#include "all.h" typedef struct Class_ Class; typedef struct Insl Insl; typedef struct Params Params; enum { Cstk = 1, /* pass on the stack */ Cptr = 2, /* replaced by a pointer */ }; struct Class_ { char class; char ishfa; struct { char base; uchar size; } hfa; uint size; Typ *t; uchar nreg; uchar ngp; uchar nfp; int reg[4]; int cls[4]; }; struct Insl { Ins i; Insl *link; }; struct Params { uint ngp; uint nfp; uint nstk; }; static int gpreg[12] = {R0, R1, R2, R3, R4, R5, R6, R7}; static int fpreg[12] = {V0, V1, V2, V3, V4, V5, V6, V7}; /* layout of call's second argument (RCall) * * 29 13 9 5 2 0 * |0.00|x|xxxx|xxxx|xxx|xx| range * | | | | ` gp regs returned (0..2) * | | | ` fp regs returned (0..4) * | | ` gp regs passed (0..8) * | ` fp regs passed (0..8) * ` is x8 used (0..1) */ static int isfloatv(Typ *t, char *cls) { Field *f; uint n; for (n=0; nnunion; n++) for (f=t->fields[n]; f->type != FEnd; f++) switch (f->type) { case Fs: if (*cls == Kd) return 0; *cls = Ks; break; case Fd: if (*cls == Ks) return 0; *cls = Kd; break; case FTyp: if (isfloatv(&typ[f->len], cls)) break; default: return 0; } return 1; } static void typclass(Class *c, Typ *t, int *gp, int *fp) { uint64_t sz; uint n; sz = (t->size + 7) & -8; c->t = t; c->class = 0; c->ngp = 0; c->nfp = 0; if (t->align > 4) err("alignments larger than 16 are not supported"); if (t->dark || sz > 16 || sz == 0) { /* large structs are replaced by a * pointer to some caller-allocated * memory */ c->class |= Cptr; c->size = 8; return; } c->size = sz; c->hfa.base = Kx; c->ishfa = isfloatv(t, &c->hfa.base); c->hfa.size = t->size/(KWIDE(c->hfa.base) ? 8 : 4); if (c->ishfa) for (n=0; nhfa.size; n++, c->nfp++) { c->reg[n] = *fp++; c->cls[n] = c->hfa.base; } else for (n=0; nngp++) { c->reg[n] = *gp++; c->cls[n] = Kl; } c->nreg = n; } static void sttmps(Ref tmp[], int cls[], uint nreg, Ref mem, Fn *fn) { static int st[] = { [Kw] = Ostorew, [Kl] = Ostorel, [Ks] = Ostores, [Kd] = Ostored }; uint n; uint64_t off; Ref r; assert(nreg <= 4); off = 0; for (n=0; njmp.type; if (!isret(j) || j == Jret0) return; r = b->jmp.arg; b->jmp.type = Jret0; if (j == Jretc) { typclass(&cr, &typ[fn->retty], gpreg, fpreg); cty = (cr.nfp << 2) | cr.ngp; if (cr.class & Cptr) { assert(rtype(fn->retr) == RTmp); blit(fn->retr, 0, r, cr.t->size, fn); } else ldregs(cr.reg, cr.cls, cr.nreg, r, fn); } else { k = j - Jretw; if (KBASE(k) == 0) { emit(Ocopy, k, TMP(R0), r, R); cty = 1; } else { emit(Ocopy, k, TMP(V0), r, R); cty = 1 << 2; } } b->jmp.arg = CALL(cty); } static int argsclass(Ins *i0, Ins *i1, Class *carg, Ref *env) { int ngp, nfp, *gp, *fp; Class *c; Ins *i; gp = gpreg; fp = fpreg; ngp = 8; nfp = 8; for (i=i0, c=carg; iop) { case Opar: case Oarg: c->cls[0] = i->cls; c->size = 8; if (KBASE(i->cls) == 0 && ngp > 0) { ngp--; c->reg[0] = *gp++; break; } if (KBASE(i->cls) == 1 && nfp > 0) { nfp--; c->reg[0] = *fp++; break; } c->class |= Cstk; break; case Oparc: case Oargc: typclass(c, &typ[i->arg[0].val], gp, fp); if (c->class & Cptr) { if (ngp > 0) { ngp--; c->reg[0] = *gp++; c->cls[0] = Kl; break; } } else if (c->ngp <= ngp) { if (c->nfp <= nfp) { ngp -= c->ngp; nfp -= c->nfp; gp += c->ngp; fp += c->nfp; break; } else nfp = 0; } else ngp = 0; c->class |= Cstk; break; case Opare: *env = i->to; break; case Oarge: *env = i->arg[0]; break; } return ((gp-gpreg) << 5) | ((fp-fpreg) << 9); } bits arm64_retregs(Ref r, int p[2]) { bits b; int ngp, nfp; assert(rtype(r) == RCall); ngp = r.val & 3; nfp = (r.val >> 2) & 7; if (p) { p[0] = ngp; p[1] = nfp; } b = 0; while (ngp--) b |= BIT(R0+ngp); while (nfp--) b |= BIT(V0+nfp); return b; } bits arm64_argregs(Ref r, int p[2]) { bits b; int ngp, nfp, x8; assert(rtype(r) == RCall); ngp = (r.val >> 5) & 15; nfp = (r.val >> 9) & 15; x8 = (r.val >> 13) & 1; if (p) { p[0] = ngp + x8; p[1] = nfp; } b = 0; while (ngp--) b |= BIT(R0+ngp); while (nfp--) b |= BIT(V0+nfp); return b | ((bits)x8 << R8); } static void stkblob(Ref r, Class *c, Fn *fn, Insl **ilp) { Insl *il; int al; il = alloc(sizeof *il); al = c->t->align - 2; /* NAlign == 3 */ if (al < 0) al = 0; il->i = (Ins){ Oalloc + al, r, {getcon(c->t->size, fn)}, Kl }; il->link = *ilp; *ilp = il; } static void selcall(Fn *fn, Ins *i0, Ins *i1, Insl **ilp) { Ins *i; Class *ca, *c, cr; int cty, envc; uint n; uint64_t stk, off; Ref r, rstk, env, tmp[4]; env = R; ca = alloc((i1-i0) * sizeof ca[0]); cty = argsclass(i0, i1, ca, &env); stk = 0; for (i=i0, c=ca; iclass & Cptr) { i->arg[0] = newtmp("abi", Kl, fn); stkblob(i->arg[0], c, fn, ilp); i->op = Oarg; } if (c->class & Cstk) stk += c->size; } stk += stk & 15; rstk = getcon(stk, fn); if (stk) emit(Oadd, Kl, TMP(SP), TMP(SP), rstk); if (!req(i1->arg[1], R)) { typclass(&cr, &typ[i1->arg[1].val], gpreg, fpreg); stkblob(i1->to, &cr, fn, ilp); cty |= (cr.nfp << 2) | cr.ngp; if (cr.class & Cptr) { cty |= 1 << 13; emit(Ocopy, Kw, R, TMP(R0), R); } else { sttmps(tmp, cr.cls, cr.nreg, i1->to, fn); for (n=0; ncls) == 0) { emit(Ocopy, i1->cls, i1->to, TMP(R0), R); cty |= 1; } else { emit(Ocopy, i1->cls, i1->to, TMP(V0), R); cty |= 1 << 2; } } envc = !req(R, env); if (envc) die("todo (arm abi): env calls"); emit(Ocall, 0, R, i1->arg[0], CALL(cty)); if (cty & (1 << 13)) /* struct return argument */ emit(Ocopy, Kl, TMP(R8), i1->to, R); for (i=i0, c=ca; iclass & Cstk) != 0) continue; if (i->op != Oargc) emit(Ocopy, *c->cls, TMP(*c->reg), i->arg[0], R); else ldregs(c->reg, c->cls, c->nreg, i->arg[1], fn); } off = 0; for (i=i0, c=ca; iclass & Cstk) == 0) continue; if (i->op != Oargc) { r = newtmp("abi", Kl, fn); emit(Ostorel, 0, R, i->arg[0], r); emit(Oadd, Kl, r, TMP(SP), getcon(off, fn)); } else blit(TMP(SP), off, i->arg[1], c->size, fn); off += c->size; } if (stk) emit(Osub, Kl, TMP(SP), TMP(SP), rstk); for (i=i0, c=ca; iclass & Cptr) blit(i->arg[0], 0, i->arg[1], c->t->size, fn); } static Params selpar(Fn *fn, Ins *i0, Ins *i1) { Class *ca, *c, cr; Insl *il; Ins *i; int n, s, cty; Ref r, env, tmp[16], *t; env = R; ca = alloc((i1-i0) * sizeof ca[0]); curi = &insb[NIns]; cty = argsclass(i0, i1, ca, &env); il = 0; t = tmp; for (i=i0, c=ca; iop != Oparc || (c->class & (Cptr|Cstk))) continue; sttmps(t, c->cls, c->nreg, i->to, fn); stkblob(i->to, c, fn, &il); t += c->nreg; } for (; il; il=il->link) emiti(il->i); if (fn->retty >= 0) { typclass(&cr, &typ[fn->retty], gpreg, fpreg); if (cr.class & Cptr) { fn->retr = newtmp("abi", Kl, fn); emit(Ocopy, Kl, fn->retr, TMP(R8), R); } } t = tmp; for (i=i0, c=ca, s=2; iop == Oparc && (c->class & Cptr) == 0) { if (c->class & Cstk) { fn->tmp[i->to.val].slot = -s; s += c->size / 8; } else for (n=0; nnreg; n++) { r = TMP(c->reg[n]); emit(Ocopy, c->cls[n], *t++, r, R); } } else if (c->class & Cstk) { r = newtmp("abi", Kl, fn); emit(Oload, *c->cls, i->to, r, R); emit(Oaddr, Kl, r, SLOT(-s), R); s++; } else { r = TMP(*c->reg); emit(Ocopy, *c->cls, i->to, r, R); } } if (!req(R, env)) die("todo (arm abi): env calls"); return (Params){ .nstk = s - 2, .ngp = (cty >> 5) & 15, .nfp = (cty >> 9) & 15 }; } static Blk * split(Fn *fn, Blk *b) { Blk *bn; ++fn->nblk; bn = blknew(); bn->nins = &insb[NIns] - curi; idup(&bn->ins, curi, bn->nins); curi = &insb[NIns]; bn->visit = ++b->visit; snprintf(bn->name, NString, "%s.%d", b->name, b->visit); bn->loop = b->loop; bn->link = b->link; b->link = bn; return bn; } static void chpred(Blk *b, Blk *bp, Blk *bp1) { Phi *p; uint a; for (p=b->phi; p; p=p->link) { for (a=0; p->blk[a]!=bp; a++) assert(a+1narg); p->blk[a] = bp1; } } static void selvaarg(Fn *fn, Blk *b, Ins *i) { Ref loc, lreg, lstk, nr, r0, r1, c8, c16, c24, c28, ap; Blk *b0, *bstk, *breg; int isgp; c8 = getcon(8, fn); c16 = getcon(16, fn); c24 = getcon(24, fn); c28 = getcon(28, fn); ap = i->arg[0]; isgp = KBASE(i->cls) == 0; /* @b [...] r0 =l add ap, (24 or 28) nr =l loadsw r0 r1 =w csltw nr, 0 jnz r1, @breg, @bstk @breg r0 =l add ap, (8 or 16) r1 =l loadl r0 lreg =l add r1, nr r0 =w add nr, (8 or 16) r1 =l add ap, (24 or 28) storew r0, r1 @bstk lstk =l loadl ap r0 =l add lstk, 8 storel r0, ap @b0 %loc =l phi @breg %lreg, @bstk %lstk i->to =(i->cls) load %loc */ loc = newtmp("abi", Kl, fn); emit(Oload, i->cls, i->to, loc, R); b0 = split(fn, b); b0->jmp = b->jmp; b0->s1 = b->s1; b0->s2 = b->s2; if (b->s1) chpred(b->s1, b, b0); if (b->s2 && b->s2 != b->s1) chpred(b->s2, b, b0); lreg = newtmp("abi", Kl, fn); nr = newtmp("abi", Kl, fn); r0 = newtmp("abi", Kw, fn); r1 = newtmp("abi", Kl, fn); emit(Ostorew, Kw, R, r0, r1); emit(Oadd, Kl, r1, ap, isgp ? c24 : c28); emit(Oadd, Kw, r0, nr, isgp ? c8 : c16); r0 = newtmp("abi", Kl, fn); r1 = newtmp("abi", Kl, fn); emit(Oadd, Kl, lreg, r1, nr); emit(Oload, Kl, r1, r0, R); emit(Oadd, Kl, r0, ap, isgp ? c8 : c16); breg = split(fn, b); breg->jmp.type = Jjmp; breg->s1 = b0; lstk = newtmp("abi", Kl, fn); r0 = newtmp("abi", Kl, fn); emit(Ostorel, Kw, R, r0, ap); emit(Oadd, Kl, r0, lstk, c8); emit(Oload, Kl, lstk, ap, R); bstk = split(fn, b); bstk->jmp.type = Jjmp; bstk->s1 = b0; b0->phi = alloc(sizeof *b0->phi); *b0->phi = (Phi){ .cls = Kl, .to = loc, .narg = 2, .blk = {bstk, breg}, .arg = {lstk, lreg}, }; r0 = newtmp("abi", Kl, fn); r1 = newtmp("abi", Kw, fn); b->jmp.type = Jjnz; b->jmp.arg = r1; b->s1 = breg; b->s2 = bstk; emit(Ocmpw+Cislt, Kw, r1, nr, CON_Z); emit(Oloadsw, Kl, nr, r0, R); emit(Oadd, Kl, r0, ap, isgp ? c24 : c28); } static void selvastart(Fn *fn, Params p, Ref ap) { Ref r0, r1, rsave; rsave = newtmp("abi", Kl, fn); r0 = newtmp("abi", Kl, fn); emit(Ostorel, Kw, R, r0, ap); emit(Oadd, Kl, r0, rsave, getcon(p.nstk*8 + 192, fn)); r0 = newtmp("abi", Kl, fn); r1 = newtmp("abi", Kl, fn); emit(Ostorel, Kw, R, r1, r0); emit(Oadd, Kl, r1, rsave, getcon(64, fn)); emit(Oadd, Kl, r0, ap, getcon(8, fn)); r0 = newtmp("abi", Kl, fn); r1 = newtmp("abi", Kl, fn); emit(Ostorel, Kw, R, r1, r0); emit(Oadd, Kl, r1, rsave, getcon(192, fn)); emit(Oaddr, Kl, rsave, SLOT(-1), R); emit(Oadd, Kl, r0, ap, getcon(16, fn)); r0 = newtmp("abi", Kl, fn); emit(Ostorew, Kw, R, getcon((p.ngp-8)*8, fn), r0); emit(Oadd, Kl, r0, ap, getcon(24, fn)); r0 = newtmp("abi", Kl, fn); emit(Ostorew, Kw, R, getcon((p.nfp-8)*16, fn), r0); emit(Oadd, Kl, r0, ap, getcon(28, fn)); } void arm64_abi(Fn *fn) { Blk *b; Ins *i, *i0, *ip; Insl *il; int n; Params p; for (b=fn->start; b; b=b->link) b->visit = 0; /* lower parameters */ for (b=fn->start, i=b->ins; i<&b->ins[b->nins]; i++) if (!ispar(i->op)) break; p = selpar(fn, b->ins, i); n = b->nins - (i - b->ins) + (&insb[NIns] - curi); i0 = alloc(n * sizeof(Ins)); ip = icpy(ip = i0, curi, &insb[NIns] - curi); ip = icpy(ip, i, &b->ins[b->nins] - i); b->nins = n; b->ins = i0; /* lower calls, returns, and vararg instructions */ il = 0; b = fn->start; do { if (!(b = b->link)) b = fn->start; /* do it last */ if (b->visit) continue; curi = &insb[NIns]; selret(b, fn); for (i=&b->ins[b->nins]; i!=b->ins;) switch ((--i)->op) { default: emiti(*i); break; case Ocall: case Ovacall: for (i0=i; i0>b->ins; i0--) if (!isarg((i0-1)->op)) break; selcall(fn, i0, i, &il); i = i0; break; case Ovastart: selvastart(fn, p, i->arg[0]); break; case Ovaarg: selvaarg(fn, b, i); break; case Oarg: case Oargc: die("unreachable"); } if (b == fn->start) for (; il; il=il->link) emiti(il->i); b->nins = &insb[NIns] - curi; idup(&b->ins, curi, b->nins); } while (b != fn->start); if (debug['A']) { fprintf(stderr, "\n> After ABI lowering:\n"); printfn(fn, stderr); } }