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

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

 #define ldump_c
 #define LUA_CORE

 #include "lprefix.h"


 #include <limits.h>
 #include <stddef.h>

 #include "lua.h"

 #include "lgc.h"
 #include "lobject.h"
 #include "lstate.h"
 #include "ltable.h"
 #include "lundump.h"


 typedef struct {
   lua_State *L;
   lua_Writer writer;
   void *data;
   lu_mem offset;  /* current position relative to beginning of dump */
   int strip;
   int status;
   Table *h;  /* table to track saved strings */
   lua_Integer nstr;  /* counter for counting saved strings */
 } DumpState;


 /*
 ** All high-level dumps go through dumpVector; you can change it to
 ** change the endianness of the result
 */
 #define dumpVector(D,v,n)	dumpBlock(D,v,(n)*sizeof((v)[0]))

 #define dumpLiteral(D, s)	dumpBlock(D,s,sizeof(s) - sizeof(char))


 /*
 ** Dump the block of memory pointed by 'b' with given 'size'.
 ** 'b' should not be NULL, except for the last call signaling the end
 ** of the dump.
 */
 static void dumpBlock (DumpState *D, const void *b, size_t size) {
   if (D->status == 0) {  /* do not write anything after an error */
     lua_unlock(D->L);
     D->status = (*D->writer)(D->L, b, size, D->data);
     lua_lock(D->L);
     D->offset += size;
   }
 }


 /*
 ** Dump enough zeros to ensure that current position is a multiple of
 ** 'align'.
 */
 static void dumpAlign (DumpState *D, int align) {
   int padding = align - (D->offset % align);
   if (padding < align) {  /* padding == align means no padding */
     static lua_Integer paddingContent = 0;
     lua_assert(cast_uint(align) <= sizeof(lua_Integer));
     dumpBlock(D, &paddingContent, padding);
   }
   lua_assert(D->offset % align == 0);
 }


 #define dumpVar(D,x)		dumpVector(D,&x,1)


 static void dumpByte (DumpState *D, int y) {
   lu_byte x = (lu_byte)y;
   dumpVar(D, x);
 }


 /*
 ** size for 'dumpVarint' buffer: each byte can store up to 7 bits.
 ** (The "+6" rounds up the division.)
 */
 #define DIBS    ((sizeof(size_t) * CHAR_BIT + 6) / 7)

 /*
 ** Dumps an unsigned integer using the MSB Varint encoding
 */
 static void dumpVarint (DumpState *D, size_t x) {
   lu_byte buff[DIBS];
   int n = 1;
   buff[DIBS - 1] = x & 0x7f;  /* fill least-significant byte */
   while ((x >>= 7) != 0)  /* fill other bytes in reverse order */
     buff[DIBS - (++n)] = (x & 0x7f) | 0x80;
   dumpVector(D, buff + DIBS - n, n);
 }


 static void dumpSize (DumpState *D, size_t sz) {
   dumpVarint(D, sz);
 }

 static void dumpInt (DumpState *D, int x) {
   lua_assert(x >= 0);
   dumpVarint(D, cast(size_t, x));
 }


 static void dumpNumber (DumpState *D, lua_Number x) {
   dumpVar(D, x);
 }


 static void dumpInteger (DumpState *D, lua_Integer x) {
   dumpVar(D, x);
 }


 /*
 ** Dump a String. First dump its "size": size==0 means NULL;
 ** size==1 is followed by an index and means "reuse saved string with
 ** that index"; size>=2 is followed by the string contents with real
 ** size==size-2 and means that string, which will be saved with
 ** the next available index.
 */
 static void dumpString (DumpState *D, TString *ts) {
   if (ts == NULL)
     dumpSize(D, 0);
   else {
     TValue idx;
     int tag = luaH_getstr(D->h, ts, &idx);
     if (!tagisempty(tag)) {  /* string already saved? */
       dumpSize(D, 1);  /* reuse a saved string */
       dumpSize(D, cast_sizet(ivalue(&idx)));  /* index of saved string */
     }
     else {  /* must write and save the string */
       TValue key, value;  /* to save the string in the hash */
       size_t size;
       const char *s = getlstr(ts, size);
       dumpSize(D, size + 2);
       dumpVector(D, s, size + 1);  /* include ending '\0' */
       D->nstr++;  /* one more saved string */
       setsvalue(D->L, &key, ts);  /* the string is the key */
       setivalue(&value, D->nstr);  /* its index is the value */
       luaH_set(D->L, D->h, &key, &value);  /* h[ts] = nstr */
       /* integer value does not need barrier */
     }
   }
 }


 static void dumpCode (DumpState *D, const Proto *f) {
   dumpInt(D, f->sizecode);
   dumpAlign(D, sizeof(f->code[0]));
   lua_assert(f->code != NULL);
   dumpVector(D, f->code, f->sizecode);
 }


 static void dumpFunction (DumpState *D, const Proto *f);

 static void dumpConstants (DumpState *D, const Proto *f) {
   int i;
   int n = f->sizek;
   dumpInt(D, n);
   for (i = 0; i < n; i++) {
     const TValue *o = &f->k[i];
     int tt = ttypetag(o);
     dumpByte(D, tt);
     switch (tt) {
       case LUA_VNUMFLT:
         dumpNumber(D, fltvalue(o));
         break;
       case LUA_VNUMINT:
         dumpInteger(D, ivalue(o));
         break;
       case LUA_VSHRSTR:
       case LUA_VLNGSTR:
         dumpString(D, tsvalue(o));
         break;
       default:
         lua_assert(tt == LUA_VNIL || tt == LUA_VFALSE || tt == LUA_VTRUE);
     }
   }
 }


 static void dumpProtos (DumpState *D, const Proto *f) {
   int i;
   int n = f->sizep;
   dumpInt(D, n);
   for (i = 0; i < n; i++)
     dumpFunction(D, f->p[i]);
 }


 static void dumpUpvalues (DumpState *D, const Proto *f) {
   int i, n = f->sizeupvalues;
   dumpInt(D, n);
   for (i = 0; i < n; i++) {
     dumpByte(D, f->upvalues[i].instack);
     dumpByte(D, f->upvalues[i].idx);
     dumpByte(D, f->upvalues[i].kind);
   }
 }


 static void dumpDebug (DumpState *D, const Proto *f) {
   int i, n;
   n = (D->strip) ? 0 : f->sizelineinfo;
   dumpInt(D, n);
   if (f->lineinfo != NULL)
     dumpVector(D, f->lineinfo, n);
   n = (D->strip) ? 0 : f->sizeabslineinfo;
   dumpInt(D, n);
   if (n > 0) {
     /* 'abslineinfo' is an array of structures of int's */
     dumpAlign(D, sizeof(int));
     dumpVector(D, f->abslineinfo, n);
   }
   n = (D->strip) ? 0 : f->sizelocvars;
   dumpInt(D, n);
   for (i = 0; i < n; i++) {
     dumpString(D, f->locvars[i].varname);
     dumpInt(D, f->locvars[i].startpc);
     dumpInt(D, f->locvars[i].endpc);
   }
   n = (D->strip) ? 0 : f->sizeupvalues;
   dumpInt(D, n);
   for (i = 0; i < n; i++)
     dumpString(D, f->upvalues[i].name);
 }


 static void dumpFunction (DumpState *D, const Proto *f) {
   dumpInt(D, f->linedefined);
   dumpInt(D, f->lastlinedefined);
   dumpByte(D, f->numparams);
   dumpByte(D, f->flag);
   dumpByte(D, f->maxstacksize);
   dumpCode(D, f);
   dumpConstants(D, f);
   dumpUpvalues(D, f);
   dumpProtos(D, f);
   dumpString(D, D->strip ? NULL : f->source);
   dumpDebug(D, f);
 }


 static void dumpHeader (DumpState *D) {
   dumpLiteral(D, LUA_SIGNATURE);
   dumpByte(D, LUAC_VERSION);
   dumpByte(D, LUAC_FORMAT);
   dumpLiteral(D, LUAC_DATA);
   dumpByte(D, sizeof(Instruction));
   dumpByte(D, sizeof(lua_Integer));
   dumpByte(D, sizeof(lua_Number));
   dumpInteger(D, LUAC_INT);
   dumpNumber(D, LUAC_NUM);
 }


 /*
 ** dump Lua function as precompiled chunk
 */
 int luaU_dump (lua_State *L, const Proto *f, lua_Writer w, void *data,
                int strip) {
   DumpState D;
   D.h = luaH_new(L);  /* aux. table to keep strings already dumped */
   sethvalue2s(L, L->top.p, D.h);  /* anchor it */
   L->top.p++;
   D.L = L;
   D.writer = w;
   D.offset = 0;
   D.data = data;
   D.strip = strip;
   D.status = 0;
   D.nstr = 0;
   dumpHeader(&D);
   dumpByte(&D, f->sizeupvalues);
   dumpFunction(&D, f);
   dumpBlock(&D, NULL, 0);  /* signal end of dump */
   return D.status;
 }
	/*
	** $Id: ldump.c $
	** save precompiled Lua chunks
	** See Copyright Notice in lua.h
	*/

	#define ldump_c
	#define LUA_CORE

	#include "lprefix.h"


	#include <limits.h>
	#include <stddef.h>

	#include "lua.h"

	#include "lgc.h"
	#include "lobject.h"
	#include "lstate.h"
	#include "ltable.h"
	#include "lundump.h"


	typedef struct {
	lua_State *L;
	lua_Writer writer;
	void *data;
	lu_mem offset; /* current position relative to beginning of dump */
	int strip;
	int status;
	Table h; / table to track saved strings */
	lua_Integer nstr; /* counter for counting saved strings */
	} DumpState;


	/*
	** All high-level dumps go through dumpVector; you can change it to
	** change the endianness of the result
	*/
	#define dumpVector(D,v,n) dumpBlock(D,v,(n)*sizeof((v)[0]))

	#define dumpLiteral(D, s) dumpBlock(D,s,sizeof(s) - sizeof(char))


	/*
	** Dump the block of memory pointed by 'b' with given 'size'.
	** 'b' should not be NULL, except for the last call signaling the end
	** of the dump.
	*/
	static void dumpBlock (DumpState D, const void b, size_t size) {
	if (D->status == 0) { /* do not write anything after an error */
	lua_unlock(D->L);
	D->status = (*D->writer)(D->L, b, size, D->data);
	lua_lock(D->L);
	D->offset += size;
	}
	}


	/*
	** Dump enough zeros to ensure that current position is a multiple of
	** 'align'.
	*/
	static void dumpAlign (DumpState *D, int align) {
	int padding = align - (D->offset % align);
	if (padding < align) { /* padding == align means no padding */
	static lua_Integer paddingContent = 0;
	lua_assert(cast_uint(align) <= sizeof(lua_Integer));
	dumpBlock(D, &paddingContent, padding);
	}
	lua_assert(D->offset % align == 0);
	}


	#define dumpVar(D,x) dumpVector(D,&x,1)


	static void dumpByte (DumpState *D, int y) {
	lu_byte x = (lu_byte)y;
	dumpVar(D, x);
	}


	/*
	** size for 'dumpVarint' buffer: each byte can store up to 7 bits.
	** (The "+6" rounds up the division.)
	*/
	#define DIBS ((sizeof(size_t) * CHAR_BIT + 6) / 7)

	/*
	** Dumps an unsigned integer using the MSB Varint encoding
	*/
	static void dumpVarint (DumpState *D, size_t x) {
	lu_byte buff[DIBS];
	int n = 1;
	buff[DIBS - 1] = x & 0x7f; /* fill least-significant byte */
	while ((x >>= 7) != 0) /* fill other bytes in reverse order */
	buff[DIBS - (++n)] = (x & 0x7f) \| 0x80;
	dumpVector(D, buff + DIBS - n, n);
	}


	static void dumpSize (DumpState *D, size_t sz) {
	dumpVarint(D, sz);
	}

	static void dumpInt (DumpState *D, int x) {
	lua_assert(x >= 0);
	dumpVarint(D, cast(size_t, x));
	}


	static void dumpNumber (DumpState *D, lua_Number x) {
	dumpVar(D, x);
	}


	static void dumpInteger (DumpState *D, lua_Integer x) {
	dumpVar(D, x);
	}


	/*
	** Dump a String. First dump its "size": size==0 means NULL;
	** size==1 is followed by an index and means "reuse saved string with
	** that index"; size>=2 is followed by the string contents with real
	** size==size-2 and means that string, which will be saved with
	** the next available index.
	*/
	static void dumpString (DumpState D, TString ts) {
	if (ts == NULL)
	dumpSize(D, 0);
	else {
	TValue idx;
	int tag = luaH_getstr(D->h, ts, &idx);
	if (!tagisempty(tag)) { /* string already saved? */
	dumpSize(D, 1); /* reuse a saved string */
	dumpSize(D, cast_sizet(ivalue(&idx))); /* index of saved string */
	}
	else { /* must write and save the string */
	TValue key, value; /* to save the string in the hash */
	size_t size;
	const char *s = getlstr(ts, size);
	dumpSize(D, size + 2);
	dumpVector(D, s, size + 1); /* include ending '\0' */
	D->nstr++; /* one more saved string */
	setsvalue(D->L, &key, ts); /* the string is the key */
	setivalue(&value, D->nstr); /* its index is the value */
	luaH_set(D->L, D->h, &key, &value); /* h[ts] = nstr */
	/* integer value does not need barrier */
	}
	}
	}


	static void dumpCode (DumpState D, const Proto f) {
	dumpInt(D, f->sizecode);
	dumpAlign(D, sizeof(f->code[0]));
	lua_assert(f->code != NULL);
	dumpVector(D, f->code, f->sizecode);
	}


	static void dumpFunction (DumpState D, const Proto f);

	static void dumpConstants (DumpState D, const Proto f) {
	int i;
	int n = f->sizek;
	dumpInt(D, n);
	for (i = 0; i < n; i++) {
	const TValue *o = &f->k[i];
	int tt = ttypetag(o);
	dumpByte(D, tt);
	switch (tt) {
	case LUA_VNUMFLT:
	dumpNumber(D, fltvalue(o));
	break;
	case LUA_VNUMINT:
	dumpInteger(D, ivalue(o));
	break;
	case LUA_VSHRSTR:
	case LUA_VLNGSTR:
	dumpString(D, tsvalue(o));
	break;
	default:
	lua_assert(tt == LUA_VNIL \|\| tt == LUA_VFALSE \|\| tt == LUA_VTRUE);
	}
	}
	}


	static void dumpProtos (DumpState D, const Proto f) {
	int i;
	int n = f->sizep;
	dumpInt(D, n);
	for (i = 0; i < n; i++)
	dumpFunction(D, f->p[i]);
	}


	static void dumpUpvalues (DumpState D, const Proto f) {
	int i, n = f->sizeupvalues;
	dumpInt(D, n);
	for (i = 0; i < n; i++) {
	dumpByte(D, f->upvalues[i].instack);
	dumpByte(D, f->upvalues[i].idx);
	dumpByte(D, f->upvalues[i].kind);
	}
	}


	static void dumpDebug (DumpState D, const Proto f) {
	int i, n;
	n = (D->strip) ? 0 : f->sizelineinfo;
	dumpInt(D, n);
	if (f->lineinfo != NULL)
	dumpVector(D, f->lineinfo, n);
	n = (D->strip) ? 0 : f->sizeabslineinfo;
	dumpInt(D, n);
	if (n > 0) {
	/* 'abslineinfo' is an array of structures of int's */
	dumpAlign(D, sizeof(int));
	dumpVector(D, f->abslineinfo, n);
	}
	n = (D->strip) ? 0 : f->sizelocvars;
	dumpInt(D, n);
	for (i = 0; i < n; i++) {
	dumpString(D, f->locvars[i].varname);
	dumpInt(D, f->locvars[i].startpc);
	dumpInt(D, f->locvars[i].endpc);
	}
	n = (D->strip) ? 0 : f->sizeupvalues;
	dumpInt(D, n);
	for (i = 0; i < n; i++)
	dumpString(D, f->upvalues[i].name);
	}


	static void dumpFunction (DumpState D, const Proto f) {
	dumpInt(D, f->linedefined);
	dumpInt(D, f->lastlinedefined);
	dumpByte(D, f->numparams);
	dumpByte(D, f->flag);
	dumpByte(D, f->maxstacksize);
	dumpCode(D, f);
	dumpConstants(D, f);
	dumpUpvalues(D, f);
	dumpProtos(D, f);
	dumpString(D, D->strip ? NULL : f->source);
	dumpDebug(D, f);
	}


	static void dumpHeader (DumpState *D) {
	dumpLiteral(D, LUA_SIGNATURE);
	dumpByte(D, LUAC_VERSION);
	dumpByte(D, LUAC_FORMAT);
	dumpLiteral(D, LUAC_DATA);
	dumpByte(D, sizeof(Instruction));
	dumpByte(D, sizeof(lua_Integer));
	dumpByte(D, sizeof(lua_Number));
	dumpInteger(D, LUAC_INT);
	dumpNumber(D, LUAC_NUM);
	}


	/*
	** dump Lua function as precompiled chunk
	*/
	int luaU_dump (lua_State L, const Proto f, lua_Writer w, void *data,
	int strip) {
	DumpState D;
	D.h = luaH_new(L); /* aux. table to keep strings already dumped */
	sethvalue2s(L, L->top.p, D.h); /* anchor it */
	L->top.p++;
	D.L = L;
	D.writer = w;
	D.offset = 0;
	D.data = data;
	D.strip = strip;
	D.status = 0;
	D.nstr = 0;
	dumpHeader(&D);
	dumpByte(&D, f->sizeupvalues);
	dumpFunction(&D, f);
	dumpBlock(&D, NULL, 0); /* signal end of dump */
	return D.status;
	}