/* see copyright notice in squirrel.h */ #include "sqpcheader.h" #include "sqvm.h" #include "sqstring.h" #include "sqarray.h" #include "sqtable.h" #include "squserdata.h" #include "sqfuncproto.h" #include "sqclass.h" #include "sqclosure.h" const SQChar *IdType2Name(SQObjectType type) { switch(_RAW_TYPE(type)) { case _RT_NULL:return _SC("null"); case _RT_INTEGER:return _SC("integer"); case _RT_FLOAT:return _SC("float"); case _RT_BOOL:return _SC("bool"); case _RT_STRING:return _SC("string"); case _RT_TABLE:return _SC("table"); case _RT_ARRAY:return _SC("array"); case _RT_GENERATOR:return _SC("generator"); case _RT_CLOSURE: case _RT_NATIVECLOSURE: return _SC("function"); case _RT_USERDATA: case _RT_USERPOINTER: return _SC("userdata"); case _RT_THREAD: return _SC("thread"); case _RT_FUNCPROTO: return _SC("function"); case _RT_CLASS: return _SC("class"); case _RT_INSTANCE: return _SC("instance"); case _RT_WEAKREF: return _SC("weakref"); case _RT_OUTER: return _SC("outer"); default: return NULL; } } const SQChar *GetTypeName(const SQObjectPtr &obj1) { return IdType2Name(type(obj1)); } SQString *SQString::Create(SQSharedState *ss,const SQChar *s,SQInteger len) { SQString *str=ADD_STRING(ss,s,len); return str; } void SQString::Release() { REMOVE_STRING(_sharedstate,this); } SQInteger SQString::Next(const SQObjectPtr &refpos, SQObjectPtr &outkey, SQObjectPtr &outval) { SQInteger idx = (SQInteger)TranslateIndex(refpos); while(idx < _len){ outkey = (SQInteger)idx; outval = (SQInteger)((SQUnsignedInteger)_val[idx]); //return idx for the next iteration return ++idx; } //nothing to iterate anymore return -1; } SQUnsignedInteger TranslateIndex(const SQObjectPtr &idx) { switch(type(idx)){ case OT_NULL: return 0; case OT_INTEGER: return (SQUnsignedInteger)_integer(idx); default: assert(0); break; } return 0; } SQWeakRef *SQRefCounted::GetWeakRef(SQObjectType type) { if(!_weakref) { sq_new(_weakref,SQWeakRef); _weakref->_obj._type = type; _weakref->_obj._unVal.pRefCounted = this; } return _weakref; } SQRefCounted::~SQRefCounted() { if(_weakref) { _weakref->_obj._type = OT_NULL; _weakref->_obj._unVal.pRefCounted = NULL; } } void SQWeakRef::Release() { if(ISREFCOUNTED(_obj._type)) { _obj._unVal.pRefCounted->_weakref = NULL; } sq_delete(this,SQWeakRef); } bool SQDelegable::GetMetaMethod(SQVM *v,SQMetaMethod mm,SQObjectPtr &res) { if(_delegate) { return _delegate->Get((*_ss(v)->_metamethods)[mm],res); } return false; } bool SQDelegable::SetDelegate(SQTable *mt) { SQTable *temp = mt; if(temp == this) return false; while (temp) { if (temp->_delegate == this) return false; //cycle detected temp = temp->_delegate; } if (mt) __ObjAddRef(mt); __ObjRelease(_delegate); _delegate = mt; return true; } bool SQGenerator::Yield(SQVM *v,SQInteger target) { if(_state==eSuspended) { v->Raise_Error(_SC("internal vm error, yielding dead generator")); return false;} if(_state==eDead) { v->Raise_Error(_SC("internal vm error, yielding a dead generator")); return false; } SQInteger size = v->_top-v->_stackbase; _stack.resize(size); SQObject _this = v->_stack[v->_stackbase]; _stack._vals[0] = ISREFCOUNTED(type(_this)) ? SQObjectPtr(_refcounted(_this)->GetWeakRef(type(_this))) : _this; for(SQInteger n =1; n_stack[v->_stackbase+n]; } for(SQInteger j =0; j < size; j++) { v->_stack[v->_stackbase+j].Null(); } _ci = *v->ci; _ci._generator=NULL; for(SQInteger i=0;i<_ci._etraps;i++) { _etraps.push_back(v->_etraps.top()); v->_etraps.pop_back(); } _state=eSuspended; return true; } bool SQGenerator::Resume(SQVM *v,SQObjectPtr &dest) { if(_state==eDead){ v->Raise_Error(_SC("resuming dead generator")); return false; } if(_state==eRunning){ v->Raise_Error(_SC("resuming active generator")); return false; } SQInteger size = _stack.size(); SQInteger target = &dest - &(v->_stack._vals[v->_stackbase]); assert(target>=0 && target<=255); if(!v->EnterFrame(v->_top, v->_top + size, false)) return false; v->ci->_generator = this; v->ci->_target = (SQInt32)target; v->ci->_closure = _ci._closure; v->ci->_ip = _ci._ip; v->ci->_literals = _ci._literals; v->ci->_ncalls = _ci._ncalls; v->ci->_etraps = _ci._etraps; v->ci->_root = _ci._root; for(SQInteger i=0;i<_ci._etraps;i++) { v->_etraps.push_back(_etraps.top()); _etraps.pop_back(); } SQObject _this = _stack._vals[0]; v->_stack[v->_stackbase] = type(_this) == OT_WEAKREF ? _weakref(_this)->_obj : _this; for(SQInteger n = 1; n_stack[v->_stackbase+n] = _stack._vals[n]; _stack._vals[n].Null(); } _state=eRunning; if (v->_debughook) v->CallDebugHook(_SC('c')); return true; } void SQArray::Extend(const SQArray *a){ SQInteger xlen; if((xlen=a->Size())) for(SQInteger i=0;i_values[i]); } const SQChar* SQFunctionProto::GetLocal(SQVM *vm,SQUnsignedInteger stackbase,SQUnsignedInteger nseq,SQUnsignedInteger nop) { SQUnsignedInteger nvars=_nlocalvarinfos; const SQChar *res=NULL; if(nvars>=nseq){ for(SQUnsignedInteger i=0;i=nop) { if(nseq==0){ vm->Push(vm->_stack[stackbase+_localvarinfos[i]._pos]); res=_stringval(_localvarinfos[i]._name); break; } nseq--; } } } return res; } SQInteger SQFunctionProto::GetLine(SQInstruction *curr) { SQInteger op = (SQInteger)(curr-_instructions); SQInteger low = 0; SQInteger high = _nlineinfos - 1; SQInteger mid = 0; while(low <= high) { mid = low + ((high - low) >> 1); SQInteger curop = _lineinfos[mid]._op; if(curop > op) { high = mid - 1; } else if(curop < op) { if(mid < (_nlineinfos - 1) && _lineinfos[mid + 1]._op >= op) { break; } low = mid + 1; } else { //equal break; } } while(_lineinfos[mid]._op >= op && mid >= 0) mid--; return _lineinfos[mid]._line; } SQClosure::~SQClosure() { __ObjRelease(_env); __ObjRelease(_base); REMOVE_FROM_CHAIN(&_ss(this)->_gc_chain,this); } #define _CHECK_IO(exp) { if(!exp)return false; } bool SafeWrite(HSQUIRRELVM v,SQWRITEFUNC write,SQUserPointer up,SQUserPointer dest,SQInteger size) { if(write(up,dest,size) != size) { v->Raise_Error(_SC("io error (write function failure)")); return false; } return true; } bool SafeWriteFmt(HSQUIRRELVM v,SQWRITEFUNC write,SQUserPointer up, const SQChar *fmt, ...) { if(fmt){ SQChar str[8192]; va_list vl; va_start(vl, fmt); SQInteger len = scvsnprintf(str, sizeof(str), fmt, vl); va_end(vl); return SafeWrite(v, write, up, str, len); } return false; } bool SafeRead(HSQUIRRELVM v,SQWRITEFUNC read,SQUserPointer up,SQUserPointer dest,SQInteger size) { if(size && read(up,dest,size) != size) { v->Raise_Error(_SC("io error, read function failure, the origin stream could be corrupted/trucated")); return false; } return true; } bool WriteTag(HSQUIRRELVM v,SQWRITEFUNC write,SQUserPointer up,SQUnsignedInteger32 tag) { return SafeWrite(v,write,up,&tag,sizeof(tag)); } bool CheckTag(HSQUIRRELVM v,SQWRITEFUNC read,SQUserPointer up,SQUnsignedInteger32 tag) { SQUnsignedInteger32 t; _CHECK_IO(SafeRead(v,read,up,&t,sizeof(t))); if(t != tag){ v->Raise_Error(_SC("invalid or corrupted closure stream")); return false; } return true; } bool WriteObjectAsCode(HSQUIRRELVM v,SQUserPointer up,SQWRITEFUNC write,SQObjectPtr &o, bool withQuotes=true) { SQChar buf[32]; SQInteger sz; switch(type(o)){ case OT_STRING:{ SQInteger str_size = _string(o)->_len; if(str_size){ const SQChar *str = _stringval(o); bool needQuote = false; for(int i=0; i < str_size; ++i){ if(str[i] == '"' || str[i] == '\n'){ needQuote = true; break; } } if(!needQuote) withQuotes = true; const SQChar *d1 = withQuotes ? _SC("\"") : _SC("[==["); const SQChar *d2 = withQuotes ? _SC("\"") : _SC("]==]"); _CHECK_IO(SafeWrite(v,write,up, (void*)d1, scstrlen(d1))); _CHECK_IO(SafeWrite(v,write,up, (void*)str,rsl(_string(o)->_len))); _CHECK_IO(SafeWrite(v,write,up, (void*)d2, scstrlen(d2))); } else { const SQChar *str = _SC("null"); _CHECK_IO(SafeWrite(v,write,up, (void*)str, scstrlen(str))); } } break; case OT_INTEGER: sz = scsnprintf(buf, sizeof(buf), "%d", _integer(o)); _CHECK_IO(SafeWrite(v,write,up,buf,sz));break; case OT_FLOAT: sz = scsnprintf(buf, sizeof(buf), "%f", _float(o)); _CHECK_IO(SafeWrite(v,write,up,buf,sz));break; case OT_NULL:{ const SQChar str[] = _SC("null"); _CHECK_IO(SafeWrite(v,write,up, (void*)str, scstrlen(str))); } break; default: v->Raise_Error(_SC("cannot serialize a %s"),GetTypeName(o)); return false; } return true; } bool WriteObject(HSQUIRRELVM v,SQUserPointer up,SQWRITEFUNC write,SQObjectPtr &o) { SQUnsignedInteger32 _type = (SQUnsignedInteger32)type(o); _CHECK_IO(SafeWrite(v,write,up,&_type,sizeof(_type))); switch(type(o)){ case OT_STRING: _CHECK_IO(SafeWrite(v,write,up,&_string(o)->_len,sizeof(SQInteger))); _CHECK_IO(SafeWrite(v,write,up,_stringval(o),rsl(_string(o)->_len))); break; case OT_INTEGER: _CHECK_IO(SafeWrite(v,write,up,&_integer(o),sizeof(SQInteger)));break; case OT_FLOAT: _CHECK_IO(SafeWrite(v,write,up,&_float(o),sizeof(SQFloat)));break; case OT_NULL: break; default: v->Raise_Error(_SC("cannot serialize a %s"),GetTypeName(o)); return false; } return true; } bool ReadObject(HSQUIRRELVM v,SQUserPointer up,SQREADFUNC read,SQObjectPtr &o) { SQUnsignedInteger32 _type; _CHECK_IO(SafeRead(v,read,up,&_type,sizeof(_type))); SQObjectType t = (SQObjectType)_type; switch(t){ case OT_STRING:{ SQInteger len; _CHECK_IO(SafeRead(v,read,up,&len,sizeof(SQInteger))); _CHECK_IO(SafeRead(v,read,up,_ss(v)->GetScratchPad(rsl(len)),rsl(len))); o=SQString::Create(_ss(v),_ss(v)->GetScratchPad(-1),len); } break; case OT_INTEGER:{ SQInteger i; _CHECK_IO(SafeRead(v,read,up,&i,sizeof(SQInteger))); o = i; break; } case OT_FLOAT:{ SQFloat f; _CHECK_IO(SafeRead(v,read,up,&f,sizeof(SQFloat))); o = f; break; } case OT_NULL: o.Null(); break; default: v->Raise_Error(_SC("cannot serialize a %s"),IdType2Name(t)); return false; } return true; } bool SQClosure::Save(SQVM *v,SQUserPointer up,SQWRITEFUNC write) { _CHECK_IO(WriteTag(v,write,up,SQ_CLOSURESTREAM_HEAD)); _CHECK_IO(WriteTag(v,write,up,sizeof(SQChar))); _CHECK_IO(WriteTag(v,write,up,sizeof(SQInteger))); _CHECK_IO(WriteTag(v,write,up,sizeof(SQFloat))); _CHECK_IO(_function->Save(v,up,write)); _CHECK_IO(WriteTag(v,write,up,SQ_CLOSURESTREAM_TAIL)); return true; } bool SQClosure::SaveAsSource(SQVM *v,SQUserPointer up,SQWRITEFUNC write) { _CHECK_IO(_function->SaveAsSource(v,up,write)); return true; } bool SQClosure::Load(SQVM *v,SQUserPointer up,SQREADFUNC read,SQObjectPtr &ret) { _CHECK_IO(CheckTag(v,read,up,SQ_CLOSURESTREAM_HEAD)); _CHECK_IO(CheckTag(v,read,up,sizeof(SQChar))); _CHECK_IO(CheckTag(v,read,up,sizeof(SQInteger))); _CHECK_IO(CheckTag(v,read,up,sizeof(SQFloat))); SQObjectPtr func; _CHECK_IO(SQFunctionProto::Load(v,up,read,func)); _CHECK_IO(CheckTag(v,read,up,SQ_CLOSURESTREAM_TAIL)); ret = SQClosure::Create(_ss(v),_funcproto(func)); return true; } SQFunctionProto::SQFunctionProto(SQSharedState *ss) { _stacksize=0; _bgenerator=false; INIT_CHAIN();ADD_TO_CHAIN(&_ss(this)->_gc_chain,this); } SQFunctionProto::~SQFunctionProto() { REMOVE_FROM_CHAIN(&_ss(this)->_gc_chain,this); } bool SQFunctionProto::Save(SQVM *v,SQUserPointer up,SQWRITEFUNC write) { SQInteger i,nliterals = _nliterals,nparameters = _nparameters; SQInteger noutervalues = _noutervalues,nlocalvarinfos = _nlocalvarinfos; SQInteger nlineinfos=_nlineinfos,ninstructions = _ninstructions,nfunctions=_nfunctions; SQInteger ndefaultparams = _ndefaultparams; _CHECK_IO(WriteTag(v,write,up,SQ_CLOSURESTREAM_PART)); _CHECK_IO(WriteObject(v,up,write,_sourcename)); _CHECK_IO(WriteObject(v,up,write,_name)); _CHECK_IO(WriteTag(v,write,up,SQ_CLOSURESTREAM_PART)); _CHECK_IO(SafeWrite(v,write,up,&nliterals,sizeof(nliterals))); _CHECK_IO(SafeWrite(v,write,up,&nparameters,sizeof(nparameters))); _CHECK_IO(SafeWrite(v,write,up,&noutervalues,sizeof(noutervalues))); _CHECK_IO(SafeWrite(v,write,up,&nlocalvarinfos,sizeof(nlocalvarinfos))); _CHECK_IO(SafeWrite(v,write,up,&nlineinfos,sizeof(nlineinfos))); _CHECK_IO(SafeWrite(v,write,up,&ndefaultparams,sizeof(ndefaultparams))); _CHECK_IO(SafeWrite(v,write,up,&ninstructions,sizeof(ninstructions))); _CHECK_IO(SafeWrite(v,write,up,&nfunctions,sizeof(nfunctions))); _CHECK_IO(WriteTag(v,write,up,SQ_CLOSURESTREAM_PART)); for(i=0;iSave(v,up,write)); } _CHECK_IO(SafeWrite(v,write,up,&_stacksize,sizeof(_stacksize))); _CHECK_IO(SafeWrite(v,write,up,&_bgenerator,sizeof(_bgenerator))); _CHECK_IO(SafeWrite(v,write,up,&_varparams,sizeof(_varparams))); return true; } static const SQChar *get_array_append_type(int it){ #define SCASE(x) case x: return _SC(#x); break; switch(it){ SCASE(AAT_STACK) SCASE(AAT_LITERAL) SCASE(AAT_INT) SCASE(AAT_FLOAT) SCASE(AAT_BOOL) default: return _SC("?"); } #undef SCASE } static const SQChar *get_new_object_type(int it){ #define SCASE(x) case x: return _SC(#x); break; switch(it){ SCASE(NOT_TABLE) SCASE(NOT_ARRAY) SCASE(NOT_CLASS) default: return _SC("?"); } #undef SCASE } static const SQChar *get_arith_op(int it){ #define SCASE(x, z) case x: return _SC(#z); break; switch(it){ SCASE(_OP_ADD, +) SCASE(_OP_SUB, -) SCASE(_OP_MUL, *) SCASE(_OP_DIV, /) SCASE(_OP_MOD, %) default: return _SC("?"); } #undef SCASE } bool SQFunctionProto::SaveAsSource(SQVM *v,SQUserPointer up,SQWRITEFUNC write) { SQInteger i,nliterals = _nliterals,nparameters = _nparameters; SQInteger noutervalues = _noutervalues,nlocalvarinfos = _nlocalvarinfos; SQInteger nlineinfos=_nlineinfos,ninstructions = _ninstructions,nfunctions=_nfunctions; SQInteger ndefaultparams = _ndefaultparams; SafeWriteFmt(v,write,up,"{\n"); SafeWriteFmt(v,write,up,"\tsource_name = "); _CHECK_IO(WriteObjectAsCode(v,up,write,_sourcename)); SafeWriteFmt(v,write,up,",\n\tfunction_name = "); _CHECK_IO(WriteObjectAsCode(v,up,write,_name)); SafeWriteFmt(v,write,up,"\n"); SafeWriteFmt(v,write,up,"\tliterals = [\n"); for(i=0;i= 0xFFFFFFFF) SafeWriteFmt(v,write,up,"\t\t/* stk[%d] <- null */", inst._arg0); else { SafeWriteFmt(v,write,up,"\t\t/* stk[%d] <- literals[%d] */", inst._arg0, lidx); } if(inst.op == _OP_DLOAD) { lidx = inst._arg3; if(lidx >= 0xFFFFFFFF) SafeWriteFmt(v,write,up," /* stk[%d] <- null */", inst._arg2); else { SafeWriteFmt(v,write,up," /* stk[%d] <- literals[%d] */", inst._arg2, lidx); } } } break; case _OP_GET: SafeWriteFmt(v,write,up,"\t/* stk_at_arg0[%d] = stk_at_arg1[%d].get(stk_at_arg2(%d)) */", inst._arg0, inst._arg1, inst._arg2); break; case _OP_PREPCALLK: case _OP_PREPCALL: SafeWriteFmt(v,write,up,"\t/* closure_at_stk[%d], stk[%d].get(%s[%d]) -> stk[%d] */", inst._arg0, inst._arg2, inst.op == _OP_PREPCALLK ? "literals" : "stk", inst._arg1, inst._arg3); break; case _OP_LOADFLOAT: SafeWriteFmt(v,write,up,"\t/* %f */", *((SQFloat*)&inst._arg1)); break; case _OP_GETOUTER: SafeWriteFmt(v,write,up,"\t/* stk[%d] <- outervalues[%d] == (%s) */", inst._arg0, inst._arg1, _stringval(_outervalues[inst._arg1]._name)); break; case _OP_CALL: SafeWriteFmt(v,write,up,"\t\t/* target[%d], closure_at_stk[%d], stackbase(%d), nargs(%d) */", inst._arg0, inst._arg1, inst._arg2, inst._arg3); break; case _OP_MOVE: SafeWriteFmt(v,write,up,"\t\t/* stk[%d] <- stk[%d] */", inst._arg0, inst._arg1); break; case _OP_DMOVE: SafeWriteFmt(v,write,up,"\t/* stk[%d] <- stk[%d], stk[%d] <- stk[%d] */", inst._arg0, inst._arg1, inst._arg2, inst._arg3); break; case _OP_LOADINT: SafeWriteFmt(v,write,up,"\t/* stk[%d] <- arg1(%d) */", inst._arg0, inst._arg1); break; case _OP_EQ: SafeWriteFmt(v,write,up,"\t\t/* stk_at_arg0[%d] = stk_at_arg2[%d] == (arg3(%d) !=0 ? literals_at_arg1[%d] : stk_at_arg1[%d]) */", inst._arg0, inst._arg2, inst._arg3, inst._arg1, inst._arg1); break; case _OP_NOT: SafeWriteFmt(v,write,up,"\t\t/* stk_at_arg0[%d] = IsFalse(stk_at_arg1[%d]) */", inst._arg0, inst._arg1); break; case _OP_JZ: SafeWriteFmt(v,write,up,"\t\t/* IsFalse(STK(%d) (ci->_ip+=(%d) -> goto[%d]) */", inst._arg0, inst._arg1, i + inst._arg1 + 1); break; case _OP_RETURN: SafeWriteFmt(v,write,up,"\t/* _arg0(0x%X) != 0xFF ? stk[%d] : null */", inst._arg0, inst._arg1); break; case _OP_NEWOBJ: SafeWriteFmt(v,write,up,"\t/* stk[%d], len(%d), %s(%d) */", inst._arg0, inst._arg1, get_new_object_type(inst._arg3), inst._arg3); break; case _OP_APPENDARRAY: SafeWriteFmt(v,write,up,"\t/* array_at_stk(%d), %s(%d), type(%d) */", inst._arg0, get_array_append_type(inst._arg2), inst._arg1, inst._arg2); break; case _OP_NEWSLOT: case _OP_NEWSLOTA: SafeWriteFmt(v,write,up,"\t/* flags(%d), table_at_stk(%d), key_at_stk(%d), val_at_stk(%d) */", inst._arg0, inst._arg1, inst._arg2, inst._arg3); break; case _OP_LOADBOOL: SafeWriteFmt(v,write,up,"\t/* stk[%d] <- bool(%d) */", inst._arg0, inst._arg2); break; case _OP_LOADNULLS: SafeWriteFmt(v,write,up,"\t/* stk_at_arg0[%d .. (arg0 + arg1(%d))] = null */", inst._arg0, inst._arg1); break; case _OP_LOADROOT: SafeWriteFmt(v,write,up,"\t/* stk_at_arg0[%d] <- roottable */", inst._arg0); break; case _OP_CLOSURE: SafeWriteFmt(v,write,up,"\t/* stk_at_arg0[%d] <- functions[%d] == (", inst._arg0, inst._arg1); _CHECK_IO(WriteObjectAsCode(v,up,write,_funcproto(_functions[inst._arg1])->_name)); SafeWriteFmt(v,write,up,"), isLanbda(%d) */", inst._arg2); break; case _OP_ADD: case _OP_SUB: case _OP_DIV: case _OP_MUL: case _OP_MOD: SafeWriteFmt(v,write,up,"\t\t/* stk[%d] = stk[%d] %s stk[%d] */", inst._arg0, inst._arg1, get_arith_op(inst.op), inst._arg2); break; //default: } SafeWriteFmt(v,write,up,"\n"); } SafeWriteFmt(v,write,up,"\t],\n"); SafeWriteFmt(v,write,up,"\tfunctions = [\n"); for(i=0;iSaveAsSource(v,up,write)); SafeWriteFmt(v,write,up,",\n"); } SafeWriteFmt(v,write,up,"],\n"); SafeWriteFmt(v,write,up,"\tstacksize = %d,\n", _stacksize); SafeWriteFmt(v,write,up,"\tbgenerator = %d,\n", _bgenerator); SafeWriteFmt(v,write,up,"\tvarparams = %d,\n", _varparams); SafeWriteFmt(v,write,up,"}"); return true; } bool SQFunctionProto::Load(SQVM *v,SQUserPointer up,SQREADFUNC read,SQObjectPtr &ret) { SQInteger i, nliterals,nparameters; SQInteger noutervalues ,nlocalvarinfos ; SQInteger nlineinfos,ninstructions ,nfunctions,ndefaultparams ; SQObjectPtr sourcename, name; SQObjectPtr o; _CHECK_IO(CheckTag(v,read,up,SQ_CLOSURESTREAM_PART)); _CHECK_IO(ReadObject(v, up, read, sourcename)); _CHECK_IO(ReadObject(v, up, read, name)); _CHECK_IO(CheckTag(v,read,up,SQ_CLOSURESTREAM_PART)); _CHECK_IO(SafeRead(v,read,up, &nliterals, sizeof(nliterals))); _CHECK_IO(SafeRead(v,read,up, &nparameters, sizeof(nparameters))); _CHECK_IO(SafeRead(v,read,up, &noutervalues, sizeof(noutervalues))); _CHECK_IO(SafeRead(v,read,up, &nlocalvarinfos, sizeof(nlocalvarinfos))); _CHECK_IO(SafeRead(v,read,up, &nlineinfos, sizeof(nlineinfos))); _CHECK_IO(SafeRead(v,read,up, &ndefaultparams, sizeof(ndefaultparams))); _CHECK_IO(SafeRead(v,read,up, &ninstructions, sizeof(ninstructions))); _CHECK_IO(SafeRead(v,read,up, &nfunctions, sizeof(nfunctions))); SQFunctionProto *f = SQFunctionProto::Create(_opt_ss(v),ninstructions,nliterals,nparameters, nfunctions,noutervalues,nlineinfos,nlocalvarinfos,ndefaultparams); SQObjectPtr proto = f; //gets a ref in case of failure f->_sourcename = sourcename; f->_name = name; _CHECK_IO(CheckTag(v,read,up,SQ_CLOSURESTREAM_PART)); for(i = 0;i < nliterals; i++){ _CHECK_IO(ReadObject(v, up, read, o)); f->_literals[i] = o; } _CHECK_IO(CheckTag(v,read,up,SQ_CLOSURESTREAM_PART)); for(i = 0; i < nparameters; i++){ _CHECK_IO(ReadObject(v, up, read, o)); f->_parameters[i] = o; } _CHECK_IO(CheckTag(v,read,up,SQ_CLOSURESTREAM_PART)); for(i = 0; i < noutervalues; i++){ SQUnsignedInteger type; SQObjectPtr name; _CHECK_IO(SafeRead(v,read,up, &type, sizeof(SQUnsignedInteger))); _CHECK_IO(ReadObject(v, up, read, o)); _CHECK_IO(ReadObject(v, up, read, name)); f->_outervalues[i] = SQOuterVar(name,o, (SQOuterType)type); } _CHECK_IO(CheckTag(v,read,up,SQ_CLOSURESTREAM_PART)); for(i = 0; i < nlocalvarinfos; i++){ SQLocalVarInfo lvi; _CHECK_IO(ReadObject(v, up, read, lvi._name)); _CHECK_IO(SafeRead(v,read,up, &lvi._pos, sizeof(SQUnsignedInteger))); _CHECK_IO(SafeRead(v,read,up, &lvi._start_op, sizeof(SQUnsignedInteger))); _CHECK_IO(SafeRead(v,read,up, &lvi._end_op, sizeof(SQUnsignedInteger))); f->_localvarinfos[i] = lvi; } _CHECK_IO(CheckTag(v,read,up,SQ_CLOSURESTREAM_PART)); _CHECK_IO(SafeRead(v,read,up, f->_lineinfos, sizeof(SQLineInfo)*nlineinfos)); _CHECK_IO(CheckTag(v,read,up,SQ_CLOSURESTREAM_PART)); _CHECK_IO(SafeRead(v,read,up, f->_defaultparams, sizeof(SQInteger)*ndefaultparams)); _CHECK_IO(CheckTag(v,read,up,SQ_CLOSURESTREAM_PART)); _CHECK_IO(SafeRead(v,read,up, f->_instructions, sizeof(SQInstruction)*ninstructions)); _CHECK_IO(CheckTag(v,read,up,SQ_CLOSURESTREAM_PART)); for(i = 0; i < nfunctions; i++){ _CHECK_IO(_funcproto(o)->Load(v, up, read, o)); f->_functions[i] = o; } _CHECK_IO(SafeRead(v,read,up, &f->_stacksize, sizeof(f->_stacksize))); _CHECK_IO(SafeRead(v,read,up, &f->_bgenerator, sizeof(f->_bgenerator))); _CHECK_IO(SafeRead(v,read,up, &f->_varparams, sizeof(f->_varparams))); ret = f; return true; } #ifndef NO_GARBAGE_COLLECTOR #define START_MARK() if(!(_uiRef&MARK_FLAG)){ \ _uiRef|=MARK_FLAG; #define END_MARK() RemoveFromChain(&_sharedstate->_gc_chain, this); \ AddToChain(chain, this); } void SQVM::Mark(SQCollectable **chain) { START_MARK() SQSharedState::MarkObject(_lasterror,chain); SQSharedState::MarkObject(_errorhandler,chain); SQSharedState::MarkObject(_debughook_closure,chain); SQSharedState::MarkObject(_roottable, chain); SQSharedState::MarkObject(temp_reg, chain); for(SQUnsignedInteger i = 0; i < _stack.size(); i++) SQSharedState::MarkObject(_stack[i], chain); for(SQInteger k = 0; k < _callsstacksize; k++) SQSharedState::MarkObject(_callsstack[k]._closure, chain); END_MARK() } void SQArray::Mark(SQCollectable **chain) { START_MARK() SQInteger len = _values.size(); for(SQInteger i = 0;i < len; i++) SQSharedState::MarkObject(_values[i], chain); END_MARK() } void SQTable::Mark(SQCollectable **chain) { START_MARK() if(_delegate) _delegate->Mark(chain); SQInteger len = _numofnodes; for(SQInteger i = 0; i < len; i++){ SQSharedState::MarkObject(_nodes[i].key, chain); SQSharedState::MarkObject(_nodes[i].val, chain); } END_MARK() } void SQClass::Mark(SQCollectable **chain) { START_MARK() _members->Mark(chain); if(_base) _base->Mark(chain); SQSharedState::MarkObject(_attributes, chain); for(SQUnsignedInteger i =0; i< _defaultvalues.size(); i++) { SQSharedState::MarkObject(_defaultvalues[i].val, chain); SQSharedState::MarkObject(_defaultvalues[i].attrs, chain); } for(SQUnsignedInteger j =0; j< _methods.size(); j++) { SQSharedState::MarkObject(_methods[j].val, chain); SQSharedState::MarkObject(_methods[j].attrs, chain); } for(SQUnsignedInteger k =0; k< MT_LAST; k++) { SQSharedState::MarkObject(_metamethods[k], chain); } END_MARK() } void SQInstance::Mark(SQCollectable **chain) { START_MARK() _class->Mark(chain); SQUnsignedInteger nvalues = _class->_defaultvalues.size(); for(SQUnsignedInteger i =0; i< nvalues; i++) { SQSharedState::MarkObject(_values[i], chain); } END_MARK() } void SQGenerator::Mark(SQCollectable **chain) { START_MARK() for(SQUnsignedInteger i = 0; i < _stack.size(); i++) SQSharedState::MarkObject(_stack[i], chain); SQSharedState::MarkObject(_closure, chain); END_MARK() } void SQFunctionProto::Mark(SQCollectable **chain) { START_MARK() for(SQInteger i = 0; i < _nliterals; i++) SQSharedState::MarkObject(_literals[i], chain); for(SQInteger k = 0; k < _nfunctions; k++) SQSharedState::MarkObject(_functions[k], chain); END_MARK() } void SQClosure::Mark(SQCollectable **chain) { START_MARK() if(_base) _base->Mark(chain); SQFunctionProto *fp = _function; fp->Mark(chain); for(SQInteger i = 0; i < fp->_noutervalues; i++) SQSharedState::MarkObject(_outervalues[i], chain); for(SQInteger k = 0; k < fp->_ndefaultparams; k++) SQSharedState::MarkObject(_defaultparams[k], chain); END_MARK() } void SQNativeClosure::Mark(SQCollectable **chain) { START_MARK() for(SQUnsignedInteger i = 0; i < _noutervalues; i++) SQSharedState::MarkObject(_outervalues[i], chain); END_MARK() } void SQOuter::Mark(SQCollectable **chain) { START_MARK() /* If the valptr points to a closed value, that value is alive */ if(_valptr == &_value) { SQSharedState::MarkObject(_value, chain); } END_MARK() } void SQUserData::Mark(SQCollectable **chain){ START_MARK() if(_delegate) _delegate->Mark(chain); END_MARK() } void SQCollectable::UnMark() { _uiRef&=~MARK_FLAG; } #endif