;
- ira_assert (flag_ira && PSEUDO_REGNO_BYTES (regno) <= total_size);
+ ira_assert (PSEUDO_REGNO_BYTES (regno) <= total_size);
allocno = ira_regno_allocno_map[regno];
slot_num = -ALLOCNO_HARD_REGNO (allocno) - 2;
if (slot_num == -1)
int call_used_count, other_call_used_count;
int hard_regno, other_hard_regno;
- cost = calculate_spill_cost (regnos, in, out, insn,
+ cost = calculate_spill_cost (regnos, in, out, insn,
&length, &nrefs, &call_used_count, &hard_regno);
other_cost = calculate_spill_cost (other_regnos, in, out, insn,
&other_length, &other_nrefs,
\f
/* Entry function doing color-based register allocation. */
-void
-ira_color (void)
+static void
+color (void)
{
allocno_stack_vec = VEC_alloc (ira_allocno_t, heap, ira_allocnos_num);
- conflict_allocno_vec = VEC_alloc (ira_allocno_t, heap, ira_allocnos_num);
removed_splay_allocno_vec
= VEC_alloc (ira_allocno_t, heap, ira_allocnos_num);
memset (allocated_hardreg_p, 0, sizeof (allocated_hardreg_p));
do_coloring ();
ira_finish_assign ();
VEC_free (ira_allocno_t, heap, removed_splay_allocno_vec);
- VEC_free (ira_allocno_t, heap, conflict_allocno_vec);
VEC_free (ira_allocno_t, heap, allocno_stack_vec);
move_spill_restore ();
}
/* Do register allocation by not using allocno conflicts. It uses
only allocno live ranges. The algorithm is close to Chow's
priority coloring. */
-void
-ira_fast_allocation (void)
+static void
+fast_allocation (void)
{
- int i, j, k, l, num, class_size, hard_regno;
+ int i, j, k, num, class_size, hard_regno;
#ifdef STACK_REGS
bool no_stack_reg_p;
#endif
allocno_live_range_t r;
HARD_REG_SET conflict_hard_regs, *used_hard_regs;
- allocno_priorities = (int *) ira_allocate (sizeof (int) * ira_allocnos_num);
- FOR_EACH_ALLOCNO (a, ai)
- {
- l = ALLOCNO_EXCESS_PRESSURE_POINTS_NUM (a);
- if (l <= 0)
- l = 1;
- allocno_priorities[ALLOCNO_NUM (a)]
- = (((double) (floor_log2 (ALLOCNO_NREFS (a))
- * (ALLOCNO_MEMORY_COST (a)
- - ALLOCNO_COVER_CLASS_COST (a))) / l)
- * (10000 / REG_FREQ_MAX)
- * ira_reg_class_nregs[ALLOCNO_COVER_CLASS (a)][ALLOCNO_MODE (a)]);
- }
- used_hard_regs = (HARD_REG_SET *) ira_allocate (sizeof (HARD_REG_SET)
- * ira_max_point);
- for (i = 0; i < ira_max_point; i++)
- CLEAR_HARD_REG_SET (used_hard_regs[i]);
sorted_allocnos = (ira_allocno_t *) ira_allocate (sizeof (ira_allocno_t)
* ira_allocnos_num);
num = 0;
FOR_EACH_ALLOCNO (a, ai)
sorted_allocnos[num++] = a;
- qsort (sorted_allocnos, ira_allocnos_num, sizeof (ira_allocno_t),
+ allocno_priorities = (int *) ira_allocate (sizeof (int) * ira_allocnos_num);
+ setup_allocno_priorities (sorted_allocnos, num);
+ used_hard_regs = (HARD_REG_SET *) ira_allocate (sizeof (HARD_REG_SET)
+ * ira_max_point);
+ for (i = 0; i < ira_max_point; i++)
+ CLEAR_HARD_REG_SET (used_hard_regs[i]);
+ qsort (sorted_allocnos, num, sizeof (ira_allocno_t),
allocno_priority_compare_func);
for (i = 0; i < num; i++)
{
if (internal_flag_ira_verbose > 1 && ira_dump_file != NULL)
ira_print_disposition (ira_dump_file);
}
+
+\f
+
+/* Entry function doing coloring. */
+void
+ira_color (void)
+{
+ ira_allocno_t a;
+ ira_allocno_iterator ai;
+
+ /* Setup updated costs. */
+ FOR_EACH_ALLOCNO (a, ai)
+ {
+ ALLOCNO_UPDATED_MEMORY_COST (a) = ALLOCNO_MEMORY_COST (a);
+ ALLOCNO_UPDATED_COVER_CLASS_COST (a) = ALLOCNO_COVER_CLASS_COST (a);
+ }
+ if (ira_conflicts_p)
+ color ();
+ else
+ fast_allocation ();
+}