| blob | b2152a53bf96f7d7c3f3b7688d97d9325fe0240e |
1 /* dwarf2out.h - Various declarations for functions found in dwarf2out.c
2 Copyright (C) 1998-2021 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
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. */
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,
47 dw_cfi_oprnd_cfa_loc
48 };
56 dw_cfi_cfa_loc;
62 dw_cfi_oprnd1;
64 dw_cfi_oprnd2;
65 };
72 /* All call frame descriptions (FDE's) in the GCC generated DWARF
73 refer to a single Common Information Entry (CIE), defined at
74 the beginning of the .debug_frame section. This use of a single
75 CIE obviates the need to keep track of multiple CIE's
76 in the DWARF generation routines below. */
79 tree decl;
87 cfi_vec dw_fde_cfi;
89 HOST_WIDE_INT stack_realignment;
94 /* Dynamic realign argument pointer register. */
96 /* Virtual dynamic realign argument pointer register. */
98 /* These 3 flags are copied from rtl_data in function.h. */
102 /* Whether we did stack realign in this call frame. */
104 /* Whether dynamic realign argument pointer register has been saved. */
106 /* True iff dw_fde_begin label is in text_section or cold_text_section. */
108 /* True iff dw_fde_second_begin label is in text_section or
109 cold_text_section. */
111 /* True if Rule 18 described in dwarf2cfi.c is in action, i.e. for dynamic
112 stack realignment in between pushing of hard frame pointer to stack
113 and setting hard frame pointer to stack pointer. The register save for
114 hard frame pointer register should be emitted only on the latter
115 instruction. */
117 /* True if this function is to be ignored by debugger. */
119 };
122 /* This is how we define the location of the CFA. We use to handle it
123 as REG + OFFSET all the time, but now it can be more complex.
124 It can now be either REG + CFA_OFFSET or *(REG + BASE_OFFSET) + CFA_OFFSET.
125 Instead of passing around REG and OFFSET, we pass a copy
126 of this structure. */
128 poly_int64_pod offset;
129 poly_int64_pod base_offset;
130 /* REG is in DWARF_FRAME_REGNUM space, *not* normal REGNO space. */
134 };
137 /* Each DIE may have a series of attribute/value pairs. Values
138 can take on several forms. The forms that are used in this
139 implementation are listed below. */
141 enum dw_val_class
142 {
143 dw_val_class_none,
144 dw_val_class_addr,
145 dw_val_class_offset,
146 dw_val_class_loc,
147 dw_val_class_loc_list,
148 dw_val_class_range_list,
149 dw_val_class_const,
150 dw_val_class_unsigned_const,
151 dw_val_class_const_double,
152 dw_val_class_wide_int,
153 dw_val_class_vec,
154 dw_val_class_flag,
155 dw_val_class_die_ref,
156 dw_val_class_fde_ref,
157 dw_val_class_lbl_id,
158 dw_val_class_lineptr,
159 dw_val_class_str,
160 dw_val_class_macptr,
161 dw_val_class_loclistsptr,
162 dw_val_class_file,
163 dw_val_class_data8,
164 dw_val_class_decl_ref,
165 dw_val_class_vms_delta,
166 dw_val_class_high_pc,
167 dw_val_class_discr_value,
168 dw_val_class_discr_list,
169 dw_val_class_const_implicit,
170 dw_val_class_unsigned_const_implicit,
171 dw_val_class_file_implicit,
172 dw_val_class_view_list,
173 dw_val_class_symview
174 };
176 /* Describe a floating point constant value, or a vector constant value. */
182 };
184 /* Describe a single value that a discriminant can match.
186 Discriminants (in the "record variant part" meaning) are scalars.
187 dw_discr_list_ref and dw_discr_value are a mean to describe a set of
188 discriminant values that are matched by a particular variant.
190 Discriminants can be signed or unsigned scalars, and can be discriminants
191 values. Both have to be consistent, though. */
195 union
196 {
199 }
201 };
205 /* The dw_val_node describes an attribute's value, as it is
206 represented internally. */
211 union dw_val_struct_union
212 {
219 unsigned HOST_WIDE_INT
224 struct dw_val_die_union
225 {
226 dw_die_ref die;
238 struct dw_val_vms_delta_union
239 {
246 }
248 };
250 /* Locations in memory are described using a sequence of stack machine
251 operations. */
254 dw_loc_descr_ref dw_loc_next;
256 /* Used to distinguish DW_OP_addr with a direct symbol relocation
257 from DW_OP_addr with a dtp-relative symbol relocation. */
259 /* For DW_OP_pick, DW_OP_dup and DW_OP_over operations: true iff.
260 it targets a DWARF prodecure argument. In this case, it needs to be
261 relocated according to the current frame offset. */
264 dw_val_node dw_loc_oprnd1;
265 dw_val_node dw_loc_oprnd2;
266 };
268 /* A variant (inside a record variant part) is selected when the corresponding
269 discriminant matches its set of values (see the comment for dw_discr_value).
270 The following datastructure holds such matching information. */
273 dw_discr_list_ref dw_discr_next;
275 dw_discr_value dw_discr_lower_bound;
276 dw_discr_value dw_discr_upper_bound;
277 /* This node represents only the value in dw_discr_lower_bound when it's
278 zero. It represents the range between the two fields (bounds included)
279 otherwise. */
281 };
283 /* Interface from dwarf2out.c to dwarf2cfi.c. */
298 /* Interface from dwarf2cfi.c to dwarf2out.c. */
307 /* Interface from dwarf2*.c to the rest of the compiler. */
324 #ifdef VMS_DEBUGGING_INFO
326 #endif
328 enum array_descr_ordering
329 {
330 array_descr_ordering_default,
331 array_descr_ordering_row_major,
332 array_descr_ordering_column_major
333 };
335 #define DWARF2OUT_ARRAY_DESCR_INFO_MAX_DIMEN 16
337 struct array_descr_info
338 {
341 tree element_type;
342 tree base_decl;
343 tree data_location;
344 tree allocated;
345 tree associated;
346 tree stride;
347 tree rank;
349 struct array_descr_dimen
350 {
351 /* GCC uses sizetype for array indices, so lower_bound and upper_bound
352 will likely be "sizetype" values. However, bounds may have another
353 type in the original source code. */
354 tree bounds_type;
355 tree lower_bound;
356 tree upper_bound;
358 /* Only Fortran uses more than one dimension for array types. For other
359 languages, the stride can be rather specified for the whole array. */
360 tree stride;
362 };
364 enum fixed_point_scale_factor
365 {
366 fixed_point_scale_factor_binary,
367 fixed_point_scale_factor_decimal,
368 fixed_point_scale_factor_arbitrary
369 };
371 struct fixed_point_type_info
372 {
373 /* The scale factor is the value one has to multiply the actual data with
374 to get the fixed point value. We support three ways to encode it. */
376 union
377 {
378 /* For a binary scale factor, the scale factor is 2 ** binary. */
380 /* For a decimal scale factor, the scale factor is 10 ** decimal. */
382 /* For an arbitrary scale factor, the scale factor is the ratio
383 numerator / denominator. */
386 };
390 /* Some DWARF internals are exposed for the needs of DWARF-based debug
391 formats. */
393 /* Each DIE attribute has a field specifying the attribute kind,
394 a link to the next attribute in the chain, and an attribute value.
395 Attributes are typically linked below the DIE they modify. */
399 dw_val_node dw_attr_val;
400 }
401 dw_attr_node;
425 /* Data about a single source file. */
430 };