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Diffstat (limited to 'Build/source/libs/luajit/LuaJIT-src/src/lj_cconv.c')
-rw-r--r--Build/source/libs/luajit/LuaJIT-src/src/lj_cconv.c752
1 files changed, 752 insertions, 0 deletions
diff --git a/Build/source/libs/luajit/LuaJIT-src/src/lj_cconv.c b/Build/source/libs/luajit/LuaJIT-src/src/lj_cconv.c
new file mode 100644
index 00000000000..8a270766fb9
--- /dev/null
+++ b/Build/source/libs/luajit/LuaJIT-src/src/lj_cconv.c
@@ -0,0 +1,752 @@
+/*
+** C type conversions.
+** Copyright (C) 2005-2015 Mike Pall. See Copyright Notice in luajit.h
+*/
+
+#include "lj_obj.h"
+
+#if LJ_HASFFI
+
+#include "lj_err.h"
+#include "lj_tab.h"
+#include "lj_ctype.h"
+#include "lj_cdata.h"
+#include "lj_cconv.h"
+#include "lj_ccallback.h"
+
+/* -- Conversion errors --------------------------------------------------- */
+
+/* Bad conversion. */
+LJ_NORET static void cconv_err_conv(CTState *cts, CType *d, CType *s,
+ CTInfo flags)
+{
+ const char *dst = strdata(lj_ctype_repr(cts->L, ctype_typeid(cts, d), NULL));
+ const char *src;
+ if ((flags & CCF_FROMTV))
+ src = lj_obj_typename[1+(ctype_isnum(s->info) ? LUA_TNUMBER :
+ ctype_isarray(s->info) ? LUA_TSTRING : LUA_TNIL)];
+ else
+ src = strdata(lj_ctype_repr(cts->L, ctype_typeid(cts, s), NULL));
+ if (CCF_GETARG(flags))
+ lj_err_argv(cts->L, CCF_GETARG(flags), LJ_ERR_FFI_BADCONV, src, dst);
+ else
+ lj_err_callerv(cts->L, LJ_ERR_FFI_BADCONV, src, dst);
+}
+
+/* Bad conversion from TValue. */
+LJ_NORET static void cconv_err_convtv(CTState *cts, CType *d, TValue *o,
+ CTInfo flags)
+{
+ const char *dst = strdata(lj_ctype_repr(cts->L, ctype_typeid(cts, d), NULL));
+ const char *src = lj_typename(o);
+ if (CCF_GETARG(flags))
+ lj_err_argv(cts->L, CCF_GETARG(flags), LJ_ERR_FFI_BADCONV, src, dst);
+ else
+ lj_err_callerv(cts->L, LJ_ERR_FFI_BADCONV, src, dst);
+}
+
+/* Initializer overflow. */
+LJ_NORET static void cconv_err_initov(CTState *cts, CType *d)
+{
+ const char *dst = strdata(lj_ctype_repr(cts->L, ctype_typeid(cts, d), NULL));
+ lj_err_callerv(cts->L, LJ_ERR_FFI_INITOV, dst);
+}
+
+/* -- C type compatibility checks ----------------------------------------- */
+
+/* Get raw type and qualifiers for a child type. Resolves enums, too. */
+static CType *cconv_childqual(CTState *cts, CType *ct, CTInfo *qual)
+{
+ ct = ctype_child(cts, ct);
+ for (;;) {
+ if (ctype_isattrib(ct->info)) {
+ if (ctype_attrib(ct->info) == CTA_QUAL) *qual |= ct->size;
+ } else if (!ctype_isenum(ct->info)) {
+ break;
+ }
+ ct = ctype_child(cts, ct);
+ }
+ *qual |= (ct->info & CTF_QUAL);
+ return ct;
+}
+
+/* Check for compatible types when converting to a pointer.
+** Note: these checks are more relaxed than what C99 mandates.
+*/
+int lj_cconv_compatptr(CTState *cts, CType *d, CType *s, CTInfo flags)
+{
+ if (!((flags & CCF_CAST) || d == s)) {
+ CTInfo dqual = 0, squal = 0;
+ d = cconv_childqual(cts, d, &dqual);
+ if (!ctype_isstruct(s->info))
+ s = cconv_childqual(cts, s, &squal);
+ if ((flags & CCF_SAME)) {
+ if (dqual != squal)
+ return 0; /* Different qualifiers. */
+ } else if (!(flags & CCF_IGNQUAL)) {
+ if ((dqual & squal) != squal)
+ return 0; /* Discarded qualifiers. */
+ if (ctype_isvoid(d->info) || ctype_isvoid(s->info))
+ return 1; /* Converting to/from void * is always ok. */
+ }
+ if (ctype_type(d->info) != ctype_type(s->info) ||
+ d->size != s->size)
+ return 0; /* Different type or different size. */
+ if (ctype_isnum(d->info)) {
+ if (((d->info ^ s->info) & (CTF_BOOL|CTF_FP)))
+ return 0; /* Different numeric types. */
+ } else if (ctype_ispointer(d->info)) {
+ /* Check child types for compatibility. */
+ return lj_cconv_compatptr(cts, d, s, flags|CCF_SAME);
+ } else if (ctype_isstruct(d->info)) {
+ if (d != s)
+ return 0; /* Must be exact same type for struct/union. */
+ } else if (ctype_isfunc(d->info)) {
+ /* NYI: structural equality of functions. */
+ }
+ }
+ return 1; /* Types are compatible. */
+}
+
+/* -- C type to C type conversion ----------------------------------------- */
+
+/* Convert C type to C type. Caveat: expects to get the raw CType!
+**
+** Note: This is only used by the interpreter and not optimized at all.
+** The JIT compiler will do a much better job specializing for each case.
+*/
+void lj_cconv_ct_ct(CTState *cts, CType *d, CType *s,
+ uint8_t *dp, uint8_t *sp, CTInfo flags)
+{
+ CTSize dsize = d->size, ssize = s->size;
+ CTInfo dinfo = d->info, sinfo = s->info;
+ void *tmpptr;
+
+ lua_assert(!ctype_isenum(dinfo) && !ctype_isenum(sinfo));
+ lua_assert(!ctype_isattrib(dinfo) && !ctype_isattrib(sinfo));
+
+ if (ctype_type(dinfo) > CT_MAYCONVERT || ctype_type(sinfo) > CT_MAYCONVERT)
+ goto err_conv;
+
+ /* Some basic sanity checks. */
+ lua_assert(!ctype_isnum(dinfo) || dsize > 0);
+ lua_assert(!ctype_isnum(sinfo) || ssize > 0);
+ lua_assert(!ctype_isbool(dinfo) || dsize == 1 || dsize == 4);
+ lua_assert(!ctype_isbool(sinfo) || ssize == 1 || ssize == 4);
+ lua_assert(!ctype_isinteger(dinfo) || (1u<<lj_fls(dsize)) == dsize);
+ lua_assert(!ctype_isinteger(sinfo) || (1u<<lj_fls(ssize)) == ssize);
+
+ switch (cconv_idx2(dinfo, sinfo)) {
+ /* Destination is a bool. */
+ case CCX(B, B):
+ /* Source operand is already normalized. */
+ if (dsize == 1) *dp = *sp; else *(int *)dp = *sp;
+ break;
+ case CCX(B, I): {
+ MSize i;
+ uint8_t b = 0;
+ for (i = 0; i < ssize; i++) b |= sp[i];
+ b = (b != 0);
+ if (dsize == 1) *dp = b; else *(int *)dp = b;
+ break;
+ }
+ case CCX(B, F): {
+ uint8_t b;
+ if (ssize == sizeof(double)) b = (*(double *)sp != 0);
+ else if (ssize == sizeof(float)) b = (*(float *)sp != 0);
+ else goto err_conv; /* NYI: long double. */
+ if (dsize == 1) *dp = b; else *(int *)dp = b;
+ break;
+ }
+
+ /* Destination is an integer. */
+ case CCX(I, B):
+ case CCX(I, I):
+ conv_I_I:
+ if (dsize > ssize) { /* Zero-extend or sign-extend LSB. */
+#if LJ_LE
+ uint8_t fill = (!(sinfo & CTF_UNSIGNED) && (sp[ssize-1]&0x80)) ? 0xff : 0;
+ memcpy(dp, sp, ssize);
+ memset(dp + ssize, fill, dsize-ssize);
+#else
+ uint8_t fill = (!(sinfo & CTF_UNSIGNED) && (sp[0]&0x80)) ? 0xff : 0;
+ memset(dp, fill, dsize-ssize);
+ memcpy(dp + (dsize-ssize), sp, ssize);
+#endif
+ } else { /* Copy LSB. */
+#if LJ_LE
+ memcpy(dp, sp, dsize);
+#else
+ memcpy(dp, sp + (ssize-dsize), dsize);
+#endif
+ }
+ break;
+ case CCX(I, F): {
+ double n; /* Always convert via double. */
+ conv_I_F:
+ /* Convert source to double. */
+ if (ssize == sizeof(double)) n = *(double *)sp;
+ else if (ssize == sizeof(float)) n = (double)*(float *)sp;
+ else goto err_conv; /* NYI: long double. */
+ /* Then convert double to integer. */
+ /* The conversion must exactly match the semantics of JIT-compiled code! */
+ if (dsize < 4 || (dsize == 4 && !(dinfo & CTF_UNSIGNED))) {
+ int32_t i = (int32_t)n;
+ if (dsize == 4) *(int32_t *)dp = i;
+ else if (dsize == 2) *(int16_t *)dp = (int16_t)i;
+ else *(int8_t *)dp = (int8_t)i;
+ } else if (dsize == 4) {
+ *(uint32_t *)dp = (uint32_t)n;
+ } else if (dsize == 8) {
+ if (!(dinfo & CTF_UNSIGNED))
+ *(int64_t *)dp = (int64_t)n;
+ else
+ *(uint64_t *)dp = lj_num2u64(n);
+ } else {
+ goto err_conv; /* NYI: conversion to >64 bit integers. */
+ }
+ break;
+ }
+ case CCX(I, C):
+ s = ctype_child(cts, s);
+ sinfo = s->info;
+ ssize = s->size;
+ goto conv_I_F; /* Just convert re. */
+ case CCX(I, P):
+ if (!(flags & CCF_CAST)) goto err_conv;
+ sinfo = CTINFO(CT_NUM, CTF_UNSIGNED);
+ goto conv_I_I;
+ case CCX(I, A):
+ if (!(flags & CCF_CAST)) goto err_conv;
+ sinfo = CTINFO(CT_NUM, CTF_UNSIGNED);
+ ssize = CTSIZE_PTR;
+ tmpptr = sp;
+ sp = (uint8_t *)&tmpptr;
+ goto conv_I_I;
+
+ /* Destination is a floating-point number. */
+ case CCX(F, B):
+ case CCX(F, I): {
+ double n; /* Always convert via double. */
+ conv_F_I:
+ /* First convert source to double. */
+ /* The conversion must exactly match the semantics of JIT-compiled code! */
+ if (ssize < 4 || (ssize == 4 && !(sinfo & CTF_UNSIGNED))) {
+ int32_t i;
+ if (ssize == 4) {
+ i = *(int32_t *)sp;
+ } else if (!(sinfo & CTF_UNSIGNED)) {
+ if (ssize == 2) i = *(int16_t *)sp;
+ else i = *(int8_t *)sp;
+ } else {
+ if (ssize == 2) i = *(uint16_t *)sp;
+ else i = *(uint8_t *)sp;
+ }
+ n = (double)i;
+ } else if (ssize == 4) {
+ n = (double)*(uint32_t *)sp;
+ } else if (ssize == 8) {
+ if (!(sinfo & CTF_UNSIGNED)) n = (double)*(int64_t *)sp;
+ else n = (double)*(uint64_t *)sp;
+ } else {
+ goto err_conv; /* NYI: conversion from >64 bit integers. */
+ }
+ /* Convert double to destination. */
+ if (dsize == sizeof(double)) *(double *)dp = n;
+ else if (dsize == sizeof(float)) *(float *)dp = (float)n;
+ else goto err_conv; /* NYI: long double. */
+ break;
+ }
+ case CCX(F, F): {
+ double n; /* Always convert via double. */
+ conv_F_F:
+ if (ssize == dsize) goto copyval;
+ /* Convert source to double. */
+ if (ssize == sizeof(double)) n = *(double *)sp;
+ else if (ssize == sizeof(float)) n = (double)*(float *)sp;
+ else goto err_conv; /* NYI: long double. */
+ /* Convert double to destination. */
+ if (dsize == sizeof(double)) *(double *)dp = n;
+ else if (dsize == sizeof(float)) *(float *)dp = (float)n;
+ else goto err_conv; /* NYI: long double. */
+ break;
+ }
+ case CCX(F, C):
+ s = ctype_child(cts, s);
+ sinfo = s->info;
+ ssize = s->size;
+ goto conv_F_F; /* Ignore im, and convert from re. */
+
+ /* Destination is a complex number. */
+ case CCX(C, I):
+ d = ctype_child(cts, d);
+ dinfo = d->info;
+ dsize = d->size;
+ memset(dp + dsize, 0, dsize); /* Clear im. */
+ goto conv_F_I; /* Convert to re. */
+ case CCX(C, F):
+ d = ctype_child(cts, d);
+ dinfo = d->info;
+ dsize = d->size;
+ memset(dp + dsize, 0, dsize); /* Clear im. */
+ goto conv_F_F; /* Convert to re. */
+
+ case CCX(C, C):
+ if (dsize != ssize) { /* Different types: convert re/im separately. */
+ CType *dc = ctype_child(cts, d);
+ CType *sc = ctype_child(cts, s);
+ lj_cconv_ct_ct(cts, dc, sc, dp, sp, flags);
+ lj_cconv_ct_ct(cts, dc, sc, dp + dc->size, sp + sc->size, flags);
+ return;
+ }
+ goto copyval; /* Otherwise this is easy. */
+
+ /* Destination is a vector. */
+ case CCX(V, I):
+ case CCX(V, F):
+ case CCX(V, C): {
+ CType *dc = ctype_child(cts, d);
+ CTSize esize;
+ /* First convert the scalar to the first element. */
+ lj_cconv_ct_ct(cts, dc, s, dp, sp, flags);
+ /* Then replicate it to the other elements (splat). */
+ for (sp = dp, esize = dc->size; dsize > esize; dsize -= esize) {
+ dp += esize;
+ memcpy(dp, sp, esize);
+ }
+ break;
+ }
+
+ case CCX(V, V):
+ /* Copy same-sized vectors, even for different lengths/element-types. */
+ if (dsize != ssize) goto err_conv;
+ goto copyval;
+
+ /* Destination is a pointer. */
+ case CCX(P, I):
+ if (!(flags & CCF_CAST)) goto err_conv;
+ dinfo = CTINFO(CT_NUM, CTF_UNSIGNED);
+ goto conv_I_I;
+
+ case CCX(P, F):
+ if (!(flags & CCF_CAST) || !(flags & CCF_FROMTV)) goto err_conv;
+ /* The signed conversion is cheaper. x64 really has 47 bit pointers. */
+ dinfo = CTINFO(CT_NUM, (LJ_64 && dsize == 8) ? 0 : CTF_UNSIGNED);
+ goto conv_I_F;
+
+ case CCX(P, P):
+ if (!lj_cconv_compatptr(cts, d, s, flags)) goto err_conv;
+ cdata_setptr(dp, dsize, cdata_getptr(sp, ssize));
+ break;
+
+ case CCX(P, A):
+ case CCX(P, S):
+ if (!lj_cconv_compatptr(cts, d, s, flags)) goto err_conv;
+ cdata_setptr(dp, dsize, sp);
+ break;
+
+ /* Destination is an array. */
+ case CCX(A, A):
+ if ((flags & CCF_CAST) || (d->info & CTF_VLA) || dsize != ssize ||
+ d->size == CTSIZE_INVALID || !lj_cconv_compatptr(cts, d, s, flags))
+ goto err_conv;
+ goto copyval;
+
+ /* Destination is a struct/union. */
+ case CCX(S, S):
+ if ((flags & CCF_CAST) || (d->info & CTF_VLA) || d != s)
+ goto err_conv; /* Must be exact same type. */
+copyval: /* Copy value. */
+ lua_assert(dsize == ssize);
+ memcpy(dp, sp, dsize);
+ break;
+
+ default:
+ err_conv:
+ cconv_err_conv(cts, d, s, flags);
+ }
+}
+
+/* -- C type to TValue conversion ----------------------------------------- */
+
+/* Convert C type to TValue. Caveat: expects to get the raw CType! */
+int lj_cconv_tv_ct(CTState *cts, CType *s, CTypeID sid,
+ TValue *o, uint8_t *sp)
+{
+ CTInfo sinfo = s->info;
+ if (ctype_isnum(sinfo)) {
+ if (!ctype_isbool(sinfo)) {
+ if (ctype_isinteger(sinfo) && s->size > 4) goto copyval;
+ if (LJ_DUALNUM && ctype_isinteger(sinfo)) {
+ int32_t i;
+ lj_cconv_ct_ct(cts, ctype_get(cts, CTID_INT32), s,
+ (uint8_t *)&i, sp, 0);
+ if ((sinfo & CTF_UNSIGNED) && i < 0)
+ setnumV(o, (lua_Number)(uint32_t)i);
+ else
+ setintV(o, i);
+ } else {
+ lj_cconv_ct_ct(cts, ctype_get(cts, CTID_DOUBLE), s,
+ (uint8_t *)&o->n, sp, 0);
+ /* Numbers are NOT canonicalized here! Beware of uninitialized data. */
+ lua_assert(tvisnum(o));
+ }
+ } else {
+ uint32_t b = s->size == 1 ? (*sp != 0) : (*(int *)sp != 0);
+ setboolV(o, b);
+ setboolV(&cts->g->tmptv2, b); /* Remember for trace recorder. */
+ }
+ return 0;
+ } else if (ctype_isrefarray(sinfo) || ctype_isstruct(sinfo)) {
+ /* Create reference. */
+ setcdataV(cts->L, o, lj_cdata_newref(cts, sp, sid));
+ return 1; /* Need GC step. */
+ } else {
+ GCcdata *cd;
+ CTSize sz;
+ copyval: /* Copy value. */
+ sz = s->size;
+ lua_assert(sz != CTSIZE_INVALID);
+ /* Attributes are stripped, qualifiers are kept (but mostly ignored). */
+ cd = lj_cdata_new(cts, ctype_typeid(cts, s), sz);
+ setcdataV(cts->L, o, cd);
+ memcpy(cdataptr(cd), sp, sz);
+ return 1; /* Need GC step. */
+ }
+}
+
+/* Convert bitfield to TValue. */
+int lj_cconv_tv_bf(CTState *cts, CType *s, TValue *o, uint8_t *sp)
+{
+ CTInfo info = s->info;
+ CTSize pos, bsz;
+ uint32_t val;
+ lua_assert(ctype_isbitfield(info));
+ /* NYI: packed bitfields may cause misaligned reads. */
+ switch (ctype_bitcsz(info)) {
+ case 4: val = *(uint32_t *)sp; break;
+ case 2: val = *(uint16_t *)sp; break;
+ case 1: val = *(uint8_t *)sp; break;
+ default: lua_assert(0); val = 0; break;
+ }
+ /* Check if a packed bitfield crosses a container boundary. */
+ pos = ctype_bitpos(info);
+ bsz = ctype_bitbsz(info);
+ lua_assert(pos < 8*ctype_bitcsz(info));
+ lua_assert(bsz > 0 && bsz <= 8*ctype_bitcsz(info));
+ if (pos + bsz > 8*ctype_bitcsz(info))
+ lj_err_caller(cts->L, LJ_ERR_FFI_NYIPACKBIT);
+ if (!(info & CTF_BOOL)) {
+ CTSize shift = 32 - bsz;
+ if (!(info & CTF_UNSIGNED)) {
+ setintV(o, (int32_t)(val << (shift-pos)) >> shift);
+ } else {
+ val = (val << (shift-pos)) >> shift;
+ if (!LJ_DUALNUM || (int32_t)val < 0)
+ setnumV(o, (lua_Number)(uint32_t)val);
+ else
+ setintV(o, (int32_t)val);
+ }
+ } else {
+ lua_assert(bsz == 1);
+ setboolV(o, (val >> pos) & 1);
+ }
+ return 0; /* No GC step needed. */
+}
+
+/* -- TValue to C type conversion ----------------------------------------- */
+
+/* Convert table to array. */
+static void cconv_array_tab(CTState *cts, CType *d,
+ uint8_t *dp, GCtab *t, CTInfo flags)
+{
+ int32_t i;
+ CType *dc = ctype_rawchild(cts, d); /* Array element type. */
+ CTSize size = d->size, esize = dc->size, ofs = 0;
+ for (i = 0; ; i++) {
+ TValue *tv = (TValue *)lj_tab_getint(t, i);
+ if (!tv || tvisnil(tv)) {
+ if (i == 0) continue; /* Try again for 1-based tables. */
+ break; /* Stop at first nil. */
+ }
+ if (ofs >= size)
+ cconv_err_initov(cts, d);
+ lj_cconv_ct_tv(cts, dc, dp + ofs, tv, flags);
+ ofs += esize;
+ }
+ if (size != CTSIZE_INVALID) { /* Only fill up arrays with known size. */
+ if (ofs == esize) { /* Replicate a single element. */
+ for (; ofs < size; ofs += esize) memcpy(dp + ofs, dp, esize);
+ } else { /* Otherwise fill the remainder with zero. */
+ memset(dp + ofs, 0, size - ofs);
+ }
+ }
+}
+
+/* Convert table to sub-struct/union. */
+static void cconv_substruct_tab(CTState *cts, CType *d, uint8_t *dp,
+ GCtab *t, int32_t *ip, CTInfo flags)
+{
+ CTypeID id = d->sib;
+ while (id) {
+ CType *df = ctype_get(cts, id);
+ id = df->sib;
+ if (ctype_isfield(df->info) || ctype_isbitfield(df->info)) {
+ TValue *tv;
+ int32_t i = *ip, iz = i;
+ if (!gcref(df->name)) continue; /* Ignore unnamed fields. */
+ if (i >= 0) {
+ retry:
+ tv = (TValue *)lj_tab_getint(t, i);
+ if (!tv || tvisnil(tv)) {
+ if (i == 0) { i = 1; goto retry; } /* 1-based tables. */
+ if (iz == 0) { *ip = i = -1; goto tryname; } /* Init named fields. */
+ break; /* Stop at first nil. */
+ }
+ *ip = i + 1;
+ } else {
+ tryname:
+ tv = (TValue *)lj_tab_getstr(t, gco2str(gcref(df->name)));
+ if (!tv || tvisnil(tv)) continue;
+ }
+ if (ctype_isfield(df->info))
+ lj_cconv_ct_tv(cts, ctype_rawchild(cts, df), dp+df->size, tv, flags);
+ else
+ lj_cconv_bf_tv(cts, df, dp+df->size, tv);
+ if ((d->info & CTF_UNION)) break;
+ } else if (ctype_isxattrib(df->info, CTA_SUBTYPE)) {
+ cconv_substruct_tab(cts, ctype_rawchild(cts, df),
+ dp+df->size, t, ip, flags);
+ } /* Ignore all other entries in the chain. */
+ }
+}
+
+/* Convert table to struct/union. */
+static void cconv_struct_tab(CTState *cts, CType *d,
+ uint8_t *dp, GCtab *t, CTInfo flags)
+{
+ int32_t i = 0;
+ memset(dp, 0, d->size); /* Much simpler to clear the struct first. */
+ cconv_substruct_tab(cts, d, dp, t, &i, flags);
+}
+
+/* Convert TValue to C type. Caveat: expects to get the raw CType! */
+void lj_cconv_ct_tv(CTState *cts, CType *d,
+ uint8_t *dp, TValue *o, CTInfo flags)
+{
+ CTypeID sid = CTID_P_VOID;
+ CType *s;
+ void *tmpptr;
+ uint8_t tmpbool, *sp = (uint8_t *)&tmpptr;
+ if (LJ_LIKELY(tvisint(o))) {
+ sp = (uint8_t *)&o->i;
+ sid = CTID_INT32;
+ flags |= CCF_FROMTV;
+ } else if (LJ_LIKELY(tvisnum(o))) {
+ sp = (uint8_t *)&o->n;
+ sid = CTID_DOUBLE;
+ flags |= CCF_FROMTV;
+ } else if (tviscdata(o)) {
+ sp = cdataptr(cdataV(o));
+ sid = cdataV(o)->ctypeid;
+ s = ctype_get(cts, sid);
+ if (ctype_isref(s->info)) { /* Resolve reference for value. */
+ lua_assert(s->size == CTSIZE_PTR);
+ sp = *(void **)sp;
+ sid = ctype_cid(s->info);
+ }
+ s = ctype_raw(cts, sid);
+ if (ctype_isfunc(s->info)) {
+ sid = lj_ctype_intern(cts, CTINFO(CT_PTR, CTALIGN_PTR|sid), CTSIZE_PTR);
+ } else {
+ if (ctype_isenum(s->info)) s = ctype_child(cts, s);
+ goto doconv;
+ }
+ } else if (tvisstr(o)) {
+ GCstr *str = strV(o);
+ if (ctype_isenum(d->info)) { /* Match string against enum constant. */
+ CTSize ofs;
+ CType *cct = lj_ctype_getfield(cts, d, str, &ofs);
+ if (!cct || !ctype_isconstval(cct->info))
+ goto err_conv;
+ lua_assert(d->size == 4);
+ sp = (uint8_t *)&cct->size;
+ sid = ctype_cid(cct->info);
+ } else if (ctype_isrefarray(d->info)) { /* Copy string to array. */
+ CType *dc = ctype_rawchild(cts, d);
+ CTSize sz = str->len+1;
+ if (!ctype_isinteger(dc->info) || dc->size != 1)
+ goto err_conv;
+ if (d->size != 0 && d->size < sz)
+ sz = d->size;
+ memcpy(dp, strdata(str), sz);
+ return;
+ } else { /* Otherwise pass it as a const char[]. */
+ sp = (uint8_t *)strdata(str);
+ sid = CTID_A_CCHAR;
+ flags |= CCF_FROMTV;
+ }
+ } else if (tvistab(o)) {
+ if (ctype_isarray(d->info)) {
+ cconv_array_tab(cts, d, dp, tabV(o), flags);
+ return;
+ } else if (ctype_isstruct(d->info)) {
+ cconv_struct_tab(cts, d, dp, tabV(o), flags);
+ return;
+ } else {
+ goto err_conv;
+ }
+ } else if (tvisbool(o)) {
+ tmpbool = boolV(o);
+ sp = &tmpbool;
+ sid = CTID_BOOL;
+ } else if (tvisnil(o)) {
+ tmpptr = (void *)0;
+ flags |= CCF_FROMTV;
+ } else if (tvisudata(o)) {
+ GCudata *ud = udataV(o);
+ tmpptr = uddata(ud);
+ if (ud->udtype == UDTYPE_IO_FILE)
+ tmpptr = *(void **)tmpptr;
+ } else if (tvislightud(o)) {
+ tmpptr = lightudV(o);
+ } else if (tvisfunc(o)) {
+ void *p = lj_ccallback_new(cts, d, funcV(o));
+ if (p) {
+ *(void **)dp = p;
+ return;
+ }
+ goto err_conv;
+ } else {
+ err_conv:
+ cconv_err_convtv(cts, d, o, flags);
+ }
+ s = ctype_get(cts, sid);
+doconv:
+ if (ctype_isenum(d->info)) d = ctype_child(cts, d);
+ lj_cconv_ct_ct(cts, d, s, dp, sp, flags);
+}
+
+/* Convert TValue to bitfield. */
+void lj_cconv_bf_tv(CTState *cts, CType *d, uint8_t *dp, TValue *o)
+{
+ CTInfo info = d->info;
+ CTSize pos, bsz;
+ uint32_t val, mask;
+ lua_assert(ctype_isbitfield(info));
+ if ((info & CTF_BOOL)) {
+ uint8_t tmpbool;
+ lua_assert(ctype_bitbsz(info) == 1);
+ lj_cconv_ct_tv(cts, ctype_get(cts, CTID_BOOL), &tmpbool, o, 0);
+ val = tmpbool;
+ } else {
+ CTypeID did = (info & CTF_UNSIGNED) ? CTID_UINT32 : CTID_INT32;
+ lj_cconv_ct_tv(cts, ctype_get(cts, did), (uint8_t *)&val, o, 0);
+ }
+ pos = ctype_bitpos(info);
+ bsz = ctype_bitbsz(info);
+ lua_assert(pos < 8*ctype_bitcsz(info));
+ lua_assert(bsz > 0 && bsz <= 8*ctype_bitcsz(info));
+ /* Check if a packed bitfield crosses a container boundary. */
+ if (pos + bsz > 8*ctype_bitcsz(info))
+ lj_err_caller(cts->L, LJ_ERR_FFI_NYIPACKBIT);
+ mask = ((1u << bsz) - 1u) << pos;
+ val = (val << pos) & mask;
+ /* NYI: packed bitfields may cause misaligned reads/writes. */
+ switch (ctype_bitcsz(info)) {
+ case 4: *(uint32_t *)dp = (*(uint32_t *)dp & ~mask) | (uint32_t)val; break;
+ case 2: *(uint16_t *)dp = (*(uint16_t *)dp & ~mask) | (uint16_t)val; break;
+ case 1: *(uint8_t *)dp = (*(uint8_t *)dp & ~mask) | (uint8_t)val; break;
+ default: lua_assert(0); break;
+ }
+}
+
+/* -- Initialize C type with TValues -------------------------------------- */
+
+/* Initialize an array with TValues. */
+static void cconv_array_init(CTState *cts, CType *d, CTSize sz, uint8_t *dp,
+ TValue *o, MSize len)
+{
+ CType *dc = ctype_rawchild(cts, d); /* Array element type. */
+ CTSize ofs, esize = dc->size;
+ MSize i;
+ if (len*esize > sz)
+ cconv_err_initov(cts, d);
+ for (i = 0, ofs = 0; i < len; i++, ofs += esize)
+ lj_cconv_ct_tv(cts, dc, dp + ofs, o + i, 0);
+ if (ofs == esize) { /* Replicate a single element. */
+ for (; ofs < sz; ofs += esize) memcpy(dp + ofs, dp, esize);
+ } else { /* Otherwise fill the remainder with zero. */
+ memset(dp + ofs, 0, sz - ofs);
+ }
+}
+
+/* Initialize a sub-struct/union with TValues. */
+static void cconv_substruct_init(CTState *cts, CType *d, uint8_t *dp,
+ TValue *o, MSize len, MSize *ip)
+{
+ CTypeID id = d->sib;
+ while (id) {
+ CType *df = ctype_get(cts, id);
+ id = df->sib;
+ if (ctype_isfield(df->info) || ctype_isbitfield(df->info)) {
+ MSize i = *ip;
+ if (!gcref(df->name)) continue; /* Ignore unnamed fields. */
+ if (i >= len) break;
+ *ip = i + 1;
+ if (ctype_isfield(df->info))
+ lj_cconv_ct_tv(cts, ctype_rawchild(cts, df), dp+df->size, o + i, 0);
+ else
+ lj_cconv_bf_tv(cts, df, dp+df->size, o + i);
+ if ((d->info & CTF_UNION)) break;
+ } else if (ctype_isxattrib(df->info, CTA_SUBTYPE)) {
+ cconv_substruct_init(cts, ctype_rawchild(cts, df),
+ dp+df->size, o, len, ip);
+ if ((d->info & CTF_UNION)) break;
+ } /* Ignore all other entries in the chain. */
+ }
+}
+
+/* Initialize a struct/union with TValues. */
+static void cconv_struct_init(CTState *cts, CType *d, CTSize sz, uint8_t *dp,
+ TValue *o, MSize len)
+{
+ MSize i = 0;
+ memset(dp, 0, sz); /* Much simpler to clear the struct first. */
+ cconv_substruct_init(cts, d, dp, o, len, &i);
+ if (i < len)
+ cconv_err_initov(cts, d);
+}
+
+/* Check whether to use a multi-value initializer.
+** This is true if an aggregate is to be initialized with a value.
+** Valarrays are treated as values here so ct_tv handles (V|C, I|F).
+*/
+int lj_cconv_multi_init(CTState *cts, CType *d, TValue *o)
+{
+ if (!(ctype_isrefarray(d->info) || ctype_isstruct(d->info)))
+ return 0; /* Destination is not an aggregate. */
+ if (tvistab(o) || (tvisstr(o) && !ctype_isstruct(d->info)))
+ return 0; /* Initializer is not a value. */
+ if (tviscdata(o) && lj_ctype_rawref(cts, cdataV(o)->ctypeid) == d)
+ return 0; /* Source and destination are identical aggregates. */
+ return 1; /* Otherwise the initializer is a value. */
+}
+
+/* Initialize C type with TValues. Caveat: expects to get the raw CType! */
+void lj_cconv_ct_init(CTState *cts, CType *d, CTSize sz,
+ uint8_t *dp, TValue *o, MSize len)
+{
+ if (len == 0)
+ memset(dp, 0, sz);
+ else if (len == 1 && !lj_cconv_multi_init(cts, d, o))
+ lj_cconv_ct_tv(cts, d, dp, o, 0);
+ else if (ctype_isarray(d->info)) /* Also handles valarray init with len>1. */
+ cconv_array_init(cts, d, sz, dp, o, len);
+ else if (ctype_isstruct(d->info))
+ cconv_struct_init(cts, d, sz, dp, o, len);
+ else
+ cconv_err_initov(cts, d);
+}
+
+#endif