void
solaris_elf_asm_comdat_section (const char *name, unsigned int flags, tree decl)
{
const char *signature;
char *section;
comdat_entry entry, **slot;
if (TREE_CODE (decl) == IDENTIFIER_NODE)
signature = IDENTIFIER_POINTER (decl);
else
signature = IDENTIFIER_POINTER (DECL_COMDAT_GROUP (decl));
/* Sun as requires group sections to be fragmented, i.e. to have names of
the form <section>%<fragment>. Strictly speaking this is only
necessary to support cc -xF, but is enforced globally in violation of
the ELF gABI. We keep the section names generated by GCC (generally
of the form .text.<signature>) and append %<signature> to pacify as,
despite the redundancy. */
section = concat (name, "%", signature, NULL);
/* Clear SECTION_LINKONCE flag so targetm.asm_out.named_section only
emits this as a regular section. Emit section before .group
directive since Sun as treats undeclared sections as @progbits,
which conflicts with .bss* sections which are @nobits. */
targetm.asm_out.named_section (section, flags & ~SECTION_LINKONCE, decl);
/* Sun as separates declaration of a group section and of the group
itself, using the .group directive and the #comdat flag. */
fprintf (asm_out_file, "\t.group\t%s," SECTION_NAME_FORMAT ",#comdat\n",
signature, section);
/* Unlike GNU as, group signature symbols need to be defined explicitly
for Sun as. With a few exceptions, this is already the case. To
identify the missing ones without changing the affected frontents,
remember the signature symbols and emit those not marked
TREE_SYMBOL_REFERENCED in solaris_file_end. */
if (!solaris_comdat_htab.is_created ())
solaris_comdat_htab.create (37);
entry.sig = signature;
slot = solaris_comdat_htab.find_slot (&entry, INSERT);
if (*slot == NULL)
{
*slot = XCNEW (comdat_entry);
/* Remember fragmented section name. */
(*slot)->name = section;
/* Emit as regular section, .group declaration has already been done. */
(*slot)->flags = flags & ~SECTION_LINKONCE;
(*slot)->decl = decl;
(*slot)->sig = signature;
}
}
void
lto_streamer_init (void)
{
/* Check that all the TS_* handled by the reader and writer routines
match exactly the structures defined in treestruct.def. When a
new TS_* astructure is added, the streamer should be updated to
handle it. */
streamer_check_handled_ts_structures ();
#ifdef LTO_STREAMER_DEBUG
tree_htab.create (31);
#endif
}
/* For given name, return descriptor, create new if needed. */
static struct alloc_pool_descriptor *
allocate_pool_descriptor (const char *name)
{
struct alloc_pool_descriptor **slot;
if (!alloc_pool_hash.is_created ())
alloc_pool_hash.create (10);
slot = alloc_pool_hash.find_slot_with_hash (name,
htab_hash_pointer (name), INSERT);
if (*slot)
return *slot;
*slot = XCNEW (struct alloc_pool_descriptor);
(*slot)->name = name;
return *slot;
}
void
browse_tree (tree begin)
{
tree head;
TB_CODE tbc = TB_UNUSED_COMMAND;
ssize_t rd;
char *input = NULL;
long input_size = 0;
fprintf (TB_OUT_FILE, "\nTree Browser\n");
#define TB_SET_HEAD(N) do { \
vec_safe_push (TB_history_stack, N); \
head = N; \
if (TB_verbose) \
if (head) \
{ \
print_generic_expr (TB_OUT_FILE, head, 0); \
fprintf (TB_OUT_FILE, "\n"); \
} \
} while (0)
TB_SET_HEAD (begin);
/* Store in a hashtable information about previous and upper statements. */
{
TB_up_ht.create (1023);
TB_update_up (head);
}
while (24)
{
fprintf (TB_OUT_FILE, "TB> ");
rd = TB_getline (&input, &input_size, TB_IN_FILE);
if (rd == -1)
/* EOF. */
goto ret;
if (rd != 1)
/* Get a new command. Otherwise the user just pressed enter, and thus
she expects the last command to be reexecuted. */
tbc = TB_get_command (input);
switch (tbc)
{
case TB_UPDATE_UP:
TB_update_up (head);
break;
case TB_MAX:
if (head && (INTEGRAL_TYPE_P (head)
|| TREE_CODE (head) == REAL_TYPE
|| TREE_CODE (head) == FIXED_POINT_TYPE))
TB_SET_HEAD (TYPE_MAX_VALUE (head));
else
TB_WF;
break;
case TB_MIN:
if (head && (INTEGRAL_TYPE_P (head)
|| TREE_CODE (head) == REAL_TYPE
|| TREE_CODE (head) == FIXED_POINT_TYPE))
TB_SET_HEAD (TYPE_MIN_VALUE (head));
else
TB_WF;
break;
case TB_ELT:
if (head && TREE_CODE (head) == TREE_VEC)
{
/* This command takes another argument: the element number:
for example "elt 1". */
TB_NIY;
}
else if (head && TREE_CODE (head) == VECTOR_CST)
{
/* This command takes another argument: the element number:
for example "elt 1". */
TB_NIY;
}
else
TB_WF;
break;
case TB_VALUE:
if (head && TREE_CODE (head) == TREE_LIST)
TB_SET_HEAD (TREE_VALUE (head));
else
TB_WF;
break;
case TB_PURPOSE:
if (head && TREE_CODE (head) == TREE_LIST)
TB_SET_HEAD (TREE_PURPOSE (head));
else
TB_WF;
break;
case TB_IMAG:
if (head && TREE_CODE (head) == COMPLEX_CST)
TB_SET_HEAD (TREE_IMAGPART (head));
else
TB_WF;
break;
case TB_REAL:
if (head && TREE_CODE (head) == COMPLEX_CST)
TB_SET_HEAD (TREE_REALPART (head));
else
TB_WF;
break;
case TB_BLOCK:
if (head && TREE_CODE (head) == BIND_EXPR)
TB_SET_HEAD (TREE_OPERAND (head, 2));
else
TB_WF;
break;
case TB_SUBBLOCKS:
if (head && TREE_CODE (head) == BLOCK)
TB_SET_HEAD (BLOCK_SUBBLOCKS (head));
else
TB_WF;
break;
case TB_SUPERCONTEXT:
if (head && TREE_CODE (head) == BLOCK)
TB_SET_HEAD (BLOCK_SUPERCONTEXT (head));
else
TB_WF;
break;
case TB_VARS:
if (head && TREE_CODE (head) == BLOCK)
TB_SET_HEAD (BLOCK_VARS (head));
else if (head && TREE_CODE (head) == BIND_EXPR)
TB_SET_HEAD (TREE_OPERAND (head, 0));
else
TB_WF;
break;
case TB_REFERENCE_TO_THIS:
if (head && TYPE_P (head))
TB_SET_HEAD (TYPE_REFERENCE_TO (head));
else
TB_WF;
break;
case TB_POINTER_TO_THIS:
if (head && TYPE_P (head))
TB_SET_HEAD (TYPE_POINTER_TO (head));
else
TB_WF;
break;
case TB_BASETYPE:
if (head && TREE_CODE (head) == OFFSET_TYPE)
TB_SET_HEAD (TYPE_OFFSET_BASETYPE (head));
else
TB_WF;
break;
case TB_ARG_TYPES:
if (head && (TREE_CODE (head) == FUNCTION_TYPE
|| TREE_CODE (head) == METHOD_TYPE))
TB_SET_HEAD (TYPE_ARG_TYPES (head));
else
TB_WF;
break;
case TB_METHOD_BASE_TYPE:
if (head && (TREE_CODE (head) == FUNCTION_TYPE
|| TREE_CODE (head) == METHOD_TYPE)
&& TYPE_METHOD_BASETYPE (head))
TB_SET_HEAD (TYPE_METHOD_BASETYPE (head));
else
TB_WF;
break;
case TB_FIELDS:
if (head && (TREE_CODE (head) == RECORD_TYPE
|| TREE_CODE (head) == UNION_TYPE
|| TREE_CODE (head) == QUAL_UNION_TYPE))
TB_SET_HEAD (TYPE_FIELDS (head));
else
TB_WF;
break;
case TB_DOMAIN:
if (head && TREE_CODE (head) == ARRAY_TYPE)
TB_SET_HEAD (TYPE_DOMAIN (head));
else
TB_WF;
break;
case TB_VALUES:
if (head && TREE_CODE (head) == ENUMERAL_TYPE)
TB_SET_HEAD (TYPE_VALUES (head));
else
TB_WF;
break;
case TB_ARG_TYPE:
if (head && TREE_CODE (head) == PARM_DECL)
TB_SET_HEAD (DECL_ARG_TYPE (head));
else
TB_WF;
break;
case TB_INITIAL:
if (head && DECL_P (head))
TB_SET_HEAD (DECL_INITIAL (head));
else
TB_WF;
break;
case TB_RESULT:
if (head && DECL_P (head))
TB_SET_HEAD (DECL_RESULT_FLD (head));
else
TB_WF;
break;
case TB_ARGUMENTS:
if (head && DECL_P (head))
TB_SET_HEAD (DECL_ARGUMENTS (head));
else
TB_WF;
break;
case TB_ABSTRACT_ORIGIN:
if (head && DECL_P (head))
TB_SET_HEAD (DECL_ABSTRACT_ORIGIN (head));
else if (head && TREE_CODE (head) == BLOCK)
TB_SET_HEAD (BLOCK_ABSTRACT_ORIGIN (head));
else
TB_WF;
break;
case TB_ATTRIBUTES:
if (head && DECL_P (head))
TB_SET_HEAD (DECL_ATTRIBUTES (head));
else if (head && TYPE_P (head))
TB_SET_HEAD (TYPE_ATTRIBUTES (head));
else
TB_WF;
break;
case TB_CONTEXT:
if (head && DECL_P (head))
TB_SET_HEAD (DECL_CONTEXT (head));
else if (head && TYPE_P (head)
&& TYPE_CONTEXT (head))
TB_SET_HEAD (TYPE_CONTEXT (head));
else
TB_WF;
break;
case TB_OFFSET:
if (head && TREE_CODE (head) == FIELD_DECL)
TB_SET_HEAD (DECL_FIELD_OFFSET (head));
else
TB_WF;
break;
case TB_BIT_OFFSET:
if (head && TREE_CODE (head) == FIELD_DECL)
TB_SET_HEAD (DECL_FIELD_BIT_OFFSET (head));
else
TB_WF;
break;
case TB_UNIT_SIZE:
if (head && DECL_P (head))
TB_SET_HEAD (DECL_SIZE_UNIT (head));
else if (head && TYPE_P (head))
TB_SET_HEAD (TYPE_SIZE_UNIT (head));
else
TB_WF;
break;
case TB_SIZE:
if (head && DECL_P (head))
TB_SET_HEAD (DECL_SIZE (head));
else if (head && TYPE_P (head))
TB_SET_HEAD (TYPE_SIZE (head));
else
TB_WF;
break;
case TB_TYPE:
if (head && TREE_TYPE (head))
TB_SET_HEAD (TREE_TYPE (head));
else
TB_WF;
break;
case TB_DECL_SAVED_TREE:
if (head && TREE_CODE (head) == FUNCTION_DECL
&& DECL_SAVED_TREE (head))
TB_SET_HEAD (DECL_SAVED_TREE (head));
else
TB_WF;
break;
case TB_BODY:
if (head && TREE_CODE (head) == BIND_EXPR)
TB_SET_HEAD (TREE_OPERAND (head, 1));
else
TB_WF;
break;
case TB_CHILD_0:
if (head && EXPR_P (head) && TREE_OPERAND (head, 0))
TB_SET_HEAD (TREE_OPERAND (head, 0));
else
TB_WF;
break;
case TB_CHILD_1:
if (head && EXPR_P (head) && TREE_OPERAND (head, 1))
TB_SET_HEAD (TREE_OPERAND (head, 1));
else
TB_WF;
break;
case TB_CHILD_2:
if (head && EXPR_P (head) && TREE_OPERAND (head, 2))
TB_SET_HEAD (TREE_OPERAND (head, 2));
else
TB_WF;
break;
case TB_CHILD_3:
if (head && EXPR_P (head) && TREE_OPERAND (head, 3))
TB_SET_HEAD (TREE_OPERAND (head, 3));
else
TB_WF;
break;
case TB_PRINT:
if (head)
debug_tree (head);
else
TB_WF;
break;
case TB_PRETTY_PRINT:
if (head)
{
print_generic_stmt (TB_OUT_FILE, head, 0);
fprintf (TB_OUT_FILE, "\n");
}
else
TB_WF;
break;
case TB_SEARCH_NAME:
break;
case TB_SEARCH_CODE:
{
enum tree_code code;
char *arg_text;
arg_text = strchr (input, ' ');
if (arg_text == NULL)
{
fprintf (TB_OUT_FILE, "First argument is missing. This isn't a valid search command. \n");
break;
}
code = TB_get_tree_code (arg_text + 1);
/* Search in the subtree a node with the given code. */
{
tree res;
res = walk_tree (&head, find_node_with_code, &code, NULL);
if (res == NULL_TREE)
{
fprintf (TB_OUT_FILE, "There's no node with this code (reachable via the walk_tree function from this node).\n");
}
else
{
fprintf (TB_OUT_FILE, "Achoo! I got this node in the tree.\n");
TB_SET_HEAD (res);
}
}
break;
}
#define TB_MOVE_HEAD(FCT) do { \
if (head) \
{ \
tree t; \
t = FCT (head); \
if (t) \
TB_SET_HEAD (t); \
else \
TB_WF; \
} \
else \
TB_WF; \
} while (0)
case TB_FIRST:
TB_MOVE_HEAD (TB_first_in_bind);
break;
case TB_LAST:
TB_MOVE_HEAD (TB_last_in_bind);
break;
case TB_UP:
TB_MOVE_HEAD (TB_up_expr);
break;
case TB_PREV:
TB_MOVE_HEAD (TB_prev_expr);
break;
case TB_NEXT:
TB_MOVE_HEAD (TB_next_expr);
break;
case TB_HPREV:
/* This command is a little bit special, since it deals with history
stack. For this reason it should keep the "head = ..." statement
and not use TB_MOVE_HEAD. */
if (head)
{
tree t;
t = TB_history_prev ();
if (t)
{
head = t;
if (TB_verbose)
{
print_generic_expr (TB_OUT_FILE, head, 0);
fprintf (TB_OUT_FILE, "\n");
}
}
else
TB_WF;
}
else
TB_WF;
break;
case TB_CHAIN:
/* Don't go further if it's the last node in this chain. */
if (head && TREE_CODE (head) == BLOCK)
TB_SET_HEAD (BLOCK_CHAIN (head));
else if (head && TREE_CHAIN (head))
TB_SET_HEAD (TREE_CHAIN (head));
else
TB_WF;
break;
case TB_FUN:
/* Go up to the current function declaration. */
TB_SET_HEAD (current_function_decl);
fprintf (TB_OUT_FILE, "Current function declaration.\n");
break;
case TB_HELP:
/* Display a help message. */
{
int i;
fprintf (TB_OUT_FILE, "Possible commands are:\n\n");
for (i = 0; i < TB_UNUSED_COMMAND; i++)
{
fprintf (TB_OUT_FILE, "%20s - %s\n", TB_COMMAND_TEXT (i), TB_COMMAND_HELP (i));
}
}
break;
case TB_VERBOSE:
if (TB_verbose == 0)
{
TB_verbose = 1;
fprintf (TB_OUT_FILE, "Verbose on.\n");
}
else
{
TB_verbose = 0;
fprintf (TB_OUT_FILE, "Verbose off.\n");
}
break;
case TB_EXIT:
case TB_QUIT:
/* Just exit from this function. */
goto ret;
default:
TB_NIY;
}
}
ret:;
TB_up_ht.dispose ();
return;
}
