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%{
/*
* eco32.md -- ECO32 back-end specification
*
* register usage:
* $0 always zero
* $1 reserved for assembler
* $2 func return value
* $3 func return value
* $4 proc/func argument
* $5 proc/func argument
* $6 proc/func argument
* $7 proc/func argument
* $8 temporary register (caller-save)
* $9 temporary register (caller-save)
* $10 temporary register (caller-save)
* $11 temporary register (caller-save)
* $12 temporary register (caller-save)
* $13 temporary register (caller-save)
* $14 temporary register (caller-save)
* $15 temporary register (caller-save)
* $16 register variable (callee-save)
* $17 register variable (callee-save)
* $18 register variable (callee-save)
* $19 register variable (callee-save)
* $20 register variable (callee-save)
* $21 register variable (callee-save)
* $22 register variable (callee-save)
* $23 register variable (callee-save)
* $24 temporary register (caller-save)
* $25 temporary register (caller-save)
* $26 reserved for OS kernel
* $27 reserved for OS kernel
* $28 reserved for OS kernel
* $29 stack pointer
* $30 interrupt return address
* $31 proc/func return address
* caller-save registers are not preserved across procedure calls
* callee-save registers are preserved across procedure calls
*
* tree grammar terminals produced by:
* ops c=1 s=2 i=4 l=4 h=4 f=4 d=8 x=8 p=4
*/
#include "c.h"
#define NODEPTR_TYPE Node
#define OP_LABEL(p) ((p)->op)
#define LEFT_CHILD(p) ((p)->kids[0])
#define RIGHT_CHILD(p) ((p)->kids[1])
#define STATE_LABEL(p) ((p)->x.state)
static void address(Symbol, Symbol, long);
static void defaddress(Symbol);
static void defconst(int, int, Value);
static void defstring(int, char *);
static void defsymbol(Symbol);
static void export(Symbol);
static void function(Symbol, Symbol [], Symbol [], int);
static void global(Symbol);
static void import(Symbol);
static void local(Symbol);
static void progbeg(int, char * []);
static void progend(void);
static void segment(int);
static void space(int);
static Symbol rmap(int);
static void blkfetch(int, int, int, int);
static void blkstore(int, int, int, int);
static void blkloop(int, int, int, int, int, int []);
static void emit2(Node);
static void doarg(Node);
static void target(Node);
static void clobber(Node);
#define INTTMP 0x0100FF00
#define INTVAR 0x00FF0000
#define INTRET 0x00000004
#define FLTTMP 0x000F0FF0
#define FLTVAR 0xFFF00000
#define FLTRET 0x00000003
static Symbol ireg[32];
static Symbol iregw;
static Symbol freg2[32];
static Symbol freg2w;
static Symbol blkreg;
static int tmpregs[] = { 3, 9, 10 };
%}
%start stmt
%term CNSTF4=4113 CNSTF8=8209
%term CNSTI1=1045 CNSTI2=2069 CNSTI4=4117
%term CNSTP4=4119
%term CNSTU1=1046 CNSTU2=2070 CNSTU4=4118
%term ARGB=41
%term ARGF4=4129 ARGF8=8225
%term ARGI4=4133
%term ARGP4=4135
%term ARGU4=4134
%term ASGNB=57
%term ASGNF4=4145 ASGNF8=8241
%term ASGNI1=1077 ASGNI2=2101 ASGNI4=4149
%term ASGNP4=4151
%term ASGNU1=1078 ASGNU2=2102 ASGNU4=4150
%term INDIRB=73
%term INDIRF4=4161 INDIRF8=8257
%term INDIRI1=1093 INDIRI2=2117 INDIRI4=4165
%term INDIRP4=4167
%term INDIRU1=1094 INDIRU2=2118 INDIRU4=4166
%term CVFF4=4209 CVFF8=8305
%term CVFI4=4213
%term CVIF4=4225 CVIF8=8321
%term CVII1=1157 CVII2=2181 CVII4=4229
%term CVIU1=1158 CVIU2=2182 CVIU4=4230
%term CVPU4=4246
%term CVUI1=1205 CVUI2=2229 CVUI4=4277
%term CVUP4=4279
%term CVUU1=1206 CVUU2=2230 CVUU4=4278
%term NEGF4=4289 NEGF8=8385
%term NEGI4=4293
%term CALLB=217
%term CALLF4=4305 CALLF8=8401
%term CALLI4=4309
%term CALLP4=4311
%term CALLU4=4310
%term CALLV=216
%term RETF4=4337 RETF8=8433
%term RETI4=4341
%term RETP4=4343
%term RETU4=4342
%term RETV=248
%term ADDRGP4=4359
%term ADDRFP4=4375
%term ADDRLP4=4391
%term ADDF4=4401 ADDF8=8497
%term ADDI4=4405
%term ADDP4=4407
%term ADDU4=4406
%term SUBF4=4417 SUBF8=8513
%term SUBI4=4421
%term SUBP4=4423
%term SUBU4=4422
%term LSHI4=4437
%term LSHU4=4438
%term MODI4=4453
%term MODU4=4454
%term RSHI4=4469
%term RSHU4=4470
%term BANDI4=4485
%term BANDU4=4486
%term BCOMI4=4501
%term BCOMU4=4502
%term BORI4=4517
%term BORU4=4518
%term BXORI4=4533
%term BXORU4=4534
%term DIVF4=4545 DIVF8=8641
%term DIVI4=4549
%term DIVU4=4550
%term MULF4=4561 MULF8=8657
%term MULI4=4565
%term MULU4=4566
%term EQF4=4577 EQF8=8673
%term EQI4=4581
%term EQU4=4582
%term GEF4=4593 GEF8=8689
%term GEI4=4597
%term GEU4=4598
%term GTF4=4609 GTF8=8705
%term GTI4=4613
%term GTU4=4614
%term LEF4=4625 LEF8=8721
%term LEI4=4629
%term LEU4=4630
%term LTF4=4641 LTF8=8737
%term LTI4=4645
%term LTU4=4646
%term NEF4=4657 NEF8=8753
%term NEI4=4661
%term NEU4=4662
%term JUMPV=584
%term LABELV=600
%term LOADB=233
%term LOADF4=4321 LOADF8=8417
%term LOADI1=1253 LOADI2=2277 LOADI4=4325
%term LOADP4=4327
%term LOADU1=1254 LOADU2=2278 LOADU4=4326
%term VREGP=711
%%
reg: INDIRI1(VREGP) "# read register\n"
reg: INDIRI2(VREGP) "# read register\n"
reg: INDIRI4(VREGP) "# read register\n"
reg: INDIRP4(VREGP) "# read register\n"
reg: INDIRU1(VREGP) "# read register\n"
reg: INDIRU2(VREGP) "# read register\n"
reg: INDIRU4(VREGP) "# read register\n"
stmt: ASGNI1(VREGP,reg) "# write register\n"
stmt: ASGNI2(VREGP,reg) "# write register\n"
stmt: ASGNI4(VREGP,reg) "# write register\n"
stmt: ASGNP4(VREGP,reg) "# write register\n"
stmt: ASGNU1(VREGP,reg) "# write register\n"
stmt: ASGNU2(VREGP,reg) "# write register\n"
stmt: ASGNU4(VREGP,reg) "# write register\n"
con: CNSTI1 "%a"
con: CNSTI2 "%a"
con: CNSTI4 "%a"
con: CNSTP4 "%a"
con: CNSTU1 "%a"
con: CNSTU2 "%a"
con: CNSTU4 "%a"
stmt: reg ""
acon: con "%0"
acon: ADDRGP4 "%a"
addr: ADDI4(reg,acon) "$%0,%1"
addr: ADDP4(reg,acon) "$%0,%1"
addr: ADDU4(reg,acon) "$%0,%1"
addr: acon "$0,%0"
addr: reg "$%0,0"
addr: ADDRFP4 "$29,%a+%F"
addr: ADDRLP4 "$29,%a+%F"
reg: addr "\tadd\t$%c,%0\n" 1
reg: CNSTI1 "# reg\n" range(a, 0, 0)
reg: CNSTI2 "# reg\n" range(a, 0, 0)
reg: CNSTI4 "# reg\n" range(a, 0, 0)
reg: CNSTP4 "# reg\n" range(a, 0, 0)
reg: CNSTU1 "# reg\n" range(a, 0, 0)
reg: CNSTU2 "# reg\n" range(a, 0, 0)
reg: CNSTU4 "# reg\n" range(a, 0, 0)
stmt: ASGNI1(addr,reg) "\tstb\t$%1,%0\n" 1
stmt: ASGNI2(addr,reg) "\tsth\t$%1,%0\n" 1
stmt: ASGNI4(addr,reg) "\tstw\t$%1,%0\n" 1
stmt: ASGNP4(addr,reg) "\tstw\t$%1,%0\n" 1
stmt: ASGNU1(addr,reg) "\tstb\t$%1,%0\n" 1
stmt: ASGNU2(addr,reg) "\tsth\t$%1,%0\n" 1
stmt: ASGNU4(addr,reg) "\tstw\t$%1,%0\n" 1
reg: INDIRI1(addr) "\tldb\t$%c,%0\n" 1
reg: INDIRI2(addr) "\tldh\t$%c,%0\n" 1
reg: INDIRI4(addr) "\tldw\t$%c,%0\n" 1
reg: INDIRP4(addr) "\tldw\t$%c,%0\n" 1
reg: INDIRU1(addr) "\tldbu\t$%c,%0\n" 1
reg: INDIRU2(addr) "\tldhu\t$%c,%0\n" 1
reg: INDIRU4(addr) "\tldw\t$%c,%0\n" 1
reg: CVII4(INDIRI1(addr)) "\tldb\t$%c,%0\n" 1
reg: CVII4(INDIRI2(addr)) "\tldh\t$%c,%0\n" 1
reg: CVUU4(INDIRU1(addr)) "\tldbu\t$%c,%0\n" 1
reg: CVUU4(INDIRU2(addr)) "\tldhu\t$%c,%0\n" 1
reg: CVUI4(INDIRU1(addr)) "\tldbu\t$%c,%0\n" 1
reg: CVUI4(INDIRU2(addr)) "\tldhu\t$%c,%0\n" 1
rc: con "%0"
rc: reg "$%0"
reg: ADDI4(reg,rc) "\tadd\t$%c,$%0,%1\n" 1
reg: ADDP4(reg,rc) "\tadd\t$%c,$%0,%1\n" 1
reg: ADDU4(reg,rc) "\tadd\t$%c,$%0,%1\n" 1
reg: SUBI4(reg,rc) "\tsub\t$%c,$%0,%1\n" 1
reg: SUBP4(reg,rc) "\tsub\t$%c,$%0,%1\n" 1
reg: SUBU4(reg,rc) "\tsub\t$%c,$%0,%1\n" 1
reg: NEGI4(reg) "\tsub\t$%c,$0,$%0\n" 1
reg: MULI4(reg,rc) "\tmul\t$%c,$%0,%1\n" 1
reg: MULU4(reg,rc) "\tmulu\t$%c,$%0,%1\n" 1
reg: DIVI4(reg,rc) "\tdiv\t$%c,$%0,%1\n" 1
reg: DIVU4(reg,rc) "\tdivu\t$%c,$%0,%1\n" 1
reg: MODI4(reg,rc) "\trem\t$%c,$%0,%1\n" 1
reg: MODU4(reg,rc) "\tremu\t$%c,$%0,%1\n" 1
reg: BANDI4(reg,rc) "\tand\t$%c,$%0,%1\n" 1
reg: BANDU4(reg,rc) "\tand\t$%c,$%0,%1\n" 1
reg: BORI4(reg,rc) "\tor\t$%c,$%0,%1\n" 1
reg: BORU4(reg,rc) "\tor\t$%c,$%0,%1\n" 1
reg: BXORI4(reg,rc) "\txor\t$%c,$%0,%1\n" 1
reg: BXORU4(reg,rc) "\txor\t$%c,$%0,%1\n" 1
reg: BCOMI4(reg) "\txnor\t$%c,$0,$%0\n" 1
reg: BCOMU4(reg) "\txnor\t$%c,$0,$%0\n" 1
rc5: CNSTI4 "%a" range(a, 0, 31)
rc5: reg "$%0"
reg: LSHI4(reg,rc5) "\tsll\t$%c,$%0,%1\n" 1
reg: LSHU4(reg,rc5) "\tsll\t$%c,$%0,%1\n" 1
reg: RSHI4(reg,rc5) "\tsar\t$%c,$%0,%1\n" 1
reg: RSHU4(reg,rc5) "\tslr\t$%c,$%0,%1\n" 1
reg: LOADI1(reg) "\tadd\t$%c,$0,$%0\n" move(a)
reg: LOADI2(reg) "\tadd\t$%c,$0,$%0\n" move(a)
reg: LOADI4(reg) "\tadd\t$%c,$0,$%0\n" move(a)
reg: LOADP4(reg) "\tadd\t$%c,$0,$%0\n" move(a)
reg: LOADU1(reg) "\tadd\t$%c,$0,$%0\n" move(a)
reg: LOADU2(reg) "\tadd\t$%c,$0,$%0\n" move(a)
reg: LOADU4(reg) "\tadd\t$%c,$0,$%0\n" move(a)
reg: CVII4(reg) "\tsll\t$%c,$%0,8*(4-%a)\n\tsar\t$%c,$%c,8*(4-%a)\n" 2
reg: CVUI4(reg) "\tand\t$%c,$%0,(1<<(8*%a))-1\n" 1
reg: CVUU4(reg) "\tand\t$%c,$%0,(1<<(8*%a))-1\n" 1
stmt: LABELV "%a:\n"
stmt: JUMPV(acon) "\tj\t%0\n" 1
stmt: JUMPV(reg) "\tjr\t$%0\n" 1
stmt: EQI4(reg,reg) "\tbeq\t$%0,$%1,%a\n" 1
stmt: EQU4(reg,reg) "\tbeq\t$%0,$%1,%a\n" 1
stmt: NEI4(reg,reg) "\tbne\t$%0,$%1,%a\n" 1
stmt: NEU4(reg,reg) "\tbne\t$%0,$%1,%a\n" 1
stmt: LEI4(reg,reg) "\tble\t$%0,$%1,%a\n" 1
stmt: LEU4(reg,reg) "\tbleu\t$%0,$%1,%a\n" 1
stmt: LTI4(reg,reg) "\tblt\t$%0,$%1,%a\n" 1
stmt: LTU4(reg,reg) "\tbltu\t$%0,$%1,%a\n" 1
stmt: GEI4(reg,reg) "\tbge\t$%0,$%1,%a\n" 1
stmt: GEU4(reg,reg) "\tbgeu\t$%0,$%1,%a\n" 1
stmt: GTI4(reg,reg) "\tbgt\t$%0,$%1,%a\n" 1
stmt: GTU4(reg,reg) "\tbgtu\t$%0,$%1,%a\n" 1
reg: CALLI4(ar) "\tjal\t%0\n" 1
reg: CALLP4(ar) "\tjal\t%0\n" 1
reg: CALLU4(ar) "\tjal\t%0\n" 1
stmt: CALLV(ar) "\tjal\t%0\n" 1
ar: ADDRGP4 "%a"
ar: reg "$%0"
ar: CNSTP4 "%a" range(a, 0, 0x03FFFFFF)
stmt: RETI4(reg) "# ret\n" 1
stmt: RETP4(reg) "# ret\n" 1
stmt: RETU4(reg) "# ret\n" 1
stmt: RETV(reg) "# ret\n" 1
stmt: ARGI4(reg) "# arg\n" 1
stmt: ARGP4(reg) "# arg\n" 1
stmt: ARGU4(reg) "# arg\n" 1
stmt: ARGB(INDIRB(reg)) "# argb %0\n" 1
stmt: ASGNB(reg,INDIRB(reg)) "# asgnb %0 %1\n" 1
reg: INDIRF4(VREGP) "# read register\n"
stmt: ASGNF4(VREGP,reg) "# write register\n"
reg: INDIRF4(addr) ";FP: l.s $f%c,%0\n" 1
stmt: ASGNF4(addr,reg) ";FP: s.s $f%1,%0\n" 1
reg: ADDF4(reg,reg) ";FP: add.s $f%c,$f%0,$f%1\n" 1
reg: SUBF4(reg,reg) ";FP: sub.s $f%c,$f%0,$f%1\n" 1
reg: MULF4(reg,reg) ";FP: mul.s $f%c,$f%0,$f%1\n" 1
reg: DIVF4(reg,reg) ";FP: div.s $f%c,$f%0,$f%1\n" 1
reg: LOADF4(reg) ";FP: mov.s $f%c,$f%0\n" 1
reg: NEGF4(reg) ";FP: neg.s $f%c,$f%0\n" 1
reg: CVFF4(reg) ";FP: cvt.s.d $f%c,$f%0\n" 1
reg: CVIF4(reg) ";FP: mtc1 $%0,$f%c; cvt.s.w $f%c,$f%c\n" 1
reg: CVFI4(reg) ";FP: trunc.w.s $f2,$f%0,$%c; mfc1 $%c,$f2\n" (a->syms[0]->u.c.v.i == 4 ? 1 : LBURG_MAX)
stmt: EQF4(reg,reg) ";FP: c.eq.s $f%0,$f%1; bc1t %a\n" 1
stmt: LEF4(reg,reg) ";FP: c.ule.s $f%0,$f%1; bc1t %a\n" 1
stmt: LTF4(reg,reg) ";FP: c.ult.s $f%0,$f%1; bc1t %a\n" 1
stmt: GEF4(reg,reg) ";FP: c.lt.s $f%0,$f%1; bc1f %a\n" 1
stmt: GTF4(reg,reg) ";FP: c.le.s $f%0,$f%1; bc1f %a\n" 1
stmt: NEF4(reg,reg) ";FP: c.eq.s $f%0,$f%1; bc1f %a\n" 1
reg: CALLF4(ar) "\tjal\t%0\n" 1
stmt: RETF4(reg) "# ret\n" 1
stmt: ARGF4(reg) "# arg\n" 1
reg: INDIRF8(VREGP) "# read register\n"
stmt: ASGNF8(VREGP,reg) "# write register\n"
reg: INDIRF8(addr) ";FP: l.d $f%c,%0\n" 1
stmt: ASGNF8(addr,reg) ";FP: s.d $f%1,%0\n" 1
reg: ADDF8(reg,reg) ";FP: add.d $f%c,$f%0,$f%1\n" 1
reg: SUBF8(reg,reg) ";FP: sub.d $f%c,$f%0,$f%1\n" 1
reg: MULF8(reg,reg) ";FP: mul.d $f%c,$f%0,$f%1\n" 1
reg: DIVF8(reg,reg) ";FP: div.d $f%c,$f%0,$f%1\n" 1
reg: LOADF8(reg) ";FP: mov.d $f%c,$f%0\n" 1
reg: NEGF8(reg) ";FP: neg.d $f%c,$f%0\n" 1
reg: CVFF8(reg) ";FP: cvt.d.s $f%c,$f%0\n" 1
reg: CVIF8(reg) ";FP: mtc1 $%0,$f%c; cvt.d.w $f%c,$f%c\n" 1
reg: CVFI4(reg) ";FP: trunc.w.d $f2,$f%0,$%c; mfc1 $%c,$f2\n" (a->syms[0]->u.c.v.i == 8 ? 1 : LBURG_MAX)
stmt: EQF8(reg,reg) ";FP: c.eq.d $f%0,$f%1; bc1t %a\n" 1
stmt: LEF8(reg,reg) ";FP: c.ule.d $f%0,$f%1; bc1t %a\n" 1
stmt: LTF8(reg,reg) ";FP: c.ult.d $f%0,$f%1; bc1t %a\n" 1
stmt: GEF8(reg,reg) ";FP: c.lt.d $f%0,$f%1; bc1f %a\n" 1
stmt: GTF8(reg,reg) ";FP: c.le.d $f%0,$f%1; bc1f %a\n" 1
stmt: NEF8(reg,reg) ";FP: c.eq.d $f%0,$f%1; bc1f %a\n" 1
reg: CALLF8(ar) "\tjal\t%0\n" 1
stmt: RETF8(reg) "# ret\n" 1
stmt: ARGF8(reg) "# arg\n" 1
%%
static void address(Symbol s1, Symbol s2, long n) {
if (s2->scope == GLOBAL ||
s2->sclass == STATIC ||
s2->sclass == EXTERN) {
s1->x.name = stringf("%s%s%D", s2->x.name, n >= 0 ? "+" : "", n);
} else {
assert(n >= INT_MIN && n <= INT_MAX);
s1->x.offset = s2->x.offset + n;
s1->x.name = stringd(s1->x.offset);
}
}
static void defaddress(Symbol s) {
print("\t.word\t%s\n", s->x.name);
}
static void defconst(int suffix, int size, Value v) {
float f;
double d;
unsigned *p;
if (suffix == F && size == 4) {
f = v.d;
print("\t.word\t0x%x\n", * (unsigned *) &f);
} else
if (suffix == F && size == 8) {
d = v.d;
p = (unsigned *) &d;
print("\t.word\t0x%x\n", p[swap]);
print("\t.word\t0x%x\n", p[1 - swap]);
} else
if (suffix == P) {
print("\t.word\t0x%X\n", (unsigned long) v.p);
} else
if (size == 1) {
print("\t.byte\t0x%x\n",
(unsigned) ((unsigned char) (suffix == I ? v.i : v.u)));
} else
if (size == 2) {
print("\t.half\t0x%x\n",
(unsigned) ((unsigned short) (suffix == I ? v.i : v.u)));
} else
if (size == 4) {
print("\t.word\t0x%x\n", (unsigned) (suffix == I ? v.i : v.u));
}
}
static void defstring(int n, char *str) {
char *s;
for (s = str; s < str + n; s++) {
print("\t.byte\t0x%x\n", (*s) & 0xFF);
}
}
static void defsymbol(Symbol s) {
if (s->scope >= LOCAL && s->sclass == STATIC) {
s->x.name = stringf("L.%d", genlabel(1));
} else
if (s->generated) {
s->x.name = stringf("L.%s", s->name);
} else {
assert(s->scope != CONSTANTS || isint(s->type) || isptr(s->type));
s->x.name = s->name;
}
}
static void export(Symbol s) {
print("\t.export\t%s\n", s->name);
}
static int bitcount(unsigned mask) {
unsigned i, n;
n = 0;
for (i = 1; i != 0; i <<= 1) {
if (mask & i) {
n++;
}
}
return n;
}
static Symbol argreg(int argno, int offset, int ty, int sz, int ty0) {
assert((offset & 3) == 0);
if (offset > 12) {
return NULL;
}
return ireg[(offset / 4) + 4];
}
static void function(Symbol f, Symbol caller[], Symbol callee[], int ncalls) {
int i;
Symbol p, q;
Symbol r;
int sizeisave;
int saved;
Symbol argregs[4];
usedmask[0] = usedmask[1] = 0;
freemask[0] = freemask[1] = ~((unsigned) 0);
offset = 0;
maxoffset = 0;
maxargoffset = 0;
for (i = 0; callee[i] != NULL; i++) {
p = callee[i];
q = caller[i];
assert(q != NULL);
offset = roundup(offset, q->type->align);
p->x.offset = q->x.offset = offset;
p->x.name = q->x.name = stringd(offset);
r = argreg(i, offset, optype(ttob(q->type)),
q->type->size, optype(ttob(caller[0]->type)));
if (i < 4) {
argregs[i] = r;
}
offset = roundup(offset + q->type->size, 4);
if (variadic(f->type)) {
p->sclass = AUTO;
} else
if (r != NULL && ncalls == 0 && !isstruct(q->type) &&
!p->addressed && !(isfloat(q->type) && r->x.regnode->set == IREG)) {
p->sclass = q->sclass = REGISTER;
askregvar(p, r);
assert(p->x.regnode && p->x.regnode->vbl == p);
q->x = p->x;
q->type = p->type;
} else
if (askregvar(p, rmap(ttob(p->type))) &&
r != NULL && (isint(p->type) || p->type == q->type)) {
assert(q->sclass != REGISTER);
p->sclass = q->sclass = REGISTER;
q->type = p->type;
}
}
assert(caller[i] == NULL);
offset = 0;
gencode(caller, callee);
if (ncalls != 0) {
usedmask[IREG] |= ((unsigned) 1) << 31;
}
usedmask[IREG] &= 0x80FF0000;
usedmask[FREG] &= 0xFFF00000;
maxargoffset = roundup(maxargoffset, 4);
if (ncalls != 0 && maxargoffset < 16) {
maxargoffset = 16;
}
sizeisave = 4 * bitcount(usedmask[IREG]);
framesize = roundup(maxargoffset + sizeisave + maxoffset, 16);
segment(CODE);
print("\t.align\t4\n");
print("%s:\n", f->x.name);
if (framesize > 0) {
print("\tsub\t$29,$29,%d\n", framesize);
}
saved = maxargoffset;
for (i = 16; i < 32; i++) {
if (usedmask[IREG] & (1 << i)) {
print("\tstw\t$%d,$29,%d\n", i, saved);
saved += 4;
}
}
for (i = 0; i < 4 && callee[i] != NULL; i++) {
r = argregs[i];
if (r && r->x.regnode != callee[i]->x.regnode) {
Symbol out = callee[i];
Symbol in = caller[i];
int rn = r->x.regnode->number;
int rs = r->x.regnode->set;
int tyin = ttob(in->type);
assert(out && in && r && r->x.regnode);
assert(out->sclass != REGISTER || out->x.regnode);
if (out->sclass == REGISTER &&
(isint(out->type) || out->type == in->type)) {
int outn = out->x.regnode->number;
print("\tadd\t$%d,$0,$%d\n", outn, rn);
} else {
int off = in->x.offset + framesize;
int n = (in->type->size + 3) / 4;
int i;
for (i = rn; i < rn + n && i <= 7; i++) {
print("\tstw\t$%d,$29,%d\n", i, off + (i - rn) * 4);
}
}
}
}
if (variadic(f->type) && callee[i - 1] != NULL) {
i = callee[i - 1]->x.offset + callee[i - 1]->type->size;
for (i = roundup(i, 4)/4; i <= 3; i++) {
print("\tstw\t$%d,$29,%d\n", i + 4, framesize + 4 * i);
}
}
emitcode();
saved = maxargoffset;
for (i = 16; i < 32; i++) {
if (usedmask[IREG] & (1 << i)) {
print("\tldw\t$%d,$29,%d\n", i, saved);
saved += 4;
}
}
if (framesize > 0) {
print("\tadd\t$29,$29,%d\n", framesize);
}
print("\tjr\t$31\n");
print("\n");
}
static void global(Symbol s) {
if (s->type->align != 0) {
print("\t.align\t%d\n", s->type->align);
} else {
print("\t.align\t%d\n", 4);
}
print("%s:\n", s->x.name);
}
static void import(Symbol s) {
print("\t.import\t%s\n", s->name);
}
static void local(Symbol s) {
if (askregvar(s, rmap(ttob(s->type))) == 0) {
mkauto(s);
}
}
static void setSwap(void) {
union {
char c;
int i;
} u;
u.i = 0;
u.c = 1;
swap = ((u.i == 1) != IR->little_endian);
}
static void progbeg(int argc, char *argv[]) {
int i;
setSwap();
segment(CODE);
parseflags(argc, argv);
for (i = 0; i < 32; i++) {
ireg[i] = mkreg("%d", i, 1, IREG);
}
iregw = mkwildcard(ireg);
for (i = 0; i < 32; i += 2) {
freg2[i] = mkreg("%d", i, 3, FREG);
}
freg2w = mkwildcard(freg2);
tmask[IREG] = INTTMP;
vmask[IREG] = INTVAR;
tmask[FREG] = FLTTMP;
vmask[FREG] = FLTVAR;
blkreg = mkreg("8", 8, 7, IREG);
}
static void progend(void) {
}
static void segment(int n) {
static int currSeg = -1;
int newSeg;
switch (n) {
case CODE:
newSeg = CODE;
break;
case BSS:
newSeg = BSS;
break;
case DATA:
newSeg = DATA;
break;
case LIT:
newSeg = DATA;
break;
}
if (currSeg == newSeg) {
return;
}
switch (newSeg) {
case CODE:
print("\t.code\n");
break;
case BSS:
print("\t.bss\n");
break;
case DATA:
print("\t.data\n");
break;
}
currSeg = newSeg;
}
static void space(int n) {
print("\t.space\t%d\n", n);
}
static Symbol rmap(int opk) {
switch (optype(opk)) {
case I:
case U:
case P:
case B:
return iregw;
case F:
return freg2w;
default:
return 0;
}
}
static void blkfetch(int size, int off, int reg, int tmp) {
assert(size == 1 || size == 2 || size == 4);
if (size == 1) {
print("\tldbu\t$%d,$%d,%d\n", tmp, reg, off);
} else
if (size == 2) {
print("\tldhu\t$%d,$%d,%d\n", tmp, reg, off);
} else
if (size == 4) {
print("\tldw\t$%d,$%d,%d\n", tmp, reg, off);
}
}
static void blkstore(int size, int off, int reg, int tmp) {
assert(size == 1 || size == 2 || size == 4);
if (size == 1) {
print("\tstb\t$%d,$%d,%d\n", tmp, reg, off);
} else
if (size == 2) {
print("\tsth\t$%d,$%d,%d\n", tmp, reg, off);
} else
if (size == 4) {
print("\tstw\t$%d,$%d,%d\n", tmp, reg, off);
}
}
static void blkloop(int dreg, int doff,
int sreg, int soff,
int size, int tmps[]) {
int label;
label = genlabel(1);
print("\tadd\t$%d,$%d,%d\n", sreg, sreg, size & ~7);
print("\tadd\t$%d,$%d,%d\n", tmps[2], dreg, size & ~7);
blkcopy(tmps[2], doff, sreg, soff, size & 7, tmps);
print("L.%d:\n", label);
print("\tsub\t$%d,$%d,%d\n", sreg, sreg, 8);
print("\tsub\t$%d,$%d,%d\n", tmps[2], tmps[2], 8);
blkcopy(tmps[2], doff, sreg, soff, 8, tmps);
print("\tbltu\t$%d,$%d,L.%d\n", dreg, tmps[2], label);
}
static void emit2(Node p) {
static int ty0;
int ty, sz;
Symbol q;
int src;
int dst, n;
switch (specific(p->op)) {
case ARG+I:
case ARG+P:
case ARG+U:
ty = optype(p->op);
sz = opsize(p->op);
if (p->x.argno == 0) {
ty0 = ty;
}
q = argreg(p->x.argno, p->syms[2]->u.c.v.i, ty, sz, ty0);
src = getregnum(p->x.kids[0]);
if (q == NULL) {
print("\tstw\t$%d,$29,%d\n", src, p->syms[2]->u.c.v.i);
}
break;
case ASGN+B:
dalign = p->syms[1]->u.c.v.i;
salign = p->syms[1]->u.c.v.i;
blkcopy(getregnum(p->x.kids[0]), 0,
getregnum(p->x.kids[1]), 0,
p->syms[0]->u.c.v.i, tmpregs);
break;
case ARG+B:
dalign = 4;
salign = p->syms[1]->u.c.v.i;
blkcopy(29, p->syms[2]->u.c.v.i,
getregnum(p->x.kids[0]), 0,
p->syms[0]->u.c.v.i, tmpregs);
n = p->syms[2]->u.c.v.i + p->syms[0]->u.c.v.i;
dst = p->syms[2]->u.c.v.i;
for (; dst <= 12 && dst < n; dst += 4) {
print("\tldw\t$%d,$29,%d\n", (dst / 4) + 4, dst);
}
break;
}
}
static void doarg(Node p) {
static int argno;
int align;
int size;
int offset;
if (argoffset == 0) {
argno = 0;
}
p->x.argno = argno++;
align = p->syms[1]->u.c.v.i;
if (align < 4) {
align = 4;
}
size = p->syms[0]->u.c.v.i;
offset = mkactual(align, size);
p->syms[2] = intconst(offset);
}
static void target(Node p) {
static int ty0;
int ty;
Symbol q;
assert(p);
switch (specific(p->op)) {
case CNST+I:
case CNST+P:
case CNST+U:
if (range(p, 0, 0) == 0) {
setreg(p, ireg[0]);
p->x.registered = 1;
}
break;
case CALL+I:
case CALL+P:
case CALL+U:
rtarget(p, 0, ireg[25]);
setreg(p, ireg[2]);
break;
case CALL+F:
rtarget(p, 0, ireg[25]);
setreg(p, freg2[0]);
break;
case CALL+V:
rtarget(p, 0, ireg[25]);
break;
case RET+I:
case RET+P:
case RET+U:
rtarget(p, 0, ireg[2]);
break;
case RET+F:
rtarget(p, 0, freg2[0]);
break;
case ARG+I:
case ARG+P:
case ARG+U:
case ARG+F:
ty = optype(p->op);
q = argreg(p->x.argno, p->syms[2]->u.c.v.i, ty, opsize(p->op), ty0);
if (p->x.argno == 0) {
ty0 = ty;
}
if (q && !(ty == F && q->x.regnode->set == IREG)) {
rtarget(p, 0, q);
}
break;
case ASGN+B:
rtarget(p->kids[1], 0, blkreg);
break;
case ARG+B:
rtarget(p->kids[0], 0, blkreg);
break;
}
}
static void clobber(Node p) {
assert(p);
switch (specific(p->op)) {
case CALL+F:
spill(INTTMP | INTRET, IREG, p);
spill(FLTTMP, FREG, p);
break;
case CALL+I:
case CALL+P:
case CALL+U:
spill(INTTMP, IREG, p);
spill(FLTTMP | FLTRET, FREG, p);
break;
case CALL+V:
spill(INTTMP | INTRET, IREG, p);
spill(FLTTMP | FLTRET, FREG, p);
break;
}
}
Interface eco32IR = {
1, 1, 0, /* char */
2, 2, 0, /* short */
4, 4, 0, /* int */
4, 4, 0, /* long */
4, 4, 0, /* long long */
4, 4, 1, /* float */
8, 4, 1, /* double */
8, 4, 1, /* long double */
4, 4, 0, /* T * */
0, 1, 0, /* struct */
0, /* little_endian */
0, /* mulops_calls */
0, /* wants_callb */
1, /* wants_argb */
1, /* left_to_right */
0, /* wants_dag */
0, /* unsigned_char */
address,
blockbeg,
blockend,
defaddress,
defconst,
defstring,
defsymbol,
emit,
export,
function,
gen,
global,
import,
local,
progbeg,
progend,
segment,
space,
0, 0, 0, 0, 0, 0, 0,
{
1, /* max_unaligned_load */
rmap,
blkfetch, blkstore, blkloop,
_label,
_rule,
_nts,
_kids,
_string,
_templates,
_isinstruction,
_ntname,
emit2,
doarg,
target,
clobber
}
};
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