2009-07-02 Tristan Gingold <gingold@adacore.com>
[binutils.git] / gas / config / tc-vax.c
blobe7a7c34d5e0199e818ad835529d61f3c656dffbb
1 /* tc-vax.c - vax-specific -
2 Copyright 1987, 1991, 1992, 1993, 1994, 1995, 1998, 2000, 2001, 2002,
3 2003, 2004, 2005, 2006, 2007, 2008
4 Free Software Foundation, Inc.
6 This file is part of GAS, the GNU Assembler.
8 GAS is free software; you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation; either version 3, or (at your option)
11 any later version.
13 GAS is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
18 You should have received a copy of the GNU General Public License
19 along with GAS; see the file COPYING. If not, write to the Free
20 Software Foundation, 51 Franklin Street - Fifth Floor, Boston, MA
21 02110-1301, USA. */
23 #include "as.h"
25 #include "vax-inst.h"
26 #include "obstack.h" /* For FRAG_APPEND_1_CHAR macro in "frags.h" */
27 #include "subsegs.h"
28 #include "safe-ctype.h"
30 #ifdef OBJ_ELF
31 #include "elf/vax.h"
32 #endif
34 /* These chars start a comment anywhere in a source file (except inside
35 another comment */
36 const char comment_chars[] = "#";
38 /* These chars only start a comment at the beginning of a line. */
39 /* Note that for the VAX the are the same as comment_chars above. */
40 const char line_comment_chars[] = "#";
42 const char line_separator_chars[] = ";";
44 /* Chars that can be used to separate mant from exp in floating point nums. */
45 const char EXP_CHARS[] = "eE";
47 /* Chars that mean this number is a floating point constant
48 as in 0f123.456
49 or 0H1.234E-12 (see exp chars above). */
50 const char FLT_CHARS[] = "dDfFgGhH";
52 /* Also be aware that MAXIMUM_NUMBER_OF_CHARS_FOR_FLOAT may have to be
53 changed in read.c . Ideally it shouldn't have to know about it at all,
54 but nothing is ideal around here. */
56 /* Hold details of an operand expression. */
57 static expressionS exp_of_operand[VIT_MAX_OPERANDS];
58 static segT seg_of_operand[VIT_MAX_OPERANDS];
60 /* A vax instruction after decoding. */
61 static struct vit v;
63 /* Hold details of big operands. */
64 LITTLENUM_TYPE big_operand_bits[VIT_MAX_OPERANDS][SIZE_OF_LARGE_NUMBER];
65 FLONUM_TYPE float_operand[VIT_MAX_OPERANDS];
66 /* Above is made to point into big_operand_bits by md_begin(). */
68 #ifdef OBJ_ELF
69 #define GLOBAL_OFFSET_TABLE_NAME "_GLOBAL_OFFSET_TABLE_"
70 #define PROCEDURE_LINKAGE_TABLE_NAME "_PROCEDURE_LINKAGE_TABLE_"
71 symbolS *GOT_symbol; /* Pre-defined "_GLOBAL_OFFSET_TABLE_". */
72 symbolS *PLT_symbol; /* Pre-defined "_PROCEDURE_LINKAGE_TABLE_". */
73 #endif
75 int flag_hash_long_names; /* -+ */
76 int flag_one; /* -1 */
77 int flag_show_after_trunc; /* -H */
78 int flag_no_hash_mixed_case; /* -h NUM */
79 #ifdef OBJ_ELF
80 int flag_want_pic; /* -k */
81 #endif
83 /* For VAX, relative addresses of "just the right length" are easy.
84 The branch displacement is always the last operand, even in
85 synthetic instructions.
86 For VAX, we encode the relax_substateTs (in e.g. fr_substate) as:
88 4 3 2 1 0 bit number
89 ---/ /--+-------+-------+-------+-------+-------+
90 | what state ? | how long ? |
91 ---/ /--+-------+-------+-------+-------+-------+
93 The "how long" bits are 00=byte, 01=word, 10=long.
94 This is a Un*x convention.
95 Not all lengths are legit for a given value of (what state).
96 The "how long" refers merely to the displacement length.
97 The address usually has some constant bytes in it as well.
99 groups for VAX address relaxing.
101 1. "foo" pc-relative.
102 length of byte, word, long
104 2a. J<cond> where <cond> is a simple flag test.
105 length of byte, word, long.
106 VAX opcodes are: (Hex)
107 bneq/bnequ 12
108 beql/beqlu 13
109 bgtr 14
110 bleq 15
111 bgeq 18
112 blss 19
113 bgtru 1a
114 blequ 1b
115 bvc 1c
116 bvs 1d
117 bgequ/bcc 1e
118 blssu/bcs 1f
119 Always, you complement 0th bit to reverse condition.
120 Always, 1-byte opcode, then 1-byte displacement.
122 2b. J<cond> where cond tests a memory bit.
123 length of byte, word, long.
124 Vax opcodes are: (Hex)
125 bbs e0
126 bbc e1
127 bbss e2
128 bbcs e3
129 bbsc e4
130 bbcc e5
131 Always, you complement 0th bit to reverse condition.
132 Always, 1-byte opcde, longword-address, byte-address, 1-byte-displacement
134 2c. J<cond> where cond tests low-order memory bit
135 length of byte,word,long.
136 Vax opcodes are: (Hex)
137 blbs e8
138 blbc e9
139 Always, you complement 0th bit to reverse condition.
140 Always, 1-byte opcode, longword-address, 1-byte displacement.
142 3. Jbs/Jbr.
143 length of byte,word,long.
144 Vax opcodes are: (Hex)
145 bsbb 10
146 brb 11
147 These are like (2) but there is no condition to reverse.
148 Always, 1 byte opcode, then displacement/absolute.
150 4a. JacbX
151 length of word, long.
152 Vax opcodes are: (Hex)
153 acbw 3d
154 acbf 4f
155 acbd 6f
156 abcb 9d
157 acbl f1
158 acbg 4ffd
159 acbh 6ffd
160 Always, we cannot reverse the sense of the branch; we have a word
161 displacement.
162 The double-byte op-codes don't hurt: we never want to modify the
163 opcode, so we don't care how many bytes are between the opcode and
164 the operand.
166 4b. JXobXXX
167 length of long, long, byte.
168 Vax opcodes are: (Hex)
169 aoblss f2
170 aobleq f3
171 sobgeq f4
172 sobgtr f5
173 Always, we cannot reverse the sense of the branch; we have a byte
174 displacement.
176 The only time we need to modify the opcode is for class 2 instructions.
177 After relax() we may complement the lowest order bit of such instruction
178 to reverse sense of branch.
180 For class 2 instructions, we store context of "where is the opcode literal".
181 We can change an opcode's lowest order bit without breaking anything else.
183 We sometimes store context in the operand literal. This way we can figure out
184 after relax() what the original addressing mode was. */
186 /* These displacements are relative to the start address of the
187 displacement. The first letter is Byte, Word. 2nd letter is
188 Forward, Backward. */
189 #define BF (1+ 127)
190 #define BB (1+-128)
191 #define WF (2+ 32767)
192 #define WB (2+-32768)
193 /* Dont need LF, LB because they always reach. [They are coded as 0.] */
195 #define C(a,b) ENCODE_RELAX(a,b)
196 /* This macro has no side-effects. */
197 #define ENCODE_RELAX(what,length) (((what) << 2) + (length))
198 #define RELAX_STATE(s) ((s) >> 2)
199 #define RELAX_LENGTH(s) ((s) & 3)
201 const relax_typeS md_relax_table[] =
203 {1, 1, 0, 0}, /* error sentinel 0,0 */
204 {1, 1, 0, 0}, /* unused 0,1 */
205 {1, 1, 0, 0}, /* unused 0,2 */
206 {1, 1, 0, 0}, /* unused 0,3 */
208 {BF + 1, BB + 1, 2, C (1, 1)},/* B^"foo" 1,0 */
209 {WF + 1, WB + 1, 3, C (1, 2)},/* W^"foo" 1,1 */
210 {0, 0, 5, 0}, /* L^"foo" 1,2 */
211 {1, 1, 0, 0}, /* unused 1,3 */
213 {BF, BB, 1, C (2, 1)}, /* b<cond> B^"foo" 2,0 */
214 {WF + 2, WB + 2, 4, C (2, 2)},/* br.+? brw X 2,1 */
215 {0, 0, 7, 0}, /* br.+? jmp X 2,2 */
216 {1, 1, 0, 0}, /* unused 2,3 */
218 {BF, BB, 1, C (3, 1)}, /* brb B^foo 3,0 */
219 {WF, WB, 2, C (3, 2)}, /* brw W^foo 3,1 */
220 {0, 0, 5, 0}, /* Jmp L^foo 3,2 */
221 {1, 1, 0, 0}, /* unused 3,3 */
223 {1, 1, 0, 0}, /* unused 4,0 */
224 {WF, WB, 2, C (4, 2)}, /* acb_ ^Wfoo 4,1 */
225 {0, 0, 10, 0}, /* acb_,br,jmp L^foo4,2 */
226 {1, 1, 0, 0}, /* unused 4,3 */
228 {BF, BB, 1, C (5, 1)}, /* Xob___,,foo 5,0 */
229 {WF + 4, WB + 4, 6, C (5, 2)},/* Xob.+2,brb.+3,brw5,1 */
230 {0, 0, 9, 0}, /* Xob.+2,brb.+6,jmp5,2 */
231 {1, 1, 0, 0}, /* unused 5,3 */
234 #undef C
235 #undef BF
236 #undef BB
237 #undef WF
238 #undef WB
240 void float_cons (int);
241 int flonum_gen2vax (char, FLONUM_TYPE *, LITTLENUM_TYPE *);
243 const pseudo_typeS md_pseudo_table[] =
245 {"dfloat", float_cons, 'd'},
246 {"ffloat", float_cons, 'f'},
247 {"gfloat", float_cons, 'g'},
248 {"hfloat", float_cons, 'h'},
249 {"d_floating", float_cons, 'd'},
250 {"f_floating", float_cons, 'f'},
251 {"g_floating", float_cons, 'g'},
252 {"h_floating", float_cons, 'h'},
253 {NULL, NULL, 0},
256 #define STATE_PC_RELATIVE (1)
257 #define STATE_CONDITIONAL_BRANCH (2)
258 #define STATE_ALWAYS_BRANCH (3) /* includes BSB... */
259 #define STATE_COMPLEX_BRANCH (4)
260 #define STATE_COMPLEX_HOP (5)
262 #define STATE_BYTE (0)
263 #define STATE_WORD (1)
264 #define STATE_LONG (2)
265 #define STATE_UNDF (3) /* Symbol undefined in pass1. */
267 #define min(a, b) ((a) < (b) ? (a) : (b))
269 void
270 md_number_to_chars (char con[], valueT value, int nbytes)
272 number_to_chars_littleendian (con, value, nbytes);
275 /* Fix up some data or instructions after we find out the value of a symbol
276 that they reference. */
278 void /* Knows about order of bytes in address. */
279 md_apply_fix (fixS *fixP, valueT *valueP, segT seg ATTRIBUTE_UNUSED)
281 valueT value = * valueP;
283 if (((fixP->fx_addsy == NULL && fixP->fx_subsy == NULL)
284 && fixP->fx_r_type != BFD_RELOC_32_PLT_PCREL
285 && fixP->fx_r_type != BFD_RELOC_32_GOT_PCREL)
286 || fixP->fx_r_type == NO_RELOC)
287 number_to_chars_littleendian (fixP->fx_where + fixP->fx_frag->fr_literal,
288 value, fixP->fx_size);
290 if (fixP->fx_addsy == NULL && fixP->fx_pcrel == 0)
291 fixP->fx_done = 1;
294 /* Convert a number from VAX byte order (little endian)
295 into host byte order.
296 con is the buffer to convert,
297 nbytes is the length of the given buffer. */
298 static long
299 md_chars_to_number (unsigned char con[], int nbytes)
301 long retval;
303 for (retval = 0, con += nbytes - 1; nbytes--; con--)
305 retval <<= BITS_PER_CHAR;
306 retval |= *con;
308 return retval;
311 /* Copy a bignum from in to out.
312 If the output is shorter than the input, copy lower-order
313 littlenums. Return 0 or the number of significant littlenums
314 dropped. Assumes littlenum arrays are densely packed: no unused
315 chars between the littlenums. Uses memcpy() to move littlenums, and
316 wants to know length (in chars) of the input bignum. */
318 static int
319 bignum_copy (LITTLENUM_TYPE *in,
320 int in_length, /* in sizeof(littlenum)s */
321 LITTLENUM_TYPE *out,
322 int out_length /* in sizeof(littlenum)s */)
324 int significant_littlenums_dropped;
326 if (out_length < in_length)
328 LITTLENUM_TYPE *p; /* -> most significant (non-zero) input
329 littlenum. */
331 memcpy ((void *) out, (void *) in,
332 (unsigned int) out_length << LITTLENUM_SHIFT);
333 for (p = in + in_length - 1; p >= in; --p)
335 if (*p)
336 break;
338 significant_littlenums_dropped = p - in - in_length + 1;
340 if (significant_littlenums_dropped < 0)
341 significant_littlenums_dropped = 0;
343 else
345 memcpy ((char *) out, (char *) in,
346 (unsigned int) in_length << LITTLENUM_SHIFT);
348 if (out_length > in_length)
349 memset ((char *) (out + in_length), '\0',
350 (unsigned int) (out_length - in_length) << LITTLENUM_SHIFT);
352 significant_littlenums_dropped = 0;
355 return significant_littlenums_dropped;
358 /* md_estimate_size_before_relax(), called just before relax().
359 Any symbol that is now undefined will not become defined.
360 Return the correct fr_subtype in the frag and the growth beyond
361 fr_fix. */
363 md_estimate_size_before_relax (fragS *fragP, segT segment)
365 if (RELAX_LENGTH (fragP->fr_subtype) == STATE_UNDF)
367 if (S_GET_SEGMENT (fragP->fr_symbol) != segment
368 #ifdef OBJ_ELF
369 || S_IS_WEAK (fragP->fr_symbol)
370 || S_IS_EXTERNAL (fragP->fr_symbol)
371 #endif
374 /* Non-relaxable cases. */
375 int reloc_type = NO_RELOC;
376 char *p;
377 int old_fr_fix;
379 old_fr_fix = fragP->fr_fix;
380 p = fragP->fr_literal + old_fr_fix;
381 #ifdef OBJ_ELF
382 /* If this is to an undefined symbol, then if it's an indirect
383 reference indicate that is can mutated into a GLOB_DAT or
384 JUMP_SLOT by the loader. We restrict ourselves to no offset
385 due to a limitation in the NetBSD linker. */
387 if (GOT_symbol == NULL)
388 GOT_symbol = symbol_find (GLOBAL_OFFSET_TABLE_NAME);
389 if (PLT_symbol == NULL)
390 PLT_symbol = symbol_find (PROCEDURE_LINKAGE_TABLE_NAME);
391 if ((GOT_symbol == NULL || fragP->fr_symbol != GOT_symbol)
392 && (PLT_symbol == NULL || fragP->fr_symbol != PLT_symbol)
393 && fragP->fr_symbol != NULL
394 && flag_want_pic
395 && (!S_IS_DEFINED (fragP->fr_symbol)
396 || S_IS_WEAK (fragP->fr_symbol)
397 || S_IS_EXTERNAL (fragP->fr_symbol)))
399 /* Indirect references cannot go through the GOT or PLT,
400 let's hope they'll become local in the final link. */
401 if ((ELF_ST_VISIBILITY (S_GET_OTHER (fragP->fr_symbol))
402 != STV_DEFAULT)
403 || (p[0] & 0x10))
404 reloc_type = BFD_RELOC_32_PCREL;
405 else if (((unsigned char *) fragP->fr_opcode)[0] == VAX_CALLS
406 || ((unsigned char *) fragP->fr_opcode)[0] == VAX_CALLG
407 || ((unsigned char *) fragP->fr_opcode)[0] == VAX_JSB
408 || ((unsigned char *) fragP->fr_opcode)[0] == VAX_JMP
409 || S_IS_FUNCTION (fragP->fr_symbol))
410 reloc_type = BFD_RELOC_32_PLT_PCREL;
411 else
412 reloc_type = BFD_RELOC_32_GOT_PCREL;
414 #endif
415 switch (RELAX_STATE (fragP->fr_subtype))
417 case STATE_PC_RELATIVE:
418 p[0] |= VAX_PC_RELATIVE_MODE; /* Preserve @ bit. */
419 fragP->fr_fix += 1 + 4;
420 fix_new (fragP, old_fr_fix + 1, 4, fragP->fr_symbol,
421 fragP->fr_offset, 1, reloc_type);
422 break;
424 case STATE_CONDITIONAL_BRANCH:
425 *fragP->fr_opcode ^= 1; /* Reverse sense of branch. */
426 p[0] = 6;
427 p[1] = VAX_JMP;
428 p[2] = VAX_PC_RELATIVE_MODE; /* ...(PC) */
429 fragP->fr_fix += 1 + 1 + 1 + 4;
430 fix_new (fragP, old_fr_fix + 3, 4, fragP->fr_symbol,
431 fragP->fr_offset, 1, NO_RELOC);
432 break;
434 case STATE_COMPLEX_BRANCH:
435 p[0] = 2;
436 p[1] = 0;
437 p[2] = VAX_BRB;
438 p[3] = 6;
439 p[4] = VAX_JMP;
440 p[5] = VAX_PC_RELATIVE_MODE; /* ...(pc) */
441 fragP->fr_fix += 2 + 2 + 1 + 1 + 4;
442 fix_new (fragP, old_fr_fix + 6, 4, fragP->fr_symbol,
443 fragP->fr_offset, 1, NO_RELOC);
444 break;
446 case STATE_COMPLEX_HOP:
447 p[0] = 2;
448 p[1] = VAX_BRB;
449 p[2] = 6;
450 p[3] = VAX_JMP;
451 p[4] = VAX_PC_RELATIVE_MODE; /* ...(pc) */
452 fragP->fr_fix += 1 + 2 + 1 + 1 + 4;
453 fix_new (fragP, old_fr_fix + 5, 4, fragP->fr_symbol,
454 fragP->fr_offset, 1, NO_RELOC);
455 break;
457 case STATE_ALWAYS_BRANCH:
458 *fragP->fr_opcode += VAX_WIDEN_LONG;
459 p[0] = VAX_PC_RELATIVE_MODE; /* ...(PC) */
460 fragP->fr_fix += 1 + 4;
461 fix_new (fragP, old_fr_fix + 1, 4, fragP->fr_symbol,
462 fragP->fr_offset, 1, NO_RELOC);
463 break;
465 default:
466 abort ();
468 frag_wane (fragP);
470 /* Return the growth in the fixed part of the frag. */
471 return fragP->fr_fix - old_fr_fix;
474 /* Relaxable cases. Set up the initial guess for the variable
475 part of the frag. */
476 switch (RELAX_STATE (fragP->fr_subtype))
478 case STATE_PC_RELATIVE:
479 fragP->fr_subtype = ENCODE_RELAX (STATE_PC_RELATIVE, STATE_BYTE);
480 break;
481 case STATE_CONDITIONAL_BRANCH:
482 fragP->fr_subtype = ENCODE_RELAX (STATE_CONDITIONAL_BRANCH, STATE_BYTE);
483 break;
484 case STATE_COMPLEX_BRANCH:
485 fragP->fr_subtype = ENCODE_RELAX (STATE_COMPLEX_BRANCH, STATE_WORD);
486 break;
487 case STATE_COMPLEX_HOP:
488 fragP->fr_subtype = ENCODE_RELAX (STATE_COMPLEX_HOP, STATE_BYTE);
489 break;
490 case STATE_ALWAYS_BRANCH:
491 fragP->fr_subtype = ENCODE_RELAX (STATE_ALWAYS_BRANCH, STATE_BYTE);
492 break;
496 if (fragP->fr_subtype >= sizeof (md_relax_table) / sizeof (md_relax_table[0]))
497 abort ();
499 /* Return the size of the variable part of the frag. */
500 return md_relax_table[fragP->fr_subtype].rlx_length;
503 /* Called after relax() is finished.
504 In: Address of frag.
505 fr_type == rs_machine_dependent.
506 fr_subtype is what the address relaxed to.
508 Out: Any fixSs and constants are set up.
509 Caller will turn frag into a ".space 0". */
510 void
511 md_convert_frag (bfd *headers ATTRIBUTE_UNUSED,
512 segT seg ATTRIBUTE_UNUSED,
513 fragS *fragP)
515 char *addressP; /* -> _var to change. */
516 char *opcodeP; /* -> opcode char(s) to change. */
517 short int extension = 0; /* Size of relaxed address. */
518 /* Added to fr_fix: incl. ALL var chars. */
519 symbolS *symbolP;
520 long where;
522 know (fragP->fr_type == rs_machine_dependent);
523 where = fragP->fr_fix;
524 addressP = fragP->fr_literal + where;
525 opcodeP = fragP->fr_opcode;
526 symbolP = fragP->fr_symbol;
527 know (symbolP);
529 switch (fragP->fr_subtype)
531 case ENCODE_RELAX (STATE_PC_RELATIVE, STATE_BYTE):
532 know (*addressP == 0 || *addressP == 0x10); /* '@' bit. */
533 addressP[0] |= 0xAF; /* Byte displacement. */
534 fix_new (fragP, fragP->fr_fix + 1, 1, fragP->fr_symbol,
535 fragP->fr_offset, 1, NO_RELOC);
536 extension = 2;
537 break;
539 case ENCODE_RELAX (STATE_PC_RELATIVE, STATE_WORD):
540 know (*addressP == 0 || *addressP == 0x10); /* '@' bit. */
541 addressP[0] |= 0xCF; /* Word displacement. */
542 fix_new (fragP, fragP->fr_fix + 1, 2, fragP->fr_symbol,
543 fragP->fr_offset, 1, NO_RELOC);
544 extension = 3;
545 break;
547 case ENCODE_RELAX (STATE_PC_RELATIVE, STATE_LONG):
548 know (*addressP == 0 || *addressP == 0x10); /* '@' bit. */
549 addressP[0] |= 0xEF; /* Long word displacement. */
550 fix_new (fragP, fragP->fr_fix + 1, 4, fragP->fr_symbol,
551 fragP->fr_offset, 1, NO_RELOC);
552 extension = 5;
553 break;
555 case ENCODE_RELAX (STATE_CONDITIONAL_BRANCH, STATE_BYTE):
556 fix_new (fragP, fragP->fr_fix, 1, fragP->fr_symbol,
557 fragP->fr_offset, 1, NO_RELOC);
558 extension = 1;
559 break;
561 case ENCODE_RELAX (STATE_CONDITIONAL_BRANCH, STATE_WORD):
562 opcodeP[0] ^= 1; /* Reverse sense of test. */
563 addressP[0] = 3;
564 addressP[1] = VAX_BRW;
565 fix_new (fragP, fragP->fr_fix + 2, 2, fragP->fr_symbol,
566 fragP->fr_offset, 1, NO_RELOC);
567 extension = 4;
568 break;
570 case ENCODE_RELAX (STATE_CONDITIONAL_BRANCH, STATE_LONG):
571 opcodeP[0] ^= 1; /* Reverse sense of test. */
572 addressP[0] = 6;
573 addressP[1] = VAX_JMP;
574 addressP[2] = VAX_PC_RELATIVE_MODE;
575 fix_new (fragP, fragP->fr_fix + 3, 4, fragP->fr_symbol,
576 fragP->fr_offset, 1, NO_RELOC);
577 extension = 7;
578 break;
580 case ENCODE_RELAX (STATE_ALWAYS_BRANCH, STATE_BYTE):
581 fix_new (fragP, fragP->fr_fix, 1, fragP->fr_symbol,
582 fragP->fr_offset, 1, NO_RELOC);
583 extension = 1;
584 break;
586 case ENCODE_RELAX (STATE_ALWAYS_BRANCH, STATE_WORD):
587 opcodeP[0] += VAX_WIDEN_WORD; /* brb -> brw, bsbb -> bsbw */
588 fix_new (fragP, fragP->fr_fix, 2, fragP->fr_symbol, fragP->fr_offset,
589 1, NO_RELOC);
590 extension = 2;
591 break;
593 case ENCODE_RELAX (STATE_ALWAYS_BRANCH, STATE_LONG):
594 opcodeP[0] += VAX_WIDEN_LONG; /* brb -> jmp, bsbb -> jsb */
595 addressP[0] = VAX_PC_RELATIVE_MODE;
596 fix_new (fragP, fragP->fr_fix + 1, 4, fragP->fr_symbol,
597 fragP->fr_offset, 1, NO_RELOC);
598 extension = 5;
599 break;
601 case ENCODE_RELAX (STATE_COMPLEX_BRANCH, STATE_WORD):
602 fix_new (fragP, fragP->fr_fix, 2, fragP->fr_symbol,
603 fragP->fr_offset, 1, NO_RELOC);
604 extension = 2;
605 break;
607 case ENCODE_RELAX (STATE_COMPLEX_BRANCH, STATE_LONG):
608 addressP[0] = 2;
609 addressP[1] = 0;
610 addressP[2] = VAX_BRB;
611 addressP[3] = 6;
612 addressP[4] = VAX_JMP;
613 addressP[5] = VAX_PC_RELATIVE_MODE;
614 fix_new (fragP, fragP->fr_fix + 6, 4, fragP->fr_symbol,
615 fragP->fr_offset, 1, NO_RELOC);
616 extension = 10;
617 break;
619 case ENCODE_RELAX (STATE_COMPLEX_HOP, STATE_BYTE):
620 fix_new (fragP, fragP->fr_fix, 1, fragP->fr_symbol,
621 fragP->fr_offset, 1, NO_RELOC);
622 extension = 1;
623 break;
625 case ENCODE_RELAX (STATE_COMPLEX_HOP, STATE_WORD):
626 addressP[0] = 2;
627 addressP[1] = VAX_BRB;
628 addressP[2] = 3;
629 addressP[3] = VAX_BRW;
630 fix_new (fragP, fragP->fr_fix + 4, 2, fragP->fr_symbol,
631 fragP->fr_offset, 1, NO_RELOC);
632 extension = 6;
633 break;
635 case ENCODE_RELAX (STATE_COMPLEX_HOP, STATE_LONG):
636 addressP[0] = 2;
637 addressP[1] = VAX_BRB;
638 addressP[2] = 6;
639 addressP[3] = VAX_JMP;
640 addressP[4] = VAX_PC_RELATIVE_MODE;
641 fix_new (fragP, fragP->fr_fix + 5, 4, fragP->fr_symbol,
642 fragP->fr_offset, 1, NO_RELOC);
643 extension = 9;
644 break;
646 default:
647 BAD_CASE (fragP->fr_subtype);
648 break;
650 fragP->fr_fix += extension;
653 /* Translate internal format of relocation info into target format.
655 On vax: first 4 bytes are normal unsigned long, next three bytes
656 are symbolnum, least sig. byte first. Last byte is broken up with
657 the upper nibble as nuthin, bit 3 as extern, bits 2 & 1 as length, and
658 bit 0 as pcrel. */
659 #ifdef comment
660 void
661 md_ri_to_chars (char *the_bytes, struct reloc_info_generic ri)
663 /* This is easy. */
664 md_number_to_chars (the_bytes, ri.r_address, sizeof (ri.r_address));
665 /* Now the fun stuff. */
666 the_bytes[6] = (ri.r_symbolnum >> 16) & 0x0ff;
667 the_bytes[5] = (ri.r_symbolnum >> 8) & 0x0ff;
668 the_bytes[4] = ri.r_symbolnum & 0x0ff;
669 the_bytes[7] = (((ri.r_extern << 3) & 0x08) | ((ri.r_length << 1) & 0x06)
670 | ((ri.r_pcrel << 0) & 0x01)) & 0x0F;
673 #endif /* comment */
675 /* BUGS, GRIPES, APOLOGIA, etc.
677 The opcode table 'votstrs' needs to be sorted on opcode frequency.
678 That is, AFTER we hash it with hash_...(), we want most-used opcodes
679 to come out of the hash table faster.
681 I am sorry to inflict yet another VAX assembler on the world, but
682 RMS says we must do everything from scratch, to prevent pin-heads
683 restricting this software.
685 This is a vaguely modular set of routines in C to parse VAX
686 assembly code using DEC mnemonics. It is NOT un*x specific.
688 The idea here is that the assembler has taken care of all:
689 labels
690 macros
691 listing
692 pseudo-ops
693 line continuation
694 comments
695 condensing any whitespace down to exactly one space
696 and all we have to do is parse 1 line into a vax instruction
697 partially formed. We will accept a line, and deliver:
698 an error message (hopefully empty)
699 a skeleton VAX instruction (tree structure)
700 textual pointers to all the operand expressions
701 a warning message that notes a silly operand (hopefully empty)
703 E D I T H I S T O R Y
705 17may86 Dean Elsner. Bug if line ends immediately after opcode.
706 30apr86 Dean Elsner. New vip_op() uses arg block so change call.
707 6jan86 Dean Elsner. Crock vip_begin() to call vip_op_defaults().
708 2jan86 Dean Elsner. Invent synthetic opcodes.
709 Widen vax_opcodeT to 32 bits. Use a bit for VIT_OPCODE_SYNTHETIC,
710 which means this is not a real opcode, it is like a macro; it will
711 be relax()ed into 1 or more instructions.
712 Use another bit for VIT_OPCODE_SPECIAL if the op-code is not optimised
713 like a regular branch instruction. Option added to vip_begin():
714 exclude synthetic opcodes. Invent synthetic_votstrs[].
715 31dec85 Dean Elsner. Invent vit_opcode_nbytes.
716 Also make vit_opcode into a char[]. We now have n-byte vax opcodes,
717 so caller's don't have to know the difference between a 1-byte & a
718 2-byte op-code. Still need vax_opcodeT concept, so we know how
719 big an object must be to hold an op.code.
720 30dec85 Dean Elsner. Widen typedef vax_opcodeT in "vax-inst.h"
721 because vax opcodes may be 16 bits. Our crufty C compiler was
722 happily initialising 8-bit vot_codes with 16-bit numbers!
723 (Wouldn't the 'phone company like to compress data so easily!)
724 29dec85 Dean Elsner. New static table vax_operand_width_size[].
725 Invented so we know hw many bytes a "I^#42" needs in its immediate
726 operand. Revised struct vop in "vax-inst.h": explicitly include
727 byte length of each operand, and it's letter-code datum type.
728 17nov85 Dean Elsner. Name Change.
729 Due to ar(1) truncating names, we learned the hard way that
730 "vax-inst-parse.c" -> "vax-inst-parse." dropping the "o" off
731 the archived object name. SO... we shortened the name of this
732 source file, and changed the makefile. */
734 /* Handle of the OPCODE hash table. */
735 static struct hash_control *op_hash;
737 /* In: 1 character, from "bdfghloqpw" being the data-type of an operand
738 of a vax instruction.
740 Out: the length of an operand of that type, in bytes.
741 Special branch operands types "-?!" have length 0. */
743 static const short int vax_operand_width_size[256] =
745 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
746 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
747 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
748 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
749 0, 0, 1, 0, 8, 0, 4, 8, 16, 0, 0, 0, 4, 0, 0,16, /* ..b.d.fgh...l..o */
750 0, 8, 0, 0, 0, 0, 0, 2, 0, 0, 0, 0, 0, 0, 0, 0, /* .q.....w........ */
751 0, 0, 1, 0, 8, 0, 4, 8, 16, 0, 0, 0, 4, 0, 0,16, /* ..b.d.fgh...l..o */
752 0, 8, 0, 0, 0, 0, 0, 2, 0, 0, 0, 0, 0, 0, 0, 0, /* .q.....w........ */
753 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
754 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
755 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
756 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
757 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
758 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
759 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
760 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
763 /* This perversion encodes all the vax opcodes as a bunch of strings.
764 RMS says we should build our hash-table at run-time. Hmm.
765 Please would someone arrange these in decreasing frequency of opcode?
766 Because of the way hash_...() works, the most frequently used opcode
767 should be textually first and so on.
769 Input for this table was 'vax.opcodes', awk(1)ed by 'vax.opcodes.c.awk' .
770 So change 'vax.opcodes', then re-generate this table. */
772 #include "opcode/vax.h"
774 /* This is a table of optional op-codes. All of them represent
775 'synthetic' instructions that seem popular.
777 Here we make some pseudo op-codes. Every code has a bit set to say
778 it is synthetic. This lets you catch them if you want to
779 ban these opcodes. They are mnemonics for "elastic" instructions
780 that are supposed to assemble into the fewest bytes needed to do a
781 branch, or to do a conditional branch, or whatever.
783 The opcode is in the usual place [low-order n*8 bits]. This means
784 that if you mask off the bucky bits, the usual rules apply about
785 how long the opcode is.
787 All VAX branch displacements come at the end of the instruction.
788 For simple branches (1-byte opcode + 1-byte displacement) the last
789 operand is coded 'b?' where the "data type" '?' is a clue that we
790 may reverse the sense of the branch (complement lowest order bit)
791 and branch around a jump. This is by far the most common case.
792 That is why the VIT_OPCODE_SYNTHETIC bit is set: it says this is
793 a 0-byte op-code followed by 2 or more bytes of operand address.
795 If the op-code has VIT_OPCODE_SPECIAL set, then we have a more unusual
796 case.
798 For JBSB & JBR the treatment is the similar, except (1) we have a 'bw'
799 option before (2) we can directly JSB/JMP because there is no condition.
800 These operands have 'b-' as their access/data type.
802 That leaves a bunch of random opcodes: JACBx, JxOBxxx. In these
803 cases, we do the same idea. JACBxxx are all marked with a 'b!'
804 JAOBxxx & JSOBxxx are marked with a 'b:'. */
805 #if (VIT_OPCODE_SYNTHETIC != 0x80000000)
806 #error "You have just broken the encoding below, which assumes the sign bit means 'I am an imaginary instruction'."
807 #endif
809 #if (VIT_OPCODE_SPECIAL != 0x40000000)
810 #error "You have just broken the encoding below, which assumes the 0x40 M bit means 'I am not to be "optimised" the way normal branches are'."
811 #endif
813 static const struct vot
814 synthetic_votstrs[] =
816 {"jbsb", {"b-", 0xC0000010}}, /* BSD 4.2 */
817 /* jsb used already */
818 {"jbr", {"b-", 0xC0000011}}, /* BSD 4.2 */
819 {"jr", {"b-", 0xC0000011}}, /* consistent */
820 {"jneq", {"b?", 0x80000012}},
821 {"jnequ", {"b?", 0x80000012}},
822 {"jeql", {"b?", 0x80000013}},
823 {"jeqlu", {"b?", 0x80000013}},
824 {"jgtr", {"b?", 0x80000014}},
825 {"jleq", {"b?", 0x80000015}},
826 /* un-used opcodes here */
827 {"jgeq", {"b?", 0x80000018}},
828 {"jlss", {"b?", 0x80000019}},
829 {"jgtru", {"b?", 0x8000001a}},
830 {"jlequ", {"b?", 0x8000001b}},
831 {"jvc", {"b?", 0x8000001c}},
832 {"jvs", {"b?", 0x8000001d}},
833 {"jgequ", {"b?", 0x8000001e}},
834 {"jcc", {"b?", 0x8000001e}},
835 {"jlssu", {"b?", 0x8000001f}},
836 {"jcs", {"b?", 0x8000001f}},
838 {"jacbw", {"rwrwmwb!", 0xC000003d}},
839 {"jacbf", {"rfrfmfb!", 0xC000004f}},
840 {"jacbd", {"rdrdmdb!", 0xC000006f}},
841 {"jacbb", {"rbrbmbb!", 0xC000009d}},
842 {"jacbl", {"rlrlmlb!", 0xC00000f1}},
843 {"jacbg", {"rgrgmgb!", 0xC0004ffd}},
844 {"jacbh", {"rhrhmhb!", 0xC0006ffd}},
846 {"jbs", {"rlvbb?", 0x800000e0}},
847 {"jbc", {"rlvbb?", 0x800000e1}},
848 {"jbss", {"rlvbb?", 0x800000e2}},
849 {"jbcs", {"rlvbb?", 0x800000e3}},
850 {"jbsc", {"rlvbb?", 0x800000e4}},
851 {"jbcc", {"rlvbb?", 0x800000e5}},
852 {"jbssi", {"rlvbb?", 0x800000e6}},
853 {"jbcci", {"rlvbb?", 0x800000e7}},
854 {"jlbs", {"rlb?", 0x800000e8}},
855 {"jlbc", {"rlb?", 0x800000e9}},
857 {"jaoblss", {"rlmlb:", 0xC00000f2}},
858 {"jaobleq", {"rlmlb:", 0xC00000f3}},
859 {"jsobgeq", {"mlb:", 0xC00000f4}},
860 {"jsobgtr", {"mlb:", 0xC00000f5}},
862 /* CASEx has no branch addresses in our conception of it. */
863 /* You should use ".word ..." statements after the "case ...". */
865 {"", {"", 0}} /* Empty is end sentinel. */
868 /* Because this module is useful for both VMS and UN*X style assemblers
869 and because of the variety of UN*X assemblers we must recognise
870 the different conventions for assembler operand notation. For example
871 VMS says "#42" for immediate mode, while most UN*X say "$42".
872 We permit arbitrary sets of (single) characters to represent the
873 3 concepts that DEC writes '#', '@', '^'. */
875 /* Character tests. */
876 #define VIP_IMMEDIATE 01 /* Character is like DEC # */
877 #define VIP_INDIRECT 02 /* Char is like DEC @ */
878 #define VIP_DISPLEN 04 /* Char is like DEC ^ */
880 #define IMMEDIATEP(c) (vip_metacharacters [(c) & 0xff] & VIP_IMMEDIATE)
881 #define INDIRECTP(c) (vip_metacharacters [(c) & 0xff] & VIP_INDIRECT)
882 #define DISPLENP(c) (vip_metacharacters [(c) & 0xff] & VIP_DISPLEN)
884 /* We assume 8 bits per byte. Use vip_op_defaults() to set these up BEFORE we
885 are ever called. */
887 #if defined(CONST_TABLE)
888 #define _ 0,
889 #define I VIP_IMMEDIATE,
890 #define S VIP_INDIRECT,
891 #define D VIP_DISPLEN,
892 static const char
893 vip_metacharacters[256] =
895 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ /* ^@ ^A ^B ^C ^D ^E ^F ^G ^H ^I ^J ^K ^L ^M ^N ^O*/
896 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ /* ^P ^Q ^R ^S ^T ^U ^V ^W ^X ^Y ^Z ^[ ^\ ^] ^^ ^_ */
897 _ _ _ _ I _ _ _ _ _ S _ _ _ _ _ /* sp ! " # $ % & ' ( ) * + , - . / */
898 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ /*0 1 2 3 4 5 6 7 8 9 : ; < = > ?*/
899 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ /*@ A B C D E F G H I J K L M N O*/
900 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ /*P Q R S T U V W X Y Z [ \ ] ^ _*/
901 D _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ /*` a b c d e f g h i j k l m n o*/
902 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ /*p q r s t u v w x y z { | } ~ ^?*/
904 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
905 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
906 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
907 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
908 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
909 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
910 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
911 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
913 #undef _
914 #undef I
915 #undef S
916 #undef D
918 #else
920 static char vip_metacharacters[256];
922 static void
923 vip_op_1 (int bit, const char *syms)
925 unsigned char t;
927 while ((t = *syms++) != 0)
928 vip_metacharacters[t] |= bit;
931 /* Can be called any time. More arguments may appear in future. */
932 static void
933 vip_op_defaults (const char *immediate, const char *indirect, const char *displen)
935 vip_op_1 (VIP_IMMEDIATE, immediate);
936 vip_op_1 (VIP_INDIRECT, indirect);
937 vip_op_1 (VIP_DISPLEN, displen);
940 #endif
942 /* Call me once before you decode any lines.
943 I decode votstrs into a hash table at op_hash (which I create).
944 I return an error text or null.
945 If you want, I will include the 'synthetic' jXXX instructions in the
946 instruction table.
947 You must nominate metacharacters for eg DEC's "#", "@", "^". */
949 static const char *
950 vip_begin (int synthetic_too, /* 1 means include jXXX op-codes. */
951 const char *immediate,
952 const char *indirect,
953 const char *displen)
955 const struct vot *vP; /* scan votstrs */
956 const char *retval = 0; /* error text */
958 op_hash = hash_new ();
960 for (vP = votstrs; *vP->vot_name && !retval; vP++)
961 retval = hash_insert (op_hash, vP->vot_name, (void *) &vP->vot_detail);
963 if (synthetic_too)
964 for (vP = synthetic_votstrs; *vP->vot_name && !retval; vP++)
965 retval = hash_insert (op_hash, vP->vot_name, (void *) &vP->vot_detail);
967 #ifndef CONST_TABLE
968 vip_op_defaults (immediate, indirect, displen);
969 #endif
971 return retval;
974 /* Take 3 char.s, the last of which may be `\0` (non-existent)
975 and return the VAX register number that they represent.
977 Return -1 if they don't form a register name. Good names return
978 a number from 0:15 inclusive.
980 Case is not important in a name.
982 Register names understood are:
996 R12 AP
997 R13 FP
998 R14 SP
999 R15 PC */
1001 #define AP 12
1002 #define FP 13
1003 #define SP 14
1004 #define PC 15
1006 /* Returns the register number of something like '%r15' or 'ap', supplied
1007 in four single chars. Returns -1 if the register isn't recognized,
1008 0..15 otherwise. */
1009 static int
1010 vax_reg_parse (char c1, char c2, char c3, char c4)
1012 int retval = -1;
1014 #ifdef OBJ_ELF
1015 if (c1 != '%') /* Register prefixes are mandatory for ELF. */
1016 return retval;
1017 c1 = c2;
1018 c2 = c3;
1019 c3 = c4;
1020 #endif
1021 #ifdef OBJ_VMS
1022 if (c4 != 0) /* Register prefixes are not allowed under VMS. */
1023 return retval;
1024 #endif
1025 #ifdef OBJ_AOUT
1026 if (c1 == '%') /* Register prefixes are optional under a.out. */
1028 c1 = c2;
1029 c2 = c3;
1030 c3 = c4;
1032 else if (c3 && c4) /* Can't be 4 characters long. */
1033 return retval;
1034 #endif
1036 c1 = TOLOWER (c1);
1037 c2 = TOLOWER (c2);
1038 if (ISDIGIT (c2) && c1 == 'r')
1040 retval = c2 - '0';
1041 if (ISDIGIT (c3))
1043 retval = retval * 10 + c3 - '0';
1044 retval = (retval > 15) ? -1 : retval;
1045 /* clamp the register value to 1 hex digit */
1047 else if (c3)
1048 retval = -1; /* c3 must be '\0' or a digit. */
1050 else if (c3) /* There are no three letter regs. */
1051 retval = -1;
1052 else if (c2 == 'p')
1054 switch (c1)
1056 case 's':
1057 retval = SP;
1058 break;
1059 case 'f':
1060 retval = FP;
1061 break;
1062 case 'a':
1063 retval = AP;
1064 break;
1065 default:
1066 retval = -1;
1069 else if (c1 == 'p' && c2 == 'c')
1070 retval = PC;
1071 else
1072 retval = -1;
1073 return retval;
1076 /* Parse a vax operand in DEC assembler notation.
1077 For speed, expect a string of whitespace to be reduced to a single ' '.
1078 This is the case for GNU AS, and is easy for other DEC-compatible
1079 assemblers.
1081 Knowledge about DEC VAX assembler operand notation lives here.
1082 This doesn't even know what a register name is, except it believes
1083 all register names are 2 or 3 characters, and lets vax_reg_parse() say
1084 what number each name represents.
1085 It does, however, know that PC, SP etc are special registers so it can
1086 detect addressing modes that are silly for those registers.
1088 Where possible, it delivers 1 fatal or 1 warning message if the operand
1089 is suspect. Exactly what we test for is still evolving.
1092 Arg block.
1094 There were a number of 'mismatched argument type' bugs to vip_op.
1095 The most general solution is to typedef each (of many) arguments.
1096 We used instead a typedef'd argument block. This is less modular
1097 than using separate return pointers for each result, but runs faster
1098 on most engines, and seems to keep programmers happy. It will have
1099 to be done properly if we ever want to use vip_op as a general-purpose
1100 module (it was designed to be).
1104 Doesn't support DEC "G^" format operands. These always take 5 bytes
1105 to express, and code as modes 8F or 9F. Reason: "G^" deprives you of
1106 optimising to (say) a "B^" if you are lucky in the way you link.
1107 When someone builds a linker smart enough to convert "G^" to "B^", "W^"
1108 whenever possible, then we should implement it.
1109 If there is some other use for "G^", feel free to code it in!
1111 speed
1113 If I nested if()s more, I could avoid testing (*err) which would save
1114 time, space and page faults. I didn't nest all those if()s for clarity
1115 and because I think the mode testing can be re-arranged 1st to test the
1116 commoner constructs 1st. Does anybody have statistics on this?
1118 error messages
1120 In future, we should be able to 'compose' error messages in a scratch area
1121 and give the user MUCH more informative error messages. Although this takes
1122 a little more code at run-time, it will make this module much more self-
1123 documenting. As an example of what sucks now: most error messages have
1124 hardwired into them the DEC VAX metacharacters "#^@" which are nothing like
1125 the Un*x characters "$`*", that most users will expect from this AS.
1127 ----
1129 The input is a string, ending with '\0'.
1131 We also require a 'hint' of what kind of operand is expected: so
1132 we can remind caller not to write into literals for instance.
1134 The output is a skeletal instruction.
1136 The algorithm has two parts.
1137 1. extract the syntactic features (parse off all the @^#-()+[] mode crud);
1138 2. express the @^#-()+[] as some parameters suited to further analysis.
1140 2nd step is where we detect the googles of possible invalid combinations
1141 a human (or compiler) might write. Note that if we do a half-way
1142 decent assembler, we don't know how long to make (eg) displacement
1143 fields when we first meet them (because they may not have defined values).
1144 So we must wait until we know how many bits are needed for each address,
1145 then we can know both length and opcodes of instructions.
1146 For reason(s) above, we will pass to our caller a 'broken' instruction
1147 of these major components, from which our caller can generate instructions:
1148 - displacement length I^ S^ L^ B^ W^ unspecified
1149 - mode (many)
1150 - register R0-R15 or absent
1151 - index register R0-R15 or absent
1152 - expression text what we don't parse
1153 - error text(s) why we couldn't understand the operand
1155 ----
1157 To decode output of this, test errtxt. If errtxt[0] == '\0', then
1158 we had no errors that prevented parsing. Also, if we ever report
1159 an internal bug, errtxt[0] is set non-zero. So one test tells you
1160 if the other outputs are to be taken seriously.
1162 ----
1164 Dec defines the semantics of address modes (and values)
1165 by a two-letter code, explained here.
1167 letter 1: access type
1169 a address calculation - no data access, registers forbidden
1170 b branch displacement
1171 m read - let go of bus - write back "modify"
1172 r read
1173 v bit field address: like 'a' but registers are OK
1174 w write
1175 space no operator (eg ".long foo") [our convention]
1177 letter 2: data type (i.e. width, alignment)
1179 b byte
1180 d double precision floating point (D format)
1181 f single precision floating point (F format)
1182 g G format floating
1183 h H format floating
1184 l longword
1185 o octaword
1186 q quadword
1187 w word
1188 ? simple synthetic branch operand
1189 - unconditional synthetic JSB/JSR operand
1190 ! complex synthetic branch operand
1192 The '-?!' letter 2's are not for external consumption. They are used
1193 for various assemblers. Generally, all unknown widths are assumed 0.
1194 We don't limit your choice of width character.
1196 DEC operands are hard work to parse. For example, '@' as the first
1197 character means indirect (deferred) mode but elsewhere it is a shift
1198 operator.
1199 The long-winded explanation of how this is supposed to work is
1200 cancelled. Read a DEC vax manual.
1201 We try hard not to parse anything that MIGHT be part of the expression
1202 buried in that syntax. For example if we see @...(Rn) we don't check
1203 for '-' before the '(' because mode @-(Rn) does not exist.
1205 After parsing we have:
1207 at 1 if leading '@' (or Un*x '*')
1208 len takes one value from " bilsw". eg B^ -> 'b'.
1209 hash 1 if leading '#' (or Un*x '$')
1210 expr_begin, expr_end the expression we did not parse
1211 even though we don't interpret it, we make use
1212 of its presence or absence.
1213 sign -1: -(Rn) 0: absent +1: (Rn)+
1214 paren 1 if () are around register
1215 reg major register number 0:15 -1 means absent
1216 ndx index register number 0:15 -1 means absent
1218 Again, I dare not explain it: just trace ALL the code!
1220 Summary of vip_op outputs.
1222 mode reg len ndx
1223 (Rn) => @Rn
1224 {@}Rn 5+@ n ' ' optional
1225 branch operand 0 -1 ' ' -1
1226 S^#foo 0 -1 's' -1
1227 -(Rn) 7 n ' ' optional
1228 {@}(Rn)+ 8+@ n ' ' optional
1229 {@}#foo, no S^ 8+@ PC " i" optional
1230 {@}{q^}{(Rn)} 10+@+q option " bwl" optional */
1232 /* Dissect user-input 'optext' (which is something like "@B^foo@bar(AP)[FP]:")
1233 using the vop in vopP. vopP's vop_access and vop_width. We fill _ndx, _reg,
1234 _mode, _short, _warn, _error, _expr_begin, _expr_end and _nbytes. */
1236 static void
1237 vip_op (char *optext, struct vop *vopP)
1239 /* Track operand text forward. */
1240 char *p;
1241 /* Track operand text backward. */
1242 char *q;
1243 /* 1 if leading '@' ('*') seen. */
1244 int at;
1245 /* one of " bilsw" */
1246 char len;
1247 /* 1 if leading '#' ('$') seen. */
1248 int hash;
1249 /* -1, 0 or +1. */
1250 int sign = 0;
1251 /* 1 if () surround register. */
1252 int paren = 0;
1253 /* Register number, -1:absent. */
1254 int reg = 0;
1255 /* Index register number -1:absent. */
1256 int ndx = 0;
1257 /* Report illegal operand, ""==OK. */
1258 /* " " is a FAKE error: means we won. */
1259 /* ANY err that begins with ' ' is a fake. */
1260 /* " " is converted to "" before return. */
1261 const char *err;
1262 /* Warn about weird modes pf address. */
1263 const char *wrn;
1264 /* Preserve q in case we backup. */
1265 char *oldq = NULL;
1266 /* Build up 4-bit operand mode here. */
1267 /* Note: index mode is in ndx, this is. */
1268 /* The major mode of operand address. */
1269 int mode = 0;
1270 /* Notice how we move wrong-arg-type bugs INSIDE this module: if we
1271 get the types wrong below, we lose at compile time rather than at
1272 lint or run time. */
1273 char access_mode; /* vop_access. */
1274 char width; /* vop_width. */
1276 access_mode = vopP->vop_access;
1277 width = vopP->vop_width;
1278 /* None of our code bugs (yet), no user text errors, no warnings
1279 even. */
1280 err = wrn = 0;
1282 p = optext;
1284 if (*p == ' ') /* Expect all whitespace reduced to ' '. */
1285 p++; /* skip over whitespace */
1287 if ((at = INDIRECTP (*p)) != 0)
1288 { /* 1 if *p=='@'(or '*' for Un*x) */
1289 p++; /* at is determined */
1290 if (*p == ' ') /* Expect all whitespace reduced to ' '. */
1291 p++; /* skip over whitespace */
1294 /* This code is subtle. It tries to detect all legal (letter)'^'
1295 but it doesn't waste time explicitly testing for premature '\0' because
1296 this case is rejected as a mismatch against either (letter) or '^'. */
1298 char c;
1300 c = *p;
1301 c = TOLOWER (c);
1302 if (DISPLENP (p[1]) && strchr ("bilws", len = c))
1303 p += 2; /* Skip (letter) '^'. */
1304 else /* No (letter) '^' seen. */
1305 len = ' '; /* Len is determined. */
1308 if (*p == ' ') /* Expect all whitespace reduced to ' '. */
1309 p++;
1311 if ((hash = IMMEDIATEP (*p)) != 0) /* 1 if *p=='#' ('$' for Un*x) */
1312 p++; /* Hash is determined. */
1314 /* p points to what may be the beginning of an expression.
1315 We have peeled off the front all that is peelable.
1316 We know at, len, hash.
1318 Lets point q at the end of the text and parse that (backwards). */
1320 for (q = p; *q; q++)
1322 q--; /* Now q points at last char of text. */
1324 if (*q == ' ' && q >= p) /* Expect all whitespace reduced to ' '. */
1325 q--;
1327 /* Reverse over whitespace, but don't. */
1328 /* Run back over *p. */
1330 /* As a matter of policy here, we look for [Rn], although both Rn and S^#
1331 forbid [Rn]. This is because it is easy, and because only a sick
1332 cyborg would have [...] trailing an expression in a VAX-like assembler.
1333 A meticulous parser would first check for Rn followed by '(' or '['
1334 and not parse a trailing ']' if it found another. We just ban expressions
1335 ending in ']'. */
1336 if (*q == ']')
1338 while (q >= p && *q != '[')
1339 q--;
1340 /* Either q<p or we got matching '['. */
1341 if (q < p)
1342 err = _("no '[' to match ']'");
1343 else
1345 /* Confusers like "[]" will eventually lose with a bad register
1346 * name error. So again we don't need to check for early '\0'. */
1347 if (q[3] == ']')
1348 ndx = vax_reg_parse (q[1], q[2], 0, 0);
1349 else if (q[4] == ']')
1350 ndx = vax_reg_parse (q[1], q[2], q[3], 0);
1351 else if (q[5] == ']')
1352 ndx = vax_reg_parse (q[1], q[2], q[3], q[4]);
1353 else
1354 ndx = -1;
1355 /* Since we saw a ']' we will demand a register name in the [].
1356 * If luser hasn't given us one: be rude. */
1357 if (ndx < 0)
1358 err = _("bad register in []");
1359 else if (ndx == PC)
1360 err = _("[PC] index banned");
1361 else
1362 /* Point q just before "[...]". */
1363 q--;
1366 else
1367 /* No ']', so no iNDeX register. */
1368 ndx = -1;
1370 /* If err = "..." then we lost: run away.
1371 Otherwise ndx == -1 if there was no "[...]".
1372 Otherwise, ndx is index register number, and q points before "[...]". */
1374 if (*q == ' ' && q >= p) /* Expect all whitespace reduced to ' '. */
1375 q--;
1376 /* Reverse over whitespace, but don't. */
1377 /* Run back over *p. */
1378 if (!err || !*err)
1380 /* no ()+ or -() seen yet */
1381 sign = 0;
1383 if (q > p + 3 && *q == '+' && q[-1] == ')')
1385 sign = 1; /* we saw a ")+" */
1386 q--; /* q points to ')' */
1389 if (*q == ')' && q > p + 2)
1391 paren = 1; /* assume we have "(...)" */
1392 while (q >= p && *q != '(')
1393 q--;
1394 /* either q<p or we got matching '(' */
1395 if (q < p)
1396 err = _("no '(' to match ')'");
1397 else
1399 /* Confusers like "()" will eventually lose with a bad register
1400 name error. So again we don't need to check for early '\0'. */
1401 if (q[3] == ')')
1402 reg = vax_reg_parse (q[1], q[2], 0, 0);
1403 else if (q[4] == ')')
1404 reg = vax_reg_parse (q[1], q[2], q[3], 0);
1405 else if (q[5] == ')')
1406 reg = vax_reg_parse (q[1], q[2], q[3], q[4]);
1407 else
1408 reg = -1;
1409 /* Since we saw a ')' we will demand a register name in the ')'.
1410 This is nasty: why can't our hypothetical assembler permit
1411 parenthesised expressions? BECAUSE I AM LAZY! That is why.
1412 Abuse luser if we didn't spy a register name. */
1413 if (reg < 0)
1415 /* JF allow parenthesized expressions. I hope this works. */
1416 paren = 0;
1417 while (*q != ')')
1418 q++;
1419 /* err = "unknown register in ()"; */
1421 else
1422 q--; /* point just before '(' of "(...)" */
1423 /* If err == "..." then we lost. Run away.
1424 Otherwise if reg >= 0 then we saw (Rn). */
1426 /* If err == "..." then we lost.
1427 Otherwise paren==1 and reg = register in "()". */
1429 else
1430 paren = 0;
1431 /* If err == "..." then we lost.
1432 Otherwise, q points just before "(Rn)", if any.
1433 If there was a "(...)" then paren==1, and reg is the register. */
1435 /* We should only seek '-' of "-(...)" if:
1436 we saw "(...)" paren == 1
1437 we have no errors so far ! *err
1438 we did not see '+' of "(...)+" sign < 1
1439 We don't check len. We want a specific error message later if
1440 user tries "x^...-(Rn)". This is a feature not a bug. */
1441 if (!err || !*err)
1443 if (paren && sign < 1)/* !sign is adequate test */
1445 if (*q == '-')
1447 sign = -1;
1448 q--;
1451 /* We have back-tracked over most
1452 of the crud at the end of an operand.
1453 Unless err, we know: sign, paren. If paren, we know reg.
1454 The last case is of an expression "Rn".
1455 This is worth hunting for if !err, !paren.
1456 We wouldn't be here if err.
1457 We remember to save q, in case we didn't want "Rn" anyway. */
1458 if (!paren)
1460 if (*q == ' ' && q >= p) /* Expect all whitespace reduced to ' '. */
1461 q--;
1462 /* Reverse over whitespace, but don't. */
1463 /* Run back over *p. */
1464 /* Room for Rn or Rnn (include prefix) exactly? */
1465 if (q > p && q < p + 4)
1466 reg = vax_reg_parse (p[0], p[1],
1467 q < p + 2 ? 0 : p[2],
1468 q < p + 3 ? 0 : p[3]);
1469 else
1470 reg = -1; /* Always comes here if no register at all. */
1471 /* Here with a definitive reg value. */
1472 if (reg >= 0)
1474 oldq = q;
1475 q = p - 1;
1480 /* have reg. -1:absent; else 0:15. */
1482 /* We have: err, at, len, hash, ndx, sign, paren, reg.
1483 Also, any remaining expression is from *p through *q inclusive.
1484 Should there be no expression, q==p-1. So expression length = q-p+1.
1485 This completes the first part: parsing the operand text. */
1487 /* We now want to boil the data down, checking consistency on the way.
1488 We want: len, mode, reg, ndx, err, p, q, wrn, bug.
1489 We will deliver a 4-bit reg, and a 4-bit mode. */
1491 /* Case of branch operand. Different. No L^B^W^I^S^ allowed for instance.
1493 in: at ?
1494 len ?
1495 hash ?
1496 p:q ?
1497 sign ?
1498 paren ?
1499 reg ?
1500 ndx ?
1502 out: mode 0
1503 reg -1
1504 len ' '
1505 p:q whatever was input
1506 ndx -1
1507 err " " or error message, and other outputs trashed. */
1508 /* Branch operands have restricted forms. */
1509 if ((!err || !*err) && access_mode == 'b')
1511 if (at || hash || sign || paren || ndx >= 0 || reg >= 0 || len != ' ')
1512 err = _("invalid branch operand");
1513 else
1514 err = " ";
1517 /* Since nobody seems to use it: comment this 'feature'(?) out for now. */
1518 #ifdef NEVER
1519 /* Case of stand-alone operand. e.g. ".long foo"
1521 in: at ?
1522 len ?
1523 hash ?
1524 p:q ?
1525 sign ?
1526 paren ?
1527 reg ?
1528 ndx ?
1530 out: mode 0
1531 reg -1
1532 len ' '
1533 p:q whatever was input
1534 ndx -1
1535 err " " or error message, and other outputs trashed. */
1536 if ((!err || !*err) && access_mode == ' ')
1538 if (at)
1539 err = _("address prohibits @");
1540 else if (hash)
1541 err = _("address prohibits #");
1542 else if (sign)
1544 if (sign < 0)
1545 err = _("address prohibits -()");
1546 else
1547 err = _("address prohibits ()+");
1549 else if (paren)
1550 err = _("address prohibits ()");
1551 else if (ndx >= 0)
1552 err = _("address prohibits []");
1553 else if (reg >= 0)
1554 err = _("address prohibits register");
1555 else if (len != ' ')
1556 err = _("address prohibits displacement length specifier");
1557 else
1559 err = " "; /* succeed */
1560 mode = 0;
1563 #endif
1565 /* Case of S^#.
1567 in: at 0
1568 len 's' definition
1569 hash 1 demand
1570 p:q demand not empty
1571 sign 0 by paren==0
1572 paren 0 by "()" scan logic because "S^" seen
1573 reg -1 or nn by mistake
1574 ndx -1
1576 out: mode 0
1577 reg -1
1578 len 's'
1580 ndx -1 */
1581 if ((!err || !*err) && len == 's')
1583 if (!hash || paren || at || ndx >= 0)
1584 err = _("invalid operand of S^#");
1585 else
1587 if (reg >= 0)
1589 /* Darn! we saw S^#Rnn ! put the Rnn back in
1590 expression. KLUDGE! Use oldq so we don't
1591 need to know exact length of reg name. */
1592 q = oldq;
1593 reg = 0;
1595 /* We have all the expression we will ever get. */
1596 if (p > q)
1597 err = _("S^# needs expression");
1598 else if (access_mode == 'r')
1600 err = " "; /* WIN! */
1601 mode = 0;
1603 else
1604 err = _("S^# may only read-access");
1608 /* Case of -(Rn), which is weird case.
1610 in: at 0
1611 len '
1612 hash 0
1613 p:q q<p
1614 sign -1 by definition
1615 paren 1 by definition
1616 reg present by definition
1617 ndx optional
1619 out: mode 7
1620 reg present
1621 len ' '
1622 exp "" enforce empty expression
1623 ndx optional warn if same as reg. */
1624 if ((!err || !*err) && sign < 0)
1626 if (len != ' ' || hash || at || p <= q)
1627 err = _("invalid operand of -()");
1628 else
1630 err = " "; /* win */
1631 mode = 7;
1632 if (reg == PC)
1633 wrn = _("-(PC) unpredictable");
1634 else if (reg == ndx)
1635 wrn = _("[]index same as -()register: unpredictable");
1639 /* We convert "(Rn)" to "@Rn" for our convenience.
1640 (I hope this is convenient: has someone got a better way to parse this?)
1641 A side-effect of this is that "@Rn" is a valid operand. */
1642 if (paren && !sign && !hash && !at && len == ' ' && p > q)
1644 at = 1;
1645 paren = 0;
1648 /* Case of (Rn)+, which is slightly different.
1650 in: at
1651 len ' '
1652 hash 0
1653 p:q q<p
1654 sign +1 by definition
1655 paren 1 by definition
1656 reg present by definition
1657 ndx optional
1659 out: mode 8+@
1660 reg present
1661 len ' '
1662 exp "" enforce empty expression
1663 ndx optional warn if same as reg. */
1664 if ((!err || !*err) && sign > 0)
1666 if (len != ' ' || hash || p <= q)
1667 err = _("invalid operand of ()+");
1668 else
1670 err = " "; /* win */
1671 mode = 8 + (at ? 1 : 0);
1672 if (reg == PC)
1673 wrn = _("(PC)+ unpredictable");
1674 else if (reg == ndx)
1675 wrn = _("[]index same as ()+register: unpredictable");
1679 /* Case of #, without S^.
1681 in: at
1682 len ' ' or 'i'
1683 hash 1 by definition
1685 sign 0
1686 paren 0
1687 reg absent
1688 ndx optional
1690 out: mode 8+@
1691 reg PC
1692 len ' ' or 'i'
1694 ndx optional. */
1695 if ((!err || !*err) && hash)
1697 if (len != 'i' && len != ' ')
1698 err = _("# conflicts length");
1699 else if (paren)
1700 err = _("# bars register");
1701 else
1703 if (reg >= 0)
1705 /* Darn! we saw #Rnn! Put the Rnn back into the expression.
1706 By using oldq, we don't need to know how long Rnn was.
1707 KLUDGE! */
1708 q = oldq;
1709 reg = -1; /* No register any more. */
1711 err = " "; /* Win. */
1713 /* JF a bugfix, I think! */
1714 if (at && access_mode == 'a')
1715 vopP->vop_nbytes = 4;
1717 mode = (at ? 9 : 8);
1718 reg = PC;
1719 if ((access_mode == 'm' || access_mode == 'w') && !at)
1720 wrn = _("writing or modifying # is unpredictable");
1723 /* If !*err, then sign == 0
1724 hash == 0 */
1726 /* Case of Rn. We separate this one because it has a few special
1727 errors the remaining modes lack.
1729 in: at optional
1730 len ' '
1731 hash 0 by program logic
1732 p:q empty
1733 sign 0 by program logic
1734 paren 0 by definition
1735 reg present by definition
1736 ndx optional
1738 out: mode 5+@
1739 reg present
1740 len ' ' enforce no length
1741 exp "" enforce empty expression
1742 ndx optional warn if same as reg. */
1743 if ((!err || !*err) && !paren && reg >= 0)
1745 if (len != ' ')
1746 err = _("length not needed");
1747 else if (at)
1749 err = " "; /* win */
1750 mode = 6; /* @Rn */
1752 else if (ndx >= 0)
1753 err = _("can't []index a register, because it has no address");
1754 else if (access_mode == 'a')
1755 err = _("a register has no address");
1756 else
1758 /* Idea here is to detect from length of datum
1759 and from register number if we will touch PC.
1760 Warn if we do.
1761 vop_nbytes is number of bytes in operand.
1762 Compute highest byte affected, compare to PC0. */
1763 if ((vopP->vop_nbytes + reg * 4) > 60)
1764 wrn = _("PC part of operand unpredictable");
1765 err = " "; /* win */
1766 mode = 5; /* Rn */
1769 /* If !*err, sign == 0
1770 hash == 0
1771 paren == 1 OR reg==-1 */
1773 /* Rest of cases fit into one bunch.
1775 in: at optional
1776 len ' ' or 'b' or 'w' or 'l'
1777 hash 0 by program logic
1778 p:q expected (empty is not an error)
1779 sign 0 by program logic
1780 paren optional
1781 reg optional
1782 ndx optional
1784 out: mode 10 + @ + len
1785 reg optional
1786 len ' ' or 'b' or 'w' or 'l'
1787 exp maybe empty
1788 ndx optional warn if same as reg. */
1789 if (!err || !*err)
1791 err = " "; /* win (always) */
1792 mode = 10 + (at ? 1 : 0);
1793 switch (len)
1795 case 'l':
1796 mode += 2;
1797 case 'w':
1798 mode += 2;
1799 case ' ': /* Assumed B^ until our caller changes it. */
1800 case 'b':
1801 break;
1805 /* here with completely specified mode
1808 expression p,q
1809 ndx. */
1811 if (*err == ' ')
1812 err = 0; /* " " is no longer an error. */
1814 vopP->vop_mode = mode;
1815 vopP->vop_reg = reg;
1816 vopP->vop_short = len;
1817 vopP->vop_expr_begin = p;
1818 vopP->vop_expr_end = q;
1819 vopP->vop_ndx = ndx;
1820 vopP->vop_error = err;
1821 vopP->vop_warn = wrn;
1824 /* This converts a string into a vax instruction.
1825 The string must be a bare single instruction in dec-vax (with BSD4 frobs)
1826 format.
1827 It provides some error messages: at most one fatal error message (which
1828 stops the scan) and at most one warning message for each operand.
1829 The vax instruction is returned in exploded form, since we have no
1830 knowledge of how you parse (or evaluate) your expressions.
1831 We do however strip off and decode addressing modes and operation
1832 mnemonic.
1834 The exploded instruction is returned to a struct vit of your choice.
1835 #include "vax-inst.h" to know what a struct vit is.
1837 This function's value is a string. If it is not "" then an internal
1838 logic error was found: read this code to assign meaning to the string.
1839 No argument string should generate such an error string:
1840 it means a bug in our code, not in the user's text.
1842 You MUST have called vip_begin() once before using this function. */
1844 static void
1845 vip (struct vit *vitP, /* We build an exploded instruction here. */
1846 char *instring) /* Text of a vax instruction: we modify. */
1848 /* How to bit-encode this opcode. */
1849 struct vot_wot *vwP;
1850 /* 1/skip whitespace.2/scan vot_how */
1851 char *p;
1852 char *q;
1853 /* counts number of operands seen */
1854 unsigned char count;
1855 /* scan operands in struct vit */
1856 struct vop *operandp;
1857 /* error over all operands */
1858 const char *alloperr;
1859 /* Remember char, (we clobber it with '\0' temporarily). */
1860 char c;
1861 /* Op-code of this instruction. */
1862 vax_opcodeT oc;
1864 if (*instring == ' ')
1865 ++instring;
1867 /* MUST end in end-of-string or exactly 1 space. */
1868 for (p = instring; *p && *p != ' '; p++)
1871 /* Scanned up to end of operation-code. */
1872 /* Operation-code is ended with whitespace. */
1873 if (p - instring == 0)
1875 vitP->vit_error = _("No operator");
1876 count = 0;
1877 memset (vitP->vit_opcode, '\0', sizeof (vitP->vit_opcode));
1879 else
1881 c = *p;
1882 *p = '\0';
1883 /* Here with instring pointing to what better be an op-name, and p
1884 pointing to character just past that.
1885 We trust instring points to an op-name, with no whitespace. */
1886 vwP = (struct vot_wot *) hash_find (op_hash, instring);
1887 /* Restore char after op-code. */
1888 *p = c;
1889 if (vwP == 0)
1891 vitP->vit_error = _("Unknown operator");
1892 count = 0;
1893 memset (vitP->vit_opcode, '\0', sizeof (vitP->vit_opcode));
1895 else
1897 /* We found a match! So let's pick up as many operands as the
1898 instruction wants, and even gripe if there are too many.
1899 We expect comma to separate each operand.
1900 We let instring track the text, while p tracks a part of the
1901 struct vot. */
1902 const char *howp;
1903 /* The lines below know about 2-byte opcodes starting FD,FE or FF.
1904 They also understand synthetic opcodes. Note:
1905 we return 32 bits of opcode, including bucky bits, BUT
1906 an opcode length is either 8 or 16 bits for vit_opcode_nbytes. */
1907 oc = vwP->vot_code; /* The op-code. */
1908 vitP->vit_opcode_nbytes = (oc & 0xFF) >= 0xFD ? 2 : 1;
1909 md_number_to_chars (vitP->vit_opcode, oc, 4);
1910 count = 0; /* No operands seen yet. */
1911 instring = p; /* Point just past operation code. */
1912 alloperr = "";
1913 for (howp = vwP->vot_how, operandp = vitP->vit_operand;
1914 !(alloperr && *alloperr) && *howp;
1915 operandp++, howp += 2)
1917 /* Here to parse one operand. Leave instring pointing just
1918 past any one ',' that marks the end of this operand. */
1919 if (!howp[1])
1920 as_fatal (_("odd number of bytes in operand description"));
1921 else if (*instring)
1923 for (q = instring; (c = *q) && c != ','; q++)
1925 /* Q points to ',' or '\0' that ends argument. C is that
1926 character. */
1927 *q = 0;
1928 operandp->vop_width = howp[1];
1929 operandp->vop_nbytes = vax_operand_width_size[(unsigned) howp[1]];
1930 operandp->vop_access = howp[0];
1931 vip_op (instring, operandp);
1932 *q = c; /* Restore input text. */
1933 if (operandp->vop_error)
1934 alloperr = _("Bad operand");
1935 instring = q + (c ? 1 : 0); /* Next operand (if any). */
1936 count++; /* Won another argument, may have an operr. */
1938 else
1939 alloperr = _("Not enough operands");
1941 if (!*alloperr)
1943 if (*instring == ' ')
1944 instring++;
1945 if (*instring)
1946 alloperr = _("Too many operands");
1948 vitP->vit_error = alloperr;
1951 vitP->vit_operands = count;
1954 #ifdef test
1956 /* Test program for above. */
1958 struct vit myvit; /* Build an exploded vax instruction here. */
1959 char answer[100]; /* Human types a line of vax assembler here. */
1960 char *mybug; /* "" or an internal logic diagnostic. */
1961 int mycount; /* Number of operands. */
1962 struct vop *myvop; /* Scan operands from myvit. */
1963 int mysynth; /* 1 means want synthetic opcodes. */
1964 char my_immediate[200];
1965 char my_indirect[200];
1966 char my_displen[200];
1969 main (void)
1971 char *p;
1973 printf ("0 means no synthetic instructions. ");
1974 printf ("Value for vip_begin? ");
1975 gets (answer);
1976 sscanf (answer, "%d", &mysynth);
1977 printf ("Synthetic opcodes %s be included.\n", mysynth ? "will" : "will not");
1978 printf ("enter immediate symbols eg enter # ");
1979 gets (my_immediate);
1980 printf ("enter indirect symbols eg enter @ ");
1981 gets (my_indirect);
1982 printf ("enter displen symbols eg enter ^ ");
1983 gets (my_displen);
1985 if (p = vip_begin (mysynth, my_immediate, my_indirect, my_displen))
1986 error ("vip_begin=%s", p);
1988 printf ("An empty input line will quit you from the vax instruction parser\n");
1989 for (;;)
1991 printf ("vax instruction: ");
1992 fflush (stdout);
1993 gets (answer);
1994 if (!*answer)
1995 break; /* Out of for each input text loop. */
1997 vip (& myvit, answer);
1998 if (*myvit.vit_error)
1999 printf ("ERR:\"%s\"\n", myvit.vit_error);
2001 printf ("opcode=");
2002 for (mycount = myvit.vit_opcode_nbytes, p = myvit.vit_opcode;
2003 mycount;
2004 mycount--, p++)
2005 printf ("%02x ", *p & 0xFF);
2007 printf (" operand count=%d.\n", mycount = myvit.vit_operands);
2008 for (myvop = myvit.vit_operand; mycount; mycount--, myvop++)
2010 printf ("mode=%xx reg=%xx ndx=%xx len='%c'=%c%c%d. expr=\"",
2011 myvop->vop_mode, myvop->vop_reg, myvop->vop_ndx,
2012 myvop->vop_short, myvop->vop_access, myvop->vop_width,
2013 myvop->vop_nbytes);
2014 for (p = myvop->vop_expr_begin; p <= myvop->vop_expr_end; p++)
2015 putchar (*p);
2017 printf ("\"\n");
2018 if (myvop->vop_error)
2019 printf (" err:\"%s\"\n", myvop->vop_error);
2021 if (myvop->vop_warn)
2022 printf (" wrn:\"%s\"\n", myvop->vop_warn);
2025 vip_end ();
2026 exit (EXIT_SUCCESS);
2029 #endif
2031 #ifdef TEST /* #Define to use this testbed. */
2033 /* Follows a test program for this function.
2034 We declare arrays non-local in case some of our tiny-minded machines
2035 default to small stacks. Also, helps with some debuggers. */
2037 char answer[100]; /* Human types into here. */
2038 char *p; /* */
2039 char *myerr;
2040 char *mywrn;
2041 char *mybug;
2042 char myaccess;
2043 char mywidth;
2044 char mymode;
2045 char myreg;
2046 char mylen;
2047 char *myleft;
2048 char *myright;
2049 char myndx;
2050 int my_operand_length;
2051 char my_immediate[200];
2052 char my_indirect[200];
2053 char my_displen[200];
2056 main (void)
2058 printf ("enter immediate symbols eg enter # ");
2059 gets (my_immediate);
2060 printf ("enter indirect symbols eg enter @ ");
2061 gets (my_indirect);
2062 printf ("enter displen symbols eg enter ^ ");
2063 gets (my_displen);
2064 vip_op_defaults (my_immediate, my_indirect, my_displen);
2066 for (;;)
2068 printf ("access,width (eg 'ab' or 'wh') [empty line to quit] : ");
2069 fflush (stdout);
2070 gets (answer);
2071 if (!answer[0])
2072 exit (EXIT_SUCCESS);
2073 myaccess = answer[0];
2074 mywidth = answer[1];
2075 switch (mywidth)
2077 case 'b':
2078 my_operand_length = 1;
2079 break;
2080 case 'd':
2081 my_operand_length = 8;
2082 break;
2083 case 'f':
2084 my_operand_length = 4;
2085 break;
2086 case 'g':
2087 my_operand_length = 16;
2088 break;
2089 case 'h':
2090 my_operand_length = 32;
2091 break;
2092 case 'l':
2093 my_operand_length = 4;
2094 break;
2095 case 'o':
2096 my_operand_length = 16;
2097 break;
2098 case 'q':
2099 my_operand_length = 8;
2100 break;
2101 case 'w':
2102 my_operand_length = 2;
2103 break;
2104 case '!':
2105 case '?':
2106 case '-':
2107 my_operand_length = 0;
2108 break;
2110 default:
2111 my_operand_length = 2;
2112 printf ("I dn't understand access width %c\n", mywidth);
2113 break;
2115 printf ("VAX assembler instruction operand: ");
2116 fflush (stdout);
2117 gets (answer);
2118 mybug = vip_op (answer, myaccess, mywidth, my_operand_length,
2119 &mymode, &myreg, &mylen, &myleft, &myright, &myndx,
2120 &myerr, &mywrn);
2121 if (*myerr)
2123 printf ("error: \"%s\"\n", myerr);
2124 if (*mybug)
2125 printf (" bug: \"%s\"\n", mybug);
2127 else
2129 if (*mywrn)
2130 printf ("warning: \"%s\"\n", mywrn);
2131 mumble ("mode", mymode);
2132 mumble ("register", myreg);
2133 mumble ("index", myndx);
2134 printf ("width:'%c' ", mylen);
2135 printf ("expression: \"");
2136 while (myleft <= myright)
2137 putchar (*myleft++);
2138 printf ("\"\n");
2143 void
2144 mumble (char *text, int value)
2146 printf ("%s:", text);
2147 if (value >= 0)
2148 printf ("%xx", value);
2149 else
2150 printf ("ABSENT");
2151 printf (" ");
2154 #endif
2156 int md_short_jump_size = 3;
2157 int md_long_jump_size = 6;
2159 void
2160 md_create_short_jump (char *ptr,
2161 addressT from_addr,
2162 addressT to_addr ATTRIBUTE_UNUSED,
2163 fragS *frag ATTRIBUTE_UNUSED,
2164 symbolS *to_symbol ATTRIBUTE_UNUSED)
2166 valueT offset;
2168 /* This former calculation was off by two:
2169 offset = to_addr - (from_addr + 1);
2170 We need to account for the one byte instruction and also its
2171 two byte operand. */
2172 offset = to_addr - (from_addr + 1 + 2);
2173 *ptr++ = VAX_BRW; /* Branch with word (16 bit) offset. */
2174 md_number_to_chars (ptr, offset, 2);
2177 void
2178 md_create_long_jump (char *ptr,
2179 addressT from_addr ATTRIBUTE_UNUSED,
2180 addressT to_addr,
2181 fragS *frag,
2182 symbolS *to_symbol)
2184 valueT offset;
2186 offset = to_addr - S_GET_VALUE (to_symbol);
2187 *ptr++ = VAX_JMP; /* Arbitrary jump. */
2188 *ptr++ = VAX_ABSOLUTE_MODE;
2189 md_number_to_chars (ptr, offset, 4);
2190 fix_new (frag, ptr - frag->fr_literal, 4, to_symbol, (long) 0, 0, NO_RELOC);
2193 #ifdef OBJ_VMS
2194 const char *md_shortopts = "d:STt:V+1h:Hv::";
2195 #elif defined(OBJ_ELF)
2196 const char *md_shortopts = "d:STt:VkKQ:";
2197 #else
2198 const char *md_shortopts = "d:STt:V";
2199 #endif
2200 struct option md_longopts[] =
2202 #ifdef OBJ_ELF
2203 #define OPTION_PIC (OPTION_MD_BASE)
2204 { "pic", no_argument, NULL, OPTION_PIC },
2205 #endif
2206 { NULL, no_argument, NULL, 0 }
2208 size_t md_longopts_size = sizeof (md_longopts);
2211 md_parse_option (int c, char *arg)
2213 switch (c)
2215 case 'S':
2216 as_warn (_("SYMBOL TABLE not implemented"));
2217 break;
2219 case 'T':
2220 as_warn (_("TOKEN TRACE not implemented"));
2221 break;
2223 case 'd':
2224 as_warn (_("Displacement length %s ignored!"), arg);
2225 break;
2227 case 't':
2228 as_warn (_("I don't need or use temp. file \"%s\"."), arg);
2229 break;
2231 case 'V':
2232 as_warn (_("I don't use an interpass file! -V ignored"));
2233 break;
2235 #ifdef OBJ_VMS
2236 case '+': /* For g++. Hash any name > 31 chars long. */
2237 flag_hash_long_names = 1;
2238 break;
2240 case '1': /* For backward compatibility. */
2241 flag_one = 1;
2242 break;
2244 case 'H': /* Show new symbol after hash truncation. */
2245 flag_show_after_trunc = 1;
2246 break;
2248 case 'h': /* No hashing of mixed-case names. */
2250 extern char vms_name_mapping;
2251 vms_name_mapping = atoi (arg);
2252 flag_no_hash_mixed_case = 1;
2254 break;
2256 case 'v':
2258 extern char *compiler_version_string;
2260 if (!arg || !*arg || access (arg, 0) == 0)
2261 return 0; /* Have caller show the assembler version. */
2262 compiler_version_string = arg;
2264 break;
2265 #endif
2267 #ifdef OBJ_ELF
2268 case OPTION_PIC:
2269 case 'k':
2270 flag_want_pic = 1;
2271 break; /* -pic, Position Independent Code. */
2273 /* -Qy, -Qn: SVR4 arguments controlling whether a .comment
2274 section should be emitted or not. FIXME: Not implemented. */
2275 case 'Q':
2276 break;
2277 #endif
2279 default:
2280 return 0;
2283 return 1;
2286 void
2287 md_show_usage (FILE *stream)
2289 fprintf (stream, _("\
2290 VAX options:\n\
2291 -d LENGTH ignored\n\
2292 -J ignored\n\
2293 -S ignored\n\
2294 -t FILE ignored\n\
2295 -T ignored\n\
2296 -V ignored\n"));
2297 #ifdef OBJ_VMS
2298 fprintf (stream, _("\
2299 VMS options:\n\
2300 -+ hash encode names longer than 31 characters\n\
2301 -1 `const' handling compatible with gcc 1.x\n\
2302 -H show new symbol after hash truncation\n\
2303 -h NUM don't hash mixed-case names, and adjust case:\n\
2304 0 = upper, 2 = lower, 3 = preserve case\n\
2305 -v\"VERSION\" code being assembled was produced by compiler \"VERSION\"\n"));
2306 #endif
2309 /* We have no need to default values of symbols. */
2311 symbolS *
2312 md_undefined_symbol (char *name ATTRIBUTE_UNUSED)
2314 return NULL;
2317 /* Round up a section size to the appropriate boundary. */
2318 valueT
2319 md_section_align (segT segment ATTRIBUTE_UNUSED, valueT size)
2321 /* Byte alignment is fine */
2322 return size;
2325 /* Exactly what point is a PC-relative offset relative TO?
2326 On the vax, they're relative to the address of the offset, plus
2327 its size. */
2328 long
2329 md_pcrel_from (fixS *fixP)
2331 return fixP->fx_size + fixP->fx_where + fixP->fx_frag->fr_address;
2334 arelent *
2335 tc_gen_reloc (asection *section ATTRIBUTE_UNUSED, fixS *fixp)
2337 arelent *reloc;
2338 bfd_reloc_code_real_type code;
2340 if (fixp->fx_tcbit)
2341 abort ();
2343 if (fixp->fx_r_type != BFD_RELOC_NONE)
2345 code = fixp->fx_r_type;
2347 if (fixp->fx_pcrel)
2349 switch (code)
2351 case BFD_RELOC_8_PCREL:
2352 case BFD_RELOC_16_PCREL:
2353 case BFD_RELOC_32_PCREL:
2354 #ifdef OBJ_ELF
2355 case BFD_RELOC_8_GOT_PCREL:
2356 case BFD_RELOC_16_GOT_PCREL:
2357 case BFD_RELOC_32_GOT_PCREL:
2358 case BFD_RELOC_8_PLT_PCREL:
2359 case BFD_RELOC_16_PLT_PCREL:
2360 case BFD_RELOC_32_PLT_PCREL:
2361 #endif
2362 break;
2363 default:
2364 as_bad_where (fixp->fx_file, fixp->fx_line,
2365 _("Cannot make %s relocation PC relative"),
2366 bfd_get_reloc_code_name (code));
2370 else
2372 #define F(SZ,PCREL) (((SZ) << 1) + (PCREL))
2373 switch (F (fixp->fx_size, fixp->fx_pcrel))
2375 #define MAP(SZ,PCREL,TYPE) case F(SZ,PCREL): code = (TYPE); break
2376 MAP (1, 0, BFD_RELOC_8);
2377 MAP (2, 0, BFD_RELOC_16);
2378 MAP (4, 0, BFD_RELOC_32);
2379 MAP (1, 1, BFD_RELOC_8_PCREL);
2380 MAP (2, 1, BFD_RELOC_16_PCREL);
2381 MAP (4, 1, BFD_RELOC_32_PCREL);
2382 default:
2383 abort ();
2386 #undef F
2387 #undef MAP
2389 reloc = xmalloc (sizeof (arelent));
2390 reloc->sym_ptr_ptr = xmalloc (sizeof (asymbol *));
2391 *reloc->sym_ptr_ptr = symbol_get_bfdsym (fixp->fx_addsy);
2392 reloc->address = fixp->fx_frag->fr_address + fixp->fx_where;
2393 #ifndef OBJ_ELF
2394 if (fixp->fx_pcrel)
2395 reloc->addend = fixp->fx_addnumber;
2396 else
2397 reloc->addend = 0;
2398 #else
2399 reloc->addend = fixp->fx_offset;
2400 #endif
2402 reloc->howto = bfd_reloc_type_lookup (stdoutput, code);
2403 gas_assert (reloc->howto != 0);
2405 return reloc;
2408 /* vax:md_assemble() emit frags for 1 instruction given in textual form. */
2409 void
2410 md_assemble (char *instruction_string)
2412 /* Non-zero if operand expression's segment is not known yet. */
2413 int is_undefined;
2414 /* Non-zero if operand expression's segment is absolute. */
2415 int is_absolute;
2416 int length_code;
2417 char *p;
2418 /* An operand. Scans all operands. */
2419 struct vop *operandP;
2420 char *save_input_line_pointer;
2421 /* What used to live after an expression. */
2422 char c_save;
2423 /* 1: instruction_string bad for all passes. */
2424 int goofed;
2425 /* Points to slot just after last operand. */
2426 struct vop *end_operandP;
2427 /* Points to expression values for this operand. */
2428 expressionS *expP;
2429 segT *segP;
2431 /* These refer to an instruction operand expression. */
2432 /* Target segment of the address. */
2433 segT to_seg;
2434 valueT this_add_number;
2435 /* Positive (minuend) symbol. */
2436 symbolS *this_add_symbol;
2437 /* As a number. */
2438 long opcode_as_number;
2439 /* Least significant byte 1st. */
2440 char *opcode_as_chars;
2441 /* As an array of characters. */
2442 /* Least significant byte 1st */
2443 char *opcode_low_byteP;
2444 /* length (bytes) meant by vop_short. */
2445 int length;
2446 /* 0, or 1 if '@' is in addressing mode. */
2447 int at;
2448 /* From vop_nbytes: vax_operand_width (in bytes) */
2449 int nbytes;
2450 FLONUM_TYPE *floatP;
2451 LITTLENUM_TYPE literal_float[8];
2452 /* Big enough for any floating point literal. */
2454 vip (&v, instruction_string);
2456 /* Now we try to find as many as_warn()s as we can. If we do any as_warn()s
2457 then goofed=1. Notice that we don't make any frags yet.
2458 Should goofed be 1, then this instruction will wedge in any pass,
2459 and we can safely flush it, without causing interpass symbol phase
2460 errors. That is, without changing label values in different passes. */
2461 if ((goofed = (*v.vit_error)) != 0)
2463 as_fatal (_("Ignoring statement due to \"%s\""), v.vit_error);
2465 /* We need to use expression() and friends, which require us to diddle
2466 input_line_pointer. So we save it and restore it later. */
2467 save_input_line_pointer = input_line_pointer;
2468 for (operandP = v.vit_operand,
2469 expP = exp_of_operand,
2470 segP = seg_of_operand,
2471 floatP = float_operand,
2472 end_operandP = v.vit_operand + v.vit_operands;
2474 operandP < end_operandP;
2476 operandP++, expP++, segP++, floatP++)
2478 if (operandP->vop_error)
2480 as_fatal (_("Aborting because statement has \"%s\""), operandP->vop_error);
2481 goofed = 1;
2483 else
2485 /* Statement has no syntax goofs: let's sniff the expression. */
2486 int can_be_short = 0; /* 1 if a bignum can be reduced to a short literal. */
2488 input_line_pointer = operandP->vop_expr_begin;
2489 c_save = operandP->vop_expr_end[1];
2490 operandP->vop_expr_end[1] = '\0';
2491 /* If to_seg == SEG_PASS1, expression() will have set need_pass_2 = 1. */
2492 *segP = expression (expP);
2493 switch (expP->X_op)
2495 case O_absent:
2496 /* for BSD4.2 compatibility, missing expression is absolute 0 */
2497 expP->X_op = O_constant;
2498 expP->X_add_number = 0;
2499 /* For SEG_ABSOLUTE, we shouldn't need to set X_op_symbol,
2500 X_add_symbol to any particular value. But, we will program
2501 defensively. Since this situation occurs rarely so it costs
2502 us little to do, and stops Dean worrying about the origin of
2503 random bits in expressionS's. */
2504 expP->X_add_symbol = NULL;
2505 expP->X_op_symbol = NULL;
2506 break;
2508 case O_symbol:
2509 case O_constant:
2510 break;
2512 default:
2513 /* Major bug. We can't handle the case of a
2514 SEG_OP expression in a VIT_OPCODE_SYNTHETIC
2515 variable-length instruction.
2516 We don't have a frag type that is smart enough to
2517 relax a SEG_OP, and so we just force all
2518 SEG_OPs to behave like SEG_PASS1s.
2519 Clearly, if there is a demand we can invent a new or
2520 modified frag type and then coding up a frag for this
2521 case will be easy. SEG_OP was invented for the
2522 .words after a CASE opcode, and was never intended for
2523 instruction operands. */
2524 need_pass_2 = 1;
2525 as_fatal (_("Can't relocate expression"));
2526 break;
2528 case O_big:
2529 /* Preserve the bits. */
2530 if (expP->X_add_number > 0)
2532 bignum_copy (generic_bignum, expP->X_add_number,
2533 floatP->low, SIZE_OF_LARGE_NUMBER);
2535 else
2537 know (expP->X_add_number < 0);
2538 flonum_copy (&generic_floating_point_number,
2539 floatP);
2540 if (strchr ("s i", operandP->vop_short))
2542 /* Could possibly become S^# */
2543 flonum_gen2vax (-expP->X_add_number, floatP, literal_float);
2544 switch (-expP->X_add_number)
2546 case 'f':
2547 can_be_short =
2548 (literal_float[0] & 0xFC0F) == 0x4000
2549 && literal_float[1] == 0;
2550 break;
2552 case 'd':
2553 can_be_short =
2554 (literal_float[0] & 0xFC0F) == 0x4000
2555 && literal_float[1] == 0
2556 && literal_float[2] == 0
2557 && literal_float[3] == 0;
2558 break;
2560 case 'g':
2561 can_be_short =
2562 (literal_float[0] & 0xFF81) == 0x4000
2563 && literal_float[1] == 0
2564 && literal_float[2] == 0
2565 && literal_float[3] == 0;
2566 break;
2568 case 'h':
2569 can_be_short = ((literal_float[0] & 0xFFF8) == 0x4000
2570 && (literal_float[1] & 0xE000) == 0
2571 && literal_float[2] == 0
2572 && literal_float[3] == 0
2573 && literal_float[4] == 0
2574 && literal_float[5] == 0
2575 && literal_float[6] == 0
2576 && literal_float[7] == 0);
2577 break;
2579 default:
2580 BAD_CASE (-expP->X_add_number);
2581 break;
2586 if (operandP->vop_short == 's'
2587 || operandP->vop_short == 'i'
2588 || (operandP->vop_short == ' '
2589 && operandP->vop_reg == 0xF
2590 && (operandP->vop_mode & 0xE) == 0x8))
2592 /* Saw a '#'. */
2593 if (operandP->vop_short == ' ')
2595 /* We must chose S^ or I^. */
2596 if (expP->X_add_number > 0)
2598 /* Bignum: Short literal impossible. */
2599 operandP->vop_short = 'i';
2600 operandP->vop_mode = 8;
2601 operandP->vop_reg = 0xF; /* VAX PC. */
2603 else
2605 /* Flonum: Try to do it. */
2606 if (can_be_short)
2608 operandP->vop_short = 's';
2609 operandP->vop_mode = 0;
2610 operandP->vop_ndx = -1;
2611 operandP->vop_reg = -1;
2612 expP->X_op = O_constant;
2614 else
2616 operandP->vop_short = 'i';
2617 operandP->vop_mode = 8;
2618 operandP->vop_reg = 0xF; /* VAX PC */
2620 } /* bignum or flonum ? */
2621 } /* if #, but no S^ or I^ seen. */
2622 /* No more ' ' case: either 's' or 'i'. */
2623 if (operandP->vop_short == 's')
2625 /* Wants to be a short literal. */
2626 if (expP->X_add_number > 0)
2628 as_warn (_("Bignum not permitted in short literal. Immediate mode assumed."));
2629 operandP->vop_short = 'i';
2630 operandP->vop_mode = 8;
2631 operandP->vop_reg = 0xF; /* VAX PC. */
2633 else
2635 if (!can_be_short)
2637 as_warn (_("Can't do flonum short literal: immediate mode used."));
2638 operandP->vop_short = 'i';
2639 operandP->vop_mode = 8;
2640 operandP->vop_reg = 0xF; /* VAX PC. */
2642 else
2644 /* Encode short literal now. */
2645 int temp = 0;
2647 switch (-expP->X_add_number)
2649 case 'f':
2650 case 'd':
2651 temp = literal_float[0] >> 4;
2652 break;
2654 case 'g':
2655 temp = literal_float[0] >> 1;
2656 break;
2658 case 'h':
2659 temp = ((literal_float[0] << 3) & 070)
2660 | ((literal_float[1] >> 13) & 07);
2661 break;
2663 default:
2664 BAD_CASE (-expP->X_add_number);
2665 break;
2668 floatP->low[0] = temp & 077;
2669 floatP->low[1] = 0;
2673 else
2675 /* I^# seen: set it up if float. */
2676 if (expP->X_add_number < 0)
2678 memcpy (floatP->low, literal_float, sizeof (literal_float));
2680 } /* if S^# seen. */
2682 else
2684 as_warn (_("A bignum/flonum may not be a displacement: 0x%lx used"),
2685 (expP->X_add_number = 0x80000000L));
2686 /* Chosen so luser gets the most offset bits to patch later. */
2688 expP->X_add_number = floatP->low[0]
2689 | ((LITTLENUM_MASK & (floatP->low[1])) << LITTLENUM_NUMBER_OF_BITS);
2691 /* For the O_big case we have:
2692 If vop_short == 's' then a short floating literal is in the
2693 lowest 6 bits of floatP -> low [0], which is
2694 big_operand_bits [---] [0].
2695 If vop_short == 'i' then the appropriate number of elements
2696 of big_operand_bits [---] [...] are set up with the correct
2697 bits.
2698 Also, just in case width is byte word or long, we copy the lowest
2699 32 bits of the number to X_add_number. */
2700 break;
2702 if (input_line_pointer != operandP->vop_expr_end + 1)
2704 as_fatal ("Junk at end of expression \"%s\"", input_line_pointer);
2705 goofed = 1;
2707 operandP->vop_expr_end[1] = c_save;
2711 input_line_pointer = save_input_line_pointer;
2713 if (need_pass_2 || goofed)
2714 return;
2716 /* Emit op-code. */
2717 /* Remember where it is, in case we want to modify the op-code later. */
2718 opcode_low_byteP = frag_more (v.vit_opcode_nbytes);
2719 memcpy (opcode_low_byteP, v.vit_opcode, v.vit_opcode_nbytes);
2720 opcode_as_chars = v.vit_opcode;
2721 opcode_as_number = md_chars_to_number ((unsigned char *) opcode_as_chars, 4);
2722 for (operandP = v.vit_operand,
2723 expP = exp_of_operand,
2724 segP = seg_of_operand,
2725 floatP = float_operand,
2726 end_operandP = v.vit_operand + v.vit_operands;
2728 operandP < end_operandP;
2730 operandP++,
2731 floatP++,
2732 segP++,
2733 expP++)
2735 if (operandP->vop_ndx >= 0)
2737 /* Indexed addressing byte. */
2738 /* Legality of indexed mode already checked: it is OK. */
2739 FRAG_APPEND_1_CHAR (0x40 + operandP->vop_ndx);
2740 } /* if(vop_ndx>=0) */
2742 /* Here to make main operand frag(s). */
2743 this_add_number = expP->X_add_number;
2744 this_add_symbol = expP->X_add_symbol;
2745 to_seg = *segP;
2746 is_undefined = (to_seg == undefined_section);
2747 is_absolute = (to_seg == absolute_section);
2748 at = operandP->vop_mode & 1;
2749 length = (operandP->vop_short == 'b'
2750 ? 1 : (operandP->vop_short == 'w'
2751 ? 2 : (operandP->vop_short == 'l'
2752 ? 4 : 0)));
2753 nbytes = operandP->vop_nbytes;
2754 if (operandP->vop_access == 'b')
2756 if (to_seg == now_seg || is_undefined)
2758 /* If is_undefined, then it might BECOME now_seg. */
2759 if (nbytes)
2761 p = frag_more (nbytes);
2762 fix_new (frag_now, p - frag_now->fr_literal, nbytes,
2763 this_add_symbol, this_add_number, 1, NO_RELOC);
2765 else
2767 /* to_seg==now_seg || to_seg == SEG_UNKNOWN */
2768 /* nbytes==0 */
2769 length_code = is_undefined ? STATE_UNDF : STATE_BYTE;
2770 if (opcode_as_number & VIT_OPCODE_SPECIAL)
2772 if (operandP->vop_width == VAX_WIDTH_UNCONDITIONAL_JUMP)
2774 /* br or jsb */
2775 frag_var (rs_machine_dependent, 5, 1,
2776 ENCODE_RELAX (STATE_ALWAYS_BRANCH, length_code),
2777 this_add_symbol, this_add_number,
2778 opcode_low_byteP);
2780 else
2782 if (operandP->vop_width == VAX_WIDTH_WORD_JUMP)
2784 length_code = STATE_WORD;
2785 /* JF: There is no state_byte for this one! */
2786 frag_var (rs_machine_dependent, 10, 2,
2787 ENCODE_RELAX (STATE_COMPLEX_BRANCH, length_code),
2788 this_add_symbol, this_add_number,
2789 opcode_low_byteP);
2791 else
2793 know (operandP->vop_width == VAX_WIDTH_BYTE_JUMP);
2794 frag_var (rs_machine_dependent, 9, 1,
2795 ENCODE_RELAX (STATE_COMPLEX_HOP, length_code),
2796 this_add_symbol, this_add_number,
2797 opcode_low_byteP);
2801 else
2803 know (operandP->vop_width == VAX_WIDTH_CONDITIONAL_JUMP);
2804 frag_var (rs_machine_dependent, 7, 1,
2805 ENCODE_RELAX (STATE_CONDITIONAL_BRANCH, length_code),
2806 this_add_symbol, this_add_number,
2807 opcode_low_byteP);
2811 else
2813 /* to_seg != now_seg && to_seg != SEG_UNKNOWN */
2814 /* --- SEG FLOAT MAY APPEAR HERE --- */
2815 if (is_absolute)
2817 if (nbytes)
2819 know (!(opcode_as_number & VIT_OPCODE_SYNTHETIC));
2820 p = frag_more (nbytes);
2821 /* Conventional relocation. */
2822 fix_new (frag_now, p - frag_now->fr_literal, nbytes,
2823 section_symbol (absolute_section),
2824 this_add_number, 1, NO_RELOC);
2826 else
2828 know (opcode_as_number & VIT_OPCODE_SYNTHETIC);
2829 if (opcode_as_number & VIT_OPCODE_SPECIAL)
2831 if (operandP->vop_width == VAX_WIDTH_UNCONDITIONAL_JUMP)
2833 /* br or jsb */
2834 *opcode_low_byteP = opcode_as_chars[0] + VAX_WIDEN_LONG;
2835 know (opcode_as_chars[1] == 0);
2836 p = frag_more (5);
2837 p[0] = VAX_ABSOLUTE_MODE; /* @#... */
2838 md_number_to_chars (p + 1, this_add_number, 4);
2839 /* Now (eg) JMP @#foo or JSB @#foo. */
2841 else
2843 if (operandP->vop_width == VAX_WIDTH_WORD_JUMP)
2845 p = frag_more (10);
2846 p[0] = 2;
2847 p[1] = 0;
2848 p[2] = VAX_BRB;
2849 p[3] = 6;
2850 p[4] = VAX_JMP;
2851 p[5] = VAX_ABSOLUTE_MODE; /* @#... */
2852 md_number_to_chars (p + 6, this_add_number, 4);
2853 /* Now (eg) ACBx 1f
2854 BRB 2f
2855 1: JMP @#foo
2856 2: */
2858 else
2860 know (operandP->vop_width == VAX_WIDTH_BYTE_JUMP);
2861 p = frag_more (9);
2862 p[0] = 2;
2863 p[1] = VAX_BRB;
2864 p[2] = 6;
2865 p[3] = VAX_JMP;
2866 p[4] = VAX_ABSOLUTE_MODE; /* @#... */
2867 md_number_to_chars (p + 5, this_add_number, 4);
2868 /* Now (eg) xOBxxx 1f
2869 BRB 2f
2870 1: JMP @#foo
2871 2: */
2875 else
2877 /* b<cond> */
2878 *opcode_low_byteP ^= 1;
2879 /* To reverse the condition in a VAX branch,
2880 complement the lowest order bit. */
2881 p = frag_more (7);
2882 p[0] = 6;
2883 p[1] = VAX_JMP;
2884 p[2] = VAX_ABSOLUTE_MODE; /* @#... */
2885 md_number_to_chars (p + 3, this_add_number, 4);
2886 /* Now (eg) BLEQ 1f
2887 JMP @#foo
2888 1: */
2892 else
2894 /* to_seg != now_seg && !is_undefinfed && !is_absolute */
2895 if (nbytes > 0)
2897 /* Pc-relative. Conventional relocation. */
2898 know (!(opcode_as_number & VIT_OPCODE_SYNTHETIC));
2899 p = frag_more (nbytes);
2900 fix_new (frag_now, p - frag_now->fr_literal, nbytes,
2901 section_symbol (absolute_section),
2902 this_add_number, 1, NO_RELOC);
2904 else
2906 know (opcode_as_number & VIT_OPCODE_SYNTHETIC);
2907 if (opcode_as_number & VIT_OPCODE_SPECIAL)
2909 if (operandP->vop_width == VAX_WIDTH_UNCONDITIONAL_JUMP)
2911 /* br or jsb */
2912 know (opcode_as_chars[1] == 0);
2913 *opcode_low_byteP = opcode_as_chars[0] + VAX_WIDEN_LONG;
2914 p = frag_more (5);
2915 p[0] = VAX_PC_RELATIVE_MODE;
2916 fix_new (frag_now,
2917 p + 1 - frag_now->fr_literal, 4,
2918 this_add_symbol,
2919 this_add_number, 1, NO_RELOC);
2920 /* Now eg JMP foo or JSB foo. */
2922 else
2924 if (operandP->vop_width == VAX_WIDTH_WORD_JUMP)
2926 p = frag_more (10);
2927 p[0] = 0;
2928 p[1] = 2;
2929 p[2] = VAX_BRB;
2930 p[3] = 6;
2931 p[4] = VAX_JMP;
2932 p[5] = VAX_PC_RELATIVE_MODE;
2933 fix_new (frag_now,
2934 p + 6 - frag_now->fr_literal, 4,
2935 this_add_symbol,
2936 this_add_number, 1, NO_RELOC);
2937 /* Now (eg) ACBx 1f
2938 BRB 2f
2939 1: JMP foo
2940 2: */
2942 else
2944 know (operandP->vop_width == VAX_WIDTH_BYTE_JUMP);
2945 p = frag_more (10);
2946 p[0] = 2;
2947 p[1] = VAX_BRB;
2948 p[2] = 6;
2949 p[3] = VAX_JMP;
2950 p[4] = VAX_PC_RELATIVE_MODE;
2951 fix_new (frag_now,
2952 p + 5 - frag_now->fr_literal,
2953 4, this_add_symbol,
2954 this_add_number, 1, NO_RELOC);
2955 /* Now (eg) xOBxxx 1f
2956 BRB 2f
2957 1: JMP foo
2958 2: */
2962 else
2964 know (operandP->vop_width == VAX_WIDTH_CONDITIONAL_JUMP);
2965 *opcode_low_byteP ^= 1; /* Reverse branch condition. */
2966 p = frag_more (7);
2967 p[0] = 6;
2968 p[1] = VAX_JMP;
2969 p[2] = VAX_PC_RELATIVE_MODE;
2970 fix_new (frag_now, p + 3 - frag_now->fr_literal,
2971 4, this_add_symbol,
2972 this_add_number, 1, NO_RELOC);
2978 else
2980 /* So it is ordinary operand. */
2981 know (operandP->vop_access != 'b');
2982 /* ' ' target-independent: elsewhere. */
2983 know (operandP->vop_access != ' ');
2984 know (operandP->vop_access == 'a'
2985 || operandP->vop_access == 'm'
2986 || operandP->vop_access == 'r'
2987 || operandP->vop_access == 'v'
2988 || operandP->vop_access == 'w');
2989 if (operandP->vop_short == 's')
2991 if (is_absolute)
2993 if (this_add_number >= 64)
2995 as_warn (_("Short literal overflow(%ld.), immediate mode assumed."),
2996 (long) this_add_number);
2997 operandP->vop_short = 'i';
2998 operandP->vop_mode = 8;
2999 operandP->vop_reg = 0xF;
3002 else
3004 as_warn (_("Forced short literal to immediate mode. now_seg=%s to_seg=%s"),
3005 segment_name (now_seg), segment_name (to_seg));
3006 operandP->vop_short = 'i';
3007 operandP->vop_mode = 8;
3008 operandP->vop_reg = 0xF;
3011 if (operandP->vop_reg >= 0 && (operandP->vop_mode < 8
3012 || (operandP->vop_reg != 0xF && operandP->vop_mode < 10)))
3014 /* One byte operand. */
3015 know (operandP->vop_mode > 3);
3016 FRAG_APPEND_1_CHAR (operandP->vop_mode << 4 | operandP->vop_reg);
3017 /* All 1-bytes except S^# happen here. */
3019 else
3021 /* {@}{q^}foo{(Rn)} or S^#foo */
3022 if (operandP->vop_reg == -1 && operandP->vop_short != 's')
3024 /* "{@}{q^}foo" */
3025 if (to_seg == now_seg)
3027 if (length == 0)
3029 know (operandP->vop_short == ' ');
3030 length_code = STATE_BYTE;
3031 #ifdef OBJ_ELF
3032 if (S_IS_EXTERNAL (this_add_symbol)
3033 || S_IS_WEAK (this_add_symbol))
3034 length_code = STATE_UNDF;
3035 #endif
3036 p = frag_var (rs_machine_dependent, 10, 2,
3037 ENCODE_RELAX (STATE_PC_RELATIVE, length_code),
3038 this_add_symbol, this_add_number,
3039 opcode_low_byteP);
3040 know (operandP->vop_mode == 10 + at);
3041 *p = at << 4;
3042 /* At is the only context we need to carry
3043 to other side of relax() process. Must
3044 be in the correct bit position of VAX
3045 operand spec. byte. */
3047 else
3049 know (length);
3050 know (operandP->vop_short != ' ');
3051 p = frag_more (length + 1);
3052 p[0] = 0xF | ((at + "?\12\14?\16"[length]) << 4);
3053 fix_new (frag_now, p + 1 - frag_now->fr_literal,
3054 length, this_add_symbol,
3055 this_add_number, 1, NO_RELOC);
3058 else
3060 /* to_seg != now_seg */
3061 if (this_add_symbol == NULL)
3063 know (is_absolute);
3064 /* Do @#foo: simpler relocation than foo-.(pc) anyway. */
3065 p = frag_more (5);
3066 p[0] = VAX_ABSOLUTE_MODE; /* @#... */
3067 md_number_to_chars (p + 1, this_add_number, 4);
3068 if (length && length != 4)
3069 as_warn (_("Length specification ignored. Address mode 9F used"));
3071 else
3073 /* {@}{q^}other_seg */
3074 know ((length == 0 && operandP->vop_short == ' ')
3075 || (length > 0 && operandP->vop_short != ' '));
3076 if (is_undefined
3077 #ifdef OBJ_ELF
3078 || S_IS_WEAK(this_add_symbol)
3079 || S_IS_EXTERNAL(this_add_symbol)
3080 #endif
3083 switch (length)
3085 default: length_code = STATE_UNDF; break;
3086 case 1: length_code = STATE_BYTE; break;
3087 case 2: length_code = STATE_WORD; break;
3088 case 4: length_code = STATE_LONG; break;
3090 /* We have a SEG_UNKNOWN symbol. It might
3091 turn out to be in the same segment as
3092 the instruction, permitting relaxation. */
3093 p = frag_var (rs_machine_dependent, 5, 2,
3094 ENCODE_RELAX (STATE_PC_RELATIVE, length_code),
3095 this_add_symbol, this_add_number,
3096 opcode_low_byteP);
3097 p[0] = at << 4;
3099 else
3101 if (length == 0)
3103 know (operandP->vop_short == ' ');
3104 length = 4; /* Longest possible. */
3106 p = frag_more (length + 1);
3107 p[0] = 0xF | ((at + "?\12\14?\16"[length]) << 4);
3108 md_number_to_chars (p + 1, this_add_number, length);
3109 fix_new (frag_now,
3110 p + 1 - frag_now->fr_literal,
3111 length, this_add_symbol,
3112 this_add_number, 1, NO_RELOC);
3117 else
3119 /* {@}{q^}foo(Rn) or S^# or I^# or # */
3120 if (operandP->vop_mode < 0xA)
3122 /* # or S^# or I^# */
3123 if (operandP->vop_access == 'v'
3124 || operandP->vop_access == 'a')
3126 if (operandP->vop_access == 'v')
3127 as_warn (_("Invalid operand: immediate value used as base address."));
3128 else
3129 as_warn (_("Invalid operand: immediate value used as address."));
3130 /* gcc 2.6.3 is known to generate these in at least
3131 one case. */
3133 if (length == 0
3134 && is_absolute && (expP->X_op != O_big)
3135 && operandP->vop_mode == 8 /* No '@'. */
3136 && this_add_number < 64)
3138 operandP->vop_short = 's';
3140 if (operandP->vop_short == 's')
3142 FRAG_APPEND_1_CHAR (this_add_number);
3144 else
3146 /* I^#... */
3147 know (nbytes);
3148 p = frag_more (nbytes + 1);
3149 know (operandP->vop_reg == 0xF);
3150 #ifdef OBJ_ELF
3151 if (flag_want_pic && operandP->vop_mode == 8
3152 && this_add_symbol != NULL)
3154 as_warn (_("Symbol %s used as immediate operand in PIC mode."),
3155 S_GET_NAME (this_add_symbol));
3157 #endif
3158 p[0] = (operandP->vop_mode << 4) | 0xF;
3159 if ((is_absolute) && (expP->X_op != O_big))
3161 /* If nbytes > 4, then we are scrod. We
3162 don't know if the high order bytes
3163 are to be 0xFF or 0x00. BSD4.2 & RMS
3164 say use 0x00. OK --- but this
3165 assembler needs ANOTHER rewrite to
3166 cope properly with this bug. */
3167 md_number_to_chars (p + 1, this_add_number,
3168 min (sizeof (valueT),
3169 (size_t) nbytes));
3170 if ((size_t) nbytes > sizeof (valueT))
3171 memset (p + 1 + sizeof (valueT),
3172 '\0', nbytes - sizeof (valueT));
3174 else
3176 if (expP->X_op == O_big)
3178 /* Problem here is to get the bytes
3179 in the right order. We stored
3180 our constant as LITTLENUMs, not
3181 bytes. */
3182 LITTLENUM_TYPE *lP;
3184 lP = floatP->low;
3185 if (nbytes & 1)
3187 know (nbytes == 1);
3188 p[1] = *lP;
3190 else
3192 for (p++; nbytes; nbytes -= 2, p += 2, lP++)
3193 md_number_to_chars (p, *lP, 2);
3196 else
3198 fix_new (frag_now, p + 1 - frag_now->fr_literal,
3199 nbytes, this_add_symbol,
3200 this_add_number, 0, NO_RELOC);
3205 else
3207 /* {@}{q^}foo(Rn) */
3208 know ((length == 0 && operandP->vop_short == ' ')
3209 || (length > 0 && operandP->vop_short != ' '));
3210 if (length == 0)
3212 if (is_absolute)
3214 long test;
3216 test = this_add_number;
3218 if (test < 0)
3219 test = ~test;
3221 length = test & 0xffff8000 ? 4
3222 : test & 0xffffff80 ? 2
3223 : 1;
3225 else
3227 length = 4;
3230 p = frag_more (1 + length);
3231 know (operandP->vop_reg >= 0);
3232 p[0] = operandP->vop_reg
3233 | ((at | "?\12\14?\16"[length]) << 4);
3234 if (is_absolute)
3236 md_number_to_chars (p + 1, this_add_number, length);
3238 else
3240 fix_new (frag_now, p + 1 - frag_now->fr_literal,
3241 length, this_add_symbol,
3242 this_add_number, 0, NO_RELOC);
3251 void
3252 md_begin (void)
3254 const char *errtxt;
3255 FLONUM_TYPE *fP;
3256 int i;
3258 if ((errtxt = vip_begin (1, "$", "*", "`")) != 0)
3259 as_fatal (_("VIP_BEGIN error:%s"), errtxt);
3261 for (i = 0, fP = float_operand;
3262 fP < float_operand + VIT_MAX_OPERANDS;
3263 i++, fP++)
3265 fP->low = &big_operand_bits[i][0];
3266 fP->high = &big_operand_bits[i][SIZE_OF_LARGE_NUMBER - 1];
3270 static char *vax_cons_special_reloc;
3272 void
3273 vax_cons (expressionS *exp, int size)
3275 char *save;
3277 SKIP_WHITESPACE ();
3278 vax_cons_special_reloc = NULL;
3279 save = input_line_pointer;
3280 if (input_line_pointer[0] == '%')
3282 if (strncmp (input_line_pointer + 1, "pcrel", 5) == 0)
3284 input_line_pointer += 6;
3285 vax_cons_special_reloc = "pcrel";
3287 if (vax_cons_special_reloc)
3289 int bad = 0;
3291 switch (size)
3293 case 1:
3294 if (*input_line_pointer != '8')
3295 bad = 1;
3296 input_line_pointer--;
3297 break;
3298 case 2:
3299 if (input_line_pointer[0] != '1' || input_line_pointer[1] != '6')
3300 bad = 1;
3301 break;
3302 case 4:
3303 if (input_line_pointer[0] != '3' || input_line_pointer[1] != '2')
3304 bad = 1;
3305 break;
3306 default:
3307 bad = 1;
3308 break;
3311 if (bad)
3313 as_bad (_("Illegal operands: Only %%r_%s%d allowed in %d-byte data fields"),
3314 vax_cons_special_reloc, size * 8, size);
3316 else
3318 input_line_pointer += 2;
3319 if (*input_line_pointer != '(')
3321 as_bad (_("Illegal operands: %%r_%s%d requires arguments in ()"),
3322 vax_cons_special_reloc, size * 8);
3323 bad = 1;
3327 if (bad)
3329 input_line_pointer = save;
3330 vax_cons_special_reloc = NULL;
3332 else
3334 int c;
3335 char *end = ++input_line_pointer;
3336 int npar = 0;
3338 while (! is_end_of_line[(c = *end)])
3340 if (c == '(')
3341 npar++;
3342 else if (c == ')')
3344 if (!npar)
3345 break;
3346 npar--;
3348 end++;
3351 if (c != ')')
3352 as_bad (_("Illegal operands: %%r_%s%d requires arguments in ()"),
3353 vax_cons_special_reloc, size * 8);
3354 else
3356 *end = '\0';
3357 expression (exp);
3358 *end = c;
3359 if (input_line_pointer != end)
3361 as_bad (_("Illegal operands: %%r_%s%d requires arguments in ()"),
3362 vax_cons_special_reloc, size * 8);
3364 else
3366 input_line_pointer++;
3367 SKIP_WHITESPACE ();
3368 c = *input_line_pointer;
3369 if (! is_end_of_line[c] && c != ',')
3370 as_bad (_("Illegal operands: garbage after %%r_%s%d()"),
3371 vax_cons_special_reloc, size * 8);
3377 if (vax_cons_special_reloc == NULL)
3378 expression (exp);
3381 /* This is called by emit_expr via TC_CONS_FIX_NEW when creating a
3382 reloc for a cons. */
3384 void
3385 vax_cons_fix_new (fragS *frag, int where, unsigned int nbytes, expressionS *exp)
3387 bfd_reloc_code_real_type r;
3389 r = (nbytes == 1 ? BFD_RELOC_8 :
3390 (nbytes == 2 ? BFD_RELOC_16 : BFD_RELOC_32));
3392 if (vax_cons_special_reloc)
3394 if (*vax_cons_special_reloc == 'p')
3396 switch (nbytes)
3398 case 1: r = BFD_RELOC_8_PCREL; break;
3399 case 2: r = BFD_RELOC_16_PCREL; break;
3400 case 4: r = BFD_RELOC_32_PCREL; break;
3401 default: abort ();
3406 fix_new_exp (frag, where, (int) nbytes, exp, 0, r);
3407 vax_cons_special_reloc = NULL;
3410 char *
3411 md_atof (int type, char * litP, int * sizeP)
3413 return vax_md_atof (type, litP, sizeP);