pa64-hpux.h (FINI_SECTION_ASM_OP): Define to null string.
[official-gcc.git] / gcc / dwarf2out.h
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1 /* dwarf2out.h - Various declarations for functions found in dwarf2out.c
2 Copyright (C) 1998-2016 Free Software Foundation, Inc.
4 This file is part of GCC.
6 GCC is free software; you can redistribute it and/or modify it under
7 the terms of the GNU General Public License as published by the Free
8 Software Foundation; either version 3, or (at your option) any later
9 version.
11 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
12 WARRANTY; without even the implied warranty of MERCHANTABILITY or
13 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
14 for more details.
16 You should have received a copy of the GNU General Public License
17 along with GCC; see the file COPYING3. If not see
18 <http://www.gnu.org/licenses/>. */
20 #ifndef GCC_DWARF2OUT_H
21 #define GCC_DWARF2OUT_H 1
23 #include "dwarf2.h" /* ??? Remove this once only used by dwarf2foo.c. */
25 typedef struct die_struct *dw_die_ref;
26 typedef const struct die_struct *const_dw_die_ref;
28 typedef struct dw_val_node *dw_val_ref;
29 typedef struct dw_cfi_node *dw_cfi_ref;
30 typedef struct dw_loc_descr_node *dw_loc_descr_ref;
31 typedef struct dw_loc_list_struct *dw_loc_list_ref;
32 typedef struct dw_discr_list_node *dw_discr_list_ref;
33 typedef wide_int *wide_int_ptr;
36 /* Call frames are described using a sequence of Call Frame
37 Information instructions. The register number, offset
38 and address fields are provided as possible operands;
39 their use is selected by the opcode field. */
41 enum dw_cfi_oprnd_type {
42 dw_cfi_oprnd_unused,
43 dw_cfi_oprnd_reg_num,
44 dw_cfi_oprnd_offset,
45 dw_cfi_oprnd_addr,
46 dw_cfi_oprnd_loc
49 typedef union GTY(()) {
50 unsigned int GTY ((tag ("dw_cfi_oprnd_reg_num"))) dw_cfi_reg_num;
51 HOST_WIDE_INT GTY ((tag ("dw_cfi_oprnd_offset"))) dw_cfi_offset;
52 const char * GTY ((tag ("dw_cfi_oprnd_addr"))) dw_cfi_addr;
53 struct dw_loc_descr_node * GTY ((tag ("dw_cfi_oprnd_loc"))) dw_cfi_loc;
54 } dw_cfi_oprnd;
56 struct GTY(()) dw_cfi_node {
57 enum dwarf_call_frame_info dw_cfi_opc;
58 dw_cfi_oprnd GTY ((desc ("dw_cfi_oprnd1_desc (%1.dw_cfi_opc)")))
59 dw_cfi_oprnd1;
60 dw_cfi_oprnd GTY ((desc ("dw_cfi_oprnd2_desc (%1.dw_cfi_opc)")))
61 dw_cfi_oprnd2;
65 typedef vec<dw_cfi_ref, va_gc> *cfi_vec;
67 typedef struct dw_fde_node *dw_fde_ref;
69 /* All call frame descriptions (FDE's) in the GCC generated DWARF
70 refer to a single Common Information Entry (CIE), defined at
71 the beginning of the .debug_frame section. This use of a single
72 CIE obviates the need to keep track of multiple CIE's
73 in the DWARF generation routines below. */
75 struct GTY(()) dw_fde_node {
76 tree decl;
77 const char *dw_fde_begin;
78 const char *dw_fde_current_label;
79 const char *dw_fde_end;
80 const char *dw_fde_vms_end_prologue;
81 const char *dw_fde_vms_begin_epilogue;
82 const char *dw_fde_second_begin;
83 const char *dw_fde_second_end;
84 cfi_vec dw_fde_cfi;
85 int dw_fde_switch_cfi_index; /* Last CFI before switching sections. */
86 HOST_WIDE_INT stack_realignment;
88 unsigned funcdef_number;
89 unsigned fde_index;
91 /* Dynamic realign argument pointer register. */
92 unsigned int drap_reg;
93 /* Virtual dynamic realign argument pointer register. */
94 unsigned int vdrap_reg;
95 /* These 3 flags are copied from rtl_data in function.h. */
96 unsigned all_throwers_are_sibcalls : 1;
97 unsigned uses_eh_lsda : 1;
98 unsigned nothrow : 1;
99 /* Whether we did stack realign in this call frame. */
100 unsigned stack_realign : 1;
101 /* Whether dynamic realign argument pointer register has been saved. */
102 unsigned drap_reg_saved: 1;
103 /* True iff dw_fde_begin label is in text_section or cold_text_section. */
104 unsigned in_std_section : 1;
105 /* True iff dw_fde_second_begin label is in text_section or
106 cold_text_section. */
107 unsigned second_in_std_section : 1;
111 /* This is how we define the location of the CFA. We use to handle it
112 as REG + OFFSET all the time, but now it can be more complex.
113 It can now be either REG + CFA_OFFSET or *(REG + BASE_OFFSET) + CFA_OFFSET.
114 Instead of passing around REG and OFFSET, we pass a copy
115 of this structure. */
116 struct GTY(()) dw_cfa_location {
117 HOST_WIDE_INT offset;
118 HOST_WIDE_INT base_offset;
119 /* REG is in DWARF_FRAME_REGNUM space, *not* normal REGNO space. */
120 unsigned int reg;
121 BOOL_BITFIELD indirect : 1; /* 1 if CFA is accessed via a dereference. */
122 BOOL_BITFIELD in_use : 1; /* 1 if a saved cfa is stored here. */
126 /* Each DIE may have a series of attribute/value pairs. Values
127 can take on several forms. The forms that are used in this
128 implementation are listed below. */
130 enum dw_val_class
132 dw_val_class_none,
133 dw_val_class_addr,
134 dw_val_class_offset,
135 dw_val_class_loc,
136 dw_val_class_loc_list,
137 dw_val_class_range_list,
138 dw_val_class_const,
139 dw_val_class_unsigned_const,
140 dw_val_class_const_double,
141 dw_val_class_wide_int,
142 dw_val_class_vec,
143 dw_val_class_flag,
144 dw_val_class_die_ref,
145 dw_val_class_fde_ref,
146 dw_val_class_lbl_id,
147 dw_val_class_lineptr,
148 dw_val_class_str,
149 dw_val_class_macptr,
150 dw_val_class_file,
151 dw_val_class_data8,
152 dw_val_class_decl_ref,
153 dw_val_class_vms_delta,
154 dw_val_class_high_pc,
155 dw_val_class_discr_value,
156 dw_val_class_discr_list
159 /* Describe a floating point constant value, or a vector constant value. */
161 struct GTY(()) dw_vec_const {
162 unsigned char * GTY((atomic)) array;
163 unsigned length;
164 unsigned elt_size;
167 /* Describe a single value that a discriminant can match.
169 Discriminants (in the "record variant part" meaning) are scalars.
170 dw_discr_list_ref and dw_discr_value are a mean to describe a set of
171 discriminant values that are matched by a particular variant.
173 Discriminants can be signed or unsigned scalars, and can be discriminants
174 values. Both have to be consistent, though. */
176 struct GTY(()) dw_discr_value {
177 int pos; /* Whether the discriminant value is positive (unsigned). */
178 union
180 HOST_WIDE_INT GTY ((tag ("0"))) sval;
181 unsigned HOST_WIDE_INT GTY ((tag ("1"))) uval;
183 GTY ((desc ("%1.pos"))) v;
186 struct addr_table_entry;
188 /* The dw_val_node describes an attribute's value, as it is
189 represented internally. */
191 struct GTY(()) dw_val_node {
192 enum dw_val_class val_class;
193 struct addr_table_entry * GTY(()) val_entry;
194 union dw_val_struct_union
196 rtx GTY ((tag ("dw_val_class_addr"))) val_addr;
197 unsigned HOST_WIDE_INT GTY ((tag ("dw_val_class_offset"))) val_offset;
198 dw_loc_list_ref GTY ((tag ("dw_val_class_loc_list"))) val_loc_list;
199 dw_loc_descr_ref GTY ((tag ("dw_val_class_loc"))) val_loc;
200 HOST_WIDE_INT GTY ((default)) val_int;
201 unsigned HOST_WIDE_INT GTY ((tag ("dw_val_class_unsigned_const"))) val_unsigned;
202 double_int GTY ((tag ("dw_val_class_const_double"))) val_double;
203 wide_int_ptr GTY ((tag ("dw_val_class_wide_int"))) val_wide;
204 dw_vec_const GTY ((tag ("dw_val_class_vec"))) val_vec;
205 struct dw_val_die_union
207 dw_die_ref die;
208 int external;
209 } GTY ((tag ("dw_val_class_die_ref"))) val_die_ref;
210 unsigned GTY ((tag ("dw_val_class_fde_ref"))) val_fde_index;
211 struct indirect_string_node * GTY ((tag ("dw_val_class_str"))) val_str;
212 char * GTY ((tag ("dw_val_class_lbl_id"))) val_lbl_id;
213 unsigned char GTY ((tag ("dw_val_class_flag"))) val_flag;
214 struct dwarf_file_data * GTY ((tag ("dw_val_class_file"))) val_file;
215 unsigned char GTY ((tag ("dw_val_class_data8"))) val_data8[8];
216 tree GTY ((tag ("dw_val_class_decl_ref"))) val_decl_ref;
217 struct dw_val_vms_delta_union
219 char * lbl1;
220 char * lbl2;
221 } GTY ((tag ("dw_val_class_vms_delta"))) val_vms_delta;
222 dw_discr_value GTY ((tag ("dw_val_class_discr_value"))) val_discr_value;
223 dw_discr_list_ref GTY ((tag ("dw_val_class_discr_list"))) val_discr_list;
225 GTY ((desc ("%1.val_class"))) v;
228 /* Locations in memory are described using a sequence of stack machine
229 operations. */
231 struct GTY((chain_next ("%h.dw_loc_next"))) dw_loc_descr_node {
232 dw_loc_descr_ref dw_loc_next;
233 ENUM_BITFIELD (dwarf_location_atom) dw_loc_opc : 8;
234 /* Used to distinguish DW_OP_addr with a direct symbol relocation
235 from DW_OP_addr with a dtp-relative symbol relocation. */
236 unsigned int dtprel : 1;
237 /* For DW_OP_pick operations: true iff. it targets a DWARF prodecure
238 argument. In this case, it needs to be relocated according to the current
239 frame offset. */
240 unsigned int frame_offset_rel : 1;
241 int dw_loc_addr;
242 dw_val_node dw_loc_oprnd1;
243 dw_val_node dw_loc_oprnd2;
246 /* A variant (inside a record variant part) is selected when the corresponding
247 discriminant matches its set of values (see the comment for dw_discr_value).
248 The following datastructure holds such matching information. */
250 struct GTY(()) dw_discr_list_node {
251 dw_discr_list_ref dw_discr_next;
253 dw_discr_value dw_discr_lower_bound;
254 dw_discr_value dw_discr_upper_bound;
255 /* This node represents only the value in dw_discr_lower_bound when it's
256 zero. It represents the range between the two fields (bounds included)
257 otherwise. */
258 int dw_discr_range;
261 /* Interface from dwarf2out.c to dwarf2cfi.c. */
262 extern struct dw_loc_descr_node *build_cfa_loc
263 (dw_cfa_location *, HOST_WIDE_INT);
264 extern struct dw_loc_descr_node *build_cfa_aligned_loc
265 (dw_cfa_location *, HOST_WIDE_INT offset, HOST_WIDE_INT alignment);
266 extern struct dw_loc_descr_node *mem_loc_descriptor
267 (rtx, machine_mode mode, machine_mode mem_mode,
268 enum var_init_status);
269 extern bool loc_descr_equal_p (dw_loc_descr_ref, dw_loc_descr_ref);
270 extern dw_fde_ref dwarf2out_alloc_current_fde (void);
272 extern unsigned long size_of_locs (dw_loc_descr_ref);
273 extern void output_loc_sequence (dw_loc_descr_ref, int);
274 extern void output_loc_sequence_raw (dw_loc_descr_ref);
276 /* Interface from dwarf2cfi.c to dwarf2out.c. */
277 extern void lookup_cfa_1 (dw_cfi_ref cfi, dw_cfa_location *loc,
278 dw_cfa_location *remember);
279 extern bool cfa_equal_p (const dw_cfa_location *, const dw_cfa_location *);
281 extern void output_cfi (dw_cfi_ref, dw_fde_ref, int);
283 extern GTY(()) cfi_vec cie_cfi_vec;
285 /* Interface from dwarf2*.c to the rest of the compiler. */
286 extern enum dw_cfi_oprnd_type dw_cfi_oprnd1_desc
287 (enum dwarf_call_frame_info cfi);
288 extern enum dw_cfi_oprnd_type dw_cfi_oprnd2_desc
289 (enum dwarf_call_frame_info cfi);
291 extern void output_cfi_directive (FILE *f, struct dw_cfi_node *cfi);
293 extern void dwarf2out_emit_cfi (dw_cfi_ref cfi);
295 extern void debug_dwarf (void);
296 struct die_struct;
297 extern void debug_dwarf_die (struct die_struct *);
298 extern void debug_dwarf_loc_descr (dw_loc_descr_ref);
299 extern void debug (die_struct &ref);
300 extern void debug (die_struct *ptr);
301 extern void dwarf2out_set_demangle_name_func (const char *(*) (const char *));
302 #ifdef VMS_DEBUGGING_INFO
303 extern void dwarf2out_vms_debug_main_pointer (void);
304 #endif
306 enum array_descr_ordering
308 array_descr_ordering_default,
309 array_descr_ordering_row_major,
310 array_descr_ordering_column_major
313 #define DWARF2OUT_ARRAY_DESCR_INFO_MAX_DIMEN 16
315 struct array_descr_info
317 int ndimensions;
318 enum array_descr_ordering ordering;
319 tree element_type;
320 tree base_decl;
321 tree data_location;
322 tree allocated;
323 tree associated;
324 tree stride;
325 bool stride_in_bits;
326 struct array_descr_dimen
328 /* GCC uses sizetype for array indices, so lower_bound and upper_bound
329 will likely be "sizetype" values. However, bounds may have another
330 type in the original source code. */
331 tree bounds_type;
332 tree lower_bound;
333 tree upper_bound;
335 /* Only Fortran uses more than one dimension for array types. For other
336 languages, the stride can be rather specified for the whole array. */
337 tree stride;
338 } dimen[DWARF2OUT_ARRAY_DESCR_INFO_MAX_DIMEN];
341 enum fixed_point_scale_factor
343 fixed_point_scale_factor_binary,
344 fixed_point_scale_factor_decimal,
345 fixed_point_scale_factor_arbitrary
348 struct fixed_point_type_info
350 /* A scale factor is the value one has to multiply with physical data in
351 order to get the fixed point logical data. The DWARF standard enables one
352 to encode it in three ways. */
353 enum fixed_point_scale_factor scale_factor_kind;
354 union
356 /* For binary scale factor, the scale factor is: 2 ** binary. */
357 int binary;
358 /* For decimal scale factor, the scale factor is: 10 ** binary. */
359 int decimal;
360 /* For arbitrary scale factor, the scale factor is:
361 numerator / denominator. */
362 struct
364 unsigned HOST_WIDE_INT numerator;
365 HOST_WIDE_INT denominator;
366 } arbitrary;
367 } scale_factor;
370 void dwarf2out_c_finalize (void);
372 #endif /* GCC_DWARF2OUT_H */