/*
** C data arithmetic.
** Copyright (C) 2005-2015 Mike Pall. See Copyright Notice in luajit.h
*/
#include "lj_obj.h"
#if LJ_HASFFI
#include "lj_gc.h"
#include "lj_err.h"
#include "lj_tab.h"
#include "lj_meta.h"
#include "lj_ir.h"
#include "lj_ctype.h"
#include "lj_cconv.h"
#include "lj_cdata.h"
#include "lj_carith.h"
#include "lj_strscan.h"
/* -- C data arithmetic --------------------------------------------------- */
/* Binary operands of an operator converted to ctypes. */
typedef struct CDArith {
uint8_t *p[2];
CType *ct[2];
} CDArith;
/* Check arguments for arithmetic metamethods. */
static int carith_checkarg(lua_State *L, CTState *cts, CDArith *ca)
{
TValue *o = L->base;
int ok = 1;
MSize i;
if (o+1 >= L->top)
lj_err_argt(L, 1, LUA_TCDATA);
for (i = 0; i < 2; i++, o++) {
if (tviscdata(o)) {
GCcdata *cd = cdataV(o);
CTypeID id = (CTypeID)cd->ctypeid;
CType *ct = ctype_raw(cts, id);
uint8_t *p = (uint8_t *)cdataptr(cd);
if (ctype_isptr(ct->info)) {
p = (uint8_t *)cdata_getptr(p, ct->size);
if (ctype_isref(ct->info)) ct = ctype_rawchild(cts, ct);
} else if (ctype_isfunc(ct->info)) {
p = (uint8_t *)*(void **)p;
ct = ctype_get(cts,
lj_ctype_intern(cts, CTINFO(CT_PTR, CTALIGN_PTR|id), CTSIZE_PTR));
}
if (ctype_isenum(ct->info)) ct = ctype_child(cts, ct);
ca->ct[i] = ct;
ca->p[i] = p;
} else if (tvisint(o)) {
ca->ct[i] = ctype_get(cts, CTID_INT32);
ca->p[i] = (uint8_t *)&o->i;
} else if (tvisnum(o)) {
ca->ct[i] = ctype_get(cts, CTID_DOUBLE);
ca->p[i] = (uint8_t *)&o->n;
} else if (tvisnil(o)) {
ca->ct[i] = ctype_get(cts, CTID_P_VOID);
ca->p[i] = (uint8_t *)0;
} else if (tvisstr(o)) {
TValue *o2 = i == 0 ? o+1 : o-1;
CType *ct = ctype_raw(cts, cdataV(o2)->ctypeid);
ca->ct[i] = NULL;
ca->p[i] = (uint8_t *)strVdata(o);
ok = 0;
if (ctype_isenum(ct->info)) {
CTSize ofs;
CType *cct = lj_ctype_getfield(cts, ct, strV(o), &ofs);
if (cct && ctype_isconstval(cct->info)) {
ca->ct[i] = ctype_child(cts, cct);
ca->p[i] = (uint8_t *)&cct->size; /* Assumes ct does not grow. */
ok = 1;
} else {
ca->ct[1-i] = ct; /* Use enum to improve error message. */
ca->p[1-i] = NULL;
break;
}
}
} else {
ca->ct[i] = NULL;
ca->p[i] = (void *)(intptr_t)1; /* To make it unequal. */
ok = 0;
}
}
return ok;
}
/* Pointer arithmetic. */
static int carith_ptr(lua_State *L, CTState *cts, CDArith *ca, MMS mm)
{
CType *ctp = ca->ct[0];
uint8_t *pp = ca->p[0];
ptrdiff_t idx;
CTSize sz;
CTypeID id;
GCcdata *cd;
if (ctype_isptr(ctp->info) || ctype_isrefarray(ctp->info)) {
if ((mm == MM_sub || mm == MM_eq || mm == MM_lt || mm == MM_le) &&
(ctype_isptr(ca->ct[1]->info) || ctype_isrefarray(ca->ct[1]->info))) {
uint8_t *pp2 = ca->p[1];
if (mm == MM_eq) { /* Pointer equality. Incompatible pointers are ok. */
setboolV(L->top-1, (pp == pp2));
return 1;
}
if (!lj_cconv_compatptr(cts, ctp, ca->ct[1], CCF_IGNQUAL))
return 0;
if (mm == MM_sub) { /* Pointer difference. */
intptr_t diff;
sz = lj_ctype_size(cts, ctype_cid(ctp->info)); /* Element size. */
if (sz == 0 || sz == CTSIZE_INVALID)
return 0;
diff = ((intptr_t)pp - (intptr_t)pp2) / (int32_t)sz;
/* All valid pointer differences on x64 are in (-2^47, +2^47),
** which fits into a double without loss of precision.
*/
setintptrV(L->top-1, (int32_t)diff);
return 1;
} else if (mm == MM_lt) { /* Pointer comparison (unsigned). */
setboolV(L->top-1, ((uintptr_t)pp < (uintptr_t)pp2));
return 1;
} else {
lua_assert(mm == MM_le);
setboolV(L->top-1, ((uintptr_t)pp <= (uintptr_t)pp2));
return 1;
}
}
if (!((mm == MM_add || mm == MM_sub) && ctype_isnum(ca->ct[1]->info)))
return 0;
lj_cconv_ct_ct(cts, ctype_get(cts, CTID_INT_PSZ), ca->ct[1],
(uint8_t *)&idx, ca->p[1], 0);
if (mm == MM_sub) idx = -idx;
} else if (mm == MM_add && ctype_isnum(ctp->info) &&
(ctype_isptr(ca->ct[1]->info) || ctype_isrefarray(ca->ct[1]->info))) {
/* Swap pointer and index. */
ctp = ca->ct[1]; pp = ca->p[1];
lj_cconv_ct_ct(cts, ctype_get(cts, CTID_INT_PSZ), ca->ct[0],
(uint8_t *)&idx, ca->p[0], 0);
} else {
return 0;
}
sz = lj_ctype_size(cts, ctype_cid(ctp->info)); /* Element size. */
if (sz == CTSIZE_INVALID)
return 0;
pp += idx*(int32_t)sz; /* Compute pointer + index. */
id = lj_ctype_intern(cts, CTINFO(CT_PTR, CTALIGN_PTR|ctype_cid(ctp->info)),
CTSIZE_PTR);
cd = lj_cdata_new(cts, id, CTSIZE_PTR);
*(uint8_t **)cdataptr(cd) = pp;
setcdataV(L, L->top-1, cd);
lj_gc_check(L);
return 1;
}
/* 64 bit integer arithmetic. */
static int carith_int64(lua_State *L, CTState *cts, CDArith *ca, MMS mm)
{
if (ctype_isnum(ca->ct[0]->info) && ca->ct[0]->size <= 8 &&
ctype_isnum(ca->ct[1]->info) && ca->ct[1]->size <= 8) {
CTypeID id = (((ca->ct[0]->info & CTF_UNSIGNED) && ca->ct[0]->size == 8) ||
((ca->ct[1]->info & CTF_UNSIGNED) && ca->ct[1]->size == 8)) ?
CTID_UINT64 : CTID_INT64;
CType *ct = ctype_get(cts, id);
GCcdata *cd;
uint64_t u0, u1, *up;
lj_cconv_ct_ct(cts, ct, ca->ct[0], (uint8_t *)&u0, ca->p[0], 0);
if (mm != MM_unm)
lj_cconv_ct_ct(cts, ct, ca->ct[1], (uint8_t *)&u1, ca->p[1], 0);
switch (mm) {
case MM_eq:
setboolV(L->top-1, (u0 == u1));
return 1;
case MM_lt:
setboolV(L->top-1,
id == CTID_INT64 ? ((int64_t)u0 < (int64_t)u1) : (u0 < u1));
return 1;
case MM_le:
setboolV(L->top-1,
id == CTID_INT64 ? ((int64_t)u0 <= (int64_t)u1) : (u0 <= u1));
return 1;
default: break;
}
cd = lj_cdata_new(cts, id, 8);
up = (uint64_t *)cdataptr(cd);
setcdataV(L, L->top-1, cd);
switch (mm) {
case MM_add: *up = u0 + u1; break;
case MM_sub: *up = u0 - u1; break;
case MM_mul: *up = u0 * u1; break;
case MM_div:
if (id == CTID_INT64)
*up = (uint64_t)lj_carith_divi64((int64_t)u0, (int64_t)u1);
else
*up = lj_carith_divu64(u0, u1);
break;
case MM_mod:
if (id == CTID_INT64)
*up = (uint64_t)lj_carith_modi64((int64_t)u0, (int64_t)u1);
else
*up = lj_carith_modu64(u0, u1);
break;
case MM_pow:
if (id == CTID_INT64)
*up = (uint64_t)lj_carith_powi64((int64_t)u0, (int64_t)u1);
else
*up = lj_carith_powu64(u0, u1);
break;
case MM_unm: *up = (uint64_t)-(int64_t)u0; break;
default: lua_assert(0); break;
}
lj_gc_check(L);
return 1;
}
return 0;
}
/* Handle ctype arithmetic metamethods. */
static int lj_carith_meta(lua_State *L, CTState *cts, CDArith *ca, MMS mm)
{
cTValue *tv = NULL;
if (tviscdata(L->base)) {
CTypeID id = cdataV(L->base)->ctypeid;
CType *ct = ctype_raw(cts, id);
if (ctype_isptr(ct->info)) id = ctype_cid(ct->info);
tv = lj_ctype_meta(cts, id, mm);
}
if (!tv && L->base+1 < L->top && tviscdata(L->base+1)) {
CTypeID id = cdataV(L->base+1)->ctypeid;
CType *ct = ctype_raw(cts, id);
if (ctype_isptr(ct->info)) id = ctype_cid(ct->info);
tv = lj_ctype_meta(cts, id, mm);
}
if (!tv) {
const char *repr[2];
int i, isenum = -1, isstr = -1;
if (mm == MM_eq) { /* Equality checks never raise an error. */
int eq = ca->p[0] == ca->p[1];
setboolV(L->top-1, eq);
setboolV(&G(L)->tmptv2, eq); /* Remember for trace recorder. */
return 1;
}
for (i = 0; i < 2; i++) {
if (ca->ct[i] && tviscdata(L->base+i)) {
if (ctype_isenum(ca->ct[i]->info)) isenum = i;
repr[i] = strdata(lj_ctype_repr(L, ctype_typeid(cts, ca->ct[i]), NULL));
} else {
if (tvisstr(&L->base[i])) isstr = i;
repr[i] = lj_typename(&L->base[i]);
}
}
if ((isenum ^ isstr) == 1)
lj_err_callerv(L, LJ_ERR_FFI_BADCONV, repr[isstr], repr[isenum]);
lj_err_callerv(L, mm == MM_len ? LJ_ERR_FFI_BADLEN :
mm == MM_concat ? LJ_ERR_FFI_BADCONCAT :
mm < MM_add ? LJ_ERR_FFI_BADCOMP : LJ_ERR_FFI_BADARITH,
repr[0], repr[1]);
}
return lj_meta_tailcall(L, tv);
}
/* Arithmetic operators for cdata. */
int lj_carith_op(lua_State *L, MMS mm)
{
CTState *cts = ctype_cts(L);
CDArith ca;
if (carith_checkarg(L, cts, &ca)) {
if (carith_int64(L, cts, &ca, mm) || carith_ptr(L, cts, &ca, mm)) {
copyTV(L, &G(L)->tmptv2, L->top-1); /* Remember for trace recorder. */
return 1;
}
}
return lj_carith_meta(L, cts, &ca, mm);
}
/* -- 64 bit bit operations helpers --------------------------------------- */
#if LJ_64
#define B64DEF(name) \
static LJ_AINLINE uint64_t lj_carith_##name(uint64_t x, int32_t sh)
#else
/* Not inlined on 32 bit archs, since some of these are quite lengthy. */
#define B64DEF(name) \
uint64_t LJ_NOINLINE lj_carith_##name(uint64_t x, int32_t sh)
#endif
B64DEF(shl64) { return x << (sh&63); }
B64DEF(shr64) { return x >> (sh&63); }
B64DEF(sar64) { return (uint64_t)((int64_t)x >> (sh&63)); }
B64DEF(rol64) { return lj_rol(x, (sh&63)); }
B64DEF(ror64) { return lj_ror(x, (sh&63)); }
#undef B64DEF
uint64_t lj_carith_shift64(uint64_t x, int32_t sh, int op)
{
switch (op) {
case IR_BSHL-IR_BSHL: x = lj_carith_shl64(x, sh); break;
case IR_BSHR-IR_BSHL: x = lj_carith_shr64(x, sh); break;
case IR_BSAR-IR_BSHL: x = lj_carith_sar64(x, sh); break;
case IR_BROL-IR_BSHL: x = lj_carith_rol64(x, sh); break;
case IR_BROR-IR_BSHL: x = lj_carith_ror64(x, sh); break;
default: lua_assert(0); break;
}
return x;
}
/* Equivalent to lj_lib_checkbit(), but handles cdata. */
uint64_t lj_carith_check64(lua_State *L, int narg, CTypeID *id)
{
TValue *o = L->base + narg-1;
if (o >= L->top) {
err:
lj_err_argt(L, narg, LUA_TNUMBER);
} else if (LJ_LIKELY(tvisnumber(o))) {
/* Handled below. */
} else if (tviscdata(o)) {
CTState *cts = ctype_cts(L);
uint8_t *sp = (uint8_t *)cdataptr(cdataV(o));
CTypeID sid = cdataV(o)->ctypeid;
CType *s = ctype_get(cts, sid);
uint64_t x;
if (ctype_isref(s->info)) {
sp = *(void **)sp;
sid = ctype_cid(s->info);
}
s = ctype_raw(cts, sid);
if (ctype_isenum(s->info)) s = ctype_child(cts, s);
if ((s->info & (CTMASK_NUM|CTF_BOOL|CTF_FP|CTF_UNSIGNED)) ==
CTINFO(CT_NUM, CTF_UNSIGNED) && s->size == 8)
*id = CTID_UINT64; /* Use uint64_t, since it has the highest rank. */
else if (!*id)
*id = CTID_INT64; /* Use int64_t, unless already set. */
lj_cconv_ct_ct(cts, ctype_get(cts, *id), s,
(uint8_t *)&x, sp, CCF_ARG(narg));
return x;
} else if (!(tvisstr(o) && lj_strscan_number(strV(o), o))) {
goto err;
}
if (LJ_LIKELY(tvisint(o))) {
return (uint32_t)intV(o);
} else {
int32_t i = lj_num2bit(numV(o));
if (LJ_DUALNUM) setintV(o, i);
return (uint32_t)i;
}
}
/* -- 64 bit integer arithmetic helpers ----------------------------------- */
#if LJ_32 && LJ_HASJIT
/* Signed/unsigned 64 bit multiplication. */
int64_t lj_carith_mul64(int64_t a, int64_t b)
{
return a * b;
}
#endif
/* Unsigned 64 bit division. */
uint64_t lj_carith_divu64(uint64_t a, uint64_t b)
{
if (b == 0) return U64x(80000000,00000000);
return a / b;
}
/* Signed 64 bit division. */
int64_t lj_carith_divi64(int64_t a, int64_t b)
{
if (b == 0 || (a == (int64_t)U64x(80000000,00000000) && b == -1))
return U64x(80000000,00000000);
return a / b;
}
/* Unsigned 64 bit modulo. */
uint64_t lj_carith_modu64(uint64_t a, uint64_t b)
{
if (b == 0) return U64x(80000000,00000000);
return a % b;
}
/* Signed 64 bit modulo. */
int64_t lj_carith_modi64(int64_t a, int64_t b)
{
if (b == 0) return U64x(80000000,00000000);
if (a == (int64_t)U64x(80000000,00000000) && b == -1) return 0;
return a % b;
}
/* Unsigned 64 bit x^k. */
uint64_t lj_carith_powu64(uint64_t x, uint64_t k)
{
uint64_t y;
if (k == 0)
return 1;
for (; (k & 1) == 0; k >>= 1) x *= x;
y = x;
if ((k >>= 1) != 0) {
for (;;) {
x *= x;
if (k == 1) break;
if (k & 1) y *= x;
k >>= 1;
}
y *= x;
}
return y;
}
/* Signed 64 bit x^k. */
int64_t lj_carith_powi64(int64_t x, int64_t k)
{
if (k == 0)
return 1;
if (k < 0) {
if (x == 0)
return U64x(7fffffff,ffffffff);
else if (x == 1)
return 1;
else if (x == -1)
return (k & 1) ? -1 : 1;
else
return 0;
}
return (int64_t)lj_carith_powu64((uint64_t)x, (uint64_t)k);
}
#endif