@@ -231,7 +231,7 @@ cooked_index_entry::write_scope (struct obstack *storage,
cooked_index_entry *
cooked_index_shard::add (sect_offset die_offset, enum dwarf_tag tag,
cooked_index_flag flags, const char *name,
- const cooked_index_entry *parent_entry,
+ cooked_index_entry_ref parent_entry,
dwarf2_per_cu_data *per_cu)
{
cooked_index_entry *result = create (die_offset, tag, flags, name,
@@ -585,7 +585,10 @@ cooked_index::dump (gdbarch *arch) const
gdb_printf (" flags: %s\n", to_string (entry->flags).c_str ());
gdb_printf (" DIE offset: %s\n", sect_offset_str (entry->die_offset));
- if (entry->get_parent () != nullptr)
+ if ((entry->flags & IS_PARENT_DEFERRED) != 0)
+ gdb_printf (" parent: deferred (%" PRIx64 ")\n",
+ entry->get_deferred_parent ());
+ else if (entry->get_parent () != nullptr)
gdb_printf (" parent: ((cooked_index_entry *) %p) [%s]\n",
entry->get_parent (), entry->get_parent ()->name);
else
@@ -38,6 +38,7 @@
struct dwarf2_per_cu_data;
struct dwarf2_per_bfd;
struct index_cache_store_context;
+struct cooked_index_entry;
/* Flags that describe an entry in the index. */
enum cooked_index_flag_enum : unsigned char
@@ -53,9 +54,30 @@ enum cooked_index_flag_enum : unsigned char
/* True if this entry is just for the declaration of a type, not the
definition. */
IS_TYPE_DECLARATION = 16,
+ /* True is parent_entry.deferred has a value rather than parent_entry
+ .resolved. */
+ IS_PARENT_DEFERRED = 32,
};
DEF_ENUM_FLAGS_TYPE (enum cooked_index_flag_enum, cooked_index_flag);
+/* Type representing either a resolved or deferred cooked_index_entry. */
+
+union cooked_index_entry_ref
+{
+ cooked_index_entry_ref (CORE_ADDR deferred_)
+ {
+ deferred = deferred_;
+ }
+
+ cooked_index_entry_ref (const cooked_index_entry *resolved_)
+ {
+ resolved = resolved_;
+ }
+
+ const cooked_index_entry *resolved;
+ CORE_ADDR deferred;
+};
+
/* Return a string representation of FLAGS. */
std::string to_string (cooked_index_flag flags);
@@ -78,7 +100,7 @@ struct cooked_index_entry : public allocate_on_obstack
{
cooked_index_entry (sect_offset die_offset_, enum dwarf_tag tag_,
cooked_index_flag flags_, const char *name_,
- const cooked_index_entry *parent_entry_,
+ cooked_index_entry_ref parent_entry_,
dwarf2_per_cu_data *per_cu_)
: name (name_),
tag (tag_),
@@ -213,13 +235,30 @@ struct cooked_index_entry : public allocate_on_obstack
/* Set parent entry to PARENT. */
void set_parent (const cooked_index_entry *parent)
{
- m_parent_entry = parent;
+ gdb_assert ((flags & IS_PARENT_DEFERRED) == 0);
+ m_parent_entry.resolved = parent;
+ }
+
+ /* Resolve deferred parent entry to PARENT. */
+ void resolve_parent (const cooked_index_entry *parent)
+ {
+ gdb_assert ((flags & IS_PARENT_DEFERRED) != 0);
+ flags = flags & ~IS_PARENT_DEFERRED;
+ m_parent_entry.resolved = parent;
}
/* Return parent entry. */
const cooked_index_entry *get_parent () const
{
- return m_parent_entry;
+ gdb_assert ((flags & IS_PARENT_DEFERRED) == 0);
+ return m_parent_entry.resolved;
+ }
+
+ /* Return deferred parent entry. */
+ CORE_ADDR get_deferred_parent () const
+ {
+ gdb_assert ((flags & IS_PARENT_DEFERRED) != 0);
+ return m_parent_entry.deferred;
}
/* The name as it appears in DWARF. This always points into one of
@@ -250,7 +289,7 @@ struct cooked_index_entry : public allocate_on_obstack
/* The parent entry. This is NULL for top-level entries.
Otherwise, it points to the parent entry, such as a namespace or
class. */
- const cooked_index_entry *m_parent_entry;
+ cooked_index_entry_ref m_parent_entry;
};
class cooked_index;
@@ -273,7 +312,7 @@ class cooked_index_shard
cooked_index_entry *add (sect_offset die_offset, enum dwarf_tag tag,
cooked_index_flag flags,
const char *name,
- const cooked_index_entry *parent_entry,
+ cooked_index_entry_ref parent_entry,
dwarf2_per_cu_data *per_cu);
/* Install a new fixed addrmap from the given mutable addrmap. */
@@ -332,7 +371,7 @@ class cooked_index_shard
enum dwarf_tag tag,
cooked_index_flag flags,
const char *name,
- const cooked_index_entry *parent_entry,
+ cooked_index_entry_ref parent_entry,
dwarf2_per_cu_data *per_cu)
{
return new (&m_storage) cooked_index_entry (die_offset, tag, flags,
@@ -4471,7 +4471,7 @@ class cooked_index_storage
cooked_index_entry *add (sect_offset die_offset, enum dwarf_tag tag,
cooked_index_flag flags,
const char *name,
- const cooked_index_entry *parent_entry,
+ cooked_index_entry_ref parent_entry,
dwarf2_per_cu_data *per_cu)
{
return m_index->add (die_offset, tag, flags, name, parent_entry, per_cu);
@@ -4620,16 +4620,6 @@ class cooked_indexer
understand this. */
addrmap_mutable m_die_range_map;
- /* A single deferred entry. */
- struct deferred_entry
- {
- sect_offset die_offset;
- const char *name;
- CORE_ADDR spec_offset;
- dwarf_tag tag;
- cooked_index_flag flags;
- };
-
/* The generated DWARF can sometimes have the declaration for a
method in a class (or perhaps namespace) scope, with the
definition appearing outside this scope... just one of the many
@@ -4637,7 +4627,7 @@ class cooked_indexer
defer certain entries until the end of scanning, at which point
we'll know the containing context of all the DIEs that we might
have scanned. This vector stores these deferred entries. */
- std::vector<deferred_entry> m_deferred_entries;
+ std::vector<cooked_index_entry *> m_deferred_entries;
};
/* Subroutine of dwarf2_build_psymtabs_hard to simplify it.
@@ -16438,17 +16428,21 @@ cooked_indexer::index_dies (cutu_reader *reader,
name = nullptr;
}
- const cooked_index_entry *this_entry = nullptr;
+ cooked_index_entry *this_entry = nullptr;
if (name != nullptr)
{
if (defer != 0)
- m_deferred_entries.push_back ({
- this_die, name, defer, abbrev->tag, flags
- });
+ {
+ this_entry
+ = m_index_storage->add (this_die, abbrev->tag,
+ flags | IS_PARENT_DEFERRED, name,
+ defer, m_per_cu);
+ m_deferred_entries.push_back (this_entry);
+ }
else
- this_entry = m_index_storage->add (this_die, abbrev->tag, flags,
- name, this_parent_entry,
- m_per_cu);
+ this_entry
+ = m_index_storage->add (this_die, abbrev->tag, flags, name,
+ this_parent_entry, m_per_cu);
}
if (linkage_name != nullptr)
@@ -16549,10 +16543,9 @@ cooked_indexer::make_index (cutu_reader *reader)
for (const auto &entry : m_deferred_entries)
{
- void *obj = m_die_range_map.find (entry.spec_offset);
+ void *obj = m_die_range_map.find (entry->get_deferred_parent ());
cooked_index_entry *parent = static_cast<cooked_index_entry *> (obj);
- m_index_storage->add (entry.die_offset, entry.tag, entry.flags,
- entry.name, parent, m_per_cu);
+ entry->resolve_parent (parent);
}
}