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#include "l.h"
#define COMPREG(r) ((r & ~0x7) == 0x8)
#define COP_CR(op,rs,rd)\
(op | (rs)<<2 | (rd)<<7)
#define COP_CI(op,rd,i)\
(op | (rd)<<7 | ((i)&0x20)<<7 | ((i)&0x1F)<<2)
#define COP_CIW(op,rd,i)\
(op | (rd)<<2 | (i)<<5)
#define COP_CJ(op,i)\
(op | (i)<<2)
#define COP_CB(op,rs,i)\
(op | (rs)<<7 | ((i)&0x1f)<<2 | ((i)&0xE0)<<5)
#define COP_CL(op,rs,rd,i)\
(op | (rs)<<7 | (rd)<<2 | ((i)&0x7)<<4 | ((i)&0x38)<<7)
#define COP_CSS(op,rs,i)\
(op | (rs)<<2 | ((i)&0x3F)<<7)
#define COP_CS(op,rs2,rs1,i)\
(op | (rs2)<<2 | (rs1)<<7 | ((i)&0x7)<<4 | ((i)&0x38)<<7)
static int
immbits(int v, char *permute)
{
int r, i, c;
r = 0;
for(i = 0; (c = *permute++) != 0; i++)
r |= ((v>>c) & 0x01) << i;
return r;
}
long
asmcjmp(int a, Prog *p, int first)
{
long v;
if(p->cond == P)
v = 0;
else
v = (p->cond->pc - p->pc);
if(first || ((v&0x01) == 0 && v >= -0x800 && v < 0x800))
return COP_CJ(a, immbits(v, "\5\1\2\3\7\6\12\10\11\4\13"));
return 0;
}
int
asmcbz(int a, Prog *p, int first)
{
long v;
int r;
r = p->reg;
if(r == REGZERO || r == NREG)
r = p->from.reg;
else if(p->from.reg != REGZERO)
return 0;
if(!COMPREG(r))
return 0;
if(p->cond == P)
v = 0;
else
v = (p->cond->pc - p->pc);
if(first || ((v&0x01) == 0 && v >= -0x100 && v < 0x100))
return COP_CB(a, r&0x7, immbits(v, "\5\1\2\6\7\3\4\10"));
return 0;
}
int
asmcload(Prog *p, int a, uint len, uint maxoff)
{
int v;
int r;
v = regoff(&p->from);
if((v & (len-1)) != 0 || v < 0)
return 0;
r = classreg(&p->from);
if(COMPREG(r) && COMPREG(p->to.reg)){
if(v < maxoff){
v |= (v>>5) & ~0x1;
return COP_CL(a, r&0x7, p->to.reg&0x7, v);
}
}else if(r == REGSP){
if(v < 2*maxoff){
v |= (v>>6);
return COP_CI(a | 0x2, p->to.reg, v);
}
}
return 0;
}
int
asmcstore(Prog *p, int a, uint len, uint maxoff)
{
int v;
int r;
v = regoff(&p->to);
if((v & (len-1)) != 0 || v < 0)
return 0;
r = classreg(&p->to);
if(COMPREG(r) && COMPREG(p->from.reg)){
if(v < maxoff){
v |= (v>>5) & ~0x1;
return COP_CS(a, p->from.reg&0x7, r&0x7, v);
}
}else if(r == REGSP){
if(v < 2*maxoff){
v |= (v>>6);
return COP_CSS(a | 0x2, (p->from.reg&0x1F), v);
}
}
return 0;
}
int
asmcompressed(Prog *p, Optab *o, int r, int first)
{
long v;
int a;
switch(o->ctype){
case 1: /* C.ADD */
if(p->from.reg != REGZERO && p->to.reg != REGZERO && r == p->to.reg)
return COP_CR(0x9002, p->from.reg, r);
break;
case 2: /* C.MV */
if(p->from.type != D_REG)
diag("compress MOVW R,R doesn't apply\n%P", p);
if(p->to.reg != REGZERO){
if(p->from.type == D_REG && p->from.reg != REGZERO)
return COP_CR(0x8002, p->from.reg, p->to.reg);
else
return COP_CI(0x4001, p->to.reg, 0);
}
break;
case 3: /* C.JALR */
if(r == REGLINK && p->to.reg != REGZERO && p->to.offset == 0)
return COP_CR(0x9002, 0, p->to.reg);
break;
case 4: /* C.JR */
if(p->to.reg != REGZERO &&p->to.offset == 0)
return COP_CR(0x8002, 0, p->to.reg);
break;
case 5: /* C.AND C.OR C.SUB C.XOR */
if(r == p->to.reg && COMPREG(p->from.reg) && COMPREG(p->to.reg)){
v = 0x8C01;
switch(o->as){
case AXOR:
v |= 1<<5;
break;
case AOR:
v |= 2<<5;
break;
case AAND:
v |= 3<<5;
break;
}
return COP_CR(v, p->from.reg&0x7, p->to.reg&0x7);
}
break;
case 6: /* C.LI */
v = p->from.offset;
if(p->to.reg != REGZERO && v >= -0x20 && v < 0x20){
return COP_CI(0x4001, p->to.reg, v);
}
break;
case 7: /* C.LUI */
v = p->from.offset;
if((v&0xFFF) != 0)
return 0;
v >>= 12;
if(p->to.reg != REGZERO && p->to.reg != REGSP && v >= -0x20 && v < 0x20)
return COP_CI(0x6001, p->to.reg, v);
break;
case 8: /* C.SLLI */
v = p->from.offset;
if((v & 0x20) != 0 && thechar == 'i')
break;
if(r == p->to.reg && r != REGZERO && v != 0 && (v & ~0x3F) == 0)
return COP_CI(0x0002, p->to.reg, v);
break;
case 9: /* C.SRAI C.SRLI */
v = p->from.offset;
if((v & 0x20) != 0 && thechar == 'i')
break;
a = (o->as == ASRA) << 10;
if(r == p->to.reg && COMPREG(r) && v != 0 && (v & ~0x3F) == 0)
return COP_CI(0x8001 | a, r&0x7, v);
break;
case 10: /* C.ADDI C.ADDI16SP C.ADDI4SPN C.NOP */
v = p->from.offset;
if(r == p->to.reg && r != REGZERO && v != 0 && v >= -0x20 && v < 0x20)
return COP_CI(0x0001, p->to.reg, v);
if(r == p->to.reg && r == REGSP && v != 0 && (v&0xF) == 0 && v >= -0x200 && v < 0x200)
return COP_CI(0x6001, REGSP, immbits(v, "\5\7\10\6\4\11"));
if(r == REGSP && COMPREG(p->to.reg) && (v&0x3) == 0 && v > 0 && v < 0x400)
return COP_CIW(0x0000, p->to.reg&0x7, immbits(v, "\3\2\6\7\10\11\4\5"));
if(r == p->to.reg && r == REGZERO && v == 0)
return COP_CI(0x0001, 0, 0);
break;
case 11: /* C.JAL (rv32) */
if(thechar != 'i')
break;
if(r == REGLINK)
return asmcjmp(0x2001, p, first);
break;
case 12: /* C.J */
return asmcjmp(0xA001, p, first);
break;
case 13: /* C.ANDI */
v = p->from.offset;
if(r == p->to.reg && COMPREG(r) && v >= -0x20 && v < 0x20)
return COP_CI(0x8801, r&0x7, v);
break;
case 14: /* C.BEQZ */
return asmcbz(0xC001, p, first);
case 15: /* C.BNEZ */
return asmcbz(0xE001, p, first);
case 16: /* C.LW C.LWSP */
return asmcload(p, 0x4000, 4, 0x80);
case 17: /* C.FLW, C.FLWSP (rv32) */
if(thechar != 'i')
break;
return asmcload(p, 0x6000, 4, 0x80);
case 18: /* C.FLD, C.FLDSP */
return asmcload(p, 0x2000, 8, 0x100);
case 19: /* C.SW C.SWSP */
return asmcstore(p, 0xC000, 4, 0x80);
case 20: /* C.FSW, C.FSWSP (rv32) */
if(thechar != 'i')
break;
return asmcstore(p, 0xE000, 4, 0x80);
case 21: /* C.FSD, C.FSDSP */
return asmcstore(p, 0xA000, 8, 0x100);
case 22: /* C.ADDW C.SUBW (rv64) */
if(thechar != 'j')
break;
if(r == p->to.reg && COMPREG(p->from.reg) && COMPREG(p->to.reg)){
v = 0x9C01;
switch(o->as){
case AADDW:
v |= 1<<5;
break;
}
return COP_CR(v, p->from.reg&0x7, p->to.reg&0x7);
}
break;
case 23: /* C.ADDIW (rv64) */
if(thechar != 'j')
break;
v = p->from.offset;
if(p->as == AMOVW){
v = 0;
r = p->from.reg;
}
if(r == p->to.reg && r != REGZERO && v >= -0x20 && v < 0x20)
return COP_CI(0x2001, p->to.reg, v);
break;
case 24: /* C.LD (rv64) */
if(thechar != 'j')
break;
return asmcload(p, 0x6000, 8, 0x100);
case 25: /* C.SD (rv64) */
if(thechar != 'j')
break;
return asmcstore(p, 0xE000, 8, 0x100);
}
return 0;
}
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