lundump.c - external/github.com/lua/lua - Git at Google

 /*
 ** $Id: lundump.c $
 ** load precompiled Lua chunks
 ** See Copyright Notice in lua.h
 */

 #define lundump_c
 #define LUA_CORE

 #include "lprefix.h"


 #include <limits.h>
 #include <string.h>

 #include "lua.h"

 #include "ldebug.h"
 #include "ldo.h"
 #include "lfunc.h"
 #include "lmem.h"
 #include "lobject.h"
 #include "lstring.h"
 #include "ltable.h"
 #include "lundump.h"
 #include "lzio.h"


 #if !defined(luai_verifycode)
 #define luai_verifycode(L,f)  /* empty */
 #endif


 typedef struct {
   lua_State *L;
   ZIO *Z;
   const char *name;
   Table *h;  /* list for string reuse */
   lu_mem offset;  /* current position relative to beginning of dump */
   lua_Integer nstr;  /* number of strings in the list */
   lu_byte fixed;  /* dump is fixed in memory */
 } LoadState;


 static l_noret error (LoadState *S, const char *why) {
   luaO_pushfstring(S->L, "%s: bad binary format (%s)", S->name, why);
   luaD_throw(S->L, LUA_ERRSYNTAX);
 }


 /*
 ** All high-level loads go through loadVector; you can change it to
 ** adapt to the endianness of the input
 */
 #define loadVector(S,b,n)	loadBlock(S,b,(n)*sizeof((b)[0]))

 static void loadBlock (LoadState *S, void *b, size_t size) {
   if (luaZ_read(S->Z, b, size) != 0)
     error(S, "truncated chunk");
   S->offset += size;
 }


 static void loadAlign (LoadState *S, int align) {
   int padding = align - (S->offset % align);
   if (padding < align) {  /* apd == align means no padding */
     lua_Integer paddingContent;
     loadBlock(S, &paddingContent, padding);
     lua_assert(S->offset % align == 0);
   }
 }


 #define getaddr(S,n,t)	cast(t *, getaddr_(S,(n) * sizeof(t)))

 static const void *getaddr_ (LoadState *S, size_t size) {
   const void *block = luaZ_getaddr(S->Z, size);
   S->offset += size;
   if (block == NULL)
     error(S, "truncated fixed buffer");
   return block;
 }


 #define loadVar(S,x)		loadVector(S,&x,1)


 static lu_byte loadByte (LoadState *S) {
   int b = zgetc(S->Z);
   if (b == EOZ)
     error(S, "truncated chunk");
   S->offset++;
   return cast_byte(b);
 }


 static size_t loadVarint (LoadState *S, size_t limit) {
   size_t x = 0;
   int b;
   limit >>= 7;
   do {
     b = loadByte(S);
     if (x > limit)
       error(S, "integer overflow");
     x = (x << 7) | (b & 0x7f);
   } while ((b & 0x80) != 0);
   return x;
 }


 static size_t loadSize (LoadState *S) {
   return loadVarint(S, MAX_SIZET);
 }


 static int loadInt (LoadState *S) {
   return cast_int(loadVarint(S, cast_sizet(INT_MAX)));
 }


 static lua_Number loadNumber (LoadState *S) {
   lua_Number x;
   loadVar(S, x);
   return x;
 }


 static lua_Integer loadInteger (LoadState *S) {
   lua_Integer x;
   loadVar(S, x);
   return x;
 }


 /*
 ** Load a nullable string into slot 'sl' from prototype 'p'. The
 ** assignment to the slot and the barrier must be performed before any
 ** possible GC activity, to anchor the string. (Both 'loadVector' and
 ** 'luaH_setint' can call the GC.)
 */
 static void loadString (LoadState *S, Proto *p, TString **sl) {
   lua_State *L = S->L;
   TString *ts;
   TValue sv;
   size_t size = loadSize(S);
   if (size == 0) {  /* no string? */
     lua_assert(*sl == NULL);  /* must be prefilled */
     return;
   }
   else if (size == 1) {  /* previously saved string? */
     lua_Integer idx = cast(lua_Integer, loadSize(S));  /* get its index */
     TValue stv;
     luaH_getint(S->h, idx, &stv);  /* get its value */
     *sl = ts = tsvalue(&stv);
     luaC_objbarrier(L, p, ts);
     return;  /* do not save it again */
   }
   else if ((size -= 2) <= LUAI_MAXSHORTLEN) {  /* short string? */
     char buff[LUAI_MAXSHORTLEN + 1];  /* extra space for '\0' */
     loadVector(S, buff, size + 1);  /* load string into buffer */
     *sl = ts = luaS_newlstr(L, buff, size);  /* create string */
     luaC_objbarrier(L, p, ts);
   }
   else if (S->fixed) {  /* for a fixed buffer, use a fixed string */
     const char *s = getaddr(S, size + 1, char);  /* get content address */
     *sl = ts = luaS_newextlstr(L, s, size, NULL, NULL);
     luaC_objbarrier(L, p, ts);
   }
   else {  /* create internal copy */
     *sl = ts = luaS_createlngstrobj(L, size);  /* create string */
     luaC_objbarrier(L, p, ts);
     loadVector(S, getlngstr(ts), size + 1);  /* load directly in final place */
   }
   /* add string to list of saved strings */
   S->nstr++;
   setsvalue(L, &sv, ts);
   luaH_setint(L, S->h, S->nstr, &sv);
   luaC_objbarrierback(L, obj2gco(S->h), ts);
 }


 static void loadCode (LoadState *S, Proto *f) {
   int n = loadInt(S);
   loadAlign(S, sizeof(f->code[0]));
   if (S->fixed) {
     f->code = getaddr(S, n, Instruction);
     f->sizecode = n;
   }
   else {
     f->code = luaM_newvectorchecked(S->L, n, Instruction);
     f->sizecode = n;
     loadVector(S, f->code, n);
   }
 }


 static void loadFunction(LoadState *S, Proto *f);


 static void loadConstants (LoadState *S, Proto *f) {
   int i;
   int n = loadInt(S);
   f->k = luaM_newvectorchecked(S->L, n, TValue);
   f->sizek = n;
   for (i = 0; i < n; i++)
     setnilvalue(&f->k[i]);
   for (i = 0; i < n; i++) {
     TValue *o = &f->k[i];
     int t = loadByte(S);
     switch (t) {
       case LUA_VNIL:
         setnilvalue(o);
         break;
       case LUA_VFALSE:
         setbfvalue(o);
         break;
       case LUA_VTRUE:
         setbtvalue(o);
         break;
       case LUA_VNUMFLT:
         setfltvalue(o, loadNumber(S));
         break;
       case LUA_VNUMINT:
         setivalue(o, loadInteger(S));
         break;
       case LUA_VSHRSTR:
       case LUA_VLNGSTR: {
         lua_assert(f->source == NULL);
         loadString(S, f, &f->source);  /* use 'source' to anchor string */
         if (f->source == NULL)
           error(S, "bad format for constant string");
         setsvalue2n(S->L, o, f->source);  /* save it in the right place */
         f->source = NULL;
         break;
       }
       default: lua_assert(0);
     }
   }
 }


 static void loadProtos (LoadState *S, Proto *f) {
   int i;
   int n = loadInt(S);
   f->p = luaM_newvectorchecked(S->L, n, Proto *);
   f->sizep = n;
   for (i = 0; i < n; i++)
     f->p[i] = NULL;
   for (i = 0; i < n; i++) {
     f->p[i] = luaF_newproto(S->L);
     luaC_objbarrier(S->L, f, f->p[i]);
     loadFunction(S, f->p[i]);
   }
 }


 /*
 ** Load the upvalues for a function. The names must be filled first,
 ** because the filling of the other fields can raise read errors and
 ** the creation of the error message can call an emergency collection;
 ** in that case all prototypes must be consistent for the GC.
 */
 static void loadUpvalues (LoadState *S, Proto *f) {
   int i, n;
   n = loadInt(S);
   f->upvalues = luaM_newvectorchecked(S->L, n, Upvaldesc);
   f->sizeupvalues = n;
   for (i = 0; i < n; i++)  /* make array valid for GC */
     f->upvalues[i].name = NULL;
   for (i = 0; i < n; i++) {  /* following calls can raise errors */
     f->upvalues[i].instack = loadByte(S);
     f->upvalues[i].idx = loadByte(S);
     f->upvalues[i].kind = loadByte(S);
   }
 }


 static void loadDebug (LoadState *S, Proto *f) {
   int i, n;
   n = loadInt(S);
   if (S->fixed) {
     f->lineinfo = getaddr(S, n, ls_byte);
     f->sizelineinfo = n;
   }
   else {
     f->lineinfo = luaM_newvectorchecked(S->L, n, ls_byte);
     f->sizelineinfo = n;
     loadVector(S, f->lineinfo, n);
   }
   n = loadInt(S);
   if (n > 0) {
     loadAlign(S, sizeof(int));
     if (S->fixed) {
       f->abslineinfo = getaddr(S, n, AbsLineInfo);
       f->sizeabslineinfo = n;
     }
     else {
       f->abslineinfo = luaM_newvectorchecked(S->L, n, AbsLineInfo);
       f->sizeabslineinfo = n;
       loadVector(S, f->abslineinfo, n);
     }
   }
   n = loadInt(S);
   f->locvars = luaM_newvectorchecked(S->L, n, LocVar);
   f->sizelocvars = n;
   for (i = 0; i < n; i++)
     f->locvars[i].varname = NULL;
   for (i = 0; i < n; i++) {
     loadString(S, f, &f->locvars[i].varname);
     f->locvars[i].startpc = loadInt(S);
     f->locvars[i].endpc = loadInt(S);
   }
   n = loadInt(S);
   if (n != 0)  /* does it have debug information? */
     n = f->sizeupvalues;  /* must be this many */
   for (i = 0; i < n; i++)
     loadString(S, f, &f->upvalues[i].name);
 }


 static void loadFunction (LoadState *S, Proto *f) {
   f->linedefined = loadInt(S);
   f->lastlinedefined = loadInt(S);
   f->numparams = loadByte(S);
   f->flag = loadByte(S) & PF_ISVARARG;  /* get only the meaningful flags */
   if (S->fixed)
     f->flag |= PF_FIXED;  /* signal that code is fixed */
   f->maxstacksize = loadByte(S);
   loadCode(S, f);
   loadConstants(S, f);
   loadUpvalues(S, f);
   loadProtos(S, f);
   loadString(S, f, &f->source);
   loadDebug(S, f);
 }


 static void checkliteral (LoadState *S, const char *s, const char *msg) {
   char buff[sizeof(LUA_SIGNATURE) + sizeof(LUAC_DATA)]; /* larger than both */
   size_t len = strlen(s);
   loadVector(S, buff, len);
   if (memcmp(s, buff, len) != 0)
     error(S, msg);
 }


 static void fchecksize (LoadState *S, size_t size, const char *tname) {
   if (loadByte(S) != size)
     error(S, luaO_pushfstring(S->L, "%s size mismatch", tname));
 }


 #define checksize(S,t)	fchecksize(S,sizeof(t),#t)

 static void checkHeader (LoadState *S) {
   /* skip 1st char (already read and checked) */
   checkliteral(S, &LUA_SIGNATURE[1], "not a binary chunk");
   if (loadByte(S) != LUAC_VERSION)
     error(S, "version mismatch");
   if (loadByte(S) != LUAC_FORMAT)
     error(S, "format mismatch");
   checkliteral(S, LUAC_DATA, "corrupted chunk");
   checksize(S, Instruction);
   checksize(S, lua_Integer);
   checksize(S, lua_Number);
   if (loadInteger(S) != LUAC_INT)
     error(S, "integer format mismatch");
   if (loadNumber(S) != LUAC_NUM)
     error(S, "float format mismatch");
 }


 /*
 ** Load precompiled chunk.
 */
 LClosure *luaU_undump (lua_State *L, ZIO *Z, const char *name, int fixed) {
   LoadState S;
   LClosure *cl;
   if (*name == '@' || *name == '=')
     S.name = name + 1;
   else if (*name == LUA_SIGNATURE[0])
     S.name = "binary string";
   else
     S.name = name;
   S.L = L;
   S.Z = Z;
   S.fixed = fixed;
   S.offset = 1;  /* fist byte was already read */
   checkHeader(&S);
   cl = luaF_newLclosure(L, loadByte(&S));
   setclLvalue2s(L, L->top.p, cl);
   luaD_inctop(L);
   S.h = luaH_new(L);  /* create list of saved strings */
   S.nstr = 0;
   sethvalue2s(L, L->top.p, S.h);  /* anchor it */
   luaD_inctop(L);
   cl->p = luaF_newproto(L);
   luaC_objbarrier(L, cl, cl->p);
   loadFunction(&S, cl->p);
   lua_assert(cl->nupvalues == cl->p->sizeupvalues);
   luai_verifycode(L, cl->p);
   L->top.p--;  /* pop table */
   return cl;
 }
	/*
	** $Id: lundump.c $
	** load precompiled Lua chunks
	** See Copyright Notice in lua.h
	*/

	#define lundump_c
	#define LUA_CORE

	#include "lprefix.h"


	#include <limits.h>
	#include <string.h>

	#include "lua.h"

	#include "ldebug.h"
	#include "ldo.h"
	#include "lfunc.h"
	#include "lmem.h"
	#include "lobject.h"
	#include "lstring.h"
	#include "ltable.h"
	#include "lundump.h"
	#include "lzio.h"


	#if !defined(luai_verifycode)
	#define luai_verifycode(L,f) /* empty */
	#endif


	typedef struct {
	lua_State *L;
	ZIO *Z;
	const char *name;
	Table h; / list for string reuse */
	lu_mem offset; /* current position relative to beginning of dump */
	lua_Integer nstr; /* number of strings in the list */
	lu_byte fixed; /* dump is fixed in memory */
	} LoadState;


	static l_noret error (LoadState S, const char why) {
	luaO_pushfstring(S->L, "%s: bad binary format (%s)", S->name, why);
	luaD_throw(S->L, LUA_ERRSYNTAX);
	}


	/*
	** All high-level loads go through loadVector; you can change it to
	** adapt to the endianness of the input
	*/
	#define loadVector(S,b,n) loadBlock(S,b,(n)*sizeof((b)[0]))

	static void loadBlock (LoadState S, void b, size_t size) {
	if (luaZ_read(S->Z, b, size) != 0)
	error(S, "truncated chunk");
	S->offset += size;
	}


	static void loadAlign (LoadState *S, int align) {
	int padding = align - (S->offset % align);
	if (padding < align) { /* apd == align means no padding */
	lua_Integer paddingContent;
	loadBlock(S, &paddingContent, padding);
	lua_assert(S->offset % align == 0);
	}
	}


	#define getaddr(S,n,t) cast(t , getaddr_(S,(n) sizeof(t)))

	static const void getaddr_ (LoadState S, size_t size) {
	const void *block = luaZ_getaddr(S->Z, size);
	S->offset += size;
	if (block == NULL)
	error(S, "truncated fixed buffer");
	return block;
	}


	#define loadVar(S,x) loadVector(S,&x,1)


	static lu_byte loadByte (LoadState *S) {
	int b = zgetc(S->Z);
	if (b == EOZ)
	error(S, "truncated chunk");
	S->offset++;
	return cast_byte(b);
	}


	static size_t loadVarint (LoadState *S, size_t limit) {
	size_t x = 0;
	int b;
	limit >>= 7;
	do {
	b = loadByte(S);
	if (x > limit)
	error(S, "integer overflow");
	x = (x << 7) \| (b & 0x7f);
	} while ((b & 0x80) != 0);
	return x;
	}


	static size_t loadSize (LoadState *S) {
	return loadVarint(S, MAX_SIZET);
	}


	static int loadInt (LoadState *S) {
	return cast_int(loadVarint(S, cast_sizet(INT_MAX)));
	}


	static lua_Number loadNumber (LoadState *S) {
	lua_Number x;
	loadVar(S, x);
	return x;
	}


	static lua_Integer loadInteger (LoadState *S) {
	lua_Integer x;
	loadVar(S, x);
	return x;
	}


	/*
	** Load a nullable string into slot 'sl' from prototype 'p'. The
	** assignment to the slot and the barrier must be performed before any
	** possible GC activity, to anchor the string. (Both 'loadVector' and
	** 'luaH_setint' can call the GC.)
	*/
	static void loadString (LoadState S, Proto p, TString **sl) {
	lua_State *L = S->L;
	TString *ts;
	TValue sv;
	size_t size = loadSize(S);
	if (size == 0) { /* no string? */
	lua_assert(sl == NULL); / must be prefilled */
	return;
	}
	else if (size == 1) { /* previously saved string? */
	lua_Integer idx = cast(lua_Integer, loadSize(S)); /* get its index */
	TValue stv;
	luaH_getint(S->h, idx, &stv); /* get its value */
	*sl = ts = tsvalue(&stv);
	luaC_objbarrier(L, p, ts);
	return; /* do not save it again */
	}
	else if ((size -= 2) <= LUAI_MAXSHORTLEN) { /* short string? */
	char buff[LUAI_MAXSHORTLEN + 1]; /* extra space for '\0' */
	loadVector(S, buff, size + 1); /* load string into buffer */
	sl = ts = luaS_newlstr(L, buff, size); / create string */
	luaC_objbarrier(L, p, ts);
	}
	else if (S->fixed) { /* for a fixed buffer, use a fixed string */
	const char s = getaddr(S, size + 1, char); / get content address */
	*sl = ts = luaS_newextlstr(L, s, size, NULL, NULL);
	luaC_objbarrier(L, p, ts);
	}
	else { /* create internal copy */
	sl = ts = luaS_createlngstrobj(L, size); / create string */
	luaC_objbarrier(L, p, ts);
	loadVector(S, getlngstr(ts), size + 1); /* load directly in final place */
	}
	/* add string to list of saved strings */
	S->nstr++;
	setsvalue(L, &sv, ts);
	luaH_setint(L, S->h, S->nstr, &sv);
	luaC_objbarrierback(L, obj2gco(S->h), ts);
	}


	static void loadCode (LoadState S, Proto f) {
	int n = loadInt(S);
	loadAlign(S, sizeof(f->code[0]));
	if (S->fixed) {
	f->code = getaddr(S, n, Instruction);
	f->sizecode = n;
	}
	else {
	f->code = luaM_newvectorchecked(S->L, n, Instruction);
	f->sizecode = n;
	loadVector(S, f->code, n);
	}
	}


	static void loadFunction(LoadState S, Proto f);


	static void loadConstants (LoadState S, Proto f) {
	int i;
	int n = loadInt(S);
	f->k = luaM_newvectorchecked(S->L, n, TValue);
	f->sizek = n;
	for (i = 0; i < n; i++)
	setnilvalue(&f->k[i]);
	for (i = 0; i < n; i++) {
	TValue *o = &f->k[i];
	int t = loadByte(S);
	switch (t) {
	case LUA_VNIL:
	setnilvalue(o);
	break;
	case LUA_VFALSE:
	setbfvalue(o);
	break;
	case LUA_VTRUE:
	setbtvalue(o);
	break;
	case LUA_VNUMFLT:
	setfltvalue(o, loadNumber(S));
	break;
	case LUA_VNUMINT:
	setivalue(o, loadInteger(S));
	break;
	case LUA_VSHRSTR:
	case LUA_VLNGSTR: {
	lua_assert(f->source == NULL);
	loadString(S, f, &f->source); /* use 'source' to anchor string */
	if (f->source == NULL)
	error(S, "bad format for constant string");
	setsvalue2n(S->L, o, f->source); /* save it in the right place */
	f->source = NULL;
	break;
	}
	default: lua_assert(0);
	}
	}
	}


	static void loadProtos (LoadState S, Proto f) {
	int i;
	int n = loadInt(S);
	f->p = luaM_newvectorchecked(S->L, n, Proto *);
	f->sizep = n;
	for (i = 0; i < n; i++)
	f->p[i] = NULL;
	for (i = 0; i < n; i++) {
	f->p[i] = luaF_newproto(S->L);
	luaC_objbarrier(S->L, f, f->p[i]);
	loadFunction(S, f->p[i]);
	}
	}


	/*
	** Load the upvalues for a function. The names must be filled first,
	** because the filling of the other fields can raise read errors and
	** the creation of the error message can call an emergency collection;
	** in that case all prototypes must be consistent for the GC.
	*/
	static void loadUpvalues (LoadState S, Proto f) {
	int i, n;
	n = loadInt(S);
	f->upvalues = luaM_newvectorchecked(S->L, n, Upvaldesc);
	f->sizeupvalues = n;
	for (i = 0; i < n; i++) /* make array valid for GC */
	f->upvalues[i].name = NULL;
	for (i = 0; i < n; i++) { /* following calls can raise errors */
	f->upvalues[i].instack = loadByte(S);
	f->upvalues[i].idx = loadByte(S);
	f->upvalues[i].kind = loadByte(S);
	}
	}


	static void loadDebug (LoadState S, Proto f) {
	int i, n;
	n = loadInt(S);
	if (S->fixed) {
	f->lineinfo = getaddr(S, n, ls_byte);
	f->sizelineinfo = n;
	}
	else {
	f->lineinfo = luaM_newvectorchecked(S->L, n, ls_byte);
	f->sizelineinfo = n;
	loadVector(S, f->lineinfo, n);
	}
	n = loadInt(S);
	if (n > 0) {
	loadAlign(S, sizeof(int));
	if (S->fixed) {
	f->abslineinfo = getaddr(S, n, AbsLineInfo);
	f->sizeabslineinfo = n;
	}
	else {
	f->abslineinfo = luaM_newvectorchecked(S->L, n, AbsLineInfo);
	f->sizeabslineinfo = n;
	loadVector(S, f->abslineinfo, n);
	}
	}
	n = loadInt(S);
	f->locvars = luaM_newvectorchecked(S->L, n, LocVar);
	f->sizelocvars = n;
	for (i = 0; i < n; i++)
	f->locvars[i].varname = NULL;
	for (i = 0; i < n; i++) {
	loadString(S, f, &f->locvars[i].varname);
	f->locvars[i].startpc = loadInt(S);
	f->locvars[i].endpc = loadInt(S);
	}
	n = loadInt(S);
	if (n != 0) /* does it have debug information? */
	n = f->sizeupvalues; /* must be this many */
	for (i = 0; i < n; i++)
	loadString(S, f, &f->upvalues[i].name);
	}


	static void loadFunction (LoadState S, Proto f) {
	f->linedefined = loadInt(S);
	f->lastlinedefined = loadInt(S);
	f->numparams = loadByte(S);
	f->flag = loadByte(S) & PF_ISVARARG; /* get only the meaningful flags */
	if (S->fixed)
	f->flag \|= PF_FIXED; /* signal that code is fixed */
	f->maxstacksize = loadByte(S);
	loadCode(S, f);
	loadConstants(S, f);
	loadUpvalues(S, f);
	loadProtos(S, f);
	loadString(S, f, &f->source);
	loadDebug(S, f);
	}


	static void checkliteral (LoadState S, const char s, const char *msg) {
	char buff[sizeof(LUA_SIGNATURE) + sizeof(LUAC_DATA)]; /* larger than both */
	size_t len = strlen(s);
	loadVector(S, buff, len);
	if (memcmp(s, buff, len) != 0)
	error(S, msg);
	}


	static void fchecksize (LoadState S, size_t size, const char tname) {
	if (loadByte(S) != size)
	error(S, luaO_pushfstring(S->L, "%s size mismatch", tname));
	}


	#define checksize(S,t) fchecksize(S,sizeof(t),#t)

	static void checkHeader (LoadState *S) {
	/* skip 1st char (already read and checked) */
	checkliteral(S, &LUA_SIGNATURE[1], "not a binary chunk");
	if (loadByte(S) != LUAC_VERSION)
	error(S, "version mismatch");
	if (loadByte(S) != LUAC_FORMAT)
	error(S, "format mismatch");
	checkliteral(S, LUAC_DATA, "corrupted chunk");
	checksize(S, Instruction);
	checksize(S, lua_Integer);
	checksize(S, lua_Number);
	if (loadInteger(S) != LUAC_INT)
	error(S, "integer format mismatch");
	if (loadNumber(S) != LUAC_NUM)
	error(S, "float format mismatch");
	}


	/*
	** Load precompiled chunk.
	*/
	LClosure luaU_undump (lua_State L, ZIO Z, const char name, int fixed) {
	LoadState S;
	LClosure *cl;
	if (name == '@' \|\| name == '=')
	S.name = name + 1;
	else if (*name == LUA_SIGNATURE[0])
	S.name = "binary string";
	else
	S.name = name;
	S.L = L;
	S.Z = Z;
	S.fixed = fixed;
	S.offset = 1; /* fist byte was already read */
	checkHeader(&S);
	cl = luaF_newLclosure(L, loadByte(&S));
	setclLvalue2s(L, L->top.p, cl);
	luaD_inctop(L);
	S.h = luaH_new(L); /* create list of saved strings */
	S.nstr = 0;
	sethvalue2s(L, L->top.p, S.h); /* anchor it */
	luaD_inctop(L);
	cl->p = luaF_newproto(L);
	luaC_objbarrier(L, cl, cl->p);
	loadFunction(&S, cl->p);
	lua_assert(cl->nupvalues == cl->p->sizeupvalues);
	luai_verifycode(L, cl->p);
	L->top.p--; /* pop table */
	return cl;
	}