u64               118 lib_math.c     typedef union { uint64_t u64; double d; } U64double;
u64               147 lib_math.c         if (u.u64 < m) u.u64 += m;  /* Ensure k[i] MSB of gen[i] are non-zero. */
u64               148 lib_math.c         rs->gen[i] = u.u64;
u64               164 lib_math.c       u.u64 = lj_math_random_step(rs);
u64               600 lib_string.c     (L->top-1)->u64 = 0;
u64               273 lj_api.c           return o1->u64 == o2->u64;
u64              1112 lj_api.c             top->u64 = cframe_multres(cf);
u64               342 lj_asm.c           emit_loadu64(as, r, ir_kint64(ir)->u64);
u64               694 lj_asm.c       	emit_loadu64(as, dest, ir_kint64(ir)->u64);
u64              1751 lj_asm_arm.h     if (!swp && irref_isk(ir->op2) && ir_knum(IR(ir->op2))->u64 == 0) {
u64                85 lj_asm_x86.h       } else if (checki32((int64_t)ir_kint64(ir)->u64)) {
u64                86 lj_asm_x86.h         *k = (int32_t)ir_kint64(ir)->u64;
u64               489 lj_asm_x86.h   	  emit_loadu64(as, r, ir_kint64(ir)->u64);
u64               607 lj_asm_x86.h         p = (MCode *)(void *)ir_k64(irf)->u64;
u64              1051 lj_asm_x86.h       emit_rmro(as, XO_CMP, key|REX_64, dest, offsetof(Node, key.u64));
u64              1142 lj_asm_x86.h   	       ofs + (int32_t)offsetof(Node, key.u64));
u64              1145 lj_asm_x86.h       emit_loadu64(as, key, irt_isnum(irkey->t) ? ir_knum(irkey)->u64 :
u64              1522 lj_asm_x86.h         uint64_t k = irk->o == IR_KINT64 ? ir_k64(irk)->u64 :
u64               694 lj_crecord.c         k = (ptrdiff_t)ir_kint64(irk)->u64 * sz;
u64               920 lj_crecord.c         tv.u64 = 0;
u64               975 lj_crecord.c   	tv.u64 = 0;
u64               294 lj_emit_x86.h    if (checku32(u64)) {  /* 32 bit load clears upper 32 bits. */
u64               295 lj_emit_x86.h      emit_loadi(as, r, (int32_t)u64);
u64               296 lj_emit_x86.h    } else if (checki32((int64_t)u64)) {  /* Sign-extended 32 bit load. */
u64               298 lj_emit_x86.h      *(int32_t *)(p-4) = (int32_t)u64;
u64               302 lj_emit_x86.h      *(uint64_t *)(p-8) = u64;
u64               223 lj_ir.c              if (tv->u64 == u64)  /* Needed for +-0/NaN/absmask. */
u64               239 lj_ir.c          ntv->u64 = u64;
u64               267 lj_ir.c          return lj_ir_k64(J, IR_KNUM, lj_ir_k64_find(J, u64));
u64               273 lj_ir.c          return lj_ir_k64(J, IR_KINT64, lj_ir_k64_find(J, u64));
u64               403 lj_ir.c            *(uint64_t *)cdataptr(cd) = ir_kint64(ir)->u64;
u64                62 lj_iropt.h       return lj_ir_knum_u64(J, tv.u64);
u64               127 lj_lex.c             *(uint64_t *)cdataptr(cd) = tv->u64;
u64               679 lj_obj.h       #define tviszero(o)	(((o)->u64 << 1) == 0)
u64               683 lj_obj.h       #define tvispzero(o)	((o)->u64 == 0)
u64               684 lj_obj.h       #define tvismzero(o)	((o)->u64 == U64x(80000000,00000000))
u64               685 lj_obj.h       #define tvispone(o)	((o)->u64 == U64x(3ff00000,00000000))
u64               686 lj_obj.h       #define rawnumequal(o1, o2)	((o1)->u64 == (o2)->u64)
u64               701 lj_obj.h         check_exp(tvislightud(o), (void *)((o)->u64 & U64x(00007fff,ffffffff)))
u64               724 lj_obj.h         o->u64 = (uint64_t)p | (((uint64_t)0xffff) << 48);
u64               734 lj_obj.h         ((o)->u64 = (uint64_t)(void *)(f) - (uint64_t)lj_vm_asm_begin)
u64               763 lj_obj.h       #define setnanV(o)		((o)->u64 = U64x(fff80000,00000000))
u64               764 lj_obj.h       #define setpinfV(o)		((o)->u64 = U64x(7ff00000,00000000))
u64               765 lj_obj.h       #define setminfV(o)		((o)->u64 = U64x(fff00000,00000000))
u64               362 lj_opt_fold.c    return INT64FOLD(kfold_int64arith(ir_k64(fleft)->u64,
u64               363 lj_opt_fold.c  				    ir_k64(fright)->u64, (IROp)fins->o));
u64               372 lj_opt_fold.c    uint64_t k1 = ir_k64(fleft)->u64, k2 = ir_k64(fright)->u64;
u64               396 lj_opt_fold.c    uint64_t k = ir_k64(fleft)->u64;
u64               418 lj_opt_fold.c    return INT64FOLD(~ir_k64(fleft)->u64);
u64               428 lj_opt_fold.c    return INT64FOLD(lj_bswap64(ir_k64(fleft)->u64));
u64               445 lj_opt_fold.c    uint64_t a = ir_k64(fleft)->u64, b = ir_k64(fright)->u64;
u64               466 lj_opt_fold.c    if (ir_k64(fright)->u64 == 0)
u64               539 lj_opt_fold.c    ptrdiff_t ofs = (ptrdiff_t)ir_kint64(fright)->u64;
u64               563 lj_opt_fold.c    ptrdiff_t ofs = (ptrdiff_t)ir_kint64(fright)->u64;
u64               631 lj_opt_fold.c    return lj_ir_knum(J, (lua_Number)(int64_t)ir_kint64(fleft)->u64);
u64               637 lj_opt_fold.c    return lj_ir_knum(J, (lua_Number)ir_kint64(fleft)->u64);
u64               644 lj_opt_fold.c    return INTFOLD((int32_t)ir_kint64(fleft)->u64);
u64               848 lj_opt_fold.c      uint64_t u = ir_knum(fright)->u64;
u64              1175 lj_opt_fold.c    if (fleft->o == IR_KINT ? (fleft->i == 0) : (ir_kint64(fleft)->u64 == 0)) {
u64              1186 lj_opt_fold.c    if (ir_kint64(fright)->u64 == 0)  /* i + 0 ==> i */
u64              1194 lj_opt_fold.c    uint64_t k = ir_kint64(fright)->u64;
u64              1231 lj_opt_fold.c    if (ir_kint64(fright)->u64 == 0)  /* i * 0 ==> 0 */
u64              1235 lj_opt_fold.c    else if (ir_kint64(fright)->u64 < 0x80000000u)
u64              1236 lj_opt_fold.c      return simplify_intmul_k(J, (int32_t)ir_kint64(fright)->u64);
u64              1363 lj_opt_fold.c  				     (int64_t)ir_k64(fright)->u64;
u64              1376 lj_opt_fold.c  				     (int64_t)ir_k64(fright)->u64;
u64              1389 lj_opt_fold.c  				     (int64_t)ir_k64(fright)->u64;
u64              1458 lj_opt_fold.c  				    (int64_t)ir_k64(fleft)->u64;
u64              1473 lj_opt_fold.c  				    (int64_t)ir_k64(fleft)->u64;
u64              1541 lj_opt_fold.c      uint64_t k = kfold_int64arith(ir_k64(irk)->u64,
u64              1542 lj_opt_fold.c  				  ir_k64(fright)->u64, (IROp)fins->o);
u64               195 lj_opt_mem.c   	  return lj_ir_knum_u64(J, tv->u64);
u64               619 lj_opt_mem.c       ofsa = (LJ_64 && irk->o == IR_KINT64) ? (ptrdiff_t)ir_k64(irk)->u64 :
u64               625 lj_opt_mem.c       ofsb = (LJ_64 && irk->o == IR_KINT64) ? (ptrdiff_t)ir_k64(irk)->u64 :
u64               677 lj_opt_mem.c       ofs = (LJ_64 && irk->o == IR_KINT64) ? (ptrdiff_t)ir_k64(irk)->u64 :
u64               205 lj_parse.c       o->u64 = fs->nkn;
u64               219 lj_parse.c       o->u64 = fs->nkgc;
u64               969 lj_parse.c     	  o->u64 ^= U64x(80000000,00000000);
u64               605 lj_snap.c            o->u64 = *(uint64_t *)sps;
u64               609 lj_snap.c            o->u64 = *(uint64_t *)sps;
u64               630 lj_snap.c            o->u64 = ex->gpr[r-RID_MIN_GPR];
u64               737 lj_snap.c      	    p += (int64_t)ir_k64(iro)->u64;
u64               137 lj_strscan.c       o->u64 = neg ? (uint64_t)-(int64_t)x : x;
u64               174 lj_strscan.c       o->u64 = neg ? (uint64_t)-(int64_t)x : x;
u64               241 lj_strscan.c   	o->u64 = neg ? (uint64_t)-(int64_t)x : x;
u64               351 lj_strscan.c         o->u64 = tmp.u64;
u64               470 lj_tab.c         n->key.u64 = key->u64;
u64               472 lj_tab.c           n->key.u64 = 0;
u64               301 lj_trace.c       tv[0].u64 = U64x(7fffffff,ffffffff);
u64               302 lj_trace.c       tv[1].u64 = U64x(7fffffff,ffffffff);
u64               304 lj_trace.c       tv[0].u64 = U64x(80000000,00000000);
u64               305 lj_trace.c       tv[1].u64 = U64x(80000000,00000000);