/* ** Trace recorder for C data operations. ** Copyright (C) 2005-2010 Mike Pall. See Copyright Notice in luajit.h */ #define lj_ffrecord_c #define LUA_CORE #include "lj_obj.h" #if LJ_HASJIT && LJ_HASFFI #include "lj_err.h" #include "lj_str.h" #include "lj_ctype.h" #include "lj_cparse.h" #include "lj_cconv.h" #include "lj_ir.h" #include "lj_jit.h" #include "lj_iropt.h" #include "lj_trace.h" #include "lj_ffrecord.h" #include "lj_crecord.h" #include "lj_dispatch.h" /* Some local macros to save typing. Undef'd at the end. */ #define IR(ref) (&J->cur.ir[(ref)]) /* Pass IR on to next optimization in chain (FOLD). */ #define emitir(ot, a, b) (lj_ir_set(J, (ot), (a), (b)), lj_opt_fold(J)) #define emitconv(a, dt, st, flags) \ emitir(IRT(IR_CONV, (dt)), (a), (st)|((dt) << 5)|(flags)) /* -- C type checks ------------------------------------------------------- */ static GCcdata *argv2cdata(jit_State *J, TRef tr, cTValue *o) { GCcdata *cd; TRef trtypeid; if (!tref_iscdata(tr)) lj_trace_err(J, LJ_TRERR_BADTYPE); cd = cdataV(o); /* Specialize to the CTypeID. */ trtypeid = emitir(IRT(IR_FLOAD, IRT_U16), tr, IRFL_CDATA_TYPEID); emitir(IRTG(IR_EQ, IRT_INT), trtypeid, lj_ir_kint(J, (int32_t)cd->typeid)); return cd; } static CTypeID argv2ctype(jit_State *J, TRef tr, cTValue *o) { if (tref_isstr(tr)) { GCstr *s = strV(o); CPState cp; CTypeID oldtop; /* Specialize to the string containing the C type declaration. */ emitir(IRTG(IR_EQ, IRT_STR), tr, lj_ir_kstr(J, s)); cp.L = J->L; cp.cts = ctype_ctsG(J2G(J)); oldtop = cp.cts->top; cp.srcname = strdata(s); cp.p = strdata(s); cp.mode = CPARSE_MODE_ABSTRACT|CPARSE_MODE_NOIMPLICIT; if (lj_cparse(&cp) || cp.cts->top > oldtop) /* Avoid new struct defs. */ lj_trace_err(J, LJ_TRERR_BADTYPE); return cp.val.id; } else { GCcdata *cd = argv2cdata(J, tr, o); return cd->typeid == CTID_CTYPEID ? *(CTypeID *)cdataptr(cd) : cd->typeid; } } /* -- Convert C type to C type -------------------------------------------- */ /* ** This code mirrors the code in lj_cconv.c. It performs the same steps ** for the trace recorder that lj_cconv.c does for the interpreter. ** ** One major difference is that we can get away with much fewer checks ** here. E.g. checks for casts, constness or correct types can often be ** omitted, even if they might fail. The interpreter subsequently throws ** an error, which aborts the trace. ** ** All operations are specialized to their C types, so the on-trace ** outcome must be the same as the outcome in the interpreter. If the ** interpreter doesn't throw an error, then the trace is correct, too. ** Care must be taken not to generate invalid (temporary) IR or to ** trigger asserts. */ /* Convert CType to IRType. */ static IRType crec_ct2irt(CType *ct) { if (LJ_LIKELY(ctype_isnum(ct->info))) { if ((ct->info & CTF_FP)) { if (ct->size == sizeof(double)) return IRT_NUM; else if (ct->size == sizeof(float)) return IRT_FLOAT; } else { uint32_t b = lj_fls(ct->size); if (b <= 3) return IRT_I8 + 2*b + ((ct->info & CTF_UNSIGNED) ? 1 : 0); } } else if (ctype_isptr(ct->info)) { return (LJ_64 && ct->size == 8) ? IRT_P64 : IRT_P32; } else if (ctype_iscomplex(ct->info)) { if (ct->size == 2*sizeof(double)) return IRT_NUM; else if (ct->size == 2*sizeof(float)) return IRT_FLOAT; } return IRT_CDATA; } static void crec_ct_ct(jit_State *J, CType *d, CType *s, TRef dp, TRef sp) { CTSize dsize = d->size, ssize = s->size; CTInfo dinfo = d->info, sinfo = s->info; IRType dt = crec_ct2irt(d); IRType st = crec_ct2irt(s); if (ctype_type(dinfo) > CT_MAYCONVERT || ctype_type(sinfo) > CT_MAYCONVERT) goto err_conv; /* ** Note: Unlike lj_cconv_ct_ct(), sp holds the _value_ of pointers and ** numbers up to 8 bytes. Otherwise sp holds a pointer. */ switch (cconv_idx2(dinfo, sinfo)) { /* Destination is a bool. */ case CCX(B, B): goto xstore; /* Source operand is already normalized. */ case CCX(B, I): case CCX(B, P): case CCX(B, F): case CCX(B, C): case CCX(B, A): /* NYI: specialize to the result of a comparison against 0. */ goto err_nyi; /* Destination is an integer. */ case CCX(I, B): case CCX(I, I): conv_I_I: if (dt == IRT_CDATA || st == IRT_CDATA) goto err_nyi; #if LJ_64 /* Sign-extend 32 to 64 bit integer. */ if (dsize == 8 && ssize < 8 && !(sinfo & CTF_UNSIGNED)) sp = emitconv(sp, dt, IRT_INT, IRCONV_SEXT); /* All other conversions are no-ops on x64. */ #else if (dsize == 8 && ssize < 8) /* Extend to 64 bit integer. */ sp = emitconv(sp, dt, ssize < 4 ? IRT_INT : st, (sinfo & CTF_UNSIGNED) ? 0 : IRCONV_SEXT); else if (dsize < 8 && ssize == 8) /* Truncate from 64 bit integer. */ sp = emitconv(sp, dsize < 4 ? IRT_INT : dt, st, 0); #endif xstore: emitir(IRT(IR_XSTORE, dt), dp, sp); break; case CCX(I, C): sp = emitir(IRT(IR_XLOAD, st), sp, 0); /* Load re. */ /* fallthrough */ case CCX(I, F): if (dt == IRT_CDATA || st == IRT_CDATA) goto err_nyi; sp = emitconv(sp, dsize < 4 ? IRT_INT : dt, st, IRCONV_TRUNC|IRCONV_ANY); goto xstore; case CCX(I, P): case CCX(I, A): sinfo = CTINFO(CT_NUM, CTF_UNSIGNED); ssize = CTSIZE_PTR; st = IRT_UINTP; goto conv_I_I; /* Destination is a floating-point number. */ case CCX(F, B): case CCX(F, I): conv_F_I: if (dt == IRT_CDATA || st == IRT_CDATA) goto err_nyi; sp = emitconv(sp, dt, ssize < 4 ? IRT_INT : st, 0); goto xstore; case CCX(F, C): sp = emitir(IRT(IR_XLOAD, st), sp, 0); /* Load re. */ /* fallthrough */ case CCX(F, F): conv_F_F: if (dt == IRT_CDATA || st == IRT_CDATA) goto err_nyi; if (dt != st) sp = emitconv(sp, dt, st, 0); goto xstore; /* Destination is a complex number. */ case CCX(C, I): case CCX(C, F): { /* Clear im. */ TRef ptr = emitir(IRT(IR_ADD, IRT_PTR), dp, lj_ir_kintp(J, (dsize >> 1))); emitir(IRT(IR_XSTORE, dt), ptr, lj_ir_knum(J, 0)); } /* Convert to re. */ if ((sinfo & CTF_FP)) goto conv_F_F; else goto conv_F_I; case CCX(C, C): if (dt == IRT_CDATA || st == IRT_CDATA) goto err_nyi; { TRef re, im, ptr; re = emitir(IRT(IR_XLOAD, st), sp, 0); ptr = emitir(IRT(IR_ADD, IRT_PTR), sp, lj_ir_kintp(J, (ssize >> 1))); im = emitir(IRT(IR_XLOAD, st), ptr, 0); if (dt != st) { re = emitconv(re, dt, st, 0); im = emitconv(im, dt, st, 0); } emitir(IRT(IR_XSTORE, dt), dp, re); ptr = emitir(IRT(IR_ADD, IRT_PTR), dp, lj_ir_kintp(J, (dsize >> 1))); emitir(IRT(IR_XSTORE, dt), ptr, im); } break; /* Destination is a vector. */ case CCX(V, I): case CCX(V, F): case CCX(V, C): case CCX(V, V): goto err_nyi; /* Destination is a pointer. */ case CCX(P, P): case CCX(P, A): case CCX(P, S): /* There are only 32 bit pointers/addresses on 32 bit machines. ** Also ok on x64, since all 32 bit ops clear the upper part of the reg. */ goto xstore; case CCX(P, I): if (st == IRT_CDATA) goto err_nyi; if (!LJ_64 && ssize == 8) /* Truncate from 64 bit integer. */ sp = emitconv(sp, IRT_U32, st, 0); goto xstore; case CCX(P, F): if (st == IRT_CDATA) goto err_nyi; /* The signed conversion is cheaper. x64 really has 47 bit pointers. */ sp = emitconv(sp, (LJ_64 && dsize == 8) ? IRT_I64 : IRT_U32, st, IRCONV_TRUNC|IRCONV_ANY); goto xstore; /* Destination is an array. */ case CCX(A, A): goto err_nyi; /* Destination is a struct/union. */ case CCX(S, S): goto err_nyi; default: err_conv: err_nyi: lj_trace_err(J, LJ_TRERR_NYICONV); break; } } /* -- Convert C type to TValue (load) ------------------------------------- */ static TRef crec_tv_ct(jit_State *J, CType *s, CTypeID sid, TRef sp) { CTState *cts = ctype_ctsG(J2G(J)); CTInfo sinfo = s->info; lua_assert(!ctype_isenum(sinfo)); if (ctype_isnum(sinfo)) { IRType t = crec_ct2irt(s); TRef tr; if ((sinfo & CTF_BOOL)) goto err_nyi; /* NYI: specialize to the result. */ if (t == IRT_CDATA) goto err_nyi; /* NYI: copyval of >64 bit integers. */ tr = emitir(IRT(IR_XLOAD, t), sp, 0); if (t == IRT_FLOAT || t == IRT_U32) { /* Keep uint32_t/float as numbers. */ tr = emitconv(tr, IRT_NUM, t, 0); } else if (t == IRT_I64 || t == IRT_U64) { /* Box 64 bit integer. */ TRef dp = emitir(IRTG(IR_CNEW, IRT_CDATA), lj_ir_kint(J, sid), TREF_NIL); TRef ptr = emitir(IRT(IR_ADD, IRT_PTR), dp, lj_ir_kintp(J, sizeof(GCcdata))); emitir(IRT(IR_XSTORE, t), ptr, tr); return dp; } return tr; } else if (ctype_isptr(sinfo)) { IRType t = (LJ_64 && s->size == 8) ? IRT_P64 : IRT_P32; sp = emitir(IRT(IR_XLOAD, t), sp, 0); } else if (ctype_isrefarray(sinfo) || ctype_isstruct(sinfo)) { cts->L = J->L; sid = lj_ctype_intern(cts, CTINFO_REF(sid), CTSIZE_PTR); /* Create ref. */ } else if (ctype_iscomplex(sinfo)) { /* Unbox/box complex. */ IRType t = s->size == 2*sizeof(double) ? IRT_NUM : IRT_FLOAT; ptrdiff_t esz = (ptrdiff_t)(s->size >> 1); TRef ptr, tr1, tr2, dp; dp = emitir(IRTG(IR_CNEW, IRT_CDATA), lj_ir_kint(J, sid), TREF_NIL); tr1 = emitir(IRT(IR_XLOAD, t), sp, 0); ptr = emitir(IRT(IR_ADD, IRT_PTR), sp, lj_ir_kintp(J, esz)); tr2 = emitir(IRT(IR_XLOAD, t), ptr, 0); ptr = emitir(IRT(IR_ADD, IRT_PTR), dp, lj_ir_kintp(J, sizeof(GCcdata))); emitir(IRT(IR_XSTORE, t), ptr, tr1); ptr = emitir(IRT(IR_ADD, IRT_PTR), dp, lj_ir_kintp(J, sizeof(GCcdata)+esz)); emitir(IRT(IR_XSTORE, t), ptr, tr2); return dp; } else { /* NYI: copyval of vectors. */ err_nyi: lj_trace_err(J, LJ_TRERR_NYICONV); } /* Box pointer or ref. */ return emitir(IRTG(IR_CNEWP, IRT_CDATA), lj_ir_kint(J, sid), sp); } /* -- Convert TValue to C type (store) ------------------------------------ */ static void crec_ct_tv(jit_State *J, CType *d, TRef dp, TRef sp, TValue *sval) { CTState *cts = ctype_ctsG(J2G(J)); CTypeID sid = CTID_P_VOID; CType *s; if (LJ_LIKELY(tref_isinteger(sp))) { sid = CTID_INT32; } else if (tref_isnum(sp)) { sid = CTID_DOUBLE; } else if (tref_isbool(sp)) { sp = lj_ir_kint(J, tref_istrue(sp) ? 1 : 0); sid = CTID_BOOL; } else if (tref_isnil(sp)) { sp = lj_ir_kptr(J, NULL); } else if (tref_isudata(sp)) { sp = emitir(IRT(IR_ADD, IRT_P32), sp, lj_ir_kint(J, sizeof(GCcdata))); } else { /* NYI: tref_isstr(sp), tref_istab(sp), tref_islightud(sp). */ sid = argv2cdata(J, sp, sval)->typeid; s = ctype_raw(cts, sid); if (ctype_isptr(s->info)) { IRType t = (LJ_64 && s->size == 8) ? IRT_P64 : IRT_P32; sp = emitir(IRT(IR_FLOAD, t), sp, IRFL_CDATA_PTR); if (ctype_isref(s->info)) s = ctype_rawchild(cts, s); else goto doconv; /* The pointer value was loaded, don't load number. */ } else { sp = emitir(IRT(IR_ADD, IRT_PTR), sp, lj_ir_kintp(J, sizeof(GCcdata))); } if (ctype_isenum(s->info)) s = ctype_child(cts, s); if (ctype_isnum(s->info)) { /* Load number value. */ IRType t = crec_ct2irt(s); if (t != IRT_CDATA) sp = emitir(IRT(IR_XLOAD, t), sp, 0); } goto doconv; } s = ctype_get(cts, sid); doconv: crec_ct_ct(J, d, s, dp, sp); } /* -- C data metamethods -------------------------------------------------- */ /* This would be rather difficult in FOLD, so do it here: ** (base+k)+(idx*sz)+ofs ==> (base+idx*sz)+(ofs+k) ** (base+(idx+k)*sz)+ofs ==> (base+idx*sz)+(ofs+k*sz) */ static TRef crec_reassoc_ofs(jit_State *J, TRef tr, ptrdiff_t *ofsp, MSize sz) { IRIns *ir = IR(tref_ref(tr)); if (LJ_LIKELY(J->flags & JIT_F_OPT_FOLD) && ir->o == IR_ADD && irref_isk(ir->op2)) { IRIns *irk = IR(ir->op2); tr = ir->op1; #if LJ_64 if (irk->o == IR_KINT64) *ofsp += (ptrdiff_t)ir_kint64(irk)->u64 * sz; else #endif *ofsp += (ptrdiff_t)irk->i * sz; } return tr; } void LJ_FASTCALL recff_cdata_index(jit_State *J, RecordFFData *rd) { TRef idx, ptr = J->base[0]; ptrdiff_t ofs = sizeof(GCcdata); GCcdata *cd = argv2cdata(J, ptr, &rd->argv[0]); CTState *cts = ctype_ctsG(J2G(J)); CType *ct = ctype_raw(cts, cd->typeid); CTypeID sid = 0; /* Resolve pointer or reference for cdata object. */ if (ctype_isptr(ct->info)) { IRType t = (LJ_64 && ct->size == 8) ? IRT_P64 : IRT_P32; if (ctype_isref(ct->info)) ct = ctype_rawchild(cts, ct); ptr = emitir(IRT(IR_FLOAD, t), ptr, IRFL_CDATA_PTR); ofs = 0; ptr = crec_reassoc_ofs(J, ptr, &ofs, 1); } idx = J->base[1]; if (tref_isnumber(idx)) { /* The size of a ptrdiff_t is target-specific. */ #if LJ_64 if (tref_isnum(idx)) idx = emitconv(idx, IRT_I64, IRT_NUM, IRCONV_TRUNC|IRCONV_ANY); else idx = emitconv(idx, IRT_I64, IRT_INT, IRCONV_SEXT); #else if (tref_isnum(idx)) idx = emitconv(idx, IRT_INT, IRT_NUM, IRCONV_TRUNC|IRCONV_ANY); #endif if (ctype_ispointer(ct->info)) { CTSize sz = lj_ctype_size(cts, (sid = ctype_cid(ct->info))); idx = crec_reassoc_ofs(J, idx, &ofs, sz); idx = emitir(IRT(IR_MUL, IRT_INTP), idx, lj_ir_kintp(J, sz)); ptr = emitir(IRT(IR_ADD, IRT_PTR), idx, ptr); } } else if (tref_isstr(idx)) { GCstr *name = strV(&rd->argv[1]); /* Always specialize to the field name. */ emitir(IRTG(IR_EQ, IRT_STR), idx, lj_ir_kstr(J, name)); if (ctype_isptr(ct->info)) { /* Automatically perform '->'. */ CType *cct = ctype_rawchild(cts, ct); if (ctype_isstruct(cct->info)) { ct = cct; goto index_struct; } } else if (ctype_isstruct(ct->info)) { CTSize fofs; CType *fct; index_struct: fct = lj_ctype_getfield(cts, ct, name, &fofs); if (fct) { if (ctype_isconstval(fct->info)) { if (fct->size >= 0x80000000u && (ctype_child(cts, fct)->info & CTF_UNSIGNED)) { J->base[0] = lj_ir_knum(J, (lua_Number)(uint32_t)fct->size); return; } J->base[0] = lj_ir_kint(J, (int32_t)fct->size); return; /* Interpreter will throw for newindex. */ } else if (ctype_isbitfield(fct->info)) { lj_trace_err(J, LJ_TRERR_NYICONV); } else { lua_assert(ctype_isfield(fct->info)); sid = ctype_cid(fct->info); } ofs += (ptrdiff_t)fofs; } } else if (ctype_iscomplex(ct->info)) { if (strdata(name)[0] == 'i') ofs += (ct->size >> 1); sid = ctype_cid(ct->info); } } if (!sid) lj_trace_err(J, LJ_TRERR_BADTYPE); if (ofs) ptr = emitir(IRT(IR_ADD, IRT_PTR), ptr, lj_ir_kintp(J, ofs)); /* Resolve reference for field. */ ct = ctype_get(cts, sid); if (ctype_isref(ct->info)) ptr = emitir(IRT(IR_XLOAD, IRT_PTR), ptr, 0); /* Skip attributes and enums. */ while (ctype_isattrib(ct->info) || ctype_isenum(ct->info)) ct = ctype_child(cts, ct); if (rd->data == 0) { /* __index metamethod. */ J->base[0] = crec_tv_ct(J, ct, sid, ptr); } else { /* __newindex metamethod. */ rd->nres = 0; J->needsnap = 1; crec_ct_tv(J, ct, ptr, J->base[2], &rd->argv[2]); } } /* Record cdata allocation. */ static void crec_alloc(jit_State *J, RecordFFData *rd, CTypeID id) { CTState *cts = ctype_ctsG(J2G(J)); CTSize sz; CTInfo info = lj_ctype_info(cts, id, &sz); TRef trid; if (sz == 0 || sz > 64 || (info & CTF_VLA) || ctype_align(info) > CT_MEMALIGN) lj_trace_err(J, LJ_TRERR_NYICONV); /* NYI: large/special allocations. */ trid = lj_ir_kint(J, id); if (ctype_isptr(info)) { TRef sp = J->base[1] ? J->base[1] : lj_ir_kptr(J, NULL); J->base[0] = emitir(IRTG(IR_CNEWP, IRT_CDATA), trid, sp); } else { CType *d = ctype_raw(cts, id); TRef trcd = emitir(IRTG(IR_CNEW, IRT_CDATA), trid, TREF_NIL); J->base[0] = trcd; if (J->base[1] && !J->base[2] && !lj_cconv_multi_init(cts, d, &rd->argv[1])) { goto single_init; } else if (ctype_isarray(d->info)) { CType *dc = ctype_rawchild(cts, d); /* Array element type. */ CTSize ofs, esize = dc->size; TRef sp = 0; TValue *sval = NULL; MSize i; if (!(ctype_isnum(dc->info) || ctype_isptr(dc->info))) lj_trace_err(J, LJ_TRERR_NYICONV); /* NYI: init array of aggregates. */ for (i = 1, ofs = 0; ofs < sz; ofs += esize) { TRef dp = emitir(IRT(IR_ADD, IRT_PTR), trcd, lj_ir_kintp(J, ofs + sizeof(GCcdata))); if (J->base[i]) { sp = J->base[i]; sval = &rd->argv[i]; i++; } else if (i != 2) { sp = ctype_isnum(dc->info) ? lj_ir_kint(J, 0) : TREF_NIL; } crec_ct_tv(J, dc, dp, sp, sval); } } else if (ctype_isstruct(d->info)) { CTypeID fid = d->sib; MSize i = 1; while (fid) { CType *df = ctype_get(cts, fid); fid = df->sib; if (ctype_isfield(df->info)) { CType *dc; TRef sp, dp; TValue *sval; if (!gcref(df->name)) continue; /* Ignore unnamed fields. */ dc = ctype_rawchild(cts, df); /* Field type. */ if (!(ctype_isnum(dc->info) || ctype_isptr(dc->info))) lj_trace_err(J, LJ_TRERR_NYICONV); /* NYI: init aggregates. */ if (J->base[i]) { sp = J->base[i]; sval = &rd->argv[i]; i++; } else { sp = ctype_isnum(dc->info) ? lj_ir_kint(J, 0) : TREF_NIL; sval = NULL; } dp = emitir(IRT(IR_ADD, IRT_PTR), trcd, lj_ir_kintp(J, df->size + sizeof(GCcdata))); crec_ct_tv(J, dc, dp, sp, sval); } else if (!ctype_isconstval(df->info)) { /* NYI: init bitfields and sub-structures. */ lj_trace_err(J, LJ_TRERR_NYICONV); } } } else { TRef sp, dp; single_init: sp = J->base[1] ? J->base[1] : lj_ir_kint(J, 0); dp = emitir(IRT(IR_ADD, IRT_PTR), trcd, lj_ir_kintp(J, sizeof(GCcdata))); crec_ct_tv(J, d, dp, sp, &rd->argv[1]); } } } void LJ_FASTCALL recff_cdata_call(jit_State *J, RecordFFData *rd) { GCcdata *cd = argv2cdata(J, J->base[0], &rd->argv[0]); if (cd->typeid == CTID_CTYPEID) { crec_alloc(J, rd, *(CTypeID *)cdataptr(cd)); } /* else: Interpreter will throw. */ } static TRef crec_arith_int64(jit_State *J, TRef *sp, CType **s, MMS mm) { if (ctype_isnum(s[0]->info) && ctype_isnum(s[1]->info)) { IRType dt; CTypeID id; TRef tr, dp, ptr; MSize i; if (((s[0]->info & CTF_UNSIGNED) && s[0]->size == 8) || ((s[1]->info & CTF_UNSIGNED) && s[1]->size == 8)) { dt = IRT_U64; id = CTID_UINT64; } else { dt = IRT_I64; id = CTID_INT64; } for (i = 0; i < 2; i++) { IRType st = tref_type(sp[i]); if (st == IRT_NUM || st == IRT_FLOAT) sp[i] = emitconv(sp[i], dt, st, IRCONV_TRUNC|IRCONV_ANY); else if (!(st == IRT_I64 || st == IRT_U64)) sp[i] = emitconv(sp[i], dt, IRT_INT, ((st - IRT_I8) & 1) ? 0 : IRCONV_SEXT); } if (mm == MM_pow) { tr = lj_ir_call(J, IRCALL_lj_cdata_powi64, sp[0], sp[1], lj_ir_kint(J, (int)dt-(int)IRT_I64)); } else { if (mm == MM_div || mm == MM_mod) return 0; /* NYI: integer div, mod. */ tr = emitir(IRT(mm+(int)IR_ADD-(int)MM_add, dt), sp[0], sp[1]); } dp = emitir(IRTG(IR_CNEW, IRT_CDATA), lj_ir_kint(J, id), TREF_NIL); ptr = emitir(IRT(IR_ADD, IRT_PTR), dp, lj_ir_kintp(J, sizeof(GCcdata))); emitir(IRT(IR_XSTORE, dt), ptr, tr); return dp; } return 0; } static TRef crec_arith_ptr(jit_State *J, TRef *sp, CType **s, MMS mm) { CTState *cts = ctype_ctsG(J2G(J)); CType *ctp = s[0]; CTSize sz; if (!(mm == MM_add || mm == MM_sub)) return 0; if (ctype_ispointer(ctp->info)) { sz = lj_ctype_size(cts, ctype_cid(ctp->info)); if (mm == MM_sub && ctype_ispointer(s[1]->info)) { /* Pointer difference. */ TRef tr; if (sz == 0 || (sz & (sz-1)) != 0) return 0; /* NYI: integer division. */ tr = emitir(IRT(IR_SUB, IRT_PTR), sp[0], sp[1]); tr = emitir(IRT(IR_BSAR, IRT_INTP), tr, lj_ir_kint(J, lj_fls(sz))); #if LJ_64 tr = emitconv(tr, IRT_NUM, IRT_INTP, 0); #endif return tr; } if (!ctype_isnum(s[1]->info)) return 0; } else if (mm == MM_add && ctype_isnum(ctp->info) && ctype_ispointer(s[1]->info)) { TRef tr = sp[0]; sp[0] = sp[1]; sp[1] = tr; /* Swap pointer and index. */ ctp = s[1]; sz = lj_ctype_size(cts, ctype_cid(ctp->info)); } else { return 0; } { TRef tr = sp[1]; IRType t = tref_type(tr); CTypeID id; #if LJ_64 if (t == IRT_NUM || t == IRT_FLOAT) tr = emitconv(tr, IRT_INTP, t, IRCONV_TRUNC|IRCONV_ANY); else if (!(t == IRT_I64 || t == IRT_U64)) tr = emitconv(tr, IRT_INTP, IRT_INT, ((t - IRT_I8) & 1) ? 0 : IRCONV_SEXT); #else if (!tref_typerange(sp[1], IRT_I8, IRT_U32)) tr = emitconv(tr, IRT_INTP, t, (t == IRT_NUM || t == IRT_FLOAT) ? IRCONV_TRUNC|IRCONV_ANY : 0); #endif tr = emitir(IRT(IR_MUL, IRT_INTP), tr, lj_ir_kintp(J, sz)); tr = emitir(IRT(IR_ADD, IRT_PTR), sp[0], tr); id = lj_ctype_intern(cts, CTINFO(CT_PTR, CTALIGN_PTR|ctype_cid(ctp->info)), CTSIZE_PTR); return emitir(IRTG(IR_CNEWP, IRT_CDATA), lj_ir_kint(J, id), tr); } } void LJ_FASTCALL recff_cdata_arith(jit_State *J, RecordFFData *rd) { CTState *cts = ctype_ctsG(J2G(J)); TRef sp[2]; CType *s[2]; MSize i; for (i = 0; i < 2; i++) { TRef tr = J->base[i]; CType *ct = ctype_get(cts, CTID_DOUBLE); if (tref_iscdata(tr)) { CTypeID id = argv2cdata(J, tr, &rd->argv[i])->typeid; ct = ctype_raw(cts, id); if (ctype_isptr(ct->info)) { /* Resolve pointer or reference. */ IRType t = (LJ_64 && ct->size == 8) ? IRT_P64 : IRT_P32; if (ctype_isref(ct->info)) ct = ctype_rawchild(cts, ct); tr = emitir(IRT(IR_FLOAD, t), tr, IRFL_CDATA_PTR); } else { tr = emitir(IRT(IR_ADD, IRT_PTR), tr, lj_ir_kintp(J, sizeof(GCcdata))); } if (ctype_isenum(ct->info)) ct = ctype_child(cts, ct); if (ctype_isnum(ct->info)) { IRType t = crec_ct2irt(ct); if (t == IRT_CDATA) goto err_type; tr = emitir(IRT(IR_XLOAD, t), tr, 0); } else if (!(ctype_isptr(ct->info) || ctype_isrefarray(ct->info))) { goto err_type; } } else if (tref_isinteger(tr)) { ct = ctype_get(cts, CTID_INT32); } else if (!tref_isnum(tr)) { goto err_type; } s[i] = ct; sp[i] = tr; } { TRef tr; if (!(tr = crec_arith_int64(J, sp, s, (MMS)rd->data)) && !(tr = crec_arith_ptr(J, sp, s, (MMS)rd->data))) { err_type: lj_trace_err(J, LJ_TRERR_BADTYPE); } J->base[0] = tr; } } /* -- FFI library functions ----------------------------------------------- */ void LJ_FASTCALL recff_ffi_new(jit_State *J, RecordFFData *rd) { crec_alloc(J, rd, argv2ctype(J, J->base[0], &rd->argv[0])); } /* -- Miscellaneous library functions ------------------------------------- */ void LJ_FASTCALL lj_crecord_tonumber(jit_State *J, RecordFFData *rd) { CTypeID sid = argv2cdata(J, J->base[0], &rd->argv[0])->typeid; CTState *cts = ctype_ctsG(J2G(J)); CType *s = ctype_raw(cts, sid); TRef sp = J->base[0]; if (ctype_isref(s->info)) { sp = emitir(IRT(IR_FLOAD, IRT_PTR), sp, IRFL_CDATA_PTR); s = ctype_rawchild(cts, s); } else { sp = emitir(IRT(IR_ADD, IRT_PTR), sp, lj_ir_kintp(J, sizeof(GCcdata))); } if (ctype_isenum(s->info)) s = ctype_child(cts, s); if (ctype_isnum(s->info) || ctype_iscomplex(s->info)) { IRType t = crec_ct2irt(s); if (t != IRT_CDATA) { TRef tr = emitir(IRT(IR_XLOAD, t), sp, 0); /* Load number value. */ if (t == IRT_FLOAT || t == IRT_U32 || t == IRT_I64 || t == IRT_U64) tr = emitconv(tr, IRT_NUM, t, 0); J->base[0] = tr; return; } } lj_trace_err(J, LJ_TRERR_BADTYPE); } #undef IR #undef emitir #undef emitconv #endif