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authorJan Hubicka <jh@suse.cz>2018-04-29 18:22:35 +0200
committerJan Hubicka <hubicka@gcc.gnu.org>2018-04-29 16:22:35 +0000
commitddb0b8247df6b9192a849508fab2aecc49d8312c (patch)
tree4ef395f7c7fcc0cdec6de1769e85c3c9e7f4f407 /gcc/lto
parent8d70b61edda10e97686da47decfc7f93ff0bc7c9 (diff)
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lto-partition.c: Include sreal.h
* lto-partition.c: Include sreal.h (add_symbol_to_partition_1): Use size instead of self_size for size estimate. (account_reference_p): New. (lto_balanced_map): Use 64bit arithmetics for size calculatoins; cleanup; fix accounting errors in boundary size; add debug output; combine cost as cost/size instead of cost/internal; reduce the partitioning error to +- 1/8 of the parttion size. From-SVN: r259749
Diffstat (limited to 'gcc/lto')
-rw-r--r--gcc/lto/ChangeLog11
-rw-r--r--gcc/lto/lto-partition.c129
2 files changed, 91 insertions, 49 deletions
diff --git a/gcc/lto/ChangeLog b/gcc/lto/ChangeLog
index 821a462..6d00e4e 100644
--- a/gcc/lto/ChangeLog
+++ b/gcc/lto/ChangeLog
@@ -1,3 +1,14 @@
+2018-04-19 Jan Hubicka <jh@suse.cz>
+
+ * lto-partition.c: Include sreal.h
+ (add_symbol_to_partition_1): Use size instead of self_size
+ for size estimate.
+ (account_reference_p): New.
+ (lto_balanced_map): Use 64bit arithmetics for size calculatoins; cleanup;
+ fix accounting errors in boundary size; add debug output; combine cost
+ as cost/size instead of cost/internal; reduce the partitioning error to
+ +- 1/8 of the parttion size.
+
2018-04-19 Martin Liska <mliska@suse.cz>
* lto-symtab.c (lto_symtab_resolve_symbols): Do not bail out
diff --git a/gcc/lto/lto-partition.c b/gcc/lto/lto-partition.c
index 60daafd..d83eba2 100644
--- a/gcc/lto/lto-partition.c
+++ b/gcc/lto/lto-partition.c
@@ -35,6 +35,7 @@ along with GCC; see the file COPYING3. If not see
#include "ipa-prop.h"
#include "ipa-fnsummary.h"
#include "lto-partition.h"
+#include "sreal.h"
vec<ltrans_partition> ltrans_partitions;
@@ -152,8 +153,8 @@ add_symbol_to_partition_1 (ltrans_partition part, symtab_node *node)
if (cgraph_node *cnode = dyn_cast <cgraph_node *> (node))
{
struct cgraph_edge *e;
- if (!node->alias)
- part->insns += ipa_fn_summaries->get (cnode)->self_size;
+ if (!node->alias && c == SYMBOL_PARTITION)
+ part->insns += ipa_fn_summaries->get (cnode)->size;
/* Add all inline clones and callees that are duplicated. */
for (e = cnode->callees; e; e = e->next_callee)
@@ -276,8 +277,9 @@ undo_partition (ltrans_partition partition, unsigned int n_nodes)
delete partition->initializers_visited;
partition->initializers_visited = NULL;
- if (!node->alias && (cnode = dyn_cast <cgraph_node *> (node)))
- partition->insns -= ipa_fn_summaries->get (cnode)->self_size;
+ if (!node->alias && (cnode = dyn_cast <cgraph_node *> (node))
+ && node->get_partitioning_class () == SYMBOL_PARTITION)
+ partition->insns -= ipa_fn_summaries->get (cnode)->size;
lto_symtab_encoder_delete_node (partition->encoder, node);
node->aux = (void *)((size_t)node->aux - 1);
}
@@ -408,6 +410,24 @@ add_sorted_nodes (vec<symtab_node *> &next_nodes, ltrans_partition partition)
add_symbol_to_partition (partition, node);
}
+/* Return true if we should account reference from N1 to N2 in cost
+ of partition boundary. */
+
+bool
+account_reference_p (symtab_node *n1, symtab_node *n2)
+{
+ if (cgraph_node *cnode = dyn_cast <cgraph_node *> (n1))
+ n1 = cnode;
+ /* Do not account recursion - the code below will handle it incorrectly
+ otherwise. Also do not account references to external symbols.
+ They will never become local. */
+ if (n1 == n2
+ || DECL_EXTERNAL (n2->decl)
+ || !n2->definition)
+ return false;
+ return true;
+}
+
/* Group cgraph nodes into equally-sized partitions.
@@ -457,14 +477,14 @@ lto_balanced_map (int n_lto_partitions, int max_partition_size)
auto_vec<varpool_node *> varpool_order;
int i;
struct cgraph_node *node;
- int original_total_size, total_size = 0, best_total_size = 0;
- int partition_size;
+ int64_t original_total_size, total_size = 0;
+ int64_t partition_size;
ltrans_partition partition;
int last_visited_node = 0;
varpool_node *vnode;
- int cost = 0, internal = 0;
- int best_n_nodes = 0, best_i = 0, best_cost =
- INT_MAX, best_internal = 0;
+ int64_t cost = 0, internal = 0;
+ int best_n_nodes = 0, best_i = 0;
+ int64_t best_cost = -1, best_internal = 0, best_size = 0;
int npartitions;
int current_order = -1;
int noreorder_pos = 0;
@@ -513,7 +533,8 @@ lto_balanced_map (int n_lto_partitions, int max_partition_size)
/* Compute partition size and create the first partition. */
if (PARAM_VALUE (MIN_PARTITION_SIZE) > max_partition_size)
- fatal_error (input_location, "min partition size cannot be greater than max partition size");
+ fatal_error (input_location, "min partition size cannot be greater "
+ "than max partition size");
partition_size = total_size / n_lto_partitions;
if (partition_size < PARAM_VALUE (MIN_PARTITION_SIZE))
@@ -521,7 +542,7 @@ lto_balanced_map (int n_lto_partitions, int max_partition_size)
npartitions = 1;
partition = new_partition ("");
if (symtab->dump_file)
- fprintf (symtab->dump_file, "Total unit size: %i, partition size: %i\n",
+ fprintf (symtab->dump_file, "Total unit size: %" PRId64 ", partition size: %" PRId64 "\n",
total_size, partition_size);
auto_vec<symtab_node *> next_nodes;
@@ -540,17 +561,11 @@ lto_balanced_map (int n_lto_partitions, int max_partition_size)
next_nodes.safe_push (varpool_order[varpool_pos++]);
while (noreorder_pos < (int)noreorder.length ()
&& noreorder[noreorder_pos]->order < current_order)
- {
- if (!noreorder[noreorder_pos]->alias)
- total_size -= ipa_fn_summaries->get (noreorder[noreorder_pos])->size;
- next_nodes.safe_push (noreorder[noreorder_pos++]);
- }
+ next_nodes.safe_push (noreorder[noreorder_pos++]);
add_sorted_nodes (next_nodes, partition);
if (!symbol_partitioned_p (order[i]))
add_symbol_to_partition (partition, order[i]);
- if (!order[i]->alias)
- total_size -= ipa_fn_summaries->get (order[i])->size;
/* Once we added a new node to the partition, we also want to add
@@ -567,7 +582,6 @@ lto_balanced_map (int n_lto_partitions, int max_partition_size)
it and thus we need to subtract it from COST. */
while (last_visited_node < lto_symtab_encoder_size (partition->encoder))
{
- symtab_node *refs_node;
int j;
struct ipa_ref *ref = NULL;
symtab_node *snode = lto_symtab_encoder_deref (partition->encoder,
@@ -577,7 +591,6 @@ lto_balanced_map (int n_lto_partitions, int max_partition_size)
{
struct cgraph_edge *edge;
- refs_node = node;
last_visited_node++;
@@ -585,7 +598,9 @@ lto_balanced_map (int n_lto_partitions, int max_partition_size)
/* Compute boundary cost of callgraph edges. */
for (edge = node->callees; edge; edge = edge->next_callee)
- if (edge->callee->definition)
+ /* Inline edges will always end up local. */
+ if (edge->inline_failed
+ && account_reference_p (node, edge->callee))
{
int edge_cost = edge->frequency ();
int index;
@@ -602,6 +617,8 @@ lto_balanced_map (int n_lto_partitions, int max_partition_size)
cost += edge_cost;
}
for (edge = node->callers; edge; edge = edge->next_caller)
+ if (edge->inline_failed
+ && account_reference_p (edge->caller, node))
{
int edge_cost = edge->frequency ();
int index;
@@ -614,27 +631,24 @@ lto_balanced_map (int n_lto_partitions, int max_partition_size)
edge->caller);
if (index != LCC_NOT_FOUND
&& index < last_visited_node - 1)
- cost -= edge_cost;
+ cost -= edge_cost, internal += edge_cost;
else
cost += edge_cost;
}
}
else
- {
- refs_node = snode;
- last_visited_node++;
- }
+ last_visited_node++;
/* Compute boundary cost of IPA REF edges and at the same time look into
variables referenced from current partition and try to add them. */
- for (j = 0; refs_node->iterate_reference (j, ref); j++)
- if (is_a <varpool_node *> (ref->referred))
+ for (j = 0; snode->iterate_reference (j, ref); j++)
+ if (!account_reference_p (snode, ref->referred))
+ ;
+ else if (is_a <varpool_node *> (ref->referred))
{
int index;
vnode = dyn_cast <varpool_node *> (ref->referred);
- if (!vnode->definition)
- continue;
if (!symbol_partitioned_p (vnode)
&& !vnode->no_reorder
&& vnode->get_partitioning_class () == SYMBOL_PARTITION)
@@ -652,8 +666,6 @@ lto_balanced_map (int n_lto_partitions, int max_partition_size)
int index;
node = dyn_cast <cgraph_node *> (ref->referred);
- if (!node->definition)
- continue;
index = lto_symtab_encoder_lookup (partition->encoder,
node);
if (index != LCC_NOT_FOUND
@@ -662,8 +674,10 @@ lto_balanced_map (int n_lto_partitions, int max_partition_size)
else
cost++;
}
- for (j = 0; refs_node->iterate_referring (j, ref); j++)
- if (is_a <varpool_node *> (ref->referring))
+ for (j = 0; snode->iterate_referring (j, ref); j++)
+ if (!account_reference_p (ref->referring, snode))
+ ;
+ else if (is_a <varpool_node *> (ref->referring))
{
int index;
@@ -682,7 +696,7 @@ lto_balanced_map (int n_lto_partitions, int max_partition_size)
vnode);
if (index != LCC_NOT_FOUND
&& index < last_visited_node - 1)
- cost--;
+ cost--, internal++;
else
cost++;
}
@@ -696,36 +710,41 @@ lto_balanced_map (int n_lto_partitions, int max_partition_size)
node);
if (index != LCC_NOT_FOUND
&& index < last_visited_node - 1)
- cost--;
+ cost--, internal++;
else
cost++;
}
}
- /* If the partition is large enough, start looking for smallest boundary cost. */
- if (partition->insns < partition_size * 3 / 4
- || best_cost == INT_MAX
- || ((!cost
- || (best_internal * (HOST_WIDE_INT) cost
- > (internal * (HOST_WIDE_INT)best_cost)))
- && partition->insns < partition_size * 5 / 4))
+ gcc_assert (cost >= 0 && internal >= 0);
+
+ /* If the partition is large enough, start looking for smallest boundary cost.
+ If partition still seems too small (less than 7/8 of target weight) accept
+ any cost. If partition has right size, optimize for highest internal/cost.
+ Later we stop building partition if its size is 9/8 of the target wight. */
+ if (partition->insns < partition_size * 7 / 8
+ || best_cost == -1
+ || (!cost
+ || ((sreal)best_internal * (sreal) cost
+ < ((sreal) internal * (sreal)best_cost))))
{
best_cost = cost;
best_internal = internal;
+ best_size = partition->insns;
best_i = i;
best_n_nodes = lto_symtab_encoder_size (partition->encoder);
- best_total_size = total_size;
best_varpool_pos = varpool_pos;
}
if (symtab->dump_file)
- fprintf (symtab->dump_file, "Step %i: added %s/%i, size %i, cost %i/%i "
- "best %i/%i, step %i\n", i,
+ fprintf (symtab->dump_file, "Step %i: added %s/%i, size %i, "
+ "cost %" PRId64 "/%" PRId64 " "
+ "best %" PRId64 "/%" PRId64", step %i\n", i,
order[i]->name (), order[i]->order,
partition->insns, cost, internal,
best_cost, best_internal, best_i);
/* Partition is too large, unwind into step when best cost was reached and
start new partition. */
- if (partition->insns > 2 * partition_size
+ if (partition->insns > 9 * partition_size / 8
|| partition->insns > max_partition_size)
{
if (best_i != i)
@@ -736,21 +755,26 @@ lto_balanced_map (int n_lto_partitions, int max_partition_size)
undo_partition (partition, best_n_nodes);
varpool_pos = best_varpool_pos;
}
+ gcc_assert (best_size == partition->insns);
i = best_i;
+ if (symtab->dump_file)
+ fprintf (symtab->dump_file,
+ "Partition insns: %i (want %" PRId64 ")\n",
+ partition->insns, partition_size);
/* When we are finished, avoid creating empty partition. */
while (i < n_nodes - 1 && symbol_partitioned_p (order[i + 1]))
i++;
if (i == n_nodes - 1)
break;
+ total_size -= partition->insns;
partition = new_partition ("");
last_visited_node = 0;
- total_size = best_total_size;
cost = 0;
if (symtab->dump_file)
fprintf (symtab->dump_file, "New partition\n");
best_n_nodes = 0;
- best_cost = INT_MAX;
+ best_cost = -1;
/* Since the size of partitions is just approximate, update the size after
we finished current one. */
@@ -760,6 +784,10 @@ lto_balanced_map (int n_lto_partitions, int max_partition_size)
/* Watch for overflow. */
partition_size = INT_MAX / 16;
+ if (symtab->dump_file)
+ fprintf (symtab->dump_file,
+ "Total size: %" PRId64 " partition_size: %" PRId64 "\n",
+ total_size, partition_size);
if (partition_size < PARAM_VALUE (MIN_PARTITION_SIZE))
partition_size = PARAM_VALUE (MIN_PARTITION_SIZE);
npartitions ++;
@@ -779,6 +807,9 @@ lto_balanced_map (int n_lto_partitions, int max_partition_size)
next_nodes.safe_push (varpool_order[varpool_pos++]);
while (noreorder_pos < (int)noreorder.length ())
next_nodes.safe_push (noreorder[noreorder_pos++]);
+ /* For one partition the cost of boundary should be 0 unless we added final
+ symbols here (these are not accounted) or we have accounting bug. */
+ gcc_assert (next_nodes.length () || npartitions != 1 || !best_cost);
add_sorted_nodes (next_nodes, partition);
free (order);