471 lines
16 KiB
C
471 lines
16 KiB
C
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/* dwarf2out.h - Various declarations for functions found in dwarf2out.cc
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Copyright (C) 1998-2023 Free Software Foundation, Inc.
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This file is part of GCC.
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GCC is free software; you can redistribute it and/or modify it under
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the terms of the GNU General Public License as published by the Free
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Software Foundation; either version 3, or (at your option) any later
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version.
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GCC is distributed in the hope that it will be useful, but WITHOUT ANY
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WARRANTY; without even the implied warranty of MERCHANTABILITY or
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FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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for more details.
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You should have received a copy of the GNU General Public License
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along with GCC; see the file COPYING3. If not see
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<http://www.gnu.org/licenses/>. */
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#ifndef GCC_DWARF2OUT_H
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#define GCC_DWARF2OUT_H 1
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#include "dwarf2.h" /* ??? Remove this once only used by dwarf2foo.c. */
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typedef struct die_struct *dw_die_ref;
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typedef const struct die_struct *const_dw_die_ref;
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typedef struct dw_val_node *dw_val_ref;
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typedef struct dw_cfi_node *dw_cfi_ref;
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typedef struct dw_loc_descr_node *dw_loc_descr_ref;
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typedef struct dw_loc_list_struct *dw_loc_list_ref;
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typedef struct dw_discr_list_node *dw_discr_list_ref;
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typedef wide_int *wide_int_ptr;
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/* Call frames are described using a sequence of Call Frame
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Information instructions. The register number, offset
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and address fields are provided as possible operands;
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their use is selected by the opcode field. */
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enum dw_cfi_oprnd_type {
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dw_cfi_oprnd_unused,
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dw_cfi_oprnd_reg_num,
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dw_cfi_oprnd_offset,
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dw_cfi_oprnd_addr,
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dw_cfi_oprnd_loc,
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dw_cfi_oprnd_cfa_loc
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};
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typedef union GTY(()) {
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unsigned int GTY ((tag ("dw_cfi_oprnd_reg_num"))) dw_cfi_reg_num;
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HOST_WIDE_INT GTY ((tag ("dw_cfi_oprnd_offset"))) dw_cfi_offset;
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const char * GTY ((tag ("dw_cfi_oprnd_addr"))) dw_cfi_addr;
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struct dw_loc_descr_node * GTY ((tag ("dw_cfi_oprnd_loc"))) dw_cfi_loc;
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struct dw_cfa_location * GTY ((tag ("dw_cfi_oprnd_cfa_loc")))
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dw_cfi_cfa_loc;
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} dw_cfi_oprnd;
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struct GTY(()) dw_cfi_node {
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enum dwarf_call_frame_info dw_cfi_opc;
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dw_cfi_oprnd GTY ((desc ("dw_cfi_oprnd1_desc (%1.dw_cfi_opc)")))
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dw_cfi_oprnd1;
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dw_cfi_oprnd GTY ((desc ("dw_cfi_oprnd2_desc (%1.dw_cfi_opc)")))
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dw_cfi_oprnd2;
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};
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typedef vec<dw_cfi_ref, va_gc> *cfi_vec;
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typedef struct dw_fde_node *dw_fde_ref;
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/* All call frame descriptions (FDE's) in the GCC generated DWARF
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refer to a single Common Information Entry (CIE), defined at
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the beginning of the .debug_frame section. This use of a single
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CIE obviates the need to keep track of multiple CIE's
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in the DWARF generation routines below. */
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struct GTY(()) dw_fde_node {
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tree decl;
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const char *dw_fde_begin;
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const char *dw_fde_current_label;
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const char *dw_fde_end;
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const char *dw_fde_vms_end_prologue;
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const char *dw_fde_vms_begin_epilogue;
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const char *dw_fde_second_begin;
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const char *dw_fde_second_end;
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cfi_vec dw_fde_cfi;
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int dw_fde_switch_cfi_index; /* Last CFI before switching sections. */
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HOST_WIDE_INT stack_realignment;
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unsigned funcdef_number;
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unsigned fde_index;
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/* Dynamic realign argument pointer register. */
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unsigned int drap_reg;
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/* Virtual dynamic realign argument pointer register. */
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unsigned int vdrap_reg;
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/* These 3 flags are copied from rtl_data in function.h. */
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unsigned all_throwers_are_sibcalls : 1;
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unsigned uses_eh_lsda : 1;
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unsigned nothrow : 1;
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/* Whether we did stack realign in this call frame. */
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unsigned stack_realign : 1;
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/* Whether dynamic realign argument pointer register has been saved. */
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unsigned drap_reg_saved: 1;
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/* True iff dw_fde_begin label is in text_section or cold_text_section. */
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unsigned in_std_section : 1;
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/* True iff dw_fde_second_begin label is in text_section or
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cold_text_section. */
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unsigned second_in_std_section : 1;
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/* True if Rule 18 described in dwarf2cfi.cc is in action, i.e. for dynamic
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stack realignment in between pushing of hard frame pointer to stack
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and setting hard frame pointer to stack pointer. The register save for
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hard frame pointer register should be emitted only on the latter
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instruction. */
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unsigned rule18 : 1;
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/* True if this function is to be ignored by debugger. */
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unsigned ignored_debug : 1;
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};
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/* This represents a register, in DWARF_FRAME_REGNUM space, for use in CFA
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definitions and expressions.
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Most architectures only need a single register number, but some (amdgcn)
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have pointers that span multiple registers. DWARF permits arbitrary
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register sets but existing use-cases only require contiguous register
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sets, as represented here. */
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struct GTY(()) cfa_reg {
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unsigned int reg;
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unsigned short span;
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unsigned short span_width; /* A.K.A. register mode size. */
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cfa_reg& set_by_dwreg (unsigned int r)
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{
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reg = r;
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span = 1;
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span_width = 0; /* Unknown size (permitted when span == 1). */
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return *this;
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}
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bool operator== (const cfa_reg &other) const
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{
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return (reg == other.reg && span == other.span
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&& (span_width == other.span_width
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|| (span == 1
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&& (span_width == 0 || other.span_width == 0))));
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}
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bool operator!= (const cfa_reg &other) const
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{
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return !(*this == other);
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}
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};
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/* This is how we define the location of the CFA. We use to handle it
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as REG + OFFSET all the time, but now it can be more complex.
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It can now be either REG + CFA_OFFSET or *(REG + BASE_OFFSET) + CFA_OFFSET.
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Instead of passing around REG and OFFSET, we pass a copy
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of this structure. */
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struct GTY(()) dw_cfa_location {
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poly_int64_pod offset;
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poly_int64_pod base_offset;
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/* REG is in DWARF_FRAME_REGNUM space, *not* normal REGNO space. */
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struct cfa_reg reg;
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BOOL_BITFIELD indirect : 1; /* 1 if CFA is accessed via a dereference. */
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BOOL_BITFIELD in_use : 1; /* 1 if a saved cfa is stored here. */
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};
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/* Each DIE may have a series of attribute/value pairs. Values
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can take on several forms. The forms that are used in this
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implementation are listed below. */
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enum dw_val_class
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{
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dw_val_class_none,
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dw_val_class_addr,
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dw_val_class_offset,
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dw_val_class_loc,
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dw_val_class_loc_list,
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dw_val_class_range_list,
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dw_val_class_const,
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dw_val_class_unsigned_const,
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dw_val_class_const_double,
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dw_val_class_wide_int,
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dw_val_class_vec,
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dw_val_class_flag,
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dw_val_class_die_ref,
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dw_val_class_fde_ref,
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dw_val_class_lbl_id,
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dw_val_class_lineptr,
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dw_val_class_str,
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dw_val_class_macptr,
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dw_val_class_loclistsptr,
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dw_val_class_file,
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dw_val_class_data8,
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dw_val_class_decl_ref,
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dw_val_class_vms_delta,
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dw_val_class_high_pc,
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dw_val_class_discr_value,
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dw_val_class_discr_list,
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dw_val_class_const_implicit,
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dw_val_class_unsigned_const_implicit,
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dw_val_class_file_implicit,
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dw_val_class_view_list,
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dw_val_class_symview
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};
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/* Describe a floating point constant value, or a vector constant value. */
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struct GTY(()) dw_vec_const {
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void * GTY((atomic)) array;
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unsigned length;
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unsigned elt_size;
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};
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/* Describe a single value that a discriminant can match.
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Discriminants (in the "record variant part" meaning) are scalars.
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dw_discr_list_ref and dw_discr_value are a mean to describe a set of
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discriminant values that are matched by a particular variant.
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Discriminants can be signed or unsigned scalars, and can be discriminants
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values. Both have to be consistent, though. */
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struct GTY(()) dw_discr_value {
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int pos; /* Whether the discriminant value is positive (unsigned). */
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union
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{
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HOST_WIDE_INT GTY ((tag ("0"))) sval;
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unsigned HOST_WIDE_INT GTY ((tag ("1"))) uval;
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}
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GTY ((desc ("%1.pos"))) v;
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};
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struct addr_table_entry;
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/* The dw_val_node describes an attribute's value, as it is
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represented internally. */
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struct GTY(()) dw_val_node {
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enum dw_val_class val_class;
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struct addr_table_entry * GTY(()) val_entry;
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union dw_val_struct_union
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{
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rtx GTY ((tag ("dw_val_class_addr"))) val_addr;
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unsigned HOST_WIDE_INT GTY ((tag ("dw_val_class_offset"))) val_offset;
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dw_loc_list_ref GTY ((tag ("dw_val_class_loc_list"))) val_loc_list;
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dw_die_ref GTY ((tag ("dw_val_class_view_list"))) val_view_list;
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dw_loc_descr_ref GTY ((tag ("dw_val_class_loc"))) val_loc;
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HOST_WIDE_INT GTY ((default)) val_int;
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unsigned HOST_WIDE_INT
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GTY ((tag ("dw_val_class_unsigned_const"))) val_unsigned;
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double_int GTY ((tag ("dw_val_class_const_double"))) val_double;
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wide_int_ptr GTY ((tag ("dw_val_class_wide_int"))) val_wide;
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dw_vec_const GTY ((tag ("dw_val_class_vec"))) val_vec;
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struct dw_val_die_union
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{
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dw_die_ref die;
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int external;
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} GTY ((tag ("dw_val_class_die_ref"))) val_die_ref;
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unsigned GTY ((tag ("dw_val_class_fde_ref"))) val_fde_index;
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struct indirect_string_node * GTY ((tag ("dw_val_class_str"))) val_str;
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char * GTY ((tag ("dw_val_class_lbl_id"))) val_lbl_id;
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unsigned char GTY ((tag ("dw_val_class_flag"))) val_flag;
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struct dwarf_file_data * GTY ((tag ("dw_val_class_file"))) val_file;
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struct dwarf_file_data *
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GTY ((tag ("dw_val_class_file_implicit"))) val_file_implicit;
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unsigned char GTY ((tag ("dw_val_class_data8"))) val_data8[8];
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tree GTY ((tag ("dw_val_class_decl_ref"))) val_decl_ref;
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struct dw_val_vms_delta_union
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{
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char * lbl1;
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char * lbl2;
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} GTY ((tag ("dw_val_class_vms_delta"))) val_vms_delta;
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dw_discr_value GTY ((tag ("dw_val_class_discr_value"))) val_discr_value;
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dw_discr_list_ref GTY ((tag ("dw_val_class_discr_list"))) val_discr_list;
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char * GTY ((tag ("dw_val_class_symview"))) val_symbolic_view;
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}
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GTY ((desc ("%1.val_class"))) v;
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};
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/* Locations in memory are described using a sequence of stack machine
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operations. */
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struct GTY((chain_next ("%h.dw_loc_next"))) dw_loc_descr_node {
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dw_loc_descr_ref dw_loc_next;
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ENUM_BITFIELD (dwarf_location_atom) dw_loc_opc : 8;
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/* Used to distinguish DW_OP_addr with a direct symbol relocation
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from DW_OP_addr with a dtp-relative symbol relocation. */
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unsigned int dtprel : 1;
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/* For DW_OP_pick, DW_OP_dup and DW_OP_over operations: true iff.
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it targets a DWARF prodecure argument. In this case, it needs to be
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relocated according to the current frame offset. */
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unsigned int frame_offset_rel : 1;
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int dw_loc_addr;
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dw_val_node dw_loc_oprnd1;
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dw_val_node dw_loc_oprnd2;
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};
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/* A variant (inside a record variant part) is selected when the corresponding
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discriminant matches its set of values (see the comment for dw_discr_value).
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The following datastructure holds such matching information. */
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struct GTY(()) dw_discr_list_node {
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dw_discr_list_ref dw_discr_next;
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dw_discr_value dw_discr_lower_bound;
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dw_discr_value dw_discr_upper_bound;
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/* This node represents only the value in dw_discr_lower_bound when it's
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zero. It represents the range between the two fields (bounds included)
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otherwise. */
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int dw_discr_range;
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};
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/* Interface from dwarf2out.cc to dwarf2cfi.cc. */
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extern struct dw_loc_descr_node *build_cfa_loc
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(dw_cfa_location *, poly_int64);
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extern struct dw_loc_descr_node *build_cfa_aligned_loc
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(dw_cfa_location *, poly_int64, HOST_WIDE_INT);
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extern struct dw_loc_descr_node *build_span_loc (struct cfa_reg);
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extern struct dw_loc_descr_node *mem_loc_descriptor
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(rtx, machine_mode mode, machine_mode mem_mode,
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enum var_init_status);
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extern bool loc_descr_equal_p (dw_loc_descr_ref, dw_loc_descr_ref);
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extern dw_fde_ref dwarf2out_alloc_current_fde (void);
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extern unsigned long size_of_locs (dw_loc_descr_ref);
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extern void output_loc_sequence (dw_loc_descr_ref, int);
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extern void output_loc_sequence_raw (dw_loc_descr_ref);
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/* Interface from dwarf2cfi.cc to dwarf2out.cc. */
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extern void lookup_cfa_1 (dw_cfi_ref cfi, dw_cfa_location *loc,
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dw_cfa_location *remember);
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extern bool cfa_equal_p (const dw_cfa_location *, const dw_cfa_location *);
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extern void output_cfi (dw_cfi_ref, dw_fde_ref, int);
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extern GTY(()) cfi_vec cie_cfi_vec;
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/* Interface from dwarf2*.c to the rest of the compiler. */
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extern enum dw_cfi_oprnd_type dw_cfi_oprnd1_desc
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(enum dwarf_call_frame_info cfi);
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extern enum dw_cfi_oprnd_type dw_cfi_oprnd2_desc
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(enum dwarf_call_frame_info cfi);
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extern void output_cfi_directive (FILE *f, struct dw_cfi_node *cfi);
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extern void dwarf2out_emit_cfi (dw_cfi_ref cfi);
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extern void debug_dwarf (void);
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struct die_struct;
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extern void debug_dwarf_die (struct die_struct *);
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extern void debug_dwarf_loc_descr (dw_loc_descr_ref);
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extern void debug (die_struct &ref);
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extern void debug (die_struct *ptr);
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extern void dwarf2out_set_demangle_name_func (const char *(*) (const char *));
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#ifdef VMS_DEBUGGING_INFO
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extern void dwarf2out_vms_debug_main_pointer (void);
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#endif
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enum array_descr_ordering
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{
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array_descr_ordering_default,
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array_descr_ordering_row_major,
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array_descr_ordering_column_major
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};
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#define DWARF2OUT_ARRAY_DESCR_INFO_MAX_DIMEN 16
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struct array_descr_info
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{
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int ndimensions;
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enum array_descr_ordering ordering;
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tree element_type;
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tree base_decl;
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tree data_location;
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tree allocated;
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tree associated;
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tree stride;
|
||
|
tree rank;
|
||
|
bool stride_in_bits;
|
||
|
struct array_descr_dimen
|
||
|
{
|
||
|
/* GCC uses sizetype for array indices, so lower_bound and upper_bound
|
||
|
will likely be "sizetype" values. However, bounds may have another
|
||
|
type in the original source code. */
|
||
|
tree bounds_type;
|
||
|
tree lower_bound;
|
||
|
tree upper_bound;
|
||
|
|
||
|
/* Only Fortran uses more than one dimension for array types. For other
|
||
|
languages, the stride can be rather specified for the whole array. */
|
||
|
tree stride;
|
||
|
} dimen[DWARF2OUT_ARRAY_DESCR_INFO_MAX_DIMEN];
|
||
|
};
|
||
|
|
||
|
enum fixed_point_scale_factor
|
||
|
{
|
||
|
fixed_point_scale_factor_binary,
|
||
|
fixed_point_scale_factor_decimal,
|
||
|
fixed_point_scale_factor_arbitrary
|
||
|
};
|
||
|
|
||
|
struct fixed_point_type_info
|
||
|
{
|
||
|
/* The scale factor is the value one has to multiply the actual data with
|
||
|
to get the fixed point value. We support three ways to encode it. */
|
||
|
enum fixed_point_scale_factor scale_factor_kind;
|
||
|
union
|
||
|
{
|
||
|
/* For a binary scale factor, the scale factor is 2 ** binary. */
|
||
|
int binary;
|
||
|
/* For a decimal scale factor, the scale factor is 10 ** decimal. */
|
||
|
int decimal;
|
||
|
/* For an arbitrary scale factor, the scale factor is the ratio
|
||
|
numerator / denominator. */
|
||
|
struct { tree numerator; tree denominator; } arbitrary;
|
||
|
} scale_factor;
|
||
|
};
|
||
|
|
||
|
void dwarf2out_cc_finalize (void);
|
||
|
|
||
|
/* Some DWARF internals are exposed for the needs of DWARF-based debug
|
||
|
formats. */
|
||
|
|
||
|
/* Each DIE attribute has a field specifying the attribute kind,
|
||
|
a link to the next attribute in the chain, and an attribute value.
|
||
|
Attributes are typically linked below the DIE they modify. */
|
||
|
|
||
|
typedef struct GTY(()) dw_attr_struct {
|
||
|
enum dwarf_attribute dw_attr;
|
||
|
dw_val_node dw_attr_val;
|
||
|
}
|
||
|
dw_attr_node;
|
||
|
|
||
|
extern dw_attr_node *get_AT (dw_die_ref, enum dwarf_attribute);
|
||
|
extern HOST_WIDE_INT AT_int (dw_attr_node *);
|
||
|
extern unsigned HOST_WIDE_INT AT_unsigned (dw_attr_node *a);
|
||
|
extern dw_loc_descr_ref AT_loc (dw_attr_node *);
|
||
|
extern dw_die_ref get_AT_ref (dw_die_ref, enum dwarf_attribute);
|
||
|
extern const char *get_AT_string (dw_die_ref, enum dwarf_attribute);
|
||
|
extern enum dw_val_class AT_class (dw_attr_node *);
|
||
|
extern unsigned HOST_WIDE_INT AT_unsigned (dw_attr_node *);
|
||
|
extern unsigned get_AT_unsigned (dw_die_ref, enum dwarf_attribute);
|
||
|
extern int get_AT_flag (dw_die_ref, enum dwarf_attribute);
|
||
|
|
||
|
extern void add_name_attribute (dw_die_ref, const char *);
|
||
|
|
||
|
extern dw_die_ref new_die_raw (enum dwarf_tag);
|
||
|
extern dw_die_ref base_type_die (tree, bool);
|
||
|
|
||
|
extern dw_die_ref lookup_decl_die (tree);
|
||
|
extern dw_die_ref lookup_type_die (tree);
|
||
|
|
||
|
extern dw_die_ref dw_get_die_child (dw_die_ref);
|
||
|
extern dw_die_ref dw_get_die_sib (dw_die_ref);
|
||
|
extern enum dwarf_tag dw_get_die_tag (dw_die_ref);
|
||
|
|
||
|
/* Data about a single source file. */
|
||
|
struct GTY((for_user)) dwarf_file_data {
|
||
|
const char * key;
|
||
|
const char * filename;
|
||
|
int emitted_number;
|
||
|
};
|
||
|
|
||
|
extern struct dwarf_file_data *get_AT_file (dw_die_ref,
|
||
|
enum dwarf_attribute);
|
||
|
|
||
|
#endif /* GCC_DWARF2OUT_H */
|