/* see copyright notice in squirrel.h */ #include "sqpcheader.h" #include "sqvm.h" #include "sqstring.h" #include "sqtable.h" #include "sqarray.h" #include "sqfuncproto.h" #include "sqclosure.h" #include "squserdata.h" #include "sqcompiler.h" #include "sqfuncstate.h" #include "sqclass.h" bool sq_aux_gettypedarg(HSQUIRRELVM v,SQInteger idx,SQObjectType type,SQObjectPtr **o) { *o = &stack_get(v,idx); if(type(**o) != type){ SQObjectPtr oval = v->PrintObjVal(**o); v->Raise_Error(_SC("wrong argument type, expected '%s' got '%.50s'"),IdType2Name(type),_stringval(oval)); return false; } return true; } #define _GETSAFE_OBJ(v,idx,type,o) { if(!sq_aux_gettypedarg(v,idx,type,&o)) return SQ_ERROR; } #define sq_aux_paramscheck(v,count) \ { \ if(sq_gettop(v) < count){ v->Raise_Error(_SC("not enough params in the stack")); return SQ_ERROR; }\ } SQInteger sq_aux_invalidtype(HSQUIRRELVM v,SQObjectType type) { scsprintf(_ss(v)->GetScratchPad(100), 100 *sizeof(SQChar), _SC("unexpected type %s"), IdType2Name(type)); return sq_throwerror(v, _ss(v)->GetScratchPad(-1)); } HSQUIRRELVM sq_open(SQInteger initialstacksize) { SQSharedState *ss; SQVM *v; sq_new(ss, SQSharedState); ss->Init(); v = (SQVM *)SQ_MALLOC(sizeof(SQVM)); new (v) SQVM(ss); ss->_root_vm = v; if(v->Init(NULL, initialstacksize)) { return v; } else { sq_delete(v, SQVM); return NULL; } return v; } HSQUIRRELVM sq_newthread(HSQUIRRELVM friendvm, SQInteger initialstacksize) { SQSharedState *ss; SQVM *v; ss=_ss(friendvm); v= (SQVM *)SQ_MALLOC(sizeof(SQVM)); new (v) SQVM(ss); if(v->Init(friendvm, initialstacksize)) { friendvm->Push(v); return v; } else { sq_delete(v, SQVM); return NULL; } } SQInteger sq_getvmstate(HSQUIRRELVM v) { if(v->_suspended) return SQ_VMSTATE_SUSPENDED; else { if(v->_callsstacksize != 0) return SQ_VMSTATE_RUNNING; else return SQ_VMSTATE_IDLE; } } void sq_seterrorhandler(HSQUIRRELVM v) { SQObject o = stack_get(v, -1); if(sq_isclosure(o) || sq_isnativeclosure(o) || sq_isnull(o)) { v->_errorhandler = o; v->Pop(); } } void sq_setnativedebughook(HSQUIRRELVM v,SQDEBUGHOOK hook) { v->_debughook_native = hook; v->_debughook_closure.Null(); v->_debughook = hook?true:false; } void sq_setdebughook(HSQUIRRELVM v) { SQObject o = stack_get(v,-1); if(sq_isclosure(o) || sq_isnativeclosure(o) || sq_isnull(o)) { v->_debughook_closure = o; v->_debughook_native = NULL; v->_debughook = !sq_isnull(o); v->Pop(); } } void sq_close(HSQUIRRELVM v) { SQSharedState *ss = _ss(v); _thread(ss->_root_vm)->Finalize(); sq_delete(ss, SQSharedState); } SQInteger sq_getversion() { return SQUIRREL_VERSION_NUMBER; } SQRESULT sq_compile(HSQUIRRELVM v,SQLEXREADFUNC read,SQUserPointer p,const SQChar *sourcename,SQBool raiseerror) { SQObjectPtr o; #ifndef NO_COMPILER if(Compile(v, read, p, sourcename, o, raiseerror?true:false, _ss(v)->_debuginfo)) { v->Push(SQClosure::Create(_ss(v), _funcproto(o), _table(v->_roottable)->GetWeakRef(OT_TABLE))); return SQ_OK; } return SQ_ERROR; #else return sq_throwerror(v,_SC("this is a no compiler build")); #endif } void sq_enabledebuginfo(HSQUIRRELVM v, SQBool enable) { _ss(v)->_debuginfo = enable?true:false; } void sq_notifyallexceptions(HSQUIRRELVM v, SQBool enable) { _ss(v)->_notifyallexceptions = enable?true:false; } void sq_addref(HSQUIRRELVM v,HSQOBJECT *po) { if(!ISREFCOUNTED(type(*po))) return; #ifdef NO_GARBAGE_COLLECTOR __AddRef(po->_type,po->_unVal); #else _ss(v)->_refs_table.AddRef(*po); #endif } SQUnsignedInteger sq_getrefcount(HSQUIRRELVM v,HSQOBJECT *po) { if(!ISREFCOUNTED(type(*po))) return 0; #ifdef NO_GARBAGE_COLLECTOR return po->_unVal.pRefCounted->_uiRef; #else return _ss(v)->_refs_table.GetRefCount(*po); #endif } SQBool sq_release(HSQUIRRELVM v,HSQOBJECT *po) { if(!ISREFCOUNTED(type(*po))) return SQTrue; #ifdef NO_GARBAGE_COLLECTOR bool ret = (po->_unVal.pRefCounted->_uiRef <= 1) ? SQTrue : SQFalse; __Release(po->_type,po->_unVal); return ret; //the ret val doesn't work(and cannot be fixed) #else return _ss(v)->_refs_table.Release(*po); #endif } const SQChar *sq_objtostring(const HSQOBJECT *o) { if(sq_type(*o) == OT_STRING) { return _stringval(*o); } return NULL; } SQInteger sq_objtointeger(const HSQOBJECT *o) { if(sq_isnumeric(*o)) { return tointeger(*o); } return 0; } SQFloat sq_objtofloat(const HSQOBJECT *o) { if(sq_isnumeric(*o)) { return tofloat(*o); } return 0; } SQBool sq_objtobool(const HSQOBJECT *o) { if(sq_isbool(*o)) { return _integer(*o); } return SQFalse; } SQUserPointer sq_objtouserpointer(const HSQOBJECT *o) { if(sq_isuserpointer(*o)) { return _userpointer(*o); } return 0; } void sq_pushnull(HSQUIRRELVM v) { v->PushNull(); } void sq_pushstring(HSQUIRRELVM v,const SQChar *s,SQInteger len) { if(s) v->Push(SQObjectPtr(SQString::Create(_ss(v), s, len))); else v->PushNull(); } void sq_pushinteger(HSQUIRRELVM v,SQInteger n) { v->Push(n); } void sq_pushbool(HSQUIRRELVM v,SQBool b) { v->Push(b?true:false); } void sq_pushfloat(HSQUIRRELVM v,SQFloat n) { v->Push(n); } void sq_pushuserpointer(HSQUIRRELVM v,SQUserPointer p) { v->Push(p); } SQUserPointer sq_newuserdata(HSQUIRRELVM v,SQUnsignedInteger size) { SQUserData *ud = SQUserData::Create(_ss(v), size + SQ_ALIGNMENT); v->Push(ud); return (SQUserPointer)sq_aligning(ud + 1); } void sq_newtable(HSQUIRRELVM v) { v->Push(SQTable::Create(_ss(v), 0)); } void sq_newtableex(HSQUIRRELVM v,SQInteger initialcapacity) { v->Push(SQTable::Create(_ss(v), initialcapacity)); } void sq_newarray(HSQUIRRELVM v,SQInteger size) { v->Push(SQArray::Create(_ss(v), size)); } SQRESULT sq_newclass(HSQUIRRELVM v,SQBool hasbase) { SQClass *baseclass = NULL; if(hasbase) { SQObjectPtr &base = stack_get(v,-1); if(type(base) != OT_CLASS) return sq_throwerror(v,_SC("invalid base type")); baseclass = _class(base); } SQClass *newclass = SQClass::Create(_ss(v), baseclass); if(baseclass) v->Pop(); v->Push(newclass); return SQ_OK; } SQBool sq_instanceof(HSQUIRRELVM v) { SQObjectPtr &inst = stack_get(v,-1); SQObjectPtr &cl = stack_get(v,-2); if(type(inst) != OT_INSTANCE || type(cl) != OT_CLASS) return sq_throwerror(v,_SC("invalid param type")); return _instance(inst)->InstanceOf(_class(cl))?SQTrue:SQFalse; } SQRESULT sq_arrayappend(HSQUIRRELVM v,SQInteger idx) { sq_aux_paramscheck(v,2); SQObjectPtr *arr; _GETSAFE_OBJ(v, idx, OT_ARRAY,arr); _array(*arr)->Append(v->GetUp(-1)); v->Pop(); return SQ_OK; } SQRESULT sq_arraypop(HSQUIRRELVM v,SQInteger idx,SQBool pushval) { sq_aux_paramscheck(v, 1); SQObjectPtr *arr; _GETSAFE_OBJ(v, idx, OT_ARRAY,arr); if(_array(*arr)->Size() > 0) { if(pushval != 0){ v->Push(_array(*arr)->Top()); } _array(*arr)->Pop(); return SQ_OK; } return sq_throwerror(v, _SC("empty array")); } SQRESULT sq_arrayresize(HSQUIRRELVM v,SQInteger idx,SQInteger newsize) { sq_aux_paramscheck(v,1); SQObjectPtr *arr; _GETSAFE_OBJ(v, idx, OT_ARRAY,arr); if(newsize >= 0) { _array(*arr)->Resize(newsize); return SQ_OK; } return sq_throwerror(v,_SC("negative size")); } SQRESULT sq_arrayreverse(HSQUIRRELVM v,SQInteger idx) { sq_aux_paramscheck(v, 1); SQObjectPtr *o; _GETSAFE_OBJ(v, idx, OT_ARRAY,o); SQArray *arr = _array(*o); if(arr->Size() > 0) { SQObjectPtr t; SQInteger size = arr->Size(); SQInteger n = size >> 1; size -= 1; for(SQInteger i = 0; i < n; i++) { t = arr->_values[i]; arr->_values[i] = arr->_values[size-i]; arr->_values[size-i] = t; } return SQ_OK; } return SQ_OK; } SQRESULT sq_arrayremove(HSQUIRRELVM v,SQInteger idx,SQInteger itemidx) { sq_aux_paramscheck(v, 1); SQObjectPtr *arr; _GETSAFE_OBJ(v, idx, OT_ARRAY,arr); return _array(*arr)->Remove(itemidx) ? SQ_OK : sq_throwerror(v,_SC("index out of range")); } SQRESULT sq_arrayinsert(HSQUIRRELVM v,SQInteger idx,SQInteger destpos) { sq_aux_paramscheck(v, 1); SQObjectPtr *arr; _GETSAFE_OBJ(v, idx, OT_ARRAY,arr); SQRESULT ret = _array(*arr)->Insert(destpos, v->GetUp(-1)) ? SQ_OK : sq_throwerror(v,_SC("index out of range")); v->Pop(); return ret; } void sq_newclosure(HSQUIRRELVM v,SQFUNCTION func,SQUnsignedInteger nfreevars) { SQNativeClosure *nc = SQNativeClosure::Create(_ss(v), func,nfreevars); nc->_nparamscheck = 0; for(SQUnsignedInteger i = 0; i < nfreevars; i++) { nc->_outervalues[i] = v->Top(); v->Pop(); } v->Push(SQObjectPtr(nc)); } SQRESULT sq_getclosureinfo(HSQUIRRELVM v,SQInteger idx,SQUnsignedInteger *nparams,SQUnsignedInteger *nfreevars) { SQObject o = stack_get(v, idx); if(type(o) == OT_CLOSURE) { SQClosure *c = _closure(o); SQFunctionProto *proto = c->_function; *nparams = (SQUnsignedInteger)proto->_nparameters; *nfreevars = (SQUnsignedInteger)proto->_noutervalues; return SQ_OK; } else if(type(o) == OT_NATIVECLOSURE) { SQNativeClosure *c = _nativeclosure(o); *nparams = (SQUnsignedInteger)c->_nparamscheck; *nfreevars = c->_noutervalues; return SQ_OK; } return sq_throwerror(v,_SC("the object is not a closure")); } SQRESULT sq_setnativeclosurename(HSQUIRRELVM v,SQInteger idx,const SQChar *name) { SQObject o = stack_get(v, idx); if(sq_isnativeclosure(o)) { SQNativeClosure *nc = _nativeclosure(o); nc->_name = SQString::Create(_ss(v),name); return SQ_OK; } return sq_throwerror(v,_SC("the object is not a nativeclosure")); } SQRESULT sq_setparamscheck(HSQUIRRELVM v,SQInteger nparamscheck,const SQChar *typemask) { SQObject o = stack_get(v, -1); if(!sq_isnativeclosure(o)) return sq_throwerror(v, _SC("native closure expected")); SQNativeClosure *nc = _nativeclosure(o); nc->_nparamscheck = nparamscheck; if(typemask) { SQIntVec res; if(!CompileTypemask(res, typemask)) return sq_throwerror(v, _SC("invalid typemask")); nc->_typecheck.copy(res); } else { nc->_typecheck.resize(0); } if(nparamscheck == SQ_MATCHTYPEMASKSTRING) { nc->_nparamscheck = nc->_typecheck.size(); } return SQ_OK; } SQRESULT sq_bindenv(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr &o = stack_get(v,idx); if(!sq_isnativeclosure(o) && !sq_isclosure(o)) return sq_throwerror(v,_SC("the target is not a closure")); SQObjectPtr &env = stack_get(v,-1); if(!sq_istable(env) && !sq_isclass(env) && !sq_isinstance(env)) return sq_throwerror(v,_SC("invalid environment")); SQWeakRef *w = _refcounted(env)->GetWeakRef(type(env)); SQObjectPtr ret; if(sq_isclosure(o)) { SQClosure *c = _closure(o)->Clone(); __ObjRelease(c->_env); c->_env = w; __ObjAddRef(c->_env); if(_closure(o)->_base) { c->_base = _closure(o)->_base; __ObjAddRef(c->_base); } ret = c; } else { //then must be a native closure SQNativeClosure *c = _nativeclosure(o)->Clone(); __ObjRelease(c->_env); c->_env = w; __ObjAddRef(c->_env); ret = c; } v->Pop(); v->Push(ret); return SQ_OK; } SQRESULT sq_getclosurename(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr &o = stack_get(v,idx); if(!sq_isnativeclosure(o) && !sq_isclosure(o)) return sq_throwerror(v,_SC("the target is not a closure")); if(sq_isnativeclosure(o)) { v->Push(_nativeclosure(o)->_name); } else { //closure v->Push(_closure(o)->_function->_name); } return SQ_OK; } SQRESULT sq_setclosureroot(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr &c = stack_get(v,idx); SQObject o = stack_get(v, -1); if(!sq_isclosure(c)) return sq_throwerror(v, _SC("closure expected")); if(sq_istable(o)) { _closure(c)->SetRoot(_table(o)->GetWeakRef(OT_TABLE)); v->Pop(); return SQ_OK; } return sq_throwerror(v, _SC("ivalid type")); } SQRESULT sq_getclosureroot(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr &c = stack_get(v,idx); if(!sq_isclosure(c)) return sq_throwerror(v, _SC("closure expected")); v->Push(_closure(c)->_root->_obj); return SQ_OK; } SQRESULT sq_clear(HSQUIRRELVM v,SQInteger idx) { SQObject &o=stack_get(v,idx); switch(type(o)) { case OT_TABLE: _table(o)->Clear(); break; case OT_ARRAY: _array(o)->Resize(0); break; default: return sq_throwerror(v, _SC("clear only works on table and array")); break; } return SQ_OK; } void sq_pushroottable(HSQUIRRELVM v) { v->Push(v->_roottable); } void sq_pushregistrytable(HSQUIRRELVM v) { v->Push(_ss(v)->_registry); } void sq_pushconsttable(HSQUIRRELVM v) { v->Push(_ss(v)->_consts); } SQRESULT sq_setroottable(HSQUIRRELVM v) { SQObject o = stack_get(v, -1); if(sq_istable(o) || sq_isnull(o)) { v->_roottable = o; v->Pop(); return SQ_OK; } return sq_throwerror(v, _SC("ivalid type")); } SQRESULT sq_setconsttable(HSQUIRRELVM v) { SQObject o = stack_get(v, -1); if(sq_istable(o)) { _ss(v)->_consts = o; v->Pop(); return SQ_OK; } return sq_throwerror(v, _SC("ivalid type, expected table")); } void sq_setforeignptr(HSQUIRRELVM v,SQUserPointer p) { v->_foreignptr = p; } SQUserPointer sq_getforeignptr(HSQUIRRELVM v) { return v->_foreignptr; } void sq_setsharedforeignptr(HSQUIRRELVM v,SQUserPointer p) { _ss(v)->_foreignptr = p; } SQUserPointer sq_getsharedforeignptr(HSQUIRRELVM v) { return _ss(v)->_foreignptr; } void sq_setvmreleasehook(HSQUIRRELVM v,SQRELEASEHOOK hook) { v->_releasehook = hook; } SQRELEASEHOOK sq_getvmreleasehook(HSQUIRRELVM v) { return v->_releasehook; } void sq_setsharedreleasehook(HSQUIRRELVM v,SQRELEASEHOOK hook) { _ss(v)->_releasehook = hook; } SQRELEASEHOOK sq_getsharedreleasehook(HSQUIRRELVM v) { return _ss(v)->_releasehook; } void sq_push(HSQUIRRELVM v,SQInteger idx) { v->Push(stack_get(v, idx)); } SQObjectType sq_gettype(HSQUIRRELVM v,SQInteger idx) { return type(stack_get(v, idx)); } SQRESULT sq_typeof(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr &o = stack_get(v, idx); SQObjectPtr res; if(!v->TypeOf(o,res)) { return SQ_ERROR; } v->Push(res); return SQ_OK; } SQRESULT sq_tostring(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr &o = stack_get(v, idx); SQObjectPtr res; if(!v->ToString(o,res)) { return SQ_ERROR; } v->Push(res); return SQ_OK; } void sq_tobool(HSQUIRRELVM v, SQInteger idx, SQBool *b) { SQObjectPtr &o = stack_get(v, idx); *b = SQVM::IsFalse(o)?SQFalse:SQTrue; } SQRESULT sq_getinteger(HSQUIRRELVM v,SQInteger idx,SQInteger *i) { SQObjectPtr &o = stack_get(v, idx); if(sq_isnumeric(o)) { *i = tointeger(o); return SQ_OK; } return SQ_ERROR; } SQRESULT sq_getfloat(HSQUIRRELVM v,SQInteger idx,SQFloat *f) { SQObjectPtr &o = stack_get(v, idx); if(sq_isnumeric(o)) { *f = tofloat(o); return SQ_OK; } return SQ_ERROR; } SQRESULT sq_getbool(HSQUIRRELVM v,SQInteger idx,SQBool *b) { SQObjectPtr &o = stack_get(v, idx); if(sq_isbool(o)) { *b = _integer(o); return SQ_OK; } return SQ_ERROR; } SQRESULT sq_getstring(HSQUIRRELVM v,SQInteger idx,const SQChar **c) { SQObjectPtr *o = NULL; _GETSAFE_OBJ(v, idx, OT_STRING,o); *c = _stringval(*o); return SQ_OK; } SQRESULT sq_getthread(HSQUIRRELVM v,SQInteger idx,HSQUIRRELVM *thread) { SQObjectPtr *o = NULL; _GETSAFE_OBJ(v, idx, OT_THREAD,o); *thread = _thread(*o); return SQ_OK; } SQRESULT sq_clone(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr &o = stack_get(v,idx); v->PushNull(); if(!v->Clone(o, stack_get(v, -1))){ v->Pop(); return SQ_ERROR; } return SQ_OK; } SQInteger sq_getsize(HSQUIRRELVM v, SQInteger idx) { SQObjectPtr &o = stack_get(v, idx); SQObjectType type = type(o); switch(type) { case OT_STRING: return _string(o)->_len; case OT_TABLE: return _table(o)->CountUsed(); case OT_ARRAY: return _array(o)->Size(); case OT_USERDATA: return _userdata(o)->_size; case OT_INSTANCE: return _instance(o)->_class->_udsize; case OT_CLASS: return _class(o)->_udsize; default: return sq_aux_invalidtype(v, type); } } SQHash sq_gethash(HSQUIRRELVM v, SQInteger idx) { SQObjectPtr &o = stack_get(v, idx); return HashObj(o); } SQRESULT sq_getuserdata(HSQUIRRELVM v,SQInteger idx,SQUserPointer *p,SQUserPointer *typetag) { SQObjectPtr *o = NULL; _GETSAFE_OBJ(v, idx, OT_USERDATA,o); (*p) = _userdataval(*o); if(typetag) *typetag = _userdata(*o)->_typetag; return SQ_OK; } SQRESULT sq_settypetag(HSQUIRRELVM v,SQInteger idx,SQUserPointer typetag) { SQObjectPtr &o = stack_get(v,idx); switch(type(o)) { case OT_USERDATA: _userdata(o)->_typetag = typetag; break; case OT_CLASS: _class(o)->_typetag = typetag; break; default: return sq_throwerror(v,_SC("invalid object type")); } return SQ_OK; } SQRESULT sq_getobjtypetag(const HSQOBJECT *o,SQUserPointer * typetag) { switch(type(*o)) { case OT_INSTANCE: *typetag = _instance(*o)->_class->_typetag; break; case OT_USERDATA: *typetag = _userdata(*o)->_typetag; break; case OT_CLASS: *typetag = _class(*o)->_typetag; break; default: return SQ_ERROR; } return SQ_OK; } SQRESULT sq_gettypetag(HSQUIRRELVM v,SQInteger idx,SQUserPointer *typetag) { SQObjectPtr &o = stack_get(v,idx); if(SQ_FAILED(sq_getobjtypetag(&o,typetag))) return sq_throwerror(v,_SC("invalid object type")); return SQ_OK; } SQRESULT sq_getuserpointer(HSQUIRRELVM v, SQInteger idx, SQUserPointer *p) { SQObjectPtr *o = NULL; _GETSAFE_OBJ(v, idx, OT_USERPOINTER,o); (*p) = _userpointer(*o); return SQ_OK; } SQRESULT sq_setinstanceup(HSQUIRRELVM v, SQInteger idx, SQUserPointer p) { SQObjectPtr &o = stack_get(v,idx); if(type(o) != OT_INSTANCE) return sq_throwerror(v,_SC("the object is not a class instance")); _instance(o)->_userpointer = p; return SQ_OK; } SQRESULT sq_setclassudsize(HSQUIRRELVM v, SQInteger idx, SQInteger udsize) { SQObjectPtr &o = stack_get(v,idx); if(type(o) != OT_CLASS) return sq_throwerror(v,_SC("the object is not a class")); if(_class(o)->_locked) return sq_throwerror(v,_SC("the class is locked")); _class(o)->_udsize = udsize; return SQ_OK; } SQRESULT sq_getinstanceup(HSQUIRRELVM v, SQInteger idx, SQUserPointer *p,SQUserPointer typetag) { SQObjectPtr &o = stack_get(v,idx); if(type(o) != OT_INSTANCE) return sq_throwerror(v,_SC("the object is not a class instance")); (*p) = _instance(o)->_userpointer; if(typetag != 0) { SQClass *cl = _instance(o)->_class; do{ if(cl->_typetag == typetag) return SQ_OK; cl = cl->_base; }while(cl != NULL); return sq_throwerror(v,_SC("invalid type tag")); } return SQ_OK; } SQInteger sq_gettop(HSQUIRRELVM v) { return (v->_top) - v->_stackbase; } void sq_settop(HSQUIRRELVM v, SQInteger newtop) { SQInteger top = sq_gettop(v); if(top > newtop) sq_pop(v, top - newtop); else while(top++ < newtop) sq_pushnull(v); } void sq_pop(HSQUIRRELVM v, SQInteger nelemstopop) { assert(v->_top >= nelemstopop); v->Pop(nelemstopop); } void sq_poptop(HSQUIRRELVM v) { assert(v->_top >= 1); v->Pop(); } void sq_remove(HSQUIRRELVM v, SQInteger idx) { v->Remove(idx); } SQInteger sq_cmp(HSQUIRRELVM v) { SQInteger res; v->ObjCmp(stack_get(v, -1), stack_get(v, -2),res); return res; } SQRESULT sq_newslot(HSQUIRRELVM v, SQInteger idx, SQBool bstatic) { sq_aux_paramscheck(v, 3); SQObjectPtr &self = stack_get(v, idx); if(type(self) == OT_TABLE || type(self) == OT_CLASS) { SQObjectPtr &key = v->GetUp(-2); if(type(key) == OT_NULL) return sq_throwerror(v, _SC("null is not a valid key")); v->NewSlot(self, key, v->GetUp(-1),bstatic?true:false); v->Pop(2); } return SQ_OK; } SQRESULT sq_deleteslot(HSQUIRRELVM v,SQInteger idx,SQBool pushval) { sq_aux_paramscheck(v, 2); SQObjectPtr *self; _GETSAFE_OBJ(v, idx, OT_TABLE,self); SQObjectPtr &key = v->GetUp(-1); if(type(key) == OT_NULL) return sq_throwerror(v, _SC("null is not a valid key")); SQObjectPtr res; if(!v->DeleteSlot(*self, key, res)){ v->Pop(); return SQ_ERROR; } if(pushval) v->GetUp(-1) = res; else v->Pop(); return SQ_OK; } SQRESULT sq_set(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr &self = stack_get(v, idx); if(v->Set(self, v->GetUp(-2), v->GetUp(-1),DONT_FALL_BACK)) { v->Pop(2); return SQ_OK; } return SQ_ERROR; } SQRESULT sq_rawset(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr &self = stack_get(v, idx); if(type(v->GetUp(-2)) == OT_NULL) { v->Pop(2); return sq_throwerror(v, _SC("null key")); } switch(type(self)) { case OT_TABLE: _table(self)->NewSlot(v->GetUp(-2), v->GetUp(-1)); v->Pop(2); return SQ_OK; break; case OT_CLASS: _class(self)->NewSlot(_ss(v), v->GetUp(-2), v->GetUp(-1),false); v->Pop(2); return SQ_OK; break; case OT_INSTANCE: if(_instance(self)->Set(v->GetUp(-2), v->GetUp(-1))) { v->Pop(2); return SQ_OK; } break; case OT_ARRAY: if(v->Set(self, v->GetUp(-2), v->GetUp(-1),false)) { v->Pop(2); return SQ_OK; } break; default: v->Pop(2); return sq_throwerror(v, _SC("rawset works only on array/table/class and instance")); } v->Raise_IdxError(v->GetUp(-2));return SQ_ERROR; } SQRESULT sq_newmember(HSQUIRRELVM v,SQInteger idx,SQBool bstatic) { SQObjectPtr &self = stack_get(v, idx); if(type(self) != OT_CLASS) return sq_throwerror(v, _SC("new member only works with classes")); if(type(v->GetUp(-3)) == OT_NULL) return sq_throwerror(v, _SC("null key")); if(!v->NewSlotA(self,v->GetUp(-3),v->GetUp(-2),v->GetUp(-1),bstatic?true:false,false)) return SQ_ERROR; return SQ_OK; } SQRESULT sq_rawnewmember(HSQUIRRELVM v,SQInteger idx,SQBool bstatic) { SQObjectPtr &self = stack_get(v, idx); if(type(self) != OT_CLASS) return sq_throwerror(v, _SC("new member only works with classes")); if(type(v->GetUp(-3)) == OT_NULL) return sq_throwerror(v, _SC("null key")); if(!v->NewSlotA(self,v->GetUp(-3),v->GetUp(-2),v->GetUp(-1),bstatic?true:false,true)) return SQ_ERROR; return SQ_OK; } SQRESULT sq_setdelegate(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr &self = stack_get(v, idx); SQObjectPtr &mt = v->GetUp(-1); SQObjectType type = type(self); switch(type) { case OT_TABLE: if(type(mt) == OT_TABLE) { if(!_table(self)->SetDelegate(_table(mt))) return sq_throwerror(v, _SC("delagate cycle")); v->Pop();} else if(type(mt)==OT_NULL) { _table(self)->SetDelegate(NULL); v->Pop(); } else return sq_aux_invalidtype(v,type); break; case OT_USERDATA: if(type(mt)==OT_TABLE) { _userdata(self)->SetDelegate(_table(mt)); v->Pop(); } else if(type(mt)==OT_NULL) { _userdata(self)->SetDelegate(NULL); v->Pop(); } else return sq_aux_invalidtype(v, type); break; default: return sq_aux_invalidtype(v, type); break; } return SQ_OK; } SQRESULT sq_rawdeleteslot(HSQUIRRELVM v,SQInteger idx,SQBool pushval) { sq_aux_paramscheck(v, 2); SQObjectPtr *self; _GETSAFE_OBJ(v, idx, OT_TABLE,self); SQObjectPtr &key = v->GetUp(-1); SQObjectPtr t; if(_table(*self)->Get(key,t)) { _table(*self)->Remove(key); } if(pushval != 0) v->GetUp(-1) = t; else v->Pop(); return SQ_OK; } SQRESULT sq_getdelegate(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr &self=stack_get(v,idx); switch(type(self)){ case OT_TABLE: case OT_USERDATA: if(!_delegable(self)->_delegate){ v->PushNull(); break; } v->Push(SQObjectPtr(_delegable(self)->_delegate)); break; default: return sq_throwerror(v,_SC("wrong type")); break; } return SQ_OK; } SQRESULT sq_get(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr &self=stack_get(v,idx); if(v->Get(self,v->GetUp(-1),v->GetUp(-1),false,DONT_FALL_BACK)) return SQ_OK; v->Pop(); return SQ_ERROR; } SQRESULT sq_rawget(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr &self=stack_get(v,idx); switch(type(self)) { case OT_TABLE: if(_table(self)->Get(v->GetUp(-1),v->GetUp(-1))) return SQ_OK; break; case OT_CLASS: if(_class(self)->Get(v->GetUp(-1),v->GetUp(-1))) return SQ_OK; break; case OT_INSTANCE: if(_instance(self)->Get(v->GetUp(-1),v->GetUp(-1))) return SQ_OK; break; case OT_ARRAY:{ SQObjectPtr& key = v->GetUp(-1); if(sq_isnumeric(key)){ if(_array(self)->Get(tointeger(key),v->GetUp(-1))) { return SQ_OK; } } else { v->Pop(); return sq_throwerror(v,_SC("invalid index type for an array")); } } break; default: v->Pop(); return sq_throwerror(v,_SC("rawget works only on array/table/instance and class")); } v->Pop(); return sq_throwerror(v,_SC("the index doesn't exist")); } SQRESULT sq_getstackobj(HSQUIRRELVM v,SQInteger idx,HSQOBJECT *po) { *po=stack_get(v,idx); return SQ_OK; } const SQChar *sq_getlocal(HSQUIRRELVM v,SQUnsignedInteger level,SQUnsignedInteger idx) { SQUnsignedInteger cstksize=v->_callsstacksize; SQUnsignedInteger lvl=(cstksize-level)-1; SQInteger stackbase=v->_stackbase; if(lvl_callsstack[(cstksize-i)-1]; stackbase-=ci._prevstkbase; } SQVM::CallInfo &ci=v->_callsstack[lvl]; if(type(ci._closure)!=OT_CLOSURE) return NULL; SQClosure *c=_closure(ci._closure); SQFunctionProto *func=c->_function; if(func->_noutervalues > (SQInteger)idx) { v->Push(*_outer(c->_outervalues[idx])->_valptr); return _stringval(func->_outervalues[idx]._name); } idx -= func->_noutervalues; return func->GetLocal(v,stackbase,idx,(SQInteger)(ci._ip-func->_instructions)-1); } return NULL; } void sq_pushobject(HSQUIRRELVM v,HSQOBJECT obj) { v->Push(SQObjectPtr(obj)); } void sq_resetobject(HSQOBJECT *po) { po->_unVal.pUserPointer=NULL;po->_type=OT_NULL; } SQRESULT sq_throwerror(HSQUIRRELVM v,const SQChar *err) { v->_lasterror=SQString::Create(_ss(v),err); return SQ_ERROR; } SQRESULT sq_throwobject(HSQUIRRELVM v) { v->_lasterror = v->GetUp(-1); v->Pop(); return SQ_ERROR; } void sq_reseterror(HSQUIRRELVM v) { v->_lasterror.Null(); } void sq_getlasterror(HSQUIRRELVM v) { v->Push(v->_lasterror); } SQRESULT sq_reservestack(HSQUIRRELVM v,SQInteger nsize) { if (((SQUnsignedInteger)v->_top + nsize) > v->_stack.size()) { if(v->_nmetamethodscall) { return sq_throwerror(v,_SC("cannot resize stack while in a metamethod")); } v->_stack.resize(v->_stack.size() + ((v->_top + nsize) - v->_stack.size())); } return SQ_OK; } SQRESULT sq_resume(HSQUIRRELVM v,SQBool retval,SQBool raiseerror) { if(type(v->GetUp(-1))==OT_GENERATOR){ v->PushNull(); //retval if(!v->Execute(v->GetUp(-2),0,v->_top,v->GetUp(-1),raiseerror,SQVM::ET_RESUME_GENERATOR)) {v->Raise_Error(v->_lasterror); return SQ_ERROR;} if(!retval) v->Pop(); return SQ_OK; } return sq_throwerror(v,_SC("only generators can be resumed")); } SQRESULT sq_call(HSQUIRRELVM v,SQInteger params,SQBool retval,SQBool raiseerror) { SQObjectPtr res; if(v->Call(v->GetUp(-(params+1)),params,v->_top-params,res,raiseerror?true:false)){ if(!v->_suspended) { v->Pop(params);//pop closure and args } if(retval){ v->Push(res); return SQ_OK; } return SQ_OK; } else { v->Pop(params); return SQ_ERROR; } if(!v->_suspended) v->Pop(params); return sq_throwerror(v,_SC("call failed")); } SQRESULT sq_suspendvm(HSQUIRRELVM v) { return v->Suspend(); } SQRESULT sq_wakeupvm(HSQUIRRELVM v,SQBool wakeupret,SQBool retval,SQBool raiseerror,SQBool throwerror) { SQObjectPtr ret; if(!v->_suspended) return sq_throwerror(v,_SC("cannot resume a vm that is not running any code")); SQInteger target = v->_suspended_target; if(wakeupret) { if(target != -1) { v->GetAt(v->_stackbase+v->_suspended_target)=v->GetUp(-1); //retval } v->Pop(); } else if(target != -1) { v->GetAt(v->_stackbase+v->_suspended_target).Null(); } SQObjectPtr dummy; if(!v->Execute(dummy,-1,-1,ret,raiseerror,throwerror?SQVM::ET_RESUME_THROW_VM : SQVM::ET_RESUME_VM)) { return SQ_ERROR; } if(retval) v->Push(ret); return SQ_OK; } void sq_setreleasehook(HSQUIRRELVM v,SQInteger idx,SQRELEASEHOOK hook) { if(sq_gettop(v) >= 1){ SQObjectPtr &ud=stack_get(v,idx); switch( type(ud) ) { case OT_USERDATA: _userdata(ud)->_hook = hook; break; case OT_INSTANCE: _instance(ud)->_hook = hook; break; case OT_CLASS: _class(ud)->_hook = hook; break; default: break; //shutup compiler } } } void sq_setcompilererrorhandler(HSQUIRRELVM v,SQCOMPILERERROR f) { _ss(v)->_compilererrorhandler = f; } SQRESULT sq_writeclosure(HSQUIRRELVM v,SQWRITEFUNC w,SQUserPointer up) { SQObjectPtr *o = NULL; _GETSAFE_OBJ(v, -1, OT_CLOSURE,o); unsigned short tag = SQ_BYTECODE_STREAM_TAG; if(_closure(*o)->_function->_noutervalues) return sq_throwerror(v,_SC("a closure with free valiables bound it cannot be serialized")); if(w(up,&tag,2) != 2) return sq_throwerror(v,_SC("io error")); if(!_closure(*o)->Save(v,up,w)) return SQ_ERROR; return SQ_OK; } SQRESULT sq_readclosure(HSQUIRRELVM v,SQREADFUNC r,SQUserPointer up) { SQObjectPtr closure; unsigned short tag; if(r(up,&tag,2) != 2) return sq_throwerror(v,_SC("io error")); if(tag != SQ_BYTECODE_STREAM_TAG) return sq_throwerror(v,_SC("invalid stream")); if(!SQClosure::Load(v,up,r,closure)) return SQ_ERROR; v->Push(closure); return SQ_OK; } SQChar *sq_getscratchpad(HSQUIRRELVM v,SQInteger minsize) { return _ss(v)->GetScratchPad(minsize); } SQRESULT sq_resurrectunreachable(HSQUIRRELVM v) { #ifndef NO_GARBAGE_COLLECTOR _ss(v)->ResurrectUnreachable(v); return SQ_OK; #else return sq_throwerror(v,_SC("sq_resurrectunreachable requires a garbage collector build")); #endif } SQInteger sq_collectgarbage(HSQUIRRELVM v) { #ifndef NO_GARBAGE_COLLECTOR return _ss(v)->CollectGarbage(v); #else return -1; #endif } SQRESULT sq_getcallee(HSQUIRRELVM v) { if(v->_callsstacksize > 1) { v->Push(v->_callsstack[v->_callsstacksize - 2]._closure); return SQ_OK; } return sq_throwerror(v,_SC("no closure in the calls stack")); } const SQChar *sq_getfreevariable(HSQUIRRELVM v,SQInteger idx,SQUnsignedInteger nval) { SQObjectPtr &self=stack_get(v,idx); const SQChar *name = NULL; switch(type(self)) { case OT_CLOSURE:{ SQClosure *clo = _closure(self); SQFunctionProto *fp = clo->_function; if(((SQUnsignedInteger)fp->_noutervalues) > nval) { v->Push(*(_outer(clo->_outervalues[nval])->_valptr)); SQOuterVar &ov = fp->_outervalues[nval]; name = _stringval(ov._name); } } break; case OT_NATIVECLOSURE:{ SQNativeClosure *clo = _nativeclosure(self); if(clo->_noutervalues > nval) { v->Push(clo->_outervalues[nval]); name = _SC("@NATIVE"); } } break; default: break; //shutup compiler } return name; } SQRESULT sq_setfreevariable(HSQUIRRELVM v,SQInteger idx,SQUnsignedInteger nval) { SQObjectPtr &self=stack_get(v,idx); switch(type(self)) { case OT_CLOSURE:{ SQFunctionProto *fp = _closure(self)->_function; if(((SQUnsignedInteger)fp->_noutervalues) > nval){ *(_outer(_closure(self)->_outervalues[nval])->_valptr) = stack_get(v,-1); } else return sq_throwerror(v,_SC("invalid free var index")); } break; case OT_NATIVECLOSURE: if(_nativeclosure(self)->_noutervalues > nval){ _nativeclosure(self)->_outervalues[nval] = stack_get(v,-1); } else return sq_throwerror(v,_SC("invalid free var index")); break; default: return sq_aux_invalidtype(v,type(self)); } v->Pop(); return SQ_OK; } SQRESULT sq_setattributes(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr *o = NULL; _GETSAFE_OBJ(v, idx, OT_CLASS,o); SQObjectPtr &key = stack_get(v,-2); SQObjectPtr &val = stack_get(v,-1); SQObjectPtr attrs; if(type(key) == OT_NULL) { attrs = _class(*o)->_attributes; _class(*o)->_attributes = val; v->Pop(2); v->Push(attrs); return SQ_OK; }else if(_class(*o)->GetAttributes(key,attrs)) { _class(*o)->SetAttributes(key,val); v->Pop(2); v->Push(attrs); return SQ_OK; } return sq_throwerror(v,_SC("wrong index")); } SQRESULT sq_getattributes(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr *o = NULL; _GETSAFE_OBJ(v, idx, OT_CLASS,o); SQObjectPtr &key = stack_get(v,-1); SQObjectPtr attrs; if(type(key) == OT_NULL) { attrs = _class(*o)->_attributes; v->Pop(); v->Push(attrs); return SQ_OK; } else if(_class(*o)->GetAttributes(key,attrs)) { v->Pop(); v->Push(attrs); return SQ_OK; } return sq_throwerror(v,_SC("wrong index")); } SQRESULT sq_getmemberhandle(HSQUIRRELVM v,SQInteger idx,HSQMEMBERHANDLE *handle) { SQObjectPtr *o = NULL; _GETSAFE_OBJ(v, idx, OT_CLASS,o); SQObjectPtr &key = stack_get(v,-1); SQTable *m = _class(*o)->_members; SQObjectPtr val; if(m->Get(key,val)) { handle->_static = _isfield(val) ? SQFalse : SQTrue; handle->_index = _member_idx(val); v->Pop(); return SQ_OK; } return sq_throwerror(v,_SC("wrong index")); } SQRESULT _getmemberbyhandle(HSQUIRRELVM v,SQObjectPtr &self,const HSQMEMBERHANDLE *handle,SQObjectPtr *&val) { switch(type(self)) { case OT_INSTANCE: { SQInstance *i = _instance(self); if(handle->_static) { SQClass *c = i->_class; val = &c->_methods[handle->_index].val; } else { val = &i->_values[handle->_index]; } } break; case OT_CLASS: { SQClass *c = _class(self); if(handle->_static) { val = &c->_methods[handle->_index].val; } else { val = &c->_defaultvalues[handle->_index].val; } } break; default: return sq_throwerror(v,_SC("wrong type(expected class or instance)")); } return SQ_OK; } SQRESULT sq_getbyhandle(HSQUIRRELVM v,SQInteger idx,const HSQMEMBERHANDLE *handle) { SQObjectPtr &self = stack_get(v,idx); SQObjectPtr *val = NULL; if(SQ_FAILED(_getmemberbyhandle(v,self,handle,val))) { return SQ_ERROR; } v->Push(_realval(*val)); return SQ_OK; } SQRESULT sq_setbyhandle(HSQUIRRELVM v,SQInteger idx,const HSQMEMBERHANDLE *handle) { SQObjectPtr &self = stack_get(v,idx); SQObjectPtr &newval = stack_get(v,-1); SQObjectPtr *val = NULL; if(SQ_FAILED(_getmemberbyhandle(v,self,handle,val))) { return SQ_ERROR; } *val = newval; v->Pop(); return SQ_OK; } SQRESULT sq_getbase(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr *o = NULL; _GETSAFE_OBJ(v, idx, OT_CLASS,o); if(_class(*o)->_base) v->Push(SQObjectPtr(_class(*o)->_base)); else v->PushNull(); return SQ_OK; } SQRESULT sq_getclass(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr *o = NULL; _GETSAFE_OBJ(v, idx, OT_INSTANCE,o); v->Push(SQObjectPtr(_instance(*o)->_class)); return SQ_OK; } SQRESULT sq_createinstance(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr *o = NULL; _GETSAFE_OBJ(v, idx, OT_CLASS,o); v->Push(_class(*o)->CreateInstance()); return SQ_OK; } void sq_weakref(HSQUIRRELVM v,SQInteger idx) { SQObject &o=stack_get(v,idx); if(ISREFCOUNTED(type(o))) { v->Push(_refcounted(o)->GetWeakRef(type(o))); return; } v->Push(o); } SQRESULT sq_getweakrefval(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr &o = stack_get(v,idx); if(type(o) != OT_WEAKREF) { return sq_throwerror(v,_SC("the object must be a weakref")); } v->Push(_weakref(o)->_obj); return SQ_OK; } SQRESULT sq_getdefaultdelegate(HSQUIRRELVM v,SQObjectType t) { SQSharedState *ss = _ss(v); switch(t) { case OT_TABLE: v->Push(ss->_table_default_delegate); break; case OT_ARRAY: v->Push(ss->_array_default_delegate); break; case OT_STRING: v->Push(ss->_string_default_delegate); break; case OT_INTEGER: case OT_FLOAT: v->Push(ss->_number_default_delegate); break; case OT_GENERATOR: v->Push(ss->_generator_default_delegate); break; case OT_CLOSURE: case OT_NATIVECLOSURE: v->Push(ss->_closure_default_delegate); break; case OT_THREAD: v->Push(ss->_thread_default_delegate); break; case OT_CLASS: v->Push(ss->_class_default_delegate); break; case OT_INSTANCE: v->Push(ss->_instance_default_delegate); break; case OT_WEAKREF: v->Push(ss->_weakref_default_delegate); break; default: return sq_throwerror(v,_SC("the type doesn't have a default delegate")); } return SQ_OK; } SQRESULT sq_next(HSQUIRRELVM v,SQInteger idx) { SQObjectPtr o=stack_get(v,idx),&refpos = stack_get(v,-1),realkey,val; if(type(o) == OT_GENERATOR) { return sq_throwerror(v,_SC("cannot iterate a generator")); } int faketojump; if(!v->FOREACH_OP(o,realkey,val,refpos,0,666,faketojump)) return SQ_ERROR; if(faketojump != 666) { v->Push(realkey); v->Push(val); return SQ_OK; } return SQ_ERROR; } struct BufState{ const SQChar *buf; SQInteger ptr; SQInteger size; }; SQInteger buf_lexfeed(SQUserPointer file) { BufState *buf=(BufState*)file; if(buf->size<(buf->ptr+1)) return 0; return buf->buf[buf->ptr++]; } SQRESULT sq_compilebuffer(HSQUIRRELVM v,const SQChar *s,SQInteger size,const SQChar *sourcename,SQBool raiseerror) { BufState buf; buf.buf = s; buf.size = size; buf.ptr = 0; return sq_compile(v, buf_lexfeed, &buf, sourcename, raiseerror); } void sq_move(HSQUIRRELVM dest,HSQUIRRELVM src,SQInteger idx) { dest->Push(stack_get(src,idx)); } void sq_setprintfunc(HSQUIRRELVM v, SQPRINTFUNCTION printfunc,SQPRINTFUNCTION errfunc) { _ss(v)->_printfunc = printfunc; _ss(v)->_errorfunc = errfunc; } SQPRINTFUNCTION sq_getprintfunc(HSQUIRRELVM v) { return _ss(v)->_printfunc; } SQPRINTFUNCTION sq_geterrorfunc(HSQUIRRELVM v) { return _ss(v)->_errorfunc; } void *sq_malloc(SQUnsignedInteger size) { return SQ_MALLOC(size); } void *sq_realloc(void* p,SQUnsignedInteger oldsize,SQUnsignedInteger newsize) { return SQ_REALLOC(p,oldsize,newsize); } void sq_free(void *p,SQUnsignedInteger size) { SQ_FREE(p,size); }