/* Output Dwarf2 format symbol table information from GCC.
Copyright (C) 1992, 1993, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002,
- 2003, 2004, 2005, 2006, 2007, 2008 Free Software Foundation, Inc.
+ 2003, 2004, 2005, 2006, 2007, 2008, 2009 Free Software Foundation, Inc.
Contributed by Gary Funck (gary@intrepid.com).
Derived from DWARF 1 implementation of Ron Guilmette (rfg@monkeys.com).
Extensively modified by Jason Merrill (jason@cygnus.com).
#define DWARF2_FRAME_REG_OUT(REGNO, FOR_EH) (REGNO)
#endif
+/* Save the result of dwarf2out_do_frame across PCH. */
+static GTY(()) bool saved_do_cfi_asm = 0;
+
/* Decide whether we want to emit frame unwind information for the current
translation unit. */
we're not going to output frame or unwind info. */
return (write_symbols == DWARF2_DEBUG
|| write_symbols == VMS_AND_DWARF2_DEBUG
- || DWARF2_FRAME_INFO
+ || DWARF2_FRAME_INFO || saved_do_cfi_asm
#ifdef DWARF2_UNWIND_INFO
|| (DWARF2_UNWIND_INFO
&& (flag_unwind_tables
{
int enc;
+#ifdef MIPS_DEBUGGING_INFO
+ return false;
+#endif
if (!flag_dwarf2_cfi_asm || !dwarf2out_do_frame ())
return false;
- if (!eh_personality_libfunc)
+ if (saved_do_cfi_asm || !eh_personality_libfunc)
return true;
if (!HAVE_GAS_CFI_PERSONALITY_DIRECTIVE)
return false;
if ((enc & 0x70) != 0 && (enc & 0x70) != DW_EH_PE_pcrel)
return false;
+ saved_do_cfi_asm = true;
return true;
}
#ifdef DWARF2_UNWIND_INFO
static void initial_return_save (rtx);
#endif
-static HOST_WIDE_INT stack_adjust_offset (const_rtx);
+static HOST_WIDE_INT stack_adjust_offset (const_rtx, HOST_WIDE_INT,
+ HOST_WIDE_INT);
static void output_cfi (dw_cfi_ref, dw_fde_ref, int);
static void output_cfi_directive (dw_cfi_ref);
static void output_call_frame_info (int);
contains. */
static HOST_WIDE_INT
-stack_adjust_offset (const_rtx pattern)
+stack_adjust_offset (const_rtx pattern, HOST_WIDE_INT cur_args_size,
+ HOST_WIDE_INT cur_offset)
{
const_rtx src = SET_SRC (pattern);
const_rtx dest = SET_DEST (pattern);
if (dest == stack_pointer_rtx)
{
- /* (set (reg sp) (plus (reg sp) (const_int))) */
code = GET_CODE (src);
+
+ /* Assume (set (reg sp) (reg whatever)) sets args_size
+ level to 0. */
+ if (code == REG && src != stack_pointer_rtx)
+ {
+ offset = -cur_args_size;
+#ifndef STACK_GROWS_DOWNWARD
+ offset = -offset;
+#endif
+ return offset - cur_offset;
+ }
+
if (! (code == PLUS || code == MINUS)
|| XEXP (src, 0) != stack_pointer_rtx
|| GET_CODE (XEXP (src, 1)) != CONST_INT)
return 0;
+ /* (set (reg sp) (plus (reg sp) (const_int))) */
offset = INTVAL (XEXP (src, 1));
if (code == PLUS)
offset = -offset;
+ return offset;
}
- else if (MEM_P (dest))
+
+ if (MEM_P (src) && !MEM_P (dest))
+ dest = src;
+ if (MEM_P (dest))
{
/* (set (mem (pre_dec (reg sp))) (foo)) */
src = XEXP (dest, 0);
|| sibcall_epilogue_contains (insn))
/* Nothing */;
else if (GET_CODE (PATTERN (insn)) == SET)
- offset = stack_adjust_offset (PATTERN (insn));
+ offset = stack_adjust_offset (PATTERN (insn), cur_args_size, 0);
else if (GET_CODE (PATTERN (insn)) == PARALLEL
|| GET_CODE (PATTERN (insn)) == SEQUENCE)
{
for them. */
for (i = XVECLEN (PATTERN (insn), 0) - 1; i >= 0; i--)
if (GET_CODE (XVECEXP (PATTERN (insn), 0, i)) == SET)
- offset += stack_adjust_offset (XVECEXP (PATTERN (insn), 0, i));
+ offset += stack_adjust_offset (XVECEXP (PATTERN (insn), 0, i),
+ cur_args_size, offset);
}
}
else
rtx elem = XVECEXP (expr, 0, i);
if (GET_CODE (elem) == SET && !RTX_FRAME_RELATED_P (elem))
- offset += stack_adjust_offset (elem);
+ offset += stack_adjust_offset (elem, cur_args_size, offset);
}
}
}
body = PATTERN (insn);
if (GET_CODE (body) == SEQUENCE)
{
+ HOST_WIDE_INT dest_args_size = cur_args_size;
for (i = 1; i < XVECLEN (body, 0); i++)
+ if (INSN_ANNULLED_BRANCH_P (XVECEXP (body, 0, 0))
+ && INSN_FROM_TARGET_P (XVECEXP (body, 0, i)))
+ dest_args_size
+ = compute_barrier_args_size_1 (XVECEXP (body, 0, i),
+ dest_args_size, &next);
+ else
+ cur_args_size
+ = compute_barrier_args_size_1 (XVECEXP (body, 0, i),
+ cur_args_size, &next);
+
+ if (INSN_ANNULLED_BRANCH_P (XVECEXP (body, 0, 0)))
+ compute_barrier_args_size_1 (XVECEXP (body, 0, 0),
+ dest_args_size, &next);
+ else
cur_args_size
- = compute_barrier_args_size_1 (XVECEXP (body, 0, i),
+ = compute_barrier_args_size_1 (XVECEXP (body, 0, 0),
cur_args_size, &next);
- cur_args_size
- = compute_barrier_args_size_1 (XVECEXP (body, 0, 0),
- cur_args_size, &next);
}
else
cur_args_size
if (prologue_epilogue_contains (insn) || sibcall_epilogue_contains (insn))
return;
+ /* If INSN is an instruction from target of an annulled branch, the
+ effects are for the target only and so current argument size
+ shouldn't change at all. */
+ if (final_sequence
+ && INSN_ANNULLED_BRANCH_P (XVECEXP (final_sequence, 0, 0))
+ && INSN_FROM_TARGET_P (insn))
+ return;
+
/* If only calls can throw, and we have a frame pointer,
save up adjustments until we see the CALL_INSN. */
if (!flag_asynchronous_unwind_tables && cfa.reg != STACK_POINTER_REGNUM)
#endif
}
else if (GET_CODE (PATTERN (insn)) == SET)
- offset = stack_adjust_offset (PATTERN (insn));
+ offset = stack_adjust_offset (PATTERN (insn), args_size, 0);
else if (GET_CODE (PATTERN (insn)) == PARALLEL
|| GET_CODE (PATTERN (insn)) == SEQUENCE)
{
for them. */
for (offset = 0, i = XVECLEN (PATTERN (insn), 0) - 1; i >= 0; i--)
if (GET_CODE (XVECEXP (PATTERN (insn), 0, i)) == SET)
- offset += stack_adjust_offset (XVECEXP (PATTERN (insn), 0, i));
+ offset += stack_adjust_offset (XVECEXP (PATTERN (insn), 0, i),
+ args_size, offset);
}
else
return;
{
/* Stack adjustment combining might combine some post-prologue
stack adjustment into a prologue stack adjustment. */
- HOST_WIDE_INT offset = stack_adjust_offset (elem);
+ HOST_WIDE_INT offset = stack_adjust_offset (elem, args_size, 0);
if (offset != 0)
dwarf2out_args_size_adjust (offset, label);
fde->dw_fde_end = NULL;
fde->dw_fde_cfi = NULL;
fde->funcdef_number = current_function_funcdef_no;
- fde->nothrow = TREE_NOTHROW (current_function_decl);
+ fde->nothrow = crtl->nothrow;
fde->uses_eh_lsda = crtl->uses_eh_lsda;
fde->all_throwers_are_sibcalls = crtl->all_throwers_are_sibcalls;
fde->drap_reg = INVALID_REGNUM;
typedef struct dw_loc_descr_struct *dw_loc_descr_ref;
typedef struct dw_loc_list_struct *dw_loc_list_ref;
+typedef struct deferred_locations_struct GTY(())
+{
+ tree variable;
+ dw_die_ref die;
+} deferred_locations;
+
+DEF_VEC_O(deferred_locations);
+DEF_VEC_ALLOC_O(deferred_locations,gc);
+
+static GTY(()) VEC(deferred_locations, gc) *deferred_locations_list;
+
/* Each DIE may have a series of attribute/value pairs. Values
can take on several forms. The forms that are used in this
implementation are listed below. */
{
dw_loc_descr_ref dw_loc_next;
enum dwarf_location_atom dw_loc_opc;
+ int dw_loc_addr;
dw_val_node dw_loc_oprnd1;
dw_val_node dw_loc_oprnd2;
- int dw_loc_addr;
}
dw_loc_descr_node;
static void dwarf2out_global_decl (tree);
static void dwarf2out_type_decl (tree, int);
static void dwarf2out_imported_module_or_decl (tree, tree, tree, bool);
+static void dwarf2out_imported_module_or_decl_1 (tree, tree, tree,
+ dw_die_ref);
static void dwarf2out_abstract_function (tree);
static void dwarf2out_var_location (rtx);
static void dwarf2out_begin_function (tree);
The key is a DECL_UID() which is a unique number identifying each decl. */
static GTY ((param_is (struct die_struct))) htab_t decl_die_table;
+/* A hash table of references to DIE's that describe COMMON blocks.
+ The key is DECL_UID() ^ die_parent. */
+static GTY ((param_is (struct die_struct))) htab_t common_block_die_table;
+
/* Node of the variable location list. */
struct var_loc_node GTY ((chain_next ("%h.next")))
{
static const char *dwarf_attr_name (unsigned);
static const char *dwarf_form_name (unsigned);
static tree decl_ultimate_origin (const_tree);
-static tree block_ultimate_origin (const_tree);
static tree decl_class_context (tree);
static void add_dwarf_attr (dw_die_ref, dw_attr_ref);
static inline enum dw_val_class AT_class (dw_attr_ref);
static hashval_t decl_die_table_hash (const void *);
static int decl_die_table_eq (const void *, const void *);
static dw_die_ref lookup_decl_die (tree);
+static hashval_t common_block_die_table_hash (const void *);
+static int common_block_die_table_eq (const void *, const void *);
static hashval_t decl_loc_table_hash (const void *);
static int decl_loc_table_eq (const void *, const void *);
static var_loc_list *lookup_decl_loc (const_tree);
static void add_sibling_attributes (dw_die_ref);
static void build_abbrev_table (dw_die_ref);
static void output_location_lists (dw_die_ref);
-static int constant_size (long unsigned);
+static int constant_size (unsigned HOST_WIDE_INT);
static unsigned long size_of_die (dw_die_ref);
static void calc_die_sizes (dw_die_ref);
static void mark_dies (dw_die_ref);
static void add_bit_offset_attribute (dw_die_ref, tree);
static void add_bit_size_attribute (dw_die_ref, tree);
static void add_prototyped_attribute (dw_die_ref, tree);
-static void add_abstract_origin_attribute (dw_die_ref, tree);
+static dw_die_ref add_abstract_origin_attribute (dw_die_ref, tree);
static void add_pure_or_virtual_attribute (dw_die_ref, tree);
static void add_src_coords_attributes (dw_die_ref, tree);
static void add_name_and_src_coords_attributes (dw_die_ref, tree);
static void pop_decl_scope (void);
static dw_die_ref scope_die_for (tree, dw_die_ref);
static inline int local_scope_p (dw_die_ref);
+static inline int class_scope_p (dw_die_ref);
static inline int class_or_namespace_scope_p (dw_die_ref);
static void add_type_attribute (dw_die_ref, tree, int, int, dw_die_ref);
static void add_calling_convention_attribute (dw_die_ref, tree);
#if 0
static void gen_entry_point_die (tree, dw_die_ref);
#endif
-static void gen_inlined_enumeration_type_die (tree, dw_die_ref);
-static void gen_inlined_structure_type_die (tree, dw_die_ref);
-static void gen_inlined_union_type_die (tree, dw_die_ref);
static dw_die_ref gen_enumeration_type_die (tree, dw_die_ref);
-static dw_die_ref gen_formal_parameter_die (tree, dw_die_ref);
+static dw_die_ref gen_formal_parameter_die (tree, tree, dw_die_ref);
static void gen_unspecified_parameters_die (tree, dw_die_ref);
static void gen_formal_types_die (tree, dw_die_ref);
static void gen_subprogram_die (tree, dw_die_ref);
-static void gen_variable_die (tree, dw_die_ref);
+static void gen_variable_die (tree, tree, dw_die_ref);
static void gen_const_die (tree, dw_die_ref);
static void gen_label_die (tree, dw_die_ref);
static void gen_lexical_block_die (tree, dw_die_ref, int);
static void gen_subroutine_type_die (tree, dw_die_ref);
static void gen_typedef_die (tree, dw_die_ref);
static void gen_type_die (tree, dw_die_ref);
-static void gen_tagged_type_instantiation_die (tree, dw_die_ref);
static void gen_block_die (tree, dw_die_ref, int);
static void decls_for_scope (tree, dw_die_ref, int);
static int is_redundant_typedef (const_tree);
-static void gen_namespace_die (tree);
-static void gen_decl_die (tree, dw_die_ref);
+static void gen_namespace_die (tree, dw_die_ref);
+static void gen_decl_die (tree, tree, dw_die_ref);
static dw_die_ref force_decl_die (tree);
static dw_die_ref force_type_die (tree);
static dw_die_ref setup_namespace_context (tree, dw_die_ref);
return "DW_AT_encoding";
case DW_AT_external:
return "DW_AT_external";
+ case DW_AT_explicit:
+ return "DW_AT_explicit";
case DW_AT_frame_base:
return "DW_AT_frame_base";
case DW_AT_friend:
return DECL_ABSTRACT_ORIGIN (decl);
}
-/* Determine the "ultimate origin" of a block. The block may be an inlined
- instance of an inlined instance of a block which is local to an inline
- function, so we have to trace all of the way back through the origin chain
- to find out what sort of node actually served as the original seed for the
- given block. */
-
-static tree
-block_ultimate_origin (const_tree block)
-{
- tree immediate_origin = BLOCK_ABSTRACT_ORIGIN (block);
-
- /* output_inline_function sets BLOCK_ABSTRACT_ORIGIN for all the
- nodes in the function to point to themselves; ignore that if
- we're trying to output the abstract instance of this function. */
- if (BLOCK_ABSTRACT (block) && immediate_origin == block)
- return NULL_TREE;
-
- if (immediate_origin == NULL_TREE)
- return NULL_TREE;
- else
- {
- tree ret_val;
- tree lookahead = immediate_origin;
-
- do
- {
- ret_val = lookahead;
- lookahead = (TREE_CODE (ret_val) == BLOCK
- ? BLOCK_ABSTRACT_ORIGIN (ret_val) : NULL);
- }
- while (lookahead != NULL && lookahead != ret_val);
-
- /* The block's abstract origin chain may not be the *ultimate* origin of
- the block. It could lead to a DECL that has an abstract origin set.
- If so, we want that DECL's abstract origin (which is what DECL_ORIGIN
- will give us if it has one). Note that DECL's abstract origins are
- supposed to be the most distant ancestor (or so decl_ultimate_origin
- claims), so we don't need to loop following the DECL origins. */
- if (DECL_P (ret_val))
- return DECL_ORIGIN (ret_val);
-
- return ret_val;
- }
-}
-
/* Get the class to which DECL belongs, if any. In g++, the DECL_CONTEXT
of a virtual function may refer to a base class, so we check the 'this'
parameter. */
/* Return the power-of-two number of bytes necessary to represent VALUE. */
static int
-constant_size (long unsigned int value)
+constant_size (unsigned HOST_WIDE_INT value)
{
int log;
return cc_loc_result;
}
+/* Try to handle TLS MEMs, for which mem_loc_descriptor on XEXP (mem, 0)
+ failed. */
+
+static dw_loc_descr_ref
+tls_mem_loc_descriptor (rtx mem)
+{
+ tree base;
+ dw_loc_descr_ref loc_result, loc_result2;
+
+ if (MEM_EXPR (mem) == NULL_TREE || MEM_OFFSET (mem) == NULL_RTX)
+ return NULL;
+
+ base = get_base_address (MEM_EXPR (mem));
+ if (base == NULL
+ || TREE_CODE (base) != VAR_DECL
+ || !DECL_THREAD_LOCAL_P (base))
+ return NULL;
+
+ loc_result = loc_descriptor_from_tree_1 (MEM_EXPR (mem), 2);
+ if (loc_result == NULL)
+ return NULL;
+
+ if (INTVAL (MEM_OFFSET (mem)))
+ {
+ if (INTVAL (MEM_OFFSET (mem)) >= 0)
+ add_loc_descr (&loc_result,
+ new_loc_descr (DW_OP_plus_uconst,
+ INTVAL (MEM_OFFSET (mem)), 0));
+ else
+ {
+ loc_result2 = mem_loc_descriptor (MEM_OFFSET (mem), GET_MODE (mem),
+ VAR_INIT_STATUS_INITIALIZED);
+ if (loc_result2 == 0)
+ return NULL;
+ add_loc_descr (&loc_result, loc_result2);
+ add_loc_descr (&loc_result, new_loc_descr (DW_OP_plus, 0, 0));
+ }
+ }
+
+ return loc_result;
+}
+
/* The following routine converts the RTL for a variable or parameter
(resident in memory) into an equivalent Dwarf representation of a
mechanism for getting the address of that same variable onto the top of a
distinction between OP_REG and OP_BASEREG. */
if (REGNO (rtl) < FIRST_PSEUDO_REGISTER)
mem_loc_result = based_loc_descr (rtl, 0, VAR_INIT_STATUS_INITIALIZED);
+ else if (stack_realign_drap
+ && crtl->drap_reg
+ && crtl->args.internal_arg_pointer == rtl
+ && REGNO (crtl->drap_reg) < FIRST_PSEUDO_REGISTER)
+ {
+ /* If RTL is internal_arg_pointer, which has been optimized
+ out, use DRAP instead. */
+ mem_loc_result = based_loc_descr (crtl->drap_reg, 0,
+ VAR_INIT_STATUS_INITIALIZED);
+ }
break;
case MEM:
mem_loc_result = mem_loc_descriptor (XEXP (rtl, 0), GET_MODE (rtl),
VAR_INIT_STATUS_INITIALIZED);
+ if (mem_loc_result == NULL)
+ mem_loc_result = tls_mem_loc_descriptor (rtl);
if (mem_loc_result != 0)
add_loc_descr (&mem_loc_result, new_loc_descr (DW_OP_deref, 0, 0));
break;
INTVAL (XEXP (rtl, 1)), 0));
else
{
- add_loc_descr (&mem_loc_result,
- mem_loc_descriptor (XEXP (rtl, 1), mode,
- VAR_INIT_STATUS_INITIALIZED));
+ dw_loc_descr_ref mem_loc_result2
+ = mem_loc_descriptor (XEXP (rtl, 1), mode,
+ VAR_INIT_STATUS_INITIALIZED);
+ if (mem_loc_result2 == 0)
+ break;
+ add_loc_descr (&mem_loc_result, mem_loc_result2);
add_loc_descr (&mem_loc_result,
new_loc_descr (DW_OP_plus, 0, 0));
}
VAR_INIT_STATUS_INITIALIZED);
break;
+ case UNSPEC:
+ /* If delegitimize_address couldn't do anything with the UNSPEC, we
+ can't express it in the debug info. This can happen e.g. with some
+ TLS UNSPECs. */
+ break;
+
default:
gcc_unreachable ();
}
case MEM:
loc_result = mem_loc_descriptor (XEXP (rtl, 0), GET_MODE (rtl),
initialized);
+ if (loc_result == NULL)
+ loc_result = tls_mem_loc_descriptor (rtl);
break;
case CONCAT:
/* Create the first one, so we have something to add to. */
loc_result = loc_descriptor (XEXP (RTVEC_ELT (par_elems, 0), 0),
initialized);
+ if (loc_result == NULL)
+ return NULL;
mode = GET_MODE (XEXP (RTVEC_ELT (par_elems, 0), 0));
add_loc_descr_op_piece (&loc_result, GET_MODE_SIZE (mode));
for (i = 1; i < num_elem; i++)
temp = loc_descriptor (XEXP (RTVEC_ELT (par_elems, i), 0),
initialized);
+ if (temp == NULL)
+ return NULL;
add_loc_descr (&loc_result, temp);
mode = GET_MODE (XEXP (RTVEC_ELT (par_elems, i), 0));
add_loc_descr_op_piece (&loc_result, GET_MODE_SIZE (mode));
/* The way DW_OP_GNU_push_tls_address is specified, we
can only look up addresses of objects in the current
module. */
- if (DECL_EXTERNAL (loc))
+ if (DECL_EXTERNAL (loc) && !targetm.binds_local_p (loc))
return 0;
first_op = INTERNAL_DW_OP_tls_addr;
second_op = DW_OP_GNU_push_tls_address;
if (offset != NULL_TREE)
{
/* Variable offset. */
- add_loc_descr (&ret, loc_descriptor_from_tree_1 (offset, 0));
+ ret1 = loc_descriptor_from_tree_1 (offset, 0);
+ if (ret1 == 0)
+ return 0;
+ add_loc_descr (&ret, ret1);
add_loc_descr (&ret, new_loc_descr (DW_OP_plus, 0, 0));
}
&& (!DECL_EXTERNAL (*tp) || DECL_DECLARED_INLINE_P (*tp)))
{
struct cgraph_node *node = cgraph_node (*tp);
- if (!node->output)
+ if (node->process || TREE_ASM_WRITTEN (*tp))
return *tp;
}
else if (TREE_CODE (*tp) == STRING_CST && !TREE_ASM_WRITTEN (*tp))
tree_add_const_value_attribute (die, decl);
}
+/* Add VARIABLE and DIE into deferred locations list. */
+
+static void
+defer_location (tree variable, dw_die_ref die)
+{
+ deferred_locations entry;
+ entry.variable = variable;
+ entry.die = die;
+ VEC_safe_push (deferred_locations, gc, deferred_locations_list, &entry);
+}
+
/* Helper function for tree_add_const_value_attribute. Natively encode
initializer INIT into an array. Return true if successful. */
static void
tree_add_const_value_attribute (dw_die_ref var_die, tree decl)
{
- tree init = DECL_INITIAL (decl);
+ tree init;
tree type = TREE_TYPE (decl);
rtx rtl;
+ if (TREE_CODE (decl) != VAR_DECL && TREE_CODE (decl) != CONST_DECL)
+ return;
+
+ init = DECL_INITIAL (decl);
if (TREE_READONLY (decl) && ! TREE_THIS_VOLATILE (decl) && init)
/* OK */;
else
by looking in either the type declaration or object declaration
equate table. */
-static inline void
+static inline dw_die_ref
add_abstract_origin_attribute (dw_die_ref die, tree origin)
{
dw_die_ref origin_die = NULL;
here. */
if (origin_die)
- add_AT_die_ref (die, DW_AT_abstract_origin, origin_die);
+ add_AT_die_ref (die, DW_AT_abstract_origin, origin_die);
+ return origin_die;
}
/* We do not currently support the pure_virtual attribute. */
return 0;
}
-/* Returns nonzero if CONTEXT_DIE is a class or namespace, for deciding
- whether or not to treat a DIE in this context as a declaration. */
+/* Returns nonzero if CONTEXT_DIE is a class. */
static inline int
-class_or_namespace_scope_p (dw_die_ref context_die)
+class_scope_p (dw_die_ref context_die)
{
return (context_die
&& (context_die->die_tag == DW_TAG_structure_type
|| context_die->die_tag == DW_TAG_class_type
|| context_die->die_tag == DW_TAG_interface_type
- || context_die->die_tag == DW_TAG_union_type
- || context_die->die_tag == DW_TAG_namespace));
+ || context_die->die_tag == DW_TAG_union_type));
+}
+
+/* Returns nonzero if CONTEXT_DIE is a class or namespace, for deciding
+ whether or not to treat a DIE in this context as a declaration. */
+
+static inline int
+class_or_namespace_scope_p (dw_die_ref context_die)
+{
+ return (class_scope_p (context_die)
+ || (context_die && context_die->die_tag == DW_TAG_namespace));
}
/* Many forms of DIEs require a "type description" attribute. This
gen_type_die (VEC_index (tree, incomplete_types, i), comp_unit_die);
}
-/* Generate a DIE to represent an inlined instance of an enumeration type. */
-
-static void
-gen_inlined_enumeration_type_die (tree type, dw_die_ref context_die)
-{
- dw_die_ref type_die = new_die (DW_TAG_enumeration_type, context_die, type);
-
- /* We do not check for TREE_ASM_WRITTEN (type) being set, as the type may
- be incomplete and such types are not marked. */
- add_abstract_origin_attribute (type_die, type);
-}
-
/* Determine what tag to use for a record type. */
static enum dwarf_tag
}
}
-/* Generate a DIE to represent an inlined instance of a structure type. */
-
-static void
-gen_inlined_structure_type_die (tree type, dw_die_ref context_die)
-{
- dw_die_ref type_die = new_die (record_type_tag (type), context_die, type);
-
- /* We do not check for TREE_ASM_WRITTEN (type) being set, as the type may
- be incomplete and such types are not marked. */
- add_abstract_origin_attribute (type_die, type);
-}
-
-/* Generate a DIE to represent an inlined instance of a union type. */
-
-static void
-gen_inlined_union_type_die (tree type, dw_die_ref context_die)
-{
- dw_die_ref type_die = new_die (DW_TAG_union_type, context_die, type);
-
- /* We do not check for TREE_ASM_WRITTEN (type) being set, as the type may
- be incomplete and such types are not marked. */
- add_abstract_origin_attribute (type_die, type);
-}
-
/* Generate a DIE to represent an enumeration type. Note that these DIEs
include all of the information about the enumeration values also. Each
enumerated type name/value is listed as a child of the enumerated type
add_name_attribute (enum_die,
IDENTIFIER_POINTER (TREE_PURPOSE (link)));
+ if (TREE_CODE (value) == CONST_DECL)
+ value = DECL_INITIAL (value);
+
if (host_integerp (value, TYPE_UNSIGNED (TREE_TYPE (value))))
/* DWARF2 does not provide a way of indicating whether or
not enumeration constants are signed or unsigned. GDB
argument type of some subprogram type. */
static dw_die_ref
-gen_formal_parameter_die (tree node, dw_die_ref context_die)
+gen_formal_parameter_die (tree node, tree origin, dw_die_ref context_die)
{
+ tree node_or_origin = node ? node : origin;
dw_die_ref parm_die
= new_die (DW_TAG_formal_parameter, context_die, node);
- tree origin;
- switch (TREE_CODE_CLASS (TREE_CODE (node)))
+ switch (TREE_CODE_CLASS (TREE_CODE (node_or_origin)))
{
case tcc_declaration:
- origin = decl_ultimate_origin (node);
+ if (!origin)
+ origin = decl_ultimate_origin (node);
if (origin != NULL)
add_abstract_origin_attribute (parm_die, origin);
else
add_AT_flag (parm_die, DW_AT_artificial, 1);
}
- equate_decl_number_to_die (node, parm_die);
- if (! DECL_ABSTRACT (node))
- add_location_or_const_value_attribute (parm_die, node, DW_AT_location);
+ if (node)
+ equate_decl_number_to_die (node, parm_die);
+ if (! DECL_ABSTRACT (node_or_origin))
+ add_location_or_const_value_attribute (parm_die, node_or_origin,
+ DW_AT_location);
break;
case tcc_type:
/* We were called with some kind of a ..._TYPE node. */
- add_type_attribute (parm_die, node, 0, 0, context_die);
+ add_type_attribute (parm_die, node_or_origin, 0, 0, context_die);
break;
default:
break;
/* Output a (nameless) DIE to represent the formal parameter itself. */
- parm_die = gen_formal_parameter_die (formal_type, context_die);
+ parm_die = gen_formal_parameter_die (formal_type, NULL, context_die);
if ((TREE_CODE (function_or_method_type) == METHOD_TYPE
&& link == first_parm_type)
|| (arg && DECL_ARTIFICIAL (arg)))
}
}
else
- gen_variable_die (member, type_die);
+ gen_variable_die (member, NULL_TREE, type_die);
pop_decl_scope ();
}
{
add_AT_flag (subr_die, DW_AT_declaration, 1);
+ /* If this is an explicit function declaration then generate
+ a DW_AT_explicit attribute. */
+ if (lang_hooks.decls.function_decl_explicit_p (decl))
+ add_AT_flag (subr_die, DW_AT_explicit, 1);
+
/* The first time we see a member function, it is in the context of
the class to which it belongs. We make sure of this by emitting
the class first. The next time is the definition, which is
"__builtin_va_alist"))
gen_unspecified_parameters_die (parm, subr_die);
else
- gen_decl_die (parm, subr_die);
+ gen_decl_die (parm, NULL, subr_die);
}
/* Decide whether we need an unspecified_parameters DIE at the end.
{
/* Emit a DW_TAG_variable DIE for a named return value. */
if (DECL_NAME (DECL_RESULT (decl)))
- gen_decl_die (DECL_RESULT (decl), subr_die);
+ gen_decl_die (DECL_RESULT (decl), NULL, subr_die);
current_function_has_inlines = 0;
decls_for_scope (outer_scope, subr_die, 0);
}
-/* Generate a DIE to represent a declared data object. */
+/* Returns a hash value for X (which really is a die_struct). */
+
+static hashval_t
+common_block_die_table_hash (const void *x)
+{
+ const_dw_die_ref d = (const_dw_die_ref) x;
+ return (hashval_t) d->decl_id ^ htab_hash_pointer (d->die_parent);
+}
+
+/* Return nonzero if decl_id and die_parent of die_struct X is the same
+ as decl_id and die_parent of die_struct Y. */
+
+static int
+common_block_die_table_eq (const void *x, const void *y)
+{
+ const_dw_die_ref d = (const_dw_die_ref) x;
+ const_dw_die_ref e = (const_dw_die_ref) y;
+ return d->decl_id == e->decl_id && d->die_parent == e->die_parent;
+}
+
+/* Generate a DIE to represent a declared data object.
+ Either DECL or ORIGIN must be non-null. */
static void
-gen_variable_die (tree decl, dw_die_ref context_die)
+gen_variable_die (tree decl, tree origin, dw_die_ref context_die)
{
HOST_WIDE_INT off;
tree com_decl;
+ tree decl_or_origin = decl ? decl : origin;
dw_die_ref var_die;
- tree origin = decl_ultimate_origin (decl);
- dw_die_ref old_die = lookup_decl_die (decl);
- int declaration = (DECL_EXTERNAL (decl)
+ dw_die_ref old_die = decl ? lookup_decl_die (decl) : NULL;
+ dw_die_ref origin_die;
+ int declaration = (DECL_EXTERNAL (decl_or_origin)
/* If DECL is COMDAT and has not actually been
emitted, we cannot take its address; there
might end up being no definition anywhere in
Here, S<int>::i is not DECL_EXTERNAL, but no
definition is required, so the compiler will
not emit a definition. */
- || (TREE_CODE (decl) == VAR_DECL
- && DECL_COMDAT (decl) && !TREE_ASM_WRITTEN (decl))
+ || (TREE_CODE (decl_or_origin) == VAR_DECL
+ && DECL_COMDAT (decl_or_origin)
+ && !TREE_ASM_WRITTEN (decl_or_origin))
|| class_or_namespace_scope_p (context_die));
- com_decl = fortran_common (decl, &off);
+ if (!origin)
+ origin = decl_ultimate_origin (decl);
+
+ com_decl = fortran_common (decl_or_origin, &off);
/* Symbol in common gets emitted as a child of the common block, in the form
of a data member. */
tree field;
dw_die_ref com_die;
dw_loc_descr_ref loc;
+ die_node com_die_arg;
- var_die = lookup_decl_die (decl);
+ var_die = lookup_decl_die (decl_or_origin);
if (var_die)
{
if (get_AT (var_die, DW_AT_location) == NULL)
if (loc)
{
if (off)
- add_loc_descr (&loc, new_loc_descr (DW_OP_plus_uconst,
+ {
+ /* Optimize the common case. */
+ if (loc->dw_loc_opc == DW_OP_addr
+ && loc->dw_loc_next == NULL
+ && GET_CODE (loc->dw_loc_oprnd1.v.val_addr)
+ == SYMBOL_REF)
+ loc->dw_loc_oprnd1.v.val_addr
+ = plus_constant (loc->dw_loc_oprnd1.v.val_addr, off);
+ else
+ add_loc_descr (&loc,
+ new_loc_descr (DW_OP_plus_uconst,
off, 0));
+ }
add_AT_loc (var_die, DW_AT_location, loc);
remove_AT (var_die, DW_AT_declaration);
}
}
return;
}
+
+ if (common_block_die_table == NULL)
+ common_block_die_table
+ = htab_create_ggc (10, common_block_die_table_hash,
+ common_block_die_table_eq, NULL);
+
field = TREE_OPERAND (DECL_VALUE_EXPR (decl), 0);
- com_die = lookup_decl_die (com_decl);
+ com_die_arg.decl_id = DECL_UID (com_decl);
+ com_die_arg.die_parent = context_die;
+ com_die = (dw_die_ref) htab_find (common_block_die_table, &com_die_arg);
loc = loc_descriptor_from_tree (com_decl);
if (com_die == NULL)
{
const char *cnam
= IDENTIFIER_POINTER (DECL_ASSEMBLER_NAME (com_decl));
+ void **slot;
com_die = new_die (DW_TAG_common_block, context_die, decl);
add_name_and_src_coords_attributes (com_die, com_decl);
else if (DECL_EXTERNAL (decl))
add_AT_flag (com_die, DW_AT_declaration, 1);
add_pubname_string (cnam, com_die); /* ??? needed? */
- equate_decl_number_to_die (com_decl, com_die);
+ com_die->decl_id = DECL_UID (com_decl);
+ slot = htab_find_slot (common_block_die_table, com_die, INSERT);
+ *slot = (void *) com_die;
}
else if (get_AT (com_die, DW_AT_location) == NULL && loc)
{
if (loc)
{
if (off)
- add_loc_descr (&loc, new_loc_descr (DW_OP_plus_uconst, off, 0));
+ {
+ /* Optimize the common case. */
+ if (loc->dw_loc_opc == DW_OP_addr
+ && loc->dw_loc_next == NULL
+ && GET_CODE (loc->dw_loc_oprnd1.v.val_addr) == SYMBOL_REF)
+ loc->dw_loc_oprnd1.v.val_addr
+ = plus_constant (loc->dw_loc_oprnd1.v.val_addr, off);
+ else
+ add_loc_descr (&loc, new_loc_descr (DW_OP_plus_uconst,
+ off, 0));
+ }
add_AT_loc (var_die, DW_AT_location, loc);
}
else if (DECL_EXTERNAL (decl))
return;
}
- var_die = new_die (DW_TAG_variable, context_die, decl);
+ /* If the compiler emitted a definition for the DECL declaration
+ and if we already emitted a DIE for it, don't emit a second
+ DIE for it again. */
+ if (old_die
+ && declaration
+ && old_die->die_parent == context_die)
+ return;
+ /* For static data members, the declaration in the class is supposed
+ to have DW_TAG_member tag; the specification should still be
+ DW_TAG_variable referencing the DW_TAG_member DIE. */
+ if (declaration && class_scope_p (context_die))
+ var_die = new_die (DW_TAG_member, context_die, decl);
+ else
+ var_die = new_die (DW_TAG_variable, context_die, decl);
+
+ origin_die = NULL;
if (origin != NULL)
- add_abstract_origin_attribute (var_die, origin);
+ origin_die = add_abstract_origin_attribute (var_die, origin);
/* Loop unrolling can create multiple blocks that refer to the same
static variable, so we must test for the DW_AT_declaration flag.
if (declaration)
add_AT_flag (var_die, DW_AT_declaration, 1);
- if (DECL_ABSTRACT (decl) || declaration)
+ if (decl && (DECL_ABSTRACT (decl) || declaration))
equate_decl_number_to_die (decl, var_die);
- if (! declaration && ! DECL_ABSTRACT (decl))
- {
- add_location_or_const_value_attribute (var_die, decl, DW_AT_location);
- add_pubname (decl, var_die);
+ if (! declaration
+ && (! DECL_ABSTRACT (decl_or_origin)
+ /* Local static vars are shared between all clones/inlines,
+ so emit DW_AT_location on the abstract DIE if DECL_RTL is
+ already set. */
+ || (TREE_CODE (decl_or_origin) == VAR_DECL
+ && TREE_STATIC (decl_or_origin)
+ && DECL_RTL_SET_P (decl_or_origin)))
+ /* When abstract origin already has DW_AT_location attribute, no need
+ to add it again. */
+ && (origin_die == NULL || get_AT (origin_die, DW_AT_location) == NULL))
+ {
+ if (TREE_CODE (decl_or_origin) == VAR_DECL && TREE_STATIC (decl_or_origin)
+ && !TREE_SYMBOL_REFERENCED (DECL_ASSEMBLER_NAME (decl_or_origin)))
+ defer_location (decl_or_origin, var_die);
+ else
+ add_location_or_const_value_attribute (var_die,
+ decl_or_origin,
+ DW_AT_location);
+ add_pubname (decl_or_origin, var_die);
}
else
- tree_add_const_value_attribute (var_die, decl);
+ tree_add_const_value_attribute (var_die, decl_or_origin);
}
/* Generate a DIE to represent a named constant. */
}
-/* If STMT's abstract origin is a function declaration and STMT's
- first subblock's abstract origin is the function's outermost block,
- then we're looking at the main entry point. */
-static bool
-is_inlined_entry_point (const_tree stmt)
-{
- tree decl, block;
-
- if (!stmt || TREE_CODE (stmt) != BLOCK)
- return false;
-
- decl = block_ultimate_origin (stmt);
-
- if (!decl || TREE_CODE (decl) != FUNCTION_DECL)
- return false;
-
- block = BLOCK_SUBBLOCKS (stmt);
-
- if (block)
- {
- if (TREE_CODE (block) != BLOCK)
- return false;
-
- block = block_ultimate_origin (block);
- }
-
- return block == DECL_INITIAL (decl);
-}
-
/* A helper function for gen_lexical_block_die and gen_inlined_subroutine_die.
Add low_pc and high_pc attributes to the DIE for a block STMT. */
{
tree chain;
- if (is_inlined_entry_point (stmt))
+ if (inlined_function_outer_scope_p (stmt))
{
ASM_GENERATE_INTERNAL_LABEL (label, BLOCK_BEGIN_LABEL,
BLOCK_NUMBER (stmt));
{
dw_die_ref stmt_die = new_die (DW_TAG_lexical_block, context_die, stmt);
- if (! BLOCK_ABSTRACT (stmt))
+ if (! BLOCK_ABSTRACT (stmt) && TREE_ASM_WRITTEN (stmt))
add_high_low_attributes (stmt, stmt_die);
decls_for_scope (stmt, stmt_die, depth);
= new_die (DW_TAG_inlined_subroutine, context_die, stmt);
add_abstract_origin_attribute (subr_die, decl);
- add_high_low_attributes (stmt, subr_die);
+ if (TREE_ASM_WRITTEN (stmt))
+ add_high_low_attributes (stmt, subr_die);
add_call_src_coords_attributes (stmt, subr_die);
decls_for_scope (stmt, subr_die, depth);
if (child)
splice_child_die (context_die, child);
else
- gen_decl_die (member, context_die);
+ gen_decl_die (member, NULL, context_die);
}
/* Now output info about the function members (if any). */
if (child)
splice_child_die (context_die, child);
else
- gen_decl_die (member, context_die);
+ gen_decl_die (member, NULL, context_die);
}
}
gcc_assert (DECL_ORIGINAL_TYPE (TYPE_NAME (type)) != type);
TREE_ASM_WRITTEN (type) = 1;
- gen_decl_die (TYPE_NAME (type), context_die);
+ gen_decl_die (TYPE_NAME (type), NULL, context_die);
return;
}
gen_type_die_with_usage (type, context_die, DINFO_USAGE_DIR_USE);
}
-/* Generate a DIE for a tagged type instantiation. */
-
-static void
-gen_tagged_type_instantiation_die (tree type, dw_die_ref context_die)
-{
- if (type == NULL_TREE || type == error_mark_node)
- return;
-
- /* We are going to output a DIE to represent the unqualified version of
- this type (i.e. without any const or volatile qualifiers) so make sure
- that we have the main variant (i.e. the unqualified version) of this
- type now. */
- gcc_assert (type == type_main_variant (type));
-
- /* Do not check TREE_ASM_WRITTEN (type) as it may not be set if this is
- an instance of an unresolved type. */
-
- switch (TREE_CODE (type))
- {
- case ERROR_MARK:
- break;
-
- case ENUMERAL_TYPE:
- gen_inlined_enumeration_type_die (type, context_die);
- break;
-
- case RECORD_TYPE:
- gen_inlined_structure_type_die (type, context_die);
- break;
-
- case UNION_TYPE:
- case QUAL_UNION_TYPE:
- gen_inlined_union_type_die (type, context_die);
- break;
-
- default:
- gcc_unreachable ();
- }
-}
-
/* Generate a DW_TAG_lexical_block DIE followed by DIEs to represent all of the
things which are local to the given block. */
gen_block_die (tree stmt, dw_die_ref context_die, int depth)
{
int must_output_die = 0;
- tree origin;
- tree decl;
- enum tree_code origin_code;
+ bool inlined_func;
/* Ignore blocks that are NULL. */
if (stmt == NULL_TREE)
return;
+ inlined_func = inlined_function_outer_scope_p (stmt);
+
/* If the block is one fragment of a non-contiguous block, do not
process the variables, since they will have been done by the
origin block. Do process subblocks. */
return;
}
- /* Determine the "ultimate origin" of this block. This block may be an
- inlined instance of an inlined instance of inline function, so we have
- to trace all of the way back through the origin chain to find out what
- sort of node actually served as the original seed for the creation of
- the current block. */
- origin = block_ultimate_origin (stmt);
- origin_code = (origin != NULL) ? TREE_CODE (origin) : ERROR_MARK;
-
/* Determine if we need to output any Dwarf DIEs at all to represent this
block. */
- if (origin_code == FUNCTION_DECL)
+ if (inlined_func)
/* The outer scopes for inlinings *must* always be represented. We
generate DW_TAG_inlined_subroutine DIEs for them. (See below.) */
must_output_die = 1;
else
{
- /* In the case where the current block represents an inlining of the
- "body block" of an inline function, we must *NOT* output any DIE for
- this block because we have already output a DIE to represent the whole
- inlined function scope and the "body block" of any function doesn't
- really represent a different scope according to ANSI C rules. So we
- check here to make sure that this block does not represent a "body
- block inlining" before trying to set the MUST_OUTPUT_DIE flag. */
- if (! is_body_block (origin ? origin : stmt))
- {
- /* Determine if this block directly contains any "significant"
- local declarations which we will need to output DIEs for. */
- if (debug_info_level > DINFO_LEVEL_TERSE)
- /* We are not in terse mode so *any* local declaration counts
- as being a "significant" one. */
- must_output_die = (BLOCK_VARS (stmt) != NULL
- && (TREE_USED (stmt)
- || TREE_ASM_WRITTEN (stmt)
- || BLOCK_ABSTRACT (stmt)));
- else
- /* We are in terse mode, so only local (nested) function
- definitions count as "significant" local declarations. */
- for (decl = BLOCK_VARS (stmt);
- decl != NULL; decl = TREE_CHAIN (decl))
- if (TREE_CODE (decl) == FUNCTION_DECL
- && DECL_INITIAL (decl))
- {
- must_output_die = 1;
- break;
- }
- }
+ /* Determine if this block directly contains any "significant"
+ local declarations which we will need to output DIEs for. */
+ if (debug_info_level > DINFO_LEVEL_TERSE)
+ /* We are not in terse mode so *any* local declaration counts
+ as being a "significant" one. */
+ must_output_die = ((BLOCK_VARS (stmt) != NULL
+ || BLOCK_NUM_NONLOCALIZED_VARS (stmt))
+ && (TREE_USED (stmt)
+ || TREE_ASM_WRITTEN (stmt)
+ || BLOCK_ABSTRACT (stmt)));
+ else if ((TREE_USED (stmt)
+ || TREE_ASM_WRITTEN (stmt)
+ || BLOCK_ABSTRACT (stmt))
+ && !dwarf2out_ignore_block (stmt))
+ must_output_die = 1;
}
/* It would be a waste of space to generate a Dwarf DW_TAG_lexical_block
instances and local (nested) function definitions. */
if (must_output_die)
{
- if (origin_code == FUNCTION_DECL)
+ if (inlined_func)
gen_inlined_subroutine_die (stmt, context_die, depth);
else
gen_lexical_block_die (stmt, context_die, depth);
decls_for_scope (stmt, context_die, depth);
}
+/* Process variable DECL (or variable with origin ORIGIN) within
+ block STMT and add it to CONTEXT_DIE. */
+static void
+process_scope_var (tree stmt, tree decl, tree origin, dw_die_ref context_die)
+{
+ dw_die_ref die;
+ tree decl_or_origin = decl ? decl : origin;
+ tree ultimate_origin = origin ? decl_ultimate_origin (origin) : NULL;
+
+ if (ultimate_origin)
+ origin = ultimate_origin;
+
+ if (TREE_CODE (decl_or_origin) == FUNCTION_DECL)
+ die = lookup_decl_die (decl_or_origin);
+ else if (TREE_CODE (decl_or_origin) == TYPE_DECL
+ && TYPE_DECL_IS_STUB (decl_or_origin))
+ die = lookup_type_die (TREE_TYPE (decl_or_origin));
+ else
+ die = NULL;
+
+ if (die != NULL && die->die_parent == NULL)
+ add_child_die (context_die, die);
+ else if (TREE_CODE (decl_or_origin) == IMPORTED_DECL)
+ dwarf2out_imported_module_or_decl_1 (decl_or_origin, DECL_NAME (decl_or_origin),
+ stmt, context_die);
+ else
+ gen_decl_die (decl, origin, context_die);
+}
+
/* Generate all of the decls declared within a given scope and (recursively)
all of its sub-blocks. */
decls_for_scope (tree stmt, dw_die_ref context_die, int depth)
{
tree decl;
+ unsigned int i;
tree subblocks;
/* Ignore NULL blocks. */
if (stmt == NULL_TREE)
return;
- if (TREE_USED (stmt))
- {
- /* Output the DIEs to represent all of the data objects and typedefs
- declared directly within this block but not within any nested
- sub-blocks. Also, nested function and tag DIEs have been
- generated with a parent of NULL; fix that up now. */
- for (decl = BLOCK_VARS (stmt); decl != NULL; decl = TREE_CHAIN (decl))
- {
- dw_die_ref die;
-
- if (TREE_CODE (decl) == FUNCTION_DECL)
- die = lookup_decl_die (decl);
- else if (TREE_CODE (decl) == TYPE_DECL && TYPE_DECL_IS_STUB (decl))
- die = lookup_type_die (TREE_TYPE (decl));
- else
- die = NULL;
-
- if (die != NULL && die->die_parent == NULL)
- add_child_die (context_die, die);
- /* Do not produce debug information for static variables since
- these might be optimized out. We are called for these later
- in varpool_analyze_pending_decls.
-
- But *do* produce it for Fortran COMMON variables because,
- even though they are static, their names can differ depending
- on the scope, which we need to preserve. */
- if (TREE_CODE (decl) == VAR_DECL && TREE_STATIC (decl)
- && !(is_fortran () && TREE_PUBLIC (decl)))
- ;
- else
- gen_decl_die (decl, context_die);
- }
- }
+ /* Output the DIEs to represent all of the data objects and typedefs
+ declared directly within this block but not within any nested
+ sub-blocks. Also, nested function and tag DIEs have been
+ generated with a parent of NULL; fix that up now. */
+ for (decl = BLOCK_VARS (stmt); decl != NULL; decl = TREE_CHAIN (decl))
+ process_scope_var (stmt, decl, NULL_TREE, context_die);
+ for (i = 0; i < BLOCK_NUM_NONLOCALIZED_VARS (stmt); i++)
+ process_scope_var (stmt, NULL, BLOCK_NONLOCALIZED_VAR (stmt, i),
+ context_die);
/* If we're at -g1, we're not interested in subblocks. */
if (debug_info_level <= DINFO_LEVEL_TERSE)
gen_decl_die() call. */
saved_external_flag = DECL_EXTERNAL (decl);
DECL_EXTERNAL (decl) = 1;
- gen_decl_die (decl, context_die);
+ gen_decl_die (decl, NULL, context_die);
DECL_EXTERNAL (decl) = saved_external_flag;
break;
if (is_fortran ())
return ns_context;
if (DECL_P (thing))
- gen_decl_die (thing, ns_context);
+ gen_decl_die (thing, NULL, ns_context);
else
gen_type_die (thing, ns_context);
}
/* Generate a DIE for a namespace or namespace alias. */
static void
-gen_namespace_die (tree decl)
+gen_namespace_die (tree decl, dw_die_ref context_die)
{
- dw_die_ref context_die = setup_namespace_context (decl, comp_unit_die);
+ dw_die_ref namespace_die;
/* Namespace aliases have a DECL_ABSTRACT_ORIGIN of the namespace
they are an alias of. */
if (DECL_ABSTRACT_ORIGIN (decl) == NULL)
{
/* Output a real namespace or module. */
- dw_die_ref namespace_die
- = new_die (is_fortran () ? DW_TAG_module : DW_TAG_namespace,
- context_die, decl);
+ context_die = setup_namespace_context (decl, comp_unit_die);
+ namespace_die = new_die (is_fortran ()
+ ? DW_TAG_module : DW_TAG_namespace,
+ context_die, decl);
/* For Fortran modules defined in different CU don't add src coords. */
if (namespace_die->die_tag == DW_TAG_module && DECL_EXTERNAL (decl))
add_name_attribute (namespace_die, dwarf2_name (decl, 0));
dw_die_ref origin_die
= force_decl_die (DECL_ABSTRACT_ORIGIN (decl));
+ if (DECL_CONTEXT (decl) == NULL_TREE
+ || TREE_CODE (DECL_CONTEXT (decl)) == NAMESPACE_DECL)
+ context_die = setup_namespace_context (decl, comp_unit_die);
/* Now create the namespace alias DIE. */
- dw_die_ref namespace_die
- = new_die (DW_TAG_imported_declaration, context_die, decl);
+ namespace_die = new_die (DW_TAG_imported_declaration, context_die, decl);
add_name_and_src_coords_attributes (namespace_die, decl);
add_AT_die_ref (namespace_die, DW_AT_import, origin_die);
equate_decl_number_to_die (decl, namespace_die);
/* Generate Dwarf debug information for a decl described by DECL. */
static void
-gen_decl_die (tree decl, dw_die_ref context_die)
+gen_decl_die (tree decl, tree origin, dw_die_ref context_die)
{
- tree origin;
+ tree decl_or_origin = decl ? decl : origin;
+ tree class_origin = NULL;
- if (DECL_P (decl) && DECL_IGNORED_P (decl))
+ if (DECL_P (decl_or_origin) && DECL_IGNORED_P (decl_or_origin))
return;
- switch (TREE_CODE (decl))
+ switch (TREE_CODE (decl_or_origin))
{
case ERROR_MARK:
break;
case FUNCTION_DECL:
/* Don't output any DIEs to represent mere function declarations,
unless they are class members or explicit block externs. */
- if (DECL_INITIAL (decl) == NULL_TREE && DECL_CONTEXT (decl) == NULL_TREE
- && (current_function_decl == NULL_TREE || DECL_ARTIFICIAL (decl)))
+ if (DECL_INITIAL (decl_or_origin) == NULL_TREE
+ && DECL_CONTEXT (decl_or_origin) == NULL_TREE
+ && (current_function_decl == NULL_TREE
+ || DECL_ARTIFICIAL (decl_or_origin)))
break;
#if 0
#endif
/* If we're emitting a clone, emit info for the abstract instance. */
- if (DECL_ORIGIN (decl) != decl)
- dwarf2out_abstract_function (DECL_ABSTRACT_ORIGIN (decl));
+ if (origin || DECL_ORIGIN (decl) != decl)
+ dwarf2out_abstract_function (origin ? origin : DECL_ABSTRACT_ORIGIN (decl));
/* If we're emitting an out-of-line copy of an inline function,
emit info for the abstract instance and set up to refer to it. */
gen_type_die (DECL_CONTEXT (decl), context_die);
/* And its containing type. */
- origin = decl_class_context (decl);
+ if (!origin)
+ origin = decl_class_context (decl);
if (origin != NULL_TREE)
gen_type_die_for_member (origin, decl, context_die);
}
/* Now output a DIE to represent the function itself. */
- gen_subprogram_die (decl, context_die);
+ if (decl)
+ gen_subprogram_die (decl, context_die);
break;
case TYPE_DECL:
of some type tag, if the given TYPE_DECL is marked as having been
instantiated from some other (original) TYPE_DECL node (e.g. one which
was generated within the original definition of an inline function) we
- have to generate a special (abbreviated) DW_TAG_structure_type,
- DW_TAG_union_type, or DW_TAG_enumeration_type DIE here. */
- if (TYPE_DECL_IS_STUB (decl) && decl_ultimate_origin (decl) != NULL_TREE
- && is_tagged_type (TREE_TYPE (decl)))
- {
- gen_tagged_type_instantiation_die (TREE_TYPE (decl), context_die);
- break;
- }
+ used to generate a special (abbreviated) DW_TAG_structure_type,
+ DW_TAG_union_type, or DW_TAG_enumeration_type DIE here. But nothing
+ should be actually referencing those DIEs, as variable DIEs with that
+ type would be emitted already in the abstract origin, so it was always
+ removed during unused type prunning. Don't add anything in this
+ case. */
+ if (TYPE_DECL_IS_STUB (decl) && decl_ultimate_origin (decl) != NULL_TREE)
+ break;
if (is_redundant_typedef (decl))
gen_type_die (TREE_TYPE (decl), context_die);
/* Output any DIEs that are needed to specify the type of this data
object. */
- if (TREE_CODE (decl) == RESULT_DECL && DECL_BY_REFERENCE (decl))
- gen_type_die (TREE_TYPE (TREE_TYPE (decl)), context_die);
+ if (TREE_CODE (decl_or_origin) == RESULT_DECL
+ && DECL_BY_REFERENCE (decl_or_origin))
+ gen_type_die (TREE_TYPE (TREE_TYPE (decl_or_origin)), context_die);
else
- gen_type_die (TREE_TYPE (decl), context_die);
+ gen_type_die (TREE_TYPE (decl_or_origin), context_die);
/* And its containing type. */
- origin = decl_class_context (decl);
- if (origin != NULL_TREE)
- gen_type_die_for_member (origin, decl, context_die);
+ class_origin = decl_class_context (decl_or_origin);
+ if (class_origin != NULL_TREE)
+ gen_type_die_for_member (class_origin, decl_or_origin, context_die);
/* And its containing namespace. */
- context_die = declare_in_namespace (decl, context_die);
+ context_die = declare_in_namespace (decl_or_origin, context_die);
/* Now output the DIE to represent the data object itself. This gets
complicated because of the possibility that the VAR_DECL really
represents an inlined instance of a formal parameter for an inline
function. */
- origin = decl_ultimate_origin (decl);
+ if (!origin)
+ origin = decl_ultimate_origin (decl);
if (origin != NULL_TREE && TREE_CODE (origin) == PARM_DECL)
- gen_formal_parameter_die (decl, context_die);
+ gen_formal_parameter_die (decl, origin, context_die);
else
- gen_variable_die (decl, context_die);
+ gen_variable_die (decl, origin, context_die);
break;
case FIELD_DECL:
break;
case PARM_DECL:
- if (DECL_BY_REFERENCE (decl))
- gen_type_die (TREE_TYPE (TREE_TYPE (decl)), context_die);
+ if (DECL_BY_REFERENCE (decl_or_origin))
+ gen_type_die (TREE_TYPE (TREE_TYPE (decl_or_origin)), context_die);
else
- gen_type_die (TREE_TYPE (decl), context_die);
- gen_formal_parameter_die (decl, context_die);
+ gen_type_die (TREE_TYPE (decl_or_origin), context_die);
+ gen_formal_parameter_die (decl, origin, context_die);
break;
case NAMESPACE_DECL:
- gen_namespace_die (decl);
+ case IMPORTED_DECL:
+ gen_namespace_die (decl, context_die);
break;
default:
}
/* Output debug information for imported module or decl DECL.
- NAME is non-NULL name in context if the decl has been renamed.
- CHILD is true if decl is one of the renamed decls as part of
- importing whole module. */
-
+ NAME is non-NULL name in the lexical block if the decl has been renamed.
+ LEXICAL_BLOCK is the lexical block (which TREE_CODE is a BLOCK)
+ that DECL belongs to.
+ LEXICAL_BLOCK_DIE is the DIE of LEXICAL_BLOCK. */
static void
-dwarf2out_imported_module_or_decl (tree decl, tree name, tree context,
- bool child)
+dwarf2out_imported_module_or_decl_1 (tree decl,
+ tree name,
+ tree lexical_block,
+ dw_die_ref lexical_block_die)
{
- dw_die_ref imported_die, at_import_die;
- dw_die_ref scope_die;
expanded_location xloc;
+ dw_die_ref imported_die = NULL;
+ dw_die_ref at_import_die;
- if (debug_info_level <= DINFO_LEVEL_TERSE)
- return;
-
- gcc_assert (decl);
-
- /* To emit DW_TAG_imported_module or DW_TAG_imported_decl, we need two DIEs.
- We need decl DIE for reference and scope die. First, get DIE for the decl
- itself. */
-
- /* Get the scope die for decl context. Use comp_unit_die for global module
- or decl. If die is not found for non globals, force new die. */
- if (context
- && TYPE_P (context)
- && !should_emit_struct_debug (context, DINFO_USAGE_DIR_USE))
- return;
- scope_die = get_context_die (context);
-
- if (child)
+ if (TREE_CODE (decl) == IMPORTED_DECL)
{
- gcc_assert (scope_die->die_child);
- gcc_assert (scope_die->die_child->die_tag == DW_TAG_imported_module);
- gcc_assert (TREE_CODE (decl) != NAMESPACE_DECL);
- scope_die = scope_die->die_child;
+ xloc = expand_location (DECL_SOURCE_LOCATION (decl));
+ decl = IMPORTED_DECL_ASSOCIATED_DECL (decl);
+ gcc_assert (decl);
}
+ else
+ xloc = expand_location (input_location);
- /* For TYPE_DECL or CONST_DECL, lookup TREE_TYPE. */
if (TREE_CODE (decl) == TYPE_DECL || TREE_CODE (decl) == CONST_DECL)
{
if (is_base_type (TREE_TYPE (decl)))
}
}
- /* OK, now we have DIEs for decl as well as scope. Emit imported die. */
if (TREE_CODE (decl) == NAMESPACE_DECL)
- imported_die = new_die (DW_TAG_imported_module, scope_die, context);
+ imported_die = new_die (DW_TAG_imported_module,
+ lexical_block_die,
+ lexical_block);
else
- imported_die = new_die (DW_TAG_imported_declaration, scope_die, context);
+ imported_die = new_die (DW_TAG_imported_declaration,
+ lexical_block_die,
+ lexical_block);
- xloc = expand_location (input_location);
add_AT_file (imported_die, DW_AT_decl_file, lookup_filename (xloc.file));
add_AT_unsigned (imported_die, DW_AT_decl_line, xloc.line);
if (name)
- add_AT_string (imported_die, DW_AT_name, IDENTIFIER_POINTER (name));
+ add_AT_string (imported_die, DW_AT_name,
+ IDENTIFIER_POINTER (name));
add_AT_die_ref (imported_die, DW_AT_import, at_import_die);
}
+/* Output debug information for imported module or decl DECL.
+ NAME is non-NULL name in context if the decl has been renamed.
+ CHILD is true if decl is one of the renamed decls as part of
+ importing whole module. */
+
+static void
+dwarf2out_imported_module_or_decl (tree decl, tree name, tree context,
+ bool child)
+{
+ /* dw_die_ref at_import_die; */
+ dw_die_ref scope_die;
+
+ if (debug_info_level <= DINFO_LEVEL_TERSE)
+ return;
+
+ gcc_assert (decl);
+
+ /* To emit DW_TAG_imported_module or DW_TAG_imported_decl, we need two DIEs.
+ We need decl DIE for reference and scope die. First, get DIE for the decl
+ itself. */
+
+ /* Get the scope die for decl context. Use comp_unit_die for global module
+ or decl. If die is not found for non globals, force new die. */
+ if (context
+ && TYPE_P (context)
+ && !should_emit_struct_debug (context, DINFO_USAGE_DIR_USE))
+ return;
+ scope_die = get_context_die (context);
+
+ if (child)
+ {
+ gcc_assert (scope_die->die_child);
+ gcc_assert (scope_die->die_child->die_tag == DW_TAG_imported_module);
+ gcc_assert (TREE_CODE (decl) != NAMESPACE_DECL);
+ scope_die = scope_die->die_child;
+ }
+
+ /* OK, now we have DIEs for decl as well as scope. Emit imported die. */
+ dwarf2out_imported_module_or_decl_1 (decl, name, context, scope_die);
+
+}
+
/* Write the debugging output for DECL. */
void
break;
case NAMESPACE_DECL:
+ case IMPORTED_DECL:
if (debug_info_level <= DINFO_LEVEL_TERSE)
return;
if (lookup_decl_die (decl) != NULL)
return;
}
- gen_decl_die (decl, context_die);
+ gen_decl_die (decl, NULL, context_die);
}
/* Output a marker (i.e. a label) for the beginning of the generated code for
dwarf2out_ignore_block (const_tree block)
{
tree decl;
+ unsigned int i;
for (decl = BLOCK_VARS (block); decl; decl = TREE_CHAIN (decl))
if (TREE_CODE (decl) == FUNCTION_DECL
|| (TREE_CODE (decl) == TYPE_DECL && TYPE_DECL_IS_STUB (decl)))
return 0;
+ for (i = 0; i < BLOCK_NUM_NONLOCALIZED_VARS (block); i++)
+ {
+ decl = BLOCK_NONLOCALIZED_VAR (block, i);
+ if (TREE_CODE (decl) == FUNCTION_DECL
+ || (TREE_CODE (decl) == TYPE_DECL && TYPE_DECL_IS_STUB (decl)))
+ return 0;
+ }
return 1;
}
}
}
+/* For local classes, look if any static member functions were emitted
+ and if so, mark them. */
+
+static void
+prune_unused_types_walk_local_classes (dw_die_ref die)
+{
+ dw_die_ref c;
+
+ if (die->die_mark == 2)
+ return;
+
+ switch (die->die_tag)
+ {
+ case DW_TAG_structure_type:
+ case DW_TAG_union_type:
+ case DW_TAG_class_type:
+ break;
+
+ case DW_TAG_subprogram:
+ if (!get_AT_flag (die, DW_AT_declaration)
+ || die->die_definition != NULL)
+ prune_unused_types_mark (die, 1);
+ return;
+
+ default:
+ return;
+ }
+
+ /* Mark children. */
+ FOR_EACH_CHILD (die, c, prune_unused_types_walk_local_classes (c));
+}
/* Walk the tree DIE and mark types that we actually use. */
{
dw_die_ref c;
- /* Don't do anything if this node is already marked. */
- if (die->die_mark)
+ /* Don't do anything if this node is already marked and
+ children have been marked as well. */
+ if (die->die_mark == 2)
return;
switch (die->die_tag)
{
+ case DW_TAG_structure_type:
+ case DW_TAG_union_type:
+ case DW_TAG_class_type:
+ if (die->die_perennial_p)
+ break;
+
+ for (c = die->die_parent; c; c = c->die_parent)
+ if (c->die_tag == DW_TAG_subprogram)
+ break;
+
+ /* Finding used static member functions inside of classes
+ is needed just for local classes, because for other classes
+ static member function DIEs with DW_AT_specification
+ are emitted outside of the DW_TAG_*_type. If we ever change
+ it, we'd need to call this even for non-local classes. */
+ if (c)
+ prune_unused_types_walk_local_classes (die);
+
+ /* It's a type node --- don't mark it. */
+ return;
+
case DW_TAG_const_type:
case DW_TAG_packed_type:
case DW_TAG_pointer_type:
case DW_TAG_volatile_type:
case DW_TAG_typedef:
case DW_TAG_array_type:
- case DW_TAG_structure_type:
- case DW_TAG_union_type:
- case DW_TAG_class_type:
case DW_TAG_interface_type:
case DW_TAG_friend:
case DW_TAG_variant_part:
break;
}
- die->die_mark = 1;
+ if (die->die_mark == 0)
+ {
+ die->die_mark = 1;
- /* Now, mark any dies referenced from here. */
- prune_unused_types_walk_attribs (die);
+ /* Now, mark any dies referenced from here. */
+ prune_unused_types_walk_attribs (die);
+ }
+
+ die->die_mark = 2;
/* Mark children. */
FOR_EACH_CHILD (die, c, prune_unused_types_walk (c));
{
limbo_die_node *node, *next_node;
dw_die_ref die = 0;
+ unsigned int i;
/* Add the name for the main input file now. We delayed this from
dwarf2out_init to avoid complications with PCH. */
add_comp_dir_attribute (comp_unit_die);
}
+ for (i = 0; i < VEC_length (deferred_locations, deferred_locations_list); i++)
+ {
+ add_location_or_const_value_attribute (
+ VEC_index (deferred_locations, deferred_locations_list, i)->die,
+ VEC_index (deferred_locations, deferred_locations_list, i)->variable,
+ DW_AT_location);
+ }
+
/* Traverse the limbo die list, and add parent/child links. The only
dies without parents that should be here are concrete instances of
inline functions, and the comp_unit_die. We can ignore the comp_unit_die.
for (node = limbo_die_list; node; node = node->next)
output_comp_unit (node->die, 0);
- output_comp_unit (comp_unit_die, 0);
+ /* Output the main compilation unit if non-empty or if .debug_macinfo
+ has been emitted. */
+ output_comp_unit (comp_unit_die, debug_info_level >= DINFO_LEVEL_VERBOSE);
/* Output the abbreviation table. */
switch_to_section (debug_abbrev_section);
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