1 /* This module handles expression trees.
2 Copyright 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000,
3 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009
4 Free Software Foundation, Inc.
5 Written by Steve Chamberlain of Cygnus Support <sac@cygnus.com>.
7 This file is part of the GNU Binutils.
9 This program is free software; you can redistribute it and/or modify
10 it under the terms of the GNU General Public License as published by
11 the Free Software Foundation; either version 3 of the License, or
12 (at your option) any later version.
14 This program is distributed in the hope that it will be useful,
15 but WITHOUT ANY WARRANTY; without even the implied warranty of
16 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17 GNU General Public License for more details.
19 You should have received a copy of the GNU General Public License
20 along with this program; if not, write to the Free Software
21 Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
22 MA 02110-1301, USA. */
25 /* This module is in charge of working out the contents of expressions.
27 It has to keep track of the relative/absness of a symbol etc. This
28 is done by keeping all values in a struct (an etree_value_type)
29 which contains a value, a section to which it is relative and a
43 #include "libiberty.h"
44 #include "safe-ctype.h"
46 static void exp_fold_tree_1 (etree_type
*);
47 static void exp_fold_tree_no_dot (etree_type
*);
48 static bfd_vma
align_n (bfd_vma
, bfd_vma
);
50 segment_type
*segments
;
52 struct ldexp_control expld
;
54 /* Print the string representation of the given token. Surround it
55 with spaces if INFIX_P is TRUE. */
58 exp_print_token (token_code_type code
, int infix_p
)
92 { SECTIONS
, "SECTIONS" },
93 { SIZEOF_HEADERS
, "SIZEOF_HEADERS" },
95 { DEFINED
, "DEFINED" },
96 { TARGET_K
, "TARGET" },
97 { SEARCH_DIR
, "SEARCH_DIR" },
101 { ALIGNOF
, "ALIGNOF" },
102 { SIZEOF
, "SIZEOF" },
104 { LOADADDR
, "LOADADDR" },
105 { CONSTANT
, "CONSTANT" },
106 { ABSOLUTE
, "ABSOLUTE" },
109 { ASSERT_K
, "ASSERT" },
110 { REL
, "relocatable" },
111 { DATA_SEGMENT_ALIGN
, "DATA_SEGMENT_ALIGN" },
112 { DATA_SEGMENT_RELRO_END
, "DATA_SEGMENT_RELRO_END" },
113 { DATA_SEGMENT_END
, "DATA_SEGMENT_END" },
114 { ORIGIN
, "ORIGIN" },
115 { LENGTH
, "LENGTH" },
116 { SEGMENT_START
, "SEGMENT_START" }
120 for (idx
= 0; idx
< ARRAY_SIZE (table
); idx
++)
121 if (table
[idx
].code
== code
)
125 fputc (' ', config
.map_file
);
127 if (idx
< ARRAY_SIZE (table
))
128 fputs (table
[idx
].name
, config
.map_file
);
130 fputc (code
, config
.map_file
);
132 fprintf (config
.map_file
, "<code %d>", code
);
135 fputc (' ', config
.map_file
);
141 expld
.result
.value
+= expld
.result
.section
->vma
;
142 expld
.result
.section
= bfd_abs_section_ptr
;
146 new_abs (bfd_vma value
)
148 expld
.result
.valid_p
= TRUE
;
149 expld
.result
.section
= bfd_abs_section_ptr
;
150 expld
.result
.value
= value
;
151 expld
.result
.str
= NULL
;
155 exp_intop (bfd_vma value
)
157 etree_type
*new_e
= (etree_type
*) stat_alloc (sizeof (new_e
->value
));
158 new_e
->type
.node_code
= INT
;
159 new_e
->type
.lineno
= lineno
;
160 new_e
->value
.value
= value
;
161 new_e
->value
.str
= NULL
;
162 new_e
->type
.node_class
= etree_value
;
167 exp_bigintop (bfd_vma value
, char *str
)
169 etree_type
*new_e
= (etree_type
*) stat_alloc (sizeof (new_e
->value
));
170 new_e
->type
.node_code
= INT
;
171 new_e
->type
.lineno
= lineno
;
172 new_e
->value
.value
= value
;
173 new_e
->value
.str
= str
;
174 new_e
->type
.node_class
= etree_value
;
178 /* Build an expression representing an unnamed relocatable value. */
181 exp_relop (asection
*section
, bfd_vma value
)
183 etree_type
*new_e
= (etree_type
*) stat_alloc (sizeof (new_e
->rel
));
184 new_e
->type
.node_code
= REL
;
185 new_e
->type
.lineno
= lineno
;
186 new_e
->type
.node_class
= etree_rel
;
187 new_e
->rel
.section
= section
;
188 new_e
->rel
.value
= value
;
193 new_rel (bfd_vma value
, char *str
, asection
*section
)
195 expld
.result
.valid_p
= TRUE
;
196 expld
.result
.value
= value
;
197 expld
.result
.str
= str
;
198 expld
.result
.section
= section
;
202 new_rel_from_abs (bfd_vma value
)
204 expld
.result
.valid_p
= TRUE
;
205 expld
.result
.value
= value
- expld
.section
->vma
;
206 expld
.result
.str
= NULL
;
207 expld
.result
.section
= expld
.section
;
211 fold_unary (etree_type
*tree
)
213 exp_fold_tree_1 (tree
->unary
.child
);
214 if (expld
.result
.valid_p
)
216 switch (tree
->type
.node_code
)
219 if (expld
.phase
!= lang_first_phase_enum
)
220 new_rel_from_abs (align_n (expld
.dot
, expld
.result
.value
));
222 expld
.result
.valid_p
= FALSE
;
231 expld
.result
.value
= ~expld
.result
.value
;
236 expld
.result
.value
= !expld
.result
.value
;
241 expld
.result
.value
= -expld
.result
.value
;
245 /* Return next place aligned to value. */
246 if (expld
.phase
!= lang_first_phase_enum
)
249 expld
.result
.value
= align_n (expld
.dot
, expld
.result
.value
);
252 expld
.result
.valid_p
= FALSE
;
255 case DATA_SEGMENT_END
:
256 if (expld
.phase
!= lang_first_phase_enum
257 && expld
.section
== bfd_abs_section_ptr
258 && (expld
.dataseg
.phase
== exp_dataseg_align_seen
259 || expld
.dataseg
.phase
== exp_dataseg_relro_seen
260 || expld
.dataseg
.phase
== exp_dataseg_adjust
261 || expld
.dataseg
.phase
== exp_dataseg_relro_adjust
262 || expld
.phase
== lang_final_phase_enum
))
264 if (expld
.dataseg
.phase
== exp_dataseg_align_seen
265 || expld
.dataseg
.phase
== exp_dataseg_relro_seen
)
267 expld
.dataseg
.phase
= exp_dataseg_end_seen
;
268 expld
.dataseg
.end
= expld
.result
.value
;
272 expld
.result
.valid_p
= FALSE
;
283 fold_binary (etree_type
*tree
)
285 etree_value_type lhs
;
286 exp_fold_tree_1 (tree
->binary
.lhs
);
288 /* The SEGMENT_START operator is special because its first
289 operand is a string, not the name of a symbol. Note that the
290 operands have been swapped, so binary.lhs is second (default)
291 operand, binary.rhs is first operand. */
292 if (expld
.result
.valid_p
&& tree
->type
.node_code
== SEGMENT_START
)
294 const char *segment_name
;
296 /* Check to see if the user has overridden the default
298 segment_name
= tree
->binary
.rhs
->name
.name
;
299 for (seg
= segments
; seg
; seg
= seg
->next
)
300 if (strcmp (seg
->name
, segment_name
) == 0)
303 expld
.result
.value
= seg
->value
;
304 expld
.result
.str
= NULL
;
305 expld
.result
.section
= expld
.section
;
312 exp_fold_tree_1 (tree
->binary
.rhs
);
313 expld
.result
.valid_p
&= lhs
.valid_p
;
315 if (expld
.result
.valid_p
)
317 /* If the values are from different sections, or this is an
318 absolute expression, make both the source arguments
319 absolute. However, adding or subtracting an absolute
320 value from a relative value is meaningful, and is an
322 if (expld
.section
!= bfd_abs_section_ptr
323 && lhs
.section
== bfd_abs_section_ptr
324 && tree
->type
.node_code
== '+')
326 /* Keep the section of the rhs term. */
327 expld
.result
.value
= lhs
.value
+ expld
.result
.value
;
330 else if (expld
.section
!= bfd_abs_section_ptr
331 && expld
.result
.section
== bfd_abs_section_ptr
332 && (tree
->type
.node_code
== '+'
333 || tree
->type
.node_code
== '-'))
335 /* Keep the section of the lhs term. */
336 expld
.result
.section
= lhs
.section
;
338 else if (expld
.result
.section
!= lhs
.section
339 || expld
.section
== bfd_abs_section_ptr
)
342 lhs
.value
+= lhs
.section
->vma
;
345 switch (tree
->type
.node_code
)
348 if (expld
.result
.value
!= 0)
349 expld
.result
.value
= ((bfd_signed_vma
) lhs
.value
350 % (bfd_signed_vma
) expld
.result
.value
);
351 else if (expld
.phase
!= lang_mark_phase_enum
)
352 einfo (_("%F%S %% by zero\n"));
356 if (expld
.result
.value
!= 0)
357 expld
.result
.value
= ((bfd_signed_vma
) lhs
.value
358 / (bfd_signed_vma
) expld
.result
.value
);
359 else if (expld
.phase
!= lang_mark_phase_enum
)
360 einfo (_("%F%S / by zero\n"));
365 expld.result.value = lhs.value y expld.result.value; \
386 if (lhs
.value
> expld
.result
.value
)
387 expld
.result
.value
= lhs
.value
;
391 if (lhs
.value
< expld
.result
.value
)
392 expld
.result
.value
= lhs
.value
;
396 expld
.result
.value
= align_n (lhs
.value
, expld
.result
.value
);
399 case DATA_SEGMENT_ALIGN
:
400 expld
.dataseg
.relro
= exp_dataseg_relro_start
;
401 if (expld
.phase
!= lang_first_phase_enum
402 && expld
.section
== bfd_abs_section_ptr
403 && (expld
.dataseg
.phase
== exp_dataseg_none
404 || expld
.dataseg
.phase
== exp_dataseg_adjust
405 || expld
.dataseg
.phase
== exp_dataseg_relro_adjust
406 || expld
.phase
== lang_final_phase_enum
))
408 bfd_vma maxpage
= lhs
.value
;
409 bfd_vma commonpage
= expld
.result
.value
;
411 expld
.result
.value
= align_n (expld
.dot
, maxpage
);
412 if (expld
.dataseg
.phase
== exp_dataseg_relro_adjust
)
413 expld
.result
.value
= expld
.dataseg
.base
;
414 else if (expld
.dataseg
.phase
!= exp_dataseg_adjust
)
416 expld
.result
.value
+= expld
.dot
& (maxpage
- 1);
417 if (expld
.phase
== lang_allocating_phase_enum
)
419 expld
.dataseg
.phase
= exp_dataseg_align_seen
;
420 expld
.dataseg
.min_base
= expld
.dot
;
421 expld
.dataseg
.base
= expld
.result
.value
;
422 expld
.dataseg
.pagesize
= commonpage
;
423 expld
.dataseg
.maxpagesize
= maxpage
;
424 expld
.dataseg
.relro_end
= 0;
427 else if (commonpage
< maxpage
)
428 expld
.result
.value
+= ((expld
.dot
+ commonpage
- 1)
429 & (maxpage
- commonpage
));
432 expld
.result
.valid_p
= FALSE
;
435 case DATA_SEGMENT_RELRO_END
:
436 expld
.dataseg
.relro
= exp_dataseg_relro_end
;
437 if (expld
.phase
!= lang_first_phase_enum
438 && (expld
.dataseg
.phase
== exp_dataseg_align_seen
439 || expld
.dataseg
.phase
== exp_dataseg_adjust
440 || expld
.dataseg
.phase
== exp_dataseg_relro_adjust
441 || expld
.phase
== lang_final_phase_enum
))
443 if (expld
.dataseg
.phase
== exp_dataseg_align_seen
444 || expld
.dataseg
.phase
== exp_dataseg_relro_adjust
)
445 expld
.dataseg
.relro_end
= lhs
.value
+ expld
.result
.value
;
447 if (expld
.dataseg
.phase
== exp_dataseg_relro_adjust
448 && (expld
.dataseg
.relro_end
449 & (expld
.dataseg
.pagesize
- 1)))
451 expld
.dataseg
.relro_end
+= expld
.dataseg
.pagesize
- 1;
452 expld
.dataseg
.relro_end
&= ~(expld
.dataseg
.pagesize
- 1);
453 expld
.result
.value
= (expld
.dataseg
.relro_end
454 - expld
.result
.value
);
457 expld
.result
.value
= lhs
.value
;
459 if (expld
.dataseg
.phase
== exp_dataseg_align_seen
)
460 expld
.dataseg
.phase
= exp_dataseg_relro_seen
;
463 expld
.result
.valid_p
= FALSE
;
473 fold_trinary (etree_type
*tree
)
475 exp_fold_tree_1 (tree
->trinary
.cond
);
476 if (expld
.result
.valid_p
)
477 exp_fold_tree_1 (expld
.result
.value
479 : tree
->trinary
.rhs
);
483 fold_name (etree_type
*tree
)
485 memset (&expld
.result
, 0, sizeof (expld
.result
));
487 switch (tree
->type
.node_code
)
490 if (expld
.phase
!= lang_first_phase_enum
)
492 bfd_vma hdr_size
= 0;
493 /* Don't find the real header size if only marking sections;
494 The bfd function may cache incorrect data. */
495 if (expld
.phase
!= lang_mark_phase_enum
)
496 hdr_size
= bfd_sizeof_headers (link_info
.output_bfd
, &link_info
);
502 if (expld
.phase
== lang_first_phase_enum
)
503 lang_track_definedness (tree
->name
.name
);
506 struct bfd_link_hash_entry
*h
;
508 = lang_symbol_definition_iteration (tree
->name
.name
);
510 h
= bfd_wrapped_link_hash_lookup (link_info
.output_bfd
,
514 expld
.result
.value
= (h
!= NULL
515 && (h
->type
== bfd_link_hash_defined
516 || h
->type
== bfd_link_hash_defweak
517 || h
->type
== bfd_link_hash_common
)
518 && (def_iteration
== lang_statement_iteration
519 || def_iteration
== -1));
520 expld
.result
.section
= expld
.section
;
521 expld
.result
.valid_p
= TRUE
;
526 if (expld
.phase
== lang_first_phase_enum
)
528 else if (tree
->name
.name
[0] == '.' && tree
->name
.name
[1] == 0)
529 new_rel_from_abs (expld
.dot
);
532 struct bfd_link_hash_entry
*h
;
534 h
= bfd_wrapped_link_hash_lookup (link_info
.output_bfd
,
539 einfo (_("%P%F: bfd_link_hash_lookup failed: %E\n"));
540 else if (h
->type
== bfd_link_hash_defined
541 || h
->type
== bfd_link_hash_defweak
)
543 if (bfd_is_abs_section (h
->u
.def
.section
))
544 new_abs (h
->u
.def
.value
);
547 asection
*output_section
;
549 output_section
= h
->u
.def
.section
->output_section
;
550 if (output_section
== NULL
)
552 if (expld
.phase
!= lang_mark_phase_enum
)
553 einfo (_("%X%S: unresolvable symbol `%s'"
554 " referenced in expression\n"),
558 new_rel (h
->u
.def
.value
+ h
->u
.def
.section
->output_offset
,
559 NULL
, output_section
);
562 else if (expld
.phase
== lang_final_phase_enum
563 || expld
.assigning_to_dot
)
564 einfo (_("%F%S: undefined symbol `%s' referenced in expression\n"),
566 else if (h
->type
== bfd_link_hash_new
)
568 h
->type
= bfd_link_hash_undefined
;
569 h
->u
.undef
.abfd
= NULL
;
570 if (h
->u
.undef
.next
== NULL
&& h
!= link_info
.hash
->undefs_tail
)
571 bfd_link_add_undef (link_info
.hash
, h
);
577 if (expld
.phase
!= lang_first_phase_enum
)
579 lang_output_section_statement_type
*os
;
581 os
= lang_output_section_find (tree
->name
.name
);
584 if (expld
.phase
== lang_final_phase_enum
)
585 einfo (_("%F%S: undefined section `%s' referenced in expression\n"),
588 else if (os
->processed_vma
)
589 new_rel (0, NULL
, os
->bfd_section
);
594 if (expld
.phase
!= lang_first_phase_enum
)
596 lang_output_section_statement_type
*os
;
598 os
= lang_output_section_find (tree
->name
.name
);
601 if (expld
.phase
== lang_final_phase_enum
)
602 einfo (_("%F%S: undefined section `%s' referenced in expression\n"),
605 else if (os
->processed_lma
)
607 if (os
->load_base
== NULL
)
608 new_abs (os
->bfd_section
->lma
);
611 exp_fold_tree_1 (os
->load_base
);
612 if (expld
.result
.valid_p
)
621 if (expld
.phase
!= lang_first_phase_enum
)
623 lang_output_section_statement_type
*os
;
625 os
= lang_output_section_find (tree
->name
.name
);
628 if (expld
.phase
== lang_final_phase_enum
)
629 einfo (_("%F%S: undefined section `%s' referenced in expression\n"),
633 else if (os
->processed_vma
)
637 if (tree
->type
.node_code
== SIZEOF
)
638 val
= (os
->bfd_section
->size
639 / bfd_octets_per_byte (link_info
.output_bfd
));
641 val
= (bfd_vma
)1 << os
->bfd_section
->alignment_power
;
650 lang_memory_region_type
*mem
;
652 mem
= lang_memory_region_lookup (tree
->name
.name
, FALSE
);
654 new_abs (mem
->length
);
656 einfo (_("%F%S: undefined MEMORY region `%s'"
657 " referenced in expression\n"), tree
->name
.name
);
663 lang_memory_region_type
*mem
;
665 mem
= lang_memory_region_lookup (tree
->name
.name
, FALSE
);
667 new_abs (mem
->origin
);
669 einfo (_("%F%S: undefined MEMORY region `%s'"
670 " referenced in expression\n"), tree
->name
.name
);
675 if (strcmp (tree
->name
.name
, "MAXPAGESIZE") == 0)
676 new_abs (config
.maxpagesize
);
677 else if (strcmp (tree
->name
.name
, "COMMONPAGESIZE") == 0)
678 new_abs (config
.commonpagesize
);
680 einfo (_("%F%S: unknown constant `%s' referenced in expression\n"),
691 exp_fold_tree_1 (etree_type
*tree
)
695 memset (&expld
.result
, 0, sizeof (expld
.result
));
699 switch (tree
->type
.node_class
)
702 new_rel (tree
->value
.value
, tree
->value
.str
, expld
.section
);
706 if (expld
.phase
!= lang_first_phase_enum
)
708 asection
*output_section
= tree
->rel
.section
->output_section
;
709 new_rel (tree
->rel
.value
+ tree
->rel
.section
->output_offset
,
710 NULL
, output_section
);
713 memset (&expld
.result
, 0, sizeof (expld
.result
));
717 exp_fold_tree_1 (tree
->assert_s
.child
);
718 if (expld
.phase
== lang_final_phase_enum
&& !expld
.result
.value
)
719 einfo ("%X%P: %s\n", tree
->assert_s
.message
);
737 if (tree
->assign
.dst
[0] == '.' && tree
->assign
.dst
[1] == 0)
739 /* Assignment to dot can only be done during allocation. */
740 if (tree
->type
.node_class
!= etree_assign
)
741 einfo (_("%F%S can not PROVIDE assignment to location counter\n"));
742 if (expld
.phase
== lang_mark_phase_enum
743 || expld
.phase
== lang_allocating_phase_enum
744 || (expld
.phase
== lang_final_phase_enum
745 && expld
.section
== bfd_abs_section_ptr
))
747 /* Notify the folder that this is an assignment to dot. */
748 expld
.assigning_to_dot
= TRUE
;
749 exp_fold_tree_1 (tree
->assign
.src
);
750 expld
.assigning_to_dot
= FALSE
;
752 if (!expld
.result
.valid_p
)
754 if (expld
.phase
!= lang_mark_phase_enum
)
755 einfo (_("%F%S invalid assignment to location counter\n"));
757 else if (expld
.dotp
== NULL
)
758 einfo (_("%F%S assignment to location counter"
759 " invalid outside of SECTION\n"));
764 nextdot
= expld
.result
.value
+ expld
.section
->vma
;
765 if (nextdot
< expld
.dot
766 && expld
.section
!= bfd_abs_section_ptr
)
767 einfo (_("%F%S cannot move location counter backwards"
768 " (from %V to %V)\n"), expld
.dot
, nextdot
);
772 *expld
.dotp
= nextdot
;
777 memset (&expld
.result
, 0, sizeof (expld
.result
));
781 struct bfd_link_hash_entry
*h
= NULL
;
783 if (tree
->type
.node_class
== etree_provide
)
785 h
= bfd_link_hash_lookup (link_info
.hash
, tree
->assign
.dst
,
788 || (h
->type
!= bfd_link_hash_new
789 && h
->type
!= bfd_link_hash_undefined
790 && h
->type
!= bfd_link_hash_common
))
792 /* Do nothing. The symbol was never referenced, or was
793 defined by some object. */
798 exp_fold_tree_1 (tree
->assign
.src
);
799 if (expld
.result
.valid_p
)
803 h
= bfd_link_hash_lookup (link_info
.hash
, tree
->assign
.dst
,
806 einfo (_("%P%F:%s: hash creation failed\n"),
810 /* FIXME: Should we worry if the symbol is already
812 lang_update_definedness (tree
->assign
.dst
, h
);
813 h
->type
= bfd_link_hash_defined
;
814 h
->u
.def
.value
= expld
.result
.value
;
815 h
->u
.def
.section
= expld
.result
.section
;
816 if (tree
->type
.node_class
== etree_provide
)
817 tree
->type
.node_class
= etree_provided
;
828 memset (&expld
.result
, 0, sizeof (expld
.result
));
834 exp_fold_tree (etree_type
*tree
, asection
*current_section
, bfd_vma
*dotp
)
838 expld
.section
= current_section
;
839 exp_fold_tree_1 (tree
);
843 exp_fold_tree_no_dot (etree_type
*tree
)
847 expld
.section
= bfd_abs_section_ptr
;
848 exp_fold_tree_1 (tree
);
852 exp_binop (int code
, etree_type
*lhs
, etree_type
*rhs
)
854 etree_type value
, *new_e
;
856 value
.type
.node_code
= code
;
857 value
.type
.lineno
= lhs
->type
.lineno
;
858 value
.binary
.lhs
= lhs
;
859 value
.binary
.rhs
= rhs
;
860 value
.type
.node_class
= etree_binary
;
861 exp_fold_tree_no_dot (&value
);
862 if (expld
.result
.valid_p
)
863 return exp_intop (expld
.result
.value
);
865 new_e
= (etree_type
*) stat_alloc (sizeof (new_e
->binary
));
866 memcpy (new_e
, &value
, sizeof (new_e
->binary
));
871 exp_trinop (int code
, etree_type
*cond
, etree_type
*lhs
, etree_type
*rhs
)
873 etree_type value
, *new_e
;
875 value
.type
.node_code
= code
;
876 value
.type
.lineno
= lhs
->type
.lineno
;
877 value
.trinary
.lhs
= lhs
;
878 value
.trinary
.cond
= cond
;
879 value
.trinary
.rhs
= rhs
;
880 value
.type
.node_class
= etree_trinary
;
881 exp_fold_tree_no_dot (&value
);
882 if (expld
.result
.valid_p
)
883 return exp_intop (expld
.result
.value
);
885 new_e
= (etree_type
*) stat_alloc (sizeof (new_e
->trinary
));
886 memcpy (new_e
, &value
, sizeof (new_e
->trinary
));
891 exp_unop (int code
, etree_type
*child
)
893 etree_type value
, *new_e
;
895 value
.unary
.type
.node_code
= code
;
896 value
.unary
.type
.lineno
= child
->type
.lineno
;
897 value
.unary
.child
= child
;
898 value
.unary
.type
.node_class
= etree_unary
;
899 exp_fold_tree_no_dot (&value
);
900 if (expld
.result
.valid_p
)
901 return exp_intop (expld
.result
.value
);
903 new_e
= (etree_type
*) stat_alloc (sizeof (new_e
->unary
));
904 memcpy (new_e
, &value
, sizeof (new_e
->unary
));
909 exp_nameop (int code
, const char *name
)
911 etree_type value
, *new_e
;
913 value
.name
.type
.node_code
= code
;
914 value
.name
.type
.lineno
= lineno
;
915 value
.name
.name
= name
;
916 value
.name
.type
.node_class
= etree_name
;
918 exp_fold_tree_no_dot (&value
);
919 if (expld
.result
.valid_p
)
920 return exp_intop (expld
.result
.value
);
922 new_e
= (etree_type
*) stat_alloc (sizeof (new_e
->name
));
923 memcpy (new_e
, &value
, sizeof (new_e
->name
));
929 exp_assop (int code
, const char *dst
, etree_type
*src
)
933 new_e
= (etree_type
*) stat_alloc (sizeof (new_e
->assign
));
934 new_e
->type
.node_code
= code
;
935 new_e
->type
.lineno
= src
->type
.lineno
;
936 new_e
->type
.node_class
= etree_assign
;
937 new_e
->assign
.src
= src
;
938 new_e
->assign
.dst
= dst
;
942 /* Handle PROVIDE. */
945 exp_provide (const char *dst
, etree_type
*src
, bfd_boolean hidden
)
949 n
= (etree_type
*) stat_alloc (sizeof (n
->assign
));
950 n
->assign
.type
.node_code
= '=';
951 n
->assign
.type
.lineno
= src
->type
.lineno
;
952 n
->assign
.type
.node_class
= etree_provide
;
955 n
->assign
.hidden
= hidden
;
962 exp_assert (etree_type
*exp
, const char *message
)
966 n
= (etree_type
*) stat_alloc (sizeof (n
->assert_s
));
967 n
->assert_s
.type
.node_code
= '!';
968 n
->assert_s
.type
.lineno
= exp
->type
.lineno
;
969 n
->assert_s
.type
.node_class
= etree_assert
;
970 n
->assert_s
.child
= exp
;
971 n
->assert_s
.message
= message
;
976 exp_print_tree (etree_type
*tree
)
978 if (config
.map_file
== NULL
)
979 config
.map_file
= stderr
;
983 minfo ("NULL TREE\n");
987 switch (tree
->type
.node_class
)
990 minfo ("0x%v", tree
->value
.value
);
993 if (tree
->rel
.section
->owner
!= NULL
)
994 minfo ("%B:", tree
->rel
.section
->owner
);
995 minfo ("%s+0x%v", tree
->rel
.section
->name
, tree
->rel
.value
);
998 fprintf (config
.map_file
, "%s", tree
->assign
.dst
);
999 exp_print_token (tree
->type
.node_code
, TRUE
);
1000 exp_print_tree (tree
->assign
.src
);
1003 case etree_provided
:
1004 fprintf (config
.map_file
, "PROVIDE (%s, ", tree
->assign
.dst
);
1005 exp_print_tree (tree
->assign
.src
);
1006 fprintf (config
.map_file
, ")");
1009 fprintf (config
.map_file
, "(");
1010 exp_print_tree (tree
->binary
.lhs
);
1011 exp_print_token (tree
->type
.node_code
, TRUE
);
1012 exp_print_tree (tree
->binary
.rhs
);
1013 fprintf (config
.map_file
, ")");
1016 exp_print_tree (tree
->trinary
.cond
);
1017 fprintf (config
.map_file
, "?");
1018 exp_print_tree (tree
->trinary
.lhs
);
1019 fprintf (config
.map_file
, ":");
1020 exp_print_tree (tree
->trinary
.rhs
);
1023 exp_print_token (tree
->unary
.type
.node_code
, FALSE
);
1024 if (tree
->unary
.child
)
1026 fprintf (config
.map_file
, " (");
1027 exp_print_tree (tree
->unary
.child
);
1028 fprintf (config
.map_file
, ")");
1033 fprintf (config
.map_file
, "ASSERT (");
1034 exp_print_tree (tree
->assert_s
.child
);
1035 fprintf (config
.map_file
, ", %s)", tree
->assert_s
.message
);
1039 if (tree
->type
.node_code
== NAME
)
1041 fprintf (config
.map_file
, "%s", tree
->name
.name
);
1045 exp_print_token (tree
->type
.node_code
, FALSE
);
1046 if (tree
->name
.name
)
1047 fprintf (config
.map_file
, " (%s)", tree
->name
.name
);
1057 exp_get_vma (etree_type
*tree
, bfd_vma def
, char *name
)
1061 exp_fold_tree_no_dot (tree
);
1062 if (expld
.result
.valid_p
)
1063 return expld
.result
.value
;
1064 else if (name
!= NULL
&& expld
.phase
!= lang_mark_phase_enum
)
1065 einfo (_("%F%S: nonconstant expression for %s\n"), name
);
1071 exp_get_value_int (etree_type
*tree
, int def
, char *name
)
1073 return exp_get_vma (tree
, def
, name
);
1077 exp_get_fill (etree_type
*tree
, fill_type
*def
, char *name
)
1086 exp_fold_tree_no_dot (tree
);
1087 if (!expld
.result
.valid_p
)
1089 if (name
!= NULL
&& expld
.phase
!= lang_mark_phase_enum
)
1090 einfo (_("%F%S: nonconstant expression for %s\n"), name
);
1094 if (expld
.result
.str
!= NULL
&& (len
= strlen (expld
.result
.str
)) != 0)
1098 fill
= (fill_type
*) xmalloc ((len
+ 1) / 2 + sizeof (*fill
) - 1);
1099 fill
->size
= (len
+ 1) / 2;
1101 s
= (unsigned char *) expld
.result
.str
;
1109 digit
= (digit
- 'A' + '0' + 10) & 0xf;
1123 fill
= (fill_type
*) xmalloc (4 + sizeof (*fill
) - 1);
1124 val
= expld
.result
.value
;
1125 fill
->data
[0] = (val
>> 24) & 0xff;
1126 fill
->data
[1] = (val
>> 16) & 0xff;
1127 fill
->data
[2] = (val
>> 8) & 0xff;
1128 fill
->data
[3] = (val
>> 0) & 0xff;
1135 exp_get_abs_int (etree_type
*tree
, int def
, char *name
)
1139 exp_fold_tree_no_dot (tree
);
1141 if (expld
.result
.valid_p
)
1143 expld
.result
.value
+= expld
.result
.section
->vma
;
1144 return expld
.result
.value
;
1146 else if (name
!= NULL
&& expld
.phase
!= lang_mark_phase_enum
)
1148 lineno
= tree
->type
.lineno
;
1149 einfo (_("%F%S: nonconstant expression for %s\n"), name
);
1156 align_n (bfd_vma value
, bfd_vma align
)
1161 value
= (value
+ align
- 1) / align
;
1162 return value
* align
;