#include "diagnostic-core.h"
#include "bitmap.h"
#include "vec.h"
+#include "tree-streamer.h"
#include "lto-streamer.h"
+#include "streamer-hooks.h"
/* Statistics gathered during LTO, WPA and LTRANS. */
struct lto_stats_d lto_stats;
/* Get a section name for a particular type or name. The NAME field
- is only used if SECTION_TYPE is LTO_section_function_body or
- LTO_static_initializer. For all others it is ignored. The callee
- of this function is responcible to free the returned name. */
+ is only used if SECTION_TYPE is LTO_section_function_body. For all
+ others it is ignored. The callee of this function is responsible
+ to free the returned name. */
char *
-lto_get_section_name (int section_type, const char *name)
+lto_get_section_name (int section_type, const char *name, struct lto_file_decl_data *f)
{
- switch (section_type)
+ const char *add;
+ char post[32];
+ const char *sep;
+
+ if (section_type == LTO_section_function_body)
{
- case LTO_section_function_body:
gcc_assert (name != NULL);
if (name[0] == '*')
name++;
- return concat (LTO_SECTION_NAME_PREFIX, name, NULL);
-
- case LTO_section_static_initializer:
- return concat (LTO_SECTION_NAME_PREFIX, ".statics", NULL);
-
- case LTO_section_symtab:
- return concat (LTO_SECTION_NAME_PREFIX, ".symtab", NULL);
-
- case LTO_section_decls:
- return concat (LTO_SECTION_NAME_PREFIX, ".decls", NULL);
-
- case LTO_section_cgraph:
- return concat (LTO_SECTION_NAME_PREFIX, ".cgraph", NULL);
-
- case LTO_section_varpool:
- return concat (LTO_SECTION_NAME_PREFIX, ".vars", NULL);
-
- case LTO_section_refs:
- return concat (LTO_SECTION_NAME_PREFIX, ".refs", NULL);
-
- case LTO_section_jump_functions:
- return concat (LTO_SECTION_NAME_PREFIX, ".jmpfuncs", NULL);
-
- case LTO_section_ipa_pure_const:
- return concat (LTO_SECTION_NAME_PREFIX, ".pureconst", NULL);
-
- case LTO_section_ipa_reference:
- return concat (LTO_SECTION_NAME_PREFIX, ".reference", NULL);
-
- case LTO_section_opts:
- return concat (LTO_SECTION_NAME_PREFIX, ".opts", NULL);
+ add = name;
+ sep = "";
+ }
+ else if (section_type < LTO_N_SECTION_TYPES)
+ {
+ add = lto_section_name[section_type];
+ sep = ".";
+ }
+ else
+ internal_error ("bytecode stream: unexpected LTO section %s", name);
- case LTO_section_cgraph_opt_sum:
- return concat (LTO_SECTION_NAME_PREFIX, ".cgraphopt", NULL);
+ /* Make the section name unique so that ld -r combining sections
+ doesn't confuse the reader with merged sections.
- default:
- internal_error ("bytecode stream: unexpected LTO section %s", name);
- }
+ For options don't add a ID, the option reader cannot deal with them
+ and merging should be ok here. */
+ if (section_type == LTO_section_opts)
+ strcpy (post, "");
+ else if (f != NULL)
+ sprintf (post, "." HOST_WIDE_INT_PRINT_HEX_PURE, f->id);
+ else
+ sprintf (post, "." HOST_WIDE_INT_PRINT_HEX_PURE, get_random_seed (false));
+ return concat (LTO_SECTION_NAME_PREFIX, sep, add, post, NULL);
}
}
-/* Check that all the TS_* structures handled by the lto_output_* and
- lto_input_* routines are exactly ALL the structures defined in
- treestruct.def. */
-
-static void
-check_handled_ts_structures (void)
-{
- bool handled_p[LAST_TS_ENUM];
- unsigned i;
-
- memset (&handled_p, 0, sizeof (handled_p));
-
- /* These are the TS_* structures that are either handled or
- explicitly ignored by the streamer routines. */
- handled_p[TS_BASE] = true;
- handled_p[TS_COMMON] = true;
- handled_p[TS_INT_CST] = true;
- handled_p[TS_REAL_CST] = true;
- handled_p[TS_FIXED_CST] = true;
- handled_p[TS_VECTOR] = true;
- handled_p[TS_STRING] = true;
- handled_p[TS_COMPLEX] = true;
- handled_p[TS_IDENTIFIER] = true;
- handled_p[TS_DECL_MINIMAL] = true;
- handled_p[TS_DECL_COMMON] = true;
- handled_p[TS_DECL_WRTL] = true;
- handled_p[TS_DECL_NON_COMMON] = true;
- handled_p[TS_DECL_WITH_VIS] = true;
- handled_p[TS_FIELD_DECL] = true;
- handled_p[TS_VAR_DECL] = true;
- handled_p[TS_PARM_DECL] = true;
- handled_p[TS_LABEL_DECL] = true;
- handled_p[TS_RESULT_DECL] = true;
- handled_p[TS_CONST_DECL] = true;
- handled_p[TS_TYPE_DECL] = true;
- handled_p[TS_FUNCTION_DECL] = true;
- handled_p[TS_TYPE] = true;
- handled_p[TS_LIST] = true;
- handled_p[TS_VEC] = true;
- handled_p[TS_EXP] = true;
- handled_p[TS_SSA_NAME] = true;
- handled_p[TS_BLOCK] = true;
- handled_p[TS_BINFO] = true;
- handled_p[TS_STATEMENT_LIST] = true;
- handled_p[TS_CONSTRUCTOR] = true;
- handled_p[TS_OMP_CLAUSE] = true;
- handled_p[TS_OPTIMIZATION] = true;
- handled_p[TS_TARGET_OPTION] = true;
-
- /* Anything not marked above will trigger the following assertion.
- If this assertion triggers, it means that there is a new TS_*
- structure that should be handled by the streamer. */
- for (i = 0; i < LAST_TS_ENUM; i++)
- gcc_assert (handled_p[i]);
-}
-
-
-/* Helper for lto_streamer_cache_insert_1. Add T to CACHE->NODES at
- slot IX. Add OFFSET to CACHE->OFFSETS at slot IX. */
-
-static void
-lto_streamer_cache_add_to_node_array (struct lto_streamer_cache_d *cache,
- int ix, tree t, unsigned offset)
-{
- gcc_assert (ix >= 0);
-
- /* Grow the array of nodes and offsets to accomodate T at IX. */
- if (ix >= (int) VEC_length (tree, cache->nodes))
- {
- size_t sz = ix + (20 + ix) / 4;
- VEC_safe_grow_cleared (tree, heap, cache->nodes, sz);
- VEC_safe_grow_cleared (unsigned, heap, cache->offsets, sz);
- }
-
- VEC_replace (tree, cache->nodes, ix, t);
- VEC_replace (unsigned, cache->offsets, ix, offset);
-}
-
-
-/* Helper for lto_streamer_cache_insert and lto_streamer_cache_insert_at.
- CACHE, T, IX_P and OFFSET_P are as in lto_streamer_cache_insert.
-
- If INSERT_AT_NEXT_SLOT_P is true, T is inserted at the next available
- slot in the cache. Otherwise, T is inserted at the position indicated
- in *IX_P.
-
- If T already existed in CACHE, return true. Otherwise,
- return false. */
-
-static bool
-lto_streamer_cache_insert_1 (struct lto_streamer_cache_d *cache,
- tree t, int *ix_p, unsigned *offset_p,
- bool insert_at_next_slot_p)
-{
- void **slot;
- struct tree_int_map d_entry, *entry;
- int ix;
- unsigned offset;
- bool existed_p;
-
- gcc_assert (t);
-
- d_entry.base.from = t;
- slot = htab_find_slot (cache->node_map, &d_entry, INSERT);
- if (*slot == NULL)
- {
- /* Determine the next slot to use in the cache. */
- if (insert_at_next_slot_p)
- ix = cache->next_slot++;
- else
- ix = *ix_p;
-
- entry = (struct tree_int_map *)pool_alloc (cache->node_map_entries);
- entry->base.from = t;
- entry->to = (unsigned) ix;
- *slot = entry;
-
- /* If no offset was given, store the invalid offset -1. */
- offset = (offset_p) ? *offset_p : (unsigned) -1;
-
- lto_streamer_cache_add_to_node_array (cache, ix, t, offset);
-
- /* Indicate that the item was not present in the cache. */
- existed_p = false;
- }
- else
- {
- entry = (struct tree_int_map *) *slot;
- ix = (int) entry->to;
- offset = VEC_index (unsigned, cache->offsets, ix);
-
- if (!insert_at_next_slot_p && ix != *ix_p)
- {
- /* If the caller wants to insert T at a specific slot
- location, and ENTRY->TO does not match *IX_P, add T to
- the requested location slot. This situation arises when
- streaming builtin functions.
-
- For instance, on the writer side we could have two
- FUNCTION_DECLS T1 and T2 that are represented by the same
- builtin function. The reader will only instantiate the
- canonical builtin, but since T1 and T2 had been
- originally stored in different cache slots (S1 and S2),
- the reader must be able to find the canonical builtin
- function at slots S1 and S2. */
- gcc_assert (lto_stream_as_builtin_p (t));
- ix = *ix_p;
-
- /* Since we are storing a builtin, the offset into the
- stream is not necessary as we will not need to read
- forward in the stream. */
- lto_streamer_cache_add_to_node_array (cache, ix, t, -1);
- }
-
- /* Indicate that T was already in the cache. */
- existed_p = true;
- }
-
- if (ix_p)
- *ix_p = ix;
-
- if (offset_p)
- *offset_p = offset;
-
- return existed_p;
-}
-
-
-/* Insert tree node T in CACHE. If T already existed in the cache
- return true. Otherwise, return false.
-
- If IX_P is non-null, update it with the index into the cache where
- T has been stored.
-
- *OFFSET_P represents the offset in the stream where T is physically
- written out. The first time T is added to the cache, *OFFSET_P is
- recorded in the cache together with T. But if T already existed
- in the cache, *OFFSET_P is updated with the value that was recorded
- the first time T was added to the cache.
-
- If OFFSET_P is NULL, it is ignored. */
-
-bool
-lto_streamer_cache_insert (struct lto_streamer_cache_d *cache, tree t,
- int *ix_p, unsigned *offset_p)
-{
- return lto_streamer_cache_insert_1 (cache, t, ix_p, offset_p, true);
-}
-
-
-/* Insert tree node T in CACHE at slot IX. If T already
- existed in the cache return true. Otherwise, return false. */
-
-bool
-lto_streamer_cache_insert_at (struct lto_streamer_cache_d *cache,
- tree t, int ix)
-{
- return lto_streamer_cache_insert_1 (cache, t, &ix, NULL, false);
-}
-
-
-/* Return true if tree node T exists in CACHE. If IX_P is
- not NULL, write to *IX_P the index into the cache where T is stored
- (-1 if T is not found). */
-
-bool
-lto_streamer_cache_lookup (struct lto_streamer_cache_d *cache, tree t,
- int *ix_p)
-{
- void **slot;
- struct tree_int_map d_slot;
- bool retval;
- int ix;
-
- gcc_assert (t);
-
- d_slot.base.from = t;
- slot = htab_find_slot (cache->node_map, &d_slot, NO_INSERT);
- if (slot == NULL)
- {
- retval = false;
- ix = -1;
- }
- else
- {
- retval = true;
- ix = (int) ((struct tree_int_map *) *slot)->to;
- }
-
- if (ix_p)
- *ix_p = ix;
-
- return retval;
-}
-
-
-/* Return the tree node at slot IX in CACHE. */
-
-tree
-lto_streamer_cache_get (struct lto_streamer_cache_d *cache, int ix)
-{
- gcc_assert (cache);
-
- /* If the reader is requesting an index beyond the length of the
- cache, it will need to read ahead. Return NULL_TREE to indicate
- that. */
- if ((unsigned) ix >= VEC_length (tree, cache->nodes))
- return NULL_TREE;
-
- return VEC_index (tree, cache->nodes, (unsigned) ix);
-}
-
-
-/* Record NODE in COMMON_NODES if it is not NULL and is not already in
- SEEN_NODES. */
-
-static void
-lto_record_common_node (tree *nodep, VEC(tree, heap) **common_nodes,
- struct pointer_set_t *seen_nodes)
-{
- tree node = *nodep;
-
- if (node == NULL_TREE)
- return;
-
- if (TYPE_P (node))
- {
- /* Type merging will get confused by the canonical types as they
- are set by the middle-end. */
- TYPE_CANONICAL (node) = NULL_TREE;
- *nodep = node = gimple_register_type (node);
- }
-
- /* Return if node is already seen. */
- if (pointer_set_insert (seen_nodes, node))
- return;
-
- VEC_safe_push (tree, heap, *common_nodes, node);
-
- if (tree_node_can_be_shared (node))
- {
- if (POINTER_TYPE_P (node)
- || TREE_CODE (node) == COMPLEX_TYPE
- || TREE_CODE (node) == ARRAY_TYPE)
- lto_record_common_node (&TREE_TYPE (node), common_nodes, seen_nodes);
- }
-}
-
-
-/* Generate a vector of common nodes and make sure they are merged
- properly according to the the gimple type table. */
-
-static VEC(tree,heap) *
-lto_get_common_nodes (void)
-{
- unsigned i;
- VEC(tree,heap) *common_nodes = NULL;
- struct pointer_set_t *seen_nodes;
-
- /* The MAIN_IDENTIFIER_NODE is normally set up by the front-end, but the
- LTO back-end must agree. Currently, the only languages that set this
- use the name "main". */
- if (main_identifier_node)
- {
- const char *main_name = IDENTIFIER_POINTER (main_identifier_node);
- gcc_assert (strcmp (main_name, "main") == 0);
- }
- else
- main_identifier_node = get_identifier ("main");
-
- gcc_assert (ptrdiff_type_node == integer_type_node);
-
- /* FIXME lto. In the C++ front-end, fileptr_type_node is defined as a
- variant copy of of ptr_type_node, rather than ptr_node itself. The
- distinction should only be relevant to the front-end, so we always
- use the C definition here in lto1.
-
- These should be assured in pass_ipa_free_lang_data. */
- gcc_assert (fileptr_type_node == ptr_type_node);
- gcc_assert (TYPE_MAIN_VARIANT (fileptr_type_node) == ptr_type_node);
-
- seen_nodes = pointer_set_create ();
-
- /* Skip itk_char. char_type_node is shared with the appropriately
- signed variant. */
- for (i = itk_signed_char; i < itk_none; i++)
- lto_record_common_node (&integer_types[i], &common_nodes, seen_nodes);
-
- for (i = 0; i < TYPE_KIND_LAST; i++)
- lto_record_common_node (&sizetype_tab[i], &common_nodes, seen_nodes);
-
- for (i = 0; i < TI_MAX; i++)
- lto_record_common_node (&global_trees[i], &common_nodes, seen_nodes);
-
- pointer_set_destroy (seen_nodes);
-
- return common_nodes;
-}
-
-
-/* Assign an index to tree node T and enter it in the streamer cache
- CACHE. */
-
-static void
-preload_common_node (struct lto_streamer_cache_d *cache, tree t)
-{
- gcc_assert (t);
-
- lto_streamer_cache_insert (cache, t, NULL, NULL);
-
- /* The FIELD_DECLs of structures should be shared, so that every
- COMPONENT_REF uses the same tree node when referencing a field.
- Pointer equality between FIELD_DECLs is used by the alias
- machinery to compute overlapping memory references (See
- nonoverlapping_component_refs_p). */
- if (TREE_CODE (t) == RECORD_TYPE)
- {
- tree f;
-
- for (f = TYPE_FIELDS (t); f; f = TREE_CHAIN (f))
- preload_common_node (cache, f);
- }
-}
-
-
-/* Create a cache of pickled nodes. */
-
-struct lto_streamer_cache_d *
-lto_streamer_cache_create (void)
-{
- struct lto_streamer_cache_d *cache;
- VEC(tree, heap) *common_nodes;
- unsigned i;
- tree node;
-
- cache = XCNEW (struct lto_streamer_cache_d);
-
- cache->node_map = htab_create (101, tree_int_map_hash, tree_int_map_eq, NULL);
-
- cache->node_map_entries = create_alloc_pool ("node map",
- sizeof (struct tree_int_map),
- 100);
-
- /* Load all the well-known tree nodes that are always created by
- the compiler on startup. This prevents writing them out
- unnecessarily. */
- common_nodes = lto_get_common_nodes ();
-
- for (i = 0; VEC_iterate (tree, common_nodes, i, node); i++)
- preload_common_node (cache, node);
-
- VEC_free(tree, heap, common_nodes);
-
- return cache;
-}
-
-
-/* Delete the streamer cache C. */
-
-void
-lto_streamer_cache_delete (struct lto_streamer_cache_d *c)
-{
- if (c == NULL)
- return;
-
- htab_delete (c->node_map);
- free_alloc_pool (c->node_map_entries);
- VEC_free (tree, heap, c->nodes);
- VEC_free (unsigned, heap, c->offsets);
- free (c);
-}
-
-
#ifdef LTO_STREAMER_DEBUG
static htab_t tree_htab;
match exactly the structures defined in treestruct.def. When a
new TS_* astructure is added, the streamer should be updated to
handle it. */
- check_handled_ts_structures ();
+ streamer_check_handled_ts_structures ();
#ifdef LTO_STREAMER_DEBUG
tree_htab = htab_create (31, hash_tree, eq_tree, NULL);
major, minor,
LTO_major_version, LTO_minor_version);
}
+
+
+/* Initialize all the streamer hooks used for streaming GIMPLE. */
+
+void
+lto_streamer_hooks_init (void)
+{
+ streamer_hooks_init ();
+ streamer_hooks.write_tree = lto_output_tree;
+ streamer_hooks.read_tree = lto_input_tree;
+}