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authorRichard Henderson <rth@redhat.com>1999-05-03 07:29:11 +0000
committerRichard Henderson <rth@redhat.com>1999-05-03 07:29:11 +0000
commit252b5132c753830d5fd56823373aed85f2a0db63 (patch)
tree1af963bfd8d3e55167b81def4207f175eaff3a56 /opcodes/arc-opc.c
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19990502 sourceware importbinu_ss_19990502
Diffstat (limited to 'opcodes/arc-opc.c')
-rw-r--r--opcodes/arc-opc.c1131
1 files changed, 1131 insertions, 0 deletions
diff --git a/opcodes/arc-opc.c b/opcodes/arc-opc.c
new file mode 100644
index 0000000..0f8f689
--- /dev/null
+++ b/opcodes/arc-opc.c
@@ -0,0 +1,1131 @@
+/* Opcode table for the ARC.
+ Copyright (c) 1994, 1995, 1997, 1998 Free Software Foundation, Inc.
+ Contributed by Doug Evans (dje@cygnus.com).
+
+ This program is free software; you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation; either version 2, or (at your option)
+ any later version.
+
+ This program is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with this program; if not, write to the Free Software
+ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
+
+#include <stdio.h>
+#include "ansidecl.h"
+#include "opcode/arc.h"
+#include "opintl.h"
+
+#ifndef NULL
+#define NULL 0
+#endif
+
+#define INSERT_FN(fn) \
+static arc_insn fn PARAMS ((arc_insn, const struct arc_operand *, \
+ int, const struct arc_operand_value *, long, \
+ const char **))
+#define EXTRACT_FN(fn) \
+static long fn PARAMS ((arc_insn *, const struct arc_operand *, \
+ int, const struct arc_operand_value **, int *))
+
+INSERT_FN (insert_reg);
+INSERT_FN (insert_shimmfinish);
+INSERT_FN (insert_limmfinish);
+INSERT_FN (insert_shimmoffset);
+INSERT_FN (insert_shimmzero);
+INSERT_FN (insert_flag);
+INSERT_FN (insert_flagfinish);
+INSERT_FN (insert_cond);
+INSERT_FN (insert_forcelimm);
+INSERT_FN (insert_reladdr);
+INSERT_FN (insert_absaddr);
+INSERT_FN (insert_unopmacro);
+
+EXTRACT_FN (extract_reg);
+EXTRACT_FN (extract_flag);
+EXTRACT_FN (extract_cond);
+EXTRACT_FN (extract_reladdr);
+EXTRACT_FN (extract_unopmacro);
+
+/* Various types of ARC operands, including insn suffixes. */
+
+/* Insn format values:
+
+ 'a' REGA register A field
+ 'b' REGB register B field
+ 'c' REGC register C field
+ 'S' SHIMMFINISH finish inserting a shimm value
+ 'L' LIMMFINISH finish inserting a limm value
+ 'd' SHIMMOFFSET shimm offset in ld,st insns
+ '0' SHIMMZERO 0 shimm value in ld,st insns
+ 'f' FLAG F flag
+ 'F' FLAGFINISH finish inserting the F flag
+ 'G' FLAGINSN insert F flag in "flag" insn
+ 'n' DELAY N field (nullify field)
+ 'q' COND condition code field
+ 'Q' FORCELIMM set `cond_p' to 1 to ensure a constant is a limm
+ 'B' BRANCH branch address (22 bit pc relative)
+ 'J' JUMP jump address (26 bit absolute)
+ 'z' SIZE1 size field in ld a,[b,c]
+ 'Z' SIZE10 size field in ld a,[b,shimm]
+ 'y' SIZE22 size field in st c,[b,shimm]
+ 'x' SIGN0 sign extend field ld a,[b,c]
+ 'X' SIGN9 sign extend field ld a,[b,shimm]
+ 'w' ADDRESS3 write-back field in ld a,[b,c]
+ 'W' ADDRESS12 write-back field in ld a,[b,shimm]
+ 'v' ADDRESS24 write-back field in st c,[b,shimm]
+ 'e' CACHEBYPASS5 cache bypass in ld a,[b,c]
+ 'E' CACHEBYPASS14 cache bypass in ld a,[b,shimm]
+ 'D' CACHEBYPASS26 cache bypass in st c,[b,shimm]
+ 'U' UNOPMACRO fake operand to copy REGB to REGC for unop macros
+
+ The following modifiers may appear between the % and char (eg: %.f):
+
+ '.' MODDOT '.' prefix must be present
+ 'r' REG generic register value, for register table
+ 'A' AUXREG auxiliary register in lr a,[b], sr c,[b]
+
+ Fields are:
+
+ CHAR BITS SHIFT FLAGS INSERT_FN EXTRACT_FN
+*/
+
+const struct arc_operand arc_operands[] =
+{
+/* place holder (??? not sure if needed) */
+#define UNUSED 0
+ { 0 },
+
+/* register A or shimm/limm indicator */
+#define REGA (UNUSED + 1)
+ { 'a', 6, ARC_SHIFT_REGA, ARC_OPERAND_SIGNED, insert_reg, extract_reg },
+
+/* register B or shimm/limm indicator */
+#define REGB (REGA + 1)
+ { 'b', 6, ARC_SHIFT_REGB, ARC_OPERAND_SIGNED, insert_reg, extract_reg },
+
+/* register C or shimm/limm indicator */
+#define REGC (REGB + 1)
+ { 'c', 6, ARC_SHIFT_REGC, ARC_OPERAND_SIGNED, insert_reg, extract_reg },
+
+/* fake operand used to insert shimm value into most instructions */
+#define SHIMMFINISH (REGC + 1)
+ { 'S', 9, 0, ARC_OPERAND_SIGNED + ARC_OPERAND_FAKE, insert_shimmfinish, 0 },
+
+/* fake operand used to insert limm value into most instructions. */
+#define LIMMFINISH (SHIMMFINISH + 1)
+ { 'L', 32, 32, ARC_OPERAND_ADDRESS + ARC_OPERAND_LIMM + ARC_OPERAND_FAKE, insert_limmfinish, 0 },
+
+/* shimm operand when there is no reg indicator (ld,st) */
+#define SHIMMOFFSET (LIMMFINISH + 1)
+ { 'd', 9, 0, ARC_OPERAND_SIGNED, insert_shimmoffset, 0 },
+
+/* 0 shimm operand for ld,st insns */
+#define SHIMMZERO (SHIMMOFFSET + 1)
+ { '0', 9, 0, ARC_OPERAND_FAKE, insert_shimmzero, 0 },
+
+/* flag update bit (insertion is defered until we know how) */
+#define FLAG (SHIMMZERO + 1)
+ { 'f', 1, 8, ARC_OPERAND_SUFFIX, insert_flag, extract_flag },
+
+/* fake utility operand to finish 'f' suffix handling */
+#define FLAGFINISH (FLAG + 1)
+ { 'F', 1, 8, ARC_OPERAND_FAKE, insert_flagfinish, 0 },
+
+/* fake utility operand to set the 'f' flag for the "flag" insn */
+#define FLAGINSN (FLAGFINISH + 1)
+ { 'G', 1, 8, ARC_OPERAND_FAKE, insert_flag, 0 },
+
+/* branch delay types */
+#define DELAY (FLAGINSN + 1)
+ { 'n', 2, 5, ARC_OPERAND_SUFFIX },
+
+/* conditions */
+#define COND (DELAY + 1)
+ { 'q', 5, 0, ARC_OPERAND_SUFFIX, insert_cond, extract_cond },
+
+/* set `cond_p' to 1 to ensure a constant is treated as a limm */
+#define FORCELIMM (COND + 1)
+ { 'Q', 0, 0, ARC_OPERAND_FAKE, insert_forcelimm },
+
+/* branch address; b, bl, and lp insns */
+#define BRANCH (FORCELIMM + 1)
+ { 'B', 20, 7, ARC_OPERAND_RELATIVE_BRANCH + ARC_OPERAND_SIGNED, insert_reladdr, extract_reladdr },
+
+/* jump address; j insn (this is basically the same as 'L' except that the
+ value is right shifted by 2) */
+#define JUMP (BRANCH + 1)
+ { 'J', 24, 32, ARC_OPERAND_ABSOLUTE_BRANCH + ARC_OPERAND_LIMM + ARC_OPERAND_FAKE, insert_absaddr },
+
+/* size field, stored in bit 1,2 */
+#define SIZE1 (JUMP + 1)
+ { 'z', 2, 1, ARC_OPERAND_SUFFIX },
+
+/* size field, stored in bit 10,11 */
+#define SIZE10 (SIZE1 + 1)
+ { 'Z', 2, 10, ARC_OPERAND_SUFFIX, },
+
+/* size field, stored in bit 22,23 */
+#define SIZE22 (SIZE10 + 1)
+ { 'y', 2, 22, ARC_OPERAND_SUFFIX, },
+
+/* sign extend field, stored in bit 0 */
+#define SIGN0 (SIZE22 + 1)
+ { 'x', 1, 0, ARC_OPERAND_SUFFIX },
+
+/* sign extend field, stored in bit 9 */
+#define SIGN9 (SIGN0 + 1)
+ { 'X', 1, 9, ARC_OPERAND_SUFFIX },
+
+/* address write back, stored in bit 3 */
+#define ADDRESS3 (SIGN9 + 1)
+ { 'w', 1, 3, ARC_OPERAND_SUFFIX },
+
+/* address write back, stored in bit 12 */
+#define ADDRESS12 (ADDRESS3 + 1)
+ { 'W', 1, 12, ARC_OPERAND_SUFFIX },
+
+/* address write back, stored in bit 24 */
+#define ADDRESS24 (ADDRESS12 + 1)
+ { 'v', 1, 24, ARC_OPERAND_SUFFIX },
+
+/* cache bypass, stored in bit 5 */
+#define CACHEBYPASS5 (ADDRESS24 + 1)
+ { 'e', 1, 5, ARC_OPERAND_SUFFIX },
+
+/* cache bypass, stored in bit 14 */
+#define CACHEBYPASS14 (CACHEBYPASS5 + 1)
+ { 'E', 1, 14, ARC_OPERAND_SUFFIX },
+
+/* cache bypass, stored in bit 26 */
+#define CACHEBYPASS26 (CACHEBYPASS14 + 1)
+ { 'D', 1, 26, ARC_OPERAND_SUFFIX },
+
+/* unop macro, used to copy REGB to REGC */
+#define UNOPMACRO (CACHEBYPASS26 + 1)
+ { 'U', 6, ARC_SHIFT_REGC, ARC_OPERAND_FAKE, insert_unopmacro, extract_unopmacro },
+
+/* '.' modifier ('.' required). */
+#define MODDOT (UNOPMACRO + 1)
+ { '.', 1, 0, ARC_MOD_DOT },
+
+/* Dummy 'r' modifier for the register table.
+ It's called a "dummy" because there's no point in inserting an 'r' into all
+ the %a/%b/%c occurrences in the insn table. */
+#define REG (MODDOT + 1)
+ { 'r', 6, 0, ARC_MOD_REG },
+
+/* Known auxiliary register modifier (stored in shimm field). */
+#define AUXREG (REG + 1)
+ { 'A', 9, 0, ARC_MOD_AUXREG },
+
+/* end of list place holder */
+ { 0 }
+};
+
+/* Given a format letter, yields the index into `arc_operands'.
+ eg: arc_operand_map['a'] = REGA. */
+unsigned char arc_operand_map[256];
+
+#define I(x) (((x) & 31) << 27)
+#define A(x) (((x) & ARC_MASK_REG) << ARC_SHIFT_REGA)
+#define B(x) (((x) & ARC_MASK_REG) << ARC_SHIFT_REGB)
+#define C(x) (((x) & ARC_MASK_REG) << ARC_SHIFT_REGC)
+#define R(x,b,m) (((x) & (m)) << (b)) /* value X, mask M, at bit B */
+
+/* ARC instructions.
+
+ Longer versions of insns must appear before shorter ones (if gas sees
+ "lsr r2,r3,1" when it's parsing "lsr %a,%b" it will think the ",1" is
+ junk). This isn't necessary for `ld' because of the trailing ']'.
+
+ Instructions that are really macros based on other insns must appear
+ before the real insn so they're chosen when disassembling. Eg: The `mov'
+ insn is really the `and' insn.
+
+ This table is best viewed on a wide screen (161 columns). I'd prefer to
+ keep it this way. The rest of the file, however, should be viewable on an
+ 80 column terminal. */
+
+/* ??? This table also includes macros: asl, lsl, and mov. The ppc port has
+ a more general facility for dealing with macros which could be used if
+ we need to. */
+
+/* This table can't be `const' because members `next_asm' and `next_dis' are
+ computed at run-time. We could split this into two, but that doesn't seem
+ worth it. */
+
+struct arc_opcode arc_opcodes[] = {
+
+ /* Macros appear first. */
+ /* "mov" is really an "and". */
+ { "mov%.q%.f %a,%b%F%S%L%U", I(-1), I(12) },
+ /* "asl" is really an "add". */
+ { "asl%.q%.f %a,%b%F%S%L%U", I(-1), I(8) },
+ /* "lsl" is really an "add". */
+ { "lsl%.q%.f %a,%b%F%S%L%U", I(-1), I(8) },
+ /* "nop" is really an "xor". */
+ { "nop", 0xffffffff, 0x7fffffff },
+ /* "rlc" is really an "adc". */
+ { "rlc%.q%.f %a,%b%F%S%L%U", I(-1), I(9) },
+
+ /* The rest of these needn't be sorted, but it helps to find them if they are. */
+ { "adc%.q%.f %a,%b,%c%F%S%L", I(-1), I(9) },
+ { "add%.q%.f %a,%b,%c%F%S%L", I(-1), I(8) },
+ { "and%.q%.f %a,%b,%c%F%S%L", I(-1), I(12) },
+ { "asr%.q%.f %a,%b%F%S%L", I(-1)+C(-1), I(3)+C(1) },
+ { "bic%.q%.f %a,%b,%c%F%S%L", I(-1), I(14) },
+ { "b%q%.n %B", I(-1), I(4), ARC_OPCODE_COND_BRANCH },
+ { "bl%q%.n %B", I(-1), I(5), ARC_OPCODE_COND_BRANCH },
+ { "extb%.q%.f %a,%b%F%S%L", I(-1)+C(-1), I(3)+C(7) },
+ { "extw%.q%.f %a,%b%F%S%L", I(-1)+C(-1), I(3)+C(8) },
+ { "flag%.q %b%G%S%L", I(-1)+A(-1)+C(-1), I(3)+A(ARC_REG_SHIMM_UPDATE)+C(0) },
+ /* %Q: force cond_p=1 --> no shimm values */
+ /* ??? This insn allows an optional flags spec. */
+ { "j%q%Q%.n%.f %b%J", I(-1)+A(-1)+C(-1)+R(-1,7,1), I(7)+A(0)+C(0)+R(0,7,1) },
+ /* Put opcode 1 ld insns first so shimm gets prefered over limm. */
+ /* "[%b]" is before "[%b,%d]" so 0 offsets don't get printed. */
+ { "ld%Z%.X%.W%.E %0%a,[%b]%L", I(-1)+R(-1,13,1)+R(-1,0,511), I(1)+R(0,13,1)+R(0,0,511) },
+ { "ld%Z%.X%.W%.E %a,[%b,%d]%S%L", I(-1)+R(-1,13,1), I(1)+R(0,13,1) },
+ { "ld%z%.x%.w%.e%Q %a,[%b,%c]%L", I(-1)+R(-1,4,1)+R(-1,6,7), I(0)+R(0,4,1)+R(0,6,7) },
+ { "lp%q%.n %B", I(-1), I(6), },
+ { "lr %a,[%Ab]%S%L", I(-1)+C(-1), I(1)+C(0x10) },
+ { "lsr%.q%.f %a,%b%F%S%L", I(-1)+C(-1), I(3)+C(2) },
+ { "or%.q%.f %a,%b,%c%F%S%L", I(-1), I(13) },
+ { "ror%.q%.f %a,%b%F%S%L", I(-1)+C(-1), I(3)+C(3) },
+ { "rrc%.q%.f %a,%b%F%S%L", I(-1)+C(-1), I(3)+C(4) },
+ { "sbc%.q%.f %a,%b,%c%F%S%L", I(-1), I(11) },
+ { "sexb%.q%.f %a,%b%F%S%L", I(-1)+C(-1), I(3)+C(5) },
+ { "sexw%.q%.f %a,%b%F%S%L", I(-1)+C(-1), I(3)+C(6) },
+ { "sr %c,[%Ab]%S%L", I(-1)+A(-1), I(2)+A(0x10) },
+ /* "[%b]" is before "[%b,%d]" so 0 offsets don't get printed. */
+ { "st%y%.v%.D%Q %0%c,[%b]%L", I(-1)+R(-1,25,1)+R(-1,21,1)+R(-1,0,511), I(2)+R(0,25,1)+R(0,21,1)+R(0,0,511) },
+ { "st%y%.v%.D %c,[%b,%d]%S%L", I(-1)+R(-1,25,1)+R(-1,21,1), I(2)+R(0,25,1)+R(0,21,1) },
+ { "sub%.q%.f %a,%b,%c%F%S%L", I(-1), I(10) },
+ { "xor%.q%.f %a,%b,%c%F%S%L", I(-1), I(15) }
+};
+const int arc_opcodes_count = sizeof (arc_opcodes) / sizeof (arc_opcodes[0]);
+
+const struct arc_operand_value arc_reg_names[] =
+{
+ /* Sort this so that the first 61 entries are sequential.
+ IE: For each i (i<61), arc_reg_names[i].value == i. */
+
+ { "r0", 0, REG }, { "r1", 1, REG }, { "r2", 2, REG }, { "r3", 3, REG },
+ { "r4", 4, REG }, { "r5", 5, REG }, { "r6", 6, REG }, { "r7", 7, REG },
+ { "r8", 8, REG }, { "r9", 9, REG }, { "r10", 10, REG }, { "r11", 11, REG },
+ { "r12", 12, REG }, { "r13", 13, REG }, { "r14", 14, REG }, { "r15", 15, REG },
+ { "r16", 16, REG }, { "r17", 17, REG }, { "r18", 18, REG }, { "r19", 19, REG },
+ { "r20", 20, REG }, { "r21", 21, REG }, { "r22", 22, REG }, { "r23", 23, REG },
+ { "r24", 24, REG }, { "r25", 25, REG }, { "r26", 26, REG }, { "fp", 27, REG },
+ { "sp", 28, REG }, { "ilink1", 29, REG }, { "ilink2", 30, REG }, { "blink", 31, REG },
+ { "r32", 32, REG }, { "r33", 33, REG }, { "r34", 34, REG }, { "r35", 35, REG },
+ { "r36", 36, REG }, { "r37", 37, REG }, { "r38", 38, REG }, { "r39", 39, REG },
+ { "r40", 40, REG }, { "r41", 41, REG }, { "r42", 42, REG }, { "r43", 43, REG },
+ { "r44", 44, REG }, { "r45", 45, REG }, { "r46", 46, REG }, { "r47", 47, REG },
+ { "r48", 48, REG }, { "r49", 49, REG }, { "r50", 50, REG }, { "r51", 51, REG },
+ { "r52", 52, REG }, { "r53", 53, REG }, { "r54", 54, REG }, { "r55", 55, REG },
+ { "r56", 56, REG }, { "r57", 57, REG }, { "r58", 58, REG }, { "r59", 59, REG },
+ { "lp_count", 60, REG },
+
+ /* I'd prefer to output these as "fp" and "sp" by default, but we still need
+ to recognize the canonical values. */
+ { "r27", 27, REG }, { "r28", 28, REG },
+
+ /* Someone may wish to refer to these in this way, and it's probably a
+ good idea to reserve them as such anyway. */
+ { "r29", 29, REG }, { "r30", 30, REG }, { "r31", 31, REG }, { "r60", 60, REG },
+
+ /* Standard auxiliary registers. */
+ { "status", 0, AUXREG },
+ { "semaphore", 1, AUXREG },
+ { "lp_start", 2, AUXREG },
+ { "lp_end", 3, AUXREG },
+ { "identity", 4, AUXREG },
+ { "debug", 5, AUXREG },
+};
+const int arc_reg_names_count = sizeof (arc_reg_names) / sizeof (arc_reg_names[0]);
+
+/* The suffix table.
+ Operands with the same name must be stored together. */
+
+const struct arc_operand_value arc_suffixes[] =
+{
+ /* Entry 0 is special, default values aren't printed by the disassembler. */
+ { "", 0, -1 },
+ { "al", 0, COND },
+ { "ra", 0, COND },
+ { "eq", 1, COND },
+ { "z", 1, COND },
+ { "ne", 2, COND },
+ { "nz", 2, COND },
+ { "p", 3, COND },
+ { "pl", 3, COND },
+ { "n", 4, COND },
+ { "mi", 4, COND },
+ { "c", 5, COND },
+ { "cs", 5, COND },
+ { "lo", 5, COND },
+ { "nc", 6, COND },
+ { "cc", 6, COND },
+ { "hs", 6, COND },
+ { "v", 7, COND },
+ { "vs", 7, COND },
+ { "nv", 8, COND },
+ { "vc", 8, COND },
+ { "gt", 9, COND },
+ { "ge", 10, COND },
+ { "lt", 11, COND },
+ { "le", 12, COND },
+ { "hi", 13, COND },
+ { "ls", 14, COND },
+ { "pnz", 15, COND },
+ { "f", 1, FLAG },
+ { "nd", ARC_DELAY_NONE, DELAY },
+ { "d", ARC_DELAY_NORMAL, DELAY },
+ { "jd", ARC_DELAY_JUMP, DELAY },
+/*{ "b", 7, SIZEEXT },*/
+/*{ "b", 5, SIZESEX },*/
+ { "b", 1, SIZE1 },
+ { "b", 1, SIZE10 },
+ { "b", 1, SIZE22 },
+/*{ "w", 8, SIZEEXT },*/
+/*{ "w", 6, SIZESEX },*/
+ { "w", 2, SIZE1 },
+ { "w", 2, SIZE10 },
+ { "w", 2, SIZE22 },
+ { "x", 1, SIGN0 },
+ { "x", 1, SIGN9 },
+ { "a", 1, ADDRESS3 },
+ { "a", 1, ADDRESS12 },
+ { "a", 1, ADDRESS24 },
+ { "di", 1, CACHEBYPASS5 },
+ { "di", 1, CACHEBYPASS14 },
+ { "di", 1, CACHEBYPASS26 },
+};
+const int arc_suffixes_count = sizeof (arc_suffixes) / sizeof (arc_suffixes[0]);
+
+/* Indexed by first letter of opcode. Points to chain of opcodes with same
+ first letter. */
+static struct arc_opcode *opcode_map[26 + 1];
+
+/* Indexed by insn code. Points to chain of opcodes with same insn code. */
+static struct arc_opcode *icode_map[32];
+
+/* Configuration flags. */
+
+/* Various ARC_HAVE_XXX bits. */
+static int cpu_type;
+
+/* Translate a bfd_mach_arc_xxx value to a ARC_MACH_XXX value. */
+
+int
+arc_get_opcode_mach (bfd_mach, big_p)
+ int bfd_mach, big_p;
+{
+ static int mach_type_map[] =
+ {
+ ARC_MACH_BASE
+ };
+
+ return mach_type_map[bfd_mach] | (big_p ? ARC_MACH_BIG : 0);
+}
+
+/* Initialize any tables that need it.
+ Must be called once at start up (or when first needed).
+
+ FLAGS is a set of bits that say what version of the cpu we have,
+ and in particular at least (one of) ARC_MACH_XXX. */
+
+void
+arc_opcode_init_tables (flags)
+ int flags;
+{
+ static int init_p = 0;
+
+ cpu_type = flags;
+
+ /* We may be intentionally called more than once (for example gdb will call
+ us each time the user switches cpu). These tables only need to be init'd
+ once though. */
+ /* ??? We can remove the need for arc_opcode_supported by taking it into
+ account here, but I'm not sure I want to do that yet (if ever). */
+ if (!init_p)
+ {
+ register int i,n;
+
+ memset (arc_operand_map, 0, sizeof (arc_operand_map));
+ n = sizeof (arc_operands) / sizeof (arc_operands[0]);
+ for (i = 0; i < n; ++i)
+ arc_operand_map[arc_operands[i].fmt] = i;
+
+ memset (opcode_map, 0, sizeof (opcode_map));
+ memset (icode_map, 0, sizeof (icode_map));
+ /* Scan the table backwards so macros appear at the front. */
+ for (i = arc_opcodes_count - 1; i >= 0; --i)
+ {
+ int opcode_hash = ARC_HASH_OPCODE (arc_opcodes[i].syntax);
+ int icode_hash = ARC_HASH_ICODE (arc_opcodes[i].value);
+
+ arc_opcodes[i].next_asm = opcode_map[opcode_hash];
+ opcode_map[opcode_hash] = &arc_opcodes[i];
+
+ arc_opcodes[i].next_dis = icode_map[icode_hash];
+ icode_map[icode_hash] = &arc_opcodes[i];
+ }
+
+ init_p = 1;
+ }
+}
+
+/* Return non-zero if OPCODE is supported on the specified cpu.
+ Cpu selection is made when calling `arc_opcode_init_tables'. */
+
+int
+arc_opcode_supported (opcode)
+ const struct arc_opcode *opcode;
+{
+ if (ARC_OPCODE_CPU (opcode->flags) == 0)
+ return 1;
+ if (ARC_OPCODE_CPU (opcode->flags) & ARC_HAVE_CPU (cpu_type))
+ return 1;
+ return 0;
+}
+
+/* Return non-zero if OPVAL is supported on the specified cpu.
+ Cpu selection is made when calling `arc_opcode_init_tables'. */
+
+int
+arc_opval_supported (opval)
+ const struct arc_operand_value *opval;
+{
+ if (ARC_OPVAL_CPU (opval->flags) == 0)
+ return 1;
+ if (ARC_OPVAL_CPU (opval->flags) & ARC_HAVE_CPU (cpu_type))
+ return 1;
+ return 0;
+}
+
+/* Return the first insn in the chain for assembling INSN. */
+
+const struct arc_opcode *
+arc_opcode_lookup_asm (insn)
+ const char *insn;
+{
+ return opcode_map[ARC_HASH_OPCODE (insn)];
+}
+
+/* Return the first insn in the chain for disassembling INSN. */
+
+const struct arc_opcode *
+arc_opcode_lookup_dis (insn)
+ unsigned int insn;
+{
+ return icode_map[ARC_HASH_ICODE (insn)];
+}
+
+/* Nonzero if we've seen an 'f' suffix (in certain insns). */
+static int flag_p;
+
+/* Nonzero if we've finished processing the 'f' suffix. */
+static int flagshimm_handled_p;
+
+/* Nonzero if we've seen a 'q' suffix (condition code). */
+static int cond_p;
+
+/* Nonzero if we've inserted a shimm. */
+static int shimm_p;
+
+/* The value of the shimm we inserted (each insn only gets one but it can
+ appear multiple times. */
+static int shimm;
+
+/* Nonzero if we've inserted a limm (during assembly) or seen a limm
+ (during disassembly). */
+static int limm_p;
+
+/* The value of the limm we inserted. Each insn only gets one but it can
+ appear multiple times. */
+static long limm;
+
+/* Insertion functions. */
+
+/* Called by the assembler before parsing an instruction. */
+
+void
+arc_opcode_init_insert ()
+{
+ flag_p = 0;
+ flagshimm_handled_p = 0;
+ cond_p = 0;
+ shimm_p = 0;
+ limm_p = 0;
+}
+
+/* Called by the assembler to see if the insn has a limm operand.
+ Also called by the disassembler to see if the insn contains a limm. */
+
+int
+arc_opcode_limm_p (limmp)
+ long *limmp;
+{
+ if (limmp)
+ *limmp = limm;
+ return limm_p;
+}
+
+/* Insert a value into a register field.
+ If REG is NULL, then this is actually a constant.
+
+ We must also handle auxiliary registers for lr/sr insns. */
+
+static arc_insn
+insert_reg (insn, operand, mods, reg, value, errmsg)
+ arc_insn insn;
+ const struct arc_operand *operand;
+ int mods;
+ const struct arc_operand_value *reg;
+ long value;
+ const char **errmsg;
+{
+ static char buf[100];
+
+ if (reg == NULL)
+ {
+ /* We have a constant that also requires a value stored in a register
+ field. Handle these by updating the register field and saving the
+ value for later handling by either %S (shimm) or %L (limm). */
+
+ /* Try to use a shimm value before a limm one. */
+ if (ARC_SHIMM_CONST_P (value)
+ /* If we've seen a conditional suffix we have to use a limm. */
+ && !cond_p
+ /* If we already have a shimm value that is different than ours
+ we have to use a limm. */
+ && (!shimm_p || shimm == value))
+ {
+ int marker = flag_p ? ARC_REG_SHIMM_UPDATE : ARC_REG_SHIMM;
+ flagshimm_handled_p = 1;
+ shimm_p = 1;
+ shimm = value;
+ insn |= marker << operand->shift;
+ /* insn |= value & 511; - done later */
+ }
+ /* We have to use a limm. If we've already seen one they must match. */
+ else if (!limm_p || limm == value)
+ {
+ limm_p = 1;
+ limm = value;
+ insn |= ARC_REG_LIMM << operand->shift;
+ /* The constant is stored later. */
+ }
+ else
+ {
+ *errmsg = _("unable to fit different valued constants into instruction");
+ }
+ }
+ else
+ {
+ /* We have to handle both normal and auxiliary registers. */
+
+ if (reg->type == AUXREG)
+ {
+ if (!(mods & ARC_MOD_AUXREG))
+ *errmsg = _("auxiliary register not allowed here");
+ else
+ {
+ insn |= ARC_REG_SHIMM << operand->shift;
+ insn |= reg->value << arc_operands[reg->type].shift;
+ }
+ }
+ else
+ {
+ /* We should never get an invalid register number here. */
+ if ((unsigned int) reg->value > 60)
+ {
+ /* xgettext:c-format */
+ sprintf (buf, _("invalid register number `%d'"), reg->value);
+ *errmsg = buf;
+ }
+ else
+ insn |= reg->value << operand->shift;
+ }
+ }
+
+ return insn;
+}
+
+/* Called when we see an 'f' flag. */
+
+static arc_insn
+insert_flag (insn, operand, mods, reg, value, errmsg)
+ arc_insn insn;
+ const struct arc_operand *operand;
+ int mods;
+ const struct arc_operand_value *reg;
+ long value;
+ const char **errmsg;
+{
+ /* We can't store anything in the insn until we've parsed the registers.
+ Just record the fact that we've got this flag. `insert_reg' will use it
+ to store the correct value (ARC_REG_SHIMM_UPDATE or bit 0x100). */
+ flag_p = 1;
+
+ return insn;
+}
+
+/* Called after completely building an insn to ensure the 'f' flag gets set
+ properly. This is needed because we don't know how to set this flag until
+ we've parsed the registers. */
+
+static arc_insn
+insert_flagfinish (insn, operand, mods, reg, value, errmsg)
+ arc_insn insn;
+ const struct arc_operand *operand;
+ int mods;
+ const struct arc_operand_value *reg;
+ long value;
+ const char **errmsg;
+{
+ if (flag_p && !flagshimm_handled_p)
+ {
+ if (shimm_p)
+ abort ();
+ flagshimm_handled_p = 1;
+ insn |= (1 << operand->shift);
+ }
+ return insn;
+}
+
+/* Called when we see a conditional flag (eg: .eq). */
+
+static arc_insn
+insert_cond (insn, operand, mods, reg, value, errmsg)
+ arc_insn insn;
+ const struct arc_operand *operand;
+ int mods;
+ const struct arc_operand_value *reg;
+ long value;
+ const char **errmsg;
+{
+ cond_p = 1;
+ insn |= (value & ((1 << operand->bits) - 1)) << operand->shift;
+ return insn;
+}
+
+/* Used in the "j" instruction to prevent constants from being interpreted as
+ shimm values (which the jump insn doesn't accept). This can also be used
+ to force the use of limm values in other situations (eg: ld r0,[foo] uses
+ this).
+ ??? The mechanism is sound. Access to it is a bit klunky right now. */
+
+static arc_insn
+insert_forcelimm (insn, operand, mods, reg, value, errmsg)
+ arc_insn insn;
+ const struct arc_operand *operand;
+ int mods;
+ const struct arc_operand_value *reg;
+ long value;
+ const char **errmsg;
+{
+ cond_p = 1;
+ return insn;
+}
+
+/* Used in ld/st insns to handle the shimm offset field. */
+
+static arc_insn
+insert_shimmoffset (insn, operand, mods, reg, value, errmsg)
+ arc_insn insn;
+ const struct arc_operand *operand;
+ int mods;
+ const struct arc_operand_value *reg;
+ long value;
+ const char **errmsg;
+{
+ long minval, maxval;
+ static char buf[100];
+
+ if (reg != NULL)
+ {
+ *errmsg = "register appears where shimm value expected";
+ }
+ else
+ {
+ /* This is *way* more general than necessary, but maybe some day it'll
+ be useful. */
+ if (operand->flags & ARC_OPERAND_SIGNED)
+ {
+ minval = -(1 << (operand->bits - 1));
+ maxval = (1 << (operand->bits - 1)) - 1;
+ }
+ else
+ {
+ minval = 0;
+ maxval = (1 << operand->bits) - 1;
+ }
+ if (value < minval || value > maxval)
+ {
+ /* xgettext:c-format */
+ sprintf (buf, _("value won't fit in range %ld - %ld"),
+ minval, maxval);
+ *errmsg = buf;
+ }
+ else
+ insn |= (value & ((1 << operand->bits) - 1)) << operand->shift;
+ }
+ return insn;
+}
+
+/* Used in ld/st insns when the shimm offset is 0. */
+
+static arc_insn
+insert_shimmzero (insn, operand, mods, reg, value, errmsg)
+ arc_insn insn;
+ const struct arc_operand *operand;
+ int mods;
+ const struct arc_operand_value *reg;
+ long value;
+ const char **errmsg;
+{
+ shimm_p = 1;
+ shimm = 0;
+ return insn;
+}
+
+/* Called at the end of processing normal insns (eg: add) to insert a shimm
+ value (if present) into the insn. */
+
+static arc_insn
+insert_shimmfinish (insn, operand, mods, reg, value, errmsg)
+ arc_insn insn;
+ const struct arc_operand *operand;
+ int mods;
+ const struct arc_operand_value *reg;
+ long value;
+ const char **errmsg;
+{
+ if (shimm_p)
+ insn |= (shimm & ((1 << operand->bits) - 1)) << operand->shift;
+ return insn;
+}
+
+/* Called at the end of processing normal insns (eg: add) to insert a limm
+ value (if present) into the insn.
+
+ Note that this function is only intended to handle instructions (with 4 byte
+ immediate operands). It is not intended to handle data. */
+
+/* ??? Actually, there's nothing for us to do as we can't call frag_more, the
+ caller must do that. The extract fns take a pointer to two words. The
+ insert fns could be converted and then we could do something useful, but
+ then the reloc handlers would have to know to work on the second word of
+ a 2 word quantity. That's too much so we don't handle them. */
+
+static arc_insn
+insert_limmfinish (insn, operand, mods, reg, value, errmsg)
+ arc_insn insn;
+ const struct arc_operand *operand;
+ int mods;
+ const struct arc_operand_value *reg;
+ long value;
+ const char **errmsg;
+{
+ if (limm_p)
+ ; /* nothing to do, gas does it */
+ return insn;
+}
+
+/* Called at the end of unary operand macros to copy the B field to C. */
+
+static arc_insn
+insert_unopmacro (insn, operand, mods, reg, value, errmsg)
+ arc_insn insn;
+ const struct arc_operand *operand;
+ int mods;
+ const struct arc_operand_value *reg;
+ long value;
+ const char **errmsg;
+{
+ insn |= ((insn >> ARC_SHIFT_REGB) & ARC_MASK_REG) << operand->shift;
+ return insn;
+}
+
+/* Insert a relative address for a branch insn (b, bl, or lp). */
+
+static arc_insn
+insert_reladdr (insn, operand, mods, reg, value, errmsg)
+ arc_insn insn;
+ const struct arc_operand *operand;
+ int mods;
+ const struct arc_operand_value *reg;
+ long value;
+ const char **errmsg;
+{
+ if (value & 3)
+ *errmsg = _("branch address not on 4 byte boundary");
+ insn |= ((value >> 2) & ((1 << operand->bits) - 1)) << operand->shift;
+ return insn;
+}
+
+/* Insert a limm value as a 26 bit address right shifted 2 into the insn.
+
+ Note that this function is only intended to handle instructions (with 4 byte
+ immediate operands). It is not intended to handle data. */
+
+/* ??? Actually, there's nothing for us to do as we can't call frag_more, the
+ caller must do that. The extract fns take a pointer to two words. The
+ insert fns could be converted and then we could do something useful, but
+ then the reloc handlers would have to know to work on the second word of
+ a 2 word quantity. That's too much so we don't handle them. */
+
+static arc_insn
+insert_absaddr (insn, operand, mods, reg, value, errmsg)
+ arc_insn insn;
+ const struct arc_operand *operand;
+ int mods;
+ const struct arc_operand_value *reg;
+ long value;
+ const char **errmsg;
+{
+ if (limm_p)
+ ; /* nothing to do */
+ return insn;
+}
+
+/* Extraction functions.
+
+ The suffix extraction functions' return value is redundant since it can be
+ obtained from (*OPVAL)->value. However, the boolean suffixes don't have
+ a suffix table entry for the "false" case, so values of zero must be
+ obtained from the return value (*OPVAL == NULL). */
+
+static const struct arc_operand_value *lookup_register (int type, long regno);
+
+/* Called by the disassembler before printing an instruction. */
+
+void
+arc_opcode_init_extract ()
+{
+ flag_p = 0;
+ flagshimm_handled_p = 0;
+ shimm_p = 0;
+ limm_p = 0;
+}
+
+/* As we're extracting registers, keep an eye out for the 'f' indicator
+ (ARC_REG_SHIMM_UPDATE). If we find a register (not a constant marker,
+ like ARC_REG_SHIMM), set OPVAL so our caller will know this is a register.
+
+ We must also handle auxiliary registers for lr/sr insns. They are just
+ constants with special names. */
+
+static long
+extract_reg (insn, operand, mods, opval, invalid)
+ arc_insn *insn;
+ const struct arc_operand *operand;
+ int mods;
+ const struct arc_operand_value **opval;
+ int *invalid;
+{
+ int regno;
+ long value;
+
+ /* Get the register number. */
+ regno = (insn[0] >> operand->shift) & ((1 << operand->bits) - 1);
+
+ /* Is it a constant marker? */
+ if (regno == ARC_REG_SHIMM)
+ {
+ value = insn[0] & 511;
+ if ((operand->flags & ARC_OPERAND_SIGNED)
+ && (value & 256))
+ value -= 512;
+ flagshimm_handled_p = 1;
+ }
+ else if (regno == ARC_REG_SHIMM_UPDATE)
+ {
+ value = insn[0] & 511;
+ if ((operand->flags & ARC_OPERAND_SIGNED)
+ && (value & 256))
+ value -= 512;
+ flag_p = 1;
+ flagshimm_handled_p = 1;
+ }
+ else if (regno == ARC_REG_LIMM)
+ {
+ value = insn[1];
+ limm_p = 1;
+ }
+ /* It's a register, set OPVAL (that's the only way we distinguish registers
+ from constants here). */
+ else
+ {
+ const struct arc_operand_value *reg = lookup_register (REG, regno);
+
+ if (reg == NULL)
+ abort ();
+ if (opval != NULL)
+ *opval = reg;
+ value = regno;
+ }
+
+ /* If this field takes an auxiliary register, see if it's a known one. */
+ if ((mods & ARC_MOD_AUXREG)
+ && ARC_REG_CONSTANT_P (regno))
+ {
+ const struct arc_operand_value *reg = lookup_register (AUXREG, value);
+
+ /* This is really a constant, but tell the caller it has a special
+ name. */
+ if (reg != NULL && opval != NULL)
+ *opval = reg;
+ }
+
+ return value;
+}
+
+/* Return the value of the "flag update" field for shimm insns.
+ This value is actually stored in the register field. */
+
+static long
+extract_flag (insn, operand, mods, opval, invalid)
+ arc_insn *insn;
+ const struct arc_operand *operand;
+ int mods;
+ const struct arc_operand_value **opval;
+ int *invalid;
+{
+ int f;
+ const struct arc_operand_value *val;
+
+ if (flagshimm_handled_p)
+ f = flag_p != 0;
+ else
+ f = (insn[0] & (1 << operand->shift)) != 0;
+
+ /* There is no text for zero values. */
+ if (f == 0)
+ return 0;
+
+ val = arc_opcode_lookup_suffix (operand, 1);
+ if (opval != NULL && val != NULL)
+ *opval = val;
+ return val->value;
+}
+
+/* Extract the condition code (if it exists).
+ If we've seen a shimm value in this insn (meaning that the insn can't have
+ a condition code field), then we don't store anything in OPVAL and return
+ zero. */
+
+static long
+extract_cond (insn, operand, mods, opval, invalid)
+ arc_insn *insn;
+ const struct arc_operand *operand;
+ int mods;
+ const struct arc_operand_value **opval;
+ int *invalid;
+{
+ long cond;
+ const struct arc_operand_value *val;
+
+ if (flagshimm_handled_p)
+ return 0;
+
+ cond = (insn[0] >> operand->shift) & ((1 << operand->bits) - 1);
+ val = arc_opcode_lookup_suffix (operand, cond);
+
+ /* Ignore NULL values of `val'. Several condition code values are
+ reserved for extensions. */
+ if (opval != NULL && val != NULL)
+ *opval = val;
+ return cond;
+}
+
+/* Extract a branch address.
+ We return the value as a real address (not right shifted by 2). */
+
+static long
+extract_reladdr (insn, operand, mods, opval, invalid)
+ arc_insn *insn;
+ const struct arc_operand *operand;
+ int mods;
+ const struct arc_operand_value **opval;
+ int *invalid;
+{
+ long addr;
+
+ addr = (insn[0] >> operand->shift) & ((1 << operand->bits) - 1);
+ if ((operand->flags & ARC_OPERAND_SIGNED)
+ && (addr & (1 << (operand->bits - 1))))
+ addr -= 1 << operand->bits;
+
+ return addr << 2;
+}
+
+/* The only thing this does is set the `invalid' flag if B != C.
+ This is needed because the "mov" macro appears before it's real insn "and"
+ and we don't want the disassembler to confuse them. */
+
+static long
+extract_unopmacro (insn, operand, mods, opval, invalid)
+ arc_insn *insn;
+ const struct arc_operand *operand;
+ int mods;
+ const struct arc_operand_value **opval;
+ int *invalid;
+{
+ /* This misses the case where B == ARC_REG_SHIMM_UPDATE &&
+ C == ARC_REG_SHIMM (or vice versa). No big deal. Those insns will get
+ printed as "and"s. */
+ if (((insn[0] >> ARC_SHIFT_REGB) & ARC_MASK_REG)
+ != ((insn[0] >> ARC_SHIFT_REGC) & ARC_MASK_REG))
+ if (invalid != NULL)
+ *invalid = 1;
+
+ return 0;
+}
+
+/* Utility for the extraction functions to return the index into
+ `arc_suffixes'. */
+
+const struct arc_operand_value *
+arc_opcode_lookup_suffix (type, value)
+ const struct arc_operand *type;
+ int value;
+{
+ register const struct arc_operand_value *v,*end;
+
+ /* ??? This is a little slow and can be speeded up. */
+
+ for (v = arc_suffixes, end = arc_suffixes + arc_suffixes_count; v < end; ++v)
+ if (type == &arc_operands[v->type]
+ && value == v->value)
+ return v;
+ return 0;
+}
+
+static const struct arc_operand_value *
+lookup_register (type, regno)
+ int type;
+ long regno;
+{
+ register const struct arc_operand_value *r,*end;
+
+ if (type == REG)
+ return &arc_reg_names[regno];
+
+ /* ??? This is a little slow and can be speeded up. */
+
+ for (r = arc_reg_names, end = arc_reg_names + arc_reg_names_count;
+ r < end; ++r)
+ if (type == r->type && regno == r->value)
+ return r;
+ return 0;
+}