simplified a bit, and documented better

This commit is contained in:
ceriel 1990-01-17 16:05:00 +00:00
parent a72bbc0ce2
commit 7913b6800a
6 changed files with 238 additions and 173 deletions

View file

@ -11,6 +11,7 @@
#define THREE_PASS
#define LISTING
#define RELOCATION
#define DEBUG 2 /* as long as we are testing ... */
#undef valu_t
#define valu_t long

View file

@ -1,5 +1,5 @@
/*
* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
* (c) copyright 1990 by the Vrije Universiteit, Amsterdam, The Netherlands.
* See the copyright notice in the ACK home directory, in the file "Copyright".
*/
#define RCSID1 "$Header$"
@ -26,26 +26,43 @@
#define DISPL 16 /* not an addressing mode; used for branch
displacement addressing
*/
#define IMM 17 /* immediate mode (only for internal use) */
#define ABS 18 /* absolute mode (only for internal use) */
#define ABS_DEF 19 /* absolute deferred mode (only for internal use) */
#define ABS 17 /* absolute mode (only for internal use) */
#define IMM 18 /* immediate mode (only for internal use) */
#define REL 19 /* relative mode (only for internal use) */
#define REL_DEF 20 /* relative deferred mode (only for internal
use)
*/
#define PC 15 /* special case */
/* Some mnemonics used in mach5.c */
#define PC 15 /* program counter */
#define BRB 0x11 /* opcode of branch with byte offset */
#define BRW 0x31 /* opcode of branch with word offset */
#define JMP 0x17 /* opcode of jmp instruction */
/* Test if a constant is suitable for literal mode */
#define fit8(z) (lowb(z) == (z))
#define fit16(z) (loww(z) == (z))
#define literal(z) (((z) & ~0x3f) == 0)
/* Declarations for operands */
struct operand {
expr_t exp;
int mode; /* addressing mode */
int reg; /* register used in addressing mode */
int relo; /* index in relocation table for exp */
int size; /* size as imposed by instruction */
int size; /* size as imposed by instruction
-1 indicates bit-field (no immediate mode
allowed)
-2 indicates address (no register mode
or immediate mode allowed)
*/
int index_reg; /* for indexed mode contains index reg,
-1 if not index mode
*/
};
extern struct operand opnd[6];
extern int op_ind;
extern struct operand opnd[6]; /* maximum number of operands of a VAX
instruction is 6
*/
extern int op_ind; /* index in opng array */

View file

@ -1,11 +1,29 @@
/*
* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
* (c) copyright 1990 by the Vrije Universiteit, Amsterdam, The Netherlands.
* See the copyright notice in the ACK home directory, in the file "Copyright".
*/
#define RCSID2 "$Header$"
/*
* VAX-11 machine dependent yacc declarations
* VAX-11 machine dependent yacc declarations
*/
/* operands are indicated with a letter combination:
b - general operand of byte size
w - general operand of word size
l - general operand of long size
u - general operand of > long size (immediate mode is not
implemented for this size, and neither are immediate
floating point encodings
A - an operand of which the address is taken (so, no register
or immediate mode)
V - a bit-field operand (no immediate mode)
Bb - byte offset branch
Bw - word offset branch
Bl - long offset branch
Bx - branch, size of offset determined by instruction
Be - extended conditional branch; the instruction may be replaced
by a reverse-conditional branch over a branch or jump
*/
%token <y_word> REG
@ -25,14 +43,18 @@
%token <y_word> OP5_u_b_u_l_u, OP5_u_w_u_l_u, OP5_w_A_A_w_A, OP5_w_A_b_w_A
%token <y_word> OP6_b_w_A_b_w_A, OP6_l_l_l_l_l_l, OP6_w_A_b_A_w_A,
OP6_w_A_w_A_w_A
%token <y_word>
%type <y_word> OP1_O, OP1_B
%type <y_word> OP2_O_O, OP2_A_O, OP2_O_B, OP2_O_A
%type <y_word> OP3_O_O_O, OP3_O_O_B, OP3_O_O_A, OP3_O_A_A, OP3_O_A_O
%type <y_word> OP4_O_O_O_O, OP4_O_O_O_B, OP4_O_A_O_A, OP4_O_A_A_O,
OP4_O_A_A_A, OP4_A_O_O_A
%type <y_word> OP5_O_A_A_O_A, OP5_O_A_O_O_A, OP5_O_O_O_O_O
%type <y_word> OP6_O_O_O_O_O_O, OP6_O_A_O_A_O_A, OP6_O_O_A_O_O_A
%type <y_word> CASE_O_O_O
/* operand types:
O - the b, w, l, A and V operands (they all fall into the same
syntactic category)
B - branch offsets (these do not result in an addressing mode
byte)
*/
%type <y_word> OP1_O, OP1_B
%type <y_word> OP2_O_O, OP2_O_B
%type <y_word> OP3_O_O_O, OP3_O_O_B
%type <y_word> OP4_O_O_O_O, OP4_O_O_O_B
%type <y_word> OP5_O_O_O_O_O
%type <y_word> OP6_O_O_O_O_O_O
%type <y_word> CASE_O_O_O
%type <y_word> oper

View file

@ -1,8 +1,9 @@
/* $Header$ */
/*
* (c) copyright 1990 by the Vrije Universiteit, Amsterdam, The Netherlands.
* See the copyright notice in the ACK home directory, in the file "Copyright".
*/
#define RCSID3 "$Header$"
/*
* VAX-11 keywords
*/
@ -33,6 +34,8 @@
size.
For now, immediate floating point and immediate values of size > 4 are not
implemented. _u is used for this.
The valu_t field is used for the opcode. Most opcodes take one byte.
The ones that don't take two bytes.
*/
/* integer arithmetic and logical instructions */
@ -409,8 +412,13 @@
/* Other VAX-11 instructions */
0, OP1_Bw, 0xfeff, "bugw", /* ??? */
0, OP1_Bl, 0xfdff, "bugl", /* ??? */
/* BSD 4.3 adb has a different opinion of the bugw and bugl instructions:
it thinks that an addressing mode byte is required. However, according
to the VAX-11 Architecture Reference Manual, Revision 6.1, 1982, the
access type is b, which means that the operand is a branch displacement.
*/
0, OP1_Bw, 0xfeff, "bugw",
0, OP1_Bl, 0xfdff, "bugl",
0, OP3_b_w_A, 0x0c, "prober",
0, OP3_b_w_A, 0x0d, "probew",

View file

@ -5,16 +5,10 @@
#define RCSID4 "$Header$"
/*
* VAX-11 machine dependent yacc syntax rules
*/
* VAX-11 machine dependent yacc syntax rules
*/
/* _b, _w, and _l are ordinary READ/MODIFY/WRITE operands, the letter indicates
the size,
A means effective ADDRESS (must be memory),
B means branch displacement,
V means effective address or register;
Here, no difference is made between Modify and Write.
*/
/* Branch instructions with as yet unknown size get special treatment */
operation
:
@ -27,7 +21,7 @@ operation
emit1((int)$2&0xff);
emit1((int)$2>>8);
}
operands(op_ind);
operands();
}
| OP1_Bx expr { branch($1, $2); }
| OP1_Be expr { op_ind = 0; ext_branch($1, $2); }
@ -45,7 +39,8 @@ OP1_O
: OP1_b { opnd[0].size = 1; $$ = $1; }
| OP1_w { opnd[0].size = 2; $$ = $1; }
| OP1_l { opnd[0].size = 4; $$ = $1; }
| OP1_u
| OP1_A { opnd[0].size = -2; $$ = $1; }
| OP1_u { opnd[0].size = 0; $$ = $1; }
;
OP1_B
@ -71,20 +66,15 @@ OP2_O_O
| OP2_w_l { opnd[0].size = 2; opnd[1].size = 4; $$ = $1; }
| OP2_w_u { opnd[0].size = 2; opnd[1].size = 0; $$ = $1; }
| OP2_w_w { opnd[0].size = 2; opnd[1].size = 2; $$ = $1; }
;
OP2_A_O
: OP2_A_l { opnd[1].size = 4; $$ = $1; }
| OP2_A_l { opnd[0].size = -2;opnd[1].size = 4; $$ = $1; }
| OP2_l_A { opnd[0].size = 4; opnd[1].size = -2;$$ = $1; }
| OP2_A_A { opnd[0].size = -2;opnd[1].size = -2;$$ = $1; }
;
OP2_O_B
: OP2_l_Bb { opnd[0].size = 4; opnd[1].size = 1; $$ = $1; }
;
OP2_O_A
: OP2_l_A { opnd[0].size = 4; $$ = $1; }
;
OP3_O_O_O
: OP3_b_b_b { opnd[0].size = 1; opnd[1].size = 1;
opnd[2].size = 1; $$ = $1;
@ -104,6 +94,21 @@ OP3_O_O_O
| OP3_w_w_w { opnd[0].size = 2; opnd[1].size = 2;
opnd[2].size = 2; $$ = $1;
}
| OP3_b_w_A { opnd[0].size = 1; opnd[1].size = 2;
opnd[2].size = -2; $$ = $1;
}
| OP3_l_w_A { opnd[0].size = 4; opnd[1].size = 2;
opnd[2].size = -2; $$ = $1;
}
| OP3_u_w_A { opnd[0].size = 0; opnd[1].size = 2;
opnd[2].size = -2; $$ = $1;
}
| OP3_w_A_A { opnd[0].size = 2; opnd[1].size = -2;
opnd[2].size = -2; $$ = $1;
}
| OP3_w_A_l { opnd[0].size = 2; opnd[1].size = -2;
opnd[2].size = 4; $$ = $1;
}
;
OP3_O_O_B
@ -115,20 +120,6 @@ OP3_O_O_B
}
;
OP3_O_O_A
: OP3_b_w_A { opnd[0].size = 1; opnd[1].size = 2; $$ = $1; }
| OP3_l_w_A { opnd[0].size = 4; opnd[1].size = 2; $$ = $1; }
| OP3_u_w_A { opnd[0].size = 0; opnd[1].size = 2; $$ = $1; }
;
OP3_O_A_A
: OP3_w_A_A { opnd[0].size = 2; $$ = $1; }
;
OP3_O_A_O
: OP3_w_A_l { opnd[0].size = 2; opnd[2].size = 4; $$ = $1; }
;
OP4_O_O_O_O
: OP4_l_b_V_l { opnd[0].size = 4; opnd[1].size = 1;
opnd[2].size = -1; opnd[3].size = 4;
@ -146,6 +137,22 @@ OP4_O_O_O_O
opnd[2].size = 4; opnd[3].size = 4;
$$ = $1;
}
| OP4_w_A_w_A { opnd[0].size = 2; opnd[1].size = -2;
opnd[2].size = 2; opnd[3].size = -2;
$$ = $1;
}
| OP4_w_A_A_A { opnd[0].size = 2; opnd[1].size = -2;
opnd[2].size = -2; opnd[3].size = -2;
$$ = $1;
}
| OP4_A_l_w_A { opnd[0].size = -2; opnd[1].size = 4;
opnd[2].size = 2; opnd[3].size = -2;
$$ = $1;
}
| OP4_w_A_A_b { opnd[0].size = 2; opnd[1].size = -2;
opnd[2].size = -2; opnd[3].size = 1;
$$ = $1;
}
;
OP4_O_O_O_B
@ -167,32 +174,6 @@ OP4_O_O_O_B
}
;
OP4_O_A_O_A
: OP4_w_A_w_A { opnd[0].size = 2; opnd[2].size = 2; $$ = $1; }
;
OP4_O_A_A_O
: OP4_w_A_A_b { opnd[0].size = 2; opnd[3].size = 1; $$ = $1; }
;
OP4_O_A_A_A
: OP4_w_A_A_A { opnd[0].size = 2; $$ = $1; }
;
OP4_A_O_O_A
: OP4_A_l_w_A { opnd[1].size = 4; opnd[2].size = 2; $$ = $1; }
;
OP5_O_A_A_O_A
: OP5_w_A_A_w_A { opnd[0].size = 2; opnd[3].size = 2; $$ = $1; }
;
OP5_O_A_O_O_A
: OP5_w_A_b_w_A { opnd[0].size = 2; opnd[3].size = 2;
opnd[2].size = 1; $$ = $1;
}
;
OP5_O_O_O_O_O
: OP5_u_b_u_l_u { opnd[0].size = 0; opnd[1].size = 1;
opnd[2].size = 0; opnd[3].size = 4;
@ -202,6 +183,14 @@ OP5_O_O_O_O_O
opnd[2].size = 0; opnd[3].size = 4;
opnd[4].size = 0; $$ = $1;
}
| OP5_w_A_A_w_A { opnd[0].size = 2; opnd[1].size = -2;
opnd[2].size = -2; opnd[3].size = 2;
opnd[4].size = -2; $$ = $1;
}
| OP5_w_A_b_w_A { opnd[0].size = 2; opnd[1].size = -2;
opnd[2].size = 1; opnd[3].size = 2;
opnd[4].size = -2; $$ = $1;
}
;
OP6_O_O_O_O_O_O
@ -210,20 +199,19 @@ OP6_O_O_O_O_O_O
opnd[4].size = 4; opnd[5].size = 4;
$$ = $1;
}
;
OP6_O_A_O_A_O_A
: OP6_w_A_b_A_w_A { opnd[0].size = 2; opnd[2].size = 1;
opnd[4].size = 2; $$ = $1;
| OP6_w_A_b_A_w_A { opnd[0].size = 2; opnd[1].size = -2;
opnd[2].size = 1; opnd[3].size = -2;
opnd[4].size = 2; opnd[5].size = -2;
$$ = $1;
}
| OP6_w_A_w_A_w_A { opnd[0].size = 2; opnd[2].size = 2;
opnd[4].size = 2; $$ = $1;
| OP6_w_A_w_A_w_A { opnd[0].size = 2; opnd[1].size = -2;
opnd[2].size = 2; opnd[3].size = -2;
opnd[4].size = 2; opnd[5].size = -2;
$$ = $1;
}
;
OP6_O_O_A_O_O_A
: OP6_b_w_A_b_w_A { opnd[0].size = 1; opnd[1].size = 2;
opnd[3].size = 1; opnd[4].size = 2;
| OP6_b_w_A_b_w_A { opnd[0].size = 1; opnd[1].size = 2;
opnd[2].size = -2; opnd[3].size = 1;
opnd[4].size = 2; opnd[5].size = -2;
$$ = $1;
}
;
@ -243,7 +231,6 @@ CASE_O_O_O
oper
: OP0
| OP1_O opnd { $$ = $1; }
| OP1_A ea { $$ = $1; }
| OP1_B expr { $$ = $1;
opnd[0].exp = $2;
RELOMOVE(opnd[0].relo, relonami);
@ -252,8 +239,6 @@ oper
}
| OP2_O_O opnd ',' opnd
{ $$ = $1; }
| OP2_A_O ea ',' opnd
{ $$ = $1; }
| OP2_O_B opnd ',' expr
{ $$ = $1;
opnd[op_ind].exp = $4;
@ -261,10 +246,6 @@ oper
opnd[op_ind].mode = DISPL;
op_ind++;
}
| OP2_A_A ea ',' ea
{ $$ = $1; }
| OP2_O_A opnd ',' ea
{ $$ = $1; }
| OP3_O_O_O opnd ',' opnd ',' opnd
{ $$ = $1; }
| OP3_O_O_B opnd ',' opnd ',' expr
@ -274,12 +255,6 @@ oper
opnd[op_ind].mode = DISPL;
op_ind++;
}
| OP3_O_O_A opnd ',' opnd ',' ea
{ $$ = $1; }
| OP3_O_A_A opnd ',' ea ',' ea
{ $$ = $1; }
| OP3_O_A_O opnd ',' ea ',' opnd
{ $$ = $1; }
| OP4_O_O_O_O opnd ',' opnd ',' opnd ',' opnd
{ $$ = $1; }
| OP4_O_O_O_B opnd ',' opnd ',' opnd ',' expr
@ -289,58 +264,44 @@ oper
opnd[op_ind].mode = DISPL;
op_ind++;
}
| OP4_O_A_O_A opnd ',' ea ',' opnd ',' ea
{ $$ = $1; }
| OP4_O_A_A_O opnd ',' ea ',' ea ',' opnd
{ $$ = $1; }
| OP4_A_O_O_A ea ',' opnd ',' opnd ',' ea
{ $$ = $1; }
| OP4_O_A_A_A opnd ',' ea ',' ea ',' ea
{ $$ = $1; }
| OP5_O_A_A_O_A opnd ',' ea ',' ea ',' opnd ',' ea
{ $$ = $1; }
| OP5_O_A_O_O_A opnd ',' ea ',' opnd ',' opnd ',' ea
{ $$ = $1; }
| OP5_O_O_O_O_O opnd ',' opnd ',' opnd ',' opnd ',' opnd
{ $$ = $1; }
| OP6_O_O_O_O_O_O opnd ',' opnd ',' opnd ',' opnd ',' opnd ',' opnd
{ $$ = $1; }
| OP6_O_A_O_A_O_A opnd ',' ea ',' opnd ',' ea ',' opnd ',' ea
{ $$ = $1; }
| OP6_O_O_A_O_O_A opnd ',' opnd ',' ea ',' opnd ',' opnd ',' ea
{ $$ = $1; }
| CASE_O_O_O opnd ',' opnd ',' opnd
{ $$ = $1; }
;
opnd
: ea
| immediate
| REG { opnd[op_ind].mode = REG_MODE;
: REG { opnd[op_ind].mode = REG_MODE;
opnd[op_ind].reg = $1;
opnd[op_ind].index_reg = -1;
op_ind++;
}
;
ea
: eax { opnd[op_ind].index_reg = -1;
| eax { opnd[op_ind].index_reg = -1;
op_ind++;
}
| eax '[' REG ']' { opnd[op_ind].index_reg = $3;
op_ind++;
}
| immediate '[' REG ']'
{ opnd[op_ind-1].index_reg = $3;
}
;
eax
: expr { opnd[op_ind].exp = $1;
opnd[op_ind].mode = ABS;
: '$' expr { opnd[op_ind].mode = IMM;
opnd[op_ind].exp = $2;
opnd[op_ind].index_reg = -1;
RELOMOVE(opnd[op_ind].relo, relonami);
}
| '*' expr { opnd[op_ind].exp = $2;
opnd[op_ind].mode = ABS_DEF;
opnd[op_ind].mode = REL_DEF;
RELOMOVE(opnd[op_ind].relo, relonami);
}
| expr { opnd[op_ind].exp = $1;
opnd[op_ind].mode = REL;
RELOMOVE(opnd[op_ind].relo, relonami);
}
| '*' '$' expr { opnd[op_ind].mode = ABS;
opnd[op_ind].exp = $3;
opnd[op_ind].index_reg = -1;
RELOMOVE(opnd[op_ind].relo, relonami);
}
| '(' REG ')' { opnd[op_ind].mode = REGDEF_MODE;
@ -370,11 +331,3 @@ eax
}
;
immediate
: '$' expr { opnd[op_ind].mode = IMM;
opnd[op_ind].exp = $2;
opnd[op_ind].index_reg = -1;
RELOMOVE(opnd[op_ind].relo, relonami);
op_ind++;
}
;

View file

@ -8,21 +8,26 @@
* VAX-11 Machine dependent C declarations
*/
/* Opcode of branch on reversed condition. */
#define rev_cond_branch(opc) ((opc) ^ 1)
/* Process one operand. */
static
oprnd(p)
register struct operand *p;
{
/* Process one operand */
int sm;
if (p->index_reg >= 0 && p->mode != DISPL) {
/* indexed mode; emit */
/* Indexed mode; emit */
emit1((INDEX_MODE << 4) | p->index_reg);
}
switch(p->mode) {
case REG_MODE:
if (p->size == -2 && p->index_reg < 0) {
serror("register mode not allowed here");
}
emit1((REG_MODE << 4) | p->reg);
break;
case REGDEF_MODE:
@ -39,7 +44,12 @@ oprnd(p)
break;
case DISPLL_MODE:
case DISPLL_DEF_MODE:
/* Three possible sizes: 1, 2, and 4 (and 0, but this is
not implemented). Therefore, we need two bits in the
optimize table.
*/
if (small(p->exp.typ == S_ABS && fitw(p->exp.val), 2)) {
/* We gained two bytes; see if we can gain another. */
if (small(fitb(p->exp.val), 1)) {
/* DISPLB_MODE or DISPLB_DEF_MODE */
emit1(((p->mode-4)<<4) | p->reg);
@ -51,8 +61,8 @@ oprnd(p)
emit2((int)(p->exp.val));
}
}
else {
small(0, 1); /* dummy call */
else { /* We need 4 bytes here. */
small(0, 1); /* dummy call too keep bits in sync */
emit1((p->mode<<4) | p->reg);
#ifdef RELOCATION
RELOMOVE(relonami, p->relo);
@ -62,7 +72,7 @@ oprnd(p)
}
break;
case DISPL:
/* a displacement */
/* A displacement. The p->size field contains the size. */
p->exp.val -= (DOTVAL + p->size);
if ((pass == PASS_2) &&
(p->exp.val > 0) &&
@ -79,9 +89,18 @@ oprnd(p)
}
if (p->size == 1) emit1((int)(p->exp.val));
else if (p->size == 2) emit2((int)(p->exp.val));
else emit4(p->exp.val);
else {
#ifdef RELOCATION
RELOMOVE(relonami, p->relo);
newrelo(p->exp.typ, RELO4|RELPC);
#endif
emit4(p->exp.val);
}
break;
case IMM:
/* Immediate mode; either literal mode or auto-increment
of program counter.
*/
if (p->size < 0) {
serror("immediate mode not allowed here");
p->size = 4;
@ -121,8 +140,22 @@ oprnd(p)
}
break;
case ABS:
case ABS_DEF:
if (p->mode == ABS) p->mode = DISPLL_MODE;
/* Absolute mode (is auto-increment deferred with respect
to the program counter).
*/
emit1((AI_DEF_MODE << 4) | PC);
#ifdef RELOCATION
RELOMOVE(relonami, p->relo);
newrelo(p->exp.typ, RELO4);
#endif
emit4(p->exp.val);
break;
case REL:
case REL_DEF:
/* Relative or relative deferred is actually displacement
or displacement deferred, but relative to program counter.
*/
if (p->mode == REL) p->mode = DISPLL_MODE;
else p->mode = DISPLL_DEF_MODE;
p->reg = PC;
p->exp.val -= (DOTVAL + 2);
@ -134,6 +167,10 @@ oprnd(p)
) {
p->exp.val -= DOTGAIN;
}
/* Why test for exp.val - 1? Well, if we need a word for
the offset, we actually generate one byte more, and this
is reflected in the value of the program counter.
*/
sm = fitw(p->exp.val - 1);
if ((p->exp.typ & ~S_DOT) != DOTTYP) sm = 0;
if (small(sm, 2)) {
@ -145,6 +182,7 @@ oprnd(p)
else {
/* DISPLW_MODE or DISPLW_DEF_MODE */
emit1(((p->mode-2)<<4) | p->reg);
/* exp.val - 1: see comment above */
emit2((int)(p->exp.val - 1));
}
}
@ -155,6 +193,7 @@ oprnd(p)
RELOMOVE(relonami, p->relo);
newrelo(p->exp.typ, RELO4|RELPC);
#endif
/* exp.val - 3: see comment above */
emit4((long) p->exp.val - 3);
}
break;
@ -163,16 +202,15 @@ oprnd(p)
}
}
/* Give an upper bound on the size of the operands */
static int
size_ops()
{
/* Give an upper bound on the size of the operands
*/
register struct operand *p = &opnd[0];
register int i;
register int sz = 0;
for (i = 0; i < op_ind; i++) {
for (i = op_ind; i > 0; i--) {
if (p->index_reg >= 0 && p->mode != DISPL) {
sz++;
}
@ -186,8 +224,8 @@ size_ops()
break;
case DISPLL_MODE:
case DISPLL_DEF_MODE:
case ABS:
case ABS_DEF:
case REL:
case REL_DEF:
case IMM:
sz += 5;
break;
@ -202,6 +240,7 @@ size_ops()
return sz;
}
/* Branch with byte or word offset */
branch(opc, exp)
expr_t exp;
{
@ -212,8 +251,11 @@ branch(opc, exp)
) {
exp.val -= DOTGAIN;
}
/* For the reason of exp.val-1, see the comment at the generation
of the RELative addressing mode.
*/
if (pass >= PASS_2 &&
((exp.typ & ~S_DOT) != DOTTYP || ! fitw(exp.val-1))) {
((exp.typ & ~S_DOT) != DOTTYP || ! fitw(exp.val - 1))) {
serror("label too far");
}
if (small(fitb(exp.val) && ((exp.typ & ~S_DOT) == DOTTYP), 1)) {
@ -226,11 +268,15 @@ branch(opc, exp)
}
}
/* Extended conditional branch instructions: if offset is too far,
they are replaced by a reversed conditional branch over a word-branch or
jump.
*/
ext_branch(opc, exp)
expr_t exp;
{
int sm;
int gain = opc == 0x11 ? 1 : 3;
int gain = opc == BRB ? 1 : 3;
valu_t val, d2 = DOTVAL + 2;
exp.val -= d2;
@ -240,34 +286,51 @@ ext_branch(opc, exp)
) {
exp.val -= DOTGAIN;
}
/* We have not generated the operands yet and cannot do so
because we don't know the opcode yet and have to generate that
first. Therefore, we make a conservative guess of the size
of the operands in case the branch is backwards. If it is
forwards, the (sizes of the) operands do not matter.
*/
if (exp.val < 0) val = exp.val - size_ops();
else val = exp.val;
sm = fitw(val);
if ((exp.typ & ~S_DOT) != DOTTYP) sm = 0;
/* We gain three bytes if the offset fits in a word; for a
jump we also need an addressing mode byte.
*/
if (small(sm, 3)) {
/* Here we can gain 3 bytes if the extended branch is
conditional and the offset fits in a byte. Otherwise,
if the offset fits in a byte we gain 1 byte.
*/
if (small(fitb(val), gain)) {
emit1(opc);
operands(op_ind);
operands();
/* Adjust exp.val for operand sizes. Keep into account
that we already generated the opcode(!). This
accounts for the "+ 1" instead of "+ 2".
*/
emit1((int) (exp.val - (DOTVAL + 1 - d2)));
}
else {
if (opc != 0x11) {
emit1(opc^1);
operands(op_ind);
if (opc != BRB) {
emit1(rev_cond_branch(opc));
operands();
emit1(3);
}
emit1(0x31);
emit1(BRW);
emit2((int) (exp.val - (DOTVAL + 2 - d2)));
}
}
else {
small(0, gain); /* dummy call */
if (opc != 0x11) {
emit1(opc ^ 1);
operands(op_ind);
small(0, gain); /* dummy call to keep bittab in sync */
if (opc != BRB) {
emit1(rev_cond_branch(opc));
operands();
emit1(6);
}
emit1(0x17); /* jmp */
emit1(JMP);
emit1((DISPLL_MODE << 4) | PC);
#ifdef RELOCATION
newrelo(exp.typ, RELO4|RELPC);
@ -276,11 +339,12 @@ ext_branch(opc, exp)
}
}
operands(cnt)
/* Generate code for the operands */
operands()
{
register int i;
for (i = 0; i < cnt; i++) {
for (i = 0; i < op_ind; i++) {
oprnd(&opnd[i]);
}
}