void naFree(void* m) { free(m); }
void* naAlloc(int n) { return malloc(n); }
+void* naRealloc(void* b, int n) { return realloc(b, n); }
void naBZero(void* m, int n) { memset(m, 0, n); }
+void naTempSave(naContext c, naRef r)
+{
+ int i;
+ if(!IS_OBJ(r)) return;
+ if(c->ntemps >= c->tempsz) {
+ struct naObj** newtemps;
+ c->tempsz *= 2;
+ newtemps = naAlloc(c->tempsz * sizeof(struct naObj*));
+ for(i=0; i<c->ntemps; i++)
+ newtemps[i] = c->temps[i];
+ naFree(c->temps);
+ c->temps = newtemps;
+ }
+ c->temps[c->ntemps++] = PTR(r).obj;
+}
+
naRef naObj(int type, struct naObj* o)
{
naRef r;
- r.ref.reftag = NASAL_REFTAG;
- r.ref.ptr.obj = o;
+ SETPTR(r, o);
o->type = type;
return r;
}
naRef naNew(struct Context* c, int type)
{
- naRef result = naObj(type, naGC_get(&(c->pools[type])));
- naVec_append(c->temps, result);
+ naRef result;
+ if(c->nfree[type] == 0)
+ c->free[type] = naGC_get(&globals->pools[type],
+ OBJ_CACHE_SZ, &c->nfree[type]);
+ result = naObj(type, c->free[type][--c->nfree[type]]);
+ naTempSave(c, result);
return result;
}
naRef naNewString(struct Context* c)
{
naRef s = naNew(c, T_STR);
- s.ref.ptr.str->len = 0;
- s.ref.ptr.str->data = 0;
+ PTR(s).str->len = 0;
+ PTR(s).str->data = 0;
+ PTR(s).str->hashcode = 0;
return s;
}
naRef naNewVector(struct Context* c)
{
naRef r = naNew(c, T_VEC);
- naVec_init(r);
+ PTR(r).vec->rec = 0;
return r;
}
naRef naNewHash(struct Context* c)
{
naRef r = naNew(c, T_HASH);
- naHash_init(r);
+ PTR(r).hash->rec = 0;
return r;
}
naRef naNewCCode(struct Context* c, naCFunction fptr)
{
naRef r = naNew(c, T_CCODE);
- r.ref.ptr.ccode->fptr = fptr;
+ PTR(r).ccode->fptr = fptr;
return r;
}
naRef naNewFunc(struct Context* c, naRef code)
{
naRef func = naNew(c, T_FUNC);
- func.ref.ptr.func->code = code;
- func.ref.ptr.func->closure = naNil();
+ PTR(func).func->code = code;
+ PTR(func).func->namespace = naNil();
+ PTR(func).func->next = naNil();
return func;
}
-naRef naNewClosure(struct Context* c, naRef namespace, naRef next)
-{
- naRef closure = naNew(c, T_CLOSURE);
- closure.ref.ptr.closure->namespace = namespace;
- closure.ref.ptr.closure->next = next;
- return closure;
-}
-
naRef naNewGhost(naContext c, naGhostType* type, void* ptr)
{
naRef ghost = naNew(c, T_GHOST);
- ghost.ref.ptr.ghost->gtype = type;
- ghost.ref.ptr.ghost->ptr = ptr;
+ PTR(ghost).ghost->gtype = type;
+ PTR(ghost).ghost->ptr = ptr;
return ghost;
}
naGhostType* naGhost_type(naRef ghost)
{
if(!IS_GHOST(ghost)) return 0;
- return ghost.ref.ptr.ghost->gtype;
+ return PTR(ghost).ghost->gtype;
}
void* naGhost_ptr(naRef ghost)
{
if(!IS_GHOST(ghost)) return 0;
- return ghost.ref.ptr.ghost->ptr;
+ return PTR(ghost).ghost->ptr;
}
naRef naNil()
{
- naRef r;
- r.ref.reftag = NASAL_REFTAG;
- r.ref.ptr.obj = 0;
+ naRef r;
+ SETPTR(r, 0);
return r;
}
naRef naNum(double num)
{
naRef r;
- r.num = num;
+ SETNUM(r, num);
return r;
}
int naEqual(naRef a, naRef b)
{
double na=0, nb=0;
- if(IS_REF(a) && IS_REF(b) && a.ref.ptr.obj == b.ref.ptr.obj)
+ if(IS_REF(a) && IS_REF(b) && PTR(a).obj == PTR(b).obj)
return 1; // Object identity (and nil == nil)
if(IS_NIL(a) || IS_NIL(b))
return 0;
return na == nb ? 1 : 0;
}
+int naStrEqual(naRef a, naRef b)
+{
+ int i;
+ if(!(IS_STR(a) && IS_STR(b)))
+ return 0;
+ if(PTR(a).str->len != PTR(b).str->len)
+ return 0;
+ for(i=0; i<PTR(a).str->len; i++)
+ if(PTR(a).str->data[i] != PTR(b).str->data[i])
+ return 0;
+ return 1;
+}
+
int naTypeSize(int type)
{
switch(type) {
case T_HASH: return sizeof(struct naHash);
case T_CODE: return sizeof(struct naCode);
case T_FUNC: return sizeof(struct naFunc);
- case T_CLOSURE: return sizeof(struct naClosure);
case T_CCODE: return sizeof(struct naCCode);
case T_GHOST: return sizeof(struct naGhost);
};
return 0x7fffffff; // Make sure the answer is nonsense :)
}
-int naIsNil(naRef r)
-{
- return IS_NIL(r);
-}
-
-int naIsNum(naRef r)
-{
- return IS_NUM(r);
-}
-
-int naIsString(naRef r)
-{
- return (!IS_NIL(r))&&IS_STR(r);
-}
-
-int naIsScalar(naRef r)
-{
- return IS_SCALAR(r);
-}
-
-int naIsVector(naRef r)
-{
- return (!IS_NIL(r))&&IS_VEC(r);
-}
-
-int naIsHash(naRef r)
-{
- return (!IS_NIL(r))&&IS_HASH(r);
-}
-
-int naIsFunc(naRef r)
-{
- return (!IS_NIL(r))&&IS_FUNC(r);
-}
+int naIsNil(naRef r) { return IS_NIL(r); }
+int naIsNum(naRef r) { return IS_NUM(r); }
+int naIsString(naRef r) { return IS_STR(r); }
+int naIsScalar(naRef r) { return IS_SCALAR(r); }
+int naIsVector(naRef r) { return IS_VEC(r); }
+int naIsHash(naRef r) { return IS_HASH(r); }
+int naIsFunc(naRef r) { return IS_FUNC(r); }
+int naIsCode(naRef r) { return IS_CODE(r); }
+int naIsCCode(naRef r) { return IS_CCODE(r); }
+int naIsGhost(naRef r) { return IS_GHOST(r); }
-int naIsCode(naRef r)
+void naSetUserData(naContext c, void* p) { c->userData = p; }
+void* naGetUserData(naContext c)
{
- return IS_CODE(r);
+ if(c->userData) return c->userData;
+ return c->callParent ? naGetUserData(c->callParent) : 0;
}
-int naIsCCode(naRef r)
+void naAddSym(naContext c, naRef ns, char *sym, naRef val)
{
- return IS_CCODE(r);
+ naRef name = naStr_fromdata(naNewString(c), sym, strlen(sym));
+ naHash_set(ns, naInternSymbol(name), val);
}
-int naIsGhost(naRef r)
+naRef naGenLib(naContext c, naCFuncItem *fns)
{
- return IS_GHOST(r);
+ naRef ns = naNewHash(c);
+ for(/**/; fns->name; fns++)
+ naAddSym(c, ns, fns->name, naNewFunc(c, naNewCCode(c, fns->func)));
+ return ns;
}