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|
#include "all.h"
#define CMP(X) \
X(Ciule, "be") \
X(Ciult, "b") \
X(Cisle, "le") \
X(Cislt, "l") \
X(Cisgt, "g") \
X(Cisge, "ge") \
X(Ciugt, "a") \
X(Ciuge, "ae") \
X(Cieq, "z") \
X(Cine, "nz") \
X(NCmpI+Cfle, "be") \
X(NCmpI+Cflt, "b") \
X(NCmpI+Cfgt, "a") \
X(NCmpI+Cfge, "ae") \
X(NCmpI+Cfeq, "z") \
X(NCmpI+Cfne, "nz") \
X(NCmpI+Cfo, "np") \
X(NCmpI+Cfuo, "p")
enum {
SLong = 0,
SWord = 1,
SShort = 2,
SByte = 3,
Ki = -1, /* matches Kw and Kl */
Ka = -2, /* matches all classes */
};
/* Instruction format strings:
*
* if the format string starts with -, the instruction
* is assumed to be 3-address and is put in 2-address
* mode using an extra mov if necessary
*
* if the format string starts with +, the same as the
* above applies, but commutativity is also assumed
*
* %k is used to set the class of the instruction,
* it'll expand to "l", "q", "ss", "sd", depending
* on the instruction class
* %0 designates the first argument
* %1 designates the second argument
* %= designates the result
*
* if %k is not used, a prefix to 0, 1, or = must be
* added, it can be:
* M - memory reference
* L - long (64 bits)
* W - word (32 bits)
* H - short (16 bits)
* B - byte (8 bits)
* S - single precision float
* D - double precision float
*/
static struct {
short op;
short cls;
char *asm;
} omap[] = {
{ Oadd, Ka, "+add%k %1, %=" },
{ Osub, Ka, "-sub%k %1, %=" },
{ Oand, Ki, "+and%k %1, %=" },
{ Oor, Ki, "+or%k %1, %=" },
{ Oxor, Ki, "+xor%k %1, %=" },
{ Osar, Ki, "-sar%k %B1, %=" },
{ Oshr, Ki, "-shr%k %B1, %=" },
{ Oshl, Ki, "-shl%k %B1, %=" },
{ Omul, Ki, "+imul%k %1, %=" },
{ Omul, Ks, "+mulss %1, %=" },
{ Omul, Kd, "+mulsd %1, %=" },
{ Odiv, Ka, "-div%k %1, %=" },
{ Ostorel, Ka, "movq %L0, %M1" },
{ Ostorew, Ka, "movl %W0, %M1" },
{ Ostoreh, Ka, "movw %H0, %M1" },
{ Ostoreb, Ka, "movb %B0, %M1" },
{ Ostores, Ka, "movss %S0, %M1" },
{ Ostored, Ka, "movsd %D0, %M1" },
{ Oload, Ka, "mov%k %M0, %=" },
{ Oloadsw, Kl, "movslq %M0, %L=" },
{ Oloadsw, Kw, "movl %M0, %W=" },
{ Oloaduw, Ki, "movl %M0, %W=" },
{ Oloadsh, Ki, "movsw%k %M0, %=" },
{ Oloaduh, Ki, "movzw%k %M0, %=" },
{ Oloadsb, Ki, "movsb%k %M0, %=" },
{ Oloadub, Ki, "movzb%k %M0, %=" },
{ Oextsw, Kl, "movslq %W0, %L=" },
{ Oextuw, Kl, "movl %W0, %W=" },
{ Oextsh, Ki, "movsw%k %H0, %=" },
{ Oextuh, Ki, "movzw%k %H0, %=" },
{ Oextsb, Ki, "movsb%k %B0, %=" },
{ Oextub, Ki, "movzb%k %B0, %=" },
{ Oexts, Kd, "cvtss2sd %0, %=" },
{ Otruncd, Ks, "cvtsd2ss %0, %=" },
{ Ostosi, Ki, "cvttss2si%k %0, %=" },
{ Odtosi, Ki, "cvttsd2si%k %0, %=" },
{ Oswtof, Ka, "cvtsi2%k %W0, %=" },
{ Osltof, Ka, "cvtsi2%k %L0, %=" },
{ Ocast, Ki, "movq %D0, %L=" },
{ Ocast, Ka, "movq %L0, %D=" },
{ Oaddr, Ki, "lea%k %M0, %=" },
{ Oswap, Ki, "xchg%k %0, %1" },
{ Osign, Kl, "cqto" },
{ Osign, Kw, "cltd" },
{ Oxdiv, Ki, "div%k %0" },
{ Oxidiv, Ki, "idiv%k %0" },
{ Oxcmp, Ks, "ucomiss %S0, %S1" },
{ Oxcmp, Kd, "ucomisd %D0, %D1" },
{ Oxcmp, Ki, "cmp%k %0, %1" },
{ Oxtest, Ki, "test%k %0, %1" },
#define X(c, s) \
{ Oflag+c, Ki, "set" s " %B=\n\tmovzb%k %B=, %=" },
CMP(X)
#undef X
{ NOp, 0, 0 }
};
static char *rname[][4] = {
[RAX] = {"rax", "eax", "ax", "al"},
[RBX] = {"rbx", "ebx", "bx", "bl"},
[RCX] = {"rcx", "ecx", "cx", "cl"},
[RDX] = {"rdx", "edx", "dx", "dl"},
[RSI] = {"rsi", "esi", "si", "sil"},
[RDI] = {"rdi", "edi", "di", "dil"},
[RBP] = {"rbp", "ebp", "bp", "bpl"},
[RSP] = {"rsp", "esp", "sp", "spl"},
[R8 ] = {"r8" , "r8d", "r8w", "r8b"},
[R9 ] = {"r9" , "r9d", "r9w", "r9b"},
[R10] = {"r10", "r10d", "r10w", "r10b"},
[R11] = {"r11", "r11d", "r11w", "r11b"},
[R12] = {"r12", "r12d", "r12w", "r12b"},
[R13] = {"r13", "r13d", "r13w", "r13b"},
[R14] = {"r14", "r14d", "r14w", "r14b"},
[R15] = {"r15", "r15d", "r15w", "r15b"},
};
static int
slot(Ref r, Fn *fn)
{
int s;
s = rsval(r);
assert(s <= fn->slot);
/* specific to NAlign == 3 */
if (s < 0)
return -4 * s;
else if (fn->vararg)
return -176 + -4 * (fn->slot - s);
else
return -4 * (fn->slot - s);
}
static void
emitcon(Con *con, FILE *f)
{
char *p, *l;
switch (con->type) {
case CAddr:
l = str(con->sym.id);
p = l[0] == '"' ? "" : T.assym;
if (con->sym.type == SThr) {
if (T.apple)
fprintf(f, "%s%s@TLVP", p, l);
else
fprintf(f, "%%fs:%s%s@tpoff", p, l);
} else
fprintf(f, "%s%s", p, l);
if (con->bits.i)
fprintf(f, "%+"PRId64, con->bits.i);
break;
case CBits:
fprintf(f, "%"PRId64, con->bits.i);
break;
default:
die("unreachable");
}
}
static char *
regtoa(int reg, int sz)
{
static char buf[6];
assert(reg <= XMM15);
if (reg >= XMM0) {
sprintf(buf, "xmm%d", reg-XMM0);
return buf;
} else
return rname[reg][sz];
}
static Ref
getarg(char c, Ins *i)
{
switch (c) {
case '0':
return i->arg[0];
case '1':
return i->arg[1];
case '=':
return i->to;
default:
die("invalid arg letter %c", c);
}
}
static void emitins(Ins, Fn *, FILE *);
static void
emitcopy(Ref r1, Ref r2, int k, Fn *fn, FILE *f)
{
Ins icp;
icp.op = Ocopy;
icp.arg[0] = r2;
icp.to = r1;
icp.cls = k;
emitins(icp, fn, f);
}
static void
emitf(char *s, Ins *i, Fn *fn, FILE *f)
{
static char clstoa[][3] = {"l", "q", "ss", "sd"};
char c;
int sz;
Ref ref;
Mem *m;
Con off;
switch (*s) {
case '+':
if (req(i->arg[1], i->to)) {
ref = i->arg[0];
i->arg[0] = i->arg[1];
i->arg[1] = ref;
}
/* fall through */
case '-':
assert((!req(i->arg[1], i->to) || req(i->arg[0], i->to)) &&
"cannot convert to 2-address");
emitcopy(i->to, i->arg[0], i->cls, fn, f);
s++;
break;
}
fputc('\t', f);
Next:
while ((c = *s++) != '%')
if (!c) {
fputc('\n', f);
return;
} else
fputc(c, f);
switch ((c = *s++)) {
case '%':
fputc('%', f);
break;
case 'k':
fputs(clstoa[i->cls], f);
break;
case '0':
case '1':
case '=':
sz = KWIDE(i->cls) ? SLong : SWord;
s--;
goto Ref;
case 'D':
case 'S':
sz = SLong; /* does not matter for floats */
Ref:
c = *s++;
ref = getarg(c, i);
switch (rtype(ref)) {
case RTmp:
assert(isreg(ref));
fprintf(f, "%%%s", regtoa(ref.val, sz));
break;
case RSlot:
fprintf(f, "%d(%%rbp)", slot(ref, fn));
break;
case RMem:
Mem:
m = &fn->mem[ref.val];
if (rtype(m->base) == RSlot) {
off.type = CBits;
off.bits.i = slot(m->base, fn);
addcon(&m->offset, &off);
m->base = TMP(RBP);
}
if (m->offset.type != CUndef)
emitcon(&m->offset, f);
fputc('(', f);
if (!req(m->base, R))
fprintf(f, "%%%s", regtoa(m->base.val, SLong));
else if (m->offset.type == CAddr)
fprintf(f, "%%rip");
if (!req(m->index, R))
fprintf(f, ", %%%s, %d",
regtoa(m->index.val, SLong),
m->scale
);
fputc(')', f);
break;
case RCon:
fputc('$', f);
emitcon(&fn->con[ref.val], f);
break;
default:
die("unreachable");
}
break;
case 'L':
sz = SLong;
goto Ref;
case 'W':
sz = SWord;
goto Ref;
case 'H':
sz = SShort;
goto Ref;
case 'B':
sz = SByte;
goto Ref;
case 'M':
c = *s++;
ref = getarg(c, i);
switch (rtype(ref)) {
case RMem:
goto Mem;
case RSlot:
fprintf(f, "%d(%%rbp)", slot(ref, fn));
break;
case RCon:
off = fn->con[ref.val];
emitcon(&off, f);
if (off.type == CAddr)
if (off.sym.type != SThr || T.apple)
fprintf(f, "(%%rip)");
break;
case RTmp:
assert(isreg(ref));
fprintf(f, "(%%%s)", regtoa(ref.val, SLong));
break;
default:
die("unreachable");
}
break;
default:
die("invalid format specifier %%%c", c);
}
goto Next;
}
static void *negmask[4] = {
[Ks] = (uint32_t[4]){ 0x80000000 },
[Kd] = (uint64_t[2]){ 0x8000000000000000 },
};
static void
emitins(Ins i, Fn *fn, FILE *f)
{
Ref r;
int64_t val;
int o, t0;
Ins ineg;
Con *con;
char *sym;
switch (i.op) {
default:
Table:
/* most instructions are just pulled out of
* the table omap[], some special cases are
* detailed below */
for (o=0;; o++) {
/* this linear search should really be a binary
* search */
if (omap[o].op == NOp)
die("no match for %s(%c)",
optab[i.op].name, "wlsd"[i.cls]);
if (omap[o].op == i.op)
if (omap[o].cls == i.cls
|| (omap[o].cls == Ki && KBASE(i.cls) == 0)
|| (omap[o].cls == Ka))
break;
}
emitf(omap[o].asm, &i, fn, f);
break;
case Onop:
/* just do nothing for nops, they are inserted
* by some passes */
break;
case Omul:
/* here, we try to use the 3-addresss form
* of multiplication when possible */
if (rtype(i.arg[1]) == RCon) {
r = i.arg[0];
i.arg[0] = i.arg[1];
i.arg[1] = r;
}
if (KBASE(i.cls) == 0 /* only available for ints */
&& rtype(i.arg[0]) == RCon
&& rtype(i.arg[1]) == RTmp) {
emitf("imul%k %0, %1, %=", &i, fn, f);
break;
}
goto Table;
case Osub:
/* we have to use the negation trick to handle
* some 3-address subtractions */
if (req(i.to, i.arg[1]) && !req(i.arg[0], i.to)) {
ineg = (Ins){Oneg, i.cls, i.to, {i.to}};
emitins(ineg, fn, f);
emitf("add%k %0, %=", &i, fn, f);
break;
}
goto Table;
case Oneg:
if (!req(i.to, i.arg[0]))
emitf("mov%k %0, %=", &i, fn, f);
if (KBASE(i.cls) == 0)
emitf("neg%k %=", &i, fn, f);
else
fprintf(f,
"\txorp%c %sfp%d(%%rip), %%%s\n",
"xxsd"[i.cls],
T.asloc,
stashbits(negmask[i.cls], 16),
regtoa(i.to.val, SLong)
);
break;
case Odiv:
/* use xmm15 to adjust the instruction when the
* conversion to 2-address in emitf() would fail */
if (req(i.to, i.arg[1])) {
i.arg[1] = TMP(XMM0+15);
emitf("mov%k %=, %1", &i, fn, f);
emitf("mov%k %0, %=", &i, fn, f);
i.arg[0] = i.to;
}
goto Table;
case Ocopy:
/* copies are used for many things; see my note
* to understand how to load big constants:
* https://c9x.me/notes/2015-09-19.html */
assert(rtype(i.to) != RMem);
if (req(i.to, R) || req(i.arg[0], R))
break;
if (req(i.to, i.arg[0]))
break;
t0 = rtype(i.arg[0]);
if (i.cls == Kl
&& t0 == RCon
&& fn->con[i.arg[0].val].type == CBits) {
val = fn->con[i.arg[0].val].bits.i;
if (isreg(i.to))
if (val >= 0 && val <= UINT32_MAX) {
emitf("movl %W0, %W=", &i, fn, f);
break;
}
if (rtype(i.to) == RSlot)
if (val < INT32_MIN || val > INT32_MAX) {
emitf("movl %0, %=", &i, fn, f);
emitf("movl %0>>32, 4+%=", &i, fn, f);
break;
}
}
if (isreg(i.to)
&& t0 == RCon
&& fn->con[i.arg[0].val].type == CAddr) {
emitf("lea%k %M0, %=", &i, fn, f);
break;
}
if (rtype(i.to) == RSlot
&& (t0 == RSlot || t0 == RMem)) {
i.cls = KWIDE(i.cls) ? Kd : Ks;
i.arg[1] = TMP(XMM0+15);
emitf("mov%k %0, %1", &i, fn, f);
emitf("mov%k %1, %=", &i, fn, f);
break;
}
/* conveniently, the assembler knows if it
* should use movabsq when reading movq */
emitf("mov%k %0, %=", &i, fn, f);
break;
case Oaddr:
if (!T.apple
&& rtype(i.arg[0]) == RCon
&& fn->con[i.arg[0].val].sym.type == SThr) {
/* derive the symbol address from the TCB
* address at offset 0 of %fs */
assert(isreg(i.to));
con = &fn->con[i.arg[0].val];
sym = str(con->sym.id);
emitf("movq %%fs:0, %L=", &i, fn, f);
fprintf(f, "\tleaq %s%s@tpoff",
sym[0] == '"' ? "" : T.assym, sym);
if (con->bits.i)
fprintf(f, "%+"PRId64, con->bits.i);
fprintf(f, "(%%%s), %%%s\n",
regtoa(i.to.val, SLong),
regtoa(i.to.val, SLong));
break;
}
goto Table;
case Ocall:
/* calls simply have a weird syntax in AT&T
* assembly... */
switch (rtype(i.arg[0])) {
case RCon:
fprintf(f, "\tcallq ");
emitcon(&fn->con[i.arg[0].val], f);
fprintf(f, "\n");
break;
case RTmp:
emitf("callq *%L0", &i, fn, f);
break;
default:
die("invalid call argument");
}
break;
case Osalloc:
/* there is no good reason why this is here
* maybe we should split Osalloc in 2 different
* instructions depending on the result
*/
emitf("subq %L0, %%rsp", &i, fn, f);
if (!req(i.to, R))
emitcopy(i.to, TMP(RSP), Kl, fn, f);
break;
case Oswap:
if (KBASE(i.cls) == 0)
goto Table;
/* for floats, there is no swap instruction
* so we use xmm15 as a temporary
*/
emitcopy(TMP(XMM0+15), i.arg[0], i.cls, fn, f);
emitcopy(i.arg[0], i.arg[1], i.cls, fn, f);
emitcopy(i.arg[1], TMP(XMM0+15), i.cls, fn, f);
break;
case Odbgloc:
emitdbgloc(i.arg[0].val, f);
break;
}
}
static uint64_t
framesz(Fn *fn)
{
uint64_t i, o, f;
/* specific to NAlign == 3 */
for (i=0, o=0; i<NCLR; i++)
o ^= 1 & (fn->reg >> amd64_sysv_rclob[i]);
f = fn->slot;
f = (f + 3) & -4;
return 4*f + 8*o + 176*fn->vararg;
}
void
amd64_emitfn(Fn *fn, FILE *f)
{
static char *ctoa[] = {
#define X(c, s) [c] = s,
CMP(X)
#undef X
};
static int id0;
Blk *b, *s;
Ins *i, itmp;
int *r, c, o, n, lbl;
uint64_t fs;
emitfnlnk(fn->name, &fn->lnk, f);
fputs("\tpushq %rbp\n\tmovq %rsp, %rbp\n", f);
fs = framesz(fn);
if (fs)
fprintf(f, "\tsubq $%"PRIu64", %%rsp\n", fs);
if (fn->vararg) {
o = -176;
for (r=amd64_sysv_rsave; r<&amd64_sysv_rsave[6]; r++, o+=8)
fprintf(f, "\tmovq %%%s, %d(%%rbp)\n", rname[*r][0], o);
for (n=0; n<8; ++n, o+=16)
fprintf(f, "\tmovaps %%xmm%d, %d(%%rbp)\n", n, o);
}
for (r=amd64_sysv_rclob; r<&amd64_sysv_rclob[NCLR]; r++)
if (fn->reg & BIT(*r)) {
itmp.arg[0] = TMP(*r);
emitf("pushq %L0", &itmp, fn, f);
fs += 8;
}
for (lbl=0, b=fn->start; b; b=b->link) {
if (lbl || b->npred > 1)
fprintf(f, "%sbb%d:\n", T.asloc, id0+b->id);
for (i=b->ins; i!=&b->ins[b->nins]; i++)
emitins(*i, fn, f);
lbl = 1;
switch (b->jmp.type) {
case Jhlt:
fprintf(f, "\tud2\n");
break;
case Jret0:
if (fn->dynalloc)
fprintf(f,
"\tmovq %%rbp, %%rsp\n"
"\tsubq $%"PRIu64", %%rsp\n",
fs
);
for (r=&amd64_sysv_rclob[NCLR]; r>amd64_sysv_rclob;)
if (fn->reg & BIT(*--r)) {
itmp.arg[0] = TMP(*r);
emitf("popq %L0", &itmp, fn, f);
}
fprintf(f,
"\tleave\n"
"\tret\n"
);
break;
case Jjmp:
Jmp:
if (b->s1 != b->link)
fprintf(f, "\tjmp %sbb%d\n",
T.asloc, id0+b->s1->id);
else
lbl = 0;
break;
default:
c = b->jmp.type - Jjf;
if (0 <= c && c <= NCmp) {
if (b->link == b->s2) {
s = b->s1;
b->s1 = b->s2;
b->s2 = s;
} else
c = cmpneg(c);
fprintf(f, "\tj%s %sbb%d\n", ctoa[c],
T.asloc, id0+b->s2->id);
goto Jmp;
}
die("unhandled jump %d", b->jmp.type);
}
}
id0 += fn->nblk;
if (!T.apple)
elf_emitfnfin(fn->name, f);
}
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