/* ** $Id: lfunc.c $ ** Auxiliary functions to manipulate prototypes and closures ** See Copyright Notice in lua.h */ #define lfunc_c #define LUA_CORE #include "lprefix.h" #include #include "lua.h" #include "ldebug.h" #include "ldo.h" #include "lfunc.h" #include "lgc.h" #include "lmem.h" #include "lobject.h" #include "lstate.h" CClosure *luaF_newCclosure (lua_State *L, int nupvals) { GCObject *o = luaC_newobj(L, LUA_VCCL, sizeCclosure(nupvals)); CClosure *c = gco2ccl(o); c->nupvalues = cast_byte(nupvals); return c; } LClosure *luaF_newLclosure (lua_State *L, int nupvals) { GCObject *o = luaC_newobj(L, LUA_VLCL, sizeLclosure(nupvals)); LClosure *c = gco2lcl(o); c->p = NULL; c->nupvalues = cast_byte(nupvals); while (nupvals--) c->upvals[nupvals] = NULL; return c; } /* ** fill a closure with new closed upvalues */ void luaF_initupvals (lua_State *L, LClosure *cl) { int i; for (i = 0; i < cl->nupvalues; i++) { GCObject *o = luaC_newobj(L, LUA_VUPVAL, sizeof(UpVal)); UpVal *uv = gco2upv(o); uv->v.p = &uv->u.value; /* make it closed */ setnilvalue(uv->v.p); cl->upvals[i] = uv; luaC_objbarrier(L, cl, uv); } } /* ** Create a new upvalue at the given level, and link it to the list of ** open upvalues of 'L' after entry 'prev'. **/ static UpVal *newupval (lua_State *L, StkId level, UpVal **prev) { GCObject *o = luaC_newobj(L, LUA_VUPVAL, sizeof(UpVal)); UpVal *uv = gco2upv(o); UpVal *next = *prev; uv->v.p = s2v(level); /* current value lives in the stack */ uv->u.open.next = next; /* link it to list of open upvalues */ uv->u.open.previous = prev; if (next) next->u.open.previous = &uv->u.open.next; *prev = uv; if (!isintwups(L)) { /* thread not in list of threads with upvalues? */ L->twups = G(L)->twups; /* link it to the list */ G(L)->twups = L; } return uv; } /* ** Find and reuse, or create if it does not exist, an upvalue ** at the given level. */ UpVal *luaF_findupval (lua_State *L, StkId level) { UpVal **pp = &L->openupval; UpVal *p; lua_assert(isintwups(L) || L->openupval == NULL); while ((p = *pp) != NULL && uplevel(p) >= level) { /* search for it */ lua_assert(!isdead(G(L), p)); if (uplevel(p) == level) /* corresponding upvalue? */ return p; /* return it */ pp = &p->u.open.next; } /* not found: create a new upvalue after 'pp' */ return newupval(L, level, pp); } /* ** Call closing method for object 'obj' with error message 'err'. The ** boolean 'yy' controls whether the call is yieldable. ** (This function assumes EXTRA_STACK.) */ static void callclosemethod (lua_State *L, TValue *obj, TValue *err, int yy) { StkId top = L->top.p; const TValue *tm = luaT_gettmbyobj(L, obj, TM_CLOSE); setobj2s(L, top, tm); /* will call metamethod... */ setobj2s(L, top + 1, obj); /* with 'self' as the 1st argument */ setobj2s(L, top + 2, err); /* and error msg. as 2nd argument */ L->top.p = top + 3; /* add function and arguments */ if (yy) luaD_call(L, top, 0); else luaD_callnoyield(L, top, 0); } /* ** Check whether object at given level has a close metamethod and raise ** an error if not. */ static void checkclosemth (lua_State *L, StkId level) { const TValue *tm = luaT_gettmbyobj(L, s2v(level), TM_CLOSE); if (ttisnil(tm)) { /* no metamethod? */ int idx = cast_int(level - L->ci->func.p); /* variable index */ const char *vname = luaG_findlocal(L, L->ci, idx, NULL); if (vname == NULL) vname = "?"; luaG_runerror(L, "variable '%s' got a non-closable value", vname); } } /* ** Prepare and call a closing method. ** If status is CLOSEKTOP, the call to the closing method will be pushed ** at the top of the stack. Otherwise, values can be pushed right after ** the 'level' of the upvalue being closed, as everything after that ** won't be used again. */ static void prepcallclosemth (lua_State *L, StkId level, int status, int yy) { TValue *uv = s2v(level); /* value being closed */ TValue *errobj; if (status == CLOSEKTOP) errobj = &G(L)->nilvalue; /* error object is nil */ else { /* 'luaD_seterrorobj' will set top to level + 2 */ errobj = s2v(level + 1); /* error object goes after 'uv' */ luaD_seterrorobj(L, status, level + 1); /* set error object */ } callclosemethod(L, uv, errobj, yy); } /* ** Maximum value for deltas in 'tbclist', dependent on the type ** of delta. (This macro assumes that an 'L' is in scope where it ** is used.) */ #define MAXDELTA \ ((256ul << ((sizeof(L->stack.p->tbclist.delta) - 1) * 8)) - 1) /* ** Insert a variable in the list of to-be-closed variables. */ void luaF_newtbcupval (lua_State *L, StkId level) { lua_assert(level > L->tbclist.p); if (l_isfalse(s2v(level))) return; /* false doesn't need to be closed */ checkclosemth(L, level); /* value must have a close method */ while (cast_uint(level - L->tbclist.p) > MAXDELTA) { L->tbclist.p += MAXDELTA; /* create a dummy node at maximum delta */ L->tbclist.p->tbclist.delta = 0; } level->tbclist.delta = cast(unsigned short, level - L->tbclist.p); L->tbclist.p = level; } void luaF_unlinkupval (UpVal *uv) { lua_assert(upisopen(uv)); *uv->u.open.previous = uv->u.open.next; if (uv->u.open.next) uv->u.open.next->u.open.previous = uv->u.open.previous; } /* ** Close all upvalues up to the given stack level. */ void luaF_closeupval (lua_State *L, StkId level) { UpVal *uv; StkId upl; /* stack index pointed by 'uv' */ while ((uv = L->openupval) != NULL && (upl = uplevel(uv)) >= level) { TValue *slot = &uv->u.value; /* new position for value */ lua_assert(uplevel(uv) < L->top.p); luaF_unlinkupval(uv); /* remove upvalue from 'openupval' list */ setobj(L, slot, uv->v.p); /* move value to upvalue slot */ uv->v.p = slot; /* now current value lives here */ if (!iswhite(uv)) { /* neither white nor dead? */ nw2black(uv); /* closed upvalues cannot be gray */ luaC_barrier(L, uv, slot); } } } /* ** Remove first element from the tbclist plus its dummy nodes. */ static void poptbclist (lua_State *L) { StkId tbc = L->tbclist.p; lua_assert(tbc->tbclist.delta > 0); /* first element cannot be dummy */ tbc -= tbc->tbclist.delta; while (tbc > L->stack.p && tbc->tbclist.delta == 0) tbc -= MAXDELTA; /* remove dummy nodes */ L->tbclist.p = tbc; } /* ** Close all upvalues and to-be-closed variables up to the given stack ** level. Return restored 'level'. */ StkId luaF_close (lua_State *L, StkId level, int status, int yy) { ptrdiff_t levelrel = savestack(L, level); luaF_closeupval(L, level); /* first, close the upvalues */ while (L->tbclist.p >= level) { /* traverse tbc's down to that level */ StkId tbc = L->tbclist.p; /* get variable index */ poptbclist(L); /* remove it from list */ prepcallclosemth(L, tbc, status, yy); /* close variable */ level = restorestack(L, levelrel); } return level; } Proto *luaF_newproto (lua_State *L) { GCObject *o = luaC_newobj(L, LUA_VPROTO, sizeof(Proto)); Proto *f = gco2p(o); f->k = NULL; f->sizek = 0; f->p = NULL; f->sizep = 0; f->code = NULL; f->sizecode = 0; f->lineinfo = NULL; f->sizelineinfo = 0; f->abslineinfo = NULL; f->sizeabslineinfo = 0; f->upvalues = NULL; f->sizeupvalues = 0; f->numparams = 0; f->is_vararg = 0; f->maxstacksize = 0; f->locvars = NULL; f->sizelocvars = 0; f->linedefined = 0; f->lastlinedefined = 0; f->source = NULL; return f; } void luaF_freeproto (lua_State *L, Proto *f) { luaM_freearray(L, f->code, f->sizecode); luaM_freearray(L, f->p, f->sizep); luaM_freearray(L, f->k, f->sizek); luaM_freearray(L, f->lineinfo, f->sizelineinfo); luaM_freearray(L, f->abslineinfo, f->sizeabslineinfo); luaM_freearray(L, f->locvars, f->sizelocvars); luaM_freearray(L, f->upvalues, f->sizeupvalues); luaM_free(L, f); } /* ** Look for n-th local variable at line 'line' in function 'func'. ** Returns NULL if not found. */ const char *luaF_getlocalname (const Proto *f, int local_number, int pc) { int i; for (i = 0; isizelocvars && f->locvars[i].startpc <= pc; i++) { if (pc < f->locvars[i].endpc) { /* is variable active? */ local_number--; if (local_number == 0) return getstr(f->locvars[i].varname); } } return NULL; /* not found */ }