freebsd-skq/gnu/usr.bin/as/config/tc-m68k.c

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/* tc-m68k.c All the m68020 specific stuff in one convenient, huge,
slow to compile, easy to find file.
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Copyright (C) 1987, 1991, 1992 Free Software Foundation, Inc.
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This file is part of GAS, the GNU Assembler.
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GAS 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.
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GAS 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.
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You should have received a copy of the GNU General Public License
along with GAS; see the file COPYING. If not, write to
the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
#include <ctype.h>
#include "as.h"
#include "obstack.h"
/* note that this file includes real declarations and thus can only be included by one source file per executable. */
#include "opcode/m68k.h"
#ifdef TE_SUN
/* This variable contains the value to write out at the beginning of
the a.out file. The 2<<16 means that this is a 68020 file instead
of an old-style 68000 file */
long omagic = 2<<16|OMAGIC; /* Magic byte for header file */
#else
long omagic = OMAGIC;
#endif
/* This array holds the chars that always start a comment. If the
pre-processor is disabled, these aren't very useful */
const char comment_chars[] = "|";
/* This array holds the chars that only start a comment at the beginning of
a line. If the line seems to have the form '# 123 filename'
.line and .file directives will appear in the pre-processed output */
/* Note that input_file.c hand checks for '#' at the beginning of the
first line of the input file. This is because the compiler outputs
#NO_APP at the beginning of its output. */
/* Also note that comments like this one will always work. */
const char line_comment_chars[] = "#";
/* Chars that can be used to separate mant from exp in floating point nums */
const char EXP_CHARS[] = "eE";
/* Chars that mean this number is a floating point constant */
/* As in 0f12.456 */
/* or 0d1.2345e12 */
const char FLT_CHARS[] = "rRsSfFdDxXeEpP";
/* Also be aware that MAXIMUM_NUMBER_OF_CHARS_FOR_FLOAT may have to be
changed in read.c. Ideally it shouldn't have to know about it at all,
but nothing is ideal around here.
*/
const int md_reloc_size = 8; /* Size of relocation record */
/* Its an arbitrary name: This means I don't approve of it */
/* See flames below */
static struct obstack robyn;
#define TAB(x,y) (((x)<<2)+(y))
#define TABTYPE(xy) ((xy) >> 2)
#define BYTE 0
#define SHORT 1
#define LONG 2
#define SZ_UNDEF 3
#define BRANCH 1
#define FBRANCH 2
#define PCREL 3
#define BCC68000 4
#define DBCC 5
#define PCLEA 6
/* Operands we can parse: (And associated modes)
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numb: 8 bit num
numw: 16 bit num
numl: 32 bit num
dreg: data reg 0-7
reg: address or data register
areg: address register
apc: address register, PC, ZPC or empty string
num: 16 or 32 bit num
num2: like num
sz: w or l if omitted, l assumed
scale: 1 2 4 or 8 if omitted, 1 assumed
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7.4 IMMED #num --> NUM
0.? DREG dreg --> dreg
1.? AREG areg --> areg
2.? AINDR areg@ --> *(areg)
3.? AINC areg@+ --> *(areg++)
4.? ADEC areg@- --> *(--areg)
5.? AOFF apc@(numw) --> *(apc+numw) -- empty string and ZPC not allowed here
6.? AINDX apc@(num,reg:sz:scale) --> *(apc+num+reg*scale)
6.? AINDX apc@(reg:sz:scale) --> same, with num=0
6.? APODX apc@(num)@(num2,reg:sz:scale) --> *(*(apc+num)+num2+reg*scale)
6.? APODX apc@(num)@(reg:sz:scale) --> same, with num2=0
6.? AMIND apc@(num)@(num2) --> *(*(apc+num)+num2) (previous mode without an index reg)
6.? APRDX apc@(num,reg:sz:scale)@(num2) --> *(*(apc+num+reg*scale)+num2)
6.? APRDX apc@(reg:sz:scale)@(num2) --> same, with num=0
7.0 ABSL num:sz --> *(num)
num --> *(num) (sz L assumed)
*** MSCR otherreg --> Magic
With -l option
5.? AOFF apc@(num) --> *(apc+num) -- empty string and ZPC not allowed here still
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examples:
#foo #0x35 #12
d2
a4
a3@
a5@+
a6@-
a2@(12) pc@(14)
a1@(5,d2:w:1) @(45,d6:l:4)
pc@(a2) @(d4)
etc...
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#name@(numw) -->turn into PC rel mode
apc@(num8,reg:sz:scale) --> *(apc+num8+reg*scale)
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*/
enum operand_type {
IMMED = 1,
DREG,
AREG,
AINDR,
ADEC,
AINC,
AOFF,
AINDX,
APODX,
AMIND,
APRDX,
ABSL,
MSCR,
REGLST,
};
struct m68k_exp {
char *e_beg;
char *e_end;
expressionS e_exp;
short e_siz; /* 0 == default 1 == short/byte 2 == word 3 == long */
};
/* DATA and ADDR have to be contiguous, so that reg-DATA gives 0-7 == data reg,
8-15 == addr reg for operands that take both types */
enum _register {
DATA = 1, /* 1- 8 == data registers 0-7 */
DATA0 = DATA,
DATA1,
DATA2,
DATA3,
DATA4,
DATA5,
DATA6,
DATA7,
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ADDR,
ADDR0 = ADDR,
ADDR1,
ADDR2,
ADDR3,
ADDR4,
ADDR5,
ADDR6,
ADDR7,
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/* Note that COPNUM == processor #1 -- COPNUM+7 == #8, which stores as 000 */
/* I think... */
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SP = ADDR7,
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FPREG, /* Eight FP registers */
FP0 = FPREG,
FP1,
FP2,
FP3,
FP4,
FP5,
FP6,
FP7,
COPNUM = (FPREG+8), /* Co-processor #1-#8 */
COP0 = COPNUM,
COP1,
COP2,
COP3,
COP4,
COP5,
COP6,
COP7,
PC, /* Program counter */
ZPC, /* Hack for Program space, but 0 addressing */
SR, /* Status Reg */
CCR, /* Condition code Reg */
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/* These have to be in order for the movec instruction to work. */
USP, /* User Stack Pointer */
ISP, /* Interrupt stack pointer */
SFC,
DFC,
CACR,
VBR,
CAAR,
MSP,
ITT0,
ITT1,
DTT0,
DTT1,
MMUSR,
TC,
SRP,
URP,
/* end of movec ordering constraints */
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FPI,
FPS,
FPC,
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DRP,
CRP,
CAL,
VAL,
SCC,
AC,
BAD,
BAD0 = BAD,
BAD1,
BAD2,
BAD3,
BAD4,
BAD5,
BAD6,
BAD7,
BAC,
BAC0 = BAC,
BAC1,
BAC2,
BAC3,
BAC4,
BAC5,
BAC6,
BAC7,
PSR,
PCSR,
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IC, /* instruction cache token */
DC, /* data cache token */
NC, /* no cache token */
BC, /* both caches token */
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};
/* Internal form of an operand. */
struct m68k_op {
char *error; /* Couldn't parse it */
enum operand_type mode; /* What mode this instruction is in. */
enum _register reg; /* Base register */
struct m68k_exp *con1;
int ireg; /* Index register */
int isiz; /* 0 == unspec 1 == byte(?) 2 == short 3 == long */
int imul; /* Multipy ireg by this (1,2,4,or 8) */
struct m68k_exp *con2;
};
/* internal form of a 68020 instruction */
struct m68k_it {
char *error;
char *args; /* list of opcode info */
int numargs;
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int numo; /* Number of shorts in opcode */
short opcode[11];
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struct m68k_op operands[6];
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int nexp; /* number of exprs in use */
struct m68k_exp exprs[4];
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int nfrag; /* Number of frags we have to produce */
struct {
int fragoff; /* Where in the current opcode[] the frag ends */
symbolS *fadd;
long foff;
int fragty;
} fragb[4];
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int nrel; /* Num of reloc strucs in use */
struct {
int n;
symbolS *add,
*sub,
*got;
long off;
char wid;
char pcrel;
enum reloc_type rtype;
} reloc[5]; /* Five is enough??? */
};
#define cpu_of_arch(x) ((x) & m68000up)
#define float_of_arch(x) ((x) & mfloat)
#define mmu_of_arch(x) ((x) & mmmu)
static struct m68k_it the_ins; /* the instruction being assembled */
/* Macros for adding things to the m68k_it struct */
#define addword(w) the_ins.opcode[the_ins.numo++]=(w)
/* Like addword, but goes BEFORE general operands */
#define insop(w) { \
int z; \
for (z=the_ins.numo;z>opcode->m_codenum;--z) \
the_ins.opcode[z]=the_ins.opcode[z-1]; \
for (z=0;z<the_ins.nrel;z++) \
the_ins.reloc[z].n+=2; \
the_ins.opcode[opcode->m_codenum]=w; \
the_ins.numo++; \
}
#define add_exp(beg,end) (the_ins.exprs[the_ins.nexp].e_beg=beg, \
the_ins.exprs[the_ins.nexp].e_end=end, \
&the_ins.exprs[the_ins.nexp++] \
)
/* The numo+1 kludge is so we can hit the low order byte of the prev word. Blecch*/
#define add_fix(width, exp, pc_rel, r_type) { \
the_ins.reloc[the_ins.nrel].n= ((width) == 'B') ? (the_ins.numo*2-1) : \
(((width) == 'b') ? ((the_ins.numo-1)*2) : (the_ins.numo*2)); \
the_ins.reloc[the_ins.nrel].add=adds((exp)); \
the_ins.reloc[the_ins.nrel].sub=subs((exp)); \
the_ins.reloc[the_ins.nrel].off=offs((exp)); \
the_ins.reloc[the_ins.nrel].got=gots((exp)); \
the_ins.reloc[the_ins.nrel].wid=width; \
the_ins.reloc[the_ins.nrel].pcrel=pc_rel; \
the_ins.reloc[the_ins.nrel++].rtype=r_type; \
}
#define add_frag(add,off,type) {\
the_ins.fragb[the_ins.nfrag].fragoff=the_ins.numo;\
the_ins.fragb[the_ins.nfrag].fadd=add;\
the_ins.fragb[the_ins.nfrag].foff=off;\
the_ins.fragb[the_ins.nfrag++].fragty=type;\
}
#define isvar(exp) ((exp) && (adds(exp) || subs(exp) || gots(exp)))
#define seg(exp) ((exp)->e_exp.X_seg)
#define adds(exp) ((exp)->e_exp.X_add_symbol)
#define subs(exp) ((exp)->e_exp.X_subtract_symbol)
#define offs(exp) ((exp)->e_exp.X_add_number)
#define gots(exp) ((exp)->e_exp.X_got_symbol)
struct m68k_incant {
char *m_operands;
unsigned long m_opcode;
short m_opnum;
short m_codenum;
enum m68k_architecture m_arch;
struct m68k_incant *m_next;
};
#define getone(x) ((((x)->m_opcode)>>16)&0xffff)
#define gettwo(x) (((x)->m_opcode)&0xffff)
#if __STDC__ == 1
static char *crack_operand(char *str, struct m68k_op *opP);
static int get_num(struct m68k_exp *exp, int ok);
static int get_regs(int i, char *str, struct m68k_op *opP);
static int reverse_16_bits(int in);
static int reverse_8_bits(int in);
static int try_index(char **s, struct m68k_op *opP);
static void install_gen_operand(int mode, int val);
static void install_operand(int mode, int val);
static void s_bss(void);
static void s_data1(void);
static void s_data2(void);
static void s_even(void);
static void s_proc(void);
#else /* not __STDC__ */
static char *crack_operand();
static int get_num();
static int get_regs();
static int reverse_16_bits();
static int reverse_8_bits();
static int try_index();
static void install_gen_operand();
static void install_operand();
static void s_bss();
static void s_data1();
static void s_data2();
static void s_even();
static void s_proc();
#endif /* not __STDC__ */
static enum m68k_architecture current_architecture = 0;
/* BCC68000 is for patching in an extra jmp instruction for long offsets
on the 68000. The 68000 doesn't support long branches with branchs */
/* This table desribes how you change sizes for the various types of variable
size expressions. This version only supports two kinds. */
/* Note that calls to frag_var need to specify the maximum expansion needed */
/* This is currently 10 bytes for DBCC */
/* The fields are:
How far Forward this mode will reach:
How far Backward this mode will reach:
How many bytes this mode will add to the size of the frag
Which mode to go to if the offset won't fit in this one
*/
const relax_typeS
md_relax_table[] = {
{ 1, 1, 0, 0 }, /* First entries aren't used */
{ 1, 1, 0, 0 }, /* For no good reason except */
{ 1, 1, 0, 0 }, /* that the VAX doesn't either */
{ 1, 1, 0, 0 },
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{ (127), (-128), 0, TAB(BRANCH,SHORT)},
{ (32767), (-32768), 2, TAB(BRANCH,LONG) },
{ 0, 0, 4, 0 },
{ 1, 1, 0, 0 },
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{ 1, 1, 0, 0 }, /* FBRANCH doesn't come BYTE */
{ (32767), (-32768), 2, TAB(FBRANCH,LONG)},
{ 0, 0, 4, 0 },
{ 1, 1, 0, 0 },
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{ 1, 1, 0, 0 }, /* PCREL doesn't come BYTE */
{ (32767), (-32768), 2, TAB(PCREL,LONG)},
{ 0, 0, 4, 0 },
{ 1, 1, 0, 0 },
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{ (127), (-128), 0, TAB(BCC68000,SHORT)},
{ (32767), (-32768), 2, TAB(BCC68000,LONG) },
{ 0, 0, 6, 0 }, /* jmp long space */
{ 1, 1, 0, 0 },
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{ 1, 1, 0, 0 }, /* DBCC doesn't come BYTE */
{ (32767), (-32768), 2, TAB(DBCC,LONG) },
{ 0, 0, 10, 0 }, /* bra/jmp long space */
{ 1, 1, 0, 0 },
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{ 1, 1, 0, 0 }, /* PCLEA doesn't come BYTE */
{ 32767, -32768, 2, TAB(PCLEA,LONG) },
{ 0, 0, 6, 0 },
{ 1, 1, 0, 0 },
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};
/* These are the machine dependent pseudo-ops. These are included so
the assembler can work on the output from the SUN C compiler, which
generates these.
*/
/* This table describes all the machine specific pseudo-ops the assembler
has to support. The fields are:
pseudo-op name without dot
function to call to execute this pseudo-op
Integer arg to pass to the function
*/
const pseudo_typeS md_pseudo_table[] = {
{ "data1", s_data1, 0 },
{ "data2", s_data2, 0 },
{ "bss", s_bss, 0 },
{ "even", s_even, 0 },
{ "skip", s_space, 0 },
{ "proc", s_proc, 0 },
{ 0, 0, 0 }
};
/* #define isbyte(x) ((x) >= -128 && (x) <= 127) */
/* #define isword(x) ((x) >= -32768 && (x) <= 32767) */
#define issbyte(x) ((x) >= -128 && (x) <= 127)
#define isubyte(x) ((x) >= 0 && (x) <= 255)
#define issword(x) ((x) >= -32768 && (x) <= 32767)
#define isuword(x) ((x) >= 0 && (x) <= 65535)
#define isbyte(x) ((x) >= -128 && (x) <= 255)
#define isword(x) ((x) >= -32768 && (x) <= 65535)
#define islong(x) (1)
extern char *input_line_pointer;
enum {
FAIL = 0,
OK = 1,
};
/* JF these tables here are for speed at the expense of size */
/* You can replace them with the #if 0 versions if you really
need space and don't mind it running a bit slower */
static char mklower_table[256];
#define mklower(c) (mklower_table[(unsigned char)(c)])
static char notend_table[256];
static char alt_notend_table[256];
#define notend(s) (!(notend_table[(unsigned char)(*s)] || (*s == ':' &&\
alt_notend_table[(unsigned char)(s[1])])))
#if 0
#define mklower(c) (isupper(c) ? tolower(c) : c)
#endif
/* Handle the extra arg for fix_new when doing PIC */
#ifdef PIC
#define FIX_NO_RELOC NO_RELOC, NULL
#else
#define FIX_NO_RELOC NO_RELOC
#endif /* PIC */
/* JF modified this to handle cases where the first part of a symbol name
looks like a register */
/*
* m68k_reg_parse() := if it looks like a register, return it's token &
* advance the pointer.
*/
enum _register m68k_reg_parse(ccp)
register char **ccp;
{
#ifndef MAX_REG_NAME_LEN
#define MAX_REG_NAME_LEN (6)
#endif /* MAX_REG_NAME_LEN */
register char c[MAX_REG_NAME_LEN];
char *p, *q;
register int n = 0,
ret = FAIL;
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c[0] = mklower(ccp[0][0]);
#ifdef REGISTER_PREFIX
if (c[0] != REGISTER_PREFIX) {
return(FAIL);
} /* need prefix */
#endif
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for (p = c, q = ccp[0]; p < c + MAX_REG_NAME_LEN; ++p, ++q)
{
if (*q == 0)
{
*p = 0;
break;
}
else
*p = mklower(*q);
} /* downcase */
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switch (c[0]) {
case 'a':
if (c[1] >= '0' && c[1] <= '7') {
n=2;
ret=ADDR+c[1]-'0';
}
#ifndef NO_68851
else if (c[1] == 'c') {
n = 2;
ret = AC;
}
#endif
break;
#ifndef NO_68851
case 'b':
if (c[1] == 'a') {
if (c[2] == 'd') {
if (c[3] >= '0' && c[3] <= '7') {
n = 4;
ret = BAD + c[3] - '0';
}
} /* BAD */
if (c[2] == 'c') {
if (c[3] >= '0' && c[3] <= '7') {
n = 4;
ret = BAC + c[3] - '0';
}
} /* BAC */
} else if (c[1] == 'c') {
n = 2;
ret = BC;
} /* BC */
break;
#endif
case 'c':
#ifndef NO_68851
if (c[1] == 'a' && c[2] == 'l') {
n = 3;
ret = CAL;
} else
#endif
/* This supports both CCR and CC as the ccr reg. */
if (c[1] == 'c' && c[2] == 'r') {
n=3;
ret = CCR;
} else if (c[1] == 'c') {
n=2;
ret = CCR;
} else if (c[1] == 'a' && (c[2] == 'a' || c[2] == 'c') && c[3] == 'r') {
n=4;
ret = c[2] == 'a' ? CAAR : CACR;
}
#ifndef NO_68851
else if (c[1] == 'r' && c[2] == 'p') {
n = 3;
ret = (CRP);
}
#endif
break;
case 'd':
if (c[1] >= '0' && c[1] <= '7') {
n = 2;
ret = DATA + c[1] - '0';
} else if (c[1] == 'f' && c[2] == 'c') {
n = 3;
ret = DFC;
} else if (c[1] == 'c') {
n = 2;
ret = DC;
} else if (c[1] == 't' && c[2] == 't') {
if ('0' <= c[3] && c[3] <= '1') {
n = 4;
ret = DTT0 + (c[3] - '0');
} /* DTT[01] */
}
#ifndef NO_68851
else if (c[1] == 'r' && c[2] == 'p') {
n = 3;
ret = (DRP);
}
#endif
break;
case 'f':
if (c[1] == 'p') {
if (c[2] >= '0' && c[2] <= '7') {
n=3;
ret = FPREG+c[2]-'0';
if (c[3] == ':')
ccp[0][3]=',';
} else if (c[2] == 'i') {
n=3;
ret = FPI;
} else if (c[2] == 's') {
n= (c[3] == 'r' ? 4 : 3);
ret = FPS;
} else if (c[2] == 'c') {
n= (c[3] == 'r' ? 4 : 3);
ret = FPC;
}
}
break;
case 'i':
if (c[1] == 's' && c[2] == 'p') {
n = 3;
ret = ISP;
} else if (c[1] == 'c') {
n = 2;
ret = IC;
} else if (c[1] == 't' && c[2] == 't') {
if ('0' <= c[3] && c[3] <= '1') {
n = 4;
ret = ITT0 + (c[3] - '0');
} /* ITT[01] */
}
break;
case 'm':
if (c[1] == 's' && c[2] == 'p') {
n = 3;
ret = MSP;
} else if (c[1] == 'm' && c[2] == 'u' && c[3] == 's' && c[4] == 'r') {
n = 5;
ret = MMUSR;
}
break;
case 'n':
if (c[1] == 'c') {
n = 2;
ret = NC;
}
break;
case 'p':
if (c[1] == 'c') {
#ifndef NO_68851
if (c[2] == 's' && c[3] == 'r') {
n=4;
ret = (PCSR);
} else
#endif
{
n=2;
ret = PC;
}
}
#ifndef NO_68851
else if (c[1] == 's' && c[2] == 'r') {
n = 3;
ret = (PSR);
}
#endif
break;
case 's':
#ifndef NO_68851
if (c[1] == 'c' && c[2] == 'c') {
n = 3;
ret = (SCC);
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} else
#endif
if (c[1] == 'r') {
if (c[2] == 'p') {
n = 3;
ret = SRP;
} else {
n = 2;
ret = SR;
} /* srp else sr */
} else if (c[1] == 'p') {
n = 2;
ret = SP;
} else if (c[1] == 'f' && c[2] == 'c') {
n = 3;
ret = SFC;
}
break;
case 't':
if (c[1] == 'c') {
n = 2;
ret = TC;
}
break;
case 'u':
if (c[1] == 's' && c[2] == 'p') {
n=3;
ret = USP;
} else if (c[1] == 'r' && c[2] == 'p') {
n = 3;
ret = URP;
}
break;
case 'v':
#ifndef NO_68851
if (c[1] == 'a' && c[2] == 'l') {
n = 3;
ret = (VAL);
} else
#endif
if (c[1] == 'b' && c[2] == 'r') {
n=3;
ret = VBR;
}
break;
case 'z':
if (c[1] == 'p' && c[2] == 'c') {
n=3;
ret = ZPC;
}
break;
default:
break;
}
if (n) {
#ifdef REGISTER_PREFIX
n++;
#endif
if (isalnum(ccp[0][n]) || ccp[0][n] == '_')
ret=FAIL;
else
ccp[0]+=n;
} else
ret = FAIL;
return ret;
}
#define SKIP_WHITE() { str++; if (*str == ' ') str++;}
/*
* m68k_ip_op := '#' + <anything>
* | <register> + range_sep + get_regs
* ;
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*
* range_sep := '/' | '-' ;
*
* SKIP_WHITE := <empty> | ' ' ;
*
*/
int
m68k_ip_op(str,opP)
char *str;
register struct m68k_op *opP;
{
char *strend;
long i;
char *parse_index();
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if (*str == ' ') {
str++;
} /* Find the beginning of the string */
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if (!*str) {
opP->error="Missing operand";
return FAIL;
} /* Out of gas */
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for (strend = str; *strend; strend++) ;;
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--strend;
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if (*str == '#') {
str++;
opP->con1=add_exp(str,strend);
opP->mode=IMMED;
return OK;
} /* Guess what: A constant. Shar and enjoy */
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i = m68k_reg_parse(&str);
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/* is a register, is exactly a register, and is followed by '@' */
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if ((i == FAIL || *str != '\0') && *str != '@') {
char *stmp;
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if (i != FAIL && (*str == '/' || *str == '-')) {
opP->mode=REGLST;
return(get_regs(i,str,opP));
}
if ((stmp=strchr(str,'@')) != '\0') {
opP->con1=add_exp(str,stmp-1);
if (stmp == strend) {
opP->mode=AINDX;
return(OK);
}
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if ((current_architecture & m68020up) == 0) {
return(FAIL);
} /* if target is not a '20 or better */
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stmp++;
if (*stmp++ != '(' || *strend-- != ')') {
opP->error="Malformed operand";
return(FAIL);
}
i=try_index(&stmp,opP);
opP->con2=add_exp(stmp,strend);
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if (i == FAIL) {
opP->mode=AMIND;
} else {
opP->mode=APODX;
}
return(OK);
} /* if there's an '@' */
opP->mode = ABSL;
opP->con1 = add_exp(str,strend);
return(OK);
} /* not a register, not exactly a register, or no '@' */
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opP->reg=i;
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if (*str == '\0') {
if (i >= DATA+0 && i <= DATA+7)
opP->mode=DREG;
else if (i >= ADDR+0 && i <= ADDR+7)
opP->mode=AREG;
else
opP->mode=MSCR;
return OK;
}
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if ((i<ADDR+0 || i>ADDR+7) && i != PC && i != ZPC && i != FAIL) { /* Can't indirect off non address regs */
opP->error="Invalid indirect register";
return FAIL;
}
know(*str == '@');
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str++;
switch (*str) {
case '\0':
opP->mode=AINDR;
return OK;
case '-':
opP->mode=ADEC;
return OK;
case '+':
opP->mode=AINC;
return OK;
case '(':
str++;
break;
default:
opP->error="Junk after indirect";
return FAIL;
}
/* Some kind of indexing involved. Lets find out how bad it is */
i=try_index(&str,opP);
/* Didn't start with an index reg, maybe its offset or offset,reg */
if (i == FAIL) {
char *beg_str;
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beg_str=str;
for (i=1;i;) {
switch (*str++) {
case '\0':
opP->error="Missing )";
return FAIL;
case ',': i=0; break;
case '(': i++; break;
case ')': --i; break;
}
}
/* if (str[-3] == ':') {
int siz;
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switch (str[-2]) {
case 'b':
case 'B':
siz=1;
break;
case 'w':
case 'W':
siz=2;
break;
case 'l':
case 'L':
siz=3;
break;
default:
opP->error="Specified size isn't :w or :l";
return FAIL;
}
opP->con1=add_exp(beg_str,str-4);
opP->con1->e_siz=siz;
} else */
opP->con1=add_exp(beg_str,str-2);
/* Should be offset,reg */
if (str[-1] == ',') {
i=try_index(&str,opP);
if (i == FAIL) {
opP->error="Malformed index reg";
return FAIL;
}
}
}
/* We've now got offset) offset,reg) or reg) */
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if (*str == '\0') {
/* Th-the-thats all folks */
if (opP->reg == FAIL) opP->mode = AINDX; /* Other form of indirect */
else if (opP->ireg == FAIL) opP->mode = AOFF;
else opP->mode = AINDX;
return(OK);
}
/* Next thing had better be another @ */
if (*str != '@' || str[1] != '(') {
opP->error = "junk after indirect";
return(FAIL);
}
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if ((current_architecture & m68020up) == 0) {
return(FAIL);
} /* if target is not a '20 or better */
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str+=2;
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if (opP->ireg != FAIL) {
opP->mode = APRDX;
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i = try_index(&str, opP);
if (i != FAIL) {
opP->error = "Two index registers! not allowed!";
return(FAIL);
}
} else {
i = try_index(&str, opP);
}
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if (i == FAIL) {
char *beg_str;
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beg_str = str;
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for (i = 1; i; ) {
switch (*str++) {
case '\0':
opP->error="Missing )";
return(FAIL);
case ',': i=0; break;
case '(': i++; break;
case ')': --i; break;
}
}
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opP->con2=add_exp(beg_str,str-2);
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if (str[-1] == ',') {
if (opP->ireg != FAIL) {
opP->error = "Can't have two index regs";
return(FAIL);
}
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i = try_index(&str, opP);
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if (i == FAIL) {
opP->error = "malformed index reg";
return(FAIL);
}
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opP->mode = APODX;
} else if (opP->ireg != FAIL) {
opP->mode = APRDX;
} else {
opP->mode = AMIND;
}
} else {
opP->mode = APODX;
}
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if (*str != '\0') {
opP->error="Junk after indirect";
return FAIL;
}
return(OK);
} /* m68k_ip_op() */
/*
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*
* try_index := data_or_address_register + ')' + SKIP_W
* | data_or_address_register + ':' + SKIP_W + size_spec + SKIP_W + multiplier + ')' + SKIP_W
*
* multiplier := <empty>
* | ':' + multiplier_number
* ;
*
* multiplier_number := '1' | '2' | '4' | '8' ;
*
* size_spec := 'l' | 'L' | 'w' | 'W' ;
*
* SKIP_W := <empty> | ' ' ;
*
*/
static int try_index(s,opP)
char **s;
struct m68k_op *opP;
{
register int i;
char *ss;
#define SKIP_W() { ss++; if (*ss == ' ') ss++;}
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ss= *s;
/* SKIP_W(); */
i=m68k_reg_parse(&ss);
if (!(i >= DATA+0 && i <= ADDR+7)) { /* if i is not DATA or ADDR reg */
*s=ss;
return FAIL;
}
opP->ireg=i;
/* SKIP_W(); */
if (*ss == ')') {
opP->isiz=0;
opP->imul=1;
SKIP_W();
*s=ss;
return OK;
}
if (*ss != ':') {
opP->error="Missing : in index register";
*s=ss;
return FAIL;
}
SKIP_W();
switch (*ss) {
case 'w':
case 'W':
opP->isiz=2;
break;
case 'l':
case 'L':
opP->isiz=3;
break;
default:
opP->error="Index register size spec not :w or :l";
*s=ss;
return FAIL;
}
SKIP_W();
if (*ss == ':') {
SKIP_W();
switch (*ss) {
case '1':
case '2':
case '4':
case '8':
opP->imul= *ss-'0';
break;
default:
opP->error="index multiplier not 1, 2, 4 or 8";
*s=ss;
return FAIL;
}
SKIP_W();
} else opP->imul=1;
if (*ss != ')') {
opP->error="Missing )";
*s=ss;
return FAIL;
}
SKIP_W();
*s=ss;
return OK;
} /* try_index() */
#ifdef TEST1 /* TEST1 tests m68k_ip_op(), which parses operands */
main()
{
char buf[128];
struct m68k_op thark;
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for (;;) {
if (!gets(buf))
break;
memset(&thark, '\0', sizeof(thark));
if (!m68k_ip_op(buf,&thark)) printf("FAIL:");
if (thark.error)
printf("op1 error %s in %s\n",thark.error,buf);
printf("mode %d, reg %d, ",thark.mode,thark.reg);
if (thark.b_const)
printf("Constant: '%.*s',",1+thark.e_const-thark.b_const,thark.b_const);
printf("ireg %d, isiz %d, imul %d ",thark.ireg,thark.isiz,thark.imul);
if (thark.b_iadd)
printf("Iadd: '%.*s'",1+thark.e_iadd-thark.b_iadd,thark.b_iadd);
printf("\n");
}
exit(0);
}
#endif
static struct hash_control* op_hash = NULL; /* handle of the OPCODE hash table
NULL means any use before m68k_ip_begin()
will crash */
/*
* m 6 8 k _ i p ( )
*
* This converts a string into a 68k instruction.
* The string must be a bare single instruction in sun format
* with RMS-style 68020 indirects
* (example: )
*
* It provides some error messages: at most one fatal error message (which
* stops the scan) and at most one warning message for each operand.
* The 68k instruction is returned in exploded form, since we have no
* knowledge of how you parse (or evaluate) your expressions.
* We do however strip off and decode addressing modes and operation
* mnemonic.
*
* This function's value is a string. If it is not "" then an internal
* logic error was found: read this code to assign meaning to the string.
* No argument string should generate such an error string:
* it means a bug in our code, not in the user's text.
*
* You MUST have called m68k_ip_begin() once and m86_ip_end() never before using
* this function.
*/
/* JF this function no longer returns a useful value. Sorry */
void m68k_ip (instring)
char *instring;
{
register char *p;
register struct m68k_op *opP;
register struct m68k_incant *opcode;
register char *s;
register int tmpreg = 0,
baseo = 0,
outro = 0,
nextword;
int siz1,
siz2;
char c;
int losing;
int opsfound;
int reloc_type;
char *crack_operand();
LITTLENUM_TYPE words[6];
LITTLENUM_TYPE *wordp;
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if (*instring == ' ')
instring++; /* skip leading whitespace */
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/* Scan up to end of operation-code, which MUST end in end-of-string
or exactly 1 space. */
for (p = instring; *p != '\0'; p++)
if (*p == ' ')
break;
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if (p == instring) {
the_ins.error = "No operator";
the_ins.opcode[0] = NULL;
/* the_ins.numo=1; */
return;
}
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/* p now points to the end of the opcode name, probably whitespace.
make sure the name is null terminated by clobbering the whitespace,
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look it up in the hash table, then fix it back. */
c = *p;
*p = '\0';
opcode = (struct m68k_incant *)hash_find (op_hash, instring);
*p = c;
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if (opcode == NULL) {
the_ins.error = "Unknown operator";
the_ins.opcode[0] = NULL;
/* the_ins.numo=1; */
return;
}
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/* found a legitimate opcode, start matching operands */
while (*p == ' ') ++p;
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for (opP = &the_ins.operands[0]; *p; opP++) {
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p = crack_operand(p, opP);
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if (opP->error) {
the_ins.error=opP->error;
return;
}
}
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opsfound = opP - &the_ins.operands[0];
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/* This ugly hack is to support the floating pt opcodes in their standard form */
/* Essentially, we fake a first enty of type COP#1 */
if (opcode->m_operands[0] == 'I') {
int n;
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for (n=opsfound;n>0;--n)
the_ins.operands[n]=the_ins.operands[n-1];
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/* memcpy((char *)(&the_ins.operands[1]), (char *)(&the_ins.operands[0]), opsfound*sizeof(the_ins.operands[0])); */
memset((char *)(&the_ins.operands[0]), '\0', sizeof(the_ins.operands[0]));
the_ins.operands[0].mode=MSCR;
the_ins.operands[0].reg=COPNUM; /* COP #1 */
opsfound++;
}
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/* We've got the operands. Find an opcode that'll accept them */
for (losing = 0; ; ) {
/* if we didn't get the right number of ops,
or we have no common model with this pattern
then reject this pattern. */
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if (opsfound != opcode->m_opnum
|| ((opcode->m_arch & current_architecture) == 0)) {
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++losing;
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} else {
for (s=opcode->m_operands, opP = &the_ins.operands[0]; *s && !losing; s += 2, opP++) {
/* Warning: this switch is huge! */
/* I've tried to organize the cases into this order:
non-alpha first, then alpha by letter. lower-case goes directly
before uppercase counterpart. */
/* Code with multiple case ...: gets sorted by the lowest case ...
it belongs to. I hope this makes sense. */
switch (*s) {
#ifdef PIC
case ' ':
/* this operand is just here to indicate a jump-table branch */
if (!picmode)
losing++;
break;
#endif /* PIC */
case '!':
if (opP->mode == MSCR || opP->mode == IMMED
|| opP->mode == DREG || opP->mode == AREG
|| opP->mode == AINC || opP->mode == ADEC
|| opP->mode == REGLST)
losing++;
break;
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case '#':
if (opP->mode != IMMED)
losing++;
else {
long t;
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t=get_num(opP->con1,80);
if (s[1] == 'b' && !isbyte(t))
losing++;
else if (s[1] == 'w' && !isword(t))
losing++;
}
break;
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case '^':
case 'T':
if (opP->mode != IMMED)
losing++;
break;
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case '$':
if (opP->mode == MSCR || opP->mode == AREG ||
opP->mode == IMMED || opP->reg == PC || opP->reg == ZPC || opP->mode == REGLST)
losing++;
break;
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case '%':
if (opP->mode == MSCR || opP->reg == PC ||
opP->reg == ZPC || opP->mode == REGLST)
losing++;
break;
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case '&':
if (opP->mode == MSCR || opP->mode == DREG ||
opP->mode == AREG || opP->mode == IMMED || opP->reg == PC || opP->reg == ZPC ||
opP->mode == AINC || opP->mode == ADEC || opP->mode == REGLST)
losing++;
break;
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case '*':
if (opP->mode == MSCR || opP->mode == REGLST)
losing++;
break;
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case '+':
if (opP->mode != AINC)
losing++;
break;
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case '-':
if (opP->mode != ADEC)
losing++;
break;
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case '/':
if (opP->mode == MSCR || opP->mode == AREG ||
opP->mode == AINC || opP->mode == ADEC || opP->mode == IMMED || opP->mode == REGLST)
losing++;
break;
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case ';':
if (opP->mode == MSCR || opP->mode == AREG || opP->mode == REGLST)
losing++;
break;
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case '?':
if (opP->mode == MSCR || opP->mode == AREG ||
opP->mode == AINC || opP->mode == ADEC || opP->mode == IMMED || opP->reg == PC ||
opP->reg == ZPC || opP->mode == REGLST)
losing++;
break;
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case '@':
if (opP->mode == MSCR || opP->mode == AREG ||
opP->mode == IMMED || opP->mode == REGLST)
losing++;
break;
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case '~': /* For now! (JF FOO is this right?) */
if (opP->mode == MSCR || opP->mode == DREG ||
opP->mode == AREG || opP->mode == IMMED || opP->reg == PC || opP->reg == ZPC || opP->mode == REGLST)
losing++;
break;
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case 'A':
if (opP->mode != AREG)
losing++;
break;
case 'a':
if (opP->mode != AINDR) {
++losing;
} /* if not address register indirect */
break;
case 'B': /* FOO */
if (opP->mode != ABSL || (flagseen['S'] && instring[0] == 'j'
&& instring[1] == 'b'
&& instring[2] == 's'
&& instring[3] == 'r'))
losing++;
break;
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case 'C':
if (opP->mode != MSCR || opP->reg != CCR)
losing++;
break;
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case 'd': /* FOO This mode is a KLUDGE!! */
if (opP->mode != AOFF && (opP->mode != ABSL ||
opP->con1->e_beg[0] != '(' || opP->con1->e_end[0] != ')'))
losing++;
break;
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case 'D':
if (opP->mode != DREG)
losing++;
break;
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case 'F':
if (opP->mode != MSCR || opP->reg<(FPREG+0) || opP->reg>(FPREG+7))
losing++;
break;
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case 'I':
if (opP->mode != MSCR || opP->reg<COPNUM ||
opP->reg >= COPNUM+7)
losing++;
break;
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case 'J':
if (opP->mode != MSCR
|| opP->reg < USP
|| opP->reg > URP
|| cpu_of_arch(current_architecture) < m68010 /* before 68010 had none */
|| (cpu_of_arch(current_architecture) < m68020
&& opP->reg != SFC
&& opP->reg != DFC
&& opP->reg != USP
&& opP->reg != VBR) /* 68010's had only these */
|| (cpu_of_arch(current_architecture) < m68040
&& opP->reg != SFC
&& opP->reg != DFC
&& opP->reg != USP
&& opP->reg != VBR
&& opP->reg != CACR
&& opP->reg != CAAR
&& opP->reg != MSP
&& opP->reg != ISP) /* 680[23]0's have only these */
|| (cpu_of_arch(current_architecture) == m68040 /* 68040 has all but this */
&& opP->reg == CAAR)) {
losing++;
} /* doesn't cut it */
break;
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case 'k':
if (opP->mode != IMMED)
losing++;
break;
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case 'l':
case 'L':
if (opP->mode == DREG || opP->mode == AREG || opP->mode == FPREG) {
if (s[1] == '8')
losing++;
else {
opP->mode=REGLST;
opP->reg=1<<(opP->reg-DATA);
}
} else if (opP->mode != REGLST) {
losing++;
} else if (s[1] == '8' && opP->reg&0x0FFffFF)
losing++;
else if (s[1] == '3' && opP->reg&0x7000000)
losing++;
break;
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case 'M':
if (opP->mode != IMMED)
losing++;
else {
long t;
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t=get_num(opP->con1,80);
if (!issbyte(t) || isvar(opP->con1))
losing++;
}
break;
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case 'O':
if (opP->mode != DREG && opP->mode != IMMED)
losing++;
break;
1995-05-30 05:05:38 +00:00
case 'Q':
if (opP->mode != IMMED)
losing++;
else {
long t;
1995-05-30 05:05:38 +00:00
t=get_num(opP->con1,80);
if (t<1 || t>8 || isvar(opP->con1))
losing++;
}
break;
1995-05-30 05:05:38 +00:00
case 'R':
if (opP->mode != DREG && opP->mode != AREG)
losing++;
break;
1995-05-30 05:05:38 +00:00
case 's':
if (opP->mode != MSCR || !(opP->reg == FPI || opP->reg == FPS || opP->reg == FPC))
losing++;
break;
1995-05-30 05:05:38 +00:00
case 'S':
if (opP->mode != MSCR || opP->reg != SR)
losing++;
break;
1995-05-30 05:05:38 +00:00
case 'U':
if (opP->mode != MSCR || opP->reg != USP)
losing++;
break;
1995-05-30 05:05:38 +00:00
/* JF these are out of order. We could put them
in order if we were willing to put up with
bunches of #ifdef m68851s in the code */
#ifndef NO_68851
/* Memory addressing mode used by pflushr */
case '|':
if (opP->mode == MSCR || opP->mode == DREG ||
opP->mode == AREG || opP->mode == REGLST)
losing++;
break;
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case 'f':
if (opP->mode != MSCR || (opP->reg != SFC && opP->reg != DFC))
losing++;
break;
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case 'P':
if (opP->mode != MSCR || (opP->reg != TC && opP->reg != CAL &&
opP->reg != VAL && opP->reg != SCC && opP->reg != AC))
losing++;
break;
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case 'V':
if (opP->reg != VAL)
losing++;
break;
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case 'W':
if (opP->mode != MSCR || (opP->reg != DRP && opP->reg != SRP &&
opP->reg != CRP))
losing++;
break;
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case 'X':
if (opP->mode != MSCR ||
(!(opP->reg >= BAD && opP->reg <= BAD+7) &&
!(opP->reg >= BAC && opP->reg <= BAC+7)))
losing++;
break;
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case 'Y':
if (opP->reg != PSR)
losing++;
break;
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case 'Z':
if (opP->reg != PCSR)
losing++;
break;
#endif
case 'c':
if (opP->reg != NC
&& opP->reg != IC
&& opP->reg != DC
&& opP->reg != BC) {
losing++;
} /* not a cache specifier. */
break;
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case '_':
if (opP->mode != ABSL) {
++losing;
} /* not absolute */
break;
default:
as_fatal("Internal error: Operand mode %c unknown in line %s of file \"%s\"",
*s, __LINE__, __FILE__);
} /* switch on type of operand */
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if (losing) break;
} /* for each operand */
} /* if immediately wrong */
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if (!losing) {
break;
} /* got it. */
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opcode = opcode->m_next;
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if (!opcode) {
the_ins.error = "instruction/operands mismatch";
return;
} /* Fell off the end */
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losing = 0;
}
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/* now assemble it */
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the_ins.args=opcode->m_operands;
the_ins.numargs=opcode->m_opnum;
the_ins.numo=opcode->m_codenum;
the_ins.opcode[0]=getone(opcode);
the_ins.opcode[1]=gettwo(opcode);
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for (s = the_ins.args, opP = &the_ins.operands[0]; *s; s += 2, opP++) {
/* This switch is a doozy.
Watch the first step; its a big one! */
switch (s[0]) {
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#ifdef PIC
case ' ':
/* this operand is just here to indicate a jump-table branch */
break;
#endif /* PIC */
case '*':
case '~':
case '%':
case ';':
case '@':
case '!':
case '&':
case '$':
case '?':
case '/':
#ifndef NO_68851
case '|':
#endif
#ifdef PIC
/* Use GLOB_DAT for operand references in PIC mode */
if (picmode)
reloc_type = RELOC_GLOB_DAT;
else
#endif /* PIC */
reloc_type = NO_RELOC;
switch (opP->mode) {
int literal;
case IMMED:
tmpreg=0x3c; /* 7.4 */
if (*opP->con1->e_beg == ':') {
++opP->con1->e_beg;
literal = 1;
} else
literal = 0;
if (strchr("bwl",s[1])) nextword=get_num(opP->con1,80);
else nextword=nextword=get_num(opP->con1,0);
if (isvar(opP->con1)) {
#ifdef PIC
/* KLUDGE!!! In PIC assembly, an immediate reference to
__GLOBAL_OFFSET_TABLE_ is turned into a pc-relative
reference to __GLOBAL_OFFSET_TABLE_ - 6,
for the sake of Sun compatibility. */
if (s[1] == 'l' && picmode && gots(opP->con1)) {
offs(opP->con1) -= 6;
add_fix(s[1], opP->con1, 1, NO_RELOC);
} else
#endif /* PIC */
add_fix(s[1],opP->con1,0,reloc_type);
}
switch (s[1]) {
case 'b':
if (!isbyte(nextword))
opP->error="operand out of range";
addword(nextword);
baseo=0;
break;
case 'w':
if (!isword(nextword))
opP->error="operand out of range";
addword(nextword);
baseo=0;
break;
case 'l':
addword(nextword>>16);
addword(nextword);
baseo=0;
break;
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case 'f':
baseo=2;
outro=8;
break;
case 'F':
baseo=4;
outro=11;
break;
case 'x':
baseo=6;
outro=15;
break;
case 'p':
baseo=6;
outro= -1;
break;
default:
as_fatal("Internal error: Can't decode %c%c in line %s of file \"%s\"",
*s, s[1], __LINE__, __FILE__);
}
if (!baseo)
break;
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if (literal) {
if (seg(opP->con1) == SEG_BIG)
goto bignum;
while (baseo -= 2) {
addword(0);
addword(0);
}
addword(nextword>>16);
addword(nextword);
break;
}
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/* We gotta put out some float */
if (seg(opP->con1) != SEG_BIG) {
int_to_gen(nextword);
gen_to_words(words,baseo,(long int)outro);
for (wordp=words;baseo--;wordp++)
addword(*wordp);
break;
} /* Its BIG */
if (offs(opP->con1)>0) {
as_warn("Bignum assumed to be binary bit-pattern");
bignum:
if (offs(opP->con1)>baseo) {
as_warn("Bignum too big for %c format; truncated",s[1]);
offs(opP->con1)=baseo;
}
baseo-=offs(opP->con1);
for (wordp=generic_bignum+offs(opP->con1)-1;offs(opP->con1)--;--wordp)
addword(*wordp);
while (baseo--)
addword(0);
break;
}
gen_to_words(words,baseo,(long)outro);
for (wordp=words;baseo--;wordp++)
addword(*wordp);
break;
case DREG:
tmpreg=opP->reg-DATA; /* 0.dreg */
break;
case AREG:
tmpreg=0x08+opP->reg-ADDR; /* 1.areg */
break;
case AINDR:
tmpreg=0x10+opP->reg-ADDR; /* 2.areg */
break;
case ADEC:
tmpreg=0x20+opP->reg-ADDR; /* 4.areg */
break;
case AINC:
tmpreg=0x18+opP->reg-ADDR; /* 3.areg */
break;
case AOFF:
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nextword=get_num(opP->con1,80);
/* Force into index mode. Hope this works */
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/* We do the first bit for 32-bit displacements,
and the second bit for 16 bit ones. It is
possible that we should make the default be
WORD instead of LONG, but I think that'd
break GCC, so we put up with a little
inefficiency for the sake of working output.
*/
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if ( !issword(nextword)
|| ( isvar(opP->con1)
&& ((opP->con1->e_siz == 0
&& flagseen['l'] == 0)
|| opP->con1->e_siz == 3))) {
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if (opP->reg == PC)
tmpreg=0x3B; /* 7.3 */
else
tmpreg=0x30+opP->reg-ADDR; /* 6.areg */
if (isvar(opP->con1)) {
if (opP->reg == PC && !subs(opP->con1)) {
add_frag(adds(opP->con1),
offs(opP->con1),
TAB(PCLEA,SZ_UNDEF));
break;
} else {
addword(0x0170);
add_fix('l',opP->con1,0,reloc_type);
}
} else
addword(0x0170);
addword(nextword>>16);
} else {
if (opP->reg == PC)
tmpreg=0x3A; /* 7.2 */
else
tmpreg=0x28+opP->reg-ADDR; /* 5.areg */
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if (isvar(opP->con1)) {
if (opP->reg == PC) {
add_fix('w',opP->con1,1,NO_RELOC);
} else
add_fix('w',opP->con1,0,reloc_type);
}
}
addword(nextword);
break;
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case APODX:
case AMIND:
case APRDX:
know(current_architecture & m68020up);
/* intentional fall-through */
case AINDX:
nextword=0;
baseo=get_num(opP->con1,80);
outro=get_num(opP->con2,80);
/* Figure out the 'addressing mode' */
/* Also turn on the BASE_DISABLE bit, if needed */
if (opP->reg == PC || opP->reg == ZPC) {
tmpreg=0x3b; /* 7.3 */
if (opP->reg == ZPC)
nextword|=0x80;
} else if (opP->reg == FAIL) {
nextword|=0x80;
tmpreg=0x30; /* 6.garbage */
} else tmpreg=0x30+opP->reg-ADDR; /* 6.areg */
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siz1= (opP->con1) ? opP->con1->e_siz : 0;
siz2= (opP->con2) ? opP->con2->e_siz : 0;
1995-05-30 05:05:38 +00:00
/* Index register stuff */
if (opP->ireg >= DATA+0 && opP->ireg <= ADDR+7) {
nextword|=(opP->ireg-DATA)<<12;
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if (opP->isiz == 0 || opP->isiz == 3)
nextword|=0x800;
switch (opP->imul) {
case 1: break;
case 2: nextword|=0x200; break;
case 4: nextword|=0x400; break;
case 8: nextword|=0x600; break;
default: as_fatal("failed sanity check.");
}
/* IF its simple,
GET US OUT OF HERE! */
1995-05-30 05:05:38 +00:00
/* Must be INDEX, with an index
register. Address register
cannot be ZERO-PC, and either
:b was forced, or we know
it will fit */
if (opP->mode == AINDX
&& opP->reg != FAIL
&& opP->reg != ZPC
&& (siz1 == 1
|| ( issbyte(baseo)
&& !isvar(opP->con1)))) {
nextword +=baseo&0xff;
addword(nextword);
if (isvar(opP->con1))
add_fix('B',opP->con1,0,reloc_type);
break;
}
} else
nextword|=0x40; /* No index reg */
1995-05-30 05:05:38 +00:00
/* It aint simple */
nextword|=0x100;
/* If the guy specified a width, we assume that
it is wide enough. Maybe it isn't. If so, we lose
*/
switch (siz1) {
case 0:
if (isvar(opP->con1) || !issword(baseo)) {
siz1=3;
nextword|=0x30;
} else if (baseo == 0)
nextword|=0x10;
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else {
nextword|=0x20;
siz1=2;
}
break;
case 1:
as_warn("Byte dispacement won't work. Defaulting to :w");
case 2:
nextword|=0x20;
break;
case 3:
nextword|=0x30;
break;
}
1995-05-30 05:05:38 +00:00
/* Figure out innner displacement stuff */
if (opP->mode != AINDX) {
switch (siz2) {
case 0:
if (isvar(opP->con2) || !issword(outro)) {
siz2=3;
nextword|=0x3;
} else if (outro == 0)
nextword|=0x1;
1995-05-30 05:05:38 +00:00
else {
nextword|=0x2;
siz2=2;
}
break;
case 1:
as_warn("Byte dispacement won't work. Defaulting to :w");
case 2:
nextword|=0x2;
break;
case 3:
nextword|=0x3;
break;
}
if (opP->mode == APODX) nextword|=0x04;
else if (opP->mode == AMIND) nextword|=0x40;
}
addword(nextword);
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if (isvar(opP->con1)) {
if (opP->reg == PC || opP->reg == ZPC) {
add_fix(siz1 == 3 ? 'l' : 'w',opP->con1,1,NO_RELOC);
opP->con1->e_exp.X_add_number+=6;
} else
add_fix(siz1 == 3 ? 'l' : 'w',opP->con1,0,reloc_type);
}
if (siz1 == 3)
addword(baseo>>16);
if (siz1)
addword(baseo);
1995-05-30 05:05:38 +00:00
if (isvar(opP->con2)) {
if (opP->reg == PC || opP->reg == ZPC) {
add_fix(siz2 == 3 ? 'l' : 'w',opP->con2,1,NO_RELOC);
opP->con1->e_exp.X_add_number+=6;
} else
add_fix(siz2 == 3 ? 'l' : 'w',opP->con2,0,reloc_type);
}
if (siz2 == 3)
addword(outro>>16);
if (siz2)
addword(outro);
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break;
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case ABSL:
nextword=get_num(opP->con1,80);
switch (opP->con1->e_siz) {
default:
as_warn("Unknown size for absolute reference");
case 0:
if (!isvar(opP->con1) && issword(offs(opP->con1))) {
tmpreg=0x38; /* 7.0 */
addword(nextword);
break;
}
/* Don't generate pc relative code
on 68010 and 68000 */
if (isvar(opP->con1)
&& !subs(opP->con1)
&& seg(opP->con1) == SEG_TEXT
&& now_seg == SEG_TEXT
&& cpu_of_arch(current_architecture) >= m68020
&& !flagseen['S']
&& !strchr("~%&$?", s[0])) {
tmpreg=0x3A; /* 7.2 */
add_frag(adds(opP->con1),
offs(opP->con1),
TAB(PCREL,SZ_UNDEF));
break;
}
case 3: /* Fall through into long */
if (isvar(opP->con1))
add_fix('l',opP->con1,0,NO_RELOC);
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tmpreg=0x39; /* 7.1 mode */
addword(nextword>>16);
addword(nextword);
break;
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case 2: /* Word */
if (isvar(opP->con1))
add_fix('w',opP->con1,0,NO_RELOC);
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tmpreg=0x38; /* 7.0 mode */
addword(nextword);
break;
}
break;
case MSCR:
default:
as_bad("unknown/incorrect operand");
/* abort(); */
}
install_gen_operand(s[1],tmpreg);
break;
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case '#':
case '^':
switch (s[1]) { /* JF: I hate floating point! */
case 'j':
tmpreg=70;
break;
case '8':
tmpreg=20;
break;
case 'C':
tmpreg=50;
break;
case '3':
default:
tmpreg=80;
break;
}
tmpreg=get_num(opP->con1,tmpreg);
if (isvar(opP->con1))
add_fix(s[1],opP->con1,0,NO_RELOC);
switch (s[1]) {
case 'b': /* Danger: These do no check for
certain types of overflow.
user beware! */
if (!isbyte(tmpreg))
opP->error="out of range";
insop(tmpreg);
if (isvar(opP->con1))
the_ins.reloc[the_ins.nrel-1].n=(opcode->m_codenum)*2;
break;
case 'w':
if (!isword(tmpreg))
opP->error="out of range";
insop(tmpreg);
if (isvar(opP->con1))
the_ins.reloc[the_ins.nrel-1].n=(opcode->m_codenum)*2;
break;
case 'l':
insop(tmpreg); /* Because of the way insop works, we put these two out backwards */
insop(tmpreg>>16);
if (isvar(opP->con1))
the_ins.reloc[the_ins.nrel-1].n=(opcode->m_codenum)*2;
break;
case '3':
tmpreg&=0xFF;
case '8':
case 'C':
install_operand(s[1],tmpreg);
break;
default:
as_fatal("Internal error: Unknown mode #%c in line %s of file \"%s\"", s[1], __LINE__, __FILE__);
}
break;
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case '+':
case '-':
case 'A':
case 'a':
install_operand(s[1], opP->reg - ADDR);
break;
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case 'B':
tmpreg = get_num(opP->con1, 80);
switch (s[1]) {
case 'B':
/* Offset is relative to next word */
opP->con1->e_exp.X_add_number -= 1;
add_fix('B', opP->con1, 1,NO_RELOC);
break;
case 'W':
add_fix('w', opP->con1, 1,NO_RELOC);
addword(0);
break;
case 'L':
long_branch:
if (cpu_of_arch(current_architecture) < m68020) /* 68000 or 010 */
as_warn("Can't use long branches on 68000/68010");
the_ins.opcode[the_ins.numo-1]|=0xff;
add_fix('l',opP->con1,1,NO_RELOC);
addword(0);
addword(0);
break;
case 'g':
#ifdef PIC
/* If we have the optional kludgey 2nd operand,
make this go via the jump table. */
if (picmode && s[2] == ' ') {
the_ins.opcode[the_ins.numo-1] |= 0xFF;
add_fix('l', opP->con1, 1, RELOC_JMP_TBL);
addword(0);
addword(0);
break;
}
#endif /* PIC */
if (subs(opP->con1)) /* We can't relax it */
goto long_branch;
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/* This could either be a symbol, or an
absolute address. No matter, the
frag hacking will finger it out.
Not quite: it can't switch from
BRANCH to BCC68000 for the case
where opnd is absolute (it needs
to use the 68000 hack since no
conditional abs jumps). */
if (((cpu_of_arch(current_architecture) < m68020) || (0 == adds(opP->con1)))
&& (the_ins.opcode[0] >= 0x6200)
&& (the_ins.opcode[0] <= 0x6f00)) {
add_frag(adds(opP->con1),offs(opP->con1),TAB(BCC68000,SZ_UNDEF));
} else {
add_frag(adds(opP->con1),offs(opP->con1),TAB(BRANCH,SZ_UNDEF));
}
break;
case 'w':
if (isvar(opP->con1)) {
/* check for DBcc instruction */
if ((the_ins.opcode[0] & 0xf0f8) == 0x50c8) {
/* size varies if patch */
/* needed for long form */
add_frag(adds(opP->con1),offs(opP->con1),TAB(DBCC,SZ_UNDEF));
break;
}
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/* Don't ask! */
opP->con1->e_exp.X_add_number+=2;
add_fix('w',opP->con1,1,NO_RELOC);
}
addword(0);
break;
case 'C': /* Fixed size LONG coproc branches */
the_ins.opcode[the_ins.numo-1]|=0x40;
/* Offset the displacement to be relative to byte disp location */
/* Coproc branches don't have a byte disp option, but they are
compatible with the ordinary branches, which do... */
opP->con1->e_exp.X_add_number+=4;
add_fix('l',opP->con1,1,NO_RELOC);
addword(0);
addword(0);
break;
case 'c': /* Var size Coprocesssor branches */
if (subs(opP->con1)) {
add_fix('l',opP->con1,1,NO_RELOC);
add_frag((symbolS *)0,(long)0,TAB(FBRANCH,LONG));
} else if (adds(opP->con1)) {
add_frag(adds(opP->con1),offs(opP->con1),TAB(FBRANCH,SZ_UNDEF));
} else {
/* add_frag((symbolS *)0,offs(opP->con1),TAB(FBRANCH,SHORT)); */
the_ins.opcode[the_ins.numo-1]|=0x40;
add_fix('l',opP->con1,1,NO_RELOC);
addword(0);
addword(4);
}
break;
default:
as_fatal("Internal error: operand type B%c unknown in line %s of file \"%s\"",
s[1], __LINE__, __FILE__);
}
break;
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case 'C': /* Ignore it */
break;
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case 'd': /* JF this is a kludge */
if (opP->mode == AOFF) {
install_operand('s',opP->reg-ADDR);
} else {
char *tmpP;
1995-05-30 05:05:38 +00:00
tmpP=opP->con1->e_end-2;
opP->con1->e_beg++;
opP->con1->e_end-=4; /* point to the , */
baseo=m68k_reg_parse(&tmpP);
if (baseo<ADDR+0 || baseo>ADDR+7) {
as_bad("Unknown address reg, using A0");
baseo=0;
} else baseo-=ADDR;
install_operand('s',baseo);
}
tmpreg=get_num(opP->con1,80);
if (!issword(tmpreg)) {
as_warn("Expression out of range, using 0");
tmpreg=0;
}
addword(tmpreg);
break;
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case 'D':
install_operand(s[1],opP->reg-DATA);
break;
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case 'F':
install_operand(s[1],opP->reg-FPREG);
break;
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case 'I':
tmpreg=1+opP->reg-COPNUM;
if (tmpreg == 8)
tmpreg=0;
install_operand(s[1],tmpreg);
break;
1995-05-30 05:05:38 +00:00
case 'J': /* JF foo */
switch (opP->reg) {
case SFC: tmpreg=0x000; break;
case DFC: tmpreg=0x001; break;
case CACR: tmpreg=0x002; break;
case TC: tmpreg=0x003; break;
case ITT0: tmpreg=0x004; break;
case ITT1: tmpreg=0x005; break;
case DTT0: tmpreg=0x006; break;
case DTT1: tmpreg=0x007; break;
1995-05-30 05:05:38 +00:00
case USP: tmpreg=0x800; break;
case VBR: tmpreg=0x801; break;
case CAAR: tmpreg=0x802; break;
case MSP: tmpreg=0x803; break;
case ISP: tmpreg=0x804; break;
case MMUSR: tmpreg=0x805; break;
case URP: tmpreg=0x806; break;
case SRP: tmpreg=0x807; break;
default:
as_fatal("failed sanity check.");
}
install_operand(s[1],tmpreg);
break;
1995-05-30 05:05:38 +00:00
case 'k':
tmpreg=get_num(opP->con1,55);
install_operand(s[1],tmpreg&0x7f);
break;
1995-05-30 05:05:38 +00:00
case 'l':
tmpreg=opP->reg;
if (s[1] == 'w') {
if (tmpreg&0x7FF0000)
as_bad("Floating point register in register list");
insop(reverse_16_bits(tmpreg));
} else {
if (tmpreg&0x700FFFF)
as_bad("Wrong register in floating-point reglist");
install_operand(s[1],reverse_8_bits(tmpreg>>16));
}
break;
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case 'L':
tmpreg=opP->reg;
if (s[1] == 'w') {
if (tmpreg&0x7FF0000)
as_bad("Floating point register in register list");
insop(tmpreg);
} else if (s[1] == '8') {
if (tmpreg&0x0FFFFFF)
as_bad("incorrect register in reglist");
install_operand(s[1],tmpreg>>24);
} else {
if (tmpreg&0x700FFFF)
as_bad("wrong register in floating-point reglist");
else
install_operand(s[1],tmpreg>>16);
}
break;
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case 'M':
install_operand(s[1],get_num(opP->con1,60));
break;
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case 'O':
tmpreg= (opP->mode == DREG)
? 0x20+opP->reg-DATA
: (get_num(opP->con1,40)&0x1F);
install_operand(s[1],tmpreg);
break;
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case 'Q':
tmpreg=get_num(opP->con1,10);
if (tmpreg == 8)
tmpreg=0;
install_operand(s[1],tmpreg);
break;
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case 'R':
/* This depends on the fact that ADDR registers are
eight more than their corresponding DATA regs, so
the result will have the ADDR_REG bit set */
install_operand(s[1],opP->reg-DATA);
break;
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case 's':
if (opP->reg == FPI) tmpreg=0x1;
else if (opP->reg == FPS) tmpreg=0x2;
else if (opP->reg == FPC) tmpreg=0x4;
else as_fatal("failed sanity check.");
install_operand(s[1],tmpreg);
break;
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case 'S': /* Ignore it */
break;
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case 'T':
install_operand(s[1],get_num(opP->con1,30));
break;
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case 'U': /* Ignore it */
break;
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case 'c':
switch (opP->reg) {
case NC: tmpreg = 0; break;
case DC: tmpreg = 1; break;
case IC: tmpreg = 2; break;
case BC: tmpreg = 3; break;
default:
as_fatal("failed sanity check");
} /* switch on cache token */
install_operand(s[1], tmpreg);
break;
#ifndef NO_68851
/* JF: These are out of order, I fear. */
case 'f':
switch (opP->reg) {
case SFC:
tmpreg=0;
break;
case DFC:
tmpreg=1;
break;
default:
as_fatal("failed sanity check.");
}
install_operand(s[1],tmpreg);
break;
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case 'P':
switch (opP->reg) {
case TC:
tmpreg=0;
break;
case CAL:
tmpreg=4;
break;
case VAL:
tmpreg=5;
break;
case SCC:
tmpreg=6;
break;
case AC:
tmpreg=7;
break;
default:
as_fatal("failed sanity check.");
}
install_operand(s[1],tmpreg);
break;
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case 'V':
if (opP->reg == VAL)
break;
as_fatal("failed sanity check.");
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case 'W':
switch (opP->reg) {
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case DRP:
tmpreg=1;
break;
case SRP:
tmpreg=2;
break;
case CRP:
tmpreg=3;
break;
default:
as_fatal("failed sanity check.");
}
install_operand(s[1],tmpreg);
break;
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case 'X':
switch (opP->reg) {
case BAD: case BAD+1: case BAD+2: case BAD+3:
case BAD+4: case BAD+5: case BAD+6: case BAD+7:
tmpreg = (4 << 10) | ((opP->reg - BAD) << 2);
break;
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case BAC: case BAC+1: case BAC+2: case BAC+3:
case BAC+4: case BAC+5: case BAC+6: case BAC+7:
tmpreg = (5 << 10) | ((opP->reg - BAC) << 2);
break;
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default:
as_fatal("failed sanity check.");
}
install_operand(s[1], tmpreg);
break;
case 'Y':
know(opP->reg == PSR);
break;
case 'Z':
know(opP->reg == PCSR);
break;
#endif /* m68851 */
case '_':
tmpreg=get_num(opP->con1,80);
install_operand(s[1], tmpreg);
break;
default:
as_fatal("Internal error: Operand type %c unknown in line %s of file \"%s\"", s[0], __LINE__, __FILE__);
}
}
/* By the time whe get here (FINALLY) the_ins contains the complete
instruction, ready to be emitted... */
} /* m68k_ip() */
/*
* get_regs := '/' + ?
* | '-' + <register>
* | '-' + <register> + ?
* | <empty>
* ;
*
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* The idea here must be to scan in a set of registers but I don't
* understand it. Looks awfully sloppy to me but I don't have any doc on
* this format so...
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*
*
*/
static int get_regs(i,str,opP)
int i;
struct m68k_op *opP;
char *str;
{
/* 26, 25, 24, 23-16, 15-8, 0-7 */
/* Low order 24 bits encoded fpc,fps,fpi,fp7-fp0,a7-a0,d7-d0 */
unsigned long cur_regs = 0;
int reg1,
reg2;
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#define ADD_REG(x) { if (x == FPI) cur_regs|=(1<<24);\
else if (x == FPS) cur_regs|=(1<<25);\
else if (x == FPC) cur_regs|=(1<<26);\
else cur_regs|=(1<<(x-1)); }
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reg1=i;
for (;;) {
if (*str == '/') {
ADD_REG(reg1);
str++;
} else if (*str == '-') {
str++;
reg2=m68k_reg_parse(&str);
if (reg2<DATA || reg2 >= FPREG+8 || reg1 == FPI || reg1 == FPS || reg1 == FPC) {
opP->error="unknown register in register list";
return FAIL;
}
while (reg1 <= reg2) {
ADD_REG(reg1);
reg1++;
}
if (*str == '\0')
break;
} else if (*str == '\0') {
ADD_REG(reg1);
break;
} else {
opP->error="unknow character in register list";
return FAIL;
}
/* DJA -- Bug Fix. Did't handle d1-d2/a1 until the following instruction was added */
if (*str == '/')
str ++;
reg1=m68k_reg_parse(&str);
if ((reg1<DATA || reg1 >= FPREG+8) && !(reg1 == FPI || reg1 == FPS || reg1 == FPC)) {
opP->error="unknown register in register list";
return FAIL;
}
}
opP->reg=cur_regs;
return OK;
} /* get_regs() */
static int reverse_16_bits(in)
int in;
{
int out=0;
int n;
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static int mask[16] = {
0x0001,0x0002,0x0004,0x0008,0x0010,0x0020,0x0040,0x0080,
0x0100,0x0200,0x0400,0x0800,0x1000,0x2000,0x4000,0x8000
};
for (n=0;n<16;n++) {
if (in&mask[n])
out|=mask[15-n];
}
return out;
} /* reverse_16_bits() */
static int reverse_8_bits(in)
int in;
{
int out=0;
int n;
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static int mask[8] = {
0x0001,0x0002,0x0004,0x0008,0x0010,0x0020,0x0040,0x0080,
};
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for (n=0;n<8;n++) {
if (in&mask[n])
out|=mask[7-n];
}
return out;
} /* reverse_8_bits() */
static void install_operand(mode,val)
int mode;
int val;
{
switch (mode) {
case 's':
the_ins.opcode[0]|=val & 0xFF; /* JF FF is for M kludge */
break;
case 'd':
the_ins.opcode[0]|=val<<9;
break;
case '1':
the_ins.opcode[1]|=val<<12;
break;
case '2':
the_ins.opcode[1]|=val<<6;
break;
case '3':
the_ins.opcode[1]|=val;
break;
case '4':
the_ins.opcode[2]|=val<<12;
break;
case '5':
the_ins.opcode[2]|=val<<6;
break;
case '6':
/* DANGER! This is a hack to force cas2l and cas2w cmds
to be three words long! */
the_ins.numo++;
the_ins.opcode[2]|=val;
break;
case '7':
the_ins.opcode[1]|=val<<7;
break;
case '8':
the_ins.opcode[1]|=val<<10;
break;
#ifndef NO_68851
case '9':
the_ins.opcode[1]|=val<<5;
break;
#endif
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case 't':
the_ins.opcode[1]|=(val<<10)|(val<<7);
break;
case 'D':
the_ins.opcode[1]|=(val<<12)|val;
break;
case 'g':
the_ins.opcode[0]|=val=0xff;
break;
case 'i':
the_ins.opcode[0]|=val<<9;
break;
case 'C':
the_ins.opcode[1]|=val;
break;
case 'j':
the_ins.opcode[1]|=val;
the_ins.numo++; /* What a hack */
break;
case 'k':
the_ins.opcode[1]|=val<<4;
break;
case 'b':
case 'w':
case 'l':
break;
case 'e':
the_ins.opcode[0] |= (val << 6);
break;
case 'L':
the_ins.opcode[1] = (val >> 16);
the_ins.opcode[2] = val & 0xffff;
break;
case 'c':
default:
as_fatal("failed sanity check.");
}
} /* install_operand() */
static void install_gen_operand(mode,val)
int mode;
int val;
{
switch (mode) {
case 's':
the_ins.opcode[0]|=val;
break;
case 'd':
/* This is a kludge!!! */
the_ins.opcode[0]|=(val&0x07)<<9|(val&0x38)<<3;
break;
case 'b':
case 'w':
case 'l':
case 'f':
case 'F':
case 'x':
case 'p':
the_ins.opcode[0]|=val;
break;
/* more stuff goes here */
default:
as_fatal("failed sanity check.");
}
} /* install_gen_operand() */
/*
* verify that we have some number of paren pairs, do m68k_ip_op(), and
* then deal with the bitfield hack.
*/
static char *crack_operand(str,opP)
register char *str;
register struct m68k_op *opP;
{
register int parens;
register int c;
register char *beg_str;
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if (!str) {
return str;
}
beg_str=str;
for (parens=0;*str && (parens>0 || notend(str));str++) {
if (*str == '(') parens++;
else if (*str == ')') {
if (!parens) { /* ERROR */
opP->error="Extra )";
return str;
}
--parens;
}
}
if (!*str && parens) { /* ERROR */
opP->error="Missing )";
return str;
}
c= *str;
*str='\0';
if (m68k_ip_op(beg_str,opP) == FAIL) {
*str=c;
return str;
}
*str=c;
if (c == '}')
c= *++str; /* JF bitfield hack */
if (c) {
c= *++str;
if (!c)
as_bad("Missing operand");
}
return str;
}
/* See the comment up above where the #define notend(... is */
#if 0
notend(s)
char *s;
{
if (*s == ',') return 0;
if (*s == '{' || *s == '}')
return 0;
if (*s != ':') return 1;
/* This kludge here is for the division cmd, which is a kludge */
if (index("aAdD#",s[1])) return 0;
return 1;
}
#endif
/*
* Generate a new fixup for one of the relocs in the_ins.
*/
static void
make_fix(m, where)
int m;
char *where;
{
int n;
switch (the_ins.reloc[m].wid) {
case 'B':
case 'b':
n=1;
break;
case '3':
case 'w':
n=2;
break;
case 'l':
n=4;
break;
default:
as_fatal("Don't know how to figure width of %c in md_assemble()",the_ins.reloc[m].wid);
}
fix_new(frag_now,
where - frag_now->fr_literal + the_ins.reloc[m].n,
n,
the_ins.reloc[m].add,
the_ins.reloc[m].sub,
the_ins.reloc[m].off,
the_ins.reloc[m].pcrel,
the_ins.reloc[m].rtype
#ifdef PIC
, the_ins.reloc[m].got
#endif /* PIC */
);
#ifdef PIC
if (the_ins.reloc[m].rtype == RELOC_GLOB_DAT
&& the_ins.reloc[m].add != NULL)
the_ins.reloc[m].add->sy_forceout = 1;
#endif /* PIC */
}
/* This is the guts of the machine-dependent assembler. STR points to a
machine dependent instruction. This function is supposed to emit
the frags/bytes it assembles to.
*/
void
md_assemble(str)
char *str;
{
char *er;
short *fromP;
char *toP = NULL;
int m,n = 0;
char *to_beg_P;
int shorts_this_frag;
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if (current_architecture == 0) {
current_architecture = (m68020
#ifndef NO_68881
| m68881
#endif
#ifndef NO_68851
| m68851
#endif
);
} /* default current_architecture */
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memset((char *)(&the_ins), '\0', sizeof(the_ins)); /* JF for paranoia sake */
m68k_ip(str);
er=the_ins.error;
if (!er) {
for (n=the_ins.numargs;n;--n)
if (the_ins.operands[n].error) {
er=the_ins.operands[n].error;
break;
}
}
if (er) {
as_bad("\"%s\" -- Statement '%s' ignored",er,str);
return;
}
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if (the_ins.nfrag == 0) { /* No frag hacking involved; just put it out */
toP=frag_more(2*the_ins.numo);
fromP= &the_ins.opcode[0];
for (m=the_ins.numo;m;--m) {
md_number_to_chars(toP,(long)(*fromP),2);
toP+=2;
fromP++;
}
/* put out symbol-dependent info */
for (m = 0; m < the_ins.nrel; m++) {
make_fix(m, toP-the_ins.numo*2);
}
return;
}
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/* There's some frag hacking */
for (n=0,fromP= &the_ins.opcode[0];n<the_ins.nfrag;n++) {
int wid;
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if (n == 0) wid=2*the_ins.fragb[n].fragoff;
else wid=2*(the_ins.numo-the_ins.fragb[n-1].fragoff);
toP=frag_more(wid);
to_beg_P=toP;
shorts_this_frag=0;
for (m=wid/2;m;--m) {
md_number_to_chars(toP,(long)(*fromP),2);
toP+=2;
fromP++;
shorts_this_frag++;
}
for (m=0;m<the_ins.nrel;m++) {
if ((the_ins.reloc[m].n) >= 2*shorts_this_frag /* 2*the_ins.fragb[n].fragoff */) {
the_ins.reloc[m].n-= 2*shorts_this_frag /* 2*the_ins.fragb[n].fragoff */;
break;
}
if (the_ins.reloc[m].wid == 0)
continue;
make_fix(m, toP-the_ins.numo*2);
the_ins.reloc[m].wid=0;
}
/* know(the_ins.fragb[n].fadd); */
(void)frag_var(rs_machine_dependent,10,0,(relax_substateT)(the_ins.fragb[n].fragty),
the_ins.fragb[n].fadd,the_ins.fragb[n].foff,to_beg_P);
}
n=(the_ins.numo-the_ins.fragb[n-1].fragoff);
shorts_this_frag=0;
if (n) {
toP=frag_more(n*sizeof(short));
while (n--) {
md_number_to_chars(toP,(long)(*fromP),2);
toP+=2;
fromP++;
shorts_this_frag++;
}
}
for (m=0;m<the_ins.nrel;m++) {
if (the_ins.reloc[m].wid == 0)
continue;
make_fix(m, toP - /* the_ins.numo */ shorts_this_frag*2);
}
}
/* This function is called once, at assembler startup time. This should
set up all the tables, etc that the MD part of the assembler needs
*/
void
md_begin()
{
/*
* md_begin -- set up hash tables with 68000 instructions.
* similar to what the vax assembler does. ---phr
*/
/* RMS claims the thing to do is take the m68k-opcode.h table, and make
a copy of it at runtime, adding in the information we want but isn't
there. I think it'd be better to have an awk script hack the table
at compile time. Or even just xstr the table and use it as-is. But
my lord ghod hath spoken, so we do it this way. Excuse the ugly var
names. */
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register const struct m68k_opcode *ins;
register struct m68k_incant *hack,
*slak;
register char *retval = 0; /* empty string, or error msg text */
register unsigned int i;
register char c;
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if ((op_hash = hash_new()) == NULL)
as_fatal("Virtual memory exhausted");
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obstack_begin(&robyn,4000);
for (ins = m68k_opcodes; ins < endop; ins++) {
hack=slak=(struct m68k_incant *)obstack_alloc(&robyn,sizeof(struct m68k_incant));
do {
/* we *could* ignore insns that don't match our
arch here but just leaving them out of the
hash. */
slak->m_operands=ins->args;
slak->m_opnum=strlen(slak->m_operands)/2;
slak->m_arch = ins->arch;
slak->m_opcode=ins->opcode;
/* This is kludgey */
slak->m_codenum=((ins->match)&0xffffL) ? 2 : 1;
if ((ins+1) != endop && !strcmp(ins->name,(ins+1)->name)) {
slak->m_next=(struct m68k_incant *) obstack_alloc(&robyn,sizeof(struct m68k_incant));
ins++;
} else
slak->m_next=0;
slak=slak->m_next;
} while (slak);
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retval = hash_insert (op_hash, ins->name,(char *)hack);
/* Didn't his mommy tell him about null pointers? */
if (retval && *retval)
as_fatal("Internal Error: Can't hash %s: %s",ins->name,retval);
}
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for (i = 0; i < sizeof(mklower_table) ; i++)
mklower_table[i] = (isupper(c = (char) i)) ? tolower(c) : c;
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for (i = 0 ; i < sizeof(notend_table) ; i++) {
notend_table[i] = 0;
alt_notend_table[i] = 0;
}
notend_table[','] = 1;
notend_table['{'] = 1;
notend_table['}'] = 1;
alt_notend_table['a'] = 1;
alt_notend_table['A'] = 1;
alt_notend_table['d'] = 1;
alt_notend_table['D'] = 1;
alt_notend_table['#'] = 1;
alt_notend_table['f'] = 1;
alt_notend_table['F'] = 1;
#ifdef REGISTER_PREFIX
alt_notend_table[REGISTER_PREFIX] = 1;
#endif
}
#if 0
#define notend(s) ((*s == ',' || *s == '}' || *s == '{' \
|| (*s == ':' && strchr("aAdD#", s[1]))) \
? 0 : 1)
#endif
/* This funciton is called once, before the assembler exits. It is
supposed to do any final cleanup for this part of the assembler.
*/
void
md_end()
{
}
/* Equal to MAX_PRECISION in atof-ieee.c */
#define MAX_LITTLENUMS 6
/* Turn a string in input_line_pointer into a floating point constant of type
type, and store the appropriate bytes in *litP. The number of LITTLENUMS
emitted is stored in *sizeP. An error message is returned, or NULL on OK.
*/
char *
md_atof(type,litP,sizeP)
char type;
char *litP;
int *sizeP;
{
int prec;
LITTLENUM_TYPE words[MAX_LITTLENUMS];
LITTLENUM_TYPE *wordP;
char *t;
char *atof_ieee();
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switch (type) {
case 'f':
case 'F':
case 's':
case 'S':
prec = 2;
break;
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case 'd':
case 'D':
case 'r':
case 'R':
prec = 4;
break;
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case 'x':
case 'X':
prec = 6;
break;
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case 'p':
case 'P':
prec = 6;
break;
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default:
*sizeP=0;
return "Bad call to MD_ATOF()";
}
t=atof_ieee(input_line_pointer,type,words);
if (t)
input_line_pointer=t;
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*sizeP=prec * sizeof(LITTLENUM_TYPE);
for (wordP=words;prec--;) {
md_number_to_chars(litP,(long)(*wordP++),sizeof(LITTLENUM_TYPE));
litP+=sizeof(LITTLENUM_TYPE);
}
return ""; /* Someone should teach Dean about null pointers */
}
/* Turn an integer of n bytes (in val) into a stream of bytes appropriate
for use in the a.out file, and stores them in the array pointed to by buf.
This knows about the endian-ness of the target machine and does
THE RIGHT THING, whatever it is. Possible values for n are 1 (byte)
2 (short) and 4 (long) Floating numbers are put out as a series of
LITTLENUMS (shorts, here at least)
*/
void
md_number_to_chars(buf, val, n)
char *buf;
long val;
int n;
{
switch (n) {
case 1:
*buf++=val;
break;
case 2:
*buf++=(val>>8);
*buf++=val;
break;
case 4:
*buf++=(val>>24);
*buf++=(val>>16);
*buf++=(val>>8);
*buf++=val;
break;
default:
as_fatal("failed sanity check.");
}
}
void
md_apply_fix(fixP, val)
fixS *fixP;
long val;
{
char *buf = fixP->fx_where + fixP->fx_frag->fr_literal;
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switch (fixP->fx_size) {
case 1:
*buf++ = val;
break;
case 2:
*buf++ = (val >> 8);
*buf++ = val;
break;
case 4:
*buf++ = (val >> 24);
*buf++ = (val >> 16);
*buf++ = (val >> 8);
*buf++ = val;
break;
default:
BAD_CASE (fixP->fx_size);
}
}
/* *fragP has been relaxed to its final size, and now needs to have
the bytes inside it modified to conform to the new size There is UGLY
MAGIC here. ..
*/
void
md_convert_frag(headers, fragP)
object_headers *headers;
register fragS *fragP;
{
long disp;
long ext = 0;
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/* Address in object code of the displacement. */
register int object_address = fragP->fr_fix + fragP->fr_address;
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#ifdef IBM_COMPILER_SUX
/* This is wrong but it convinces the native rs6000 compiler to
generate the code we want. */
register char *buffer_address = fragP->fr_literal;
buffer_address += fragP->fr_fix;
#else /* IBM_COMPILER_SUX */
/* Address in gas core of the place to store the displacement. */
register char *buffer_address = fragP->fr_fix + fragP->fr_literal;
#endif /* IBM_COMPILER_SUX */
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/* No longer true: know(fragP->fr_symbol); */
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/* The displacement of the address, from current location. */
disp = fragP->fr_symbol ? S_GET_VALUE(fragP->fr_symbol) : 0;
disp = (disp + fragP->fr_offset) - object_address;
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switch (fragP->fr_subtype) {
case TAB(BCC68000,BYTE):
case TAB(BRANCH,BYTE):
know(issbyte(disp));
if (disp == 0)
as_bad("short branch with zero offset: use :w");
fragP->fr_opcode[1]=disp;
ext=0;
break;
case TAB(DBCC,SHORT):
know(issword(disp));
ext=2;
break;
case TAB(BCC68000,SHORT):
case TAB(BRANCH,SHORT):
know(issword(disp));
fragP->fr_opcode[1]=0x00;
ext=2;
break;
case TAB(BRANCH,LONG):
if (cpu_of_arch(current_architecture) < m68020) {
if (fragP->fr_opcode[0] == 0x61) {
fragP->fr_opcode[0]= 0x4E;
fragP->fr_opcode[1]= 0xB9; /* JBSR with ABSL LONG offset */
subseg_change(SEG_TEXT, 0);
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fix_new(fragP,
fragP->fr_fix,
4,
fragP->fr_symbol,
0,
fragP->fr_offset,
0,
FIX_NO_RELOC);
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fragP->fr_fix+=4;
ext=0;
} else if (fragP->fr_opcode[0] == 0x60) {
fragP->fr_opcode[0]= 0x4E;
fragP->fr_opcode[1]= 0xF9; /* JMP with ABSL LONG offset */
subseg_change(SEG_TEXT, 0);
fix_new(fragP, fragP->fr_fix, 4, fragP->fr_symbol, 0, fragP->fr_offset,0,
FIX_NO_RELOC);
fragP->fr_fix+=4;
ext=0;
} else {
as_bad("Long branch offset not supported.");
}
} else {
fragP->fr_opcode[1]=0xff;
ext=4;
}
break;
case TAB(BCC68000,LONG):
/* only Bcc 68000 instructions can come here */
/* change bcc into b!cc/jmp absl long */
fragP->fr_opcode[0] ^= 0x01; /* invert bcc */
fragP->fr_opcode[1] = 0x6; /* branch offset = 6 */
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/* JF: these used to be fr_opcode[2,3], but they may be in a
different frag, in which case refering to them is a no-no.
Only fr_opcode[0,1] are guaranteed to work. */
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*buffer_address++ = 0x4e; /* put in jmp long (0x4ef9) */
*buffer_address++ = 0xf9;
fragP->fr_fix += 2; /* account for jmp instruction */
subseg_change(SEG_TEXT,0);
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fix_new(fragP, fragP->fr_fix, 4, fragP->fr_symbol, 0,
fragP->fr_offset,0,
FIX_NO_RELOC);
fragP->fr_fix += 4;
ext=0;
break;
case TAB(DBCC,LONG):
/* only DBcc 68000 instructions can come here */
/* change dbcc into dbcc/jmp absl long */
/* JF: these used to be fr_opcode[2-7], but that's wrong */
*buffer_address++ = 0x00; /* branch offset = 4 */
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*buffer_address++ = 0x04;
*buffer_address++ = 0x60; /* put in bra pc+6 */
*buffer_address++ = 0x06;
*buffer_address++ = 0x4e; /* put in jmp long (0x4ef9) */
*buffer_address++ = 0xf9;
fragP->fr_fix += 6; /* account for bra/jmp instructions */
subseg_change(SEG_TEXT,0);
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fix_new(fragP, fragP->fr_fix, 4, fragP->fr_symbol, 0,
fragP->fr_offset,0,
FIX_NO_RELOC);
fragP->fr_fix += 4;
ext=0;
break;
case TAB(FBRANCH,SHORT):
know((fragP->fr_opcode[1]&0x40) == 0);
ext=2;
break;
case TAB(FBRANCH,LONG):
fragP->fr_opcode[1]|=0x40; /* Turn on LONG bit */
ext=4;
break;
case TAB(PCREL,SHORT):
ext=2;
break;
case TAB(PCREL,LONG):
/* The thing to do here is force it to ABSOLUTE LONG, since
PCREL is really trying to shorten an ABSOLUTE address anyway */
/* JF FOO This code has not been tested */
subseg_change(SEG_TEXT,0);
fix_new(fragP, fragP->fr_fix, 4, fragP->fr_symbol, 0, fragP->fr_offset, 0, FIX_NO_RELOC);
if ((fragP->fr_opcode[1] & 0x3F) != 0x3A)
as_bad("Internal error (long PC-relative operand) for insn 0x%04lx at 0x%lx",
fragP->fr_opcode[0],fragP->fr_address);
fragP->fr_opcode[1]&= ~0x3F;
fragP->fr_opcode[1]|=0x39; /* Mode 7.1 */
fragP->fr_fix+=4;
/* md_number_to_chars(buffer_address,
(long)(fragP->fr_symbol->sy_value + fragP->fr_offset),
4); */
ext=0;
break;
case TAB(PCLEA,SHORT):
subseg_change(SEG_TEXT,0);
fix_new(fragP, (int) (fragP->fr_fix), 2, fragP->fr_symbol, (symbolS *) 0, fragP->fr_offset, 1, FIX_NO_RELOC);
fragP->fr_opcode[1] &= ~0x3F;
fragP->fr_opcode[1] |= 0x3A;
ext=2;
break;
case TAB(PCLEA,LONG):
subseg_change(SEG_TEXT,0);
fix_new(fragP, (int) (fragP->fr_fix) + 2, 4, fragP->fr_symbol, (symbolS *) 0, fragP->fr_offset + 2, 1, FIX_NO_RELOC);
*buffer_address++ = 0x01;
*buffer_address++ = 0x70;
fragP->fr_fix+=2;
/* buffer_address+=2; */
ext=4;
break;
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} /* switch on subtype */
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if (ext) {
md_number_to_chars(buffer_address, (long) disp, (int) ext);
fragP->fr_fix += ext;
/* H_SET_TEXT_SIZE(headers, H_GET_TEXT_SIZE(headers) + ext); */
} /* if extending */
1995-05-30 05:05:38 +00:00
return;
} /* md_convert_frag() */
/* Force truly undefined symbols to their maximum size, and generally set up
the frag list to be relaxed
*/
int md_estimate_size_before_relax(fragP, segment)
register fragS *fragP;
segT segment;
{
int old_fix;
register char *buffer_address = fragP->fr_fix + fragP->fr_literal;
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old_fix = fragP->fr_fix;
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/* handle SZ_UNDEF first, it can be changed to BYTE or SHORT */
switch (fragP->fr_subtype) {
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case TAB(BRANCH,SZ_UNDEF): {
if ((fragP->fr_symbol != NULL) /* Not absolute */
&& S_GET_SEGMENT(fragP->fr_symbol) == segment) {
fragP->fr_subtype = TAB(TABTYPE(fragP->fr_subtype), BYTE);
break;
} else if ((fragP->fr_symbol == 0) || (cpu_of_arch(current_architecture) < m68020)) {
/* On 68000, or for absolute value, switch to abs long */
/* FIXME, we should check abs val, pick short or long */
if (fragP->fr_opcode[0] == 0x61) {
fragP->fr_opcode[0]= 0x4E;
fragP->fr_opcode[1]= 0xB9; /* JSR with ABSL LONG offset */
subseg_change(SEG_TEXT, 0);
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fix_new(fragP, fragP->fr_fix, 4,
fragP->fr_symbol, 0, fragP->fr_offset, 0, FIX_NO_RELOC);
fragP->fr_fix+=4;
frag_wane(fragP);
} else if (fragP->fr_opcode[0] == 0x60) {
fragP->fr_opcode[0]= 0x4E;
fragP->fr_opcode[1]= 0xF9; /* JMP with ABSL LONG offset */
subseg_change(SEG_TEXT, 0);
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fix_new(fragP, fragP->fr_fix, 4,
fragP->fr_symbol, 0, fragP->fr_offset, 0, FIX_NO_RELOC);
fragP->fr_fix+=4;
frag_wane(fragP);
} else {
as_warn("Long branch offset to extern symbol not supported.");
}
} else if (flagseen['l']) { /* Symbol is still undefined. Make it simple */
fix_new(fragP, (int) (fragP->fr_fix), 2, fragP->fr_symbol,
(symbolS *) 0, fragP->fr_offset, 1, FIX_NO_RELOC);
fragP->fr_fix += 2;
fragP->fr_opcode[1] = 0x00;
frag_wane(fragP);
} else {
fix_new(fragP, (int) (fragP->fr_fix), 4, fragP->fr_symbol,
(symbolS *) 0, fragP->fr_offset, 1,
#ifdef PIC
/* With -k, make all external branches go via the jump table. */
(picmode? RELOC_JMP_TBL: NO_RELOC), NULL
#else
NO_RELOC
#endif
);
fragP->fr_fix += 4;
fragP->fr_opcode[1] = 0xff;
frag_wane(fragP);
break;
}
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break;
} /* case TAB(BRANCH,SZ_UNDEF) */
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case TAB(FBRANCH,SZ_UNDEF): {
if (S_GET_SEGMENT(fragP->fr_symbol) == segment || flagseen['l']) {
fragP->fr_subtype = TAB(FBRANCH,SHORT);
fragP->fr_var += 2;
} else {
fragP->fr_subtype = TAB(FBRANCH,LONG);
fragP->fr_var += 4;
}
break;
} /* TAB(FBRANCH,SZ_UNDEF) */
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case TAB(PCREL,SZ_UNDEF): {
if (S_GET_SEGMENT(fragP->fr_symbol) == segment || flagseen['l']) {
fragP->fr_subtype = TAB(PCREL,SHORT);
fragP->fr_var += 2;
} else {
fragP->fr_subtype = TAB(PCREL,LONG);
fragP->fr_var += 4;
}
break;
} /* TAB(PCREL,SZ_UNDEF) */
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case TAB(BCC68000,SZ_UNDEF): {
if ((fragP->fr_symbol != NULL)
&& S_GET_SEGMENT(fragP->fr_symbol) == segment) {
fragP->fr_subtype=TAB(BCC68000,BYTE);
break;
}
/* only Bcc 68000 instructions can come here */
/* change bcc into b!cc/jmp absl long */
fragP->fr_opcode[0] ^= 0x01; /* invert bcc */
if (flagseen['l']) {
fragP->fr_opcode[1] = 0x04; /* branch offset = 6 */
/* JF: these were fr_opcode[2,3] */
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buffer_address[0] = 0x4e; /* put in jmp long (0x4ef9) */
buffer_address[1] = 0xf8;
fragP->fr_fix += 2; /* account for jmp instruction */
subseg_change(SEG_TEXT,0);
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fix_new(fragP, fragP->fr_fix, 2, fragP->fr_symbol, 0,
fragP->fr_offset, 0, FIX_NO_RELOC);
fragP->fr_fix += 2;
} else {
fragP->fr_opcode[1] = 0x06; /* branch offset = 6 */
/* JF: these were fr_opcode[2,3] */
1995-05-30 05:05:38 +00:00
buffer_address[2] = 0x4e; /* put in jmp long (0x4ef9) */
buffer_address[3] = 0xf9;
fragP->fr_fix += 2; /* account for jmp instruction */
subseg_change(SEG_TEXT,0);
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fix_new(fragP, fragP->fr_fix, 4, fragP->fr_symbol, 0,
fragP->fr_offset, 0, FIX_NO_RELOC);
fragP->fr_fix += 4;
}
frag_wane(fragP);
break;
} /* case TAB(BCC68000,SZ_UNDEF) */
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case TAB(DBCC,SZ_UNDEF): {
if (fragP->fr_symbol != NULL && S_GET_SEGMENT(fragP->fr_symbol) == segment) {
fragP->fr_subtype=TAB(DBCC,SHORT);
fragP->fr_var+=2;
break;
}
/* only DBcc 68000 instructions can come here */
/* change dbcc into dbcc/jmp absl long */
/* JF: these used to be fr_opcode[2-4], which is wrong. */
buffer_address[0] = 0x00; /* branch offset = 4 */
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buffer_address[1] = 0x04;
buffer_address[2] = 0x60; /* put in bra pc + ... */
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if (flagseen['l']) {
/* JF: these were fr_opcode[5-7] */
buffer_address[3] = 0x04; /* plus 4 */
buffer_address[4] = 0x4e;/* Put in Jump Word */
buffer_address[5] = 0xf8;
fragP->fr_fix += 6; /* account for bra/jmp instruction */
subseg_change(SEG_TEXT,0);
1995-05-30 05:05:38 +00:00
fix_new(fragP, fragP->fr_fix, 2, fragP->fr_symbol, 0,
fragP->fr_offset, 0, FIX_NO_RELOC);
fragP->fr_fix += 2;
} else {
/* JF: these were fr_opcode[5-7] */
buffer_address[3] = 0x06; /* Plus 6 */
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buffer_address[4] = 0x4e; /* put in jmp long (0x4ef9) */
buffer_address[5] = 0xf9;
fragP->fr_fix += 6; /* account for bra/jmp instruction */
subseg_change(SEG_TEXT,0);
1995-05-30 05:05:38 +00:00
fix_new(fragP, fragP->fr_fix, 4, fragP->fr_symbol, 0,
fragP->fr_offset, 0, FIX_NO_RELOC);
fragP->fr_fix += 4;
}
1995-05-30 05:05:38 +00:00
frag_wane(fragP);
break;
} /* case TAB(DBCC,SZ_UNDEF) */
1995-05-30 05:05:38 +00:00
case TAB(PCLEA,SZ_UNDEF): {
if ((S_GET_SEGMENT(fragP->fr_symbol)) == segment || flagseen['l']) {
fragP->fr_subtype=TAB(PCLEA,SHORT);
fragP->fr_var+=2;
} else {
fragP->fr_subtype=TAB(PCLEA,LONG);
fragP->fr_var+=6;
}
break;
} /* TAB(PCLEA,SZ_UNDEF) */
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default:
break;
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} /* switch on subtype looking for SZ_UNDEF's. */
1995-05-30 05:05:38 +00:00
/* now that SZ_UNDEF are taken care of, check others */
switch (fragP->fr_subtype) {
case TAB(BCC68000,BYTE):
case TAB(BRANCH,BYTE):
/* We can't do a short jump to the next instruction,
so we force word mode. */
if (fragP->fr_symbol && S_GET_VALUE(fragP->fr_symbol) == 0 &&
fragP->fr_symbol->sy_frag == fragP->fr_next) {
fragP->fr_subtype=TAB(TABTYPE(fragP->fr_subtype),SHORT);
fragP->fr_var+=2;
}
break;
default:
break;
}
return fragP->fr_var + fragP->fr_fix - old_fix;
}
#if defined(OBJ_AOUT) | defined(OBJ_BOUT)
1995-05-30 05:05:38 +00:00
/* the bit-field entries in the relocation_info struct plays hell
with the byte-order problems of cross-assembly. So as a hack,
I added this mach. dependent ri twiddler. Ugly, but it gets
you there. -KWK */
/* on m68k: first 4 bytes are normal unsigned long, next three bytes
are symbolnum, most sig. byte first. Last byte is broken up with
bit 7 as pcrel, bits 6 & 5 as length, bit 4 as pcrel, and the lower
nibble as nuthin. (on Sun 3 at least) */
/* Translate the internal relocation information into target-specific
format. */
#ifdef comment
void
md_ri_to_chars(the_bytes, ri)
char *the_bytes;
struct reloc_info_generic *ri;
{
/* this is easy */
md_number_to_chars(the_bytes, ri->r_address, 4);
/* now the fun stuff */
the_bytes[4] = (ri->r_symbolnum >> 16) & 0x0ff;
the_bytes[5] = (ri->r_symbolnum >> 8) & 0x0ff;
the_bytes[6] = ri->r_symbolnum & 0x0ff;
1995-05-30 05:05:38 +00:00
the_bytes[7] = (((ri->r_pcrel << 7) & 0x80) | ((ri->r_length << 5) & 0x60) |
((ri->r_extern << 4) & 0x10));
}
#endif /* comment */
void tc_aout_fix_to_chars(where, fixP, segment_address_in_file)
char *where;
fixS *fixP;
relax_addressT segment_address_in_file;
{
/*
* In: length of relocation (or of address) in chars: 1, 2 or 4.
* Out: GNU LD relocation length code: 0, 1, or 2.
*/
static unsigned char nbytes_r_length[] = { 42, 0, 1, 42, 2 };
long r_symbolnum;
int r_flags;
know(fixP->fx_addsy != NULL);
1995-05-30 05:05:38 +00:00
md_number_to_chars(where,
fixP->fx_frag->fr_address + fixP->fx_where - segment_address_in_file,
4);
1995-05-30 05:05:38 +00:00
r_symbolnum = (S_IS_DEFINED(fixP->fx_addsy)
? S_GET_TYPE(fixP->fx_addsy)
: fixP->fx_addsy->sy_number);
r_flags = (fixP->fx_pcrel? 0x80: 0)
| ((nbytes_r_length[fixP->fx_size] & 3) << 5)
| (!S_IS_DEFINED(fixP->fx_addsy)? 0x10: 0);
#ifdef PIC
switch (fixP->fx_r_type) {
case NO_RELOC:
break;
case RELOC_32:
if (picmode && S_IS_EXTERNAL(fixP->fx_addsy)) {
r_symbolnum = fixP->fx_addsy->sy_number;
r_flags |= 0x10; /* set extern bit */
}
break;
case RELOC_GLOB_DAT:
r_flags |= 8; /* set baserel bit */
r_symbolnum = fixP->fx_addsy->sy_number;
if (S_IS_EXTERNAL(fixP->fx_addsy))
r_flags |= 0x10;
break;
case RELOC_JMP_TBL:
r_flags |= 4; /* set jmptable bit */
break;
case RELOC_RELATIVE:
/* should never happen */
r_flags |= 2; /* set relative bit */
break;
}
#endif /* PIC */
1995-05-30 05:05:38 +00:00
where[4] = (r_symbolnum >> 16) & 0x0ff;
where[5] = (r_symbolnum >> 8) & 0x0ff;
where[6] = r_symbolnum & 0x0ff;
where[7] = r_flags;
1995-05-30 05:05:38 +00:00
return;
} /* tc_aout_fix_to_chars() */
#endif /* OBJ_AOUT or OBJ_BOUT */
#ifndef WORKING_DOT_WORD
const int md_short_jump_size = 4;
const int md_long_jump_size = 6;
void
md_create_short_jump(ptr,from_addr,to_addr,frag,to_symbol)
char *ptr;
long from_addr,
to_addr;
fragS *frag;
symbolS *to_symbol;
{
long offset;
1995-05-30 05:05:38 +00:00
offset = to_addr - (from_addr+2);
1995-05-30 05:05:38 +00:00
md_number_to_chars(ptr ,(long)0x6000,2);
md_number_to_chars(ptr+2,(long)offset,2);
}
void
md_create_long_jump(ptr,from_addr,to_addr,frag,to_symbol)
char *ptr;
long from_addr,
to_addr;
fragS *frag;
symbolS *to_symbol;
{
long offset;
1995-05-30 05:05:38 +00:00
if (cpu_of_arch(current_architecture) < m68020) {
offset=to_addr-S_GET_VALUE(to_symbol);
md_number_to_chars(ptr ,(long)0x4EF9,2);
md_number_to_chars(ptr+2,(long)offset,4);
fix_new(frag,(ptr+2)-frag->fr_literal,4,to_symbol,(symbolS *)0,(long)0,0,
FIX_NO_RELOC);
} else {
offset=to_addr - (from_addr+2);
md_number_to_chars(ptr ,(long)0x60ff,2);
md_number_to_chars(ptr+2,(long)offset,4);
}
}
#endif
/* Different values of OK tell what its OK to return. Things that aren't OK are an error (what a shock, no?)
1995-05-30 05:05:38 +00:00
0: Everything is OK
10: Absolute 1:8 only
20: Absolute 0:7 only
30: absolute 0:15 only
40: Absolute 0:31 only
50: absolute 0:127 only
55: absolute -64:63 only
60: absolute -128:127 only
70: absolute 0:4095 only
80: No bignums
1995-05-30 05:05:38 +00:00
*/
static int get_num(exp,ok)
struct m68k_exp *exp;
int ok;
{
#ifdef TEST2
long l = 0;
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if (!exp->e_beg)
return 0;
if (*exp->e_beg == '0') {
if (exp->e_beg[1] == 'x')
sscanf(exp->e_beg+2,"%x",&l);
else
sscanf(exp->e_beg+1,"%O",&l);
return l;
}
return atol(exp->e_beg);
#else
char *save_in;
char c_save;
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if (!exp) {
/* Can't do anything */
return 0;
}
if (!exp->e_beg || !exp->e_end) {
seg(exp)=SEG_ABSOLUTE;
adds(exp)=0;
subs(exp)=0;
offs(exp)= (ok == 10) ? 1 : 0;
as_warn("Null expression defaults to %ld",offs(exp));
return 0;
}
1995-05-30 05:05:38 +00:00
exp->e_siz=0;
if (/* ok != 80 && */exp->e_end[-1] == ':' && (exp->e_end-exp->e_beg) >= 2) {
switch (exp->e_end[0]) {
case 's':
case 'S':
case 'b':
case 'B':
exp->e_siz=1;
break;
case 'w':
case 'W':
exp->e_siz=2;
break;
case 'l':
case 'L':
exp->e_siz=3;
break;
default:
as_bad("Unknown size for expression \"%c\"",exp->e_end[0]);
}
exp->e_end-=2;
}
c_save=exp->e_end[1];
exp->e_end[1]='\0';
save_in=input_line_pointer;
input_line_pointer=exp->e_beg;
switch (expression(&(exp->e_exp))) {
case SEG_PASS1:
seg(exp)=SEG_ABSOLUTE;
adds(exp)=0;
subs(exp)=0;
offs(exp)= (ok == 10) ? 1 : 0;
as_warn("Unknown expression: '%s' defaulting to %d",exp->e_beg,offs(exp));
break;
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case SEG_ABSENT:
/* Do the same thing the VAX asm does */
seg(exp)=SEG_ABSOLUTE;
adds(exp)=0;
subs(exp)=0;
offs(exp)=0;
if (ok == 10) {
as_warn("expression out of range: defaulting to 1");
offs(exp)=1;
}
break;
case SEG_ABSOLUTE:
switch (ok) {
case 10:
if (offs(exp)<1 || offs(exp)>8) {
as_warn("expression out of range: defaulting to 1");
offs(exp)=1;
}
break;
case 20:
if (offs(exp)<0 || offs(exp)>7)
goto outrange;
break;
case 30:
if (offs(exp)<0 || offs(exp)>15)
goto outrange;
break;
case 40:
if (offs(exp)<0 || offs(exp)>32)
goto outrange;
break;
case 50:
if (offs(exp)<0 || offs(exp)>127)
goto outrange;
break;
case 55:
if (offs(exp)<-64 || offs(exp)>63)
goto outrange;
break;
case 60:
if (offs(exp)<-128 || offs(exp)>127)
goto outrange;
break;
case 70:
if (offs(exp)<0 || offs(exp)>4095) {
outrange:
as_warn("expression out of range: defaulting to 0");
offs(exp)=0;
}
break;
default:
break;
}
break;
case SEG_TEXT:
case SEG_DATA:
case SEG_BSS:
case SEG_UNKNOWN:
case SEG_DIFFERENCE:
if (ok >= 10 && ok <= 70) {
seg(exp)=SEG_ABSOLUTE;
adds(exp)=0;
subs(exp)=0;
offs(exp)= (ok == 10) ? 1 : 0;
as_warn("Can't deal with expression \"%s\": defaulting to %ld",exp->e_beg,offs(exp));
}
break;
case SEG_BIG:
if (ok == 80 && offs(exp)<0) { /* HACK! Turn it into a long */
LITTLENUM_TYPE words[6];
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gen_to_words(words,2,8L);/* These numbers are magic! */
seg(exp)=SEG_ABSOLUTE;
adds(exp)=0;
subs(exp)=0;
offs(exp)=words[1]|(words[0]<<16);
} else if (ok != 0) {
seg(exp)=SEG_ABSOLUTE;
adds(exp)=0;
subs(exp)=0;
offs(exp)= (ok == 10) ? 1 : 0;
as_warn("Can't deal with expression \"%s\": defaulting to %ld",exp->e_beg,offs(exp));
}
break;
default:
as_fatal("failed sanity check.");
}
if (input_line_pointer != exp->e_end+1)
as_bad("Ignoring junk after expression");
exp->e_end[1]=c_save;
input_line_pointer=save_in;
if (exp->e_siz) {
switch (exp->e_siz) {
case 1:
if (!isbyte(offs(exp)))
as_warn("expression doesn't fit in BYTE");
break;
case 2:
if (!isword(offs(exp)))
as_warn("expression doesn't fit in WORD");
break;
}
}
return offs(exp);
#endif
} /* get_num() */
/* These are the back-ends for the various machine dependent pseudo-ops. */
void demand_empty_rest_of_line(); /* Hate those extra verbose names */
static void s_data1() {
subseg_new(SEG_DATA,1);
demand_empty_rest_of_line();
} /* s_data1() */
static void s_data2() {
subseg_new(SEG_DATA,2);
demand_empty_rest_of_line();
} /* s_data2() */
static void s_bss() {
/* We don't support putting frags in the BSS segment, but we
can put them into initialized data for now... */
subseg_new(SEG_DATA,255); /* FIXME-SOON */
demand_empty_rest_of_line();
} /* s_bss() */
static void s_even() {
register int temp;
register long temp_fill;
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temp = 1; /* JF should be 2? */
temp_fill = get_absolute_expression ();
if ( ! need_pass_2 ) /* Never make frag if expect extra pass. */
frag_align (temp, (int)temp_fill);
demand_empty_rest_of_line();
} /* s_even() */
static void s_proc() {
demand_empty_rest_of_line();
} /* s_proc() */
/* s_space is defined in read.c .skip is simply an alias to it. */
/*
* md_parse_option
* Invocation line includes a switch not recognized by the base assembler.
* See if it's a processor-specific option. These are:
*
* -[A]m[c]68000, -[A]m[c]68008, -[A]m[c]68010, -[A]m[c]68020, -[A]m[c]68030, -[A]m[c]68040
* -[A]m[c]68881, -[A]m[c]68882, -[A]m[c]68851
* Select the architecture. Instructions or features not
* supported by the selected architecture cause fatal
* errors. More than one may be specified. The default is
* -m68020 -m68851 -m68881. Note that -m68008 is a synonym
* for -m68000, and -m68882 is a synonym for -m68881.
*
* MAYBE_FLOAT_TOO is defined below so that specifying a processor type
* (e.g. m68020) also requests that float instructions be included. This
* is the default setup, mostly to avoid hassling users. A better
* rearrangement of this structure would be to add an option to DENY
* floating point opcodes, for people who want to really know there's none
* of that funny floaty stuff going on. FIXME-later.
*/
#ifndef MAYBE_FLOAT_TOO
#define MAYBE_FLOAT_TOO m68881
#endif
int md_parse_option(argP,cntP,vecP)
char **argP;
int *cntP;
char ***vecP;
{
switch (**argP) {
case 'l': /* -l means keep external to 2 bit offset
rather than 16 bit one */
break;
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case 'S': /* -S means that jbsr's always turn into jsr's. */
break;
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case 'A':
(*argP)++;
/* intentional fall-through */
case 'm':
(*argP)++;
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if (**argP == 'c') {
(*argP)++;
} /* allow an optional "c" */
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if (!strcmp(*argP, "68000")
|| !strcmp(*argP, "68008")) {
current_architecture |= m68000;
} else if (!strcmp(*argP, "68010")) {
#ifdef TE_SUN
omagic= 1<<16|OMAGIC;
#endif
current_architecture |= m68010;
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} else if (!strcmp(*argP, "68020")) {
current_architecture |= m68020 | MAYBE_FLOAT_TOO;
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} else if (!strcmp(*argP, "68030")) {
current_architecture |= m68030 | MAYBE_FLOAT_TOO;
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} else if (!strcmp(*argP, "68040")) {
current_architecture |= m68040 | MAYBE_FLOAT_TOO;
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} else if (!strcmp(*argP, "68060")) {
current_architecture |= m68040 | MAYBE_FLOAT_TOO;
#ifndef NO_68881
} else if (!strcmp(*argP, "68881")) {
current_architecture |= m68881;
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} else if (!strcmp(*argP, "68882")) {
current_architecture |= m68882;
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#endif /* NO_68881 */
#ifndef NO_68851
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} else if (!strcmp(*argP,"68851")) {
current_architecture |= m68851;
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#endif /* NO_68851 */
} else {
as_warn("Unknown architecture, \"%s\". option ignored", *argP);
} /* switch on architecture */
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while (**argP) (*argP)++;
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break;
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case 'p':
if (!strcmp(*argP,"pic")) {
(*argP) += 3;
break; /* -pic, Position Independent Code */
} else {
return(0);
} /* pic or not */
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#ifdef PIC
case 'k':
case 'K':
/* Predefine GOT symbol */
GOT_symbol = symbol_find_or_make("__GLOBAL_OFFSET_TABLE_");
break;
#endif /* PIC */
default:
return 0;
}
return 1;
}
#ifdef TEST2
/* TEST2: Test md_assemble() */
/* Warning, this routine probably doesn't work anymore */
main()
{
struct m68k_it the_ins;
char buf[120];
char *cp;
int n;
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m68k_ip_begin();
for (;;) {
if (!gets(buf) || !*buf)
break;
if (buf[0] == '|' || buf[1] == '.')
continue;
for (cp=buf;*cp;cp++)
if (*cp == '\t')
*cp=' ';
if (is_label(buf))
continue;
memset(&the_ins, '\0', sizeof(the_ins));
m68k_ip(&the_ins,buf);
if (the_ins.error) {
printf("Error %s in %s\n",the_ins.error,buf);
} else {
printf("Opcode(%d.%s): ",the_ins.numo,the_ins.args);
for (n=0;n<the_ins.numo;n++)
printf(" 0x%x",the_ins.opcode[n]&0xffff);
printf(" ");
print_the_insn(&the_ins.opcode[0],stdout);
(void)putchar('\n');
}
for (n=0;n<strlen(the_ins.args)/2;n++) {
if (the_ins.operands[n].error) {
printf("op%d Error %s in %s\n",n,the_ins.operands[n].error,buf);
continue;
}
printf("mode %d, reg %d, ",the_ins.operands[n].mode,the_ins.operands[n].reg);
if (the_ins.operands[n].b_const)
printf("Constant: '%.*s', ",1+the_ins.operands[n].e_const-the_ins.operands[n].b_const,the_ins.operands[n].b_const);
printf("ireg %d, isiz %d, imul %d, ",the_ins.operands[n].ireg,the_ins.operands[n].isiz,the_ins.operands[n].imul);
if (the_ins.operands[n].b_iadd)
printf("Iadd: '%.*s',",1+the_ins.operands[n].e_iadd-the_ins.operands[n].b_iadd,the_ins.operands[n].b_iadd);
(void)putchar('\n');
}
}
m68k_ip_end();
return 0;
}
is_label(str)
char *str;
{
while (*str == ' ')
str++;
while (*str && *str != ' ')
str++;
if (str[-1] == ':' || str[1] == '=')
return 1;
return 0;
}
#endif
/* Possible states for relaxation:
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0 0 branch offset byte (bra, etc)
0 1 word
0 2 long
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1 0 indexed offsets byte a0@(32,d4:w:1) etc
1 1 word
1 2 long
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2 0 two-offset index word-word a0@(32,d4)@(45) etc
2 1 word-long
2 2 long-word
2 3 long-long
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*/
#ifdef DONTDEF
abort()
{
printf("ABORT!\n");
exit(12);
}
print_frags()
{
fragS *fragP;
extern fragS *text_frag_root;
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for (fragP=text_frag_root;fragP;fragP=fragP->fr_next) {
printf("addr %lu next 0x%x fix %ld var %ld symbol 0x%x offset %ld\n",
fragP->fr_address,fragP->fr_next,fragP->fr_fix,fragP->fr_var,fragP->fr_symbol,fragP->fr_offset);
printf("opcode 0x%x type %d subtype %d\n\n",fragP->fr_opcode,fragP->fr_type,fragP->fr_subtype);
}
fflush(stdout);
return 0;
}
#endif
/* We have no need to default values of symbols. */
/* ARGSUSED */
symbolS *
md_undefined_symbol (name)
char *name;
{
return 0;
}
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/* Parse an operand that is machine-specific.
We just return without modifying the expression if we have nothing
to do. */
/* ARGSUSED */
void
md_operand (expressionP)
expressionS *expressionP;
{
}
/* Round up a section size to the appropriate boundary. */
long
md_section_align (segment, size)
segT segment;
long size;
{
return size; /* Byte alignment is fine */
}
/* Exactly what point is a PC-relative offset relative TO?
On the 68k, they're relative to the address of the offset. */
long
md_pcrel_from (fixP)
fixS *fixP;
{
return(fixP->fx_where + fixP->fx_frag->fr_address);
}
/*
* Local Variables:
* comment-column: 0
* fill-column: 131
* End:
*/
/* end of tc-m68k.c */