Merge branch 'master' of https://git.shs.tools/SHS/pip

pip_cmg fix macros name
tests
2021-10-08 15:16:19 +03:00 · 2021-10-08 15:16:08 +03:00 · 2021-10-05 20:31:00 +03:00 · 2021-10-04 22:14:38 +03:00 · 2021-10-04 22:14:15 +03:00 · 2021-10-04 21:57:34 +03:00
50 changed files with 1682 additions and 1036 deletions
--- a/CMakeLists.txt
+++ b/CMakeLists.txt
@@ -2,8 +2,8 @@ cmake_minimum_required(VERSION 3.0)
 cmake_policy(SET CMP0017 NEW) # need include() with .cmake
 project(pip)
 set(pip_MAJOR    2)
-set(pip_MINOR    28)
+set(pip_MINOR    32)
-set(pip_REVISION 1)
+set(pip_REVISION 0)
 set(pip_SUFFIX   )
 set(pip_COMPANY  SHS)
 set(pip_DOMAIN   org.SHS)
@@ -284,7 +284,7 @@ endif()
 if(APPLE)
 	add_definitions(-D_FILE_OFFSET_BITS=64 -D_LARGEFILE64_SOURCE)
 endif()
-if ((NOT DEFINED LIBPROJECT) AND (DEFINED ANDROID_PLATFORM))
+if ((NOT DEFINED SHSTKPROJECT) AND (DEFINED ANDROID_PLATFORM))
 	include_directories(${ANDROID_SYSTEM_LIBRARY_PATH}/usr/include)
 	#message("${ANDROID_SYSTEM_LIBRARY_PATH}/usr/include")
 	#message("${ANDROID_NDK}/sysroot/usr/include")
@@ -567,8 +567,8 @@ if ((NOT PIP_FREERTOS) AND (NOT CROSSTOOLS))
 			list(APPEND DOXY_INPUT "\"${F}\"")
 		endforeach(F)
 		string(REPLACE ";" " " DOXY_INPUT "\"${CMAKE_CURRENT_SOURCE_DIR}/libs\"")
-		string(REPLACE ";" " " DOXY_INCLUDE_PATH "${DOXY_INPUT}")
+		string(REPLACE ";" " " DOXY_INCLUDE_PATH "${PIP_INCLUDES}")
-		string(REPLACE ";" " " DOXY_DEFINES "${PIP_EXPORTS};DOXYGEN;PIOBJECT;PIOBJECT_SUBCLASS")
+		string(REPLACE ";" " " DOXY_DEFINES "${PIP_EXPORTS}")
 		add_documentation(doc doc/Doxyfile.in)
 		install(DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}/doc/html DESTINATION ../share/doc/pip COMPONENT doc EXCLUDE_FROM_ALL OPTIONAL)
 	endif()
--- a/doc/Doxyfile.in
+++ b/doc/Doxyfile.in
@@ -2164,7 +2164,7 @@ INCLUDE_FILE_PATTERNS  =
 # recursively expanded use the := operator instead of the = operator.
 # This tag requires that the tag ENABLE_PREPROCESSING is set to YES.
-PREDEFINED             = ${DOXY_DEFINES}
+PREDEFINED             =  DOXYGEN PIOBJECT PIOBJECT_SUBCLASS PIIODEVICE NO_COPY_CLASS ${DOXY_DEFINES}
 # If the MACRO_EXPANSION and EXPAND_ONLY_PREDEF tags are set to YES then this
--- a/libs/cloud/picloudbase.cpp
+++ b/libs/cloud/picloudbase.cpp
@@ -2,7 +2,7 @@
 PICloudBase::PICloudBase() : eth(PIEthernet::TCP_Client), streampacker(&eth), tcp(&streampacker) {
-
+	eth.setDebug(false);
 }
--- a/libs/cloud/picloudclient.cpp
+++ b/libs/cloud/picloudclient.cpp
@@ -25,29 +25,36 @@ PICloudClient::PICloudClient(const PIString & path, PIIODevice::DeviceMode mode)
 	tcp.setRole(PICloud::TCP::Client);
 	setName("cloud_client");
 	is_connected = false;
-	CONNECTL(&eth, connected, [this](){tcp.sendStart();});
+	is_deleted = false;
 //	setReopenEnabled(false);
 	CONNECTL(&eth, connected, [this](){opened_ = true; tcp.sendStart();});
 	CONNECTU(&streampacker, packetReceiveEvent, this, _readed);
 	CONNECTL(&eth, disconnected, [this](bool){
-		piCoutObj << "disconnected";
+		if (is_deleted) return;
 		bool need_disconn = is_connected;
 		//piCoutObj << "eth disconnected";
 		static_cast<PIThread*>(&eth)->stop();
 		opened_ = false;
-		is_connected = false;
+		internalDisconnect();
-		cond_connect.notifyOne();
+		if (need_disconn)
-		cond_buff.notifyOne();
+			disconnected();
-		piMSleep(100);
+		//piCoutObj << "eth disconnected done";
 	});
 }
 PICloudClient::~PICloudClient() {
-	eth.close();
+	//piCoutObj << "~PICloudClient()";
-	if (is_connected) {
+	PIThread::stop();
-		is_connected = false;
+	//eth.close();
-		disconnected();
+	//if (is_connected) disconnected();
 		cond_buff.notifyOne();
 		cond_connect.notifyOne();
 	}
 	close();
-	stop();
+	//piCoutObj << "~PICloudClient() closed";
 	internalDisconnect();
 //	stop(false);
 	is_deleted = true;
 	internalDisconnect();
 	//piCoutObj << "~PICloudClient() done";
 }
@@ -63,80 +70,100 @@ void PICloudClient::setKeepConnection(bool on) {
 bool PICloudClient::openDevice() {
-//	piCout << "PICloudClient open device" << path();
+	//piCoutObj << "open";// << path();
 	bool op = eth.connect(PIEthernet::Address::resolve(path()), false);
 	if (op) {
-		mutex_buff.lock();
+		mutex_connect.lock();
 		eth.startThreadedRead();
-		bool conn_ok = cond_connect.waitFor(mutex_buff, (int)eth.readTimeout(), [this](){return isConnected();});
+		//piCoutObj << "connecting...";
-		piCoutObj << "conn_ok" << conn_ok;
+		bool conn_ok = cond_connect.waitFor(mutex_connect, (int)eth.readTimeout());
-		mutex_buff.unlock();
+		//piCoutObj << "conn_ok" << conn_ok << is_connected;
 		mutex_connect.unlock();
 		if (!conn_ok) {
 			mutex_connect.lock();
 			eth.stop();
 			eth.close();
-			piMSleep(100);
+			mutex_connect.unlock();
 		}
-		return isConnected();
+		return is_connected;
 	} else {
-		eth.close();
+		//eth.close();
 		return false;
 	}
 }
 bool PICloudClient::closeDevice() {
 	//PIThread::stop();
 	if (is_connected) {
-		is_connected = false;
+		internalDisconnect();
 		disconnected();
 		cond_buff.notifyOne();
 		cond_connect.notifyOne();
 	}
 	eth.stop();
-	if (eth.isOpened()) eth.close();
+	eth.close();
 	return true;
 }
 int PICloudClient::readDevice(void * read_to, int max_size) {
-//	piCoutObj << "readDevice";
+	if (is_deleted) return -1;
-	if (!is_connected) return -1;
+	//piCoutObj << "readDevice";
 	if (!is_connected && eth.isClosed()) openDevice();
 	int sz = -1;
 	mutex_buff.lock();
-	cond_buff.wait(mutex_buff, [this](){return !buff.isEmpty();});
+	cond_buff.wait(mutex_buff, [this](){return !buff.isEmpty() || !is_connected;});
-	int sz = piMini(max_size, buff.size());
+	if (is_connected) {
-	memcpy(read_to, buff.data(), sz);
+		sz = piMini(max_size, buff.size());
-	buff.remove(0, sz);
+		memcpy(read_to, buff.data(), sz);
 		buff.remove(0, sz);
 	}
 	mutex_buff.unlock();
 	if (!is_connected) opened_ = false;
 	//piCoutObj << "readDevice done" << sz;
 	return sz;
 }
 int PICloudClient::writeDevice(const void * data, int size) {
 	if (is_deleted) return -1;
 //	piCoutObj << "writeDevice";
 	return tcp.sendData(PIByteArray(data, size));
 }
 void PICloudClient::internalDisconnect() {
 	is_connected = false;
 	cond_buff.notifyOne();
 	cond_connect.notifyOne();
 	streampacker.clear();
 	buff.clear();
 }
 void PICloudClient::_readed(PIByteArray & ba) {
-	mutex_buff.lock();
+	if (is_deleted) return;
 	PIPair<PICloud::TCP::Type, PICloud::TCP::Role> hdr = tcp.parseHeader(ba);
 	//piCoutObj << "_readed" << ba.size() << hdr.first << hdr.second;
 	if (hdr.second == tcp.role()) {
 		switch (hdr.first) {
 		case PICloud::TCP::Connect:
 			if (tcp.parseConnect(ba) == 1) {
 				mutex_connect.lock();
 				is_connected = true;
-				connected();
+				mutex_connect.unlock();
 				cond_connect.notifyOne();
 				connected();
 			}
 		break;
 		case PICloud::TCP::Disconnect:
-			is_connected = false;
+			static_cast<PIThread*>(&eth)->stop();
-			eth.stop();
+			opened_ = false;
 			eth.close();
 			disconnected();
 		break;
 		case PICloud::TCP::Data:
 			if (is_connected) {
 				mutex_buff.lock();
 				buff.append(ba);
 				mutex_buff.unlock();
 				cond_buff.notifyOne();
 			}
 		break;
@@ -145,7 +172,7 @@ void PICloudClient::_readed(PIByteArray & ba) {
 		}
 		//piCoutObj << "readed" << ba.toHex();
 	}
-	mutex_buff.unlock();
+	while (buff.size_s() > threadedReadBufferSize()) piMSleep(100); // FIXME: sleep here is bad
-	while (buff.size_s() > threadedReadBufferSize()) piMSleep(100);
+	//piCoutObj << "_readed done";
 }
--- a/libs/cloud/picloudserver.cpp
+++ b/libs/cloud/picloudserver.cpp
@@ -26,12 +26,17 @@ PICloudServer::PICloudServer(const PIString & path, PIIODevice::DeviceMode mode)
 	tcp.setServerName(server_name);
 	setName("cloud_server__" + server_name);
 	CONNECTU(&streampacker, packetReceiveEvent, this, _readed);
-	CONNECTL(&eth, connected, [this](){tcp.sendStart();});
+	CONNECTL(&eth, connected, [this](){opened_ = true; piCoutObj << "connected"; tcp.sendStart();});
 	CONNECTL(&eth, disconnected, [this](bool){
 		piCoutObj << "disconnected";
 		static_cast<PIThread*>(&eth)->stop();
 		opened_ = false;
 		ping_timer.stop(false);
 		piMSleep(100);
 	});
 	CONNECTL(&ping_timer, tickEvent, [this] (void *, int){
 		if (eth.isConnected()) tcp.sendPing();
 	});
 }
@@ -54,12 +59,14 @@ PIVector<PICloudServer::Client *> PICloudServer::clients() const {
 bool PICloudServer::openDevice() {
-	piCout << "PICloudServer open device" << path();
+	//piCout << "PICloudServer open device" << path();
 	bool op = eth.connect(PIEthernet::Address::resolve(path()), false);
 	if (op) {
 		eth.startThreadedRead();
 		ping_timer.start(5000);
 		return true;
 	}
 	ping_timer.stop(false);
 	eth.close();
 	return false;
 }
@@ -67,6 +74,7 @@ bool PICloudServer::openDevice() {
 bool PICloudServer::closeDevice() {
 	eth.stop();
 	ping_timer.stop(false);
 	clients_mutex.lock();
 	for (auto c : clients_) {
 		c->close();
@@ -82,7 +90,8 @@ bool PICloudServer::closeDevice() {
 int PICloudServer::readDevice(void * read_to, int max_size) {
 	//piCoutObj << "readDevice";
-	piMSleep(eth.readTimeout());
+	if (!opened_) openDevice();
 	else piMSleep(eth.readTimeout());
 	return -1;
 }
@@ -126,22 +135,26 @@ bool PICloudServer::Client::openDevice() {
 bool PICloudServer::Client::closeDevice() {
 	PIThread::stop(false);
 	if (is_connected) {
 		server->clientDisconnect(client_id);
 		is_connected = false;
 		cond_buff.notifyOne();
 	}
 	cond_buff.notifyOne();
 	return true;
 }
 int PICloudServer::Client::readDevice(void * read_to, int max_size) {
 	if (!is_connected) return -1;
 	int sz = -1;
 	mutex_buff.lock();
-	cond_buff.wait(mutex_buff, [this](){return !buff.isEmpty();});
+	cond_buff.wait(mutex_buff, [this](){return !buff.isEmpty() || !is_connected;});
-	int sz = piMini(max_size, buff.size());
+	if (is_connected) {
-	memcpy(read_to, buff.data(), sz);
+		sz = piMini(max_size, buff.size());
-	buff.remove(0, sz);
+		memcpy(read_to, buff.data(), sz);
 		buff.remove(0, sz);
 	}
 	mutex_buff.unlock();
 	return sz;
 }
@@ -158,7 +171,7 @@ void PICloudServer::Client::pushBuffer(const PIByteArray & ba) {
 	buff.append(ba);
 	cond_buff.notifyOne();
 	mutex_buff.unlock();
-	while (buff.size_s() > threadedReadBufferSize()) piMSleep(100);
+	while (buff.size_s() > threadedReadBufferSize()) piMSleep(100); // FIXME: sleep here is bad
 }
@@ -174,7 +187,7 @@ void PICloudServer::_readed(PIByteArray & ba) {
 			if (oc) {
 				tcp.sendDisconnected(id);
 			} else {
-				piCoutObj << "new Client" << id;
+				//piCoutObj << "new Client" << id;
 				Client * c = new Client(this, id);
 				CONNECTU(c, deleted, this, clientDeleted);
 				clients_mutex.lock();
@@ -186,7 +199,7 @@ void PICloudServer::_readed(PIByteArray & ba) {
 			} break;
 		case PICloud::TCP::Disconnect: {
 			uint id = tcp.parseDisconnect(ba);
-			piCoutObj << "remove Client" << id;
+			//piCoutObj << "remove Client" << id;
 			clients_mutex.lock();
 			Client * oc = index_clients.value(id, nullptr);
 			clients_mutex.unlock();
--- a/libs/cloud/picloudtcp.cpp
+++ b/libs/cloud/picloudtcp.cpp
@@ -24,7 +24,7 @@
 #include "pistreampacker.h"
-const char hash_def_key[] = "_picrypt_";
+const char hash_cloud_key[] = "_picloud_";
 PICloud::TCP::Header::Header() {
@@ -33,7 +33,7 @@ PICloud::TCP::Header::Header() {
 PICloud::TCP::TCP(PIStreamPacker * s) : streampacker(s) {
-
+	streampacker->setMaxPacketSize(63*1024);
 }
 void PICloud::TCP::setRole(PICloud::TCP::Role r) {
@@ -43,7 +43,7 @@ void PICloud::TCP::setRole(PICloud::TCP::Role r) {
 void PICloud::TCP::setServerName(const PIString & server_name_) {
 	server_name = server_name_;
-	suuid = PICrypt::hash(server_name_);
+	suuid = PICrypt::hash(PIByteArray(server_name_.data(), server_name_.size()), (const unsigned char *)hash_cloud_key, sizeof(hash_cloud_key));
 }
@@ -62,7 +62,9 @@ void PICloud::TCP::sendStart() {
 	PIByteArray ba;
 	ba << header;
 	ba.append(suuid);
 	//mutex_send.lock();
 	streampacker->send(ba);
 	//mutex_send.unlock();
 }
@@ -70,7 +72,9 @@ void PICloud::TCP::sendConnected(uint client_id) {
 	header.type = PICloud::TCP::Connect;
 	PIByteArray ba;
 	ba << header << client_id;
 //	mutex_send.lock();
 	streampacker->send(ba);
 //	mutex_send.unlock();
 }
@@ -78,7 +82,9 @@ void PICloud::TCP::sendDisconnected(uint client_id) {
 	header.type = PICloud::TCP::Disconnect;
 	PIByteArray ba;
 	ba << header << client_id;
 //	mutex_send.lock();
 	streampacker->send(ba);
 //	mutex_send.unlock();
 }
@@ -87,8 +93,10 @@ int PICloud::TCP::sendData(const PIByteArray & data) {
 	PIByteArray ba;
 	ba << header;
 	ba.append(data);
-//	piCout << "sendData" << ba.toHex();
+//	piCout << "[PICloud::TCP] sendData" << ba.toHex();
 	mutex_send.lock();
 	streampacker->send(ba);
 	mutex_send.unlock();
 	return data.size_s();
 }
@@ -98,11 +106,24 @@ int PICloud::TCP::sendData(const PIByteArray & data, uint client_id) {
 	PIByteArray ba;
 	ba << header << client_id;
 	ba.append(data);
 	mutex_send.lock();
 	streampacker->send(ba);
 	mutex_send.unlock();
 	return data.size_s();
 }
 void PICloud::TCP::sendPing() {
 	header.type = PICloud::TCP::Ping;
 	PIByteArray ba;
 	ba << header;
 	ba.append(suuid);
 	mutex_send.lock();
 	streampacker->send(ba);
 	mutex_send.unlock();
 }
 PIPair<PICloud::TCP::Type, PICloud::TCP::Role> PICloud::TCP::parseHeader(PIByteArray & ba) {
 	PIPair<PICloud::TCP::Type, PICloud::TCP::Role> ret;
 	ret.first = InvalidType;
@@ -120,11 +141,8 @@ PIPair<PICloud::TCP::Type, PICloud::TCP::Role> PICloud::TCP::parseHeader(PIByteA
 }
-PIByteArray PICloud::TCP::parseData(PIByteArray & ba) {
+bool PICloud::TCP::canParseData(PIByteArray & ba) {
-	if (header.role == Client) {
+	return header.role == Client;
 		return ba;
 	}
 	return PIByteArray();
 }
@@ -133,7 +151,7 @@ PIPair<uint, PIByteArray> PICloud::TCP::parseDataServer(PIByteArray & ba) {
 	ret.first = 0;
 	if (header.role == Server) {
 		ba >> ret.first;
-		ret.second = ba;
+		ret.second.swap(ba);
 	}
 	return ret;
 }
--- a/libs/crypt/picrypt.cpp
+++ b/libs/crypt/picrypt.cpp
@@ -169,6 +169,19 @@ PIByteArray PICrypt::hash(const PIByteArray & data) {
 }
 PIByteArray PICrypt::hash(const PIByteArray & data, const unsigned char *key, size_t keylen) {
 	PIByteArray hash;
 #ifdef PIP_CRYPT
 	if (!init()) return hash;
 	hash.resize(crypto_generichash_BYTES);
 	crypto_generichash(hash.data(), hash.size(), data.data(), data.size(), key, keylen);
 #else
 	PICRYPT_DISABLED_WARNING
 #endif
 	return hash;
 }
 size_t PICrypt::sizeHash() {
 #ifdef PIP_CRYPT
 	return crypto_generichash_BYTES;
--- a/libs/io_utils/pibroadcast.cpp
+++ b/libs/io_utils/pibroadcast.cpp
@@ -53,8 +53,6 @@ PIBroadcast::PIBroadcast(bool send_only): PIThread(), PIEthUtilBase() {
 	_started = false;
 	_send_only = send_only;
 	_reinit = true;
 	//initMcast(PIEthernet::allAddresses());
 	PIThread::start(3000);
 }
@@ -140,7 +138,6 @@ void PIBroadcast::initAll(PIVector<PIEthernet::Address> al) {
 	piForeachC (PIEthernet::Address & a, al) {
 		PIEthernet * ce = 0;
 		//piCout << "mcast try" << a;
 		if (_channels[Multicast]) {
 			ce = new PIEthernet();
 			ce->setDebug(false);
@@ -184,7 +181,6 @@ void PIBroadcast::initAll(PIVector<PIEthernet::Address> al) {
 				eth_mcast << ce;
 			}
 		}
 	}
 	if (_channels[Loopback]) {
@@ -207,11 +203,14 @@ void PIBroadcast::initAll(PIVector<PIEthernet::Address> al) {
 void PIBroadcast::send(const PIByteArray & data) {
 	if (!isRunning()) {
 		reinit();
 		PIThread::start(3000);
 	}
 	PIByteArray cd = cryptData(data);
 	if (cd.isEmpty()) return;
 	PIMutexLocker ml(mcast_mutex);
-	piForeach (PIEthernet * e, eth_mcast)
+	piForeach (PIEthernet * e, eth_mcast) e->send(cd);
 		e->send(cd);
 	if (eth_lo) {
 		for (int i = 0; i < lo_pcnt; ++i) {
 			eth_lo->send("127.0.0.1", lo_port + i, cd);
@@ -221,30 +220,31 @@ void PIBroadcast::send(const PIByteArray & data) {
 void PIBroadcast::startRead() {
 	if (!isRunning()) {
 		_started = false;
 		reinit();
 		PIThread::start(3000);
 	}
 	if (_send_only) return;
 	PIMutexLocker ml(mcast_mutex);
-	piForeach (PIEthernet * e, eth_mcast)
+	piForeach (PIEthernet * e, eth_mcast) e->startThreadedRead();
-		e->startThreadedRead();
+	if (eth_lo) eth_lo->startThreadedRead();
 	if (eth_lo)
 		eth_lo->startThreadedRead();
 	_started = true;
 }
 void PIBroadcast::stopRead() {
 	if (isRunning()) stop();
 	PIMutexLocker ml(mcast_mutex);
-	piForeach (PIEthernet * e, eth_mcast)
+	piForeach (PIEthernet * e, eth_mcast) e->stopThreadedRead();
-		e->stopThreadedRead();
+	if (eth_lo) eth_lo->stopThreadedRead();
 	if (eth_lo)
 		eth_lo->stopThreadedRead();
 	_started = false;
 }
 void PIBroadcast::reinit() {
 	initAll(PIEthernet::allAddresses());
-	if (_started)
+	if (_started) startRead();
 		startRead();
 }
@@ -261,8 +261,6 @@ void PIBroadcast::run() {
 	mcast_mutex.lock();
 	bool r = _reinit, ac = (al != prev_al);
 	mcast_mutex.unlock();
-	if (ac || r)
+	if (ac || r) reinit();
-		reinit();
+	if (ac) addressesChanged();
 	if (ac)
 		addressesChanged();
 }
--- a/libs/io_utils/pistreampacker.cpp
+++ b/libs/io_utils/pistreampacker.cpp
@@ -68,6 +68,13 @@ void PIStreamPacker::setCryptSizeEnabled(bool on) {
 }
 void PIStreamPacker::clear() {
 	packet.clear();
 	packet_size = -1;
 	stream.clear();
 }
 void PIStreamPacker::send(const PIByteArray & data) {
 	if (data.isEmpty()) return;
 	PIByteArray cd;
@@ -94,31 +101,12 @@ void PIStreamPacker::send(const PIByteArray & data) {
 		hdr << int(cd.size_s());
 	cd.insert(0, hdr);
 	int pcnt = (cd.size_s() - 1) / max_packet_size + 1, pst = 0;
 	if (pcnt > 1) {
 		prog_s_mutex.lock();
 		prog_s.active = true;
 		prog_s.bytes_all = data.size_s();
 		prog_s.bytes_current = 0;
 		prog_s.progress = 0.;
 		prog_s_mutex.unlock();
 	}
 	for (int i = 0; i < pcnt; ++i) {
 		if (i == pcnt - 1) part = PIByteArray(cd.data(pst), cd.size_s() - pst);
 		else part = PIByteArray(cd.data(pst), max_packet_size);
 		//piCout << "send" << part.size();
 		sendRequest(part);
 		pst += max_packet_size;
 		if (pcnt > 1) {
 			prog_s_mutex.lock();
 			prog_s.bytes_current += part.size_s();
 			prog_s.progress = (double)prog_s.bytes_current / prog_s.bytes_all;
 			prog_s_mutex.unlock();
 		}
 	}
 	if (pcnt > 1) {
 		prog_s_mutex.lock();
 		prog_s.active = false;
 		prog_s_mutex.unlock();
 	}
 }
@@ -166,22 +154,10 @@ void PIStreamPacker::received(const PIByteArray & data) {
 			packet_size = sz;
 			if (packet_size == 0)
 				packet_size = -1;
 			else {
 				prog_r_mutex.lock();
 				prog_r.active = true;
 				prog_r.bytes_all = packet_size;
 				prog_r.bytes_current = 0;
 				prog_r.progress = 0.;
 				prog_r_mutex.unlock();
 			}
 			continue;
 		} else {
 			int ps = piMini(stream.size_s(), packet_size - packet.size_s());
 			packet.append(stream.data(), ps);
 			prog_r_mutex.lock();
 			prog_r.bytes_current = packet.size_s();
 			prog_r.progress = (double)prog_r.bytes_current / piMaxi(1, prog_r.bytes_all);
 			prog_r_mutex.unlock();
 			stream.remove(0, ps);
 			if (packet.size_s() == packet_size) {
 				PIByteArray cd;
@@ -211,9 +187,6 @@ void PIStreamPacker::received(const PIByteArray & data) {
 				}
 				packet.clear();
 				packet_size = -1;
 				prog_r_mutex.lock();
 				prog_r.active = false;
 				prog_r_mutex.unlock();
 			}
 		}
 	}
@@ -227,30 +200,3 @@ void PIStreamPacker::assignDevice(PIIODevice * dev) {
 	CONNECTU(dev, threadedReadEvent, this, received);
 	CONNECTU(this, sendRequest, dev, write);
 }
 PIStreamPacker::Progress PIStreamPacker::progressSend() const {
 	PIStreamPacker::Progress ret;
 	prog_s_mutex.lock();
 	ret = prog_s;
 	prog_s_mutex.unlock();
 	return ret;
 }
 PIStreamPacker::Progress PIStreamPacker::progressReceive() const {
 	PIStreamPacker::Progress ret;
 	prog_r_mutex.lock();
 	ret = prog_r;
 	prog_r_mutex.unlock();
 	return ret;
 }
 PIStreamPacker::Progress::Progress() {
 	active = false;
 	bytes_all = bytes_current = 0;
 	progress = 0.;
 }
--- a/libs/main/cloud/picloudclient.h
+++ b/libs/main/cloud/picloudclient.h
@@ -52,12 +52,15 @@ protected:
 private:
 	EVENT_HANDLER1(void, _readed, PIByteArray &, data);
 	void internalDisconnect();
 	PIByteArray buff;
 	PIMutex mutex_buff;
 	PIMutex mutex_connect;
 	PIConditionVariable cond_buff;
 	PIConditionVariable cond_connect;
 	std::atomic_bool is_connected;
 	std::atomic_bool is_deleted;
 };
 #endif // PICLOUDCLIENT_H
--- a/libs/main/cloud/picloudserver.h
+++ b/libs/main/cloud/picloudserver.h
@@ -78,6 +78,7 @@ private:
 	PIVector<Client *> clients_;
 	PIMap<uint, Client *> index_clients;
 	PITimer ping_timer;
 	mutable PIMutex clients_mutex;
 };
--- a/libs/main/cloud/picloudtcp.h
+++ b/libs/main/cloud/picloudtcp.h
@@ -25,6 +25,7 @@
 #include "pip_cloud_export.h"
 #include "pistring.h"
 #include "pimutex.h"
 class PIEthernet;
@@ -52,6 +53,7 @@ public:
 		Connect = 1,
 		Disconnect = 2,
 		Data = 3,
 		Ping = 4,
 	};
 	TCP(PIStreamPacker * s);
@@ -65,8 +67,9 @@ public:
 	void sendDisconnected(uint client_id);
 	int sendData(const PIByteArray & data);
 	int sendData(const PIByteArray & data, uint client_id);
 	void sendPing();
 	PIPair<PICloud::TCP::Type, PICloud::TCP::Role> parseHeader(PIByteArray & ba);
-	PIByteArray parseData(PIByteArray & ba);
+	bool canParseData(PIByteArray & ba);
 	PIPair<uint, PIByteArray> parseDataServer(PIByteArray & ba);
 	PIByteArray parseConnect_d(PIByteArray & ba);
 	uint parseConnect(PIByteArray & ba);
@@ -84,6 +87,8 @@ private:
 	PIByteArray suuid;
 	PIString server_name;
 	PIStreamPacker * streampacker;
 	PIMutex mutex_send;
 };
 }
--- a/libs/main/code/picodeinfo.cpp
+++ b/libs/main/code/picodeinfo.cpp
@@ -37,6 +37,14 @@ int PICodeInfo::EnumInfo::memberValue(const PIString & name_) const {
 }
 PIVariantTypes::Enum PICodeInfo::EnumInfo::toPIVariantEnum() {
 	PIVariantTypes::Enum en(name);
 	for (auto m: members) en << m.toPIVariantEnumerator();
 	if (!en.isEmpty()) en.selectValue(members.front().value);
 	return en;
 }
 PIMap<PIString, PICodeInfo::ClassInfo * > * PICodeInfo::classesInfo;
 PIMap<PIString, PICodeInfo::EnumInfo * > * PICodeInfo::enumsInfo;
 PIMap<PIString, PICodeInfo::AccessValueFunction> * PICodeInfo::accessValueFunctions;
--- a/libs/main/code/picodeinfo.h
+++ b/libs/main/code/picodeinfo.h
@@ -25,6 +25,8 @@
 #define PICODEINFO_H
 #include "pistringlist.h"
 #include "pivarianttypes.h"
 class PIVariant;
@@ -77,6 +79,7 @@ struct PIP_EXPORT ClassInfo {
 struct PIP_EXPORT EnumeratorInfo {
 	EnumeratorInfo(const PIString & n = PIString(), int v = 0) {name = n; value = v;}
 	PIVariantTypes::Enumerator toPIVariantEnumerator() {return PIVariantTypes::Enumerator(value, name);}
 	MetaMap meta;
 	PIString name;
 	int value;
@@ -85,6 +88,7 @@ struct PIP_EXPORT EnumeratorInfo {
 struct PIP_EXPORT EnumInfo {
 	PIString memberName(int value) const;
 	int memberValue(const PIString & name) const;
 	PIVariantTypes::Enum toPIVariantEnum();
 	MetaMap meta;
 	PIString name;
 	PIVector<PICodeInfo::EnumeratorInfo> members;
--- a/libs/main/code/picodeparser.cpp
+++ b/libs/main/code/picodeparser.cpp
@@ -190,10 +190,39 @@ void PICodeParser::clear() {
 	piForeachC (PIString & d, defs)
 		defines << Define(d, "");
 	defines << Define(PIStringAscii("PICODE"), "") << custom_defines;
 	macros << Macro(PIStringAscii("PIOBJECT"), "", PIStringList() << "name")
 		   << Macro(PIStringAscii("PIOBJECT_PARENT"), "", PIStringList() << "parent")
 		   << Macro(PIStringAscii("PIOBJECT_SUBCLASS"), "", PIStringList() << "name" << "parent")
 		   << Macro(PIStringAscii("PIIODEVICE"), "", PIStringList() << "name")
 		   << Macro(PIStringAscii("NO_COPY_CLASS"), "", PIStringList() << "name")
 		   << Macro(PIStringAscii("PRIVATE_DECLARATION"))
 		   << Macro(PIStringAscii("EVENT" ), "void name();", PIStringList() << "name")
 		   << Macro(PIStringAscii("EVENT0"), "void name();", PIStringList() << "name")
 		   << Macro(PIStringAscii("EVENT1"), "void name(a0 n0);", PIStringList() << "name" << "a0" << "n0")
 		   << Macro(PIStringAscii("EVENT2"), "void name(a0 n0, a1 n1);", PIStringList() << "name" << "a0" << "n0" << "a1" << "n1")
 		   << Macro(PIStringAscii("EVENT3"), "void name(a0 n0, a1 n1, a2 n2);", PIStringList() << "name" << "a0" << "n0" << "a1" << "n1" << "a2" << "n2")
 		   << Macro(PIStringAscii("EVENT4"), "void name(a0 n0, a1 n1, a2 n2, a3 n3);", PIStringList() << "name" << "a0" << "n0" << "a1" << "n1" << "a2" << "n2" << "a3" << "n3")
 		   << Macro(PIStringAscii("EVENT_HANDLER" ), "ret name()", PIStringList() << "ret" << "name")
 		   << Macro(PIStringAscii("EVENT_HANDLER0"), "ret name()", PIStringList() << "ret" << "name")
 		   << Macro(PIStringAscii("EVENT_HANDLER1"), "ret name(a0 n0)", PIStringList() << "ret" << "name" << "a0" << "n0")
 		   << Macro(PIStringAscii("EVENT_HANDLER2"), "ret name(a0 n0, a1 n1)", PIStringList() << "ret" << "name" << "a0" << "n0" << "a1" << "n1")
 		   << Macro(PIStringAscii("EVENT_HANDLER3"), "ret name(a0 n0, a1 n1, a2 n2)", PIStringList() << "ret" << "name" << "a0" << "n0" << "a1" << "n1" << "a2" << "n2")
 		   << Macro(PIStringAscii("EVENT_HANDLER4"), "ret name(a0 n0, a1 n1, a2 n2, a3 n3)", PIStringList() << "ret" << "name" << "a0" << "n0" << "a1" << "n1" << "a2" << "n2" << "a3" << "n3")
 		   << Macro(PIStringAscii("EVENT_VHANDLER" ), "virtual ret name()", PIStringList() << "ret" << "name")
 		   << Macro(PIStringAscii("EVENT_VHANDLER0"), "virtual ret name()", PIStringList() << "ret" << "name")
 		   << Macro(PIStringAscii("EVENT_VHANDLER1"), "virtual ret name(a0 n0)", PIStringList() << "ret" << "name" << "a0" << "n0")
 		   << Macro(PIStringAscii("EVENT_VHANDLER2"), "virtual ret name(a0 n0, a1 n1)", PIStringList() << "ret" << "name" << "a0" << "n0" << "a1" << "n1")
 		   << Macro(PIStringAscii("EVENT_VHANDLER3"), "virtual ret name(a0 n0, a1 n1, a2 n2)", PIStringList() << "ret" << "name" << "a0" << "n0" << "a1" << "n1" << "a2" << "n2")
 		   << Macro(PIStringAscii("EVENT_VHANDLER4"), "virtual ret name(a0 n0, a1 n1, a2 n2, a3 n3)", PIStringList() << "ret" << "name" << "a0" << "n0" << "a1" << "n1" << "a2" << "n2" << "a3" << "n3")
 		;
 }
 bool PICodeParser::parseFileContent(PIString & fc, bool main) {
 	static const PIString s_ns        = PIStringAscii("::");
 	static const PIString s_bo        = PIStringAscii("{\n");
 	static const PIString s_bc        = PIStringAscii("\n}\n");
 	static const PIString s_class     = PIStringAscii("class");
@@ -280,7 +309,7 @@ bool PICodeParser::parseFileContent(PIString & fc, bool main) {
 	replaceMeta(pfc);
-	//piCout << NewLine << "file" << cur_file << pfc;
+	//piCout << PICoutManipulators::NewLine << "file" << cur_file << pfc;
 	int pl = -1;
 	while (!pfc.isEmpty()) {
 		pfc.trim();
@@ -288,7 +317,12 @@ bool PICodeParser::parseFileContent(PIString & fc, bool main) {
 		if (pl == nl) break;
 		pl = nl;
 		if (pfc.left(9) == s_namespace) {
-			pfc.cutLeft(pfc.find('{') + 1);
+			pfc.cutLeft(9);
 			PIString prev_namespace = cur_namespace, ccmn;
 			cur_namespace += pfc.takeCWord() + s_ns;
 			ccmn = pfc.takeRange('{', '}');
 			parseClass(0, ccmn);
 			cur_namespace = prev_namespace;
 			continue;
 		}
 		if (pfc.left(8) == s_template) {
@@ -417,7 +451,7 @@ PIString PICodeParser::parseClass(Entity * parent, PIString & fc) {
 	int ps = -1;
 	bool def = false;
 	PIString prev_namespace = cur_namespace, stmp;
-	cur_namespace = ce->name + s_ns;
+	cur_namespace += ce->name + s_ns;
 	//piCout << "parse class" << ce->name << "namespace" << cur_namespace;
 	//piCout << "\nparse class" << ce->name << "namespace" << cur_namespace;
 	while (!fc.isEmpty()) {
@@ -1052,10 +1086,10 @@ PIString PICodeParser::procMacros(PIString fc) {
 bool PICodeParser::parseDirective(PIString d) {
-	static const PIString s_include = PIStringAscii("include");
+	static const PIString s_include  = PIStringAscii("include");
-	static const PIString s_define  = PIStringAscii("define");
+	static const PIString s_define   = PIStringAscii("define");
-	static const PIString s_undef   = PIStringAscii("undef");
+	static const PIString s_undef    = PIStringAscii("undef");
-	static const PIString s_PIMETA  = PIStringAscii("PIMETA");
+	static const PIString s_PIMETA   = PIStringAscii("PIMETA");
 	if (d.isEmpty()) return true;
 	PIString dname = d.takeCWord();
 	//piCout << "parseDirective" << d;
@@ -1074,9 +1108,19 @@ bool PICodeParser::parseDirective(PIString d) {
 		if (mname == s_PIMETA) return true;
 		if (d.left(1) == PIChar('(')) { // macro
 			PIStringList args = d.takeRange('(', ')').split(',').trim();
 			for (int i = 0; i < macros.size_s(); ++i)
 				if (macros[i].name == mname) {
 					macros.remove(i);
 					break;
 				}
 			macros << Macro(mname, d.trim(), args);
 		} else { // define
 			d.trim();
 			for (int i = 0; i < defines.size_s(); ++i)
 				if (defines[i].first == mname) {
 					defines.remove(i);
 					break;
 				}
 			defines << Define(mname, d);
 			evaluator.setVariable(mname, complexd_1);
 		}
--- a/libs/main/console/pikbdlistener.h
+++ b/libs/main/console/pikbdlistener.h
@@ -25,7 +25,7 @@
 #include "pithread.h"
-#define WAIT_FOR_EXIT while (!PIKbdListener::exiting) piMSleep(PIP_MIN_MSLEEP*5);
+#define WAIT_FOR_EXIT while (!PIKbdListener::exiting) piMSleep(PIP_MIN_MSLEEP*5); // TODO: rewrite with condvar
 class PIP_EXPORT PIKbdListener: public PIThread
--- a/libs/main/containers/pideque.h
+++ b/libs/main/containers/pideque.h
@@ -53,7 +53,7 @@ public:
 		PIINTROSPECTION_CONTAINER_NEW(T, sizeof(T))
 		resize(pid_size, f);
 	}
-	inline PIDeque(size_t piv_size, std::function<T(size_t)> f): pid_data(0), pid_size(0), pid_rsize(0), pid_start(0) {
+	inline PIDeque(size_t piv_size, std::function<T(size_t i)> f): pid_data(0), pid_size(0), pid_rsize(0), pid_start(0) {
 		PIINTROSPECTION_CONTAINER_NEW(T, sizeof(T))
 		resize(piv_size, f);
 	}
@@ -174,6 +174,20 @@ public:
 	inline size_t capacity() const {return pid_rsize;}
 	inline size_t _start() const {return pid_start;}
 	inline bool isEmpty() const {return (pid_size == 0);}
 	inline bool isNotEmpty() const {return (pid_size > 0);}
 	inline bool any(std::function<bool(const T & e)> test) const {
 		for (ssize_t i = pid_start; i < pid_start + (ssize_t)pid_size; ++i) {
 			if (test(pid_data[i])) return true;
 		}
 		return false;
 	}
 	inline bool every(std::function<bool(const T & e)> test) const {
 		for (ssize_t i = pid_start; i < pid_start + (ssize_t)pid_size; ++i) {
 			if (!test(pid_data[i])) return false;
 		}
 		return true;
 	}
 	inline T & operator [](size_t index) {return pid_data[pid_start + index];}
 	inline const T & operator [](size_t index) const {return pid_data[pid_start + index];}
@@ -182,48 +196,102 @@ public:
 	inline const T & back() const {return pid_data[pid_start + pid_size - 1];}
 	inline T & front() {return pid_data[pid_start];}
 	inline const T & front() const {return pid_data[pid_start];}
-	inline bool operator ==(const PIDeque<T> & t) const {
+	inline bool operator ==(const PIDeque<T> & v) const {
-		if (pid_size != t.pid_size) return false;
+		if (pid_size != v.pid_size) return false;
-		for (size_t i = 0; i < pid_size; ++i)
+		for (size_t i = 0; i < pid_size; ++i) {
-			if (t[i] != (*this)[i])
+			if (v[i] != (*this)[i]) {
 				return false;
 			}
 		}
 		return true;
 	}
-	inline bool operator !=(const PIDeque<T> & t) const {return !(*this == t);}
+	inline bool operator !=(const PIDeque<T> & v) const {return !(*this == v);}
-	inline bool operator >(const PIDeque<T> & t) const {
+	inline bool operator <(const PIDeque<T> & v) const {
-		if (pid_size != t.pid_size) return pid_size > t.pid_size;
+		if (pid_size != v.pid_size) return pid_size < v.pid_size;
-		for (size_t i = 0; i < pid_size; ++i)
+		for (size_t i = 0; i < pid_size; ++i) {
-			if (t[i] != (*this)[i]) return t[i] > (*this)[i];
+			if ((*this)[i] != v[i]) return (*this)[i] < v[i];
 		}
 		return false;
 	}
-	inline bool contains(const T & v) const {
+	inline bool operator >(const PIDeque<T> & v) const {
-		for (size_t i = pid_start; i < pid_start + pid_size; ++i)
+		if (pid_size != v.pid_size) return pid_size > v.pid_size;
-			if (v == pid_data[i])
+		for (size_t i = 0; i < pid_size; ++i) {
 			if ((*this)[i] != v[i]) return (*this)[i] > v[i];
 		}
 		return false;
 	}
 	inline bool contains(const T & e) const {
 		for (ssize_t i = pid_start; i < pid_start + (ssize_t)pid_size; ++i) {
 			if (e == pid_data[i]) {
 				return true;
 			}
 		}
 		return false;
 	}
-	inline int etries(const T & v) const {
+	inline int etries(const T & e, size_t start = 0) const {
 		int ec = 0;
-		for (size_t i = pid_start; i < pid_start + pid_size; ++i)
+		if (start >= pid_size) return ec;
-			if (v == pid_data[i]) ++ec;
+		for (ssize_t i = pid_start + start; i < pid_start + (ssize_t)pid_size; ++i) {
 			if (e == pid_data[i]) ++ec;
 		}
 		return ec;
 	}
-	inline ssize_t indexOf(const T & v) const {
+	inline int etries(std::function<bool(const T & e)> test, size_t start = 0) const {
-		for (ssize_t i = pid_start; i < pid_start + (ssize_t)pid_size; ++i)
+		int ec = 0;
-			if (v == pid_data[i])
+		if (start >= pid_size) return ec;
 		for (ssize_t i = pid_start + start; i < pid_start + (ssize_t)pid_size; ++i) {
 			if (test(pid_data[i])) ++ec;
 		}
 		return ec;
 	}
 	inline ssize_t indexOf(const T & e, size_t start = 0) const {
 		if (start >= pid_size) return -1;
 		for (ssize_t i = pid_start + start; i < pid_start + (ssize_t)pid_size; ++i) {
 			if (e == pid_data[i]) {
 				return i - pid_start;
 			}
 		}
 		return -1;
 	}
-	inline ssize_t lastIndexOf(const T & v) const {
+	inline ssize_t indexWhere(std::function<bool(const T & e)> test, size_t start = 0) const {
-		for (ssize_t i = pid_start + (ssize_t)pid_size - 1; i >= pid_start; --i)
+		if (start >= pid_size) return -1;
-			if (v == pid_data[i])
+		for (ssize_t i = pid_start + start; i < pid_start + (ssize_t)pid_size; ++i) {
 			if (test(pid_data[i])) {
 				return i - pid_start;
 			}
 		}
 		return -1;
 	}
 	inline ssize_t lastIndexOf(const T & e, ssize_t start = -1) const {
 		if (start < 0) start = pid_size - 1;
 		else start = piMin<ssize_t>(pid_size - 1, start);
 		for (ssize_t i = pid_start + start; i >= pid_start; --i) {
 			if (e == pid_data[i]) {
 				return i - pid_start;
 			}
 		}
 		return -1;
 	}
 	inline ssize_t lastIndexWhere(std::function<bool(const T & e)> test, ssize_t start = -1) const {
 		if (start < 0) start = pid_size - 1;
 		else start = piMin<ssize_t>(pid_size - 1, start);
 		for (ssize_t i = pid_start + start; i >= pid_start; --i) {
 			if (test(pid_data[i])) {
 				return i - pid_start;
 			}
 		}
 		return -1;
 	}
 	inline T * data(size_t index = 0) {return &(pid_data[pid_start + index]);}
 	inline const T * data(size_t index = 0) const {return &(pid_data[pid_start + index]);}
 	PIDeque<T> getRange(size_t index, size_t count) const {
 		if (index >= pid_size || count == 0) return PIDeque<T>();
 		if (index + count > pid_size) count = pid_size - index;
 		return PIDeque(&(pid_data[pid_start + index]), count);
 	}
 	template<typename T1 = T, typename std::enable_if<
 				 !std::is_trivially_copyable<T1>::value
 				 , int>::type = 0>
@@ -244,15 +312,17 @@ public:
 	inline PIDeque<T> & fill(const T & f = T()) {
 		deleteT(pid_data + pid_start, pid_size);
 		PIINTROSPECTION_CONTAINER_USED(T, pid_size)
-		for (size_t i = pid_start; i < pid_start + pid_size; ++i)
+		for (size_t i = pid_start; i < pid_start + pid_size; ++i) {
 			elementNew(pid_data + i, f);
 		}
 		return *this;
 	}
-	inline PIDeque<T> & fill(std::function<T(size_t)> f) {
+	inline PIDeque<T> & fill(std::function<T(size_t i)> f) {
 		deleteT(pid_data + pid_start, pid_size);
 		PIINTROSPECTION_CONTAINER_USED(T, pid_size)
-		for (size_t i = pid_start; i < pid_start + pid_size; ++i)
+		for (size_t i = pid_start; i < pid_start + pid_size; ++i) {
 			elementNew(pid_data + i, f(i));
 		}
 		return *this;
 	}
 	inline PIDeque<T> & assign(const T & f = T()) {return fill(f);}
@@ -275,31 +345,35 @@ public:
 		if (new_size < pid_size) {
 			deleteT(&(pid_data[new_size + pid_start]), pid_size - new_size);
 			pid_size = new_size;
-			if (new_size == 0)
+			if (new_size == 0) {
 				pid_start = (pid_rsize - pid_size) / 2;
 			}
 		}
 		if (new_size > pid_size) {
 			size_t os = pid_size;
 			alloc(new_size, true);
 			PIINTROSPECTION_CONTAINER_USED(T, (new_size-os))
-			for (size_t i = os + pid_start; i < new_size + pid_start; ++i)
+			for (size_t i = os + pid_start; i < new_size + pid_start; ++i) {
 				elementNew(pid_data + i, f);
 			}
 		}
 		return *this;
 	}
-	inline PIDeque<T> & resize(size_t new_size, std::function<T(size_t)> f) {
+	inline PIDeque<T> & resize(size_t new_size, std::function<T(size_t i)> f) {
 		if (new_size < pid_size) {
 			deleteT(&(pid_data[new_size + pid_start]), pid_size - new_size);
 			pid_size = new_size;
-			if (new_size == 0)
+			if (new_size == 0) {
 				pid_start = (pid_rsize - pid_size) / 2;
 			}
 		}
 		if (new_size > pid_size) {
 			size_t os = pid_size;
 			alloc(new_size, true);
 			PIINTROSPECTION_CONTAINER_USED(T, (new_size-os))
-			for (size_t i = os + pid_start; i < new_size + pid_start; ++i)
+			for (size_t i = os + pid_start; i < new_size + pid_start; ++i) {
 				elementNew(pid_data + i, f(i));
 			}
 		}
 		return *this;
 	}
@@ -326,8 +400,8 @@ public:
 		return *this;
 	}
-	inline PIDeque<T> & insert(size_t index, const T & v = T()) {
+	inline PIDeque<T> & insert(size_t index, const T & e = T()) {
-		if (index == pid_size) return push_back(v);
+		if (index == pid_size) return push_back(e);
 		PIINTROSPECTION_CONTAINER_USED(T, 1)
 		bool dir = pid_rsize <= 2 ? true : (index >= pid_rsize / 2 ? true : false);
 		if (dir) {
@@ -338,14 +412,15 @@ public:
 			}
 		} else {
 			alloc(pid_size + 1, false, -1);
-			if (index > 0)
+			if (index > 0) {
 				memmove((void*)(&(pid_data[pid_start])), (const void*)(&(pid_data[pid_start + 1])), index * sizeof(T));
 			}
 		}
-		elementNew(pid_data + pid_start + index, v);
+		elementNew(pid_data + pid_start + index, e);
 		return *this;
 	}
-	inline PIDeque<T> & insert(size_t index, T && v) {
+	inline PIDeque<T> & insert(size_t index, T && e) {
-		if (index == pid_size) return push_back(v);
+		if (index == pid_size) return push_back(e);
 		PIINTROSPECTION_CONTAINER_USED(T, 1)
 		bool dir = pid_rsize <= 2 ? true : (index >= pid_rsize / 2 ? true : false);
 		if (dir) {
@@ -356,10 +431,11 @@ public:
 			}
 		} else {
 			alloc(pid_size + 1, false, -1);
-			if (index > 0)
+			if (index > 0) {
 				memmove((void*)(&(pid_data[pid_start])), (const void*)(&(pid_data[pid_start + 1])), index * sizeof(T));
 			}
 		}
-		elementNew(pid_data + pid_start + index, std::move(v));
+		elementNew(pid_data + pid_start + index, std::move(e));
 		return *this;
 	}
 	inline PIDeque<T> & insert(size_t index, const PIDeque<T> & other) {
@@ -369,12 +445,14 @@ public:
 		if (dir) {
 			ssize_t os = pid_size - index;
 			alloc(pid_size + other.pid_size, true);
-			if (os > 0)
+			if (os > 0) {
 				memmove((void*)(&(pid_data[index + pid_start + other.pid_size])), (const void*)(&(pid_data[index + pid_start])), os * sizeof(T));
 			}
 		} else {
 			alloc(pid_size + other.pid_size, false, -other.pid_size);
-			if (index > 0)
+			if (index > 0) {
 				memmove((void*)(&(pid_data[pid_start])), (const void*)(&(pid_data[pid_start + other.pid_size])), index * sizeof(T));
 			}
 		}
 		newT(pid_data + pid_start + index, other.pid_data + other.pid_start, other.pid_size);
 		return *this;
@@ -389,9 +467,13 @@ public:
 		size_t os = pid_size - index - count;
 		deleteT(&(pid_data[index + pid_start]), count);
 		if (os <= index) {
-			if (os > 0) memmove((void*)(&(pid_data[index + pid_start])), (const void*)(&(pid_data[index + pid_start + count])), os * sizeof(T));
+			if (os > 0) {
 				memmove((void*)(&(pid_data[index + pid_start])), (const void*)(&(pid_data[index + pid_start + count])), os * sizeof(T));
 			}
 		} else {
-			if (index > 0) memmove((void*)(&(pid_data[pid_start + count])), (const void*)(&(pid_data[pid_start])), index * sizeof(T));
+			if (index > 0) {
 				memmove((void*)(&(pid_data[pid_start + count])), (const void*)(&(pid_data[pid_start])), index * sizeof(T));
 			}
 			pid_start += count;
 		}
 		pid_size -= count;
@@ -419,88 +501,114 @@ public:
 		return *this;
 	}
-	inline PIDeque<T> & removeOne(const T & v) {
+	inline PIDeque<T> & removeOne(const T & e) {
-		for (size_t i = 0; i < pid_size; ++i)
+		for (size_t i = 0; i < pid_size; ++i) {
-			if (pid_data[i + pid_start] == v) {
+			if (pid_data[i + pid_start] == e) {
 				remove(i);
 				return *this;
 			}
 		}
 		return *this;
 	}
-	inline PIDeque<T> & removeAll(const T & v) {
+	inline PIDeque<T> & removeAll(const T & e) {
-		for (ssize_t i = 0; i < ssize_t(pid_size); ++i)
+		for (ssize_t i = 0; i < ssize_t(pid_size); ++i) {
-			if (pid_data[i + pid_start] == v) {
+			if (pid_data[i + pid_start] == e) {
 				remove(i);
 				--i;
 			}
 		}
 		return *this;
 	}
 	inline PIDeque<T> & removeWhere(std::function<bool(const T & e)> test) {
 		for (ssize_t i = 0; i < ssize_t(pid_size); ++i) {
 			if (test(pid_data[i + pid_start])) {
 				remove(i);
 				--i;
 			}
 		}
 		return *this;
 	}
-	inline PIDeque<T> & push_back(const T & v) {
+	inline PIDeque<T> & push_back(const T & e) {
 		alloc(pid_size + 1, true);
 		PIINTROSPECTION_CONTAINER_USED(T, 1);
-		elementNew(pid_data + pid_start + pid_size - 1, v);
+		elementNew(pid_data + pid_start + pid_size - 1, e);
 		return *this;
 	}
-	inline PIDeque<T> & push_back(T && v) {
+	inline PIDeque<T> & push_back(T && e) {
 		alloc(pid_size + 1, true);
 		PIINTROSPECTION_CONTAINER_USED(T, 1);
-		elementNew(pid_data + pid_start + pid_size - 1, std::move(v));
+		elementNew(pid_data + pid_start + pid_size - 1, std::move(e));
 		return *this;
 	}
-	inline PIDeque<T> & append(const T & v) {return push_back(v);}
+	inline PIDeque<T> & append(const T & e) {return push_back(e);}
-	inline PIDeque<T> & append(T && v) {return push_back(std::move(v));}
+	inline PIDeque<T> & append(T && e) {return push_back(std::move(e));}
-	inline PIDeque<T> & append(const PIDeque<T> & t) {
+	inline PIDeque<T> & append(const PIDeque<T> & v) {
-		assert(&t != this);
+		assert(&v != this);
 		size_t ps = pid_size;
-		alloc(pid_size + t.pid_size, true);
+		alloc(pid_size + v.pid_size, true);
-		newT(pid_data + ps + pid_start, t.pid_data + t.pid_start, t.pid_size);
+		newT(pid_data + ps + pid_start, v.pid_data + v.pid_start, v.pid_size);
 		return *this;
 	}
-	inline PIDeque<T> & operator <<(const T & v) {return push_back(v);}
+	inline PIDeque<T> & operator <<(const T & e) {return push_back(e);}
-	inline PIDeque<T> & operator <<(T && v) {return push_back(std::move(v));}
+	inline PIDeque<T> & operator <<(T && e) {return push_back(std::move(e));}
-	inline PIDeque<T> & operator <<(const PIDeque<T> & t) {return append(t);}
+	inline PIDeque<T> & operator <<(const PIDeque<T> & v) {return append(v);}
-	inline PIDeque<T> & push_front(const T & v) {insert(0, v); return *this;}
+	inline PIDeque<T> & push_front(const T & e) {insert(0, e); return *this;}
-	inline PIDeque<T> & push_front(T && v) {insert(0, std::move(v)); return *this;}
+	inline PIDeque<T> & push_front(T && e) {insert(0, std::move(e)); return *this;}
-	inline PIDeque<T> & prepend(const T & v) {return push_front(v);}
+	inline PIDeque<T> & prepend(const T & e) {return push_front(e);}
-	inline PIDeque<T> & prepend(T && v) {return push_front(std::move(v));}
+	inline PIDeque<T> & prepend(T && e) {return push_front(std::move(e));}
 	inline PIDeque<T> & pop_back() {if (pid_size == 0) return *this; resize(pid_size - 1); return *this;}
 	inline PIDeque<T> & pop_front() {if (pid_size == 0) return *this; remove(0); return *this;}
-	inline T take_back() {T t(back()); pop_back(); return t;}
+	inline T take_back() {T e(back()); pop_back(); return e;}
-	inline T take_front() {T t(front()); pop_front(); return t;}
+	inline T take_front() {T e(front()); pop_front(); return e;}
 	template <typename ST>
 	PIDeque<ST> toType() const {
 		PIDeque<ST> ret(pid_size);
-		for (uint i = 0; i < pid_size; ++i)
+		for (size_t i = 0; i < pid_size; ++i) {
 			ret[i] = ST(pid_data[i + pid_start]);
 		}
 		return ret;
 	}
-	const PIDeque<T> & forEach(std::function<void(const T &)> f) const {
+	const PIDeque<T> & forEach(std::function<void(const T & e)> f) const {
-		for (uint i = 0; i < pid_size; ++i)
+		for (size_t i = 0; i < pid_size; ++i) {
 			f(pid_data[i + pid_start]);
 		}
 		return *this;
 	}
-	PIDeque<T> copyForEach(std::function<T(const T &)> f) const {
+	PIDeque<T> copyForEach(std::function<T(const T & e)> f) const {
 		PIDeque<T> ret; ret.reserve(pid_size);
-		for (uint i = 0; i < pid_size; ++i)
+		for (size_t i = 0; i < pid_size; ++i) {
 			ret << f(pid_data[i + pid_start]);
 		}
 		return ret;
 	}
-	PIDeque<T> & forEachInplace(std::function<T(const T &)> f) {
+	PIDeque<T> & forEachInplace(std::function<T(const T & e)> f) {
-		for (uint i = 0; i < pid_size; ++i)
+		for (size_t i = 0; i < pid_size; ++i)
 			pid_data[i + pid_start] = f(pid_data[i + pid_start]);
 		return *this;
 	}
 	template <typename ST>
-	PIDeque<ST> toType(std::function<ST(const T &)> f) const {
+	PIDeque<ST> map(std::function<ST(const T & e)> f) const {
 		PIDeque<ST> ret; ret.reserve(pid_size);
-		for (uint i = 0; i < pid_size; ++i)
+		for (size_t i = 0; i < pid_size; ++i) {
 			ret << f(pid_data[i + pid_start]);
 		}
 		return ret;
 	}
 	template <typename ST>
 	PIDeque<ST> toType(std::function<ST(const T & e)> f) const {return map(f);}
 	template <typename ST>
 	ST reduce(std::function<ST(const T & e, const ST & acc)> f, const ST & initial = ST()) const {
 		ST ret(initial);
 		for (size_t i = 0; i < pid_size; ++i) {
 			ret = f(pid_data[i + pid_start], ret);
 		}
 		return ret;
 	}
@@ -510,14 +618,16 @@ public:
 		assert(rows*cols == pid_size);
 		ret.resize(rows);
 		if (order == byRow) {
-			for (size_t r = 0; r < rows; r++)
+			for (size_t r = 0; r < rows; r++) {
 				ret[r] = PIDeque<T>(&(pid_data[r*cols]), cols);
 			}
 		}
 		if (order == byColumn) {
 			for (size_t r = 0; r < rows; r++) {
 				ret[r].resize(cols);
-				for (size_t c = 0; c < cols; c++)
+				for (size_t c = 0; c < cols; c++) {
 					ret[r][c] = pid_data[c*rows + r];
 				}
 			}
 		}
 		return ret;
@@ -533,13 +643,16 @@ public:
 		size_t cols = at(0).size();
 		ret.reserve(rows * cols);
 		if (order == byRow) {
-			for (size_t r = 0; r < rows; r++)
+			for (size_t r = 0; r < rows; r++) {
 				ret.append(at(r));
 			}
 		}
 		if (order == byColumn) {
-			for (size_t c = 0; c < cols; c++)
+			for (size_t c = 0; c < cols; c++) {
-				for (size_t r = 0; r < rows; r++)
+				for (size_t r = 0; r < rows; r++) {
 					ret << at(r)[c];
 				}
 			}
 		}
 		ret.resize(rows * cols);
 		return ret;
@@ -549,11 +662,13 @@ private:
 	inline void _reset() {pid_size = pid_rsize = pid_start = 0; pid_data = 0;}
 	inline size_t asize(ssize_t s) {
 		if (s <= 0) return 0;
-		if (pid_rsize + pid_rsize >= size_t(s) && pid_rsize < size_t(s))
+		if (pid_rsize + pid_rsize >= size_t(s) && pid_rsize < size_t(s)) {
 			return pid_rsize + pid_rsize;
 		}
 		ssize_t t = 0, s_ = s - 1;
-		while (s_ >> t)
+		while (s_ >> t) {
 			++t;
 		}
 		return (1 << t);
 	}
 	template<typename T1 = T, typename std::enable_if<
@@ -577,8 +692,9 @@ private:
 	inline void deleteT(T * d, size_t sz) {
 		PIINTROSPECTION_CONTAINER_UNUSED(T, sz)
 		if ((uchar*)d != 0) {
-			for (size_t i = 0; i < sz; ++i)
+			for (size_t i = 0; i < sz; ++i) {
 				elementDelete(d[i]);
 			}
 		}
 	}
 	template<typename T1 = T, typename std::enable_if<
@@ -652,10 +768,11 @@ private:
 			}
 		} else {
 			size_t as;
-			if (pid_start + start_offset < 0)
+			if (pid_start + start_offset < 0) {
 				as = asize(pid_rsize - start_offset);
-			else as = pid_rsize;
+			} else {
-
+				as = pid_rsize;
 			}
 			if (as > pid_rsize) {
 				T * td = (T*)(malloc(as * sizeof(T)));
 				ssize_t ns = pid_start + as - pid_rsize;
@@ -682,7 +799,15 @@ private:
 #ifdef PIP_STD_IOSTREAM
 template<typename T>
-inline std::ostream & operator <<(std::ostream & s, const PIDeque<T> & v) {s << "{"; for (size_t i = 0; i < v.size(); ++i) {s << v[i]; if (i < v.size() - 1) s << ", ";} s << "}"; return s;}
+inline std::ostream & operator <<(std::ostream & s, const PIDeque<T> & v) {
 	s << "{";
 	for (size_t i = 0; i < v.size(); ++i) {
 		s << v[i];
 		if (i < v.size() - 1) s << ", ";
 	}
 	s << "}";
 	return s;
 }
 #endif
 template<typename T>
@@ -692,8 +817,7 @@ inline PICout operator <<(PICout s, const PIDeque<T> & v) {
 	s << "{";
 	for (size_t i = 0; i < v.size(); ++i) {
 		s << v[i];
-		if (i < v.size() - 1)
+		if (i < v.size() - 1) s << ", ";
 			s << ", ";
 	}
 	s << "}";
 	s.restoreControl();
--- a/libs/main/containers/pivector.h
+++ b/libs/main/containers/pivector.h
@@ -39,10 +39,10 @@ public:
 		alloc(size);
 		newT(piv_data, data, piv_size);
 	}
-	inline PIVector(const PIVector<T> & other): piv_data(0), piv_size(0), piv_rsize(0) {
+	inline PIVector(const PIVector<T> & v): piv_data(0), piv_size(0), piv_rsize(0) {
 		PIINTROSPECTION_CONTAINER_NEW(T, sizeof(T))
-		alloc(other.piv_size);
+		alloc(v.piv_size);
-		newT(piv_data, other.piv_data, piv_size);
+		newT(piv_data, v.piv_data, piv_size);
 	}
 	inline PIVector(std::initializer_list<T> init_list): piv_data(0), piv_size(0), piv_rsize(0) {
 		PIINTROSPECTION_CONTAINER_NEW(T, sizeof(T))
@@ -53,13 +53,13 @@ public:
 		PIINTROSPECTION_CONTAINER_NEW(T, sizeof(T))
 		resize(piv_size, f);
 	}
-	inline PIVector(size_t piv_size, std::function<T(size_t)> f): piv_data(0), piv_size(0), piv_rsize(0) {
+	inline PIVector(size_t piv_size, std::function<T(size_t i)> f): piv_data(0), piv_size(0), piv_rsize(0) {
 		PIINTROSPECTION_CONTAINER_NEW(T, sizeof(T))
 		resize(piv_size, f);
 	}
-	inline PIVector(PIVector<T> && other): piv_data(other.piv_data), piv_size(other.piv_size), piv_rsize(other.piv_rsize) {
+	inline PIVector(PIVector<T> && v): piv_data(v.piv_data), piv_size(v.piv_size), piv_rsize(v.piv_rsize) {
 		PIINTROSPECTION_CONTAINER_NEW(T, sizeof(T))
-		other._reset();
+		v._reset();
 	}
 	inline virtual ~PIVector() {
 		PIINTROSPECTION_CONTAINER_DELETE(T)
@@ -69,17 +69,17 @@ public:
 		_reset();
 	}
-	inline PIVector<T> & operator =(const PIVector<T> & other) {
+	inline PIVector<T> & operator =(const PIVector<T> & v) {
-		if (this == &other) return *this;
+		if (this == &v) return *this;
 		clear();
 		deleteT(piv_data, piv_size);
-		alloc(other.piv_size);
+		alloc(v.piv_size);
-		newT(piv_data, other.piv_data, piv_size);
+		newT(piv_data, v.piv_data, piv_size);
 		return *this;
 	}
-	inline PIVector<T> & operator =(PIVector<T> && other) {
+	inline PIVector<T> & operator =(PIVector<T> && v) {
-		swap(other);
+		swap(v);
 		return *this;
 	}
@@ -174,6 +174,19 @@ public:
 	inline size_t length() const {return piv_size;}
 	inline size_t capacity() const {return piv_rsize;}
 	inline bool isEmpty() const {return (piv_size == 0);}
 	inline bool isNotEmpty() const {return (piv_size > 0);}
 	inline bool any(std::function<bool(const T & e)> test) const {
 		for (size_t i = 0; i < piv_size; ++i) {
 			if (test(piv_data[i])) return true;
 		}
 		return false;
 	}
 	inline bool every(std::function<bool(const T & e)> test) const {
 		for (size_t i = 0; i < piv_size; ++i) {
 			if (!test(piv_data[i])) return false;
 		}
 		return true;
 	}
 	inline T & operator [](size_t index) {return piv_data[index];}
 	inline const T & operator [](size_t index) const {return piv_data[index];}
@@ -183,42 +196,103 @@ public:
 	inline T & front() {return piv_data[0];}
 	inline const T & front() const {return piv_data[0];}
 	inline bool operator ==(const PIVector<T> & t) const {
-		if (piv_size != t.piv_size)
+		if (piv_size != t.piv_size) {
 			return false;
-		for (size_t i = 0; i < piv_size; ++i)
+		}
-			if (t[i] != piv_data[i])
+		for (size_t i = 0; i < piv_size; ++i) {
 			if (t[i] != piv_data[i]) {
 				return false;
 			}
 		}
 		return true;
 	}
 	inline bool operator !=(const PIVector<T> & t) const {return !(*this == t);}
-	inline bool contains(const T & v) const {
+	inline bool operator <(const PIVector<T> & t) const {
-		for (size_t i = 0; i < piv_size; ++i)
+		if (piv_size != t.piv_size) return piv_size < t.piv_size;
-			if (v == piv_data[i])
+		for (size_t i = 0; i < piv_size; ++i) {
-				return true;
+			if ((*this)[i] != t[i]) return (*this)[i] < t[i];
 		}
 		return false;
 	}
-	inline int etries(const T & v) const {
+	inline bool operator >(const PIVector<T> & t) const {
 		if (piv_size != t.piv_size) return piv_size > t.piv_size;
 		for (size_t i = 0; i < piv_size; ++i) {
 			if ((*this)[i] != t[i]) return (*this)[i] > t[i];
 		}
 		return false;
 	}
 	inline bool contains(const T & e) const {
 		for (size_t i = 0; i < piv_size; ++i) {
 			if (e == piv_data[i]) {
 				return true;
 			}
 		}
 		return false;
 	}
 	inline int etries(const T & e, size_t start = 0) const {
 		int ec = 0;
-		for (size_t i = 0; i < piv_size; ++i)
+		if (start >= piv_size) return ec;
-			if (v == piv_data[i]) ++ec;
+		for (size_t i = start; i < piv_size; ++i) {
 			if (e == piv_data[i]) ++ec;
 		}
 		return ec;
 	}
-	inline ssize_t indexOf(const T & v) const {
+	inline int etries(std::function<bool(const T & e)> test, size_t start = 0) const {
-		for (size_t i = 0; i < piv_size; ++i)
+		int ec = 0;
-			if (v == piv_data[i])
+		if (start >= piv_size) return ec;
 		for (size_t i = start; i < piv_size; ++i) {
 			if (test(piv_data[i])) ++ec;
 		}
 		return ec;
 	}
 	inline ssize_t indexOf(const T & e, size_t start = 0) const {
 		if (start >= piv_size) return -1;
 		for (size_t i = start; i < piv_size; ++i) {
 			if (e == piv_data[i]) {
 				return i;
 			}
 		}
 		return -1;
 	}
-	inline ssize_t lastIndexOf(const T & v) const {
+	inline ssize_t indexWhere(std::function<bool(const T & e)> test, size_t start = 0) const {
-		for (ssize_t i = piv_size - 1; i >= 0; --i)
+		if (start >= piv_size) return -1;
-			if (v == piv_data[i])
+		for (size_t i = start; i < piv_size; ++i) {
 			if (test(piv_data[i])) {
 				return i;
 			}
 		}
 		return -1;
 	}
 	inline ssize_t lastIndexOf(const T & e, ssize_t start = -1) const {
 		if (start < 0) start = piv_size - 1;
 		else start = piMin<ssize_t>(piv_size - 1, start);
 		for (ssize_t i = start; i >= 0; --i) {
 			if (e == piv_data[i]) {
 				return i;
 			}
 		}
 		return -1;
 	}
 	inline ssize_t lastIndexWhere(std::function<bool(const T & e)> test, ssize_t start = -1) const {
 		if (start < 0) start = piv_size - 1;
 		else start = piMin<ssize_t>(piv_size - 1, start);
 		for (ssize_t i = start; i >= 0; --i) {
 			if (test(piv_data[i])) {
 				return i;
 			}
 		}
 		return -1;
 	}
 	inline T * data(size_t index = 0) {return &(piv_data[index]);}
 	inline const T * data(size_t index = 0) const {return &(piv_data[index]);}
 	PIVector<T> getRange(size_t index, size_t count) const {
 		if (index >= piv_size || count == 0) return PIVector<T>();
 		if (index + count > piv_size) count = piv_size - index;
 		return PIVector(&(piv_data[index]), count);
 	}
 	template<typename T1 = T, typename std::enable_if<
 				 !std::is_trivially_copyable<T1>::value
 				 , int>::type = 0>
@@ -238,15 +312,17 @@ public:
 	inline PIVector<T> & fill(const T & f = T()) {
 		deleteT(piv_data, piv_size);
 		PIINTROSPECTION_CONTAINER_USED(T, piv_size)
-		for (size_t i = 0; i < piv_size; ++i)
+		for (size_t i = 0; i < piv_size; ++i) {
 			elementNew(piv_data + i, f);
 		}
 		return *this;
 	}
-	inline PIVector<T> & fill(std::function<T(size_t)> f) {
+	inline PIVector<T> & fill(std::function<T(size_t i)> f) {
 		deleteT(piv_data, piv_size);
 		PIINTROSPECTION_CONTAINER_USED(T, piv_size)
-		for (size_t i = 0; i < piv_size; ++i)
+		for (size_t i = 0; i < piv_size; ++i) {
 			elementNew(piv_data + i, f(i));
 		}
 		return *this;
 	}
 	inline PIVector<T> & assign(const T & f = T()) {return fill(f);}
@@ -275,12 +351,13 @@ public:
 			size_t os = piv_size;
 			alloc(new_size);
 			PIINTROSPECTION_CONTAINER_USED(T, (new_size-os))
-			for (size_t i = os; i < new_size; ++i)
+			for (size_t i = os; i < new_size; ++i) {
 				elementNew(piv_data + i, f);
 			}
 		}
 		return *this;
 	}
-	inline PIVector<T> & resize(size_t new_size, std::function<T(size_t)> f) {
+	inline PIVector<T> & resize(size_t new_size, std::function<T(size_t i)> f) {
 		if (new_size < piv_size) {
 			T * de = &(piv_data[new_size]);
 			deleteT(de, piv_size - new_size);
@@ -290,8 +367,9 @@ public:
 			size_t os = piv_size;
 			alloc(new_size);
 			PIINTROSPECTION_CONTAINER_USED(T, (new_size-os))
-			for (size_t i = os; i < new_size; ++i)
+			for (size_t i = os; i < new_size; ++i) {
 				elementNew(piv_data + i, f(i));
 			}
 		}
 		return *this;
 	}
@@ -320,34 +398,35 @@ public:
 		return *this;
 	}
-	inline PIVector<T> & insert(size_t index, const T & v = T()) {
+	inline PIVector<T> & insert(size_t index, const T & e = T()) {
 		alloc(piv_size + 1);
 		if (index < piv_size - 1) {
 			size_t os = piv_size - index - 1;
 			memmove((void*)(&(piv_data[index + 1])), (const void*)(&(piv_data[index])), os * sizeof(T));
 		}
 		PIINTROSPECTION_CONTAINER_USED(T, 1)
-		elementNew(piv_data + index, v);
+		elementNew(piv_data + index, e);
 		return *this;
 	}
-	inline PIVector<T> & insert(size_t index, T && v) {
+	inline PIVector<T> & insert(size_t index, T && e) {
 		alloc(piv_size + 1);
 		if (index < piv_size - 1) {
 			size_t os = piv_size - index - 1;
 			memmove((void*)(&(piv_data[index + 1])), (const void*)(&(piv_data[index])), os * sizeof(T));
 		}
 		PIINTROSPECTION_CONTAINER_USED(T, 1)
-		elementNew(piv_data + index, std::move(v));
+		elementNew(piv_data + index, std::move(e));
 		return *this;
 	}
-	inline PIVector<T> & insert(size_t index, const PIVector<T> & other) {
+	inline PIVector<T> & insert(size_t index, const PIVector<T> & v) {
-		if (other.isEmpty()) return *this;
+		if (v.isEmpty()) return *this;
-		assert(&other != this);
+		assert(&v != this);
 		ssize_t os = piv_size - index;
-		alloc(piv_size + other.piv_size);
+		alloc(piv_size + v.piv_size);
-		if (os > 0)
+		if (os > 0) {
-			memmove((void*)(&(piv_data[index + other.piv_size])), (const void*)(&(piv_data[index])), os * sizeof(T));
+			memmove((void*)(&(piv_data[index + v.piv_size])), (const void*)(&(piv_data[index])), os * sizeof(T));
-		newT(piv_data + index, other.piv_data, other.piv_size);
+		}
 		newT(piv_data + index, v.piv_data, v.piv_size);
 		return *this;
 	}
@@ -364,10 +443,10 @@ public:
 		return *this;
 	}
-	inline void swap(PIVector<T> & other) {
+	inline void swap(PIVector<T> & v) {
-		piSwap<T*>(piv_data, other.piv_data);
+		piSwap<T*>(piv_data, v.piv_data);
-		piSwap<size_t>(piv_size, other.piv_size);
+		piSwap<size_t>(piv_size, v.piv_size);
-		piSwap<size_t>(piv_rsize, other.piv_rsize);
+		piSwap<size_t>(piv_rsize, v.piv_rsize);
 	}
 	typedef int (*CompareFunc)(const T * , const T * );
@@ -384,98 +463,126 @@ public:
 		return *this;
 	}
-	inline PIVector<T> & removeOne(const T & v) {
+	inline PIVector<T> & removeOne(const T & e) {
-		for (size_t i = 0; i < piv_size; ++i)
+		for (size_t i = 0; i < piv_size; ++i) {
-			if (piv_data[i] == v) {
+			if (piv_data[i] == e) {
 				remove(i);
 				return *this;
 			}
 		}
 		return *this;
 	}
-	inline PIVector<T> & removeAll(const T & v) {
+	inline PIVector<T> & removeAll(const T & e) {
-		for (ssize_t i = 0; i < ssize_t(piv_size); ++i)
+		for (ssize_t i = 0; i < ssize_t(piv_size); ++i) {
-			if (piv_data[i] == v) {
+			if (piv_data[i] == e) {
 				remove(i);
 				--i;
 			}
 		}
 		return *this;
 	}
 	inline PIVector<T> & removeWhere(std::function<bool(const T & e)> test) {
 		for (ssize_t i = 0; i < ssize_t(piv_size); ++i) {
 			if (test(piv_data[i])) {
 				remove(i);
 				--i;
 			}
 		}
 		return *this;
 	}
-	inline PIVector<T> & push_back(const T & v) {
+	inline PIVector<T> & push_back(const T & e) {
 		alloc(piv_size + 1);
 		PIINTROSPECTION_CONTAINER_USED(T, 1);
-		elementNew(piv_data + piv_size - 1, v);
+		elementNew(piv_data + piv_size - 1, e);
 		return *this;
 	}
-	inline PIVector<T> & push_back(T && v) {
+
 	inline PIVector<T> & push_back(T && e) {
 		alloc(piv_size + 1);
 		PIINTROSPECTION_CONTAINER_USED(T, 1);
-		elementNew(piv_data + piv_size - 1, std::move(v));
+		elementNew(piv_data + piv_size - 1, std::move(e));
 		return *this;
 	}
-	inline PIVector<T> & append(const T & v) {return push_back(v);}
+
-	inline PIVector<T> & append(T && v) {return push_back(std::move(v));}
+	inline PIVector<T> & append(const T & e) {return push_back(e);}
-	inline PIVector<T> & append(const PIVector<T> & other) {
+	inline PIVector<T> & append(T && e) {return push_back(std::move(e));}
-		assert(&other != this);
+	inline PIVector<T> & append(const PIVector<T> & v) {
 		assert(&v != this);
 		size_t ps = piv_size;
-		alloc(piv_size + other.piv_size);
+		alloc(piv_size + v.piv_size);
-		newT(piv_data + ps, other.piv_data, other.piv_size);
+		newT(piv_data + ps, v.piv_data, v.piv_size);
 		return *this;
 	}
-	inline PIVector<T> & operator <<(const T & v) {return push_back(v);}
+	inline PIVector<T> & operator <<(const T & e) {return push_back(e);}
-	inline PIVector<T> & operator <<(T && v) {return push_back(std::move(v));}
+	inline PIVector<T> & operator <<(T && e) {return push_back(std::move(e));}
-	inline PIVector<T> & operator <<(const PIVector<T> & other) {return append(other);}
+	inline PIVector<T> & operator <<(const PIVector<T> & v) {return append(v);}
-	inline PIVector<T> & push_front(const T & v) {insert(0, v); return *this;}
+	inline PIVector<T> & push_front(const T & e) {insert(0, e); return *this;}
-	inline PIVector<T> & push_front(T && v) {insert(0, std::move(v)); return *this;}
+	inline PIVector<T> & push_front(T && e) {insert(0, std::move(e)); return *this;}
-	inline PIVector<T> & prepend(const T & v) {return push_front(v);}
+	inline PIVector<T> & prepend(const T & e) {return push_front(e);}
-	inline PIVector<T> & prepend(T && v) {return push_front(std::move(v));}
+	inline PIVector<T> & prepend(T && e) {return push_front(std::move(e));}
 	inline PIVector<T> & pop_back() {
-		if (piv_size == 0)
+		if (piv_size == 0) return *this;
 			return *this;
 		resize(piv_size - 1);
 		return *this;
 	}
 	inline PIVector<T> & pop_front() {
-		if (piv_size == 0)
+		if (piv_size == 0) return *this;
 			return *this;
 		remove(0);
 		return *this;
 	}
-	inline T take_back() {T t(back()); pop_back(); return t;}
+	inline T take_back() {T e(back()); pop_back(); return e;}
-	inline T take_front() {T t(front()); pop_front(); return t;}
+	inline T take_front() {T e(front()); pop_front(); return e;}
 	template <typename ST>
 	PIVector<ST> toType() const {
 		PIVector<ST> ret(piv_size);
-		for (uint i = 0; i < piv_size; ++i)
+		for (size_t i = 0; i < piv_size; ++i) {
 			ret[i] = ST(piv_data[i]);
 		}
 		return ret;
 	}
-	const PIVector<T> & forEach(std::function<void(const T &)> f) const {
+	const PIVector<T> & forEach(std::function<void(const T & e)> f) const {
-		for (uint i = 0; i < piv_size; ++i)
+		for (size_t i = 0; i < piv_size; ++i) {
 			f(piv_data[i]);
 		}
 		return *this;
 	}
-	PIVector<T> copyForEach(std::function<T(const T &)> f) const {
+	PIVector<T> copyForEach(std::function<T(const T & e)> f) const {
 		PIVector<T> ret; ret.reserve(piv_size);
-		for (uint i = 0; i < piv_size; ++i)
+		for (size_t i = 0; i < piv_size; ++i) {
 			ret << f(piv_data[i]);
 		}
 		return ret;
 	}
-	PIVector<T> & forEachInplace(std::function<T(const T &)> f) {
+	PIVector<T> & forEachInplace(std::function<T(const T & e)> f) {
-		for (uint i = 0; i < piv_size; ++i)
+		for (size_t i = 0; i < piv_size; ++i) {
 			piv_data[i] = f(piv_data[i]);
 		}
 		return *this;
 	}
 	template <typename ST>
-	PIVector<ST> toType(std::function<ST(const T &)> f) const {
+	PIVector<ST> map(std::function<ST(const T & e)> f) const {
 		PIVector<ST> ret; ret.reserve(piv_size);
-		for (uint i = 0; i < piv_size; ++i)
+		for (size_t i = 0; i < piv_size; ++i) {
 			ret << f(piv_data[i]);
 		}
 		return ret;
 	}
 	template <typename ST>
 	PIVector<ST> toType(std::function<ST(const T & e)> f) const {return map(f);}
 	template <typename ST>
 	ST reduce(std::function<ST(const T & e, const ST & acc)> f, const ST & initial = ST()) const {
 		ST ret(initial);
 		for (size_t i = 0; i < piv_size; ++i) {
 			ret = f(piv_data[i], ret);
 		}
 		return ret;
 	}
@@ -485,14 +592,16 @@ public:
 		assert(rows*cols == piv_size);
 		ret.resize(rows);
 		if (order == byRow) {
-			for (size_t r = 0; r < rows; r++)
+			for (size_t r = 0; r < rows; r++) {
 				ret[r] = PIVector<T>(&(piv_data[r*cols]), cols);
 			}
 		}
 		if (order == byColumn) {
 			for (size_t r = 0; r < rows; r++) {
 				ret[r].resize(cols);
-				for (size_t c = 0; c < cols; c++)
+				for (size_t c = 0; c < cols; c++) {
 					ret[r][c] = piv_data[c*rows + r];
 				}
 			}
 		}
 		return ret;
@@ -508,13 +617,16 @@ public:
 		size_t cols = at(0).size();
 		ret.reserve(rows * cols);
 		if (order == byRow) {
-			for (size_t r = 0; r < rows; r++)
+			for (size_t r = 0; r < rows; r++) {
 				ret.append(at(r));
 			}
 		}
 		if (order == byColumn) {
-			for (size_t c = 0; c < cols; c++)
+			for (size_t c = 0; c < cols; c++) {
-				for (size_t r = 0; r < rows; r++)
+				for (size_t r = 0; r < rows; r++) {
 					ret << at(r)[c];
 				}
 			}
 		}
 		ret.resize(rows * cols);
 		return ret;
@@ -524,8 +636,9 @@ private:
 	inline void _reset() {piv_size = piv_rsize = 0; piv_data = 0;}
 	inline size_t asize(size_t s) {
 		if (s == 0) return 0;
-		if (piv_rsize + piv_rsize >= s && piv_rsize < s)
+		if (piv_rsize + piv_rsize >= s && piv_rsize < s) {
 			return piv_rsize + piv_rsize;
 		}
 		ssize_t t = 0, s_ = s - 1;
 		while (s_ >> t) ++t;
 		return (1 << t);
@@ -551,8 +664,9 @@ private:
 	inline void deleteT(T * d, size_t sz) {
 		PIINTROSPECTION_CONTAINER_UNUSED(T, sz)
 		if ((uchar*)d != 0) {
-			for (size_t i = 0; i < sz; ++i)
+			for (size_t i = 0; i < sz; ++i) {
 				elementDelete(d[i]);
 			}
 		}
 	}
 	template<typename T1 = T, typename std::enable_if<
@@ -612,7 +726,15 @@ private:
 #ifdef PIP_STD_IOSTREAM
 template<typename T>
-inline std::ostream & operator <<(std::ostream & s, const PIVector<T> & v) {s << "{"; for (size_t i = 0; i < v.size(); ++i) {s << v[i]; if (i < v.size() - 1) s << ", ";} s << "}"; return s;}
+inline std::ostream & operator <<(std::ostream & s, const PIVector<T> & v) {
 	s << "{";
 	for (size_t i = 0; i < v.size(); ++i) {
 		s << v[i];
 		if (i < v.size() - 1) s << ", ";
 	}
 	s << "}";
 	return s;
 }
 #endif
 template<typename T>
@@ -622,8 +744,9 @@ inline PICout operator <<(PICout s, const PIVector<T> & v) {
 	s << "{";
 	for (size_t i = 0; i < v.size(); ++i) {
 		s << v[i];
-		if (i < v.size() - 1)
+		if (i < v.size() - 1) {
 			s << ", ";
 		}
 	}
 	s << "}";
 	s.restoreControl();
--- a/libs/main/core/pibytearray.cpp
+++ b/libs/main/core/pibytearray.cpp
@@ -221,22 +221,22 @@ PIByteArray & PIByteArray::decompressRLE(uchar threshold) {
 }
-uchar PIByteArray::checksumPlain8() const {
+uchar PIByteArray::checksumPlain8(bool inverse) const {
 	uchar c = 0;
 	int sz = size_s();
 	for (int i = 0; i < sz; ++i)
 		c += at(i);
-	c = ~(c + 1);
+	if (inverse) c = ~(c + 1);
 	return c;
 }
-uint PIByteArray::checksumPlain32() const {
+uint PIByteArray::checksumPlain32(bool inverse) const {
 	uint c = 0;
 	int sz = size_s();
 	for (int i = 0; i < sz; ++i)
 		c += at(i) * (i + 1);
-	c = ~(c + 1);
+	if (inverse) c = ~(c + 1);
 	return c;
 }
--- a/libs/main/core/pibytearray.h
+++ b/libs/main/core/pibytearray.h
@@ -146,18 +146,18 @@ public:
 	PIByteArray & append(uchar t) {push_back(t); return *this;}
 	//! Returns 8-bit checksum
-	//! sum all bytes, add 1, inverse
+	//! sum all bytes,  if inverse - add 1, inverse
 	//! Pseudocode:
 	//! sum += at(i);
 	//! return ~(sum + 1)
-	uchar checksumPlain8() const;
+	uchar checksumPlain8(bool inverse = true) const;
 	//! Returns 32-bit checksum
-	//! sum all bytes multiplyed by index+1, add 1, inverse
+	//! sum all bytes multiplyed by index+1, if inverse - add 1, inverse
 	//! Pseudocode:
 	//! sum += at(i) * (i + 1);
 	//! return ~(sum + 1)
-	uint checksumPlain32() const;
+	uint checksumPlain32(bool inverse = true) const;
 	//! Returns hash
 	uint hash() const;
@@ -190,34 +190,39 @@ public:
 //! \relatesalso PIByteArray @brief Byte arrays compare operator
 inline bool operator <(const PIByteArray & v0, const PIByteArray & v1) {
 	if (v0.size() == v1.size()) {
-		for (uint i = 0; i < v0.size(); ++i)
+		if (v0.isEmpty()) return false;
-			if (v0[i] != v1[i])
+		return memcmp(v0.data(), v1.data(), v0.size()) < 0;
 				return v0[i] < v1[i];
 		return false;
 	}
 	return v0.size() < v1.size();
 }
 //! \relatesalso PIByteArray @brief Byte arrays compare operator
-inline bool operator ==(PIByteArray & f, PIByteArray & s) {
+inline bool operator >(const PIByteArray & v0, const PIByteArray & v1) {
-	if (f.size_s() != s.size_s())
+	if (v0.size() == v1.size()) {
-		return false;
+		if (v0.isEmpty()) return false;
-	for (int i = 0; i < f.size_s(); ++i)
+		return memcmp(v0.data(), v1.data(), v0.size()) > 0;
-		if (f[i] != s[i])
+	}
-			return false;
+	return v0.size() > v1.size();
 	return true;
 }
 //! \relatesalso PIByteArray @brief Byte arrays compare operator
-inline bool operator !=(PIByteArray & f, PIByteArray & s) {
+inline bool operator ==(const PIByteArray & v0, const PIByteArray & v1) {
-	if (f.size_s() != s.size_s())
+	if (v0.size() == v1.size()) {
-		return true;
+		if (v0.isEmpty()) return true;
-	for (int i = 0; i < f.size_s(); ++i)
+		return memcmp(v0.data(), v1.data(), v0.size()) == 0;
-		if (f[i] != s[i])
+	}
 			return true;
 	return false;
 }
 //! \relatesalso PIByteArray @brief Byte arrays compare operator
 inline bool operator !=(const PIByteArray & v0, const PIByteArray & v1) {
 	if (v0.size() == v1.size()) {
 		if (v0.isEmpty()) return false;
 		return memcmp(v0.data(), v1.data(), v0.size()) != 0;
 	}
 	return true;
 }
 #ifdef PIP_STD_IOSTREAM
 //! \relatesalso PIByteArray @brief Output to std::ostream operator
 inline std::ostream & operator <<(std::ostream & s, const PIByteArray & ba);
--- a/libs/main/core/piobject.cpp
+++ b/libs/main/core/piobject.cpp
@@ -91,9 +91,11 @@ PIObject::~PIObject() {
 	mutexObjects().lock();
 	objects().removeAll(this);
 	mutexObjects().unlock();
-	piDisconnect(this);
+	deleted(this);
 	piDisconnectAll();
 }
 PIMap<PIString, PIVariant> PIObject::properties() const {
 	PIMap<PIString, PIVariant> ret;
 	piForeachC (PropertyHash p, properties_)
@@ -141,50 +143,6 @@ bool PIObject::executeQueued(PIObject * performer, const PIString & method, cons
 }
 void PIObject::piConnect(const PIString & src, const PIString & sig, void * dest, void * ev_h) {
 	PIObject * o = findByName(src);
 	if (o == 0) {
 		piCout << "[PIObject] Can`t find object with name \"" << src << "\"!";
 		return;
 	}
 	PIMutexLocker _ml(o->mutex_connect);
 	PIMutexLocker _mld(((PIObject*)dest)->mutex_connect, ((PIObject*)dest) != o);
 	o->connections << __Connection(ev_h, 0, sig, (PIObject*)dest, dest);
 	((PIObject*)dest)->connectors << o;
 }
 void PIObject::piConnect(PIObject * src, const PIString & sig, const PIString & dest, void * ev_h) {
 	PIObject * o = findByName(dest);
 	if (o == 0) {
 		piCout << "[PIObject] Can`t find object with name \"" << dest << "\"!";
 		return;
 	}
 	PIMutexLocker _ml(src->mutex_connect);
 	PIMutexLocker _mld(o->mutex_connect, src != o);
 	src->connections << __Connection(ev_h, 0, sig, o, o);
 	((PIObject*)o)->connectors << src;
 }
 void PIObject::piConnect(const PIString & src, const PIString & sig, const PIString & dest, void * ev_h) {
 	PIObject * s = findByName(src);
 	if (s == 0) {
 		piCout << "[PIObject] Can`t find object with name \"" << src << "\"!";
 		return;
 	}
 	PIObject * d = findByName(dest);
 	if (d == 0) {
 		piCout << "[PIObject] Can`t find object with name \"" << dest << "\"!";
 		return;
 	}
 	PIMutexLocker _ml(s->mutex_connect);
 	PIMutexLocker _mld(d->mutex_connect, s != d);
 	s->connections << __Connection(ev_h, 0, sig, d, d);
 	d->connectors << s;
 }
 PIStringList PIObject::scopeList() const {
 	PIMutexLocker ml(__meta_mutex());
 	return __meta_data()[classNameID()].scope_list;
@@ -256,31 +214,33 @@ PIObject::__MetaFunc PIObject::methodEH(const void * addr) const {
 }
-void PIObject::piConnect(PIObject * src, const PIString & sig, PIObject * dest_o, void * dest, void * ev_h, void * e_h, int args, const char * loc) {
+PIObject::Connection PIObject::piConnect(PIObject * src, const PIString & sig, PIObject * dest_o, void * dest, void * ev_h, void * e_h, int args, const char * loc) {
 	//piCout << "piConnect ...";
 	//piCout << "piConnect" << src << (void*)(dest) << sig;
 	//piCout << "piConnect" << src->className() << "->" << ((PIObject*)dest)->className();
 	PIMutexLocker _ml(src->mutex_connect);
 	PIMutexLocker _mld(dest_o->mutex_connect, src != dest_o);
-	src->connections << __Connection(ev_h, e_h, sig, dest_o, dest, args);
+	Connection conn(ev_h, e_h, sig, src, dest_o, dest, args);
 	src->connections << conn;
 	//piCout << "piConnect" << ((PIObject*)dest) << sig << ((PIObject*)dest)->connectors.size_s() << "...";
 	//piCout << "addConnector" << dest_o << src;
 	dest_o->connectors << src;
 	//piCout << "piConnect" << ((PIObject*)dest) << sig << ((PIObject*)dest)->connectors.size_s();
 	//piCout << "piConnect ok";
 	return conn;
 }
-bool PIObject::piConnectU(PIObject * src, const PIString & sig, PIObject * dest_o, void * dest, const PIString & hname, const char * loc, PIObject * performer) {
+PIObject::Connection PIObject::piConnectU(PIObject * src, const PIString & sig, PIObject * dest_o, void * dest, const PIString & hname, const char * loc, PIObject * performer) {
-	if (src == 0 || dest_o == 0 || dest == 0) return false;
+	if (src == 0 || dest_o == 0 || dest == 0) return Connection();
 	if (!src->isPIObject()) {
 		piCout << "[piConnectU] \"" << sig << "\" -> \"" << hname << "\" error: source object is not PIObject! (" << loc << ")";
-		return false;
+		return Connection();
 	}
 	if (!dest_o->isPIObject()) {
 		piCout << "[piConnectU] \"" << sig << "\" -> \"" << hname << "\" error: destination object is not PIObject! (" << loc << ")";
-		return false;
+		return Connection();
 	}
 	PIMutexLocker ml(__meta_mutex());
 	PIMutexLocker mls(src->mutex_connect);
@@ -288,11 +248,11 @@ bool PIObject::piConnectU(PIObject * src, const PIString & sig, PIObject * dest_
 	PIVector<__MetaFunc> m_src = src->findEH(sig), m_dest = dest_o->findEH(hname);
 	if (m_src.isEmpty()) {
 		piCout << "[piConnectU] Error: can`t find event \"" << sig << "\" in class \"" << src->className() << "\"! (" << loc << ")";
-		return false;
+		return Connection();
 	}
 	if (m_dest.isEmpty()) {
 		piCout << "[piConnectU] Error: can`t find handler \"" << hname << "\" in class \"" << dest_o->className() << "\"! (" << loc << ")";
-		return false;
+		return Connection();
 	}
 	void * addr_src(0), * addr_dest(0);
 	int args(0);
@@ -311,25 +271,26 @@ bool PIObject::piConnectU(PIObject * src, const PIString & sig, PIObject * dest_
 	if (addr_src == 0) {
 		piCout << "[piConnectU] Error: can`t find suitable pair of event \"" << sig << "\" in class \"" << src->className()
 				<< "\" and handler \"" << hname << "\" in class \"" << dest_o->className() << "\"! (" << loc << ")";
-		return false;
+		return Connection();
 	}
-	src->connections << PIObject::__Connection(addr_dest, addr_src, sig, dest_o, dest, args, performer);
+	Connection conn(addr_dest, addr_src, sig, src, dest_o, dest, args, performer);
 	src->connections << conn;
 	if (que) performer->proc_event_queue = true;
 	dest_o->connectors << src;
 	//piCout << cc << cq << _ol.size();//"connect" << src << "->" << dest_o << ", dest.connectors.size() =" << dest_o->connectors.size();
-	return true;
+	return conn;
 }
-bool PIObject::piConnectLS(PIObject * src, const PIString & sig, std::function<void()> * f, const char * loc) {
+PIObject::Connection PIObject::piConnectLS(PIObject * src, const PIString & sig, std::function<void()> * f, const char * loc) {
 	if (src == 0) {
 		delete f;
-		return false;
+		return Connection();
 	}
 	if (!src->isPIObject()) {
 		piCout << "[piConnectLS] \"" << sig << "\" -> [lambda] error: source object is not PIObject! (" << loc << ")";
 		delete f;
-		return false;
+		return Connection();
 	}
 	PIMutexLocker ml(__meta_mutex());
 	PIMutexLocker mls(src->mutex_connect);
@@ -338,19 +299,19 @@ bool PIObject::piConnectLS(PIObject * src, const PIString & sig, std::function<v
 	if (m_src.isEmpty()) {
 		piCout << "[piConnectLS] Error: can`t find event \"" << sig << "\" in class \"" << src->className() << "\"! (" << loc << ")";
 		delete f;
-		return false;
+		return Connection();
 	}
 	if (m_src.size() != 1) {
 		piCout << "[piConnectLS] Error: can`t connect overloaded event \"" << sig << "\" in class \"" << src->className() << "\"! (" << loc << ")";
 		delete f;
-		return false;
+		return Connection();
 	}
-	PIObject::__Connection conn(0, m_src[0].addr, sig);
+	PIObject::Connection conn(0, m_src[0].addr, sig, src);
 	//piCout << "found";
 	conn.functor = f;
 	src->connections << conn;
 	//piCout << "finished";
-	return true;
+	return conn;
 }
@@ -358,7 +319,7 @@ void PIObject::piDisconnect(PIObject * src, const PIString & sig, PIObject * des
 	PIMutexLocker _ml(src->mutex_connect);
 	PIMutexLocker _mld(dest->mutex_connect, src != dest);
 	for (int i = 0; i < src->connections.size_s(); ++i) {
-		__Connection & cc(src->connections[i]);
+		Connection & cc(src->connections[i]);
 		if (cc.event == sig && cc.dest_o == dest && cc.slot == ev_h) {
 			src->connections[i].destroy();
 			src->connections.remove(i);
@@ -373,7 +334,7 @@ void PIObject::piDisconnect(PIObject * src, const PIString & sig, PIObject * des
 	PIMutexLocker _ml(src->mutex_connect);
 	PIMutexLocker _mld(dest->mutex_connect, src != dest);
 	for (int i = 0; i < src->connections.size_s(); ++i) {
-		__Connection & cc(src->connections[i]);
+		Connection & cc(src->connections[i]);
 		if (cc.event == sig && cc.dest_o == dest) {
 			src->connections[i].destroy();
 			src->connections.remove(i);
@@ -387,13 +348,13 @@ void PIObject::piDisconnect(PIObject * src, const PIString & sig, PIObject * des
 void PIObject::piDisconnect(PIObject * src, const PIString & sig) {
 	PIMutexLocker _ml(src->mutex_connect);
 	for (int i = 0; i < src->connections.size_s(); ++i) {
-		__Connection & cc(src->connections[i]);
+		Connection & cc(src->connections[i]);
 		if (cc.event == sig) {
 			PIObject * dest = cc.dest_o;
-			if (!dest) {
+			src->connections[i].destroy();
-				src->connections[i].destroy();
+			src->connections.remove(i);
-				src->connections.remove(i);
+			i--;
-				i--;
+			if (dest) {
 #if !defined(ANDROID) && !defined(MAC_OS) && !defined(FREERTOS)
 				PIMutexLocker _mld(dest->mutex_connect, src != dest);
 #endif
@@ -404,37 +365,38 @@ void PIObject::piDisconnect(PIObject * src, const PIString & sig) {
 }
-void PIObject::piDisconnect(PIObject * src) {
+void PIObject::piDisconnectAll() {
-	src->deleted(src);
+	PIMutexLocker _ml(mutex_connect);
-	PIMutexLocker _ml(src->mutex_connect);
+	PIVector<PIObject * > cv = connectors.toVector();
-	PIVector<PIObject * > cv = src->connectors.toVector();
+//	piCout << "disconnect connectors =" << connectors.size();
 	piForeach (PIObject * o, cv) {
-		//piCout << "disconnect"<< src->className()<< o->className();
+//		piCout << "disconnect"<< src << o;
-		if (!o || (o == src)) continue;
+		if (!o || (o == this)) continue;
 		if (!o->isPIObject()) continue;
 #if !defined(ANDROID) && !defined(MAC_OS) && !defined(FREERTOS)
-		PIMutexLocker _mld(o->mutex_connect, src != o);
+		PIMutexLocker _mld(o->mutex_connect, this != o);
 #endif
-		PIVector<__Connection> & oc(o->connections);
+		PIVector<Connection> & oc(o->connections);
 		for (int i = 0; i < oc.size_s(); ++i) {
 			if (oc[i].functor) continue;
 			//piCout << "    check" << (void*)(oc[i].dest_o) << "==" << (void*)(src);
-			if (oc[i].dest_o == src) {
+			if (oc[i].dest_o == this) {
 				oc[i].destroy();
 				oc.remove(i);
 				--i;
 			}
 		}
 	}
-	piForeachC (PIObject::__Connection & c, src->connections) {
+//	piCout << "disconnect connections =" << connections.size();
 	piForeachC (PIObject::Connection & c, connections) {
 		if (c.functor) continue;
 		if (!c.dest_o) continue;
 		if (!c.dest_o->isPIObject()) continue;
-		c.dest_o->connectors.remove(src);
+		c.dest_o->connectors.remove(this);
 	}
-	for (int i = 0; i < src->connections.size_s(); ++i)
+	for (int i = 0; i < connections.size_s(); ++i)
-		src->connections[i].destroy();
+		connections[i].destroy();
-	src->connections.clear();
+	connections.clear();
 }
@@ -444,8 +406,8 @@ void PIObject::updateConnectors() {
 	PIMutexLocker _ml(mutexObjects());
 	piForeach (PIObject * o, objects()) {
 		if (o == this) continue;
-		PIVector<__Connection> & oc(o->connections);
+		PIVector<Connection> & oc(o->connections);
-		piForeach (__Connection & c, oc)
+		piForeach (Connection & c, oc)
 			if (c.dest == this)
 				connectors << o;
 	}
@@ -606,7 +568,7 @@ void PIObject::dump(const PIString & line_prefix) const {
 	PICout(PICoutManipulators::AddNewLine) << line_prefix << "    connections {";
 	PICout(PICoutManipulators::AddNewLine) << line_prefix << "        count: " << connections.size_s();
 	//printf("dump %d connections\n",connections.size());
-	piForeachC (__Connection & c, connections) {
+	piForeachC (Connection & c, connections) {
 		PIObject * dst = c.dest_o;
 		__MetaFunc ef = methodEH(c.signal);
 		PIString src(c.event);
@@ -679,12 +641,58 @@ void PIObject::__MetaData::addScope(const PIString & s, uint shash) {
 }
-void PIObject::__Connection::destroy() {
+
 void PIObject::Connection::destroy() {
 	if (functor) delete functor;
 	functor = nullptr;
 }
 PIObject::Connection::Connection() {
 	slot = signal = dest = nullptr;
 	src_o = dest_o = performer = nullptr;
 	functor = nullptr;
 	eventID = 0;
 	args_count = 0;
 }
 bool PIObject::Connection::disconnect() {
 	if (!isValid() || !src_o) return false;
 	if (!src_o->isPIObject()) return false;
 	bool ndm = dest_o && (src_o != dest_o), ret = false, found = false;
 	if (dest_o) {
 		if (!dest_o->isPIObject()) ndm = false;
 	}
 	PIMutexLocker _ml(src_o->mutex_connect);
 	if (ndm) dest_o->mutex_connect.lock();
 	for (int i = 0; i < src_o->connections.size_s(); ++i) {
 		Connection & cc(src_o->connections[i]);
 		if (cc.eventID == eventID) {
 			if (dest_o && (cc.dest_o == dest_o)) {
 				if (cc.slot == slot)
 					found = true;
 			}
 			if (functor && (cc.functor == functor))
 				found = true;
 		}
 		if (found) {
 			src_o->connections[i].destroy();
 			src_o->connections.remove(i);
 			ret = true;
 			break;
 		}
 	}
 	if (dest_o) {
 		if (dest_o->isPIObject())
 			dest_o->updateConnectors();
 	}
 	if (ndm) dest_o->mutex_connect.unlock();
 	return ret;
 }
 PRIVATE_DEFINITION_START(PIObject::Deleter)
@@ -700,8 +708,7 @@ PIObject::Deleter::Deleter() {
 	stopping = started = posted = false;
 	CONNECTL(&(PRIVATE->thread), started, [this](){proc();});
 	PRIVATE->thread.startOnce();
-	while (!started)
+	while (!started) piMSleep(1);
 		piMSleep(1);
 }
@@ -710,8 +717,7 @@ PIObject::Deleter::~Deleter() {
 	stopping = true;
 	PRIVATE->cond_var.notifyAll();
 #ifndef WINDOWS
-	while (PRIVATE->thread.isRunning())
+	while (PRIVATE->thread.isRunning()) piMSleep(1);
 		piMSleep(1);
 #endif
 	deleteAll();
 	//piCout << "~Deleter ok";
@@ -774,12 +780,9 @@ void PIObject::Deleter::deleteObject(PIObject * o) {
 	//piCout << "[Deleter] delete" << (uintptr_t)o << "...";
 	if (o->isPIObject()) {
 		//piCout << "[Deleter] delete" << (uintptr_t)o << "wait atomic ...";
-		while (o->isInEvent()) {
+		while (o->isInEvent()) piMSleep(1);
 			piMSleep(1);
 		}
 		//piCout << "[Deleter] delete" << (uintptr_t)o << "wait atomic done";
-		if (o->isPIObject())
+		if (o->isPIObject()) delete o;
 			delete o;
 	}
 	//piCout << "[Deleter] delete" << (uintptr_t)o << "done";
 }
--- a/libs/main/core/piobject.h
+++ b/libs/main/core/piobject.h
@@ -50,6 +50,54 @@ public:
 	virtual ~PIObject();
 	//! Helper class for obtain info about if connection successful and disconnect single connection
 	class PIP_EXPORT Connection {
 		friend class PIObject;
 		Connection(void * sl, void * si, const PIString & e = PIString(),
 				   PIObject * s_o = nullptr, PIObject * d_o = nullptr,
 				   void * d = nullptr, int ac = 0, PIObject * p = nullptr) {
 			slot = sl;
 			signal = si;
 			event = e;
 			eventID = e.hash();
 			src_o = s_o;
 			dest_o = d_o;
 			dest = d;
 			args_count = ac;
 			performer = p;
 			functor = 0;
 		}
 		void destroy();
 		void * slot;
 		void * signal;
 		std::function<void()> * functor;
 		PIString event;
 		uint eventID;
 		PIObject * src_o, * dest_o;
 		PIObject * performer;
 		void * dest;
 		int args_count;
 	public:
 		//! Contructs invalid %Connection
 		Connection();
 		//! Returns if %Connection is valid
 		bool isValid() const {return signal;}
 		//! Returns source object
 		PIObject * sourceObject() const {return src_o;}
 		//! Returns destination object or nullptr if this is lambda connection
 		PIObject * destinationObject() const {return dest_o;}
 		//! Returns performer object or nullptr if this is non-queued connection
 		PIObject * performerObject() const {return performer;}
 		//! Disconnect this %Connection, returns if operation successful
 		bool disconnect();
 	};
 private:
 	uint _signature_;
@@ -141,33 +189,38 @@ public:
 	PIString methodEHFromAddr(const void * addr) const;
 	// / Direct connect
-	static void piConnect(PIObject * src, const PIString & sig, PIObject * dest_o, void * dest, void * ev_h, void * e_h, int args, const char * loc);
+	static PIObject::Connection piConnect(PIObject * src, const PIString & sig, PIObject * dest_o, void * dest, void * ev_h, void * e_h, int args, const char * loc);
-	static bool piConnectU(PIObject * src, const PIString & sig, PIObject * dest_o, void * dest, const PIString & hname, const char * loc, PIObject * performer = 0);
+	static PIObject::Connection piConnectU(PIObject * src, const PIString & sig, PIObject * dest_o, void * dest, const PIString & hname, const char * loc, PIObject * performer = 0);
-	static bool piConnectLS(PIObject * src, const PIString & sig, std::function<void()> * f, const char * loc);
+	static PIObject::Connection piConnectLS(PIObject * src, const PIString & sig, std::function<void()> * f, const char * loc);
 	template <typename INPUT, typename... TYPES>
 	static std::function<void()> * __newFunctor(void(*stat_handler)(void*,TYPES...), INPUT functor) {
 		return (std::function<void()>*)(new std::function<void(TYPES...)>(functor));
 	}
 	// / Through names and mixed
 	static void piConnect(const PIString & src, const PIString & sig, void * dest, void * ev_h);
 	static void piConnect(PIObject * src, const PIString & sig, const PIString & dest, void * ev_h);
 	static void piConnect(const PIString & src, const PIString & sig, const PIString & dest, void * ev_h);
 	//! Disconnect object from all connections with event name "sig", connected to destination object "dest" and handler "ev_h"
 	void piDisconnect(const PIString & sig, PIObject * dest, void * ev_h) {piDisconnect(this, sig, dest, ev_h);}
 	//! Disconnect object from all connections with event name "sig", connected to destination object "dest"
 	void piDisconnect(const PIString & sig, PIObject * dest) {piDisconnect(this, sig, dest);}
 	//! Disconnect object from all connections with event name "sig"
 	void piDisconnect(const PIString & sig) {piDisconnect(this, sig);}
 	//! Disconnect object "src" from all connections with event name "sig", connected to destination object "dest" and handler "ev_h"
 	static void piDisconnect(PIObject * src, const PIString & sig, PIObject * dest, void * ev_h);
 	//! Disconnect object "src" from all connections with event name "sig", connected to destination object "dest"
 	static void piDisconnect(PIObject * src, const PIString & sig, PIObject * dest);
 	//! Disconnect object "src" from all connections with event name "sig"
 	static void piDisconnect(PIObject * src, const PIString & sig);
-	
+		
 	//! Disconnect object "src" from all connections, i.e. all connections where object "src" is emitter
 	static void piDisconnect(PIObject * src);
 	// / Raise events
 	static void raiseEvent(PIObject * sender, const uint eventID) {
 		for (int j = 0; j < sender->connections.size_s(); ++j) {
-			__Connection i(sender->connections[j]);
+			Connection i(sender->connections[j]);
 			if (i.eventID != eventID) continue;
 			if (i.functor) {
 				(*(i.functor))();
@@ -196,7 +249,7 @@ public:
 	template <typename T0>
 	static void raiseEvent(PIObject * sender, const uint eventID, const T0 & v0 = T0()) {
 		for (int j = 0; j < sender->connections.size_s(); ++j) {
-			__Connection i(sender->connections[j]);
+			Connection i(sender->connections[j]);
 			if (i.eventID != eventID) continue;
 			if (i.functor) {
 				(*((std::function<void(T0)>*)i.functor))(v0);
@@ -227,7 +280,7 @@ public:
 	template <typename T0, typename T1>
 	static void raiseEvent(PIObject * sender, const uint eventID, const T0 & v0 = T0(), const T1 & v1 = T1()) {
 		for (int j = 0; j < sender->connections.size_s(); ++j) {
-			__Connection i(sender->connections[j]);
+			Connection i(sender->connections[j]);
 			if (i.eventID != eventID) continue;
 			if (i.functor) {
 				(*((std::function<void(T0, T1)>*)i.functor))(v0, v1);
@@ -262,7 +315,7 @@ public:
 	template <typename T0, typename T1, typename T2>
 	static void raiseEvent(PIObject * sender, const uint eventID, const T0 & v0 = T0(), const T1 & v1 = T1(), const T2 & v2 = T2()) {
 		for (int j = 0; j < sender->connections.size_s(); ++j) {
-			__Connection i(sender->connections[j]);
+			Connection i(sender->connections[j]);
 			if (i.eventID != eventID) continue;
 			if (i.functor) {
 				(*((std::function<void(T0, T1, T2)>*)i.functor))(v0, v1, v2);
@@ -299,7 +352,7 @@ public:
 	template <typename T0, typename T1, typename T2, typename T3>
 	static void raiseEvent(PIObject * sender, const uint eventID, const T0 & v0 = T0(), const T1 & v1 = T1(), const T2 & v2 = T2(), const T3 & v3 = T3()) {
 		for (int j = 0; j < sender->connections.size_s(); ++j) {
-			__Connection i(sender->connections[j]);
+			Connection i(sender->connections[j]);
 			if (i.eventID != eventID) continue;
 			if (i.functor) {
 				(*((std::function<void(T0, T1, T2, T3)>*)i.functor))(v0, v1, v2, v3);
@@ -428,30 +481,6 @@ protected:
 private:
 	struct __Connection {
 		__Connection(void * sl = 0, void * si = 0, const PIString & e = PIString(), PIObject * d_o = 0, void * d = 0, int ac = 0, PIObject * p = 0) {
 			slot = sl;
 			signal = si;
 			event = e;
 			eventID = e.hash();
 			dest_o = d_o;
 			dest = d;
 			args_count = ac;
 			performer = p;
 			functor = 0;
 		}
 		void destroy();
 		void * slot;
 		void * signal;
 		std::function<void()> * functor;
 		PIString event;
 		uint eventID;
 		PIObject * dest_o;
 		PIObject * performer;
 		void * dest;
 		int args_count;
 	};
 	struct __QueuedEvent {
 		__QueuedEvent(void * sl = 0, void * d = 0, PIObject * d_o = 0, PIObject * s = 0, const PIVector<PIVariantSimple> & v = PIVector<PIVariantSimple>()) {
 			slot = sl;
@@ -488,6 +517,8 @@ private:
 	PIVector<__MetaFunc> findEH(const PIString & name) const;
 	__MetaFunc methodEH(const void * addr) const;
 	void updateConnectors();
 	void piDisconnectAll();
 	void postQueuedEvent(const __QueuedEvent & e);
 	void eventBegin() {in_event_cnt++;}
 	void eventEnd  () {in_event_cnt--;}
@@ -500,7 +531,7 @@ private:
 	static void callAddrV(void * slot, void * obj, int args, const PIVector<PIVariantSimple> & vl);
-	PIVector<__Connection> connections;
+	PIVector<Connection> connections;
 	PIMap<uint, PIPair<PIString, PIVariant> > properties_;
 	PISet<PIObject * > connectors;
 	PIVector<__QueuedEvent> events_queue;
--- a/libs/main/core/piobject_macros.h
+++ b/libs/main/core/piobject_macros.h
@@ -102,28 +102,36 @@
 /// \relatesalso PIObject @brief connect event \"event\" from object \"src\"  to  event handler \"handler\". \"Event\" and \"handler\" must has equal argument lists.
 /// Returns PIObject::Connection
 #define CONNECTU(src, event, dest, handler)
 /// \relatesalso PIObject @brief connect event \"event\" from object \"src\"  to  event handler \"handler\".
 ///  Event handler will be executed by \"performer\". \"Event\" and \"handler\" must has equal argument lists.
 /// Returns PIObject::Connection
 #define CONNECTU_QUEUED(src, event, dest, handler, performer)
 /// \relatesalso PIObject @brief connect event \"event\" from object \"src\"  to  lambda-expression \"functor\". \"Event\" and \"functor\" must has equal argument lists.
 /// Returns PIObject::Connection
 #define CONNECTL(src, event, functor)
 /// \relatesalso PIObject @brief connect event \"event\" from object \"src\"  to  event handler \"handler\" with return type \"ret\" from object \"dest\" with check of event and handler exists
 /// Returns PIObject::Connection
 #define CONNECT0(ret, src, event, dest, handler)
 /// \relatesalso PIObject @brief connect event \"event\" from object \"src\"  to  event handler \"handler\" with return type \"ret\" from object \"dest\" with check of event and handler exists
 /// Returns PIObject::Connection
 #define CONNECT1(ret, type0, src, event, dest, handler)
 /// \relatesalso PIObject @brief connect event \"event\" from object \"src\"  to  event handler \"handler\" with return type \"ret\" from object \"dest\" with check of event and handler exists
 /// Returns PIObject::Connection
 #define CONNECT2(ret, type0, type1, src, event, dest, handler)
 /// \relatesalso PIObject @brief connect event \"event\" from object \"src\"  to  event handler \"handler\" with return type \"ret\" from object \"dest\" with check of event and handler exists
 /// Returns PIObject::Connection
 #define CONNECT3(ret, type0, type1, type2, src, event, dest, handler)
-/// \relatesalso PIObject @brief connect event \"event\" from object \"src\"  to  event handler \"handler\" with return type \"ret\" from object \"dest\" with check of event and handler exists
+/// \relatesalso PIObject @brief connect event \"event\" from object \"src\"  to  event handler \"handler\" with return type \"ret\" from object \"dest\" with check of event and handler exists.
 /// Returns PIObject::Connection
 #define CONNECT4(ret, type0, type1, type2, type3, src, event, dest, handler)
 /// \relatesalso PIObject @brief CONNECT is synonym of CONNECT0
--- a/libs/main/core/pivarianttypes.h
+++ b/libs/main/core/pivarianttypes.h
@@ -99,9 +99,6 @@ struct PIP_EXPORT Enum {
 	 * @brief Make vector of Enum names
 	 */
 	PIStringList names() const;
 	PIString enum_name;
 	PIString selected;
 	PIVector<Enumerator> enum_list;
 	/**
 	 * @brief Add PIVariantTypes::Enumerator to Enum
@@ -119,6 +116,15 @@ struct PIP_EXPORT Enum {
 	 * @brief Add PIVariantTypes::Enumerator element for each name in vector
 	 */
 	Enum & operator <<(const PIStringList & v);
 	/**
 	 * @brief Return true if Enum is empty
 	 */
 	bool isEmpty() const {return enum_list.isEmpty();}
 	PIString enum_name;
 	PIString selected;
 	PIVector<Enumerator> enum_list;
 };
 struct PIP_EXPORT File {
--- a/libs/main/crypt/picrypt.h
+++ b/libs/main/crypt/picrypt.h
@@ -58,6 +58,9 @@ public:
 	//! Generate hash from bytearray
 	static PIByteArray hash(const PIByteArray & data);
 	//! Generate hash from bytearray
 	static PIByteArray hash(const PIByteArray & data, const unsigned char * key, size_t keylen);
 	//! Returns hash size
 	static size_t sizeHash();
--- a/libs/main/io_devices/pibinarylog.cpp
+++ b/libs/main/io_devices/pibinarylog.cpp
@@ -181,7 +181,7 @@ bool PIBinaryLog::threadedRead(uchar *readed, int size) {
 		pausemutex.lock();
 		if (is_pause) {
 			pausemutex.unlock();
-			piMSleep(100);
+			piMSleep(100); // TODO: rewrite with condvar
 			return false;
 		} else if (pause_time > PISystemTime()) {
 			startlogtime += pause_time;
@@ -204,22 +204,22 @@ bool PIBinaryLog::threadedRead(uchar *readed, int size) {
 		int dtc;
 		if (is_started) {
 			if (is_pause) {
-				piMSleep(100);
+				piMSleep(100); // TODO: rewrite with condvar
 				return false;
 			}
 			if (delay > 0) {
-				cdelay = delay * play_speed;
+				cdelay = delay * play_speed;// TODO: rewrite with condvar
-				dtc = int(cdelay) /100;
+				dtc = int(cdelay) / 100;// TODO: rewrite with condvar
 				if (play_speed <= 0.) dtc = 2;
 				//piCout << play_speed << dtc;
 				for (int j=0; j<dtc; j++) {
-					cdelay = delay * play_speed;
+					cdelay = delay * play_speed;// TODO: rewrite with condvar
-					dtc = int(cdelay) /100;
+					dtc = int(cdelay) / 100;// TODO: rewrite with condvar
-					piMSleep(100);
+					piMSleep(100);// TODO: rewrite with condvar
 					if (play_speed <= 0.) {dtc = 2; j = 0;}
 					//piCout << "    " << play_speed << dtc << j;
 				}
-				cdelay = cdelay - dtc*100;
+				cdelay = cdelay - dtc*100;// TODO: rewrite with condvar
 				PISystemTime::fromMilliseconds(cdelay).sleep();
 			}
 		} else is_started = true;
@@ -228,7 +228,7 @@ bool PIBinaryLog::threadedRead(uchar *readed, int size) {
 	case PlayStaticDelay:
 		if (is_started) {
 			if (is_pause) {
-				piMSleep(100);
+				piMSleep(100);// TODO: rewrite with condvar
 				return false;
 			}
 			play_delay.sleep();
--- a/libs/main/io_devices/piethernet.cpp
+++ b/libs/main/io_devices/piethernet.cpp
@@ -993,6 +993,7 @@ void PIEthernet::configureFromVariantDevice(const PIPropertyStorage & d) {
 PIEthernet::InterfaceList PIEthernet::interfaces() {
 	//piCout << "PIEthernet::interfaces()";
 	PIEthernet::InterfaceList il;
 	Interface ci;
 	ci.index = -1;
@@ -1039,8 +1040,16 @@ PIEthernet::InterfaceList PIEthernet::interfaces() {
 			}
 			pAdapter = pAdapter->Next;
 		}
-	} else
+	} else {
-		piCout << "[PIEthernet] GetAdaptersInfo failed with error:" << ret;
+		switch (ret) {
 		case ERROR_NO_DATA: break;
 		case ERROR_NOT_SUPPORTED:
 			piCout << "[PIEthernet] GetAdaptersInfo not supported";
 			break;
 		default:
 			piCout << "[PIEthernet] GetAdaptersInfo failed with error:" << ret;
 		}
 	}
 	if (pAdapterInfo)
 		HeapFree(GetProcessHeap(), 0, (pAdapterInfo));
 #else
--- a/libs/main/io_devices/pifile.h
+++ b/libs/main/io_devices/pifile.h
@@ -85,6 +85,7 @@ public:
 	};
 	//! Constructs a file with path "path" and open mode "mode"
 	//! If "path" is not empty then open file
 	explicit PIFile(const PIString & path, DeviceMode mode = ReadWrite);
--- a/libs/main/io_devices/piiodevice.cpp
+++ b/libs/main/io_devices/piiodevice.cpp
@@ -239,7 +239,7 @@ void PIIODevice::check_start(void * data, int delim) {
 	//cout << "check " << tread_started_ << endl;
 	if (open()) {
 		thread_started_ = true;
-		timer.stop();
+		timer.stop(false);
 	}
 }
--- a/libs/main/io_devices/piserial.cpp
+++ b/libs/main/io_devices/piserial.cpp
@@ -289,6 +289,39 @@ bool PISerial::isRNG() const {return isBit(TIOCM_RNG, "RNG");}
 bool PISerial::isDSR() const {return isBit(TIOCM_DSR, "DSR");}
 bool PISerial::setBreak(bool enabled) {
 	if (fd < 0) {
 		piCoutObj << "sendBreak error: \"" << path() << "\" is not opened!";
 		return false;
 	}
 #ifdef WINDOWS
 	if (enabled) {
 		if (!SetCommBreak(PRIVATE->hCom)) {
 			piCoutObj << "setBreak error: " << errorString();
 			return false;
 		} else {
 			return true;
 		}
 	} else {
 		if (!ClearCommBreak(PRIVATE->hCom)) {
 			piCoutObj << "setBreak error: " << errorString();
 			return false;
 		} else {
 			return true;
 		}
 	}
 #else
 	if (ioctl(fd, enabled ? TIOCSBRK : TIOCCBRK) < 0) {
 		piCoutObj << "setBreak error: " << errorString();
 		return false;
 	} else {
 		return true;
 	}
 #endif
 	return false;
 }
 bool PISerial::setBit(int bit, bool on, const PIString & bname) {
 	if (fd < 0) {
 		piCoutObj << "setBit" << bname << " error: \"" << path() << "\" is not opened!";
--- a/libs/main/io_devices/piserial.h
+++ b/libs/main/io_devices/piserial.h
@@ -159,6 +159,12 @@ public:
 	bool isRNG() const;
 	bool isDSR() const;
 	//! Switch transmission line in break if enabled.
 	//! i.e. sends a continuous stream of zero bits.
 	//! If successful, returns true; otherwise returns false.
 	//! The serial port has to be open before trying to send a break duration; otherwise returns false
 	bool setBreak(bool enabled);
 	void setVTime(int t) {vtime = t; applySettings();}
 	//! Returns device name
--- a/libs/main/io_utils/pistreampacker.h
+++ b/libs/main/io_utils/pistreampacker.h
@@ -36,22 +36,6 @@ public:
 	//! Contructs packer and try to assign \"dev\"
 	PIStreamPacker(PIIODevice * dev = 0);
 	//! Progress info
 	struct PIP_IO_UTILS_EXPORT Progress {
 		Progress();
 		//! Is send/receive in progress
 		bool active;
 		//! Overall send/receive packet size
 		int bytes_all;
 		//! Current send/receive size
 		int bytes_current;
 		//! Current send/receive progress from 0 to 1
 		double progress;
 	};
 	//! Set maximum size of single packet
 	void setMaxPacketSize(int max_size) {max_packet_size = max_size;}
@@ -83,6 +67,8 @@ public:
 	bool cryptSizeEnabled() const {return crypt_size;}
 	void setCryptSizeEnabled(bool on);
 	void clear();
 	//! Prepare data for send and raise \a sendRequest() events
 	void send(const PIByteArray & data);
@@ -97,12 +83,6 @@ public:
 	//! and \a sendRequest() event to \"dev\" \a PIIODevice::write() handler
 	void assignDevice(PIIODevice * dev);
 	//! Returns \a Progress info about sending
 	Progress progressSend() const;
 	//! Returns \a Progress info about receiving
 	Progress progressReceive() const;
 	EVENT1(packetReceiveEvent, PIByteArray &, data)
 	EVENT1(sendRequest, PIByteArray, data)
@@ -139,7 +119,6 @@ private:
 	int packet_size, crypt_frag_size;
 	ushort packet_sign;
 	int max_packet_size, size_crypted_size;
 	Progress prog_s, prog_r;
 	mutable PIMutex prog_s_mutex, prog_r_mutex;
 };
--- a/libs/main/system/pisysteminfo.cpp
+++ b/libs/main/system/pisysteminfo.cpp
@@ -259,7 +259,7 @@ uint PISystemInfo::machineID() {
 	if (ret == 0) {
 		CRC_32 crc = standardCRC_32();
 		ret = crc.calculate(machineKey().toByteArray());
-		piCout << "machineID \"" << machineKey() << "\" =" << PICoutManipulators::Hex << ret;
+		//piCout << "machineID \"" << machineKey() << "\" =" << PICoutManipulators::Hex << ret;
 	}
 	return ret;
 }
--- a/libs/main/thread/pithread.cpp
+++ b/libs/main/thread/pithread.cpp
@@ -329,13 +329,13 @@ bool PIThread::_startThread(void * func) {
 	pthread_attr_destroy(&attr);
 	if (ret == 0) {
 #  ifdef MAC_OS
-		pthread_setname_np(((PIString&)name().elided(15, 0.4f).resize(15, '\0')).dataAscii());
+		pthread_setname_np(((PIString&)name().elided(15, 0.4f).resize(15, PIChar('\0'))).dataAscii());
 		pthread_threadid_np(PRIVATE->thread, (__uint64_t*)&tid_);
 #  else
 #    ifdef FREERTOS
 		tid_ = PRIVATE->thread;
 #    else
-		pthread_setname_np(PRIVATE->thread, ((PIString&)name().elided(15, 0.4f).resize(15, '\0')).dataAscii());
+		pthread_setname_np(PRIVATE->thread, ((PIString&)name().elided(15, 0.4f).resize(15, PIChar('\0'))).dataAscii());
 #    endif
 #  endif
 #else
@@ -554,7 +554,7 @@ void PIThread::__thread_func_once__() {
 void PIThread::runOnce(PIObject * object, const char * handler, const PIString & name) {
 	PIThread * t = new PIThread();
 	t->setName(name);
-	if (!PIObject::piConnectU(t, PIStringAscii("started"), object, object, PIStringAscii(handler), "PIThread::runOnce")) {
+	if (!PIObject::piConnectU(t, PIStringAscii("started"), object, object, PIStringAscii(handler), "PIThread::runOnce").isValid()) {
 		delete t;
 		return;
 	}
--- a/libs/main/thread/pithreadmodule.h
+++ b/libs/main/thread/pithreadmodule.h
@@ -26,7 +26,8 @@
 #include "pitimer.h"
 #include "pipipelinethread.h"
 #include "pigrabberbase.h"
 #include "pithreadpoolexecutor.h"
 #include "piconditionvar.h"
 #include "pithreadpoolexecutor.h"
 #include "pithreadpoolloop.h"
 #endif // PITHREADMODULE_H
--- a/libs/main/thread/pithreadpoolloop.cpp
+++ b/libs/main/thread/pithreadpoolloop.cpp
@@ -0,0 +1,130 @@
 /*
 	PIP - Platform Independent Primitives
 	Thread pool loop
 	Ivan Pelipenko peri4ko@yandex.ru
 	This program is free software: you can redistribute it and/or modify
 	it under the terms of the GNU Lesser General Public License as published by
 	the Free Software Foundation, either version 3 of the License, or
 	(at your option) any later version.
 	This program is distributed in the hope that it will be useful,
 	but WITHOUT ANY WARRANTY; without even the implied warranty of
 	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 	GNU Lesser General Public License for more details.
 	You should have received a copy of the GNU Lesser General Public License
 	along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */
 #include "pithreadpoolloop.h"
 #include "pisysteminfo.h"
 #include "pithread.h"
 /*! \class PIThreadPoolLoop
 * @brief Thread class
 * \details This class allow you parallelize loop.
 * 
 * \section PIThreadPoolLoop_sec0 Usage
 * This class designed to replace "for(;;)" statement in very simple way.
 * In constructor several threads created, then by "setFunction()" method
 * you should pass body of your loop, and then call "start()" or "exec()".
 * Every thread take loop counter and execute your function until all
 * counter range is passed.
 *
 * Example:
 \code{.cpp}
 PIVector<int> data(10, [](int i)->int{return i;});
 piCout << data; // {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}
 PIThreadPoolLoop pool;
 pool.exec(0, data.size(), [&](int i){ // parallel analogue "for (int i = 0; i < data.size(); i++)"
 	data[i] = data[i] + 10;
 });
 piCout << data; // {10, 11, 12, 13, 14, 15, 16, 17, 18, 19}
 \endcode
 *
 * Equivalent to:
 \code{.cpp}
 PIVector<int> data(10, [](int i)->int{return i;});
 piCout << data; // {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}
 pool.setFunction([&](int i){
 	data[i] = data[i] + 10;
 });
 pool.exec(0, data.size());
 piCout << data; // {10, 11, 12, 13, 14, 15, 16, 17, 18, 19}
 \endcode
 *
 * \section PIThreadPoolLoop_sec1 Important
 * Due to multithreading it`s very important to protect output data of loop body, use mutex.
 * Also remember that execution order is undefined and you shouldn`t use global variables in
 * your function. Use local variables and lambda capture.
 * 
 */
 PIThreadPoolLoop::PIThreadPoolLoop(int thread_cnt) {
 	if (thread_cnt <= 0)
 		thread_cnt = piMaxi(1, PISystemInfo::instance()->processorsCount);
 	piForTimes (thread_cnt) {
 		auto * t = new PIThread();
 		threads << t;
 	}
 	//piCout << "PIThreadPoolLoop" << proc_cnt << "threads";
 }
 PIThreadPoolLoop::~PIThreadPoolLoop() {
 	for (auto * t: threads) {
 		t->stop(false);
 		if (!t->waitForFinish(100))
 			t->terminate();
 		delete t;
 	}
 }
 void PIThreadPoolLoop::setFunction(std::function<void (int)> f) {
 	func = f;
 }
 void PIThreadPoolLoop::start(int index_start, int index_count) {
 	counter = index_start;
 	int end = index_start + index_count;
 	for (auto * t: threads)
 		t->start([this,end,t](){
 			while (1) {
 				int cc = counter.fetch_add(1);
 				if (cc >= end) {
 					t->stop(false);
 					return;
 				}
 				func(cc);
 			}
 		});
 }
 void PIThreadPoolLoop::exec(int index_start, int index_count) {
 	start(index_start, index_count);
 	wait();
 }
 void PIThreadPoolLoop::exec(int index_start, int index_count, std::function<void (int)> f) {
 	setFunction(f);
 	exec(index_start, index_count);
 }
 void PIThreadPoolLoop::wait() {
 	for (auto * t: threads)
 		t->waitForFinish();
 }
--- a/libs/main/thread/pithreadpoolloop.h
+++ b/libs/main/thread/pithreadpoolloop.h
@@ -0,0 +1,69 @@
 /*! @file pithreadpoolloop.h
 * @brief Thread pool loop
 * 
 * This file declare thread class and some wait functions
 */
 /*
 	PIP - Platform Independent Primitives
 	Thread pool loop
 	Ivan Pelipenko peri4ko@yandex.ru
 	This program is free software: you can redistribute it and/or modify
 	it under the terms of the GNU Lesser General Public License as published by
 	the Free Software Foundation, either version 3 of the License, or
 	(at your option) any later version.
 	This program is distributed in the hope that it will be useful,
 	but WITHOUT ANY WARRANTY; without even the implied warranty of
 	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 	GNU Lesser General Public License for more details.
 	You should have received a copy of the GNU Lesser General Public License
 	along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */
 #ifndef PITHREADPOOLLOOP_H
 #define PITHREADPOOLLOOP_H
 #include "pivector.h"
 class PIThread;
 class PIP_EXPORT PIThreadPoolLoop {
 public:
 	//! Contructs thread pool with threads count "thread_cnt".
 	//! If "thread_cnt" = -1 then system processors count used
 	PIThreadPoolLoop(int thread_cnt = -1);
 	virtual ~PIThreadPoolLoop();
 	//! Set threads function to "f" with format [](int){...}
 	void setFunction(std::function<void(int)> f);
 	//! Wait for all threads stop
 	void wait();
 	//! Start functions execution with integer argument range
 	//! from "index_start" to "index_start + index_count - 1"
 	void start(int index_start, int index_count);
 	//! Start functions execution with integer argument range
 	//! from "index_start" to "index_start + index_count - 1"
 	//! and wait for finish
 	void exec(int index_start, int index_count);
 	//! Start functions "f" execution with integer argument range
 	//! from "index_start" to "index_start + index_count - 1"
 	//! and wait for finish
 	void exec(int index_start, int index_count, std::function<void(int)> f);
 private:
 	PIVector<PIThread * > threads;
 	std::function<void(int)> func;
 	std::atomic_int counter;
 };
 #endif
--- a/main.cpp
+++ b/main.cpp
@@ -2,6 +2,58 @@
 int main(int argc, char * argv[]) {
 	PIVector<int> data(10, [](int i)->int{return i;});
 	piCout << data;
 	PIThreadPoolLoop pool;
 	pool.setFunction([&](int i){
 		data[i] = data[i] + 10;
 	});
 	pool.exec(0, data.size());
 	piCout << data;
 	return 0;
 	PIVector<int> x(20, [](int i) {return i;});
 	piCout << x;
 	piCout << x.any([](int v) {return v == 10;});
 	piCout << x.every([](int v) {return v > 0;});
 	piCout << x.etries([](int v) {return v % 5 == 0;});
 	piCout << x.indexWhere([](int v) {return v % 8 == 0;});
 	piCout << x.indexOf(4, -1);
 	piCout << x.lastIndexOf(1, 0);
 	piCout << x.lastIndexWhere([](int v) {return v % 8 == 0;});
 	PIVector<double> x2 = x.map<double>([](int v) {return v / 10.0;});
 	piCout << x2;
 	piCout << x.reduce<PIString>([](int v, PIString s){return s + PIString::fromNumber(v);});
 	piCout << x.removeWhere([](int v){return v % 2 == 0;});
 	piCout << x.getRange(8, 1);
 	piCout << x.getRange(8, 100);
 	piCout << "=====================";
 	PIDeque<int> y(20, [](int i) {return i;});
 	piCout << y;
 	piCout << y.any([](int v) {return v == 10;});
 	piCout << y.every([](int v) {return v > 0;});
 	piCout << y.etries([](int v) {return v % 5 == 0;});
 	piCout << y.indexWhere([](int v) {return v % 8 == 0;});
 	piCout << y.indexOf(4, -1);
 	piCout << y.lastIndexOf(1, 0);
 	piCout << y.lastIndexWhere([](int v) {return v % 8 == 0;});
 	PIDeque<double> y2 = y.map<double>([](int v) {return v / 10.0;});
 	piCout << y2;
 	piCout << y.reduce<PIString>([](int v, PIString s){return s + PIString::fromNumber(v);});
 	piCout << y.removeWhere([](int v){return v % 2 == 0;});
 	piCout << y.getRange(8, 1);
 	piCout << y.getRange(8, 100);
 	return 0; // TODO:
 	PIByteArray rnd;
 	rnd.resize(1024*1024, 'x'); 
 	PICLI cli(argc, argv);
 	PITimer tm;
 	cli.addArgument("connect", true);
@@ -28,18 +80,25 @@ int main(int argc, char * argv[]) {
 	}));
 	CONNECTL(&c, threadedReadEvent, ([&](uchar * readed, int size){
 		PIByteArray ba(readed, size);
-		PIString str = PIString(ba);
+		if (size < 1024) {
-		piCout << "[Client] data:" << str;
+			PIString str = PIString(ba);
-		if (str == "ping_S") c.write(PIString("pong_S").toByteArray());
+			piCout << "[Client] data:" << str;
 			if (str == "ping_S") c.write(PIString("pong_S").toByteArray());
 		} else piCout << "[Client] blob:" << size;
 	}));
 	CONNECTL(&c, connected, ([](){piCout << "connected";}));
 	CONNECTL(&c, disconnected, ([](){piCout << "disconnected";}));
 	CONNECTL(&s, newConnection, ([&](PICloudServer::Client * cl){
 		piCout << "[Server] new client:" << cl;
 		clients << cl;
-		CONNECTL(cl, threadedReadEvent, ([&c, &s, cl](uchar * readed, int size){
+		CONNECTL(cl, threadedReadEvent, ([&c, &s, cl, &rnd](uchar * readed, int size){
 			PIByteArray ba(readed, size);
 			PIString str = PIString(ba);
 			piCout << "[Server] data from" << cl << ":" << str;
-			if (str == "ping") cl->write(PIString("pong").toByteArray());
+			if (str == "ping") {
 				cl->write(PIString("pong").toByteArray());
 				cl->write(rnd);
 			}
 		}));
 		CONNECTL(cl, closed, ([&clients, cl](){
 			cl->stop();
--- a/tests/CMakeLists.txt
+++ b/tests/CMakeLists.txt
@@ -25,3 +25,4 @@ endmacro()
 pip_test(concurrent "")
 pip_test(math "")
 pip_test(core "")
 pip_test(piobject "")
--- a/tests/math/testpimathmatrix.cpp
+++ b/tests/math/testpimathmatrix.cpp
@@ -1,54 +1,73 @@
 #include "gtest/gtest.h"
 #include "pimathmatrix.h"
-bool cmpSquareMatrixWithValue(PIMathMatrix<double> matrix, double val, int num) {
+template<typename Type>
-	bool b = true;
+bool cmpSquareMatrixWithValue(PIMathMatrix<Type> matrix, Type val, int num) {
 	for(int i = 0; i < num; i++) {
 		for(int j = 0; j < num; j++) {
 			if(matrix.element(i, j) != val) {
-				b = false;
+				return false;
 			}
 		}
 	}
-	return b;
+	return true;
 }
-TEST(PIMathMatrix_Test, identity) {
+TEST(PIMathMatrix_Test, constructor1) {
 	PIMathMatrix<double> matrix(3, 3, 5.0);
 	ASSERT_TRUE(cmpSquareMatrixWithValue(matrix, 5.0, 3));
 }
 TEST(PIMathMatrix_Test, constructor2) {
 	PIVector<double> vector(2, 5.0);
 	PIMathMatrix<PIVector<double>> matrix(3, 3, vector);
 	ASSERT_TRUE(cmpSquareMatrixWithValue(matrix, vector, 3));
 }
 TEST(PIMathMatrix_Test, constructor3) {
 	PIVector2D<double> vector(2, 2, 5.0);
 	PIMathMatrix<double> matrix(vector);
 	ASSERT_TRUE(cmpSquareMatrixWithValue(matrix, 5.0, 2));
 }
 TEST(PIMathMatrix_Test, identity1) {
 	auto matrix = PIMathMatrix<double>::identity(3, 3);
 	for(int i = 0; i < 3; i++) {
 		for(int j = 0; j < 3; j++) {
 			if(i != j) {
 				if(matrix[i][j] != 0.0){
-					ASSERT_TRUE(false);
+					FAIL();
 				}
 			}
 			else {
 				if(matrix[i][i] != 1.0){
-					ASSERT_TRUE(false);
+					FAIL();
 				}
 			}
 		}
 	}
-	ASSERT_TRUE(true);
+	SUCCEED();
 }
 TEST(PIMathMatrix_Test, identity2) {
 	auto matrix = PIMathMatrix<double>::identity(4, 3);
 	for(int i = 0; i < 3; i++) {
 		for(int j = 0; j < 4; j++) {
 			if(matrix.element(i,j) != (i == j ? 1. : 0.))
 				FAIL();
 		}
 	}
 }
 TEST(PIMathMatrixT_Test, element) {
 	auto matrix = PIMathMatrix<double>::identity(3, 3);
-	for(int i = 0; i < 3; i++){
+	for(int i = 0; i < 3; i++) {
-		for(int j = 0; j < 3; j++){
+		for(int j = 0; j < 3; j++) {
-			if(i != j){
+			if(matrix.element(i,j) != (i == j ? 1. : 0.))
-				if(matrix[i][j] != 0.0){
+				FAIL();
 					ASSERT_TRUE(false);
 				}
 			}
 			else {
 				if(matrix.element(i,i) != 1.0) {
 					ASSERT_TRUE(false);
 				}
 			}
 		}
 	}
-	ASSERT_TRUE(true);
+	SUCCEED();
 }
 TEST(PIMathMatrix_Test, matrixRow) {
@@ -57,10 +76,10 @@ TEST(PIMathMatrix_Test, matrixRow) {
 	auto matrix = PIMathMatrix<double>::matrixRow(vector);
 	for(uint i = 0; i < vector.size(); i++) {
 		if(matrix[0][i] != 3.0) {
-			ASSERT_TRUE(false);
+			FAIL();
 		}
 	}
-	ASSERT_TRUE(true);
+	SUCCEED();
 }
 TEST(PIMathMatrix_Test, matrixCol) {
@@ -69,10 +88,10 @@ TEST(PIMathMatrix_Test, matrixCol) {
 	auto matrix = PIMathMatrix<double>::matrixCol(vector);
 	for(uint i = 0; i < vector.size(); i++) {
 		if(matrix[i][0] != 3.0) {
-			ASSERT_TRUE(false);
+			FAIL();
 		}
 	}
-	ASSERT_TRUE(true);
+	SUCCEED();
 }
 TEST(PIMathMatrix_Test, setCol) {
@@ -83,10 +102,10 @@ TEST(PIMathMatrix_Test, setCol) {
 	matrix.setCol(0, vector);
 	for(uint i = 0; i < vector.size(); i++) {
 		if(matrix[i][0] != 10.0) {
-			ASSERT_TRUE(false);
+			FAIL();
 		}
 	}
-	ASSERT_TRUE(true);
+	SUCCEED();
 }
 TEST(PIMathMatrix_Test, setRow) {
@@ -97,10 +116,10 @@ TEST(PIMathMatrix_Test, setRow) {
 	matrix.setRow(0, vector);
 	for(uint i = 0; i < vector.size(); i++) {
 		if(matrix[0][i] != 10.0) {
-			ASSERT_TRUE(false);
+			FAIL();
 		}
 	}
-	ASSERT_TRUE(true);
+	SUCCEED();
 }
 TEST(PIMathMatrix_Test, swapCols) {
@@ -137,407 +156,3 @@ TEST(PIMathMatrix_Test, swapCols) {
 	}
 	ASSERT_TRUE((memcmp(a1, b2, sizeof(b1)) == 0) && (memcmp(a2, b1, sizeof(b1)) == 0) && (memcmp(a3, b3, sizeof(b1)) == 0));
 }
 TEST(PIMathMatrix_Test, swapRows) {
 	PIMathMatrix<double> origMatr;
 	PIMathMatrix<double> matrix1;
 	PIMathVector<double> vector;
 	uint i1 = 0; uint i2 = 1;
 	double a1[3], a2[3], a3[3];
 	double b1[3], b2[3], b3[3];
 	vector.resize(3, 3.0);
 	vector[0] = 3.0;
 	vector[1] = 6.0;
 	vector[2] = 8.0;
 	matrix1 = origMatr.identity(3, 3);
 	matrix1.setCol(0, vector);
 	vector[0] = 2.0;
 	vector[1] = 1.0;
 	vector[2] = 4.0;
 	matrix1.setCol(1, vector);
 	vector[0] = 6.0;
 	vector[1] = 2.0;
 	vector[2] = 5.0;
 	matrix1.setCol(2, vector);
 	for(int i = 0; i < 3; i++) {
 		a1[i] = matrix1.element(0, i);
 		a2[i] = matrix1.element(1, i);
 		a3[i] = matrix1.element(2, i);
 	}
 	matrix1.swapRows(i1, i2);
 	for(int i = 0; i < 3; i++) {
 		b1[i] = matrix1.element(0, i);
 		b2[i] = matrix1.element(1, i);
 		b3[i] = matrix1.element(2, i);
 	}
 	ASSERT_TRUE((memcmp(a1, b2, sizeof(b1)) == 0) && (memcmp(a2, b1, sizeof(b1)) == 0) && (memcmp(a3, b3, sizeof(b1)) == 0));
 }
 TEST(PIMathMatrix_Test, fill) {
 	PIMathMatrix<double> matrix(3, 3, 5.0);
 	matrix.fill(7.0);
 	ASSERT_TRUE(cmpSquareMatrixWithValue(matrix, 7.0, 3));
 }
 TEST(PIMathMatrix_Test, isSquareTrue) {
 	PIMathMatrix<double> matrix(3, 3, 1.0);
 	ASSERT_TRUE(matrix.isSquare());
 }
 TEST(PIMathMatrix_Test, isSquareFalse) {
 	PIMathMatrix<double> matrix(2, 4, 1.0);
 	ASSERT_FALSE(matrix.isSquare());
 }
 TEST(PIMathMatrix_Test, isIdentityTrue) {
 	auto matrix = PIMathMatrix<double>::identity(3, 3);
 	ASSERT_TRUE(matrix.isIdentity());
 }
 TEST(PIMathMatrix_Test, isIdentityFalse) {
 	PIMathMatrix<double> matrix(3, 3, 5.0);
 	ASSERT_FALSE(matrix.isIdentity());
 }
 TEST(PIMathMatrix_Test, isNullTrue) {
 	PIMathMatrix<double> matrix(3, 3, 0.0);
 	ASSERT_TRUE(matrix.isNull());
 }
 TEST(PIMathMatrix_Test, isNullFalse) {
 	PIMathMatrix<double> matrix(3, 3, 5.0);
 	ASSERT_FALSE(matrix.isNull());
 }
 TEST(PIMathMatrix_Test, isValidTrue) {
 	PIMathMatrix<double> matrix(3, 3, 1.62);
 	ASSERT_TRUE(matrix.isValid());
 }
 TEST(PIMathMatrix_Test, isValidFalse) {
 	PIMathMatrix<double> matrix;
 	ASSERT_FALSE(matrix.isValid());
 }
 TEST(PIMathMatrix_Test, operator_Assignment) {
 	PIMathMatrix<double> matrix1(3, 3, 5.72);
 	PIMathMatrix<double> matrix2(3, 3, 7.12);
 	matrix1 = matrix2;
 	ASSERT_TRUE(cmpSquareMatrixWithValue(matrix1, 7.12, 3));
 }
 TEST(PIMathMatrix_Test, operator_EqualTrue) {
 	PIMathMatrix<double> matrix1(2, 2, 2.0);
 	PIMathMatrix<double> matrix2(2, 2, 2.0);
 	matrix1.element(0, 0) = 5.1;
 	matrix1.element(0, 1) = 1.21;
 	matrix1.element(1, 1) = 0.671;
 	matrix1.element(1, 0) = 2.623;
 	matrix2.element(0, 0) = 5.1;
 	matrix2.element(0, 1) = 1.21;
 	matrix2.element(1, 1) = 0.671;
 	matrix2.element(1, 0) = 2.623;
 	ASSERT_TRUE(matrix1 == matrix2);
 }
 TEST(PIMathMatrix_Test, operator_EqualFalse) {
 	PIMathMatrix<double> matrix1(2, 2, 2.0);
 	PIMathMatrix<double> matrix2(2, 2, 2.0);
 	matrix1.element(0, 0) = 5.1;
 	matrix1.element(0, 1) = 1.21;
 	matrix1.element(1, 1) = 0.671;
 	matrix1.element(1, 0) = 2.623;
 	matrix2.element(0, 0) = 5.1;
 	matrix2.element(0, 1) = 1.21;
 	matrix2.element(1, 1) = 665.671;
 	matrix2.element(1, 0) = 2.623;
 	ASSERT_FALSE(matrix1 == matrix2);
 }
 TEST(PIMathMatrix_Test, operator_Not_EqualTrue) {
 	PIMathMatrix<double> matrix1(2, 2, 2.0);
 	PIMathMatrix<double> matrix2(2, 2, 2.0);
 	matrix1.element(0, 0) = 5.1;
 	matrix1.element(0, 1) = 1.21;
 	matrix1.element(1, 1) = 0.671;
 	matrix1.element(1, 0) = 2.623;
 	matrix2.element(0, 0) = 5.1;
 	matrix2.element(0, 1) = 1.21;
 	matrix2.element(1, 1) = 665.671;
 	matrix2.element(1, 0) = 2.623;
 	ASSERT_TRUE(matrix1 != matrix2);
 }
 TEST(PIMathMatrix_Test, operator_Not_EqualFalse) {
 	PIMathMatrix<double> matrix1(2, 2, 2.0);
 	PIMathMatrix<double> matrix2(2, 2, 2.0);
 	matrix1.element(0, 0) = 5.1;
 	matrix1.element(0, 1) = 1.21;
 	matrix1.element(1, 1) = 0.671;
 	matrix1.element(1, 0) = 2.623;
 	matrix2.element(0, 0) = 5.1;
 	matrix2.element(0, 1) = 1.21;
 	matrix2.element(1, 1) = 0.671;
 	matrix2.element(1, 0) = 2.623;
 	ASSERT_FALSE(matrix1 != matrix2);
 }
 TEST(PIMathMatrix_Test, operator_Addition_Aassignment) {
 	PIMathMatrix<double> matrix1(3, 3, 6.72);
 	PIMathMatrix<double> matrix2(3, 3, 1.0);
 	matrix1 += matrix2;
 	ASSERT_TRUE(cmpSquareMatrixWithValue(matrix1, 7.72, 3));
 }
 TEST(PIMathMatrix_Test, operator_Subtraction_Assignment) {
 	PIMathMatrix<double> matrix1(3, 3, 1.0);
 	PIMathMatrix<double> matrix2(3, 3, 6.72);
 	matrix1 -= matrix2;
 	ASSERT_TRUE(cmpSquareMatrixWithValue(matrix1, -5.72, 3));
 }
 TEST(PIMathMatrix_Test, operator_Multiplication_Assignment) {
 	PIMathMatrix<double> matrix1(3, 3, 6.72);
 	matrix1 *= 2.0;
 	ASSERT_TRUE(cmpSquareMatrixWithValue(matrix1, 13.44, 3));
 }
 TEST(PIMathMatrix_Test, operator_Division_Assignment) {
 	PIMathMatrix<double> matrix1(3, 3, 6.72);
 	matrix1 /= 2.0;
 	ASSERT_TRUE(cmpSquareMatrixWithValue(matrix1, 3.36, 3));
 }
 TEST(PIMathMatrix_Test, operator_Addition) {
 	PIMathMatrix<double> matrix1(3, 3, 6.72);
 	PIMathMatrix<double> matrix2(3, 3, 8.28);
 	ASSERT_TRUE(cmpSquareMatrixWithValue(matrix1 + matrix2, 15.0, 3));
 }
 TEST(PIMathMatrix_Test, operator_Subtraction) {
 	PIMathMatrix<double> matrix1(3, 3, 6.0);
 	PIMathMatrix<double> matrix2(3, 3, 5.0);
 	ASSERT_TRUE(cmpSquareMatrixWithValue(matrix1 - matrix2, 1.0, 3));
 }
 TEST(PIMathMatrix_Test, operator_Multiplication) {
 	PIMathMatrix<double> matrix1(3, 3, 6.72);
 	PIMathMatrix<double> matrix2(3, 3, 5.0);
 	matrix2 = matrix1*4.0;
 	ASSERT_TRUE(cmpSquareMatrixWithValue(matrix2, 26.88, 3));
 }
 TEST(PIMathMatrix_Test, operator_Division) {
 	PIMathMatrix<double> matrix1(3, 3, 6.72);
 	PIMathMatrix<double> matrix2(3, 3, 5.0);
 	matrix2 = matrix1/4.0;
 	ASSERT_TRUE(cmpSquareMatrixWithValue(matrix2, 1.68, 3));
 }
 TEST(PIMathMatrix_Test, determinantIfSquare) {
 	double d;
 	double i = 59.0;
 	PIMathMatrix<double> matrix(3, 3, 0.0);
 	PIMathVector<double> vector;
 	vector.resize(3, 3.0);
 	vector[0] = 3.0;
 	vector[1] = 6.0;
 	vector[2] = 8.0;
 	matrix.setCol(0, vector);
 	vector[0] = 2.0;
 	vector[1] = 1.0;
 	vector[2] = 4.0;
 	matrix.setCol(1, vector);
 	vector[0] = 6.0;
 	vector[1] = 2.0;
 	vector[2] = 5.0;
 	matrix.setCol(2, vector);
 	d = matrix.determinant();
 	ASSERT_DOUBLE_EQ(d, i);
 }
 TEST(PIMathMatrix_Test, trace) {
 	PIMathMatrix<double> matrix(3, 3, 0.0);
 	double t;
 	double i = 9.0;
 	PIMathVector<double> vector;
 	vector.resize(3, 3.0);
 	vector[0] = 3.0;
 	vector[1] = 6.0;
 	vector[2] = 8.0;
 	matrix.setCol(0, vector);
 	vector[0] = 2.0;
 	vector[1] = 1.0;
 	vector[2] = 4.0;
 	matrix.setCol(1, vector);
 	vector[0] = 6.0;
 	vector[1] = 2.0;
 	vector[2] = 5.0;
 	matrix.setCol(2, vector);
 	t = matrix.trace();
 	ASSERT_DOUBLE_EQ(t, i);
 }
 TEST(PIMathMatrix_Test, toUpperTriangular) {
 	PIMathMatrix<double> matrix(3, 3, 0.0);
 	double d1, d2 = 1;
 	int i;
 	PIMathVector<double> vector;
 	vector.resize(3, 3.0);
 	vector[0] = 3.0;
 	vector[1] = 6.0;
 	vector[2] = 8.0;
 	matrix.setCol(0, vector);
 	vector[0] = 2.0;
 	vector[1] = 1.0;
 	vector[2] = 4.0;
 	matrix.setCol(1, vector);
 	vector[0] = 6.0;
 	vector[1] = 2.0;
 	vector[2] = 5.0;
 	matrix.setCol(2, vector);
 	d1 = matrix.determinant();
 	matrix.toUpperTriangular();
 	for(i = 0; i < 3; i++)
 	{
 		d2 = d2 * matrix.element(i, i);
 	}
 	ASSERT_DOUBLE_EQ(d1, d2);
 }
 TEST(PIMathMatrix_Test, invert) {
 	double d1, d2;
 	PIMathMatrix<double> matrix1(3, 3, 0.0);
 	PIMathMatrix<double> matrix2(3, 3, 0.0);
 	PIMathMatrix<double> matrix3(3, 3, 0.0);
 	PIMathMatrix<double> matrix4(3, 3, 0.0);
 	PIMathVector<double> vector;
 	vector.resize(3, 3.0);
 	vector[0] = 3.0;
 	vector[1] = 6.0;
 	vector[2] = 8.0;
 	matrix1.setCol(0, vector);
 	vector[0] = 2.0;
 	vector[1] = 1.0;
 	vector[2] = 4.0;
 	matrix1.setCol(1, vector);
 	vector[0] = 6.0;
 	vector[1] = 2.0;
 	vector[2] = 5.0;
 	matrix1.setCol(2, vector);
 	d1 = matrix1.determinant();
 	matrix2 = matrix1;
 	matrix2.invert();
 	d2 = matrix2.determinant();
 	matrix4.invert();
 	ASSERT_TRUE((matrix3 == matrix4) && (round((1/d1)*10000)/10000 == round(d2*10000)/10000));
 }
 TEST(PIMathMatrix_Test, inverted) {
 	double d1, d2;
 	PIMathMatrix<double> matrix1(3, 3, 0.0);
 	PIMathMatrix<double> matrix2(3, 3, 0.0);
 	PIMathMatrix<double> matrix3(3, 3, 0.0);
 	PIMathMatrix<double> matrix4(3, 3, 0.0);
 	PIMathVector<double> vector;
 	vector.resize(3, 3.0);
 	vector[0] = 3.0;
 	vector[1] = 6.0;
 	vector[2] = 8.0;
 	matrix1.setCol(0, vector);
 	vector[0] = 2.0;
 	vector[1] = 1.0;
 	vector[2] = 4.0;
 	matrix1.setCol(1, vector);
 	vector[0] = 6.0;
 	vector[1] = 2.0;
 	vector[2] = 5.0;
 	matrix1.setCol(2, vector);
 	d1 = matrix1.determinant();
 	matrix2 = matrix1;
 	matrix1 = matrix2.invert();
 	d2 = matrix1.determinant();
 	matrix3 = matrix4.invert();
 	ASSERT_TRUE((matrix3 == matrix4) && (round((1/d1)*10000)/10000 == round(d2*10000)/10000));
 }
 TEST(PIMathMatrix_Test, transposed) {
 	PIMathMatrix<double> origMatr;
 	double d1, d2;
 	PIMathMatrix<double> matrix1;
 	PIMathMatrix<double> matrix2;
 	PIMathMatrix<double> matrix3;
 	PIMathVector<double> vector;
 	vector.resize(3, 3.0);
 	vector[0] = 3.0;
 	vector[1] = 6.0;
 	vector[2] = 8.0;
 	matrix1 = origMatr.identity(3, 3);
 	matrix1.setCol(0, vector);
 	vector[0] = 2.0;
 	vector[1] = 1.0;
 	vector[2] = 4.0;
 	matrix1.setCol(1, vector);
 	vector[0] = 6.0;
 	vector[1] = 2.0;
 	vector[2] = 5.0;
 	matrix1.setCol(2, vector);
 	d1 = matrix1.determinant();
 	matrix2 = matrix1.transposed();
 	d2 = matrix2.determinant();
 	matrix3 = matrix2.transposed();
 	ASSERT_TRUE((d1 == d2) && (matrix1 == matrix3));
 }
 TEST(PIMathMatrix_Test, matrixMultiplication) {
 	PIMathMatrix<double> matrix1(2, 2, 1.5);
 	PIMathMatrix<double> matrix2(2, 2, 2.5);
 	ASSERT_TRUE(cmpSquareMatrixWithValue(matrix1 * matrix2, 7.5, 2));
 }
 TEST(PIMathMatrix_Test, matrixAndVectorMultiplication) {
 	PIMathMatrix<double> matrix1(2, 2, 1.5);
 	PIMathVector<double> vector;
 	vector.resize(2, 2.5);
 	for(uint i = 0; i < 2; i++) {
 		if((matrix1 * vector)[i] != 7.5) {
 			ASSERT_TRUE(false);
 		}
 	}
 	ASSERT_TRUE(true);
 }
 TEST(PIMathMatrix_Test, vectorAndMatrixMultiplication) {
 	PIMathMatrix<double> matrix1(2, 2, 1.5);
 	PIMathVector<double> vector;
 	vector.resize(2, 2.5);
 	for(uint i = 0; i < 2; i++) {
 		if((vector * matrix1)[i] != 7.5) {
 			ASSERT_TRUE(false);
 		}
 	}
 	ASSERT_TRUE(true);
 }
 TEST(PIMathMatrix_Test, valAndMatrixMultiplication) {
 	PIMathMatrix<double> matrix1(3, 3, 1.5);
 	ASSERT_TRUE(cmpSquareMatrixWithValue(25.0*matrix1, 37.5, 3));
 }
 TEST(PIMathMatrix_Test, hermitian) {
 	complex<double> val;
 	complex<double> res;
 	val.imag(1.0);
 	val.real(1.0);
 	PIMathMatrix<complex<double>> matrix(3, 3, val);
 	res.imag(-1.0);
 	res.real(1.0);
 	auto matr = hermitian(matrix);
 	for(uint i = 0; i < 3; i++) {
 		for(uint j = 0; j < 3; j++) {
 			if(matr.element(i, j) != res) {
 				ASSERT_TRUE(false);
 			}
 		}
 	}
 	ASSERT_TRUE(true);
 }
--- a/tests/math/testpimathmatrixt.cpp
+++ b/tests/math/testpimathmatrixt.cpp
@@ -5,15 +5,14 @@ const uint rows = 3;
 const uint cols = 3;
 bool cmpSquareMatrixWithValue(PIMathMatrixT<rows, cols, double> matrix, double val, int num) {
 	bool b = true;
 	for(int i = 0; i < num; i++) {
 		for(int j = 0; j < num; j++) {
 			if(matrix.at(i, j) != val) {
-				b = false;
+				return false;
 			}
 		}
 	}
-	return b;
+	return true;
 }
 TEST(PIMathMatrixT_Test, identity) {
--- a/tests/piobject/connect.cpp
+++ b/tests/piobject/connect.cpp
@@ -0,0 +1,317 @@
 #include "gtest/gtest.h"
 #include "piobject.h"
 class Object : public PIObject
 {
 	PIOBJECT(Object)
 public:
 	Object() {
 		x=0;
 //		CONNECTL(this, deleted, [](PIObject * o){
 //			piCout << "deteted" << o;
 //		});
 	}
 	void test() {event_test();}
 	void test_val() {event_val(x);}
 	int getX() const {return x;}
 	EVENT(event_test)
 	EVENT1(event_val, int, arg)
 	EVENT_HANDLER(void, handler_test) {x++;}
 	EVENT_HANDLER1(void, handler_val, int, arg) {x = arg;}
 private:
 	int x;
 };
 TEST(PiobjectConnections, CONNECT0) {
 	Object a;
 	Object b;
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	b.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	CONNECT0(void, &a, event_test, &b, handler_test);
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 1);
 	b.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 1);
 //	piCout << "================";
 }
 TEST(PiobjectConnections, CONNECT0_DISCONNECT) {
 	Object a;
 	Object b;
 	a.setName("A");
 	b.setName("B");
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	b.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	CONNECT0(void, &a, event_test, &b, handler_test);
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 1);
 	b.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 1);
 	PIObject::piDisconnect(&a, "event_test");
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 1);
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 1);
 	b.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 1);
 //	piCout << "================";
 }
 TEST(PiobjectConnections, CONNECTU) {
 	Object a;
 	Object b;
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	b.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	CONNECTU(&a, event_test, &b, handler_test);
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 1);
 	b.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 1);
 //	piCout << "================";
 }
 TEST(PiobjectConnections, CONNECTU_DISCONNECT) {
 	Object a;
 	Object b;
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	b.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	CONNECTU(&a, event_test, &b, handler_test);
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 1);
 	b.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 1);
 	PIObject::piDisconnect(&a, "event_test");
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 1);
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 1);
 	b.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 1);
 	a.handler_val(99);
 	ASSERT_EQ(a.getX(), 99);
 	ASSERT_EQ(b.getX(), 1);
 	CONNECTU(&a, event_val, &b, handler_val);
 	ASSERT_EQ(a.getX(), 99);
 	ASSERT_EQ(b.getX(), 1);
 	a.test_val();
 	ASSERT_EQ(a.getX(), 99);
 	ASSERT_EQ(b.getX(), 99);
 	a.handler_val(-1);
 	ASSERT_EQ(a.getX(), -1);
 	ASSERT_EQ(b.getX(), 99);
 	PIObject::piDisconnect(&a, "event_val", &b);
 	ASSERT_EQ(a.getX(), -1);
 	ASSERT_EQ(b.getX(), 99);
 	a.test_val();
 	ASSERT_EQ(a.getX(), -1);
 	ASSERT_EQ(b.getX(), 99);
 //	piCout << "================";
 }
 TEST(PiobjectConnections, CONNECTL) {
 	Object a;
 	Object b;
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	b.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	CONNECTL(&a, event_test, [&b](){
 		b.handler_val(7);
 	});
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 7);
 	b.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 7);
 //	piCout << "================";
 }
 TEST(PiobjectConnections, CONNECTL_DISCONNECT) {
 	Object a;
 	Object b;
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	b.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	CONNECTL(&a, event_test, [&b](){
 		b.handler_test();
 	});
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 1);
 	b.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 1);
 	b.handler_test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 2);
 	PIObject::piDisconnect(&a, "event_test");
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 2);
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 2);
 //	piCout << "================";
 }
 TEST(PiobjectConnections, CONNECTL_twice) {
 	Object a;
 	Object b;
 	CONNECTL(&a, event_test, [&b](){
 		b.handler_test();
 	});
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 1);
 	CONNECTL(&a, event_test, [&b](){
 		b.handler_test();
 	});
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 3);
 	b.handler_val(0);
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	PIObject::piDisconnect(&a, "event_test");
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 0);
 	CONNECTL(&a, event_test, [&b](){
 		b.handler_test();
 	});
 	a.test();
 	ASSERT_EQ(a.getX(), 0);
 	ASSERT_EQ(b.getX(), 1);
 //	piCout << "================";
 }
 TEST(PiobjectConnections, CONNECT_AFTER_DISCONNECT) {
 	Object a;
 	Object b;
 	CONNECTL(&a, event_test, [&b](){
 		b.handler_test();
 	});
 	a.test();
 	ASSERT_EQ(b.getX(), 1);
 	PIObject::piDisconnect(&a, "event_test");
 	a.test();
 	ASSERT_EQ(b.getX(), 1);
 	DISCONNECT1(void, int, &a, event_val, &b, handler_val);
 	CONNECT1(void, int, &a, event_val, &b, handler_val);
 	a.handler_val(8);
 	a.test_val();
 	ASSERT_EQ(a.getX(), 8);
 	ASSERT_EQ(b.getX(), 8);
 //	piCout << "================";
 }
 TEST(PiobjectConnections, CONNECTL_WRONG_DISCONNECT) {
 	Object a;
 	Object b;
 	CONNECTL(&a, event_test, [&b](){
 		b.handler_test();
 	});
 	a.test();
 	ASSERT_EQ(b.getX(), 1);
 	PIObject::piDisconnect(&b, "event_test");
 	a.test();
 	ASSERT_EQ(b.getX(), 2);
 	PIObject::piDisconnect(&a, "event_test");
 	a.test();
 	ASSERT_EQ(b.getX(), 2);
 //	piCout << "================";
 }
 TEST(PiobjectConnections, CONNECT_WRONG_DISCONNECT) {
 	Object a;
 	Object b;
 	CONNECT0(void, &a, event_test, &b, handler_test);
 	a.test();
 	ASSERT_EQ(b.getX(), 1);
 	PIObject::piDisconnect(&b, "event_test");
 	a.test();
 	ASSERT_EQ(b.getX(), 2);
 	PIObject::piDisconnect(&a, "event_test");
 	a.test();
 	ASSERT_EQ(b.getX(), 2);
 //	piCout << "================";
 }
 TEST(PiobjectConnections, CONNECTU_WRONG_DISCONNECT) {
 	Object a;
 	Object b;
 	CONNECTU(&a, event_test, &b, handler_test);
 	a.test();
 	ASSERT_EQ(b.getX(), 1);
 	PIObject::piDisconnect(&b, "event_test");
 	a.test();
 	ASSERT_EQ(b.getX(), 2);
 	PIObject::piDisconnect(&a, "event_test");
 	a.test();
 	ASSERT_EQ(b.getX(), 2);
 //	piCout << "================";
 }
--- a/utils/cloud_dispatcher/CMakeLists.txt
+++ b/utils/cloud_dispatcher/CMakeLists.txt
@@ -22,5 +22,6 @@ if (NOT DEFINED ANDROID_PLATFORM)
 		DEPLOY_DIR ${CMAKE_CURRENT_BINARY_DIR}
 		DESTINATION ${ROOT_DIR}/release
 		DEB_ADD_SERVICE
 		ADD_MANIFEST
 		)
 endif()
--- a/utils/cloud_dispatcher/cloudserver.cpp
+++ b/utils/cloud_dispatcher/cloudserver.cpp
@@ -4,9 +4,12 @@ CloudServer::CloudServer(DispatcherClient * c, const PIByteArray & sname) : serv
 	setName(sname.toHex());
 	server_uuid = sname;
 	CONNECTL(c, dataReadedServer, ([this](uint id, PIByteArray & ba){
 		last_ping.reset();
 		DispatcherClient * cl = index_clients.value(id, nullptr);
 		if (cl) cl->sendData(ba);
 	}));
 	CONNECTL(c, pingReceived, [this]() {last_ping.reset();});
 	last_ping.reset();
 }
@@ -23,20 +26,21 @@ PIByteArray CloudServer::serverUUID() const {
 void CloudServer::addClient(DispatcherClient * c) {
 	last_ping.reset();
 	clients << c;
-	index_clients.insert(c->clientId(), c);
+	uint cid = c->clientId();
 	index_clients.insert(cid, c);
 	c->sendConnected(1);
-	server->sendConnected(c->clientId());
+	server->sendConnected(cid);
-	CONNECTL(c, dataReaded, ([this, c](PIByteArray & ba){
+	CONNECTL(c, dataReaded, ([this, cid](PIByteArray & ba){
 //		piCoutObj << c->clientId() << "dataReaded";
-		if (clients.contains(c)) {
+		server->sendDataToClient(ba, cid);
 			server->sendDataToClient(ba, c->clientId());
 		}
 	}));
 }
 void CloudServer::removeClient(DispatcherClient * c) {
 	last_ping.reset();
 	clients.removeOne(c);
 	index_clients.removeOne(c->clientId());
 	server->sendDisconnected(c->clientId());
@@ -48,6 +52,11 @@ PIVector<DispatcherClient *> CloudServer::getClients() {
 }
 double CloudServer::lastPing() {
 	return last_ping.elapsed_s();
 }
 void CloudServer::printStatus() {
 	piCout << "    " << "Clients for" << server->address() << server_uuid.toHex() << ":";
 	for (auto c: clients) {
--- a/utils/cloud_dispatcher/cloudserver.h
+++ b/utils/cloud_dispatcher/cloudserver.h
@@ -15,12 +15,14 @@ public:
 	PIVector<DispatcherClient*> getClients();
 	EVENT_HANDLER0(void, printStatus);
 	const DispatcherClient * getConnection() const {return server;}
 	double lastPing();
 private:
 	DispatcherClient * server;
 	PIVector<DispatcherClient*> clients;
 	PIMap<uint, DispatcherClient*> index_clients;
 	PIByteArray server_uuid;
 	PITimeMeasurer last_ping;
 };
 #endif // CLOUDSERVER_H
--- a/utils/cloud_dispatcher/dispatcherclient.cpp
+++ b/utils/cloud_dispatcher/dispatcherclient.cpp
@@ -6,7 +6,7 @@ DispatcherClient::DispatcherClient(PIEthernet * eth_, int id) : authorised(false
 	CONNECTU(&disconnect_tm, tickEvent, eth, close);
 	CONNECTU(&streampacker, packetReceiveEvent, this, readed);
 	CONNECTU(eth, disconnected, this, disconnected);
-	piCoutObj << "client connected" << eth->sendAddress();
+	piCoutObj << "client connected" << client_id << eth->sendAddress();
 }
@@ -26,6 +26,13 @@ PIString DispatcherClient::address() {
 }
 void DispatcherClient::close() {
 	static_cast<PIThread*>(eth)->stop(false);
 	eth->close();
 }
 void DispatcherClient::terminate() {
 	eth->stop();
 	eth->close();
 }
@@ -65,10 +72,11 @@ void DispatcherClient::disconnected(bool withError) {
 void DispatcherClient::readed(PIByteArray & ba) {
 //	piCout << size;
 	PIPair<PICloud::TCP::Type, PICloud::TCP::Role> hdr = tcp.parseHeader(ba);
 //	piCoutObj << "readed" << hdr.first << hdr.second;
 	if (hdr.first == PICloud::TCP::InvalidType) {
 		disconnected(true);
 		piCoutObj << "invalid message";
 		return;
 	}
 	if (authorised) {
@@ -80,10 +88,9 @@ void DispatcherClient::readed(PIByteArray & ba) {
 				disconnected(false);
 			return;
 			case PICloud::TCP::Data:
-//				piCoutObj << "TCP::Data";
+				//piCoutObj << "TCP::Data" << tcp.role();
 				if (tcp.role() == PICloud::TCP::Client) {
-					PIByteArray data = tcp.parseData(ba);
+					if (tcp.canParseData(ba)) dataReaded(ba);
 					if (!data.isEmpty()) dataReaded(data);
 					else piCoutObj << "invalid data from client";
 				}
 				if (tcp.role() == PICloud::TCP::Server) {
@@ -92,11 +99,15 @@ void DispatcherClient::readed(PIByteArray & ba) {
 					else piCoutObj << "invalid data from server";
 				}
 			return;
 			case PICloud::TCP::Ping:
 				pingReceived();
 				return;
 			default:
 				piCoutObj << "unknown data";
 				//disconnected(true);
 			return;
 			}
-		}
+		} else piCoutObj << "invalid role";
 	} else {
 		switch (hdr.first) {
 		case PICloud::TCP::Connect: {
@@ -104,7 +115,8 @@ void DispatcherClient::readed(PIByteArray & ba) {
 			PIByteArray sn = tcp.parseConnect_d(ba);
 			if (hdr.second == PICloud::TCP::Server) registerServer(sn, this);
 			if (hdr.second == PICloud::TCP::Client) registerClient(sn, this);
-			return;}
+			return;
 		}
 		case PICloud::TCP::Disconnect:
 			disconnected(false);
 		return;
--- a/utils/cloud_dispatcher/dispatcherclient.h
+++ b/utils/cloud_dispatcher/dispatcherclient.h
@@ -13,6 +13,7 @@ public:
 	~DispatcherClient();
 	void start();
 	void close();
 	void terminate();
 	void sendConnected(uint client_id);
 	void sendDisconnected(uint client_id);
 	void sendData(const PIByteArray & data);
@@ -27,6 +28,7 @@ public:
 	EVENT2(registerClient, const PIByteArray &, sname, DispatcherClient *, client)
 	EVENT1(dataReaded, PIByteArray &, ba)
 	EVENT2(dataReadedServer, uint, id, PIByteArray &, ba)
 	EVENT0(pingReceived)
 private:
 	EVENT_HANDLER1(void, readed, PIByteArray &, data);
--- a/utils/cloud_dispatcher/dispatcherserver.cpp
+++ b/utils/cloud_dispatcher/dispatcherserver.cpp
@@ -7,6 +7,7 @@ DispatcherServer::DispatcherServer(PIEthernet::Address addr) : eth(PIEthernet::T
 	max_connections = 1000;
 	eth.setParameter(PIEthernet::ReuseAddress);
 	eth.setReadAddress(addr);
 //	eth.setDebug(false);
 	CONNECTU(&eth, newConnection, this, newConnection);
 	CONNECTU(&timeout_timer, tickEvent, this, cleanClients);
 }
@@ -43,22 +44,38 @@ void DispatcherServer::picoutStatus() {
 void DispatcherServer::cleanClients() {
 	PIVector<DispatcherClient*> rm;
 	map_mutex.lock();
 	for (auto c: rmrf_clients) {
 		delete c;
 	}
 	rmrf_clients.clear();
 	for (auto c: clients) {
 		if (!index_c_servers.contains(c) && !index_c_clients.contains(c)) {
-			if (rm_clients.contains(c)) rm << c;
+			if (!rm_clients.contains(c)) rm_clients << c;
 			else rm_clients << c;
 		} else rm_clients.removeAll(c);
 	}
 	auto ss = c_servers.values();
 	for (auto c: ss) {
 		if (c->lastPing() > 15.0) {
 			piCout << "remove Server by ping timeout" << c->getConnection()->clientId();
 			rmrf_clients << const_cast<DispatcherClient *>(c->getConnection());
 		}
 	}
 	for (auto c: rm_clients) {
-		if (clients.contains(c)) rm << c;
+		if (clients.contains(c)) {
 			rmrf_clients << c;
 		}
 	}
 	for (auto c: rmrf_clients) {
 		clients.removeAll(c);
 		if(index_c_servers.contains(c)) {
 			c_servers.remove(c_servers.key(index_c_servers[c]));
 			index_c_servers.remove(c);
 		}
 		index_c_clients.remove(c);
 		rm_clients.removeAll(c);
 	}
 	map_mutex.unlock();
 	for (auto c: rm) {
 		c->close();
 //		c->deleteLater();
 	}
 }
@@ -83,6 +100,12 @@ void DispatcherServer::updateConnectionsTile(TileList * tl) {
 		}
 		tl->content << TileList::Row(c->address() + " " + role, PIScreenTypes::CellFormat());
 	}
 	for (auto c: rm_clients) {
 		tl->content << TileList::Row("[deleting]" + c->address(), PIScreenTypes::CellFormat());
 	}
 	for (auto c: rmrf_clients) {
 		tl->content << TileList::Row("[NULL]" + c->address(), PIScreenTypes::CellFormat());
 	}
 	map_mutex.unlock();
 }
@@ -158,37 +181,39 @@ void  DispatcherServer::disconnectClient(DispatcherClient *client) {
 		//piCoutObj << "INVALID client" << client;
 		return;
 	}
-	piCoutObj << "remove client" << client->clientId();
+	piCoutObj << "remove" << client->clientId();
 	map_mutex.lock();
-	clients.removeOne(client);
+	clients.removeAll(client);
 	rm_clients.removeAll(client);
 	CloudServer * cs = index_c_servers.value(client, nullptr);
 	if (cs) {
 		piCoutObj << "remove Server" << client->clientId();
 		PIVector<DispatcherClient *> cscv = cs->getClients();
 		for(auto csc : cscv) {
-			clients.removeOne(csc);
+			clients.removeAll(csc);
-			index_c_clients.removeOne(csc);
+			index_c_clients.remove(csc);
 			cs->removeClient(csc);
 			csc->close();
-			csc->deleteLater();
+			rmrf_clients << csc;
 		}
 		c_servers.remove(cs->serverUUID());
-		index_c_servers.removeOne(client);
+		index_c_servers.remove(client);
 		delete cs;
 	}
 	CloudServer * cc = index_c_clients.value(client, nullptr);
 	if (cc) {
 		piCoutObj << "remove Client" << client->clientId();
 		cc->removeClient(client);
-		index_c_clients.removeOne(client);
+		index_c_clients.remove(client);
 	}
 	client->close();
 	rmrf_clients << client;
 	map_mutex.unlock();
 	client->deleteLater();
 }
 void DispatcherServer::newConnection(PIEthernet *cl) {
-	if (clients.size_s() >= max_connections) {
+	if (clients.size() >= max_connections) {
 		cl->close();
 		delete cl;
 		return;
 	}
@@ -199,6 +224,7 @@ void DispatcherServer::newConnection(PIEthernet *cl) {
 		CloudServer * cs = c_servers.value(sname, nullptr);
 		if (cs) {
 			rm_clients << c;
 			piCoutObj << "dublicate Server ->" << sname.toHex();
 		} else {
 			piCoutObj << "add new Server ->" << sname.toHex();
 			CloudServer * cs = new CloudServer(c, sname);
@@ -213,11 +239,12 @@ void DispatcherServer::newConnection(PIEthernet *cl) {
 		CloudServer * cs = c_servers.value(sname, nullptr);
 		if (cs) {
 			piCoutObj << "add new Client to Server ->" << sname.toHex();
 			c->authorise(true);
 			cs->addClient(c);
 			index_c_clients.insert(c, cs);
 			c->authorise(true);
 		} else {
 			rm_clients << c;
 			piCoutObj << "Client can't connect to Server ->" << sname.toHex();
 		}
 		map_mutex.unlock();
 	});
--- a/utils/cloud_dispatcher/dispatcherserver.h
+++ b/utils/cloud_dispatcher/dispatcherserver.h
@@ -34,6 +34,7 @@ private:
 	PIMap<const DispatcherClient *, CloudServer *> index_c_servers;
 	PIMap<const DispatcherClient *, CloudServer *> index_c_clients;
 	PIVector<DispatcherClient*> rm_clients;
 	PIVector<DispatcherClient*> rmrf_clients;
 	PITimer timeout_timer;
 	PIMutex map_mutex;
 	uint client_gid;
--- a/utils/code_model_generator/main.cpp
+++ b/utils/code_model_generator/main.cpp
@@ -351,17 +351,7 @@ void makeGetterValue(PIFile & f, const PICodeParser::Entity * e) {
 void writeModel(PICodeParser & parser, PICLI & cli, const PIString out, bool meta, bool enums, bool streams, bool texts, bool getters) {
-	PIVector<const PICodeParser::Entity * > ventities;
+	PIString defname = "CCM_" + PIString::fromNumber(out.hash()) + "_H";
 	PIString defname = out
 						.replacedAll('.', '_')
 						.replaceAll('/', '_')
 						.replaceAll(':', '_')
 						.replaceAll('-', '_')
 						.replaceAll('@', '_')
 						.replaceAll('\\', '_')
 						.removeAll(' ')
 						.toUpperCase()
 						+ "_H";
 	PISet<PIString> inc_files;
 	piForeachC (PICodeParser::Entity * e, parser.entities)
 		if (e->name.find("::") < 0 && !e->name.startsWith("_PI"))
Author	SHA1	Message	Date
Andrey	a1c1fd8339	Merge branch 'master' of https://git.shs.tools/SHS/pip	2021-10-08 15:16:19 +03:00
Andrey	01b39dc75f	pip_cmg fix macros name	2021-10-08 15:16:08 +03:00
peri4	07ec32c969	tests	2021-10-05 20:31:00 +03:00
peri4	042366e19e	Merge branch 'PIMathMatrixTests1-10'	2021-10-04 22:14:38 +03:00
peri4	948a90fcd9	option revert	2021-10-04 22:14:15 +03:00
peri4	c404688bbd	more safety for PIObject::Connection::disconnect()	2021-10-04 21:57:34 +03:00
peri4	aa76a15f40	version 2.32.0 PIObject::Connection struct	2021-10-04 21:50:49 +03:00
Andrey	ca20785b53	revert piDisconnectAll	2021-10-04 15:07:14 +03:00
Andrey	13d0b2f960	remove piDisconnectAll	2021-10-04 15:05:58 +03:00
Andrey	46571ac39f	piDisconnectAll private	2021-10-04 14:18:23 +03:00
Пелипенко Иван	36d770ea2e	Merge pull request 'piobject_tests' (#80 ) from piobject_tests into master Reviewed-on: https://git.shs.tools/SHS/pip/pulls/80	2021-10-04 12:11:51 +03:00
Andrey	bc7d129a9e	piobject/connect.cpp tests	2021-10-04 12:07:01 +03:00
peri4	8accc28804	test fix	2021-09-30 19:28:30 +03:00
Andrey	62e130f91b	disconnect test failed	2021-09-30 18:41:01 +03:00
peri4	a009221092	pidisconnect now work with lambdas	2021-09-30 16:21:28 +03:00
peri4	dedc35b466	new class PIThreadPoolLoop	2021-09-24 16:03:20 +03:00
peri4	5e33587703	PISerial::setBreak linux fix	2021-09-17 21:27:24 +03:00
peri4	950f6830da	old gcc pithread fix	2021-09-17 21:20:21 +03:00
Andrey	19a8ca84e6	PIByteArray checksumPlain invert flag fix PISerial setBreak	2021-09-16 16:18:20 +03:00
Andrey	ece3fb1536	PISerial setBreak	2021-09-16 12:18:17 +03:00
andrey	0d119502a8	PIDeque functions same as PIVector code brush fix indexOf and entries with start<0	2021-09-09 18:01:57 +03:00
andrey	cc5951cfc3	PIVector getRange removeWhere	2021-09-09 17:38:28 +03:00
andrey	61d42e0ac5	PIVector: map, reduce rename arguments in uniform style	2021-09-07 18:29:09 +03:00
andrey	127935086c	PIVector: any, every, indexWhere, lastIndexWhere start arg in indexOf, entries, lastIndexOf and some code brush	2021-09-07 17:29:24 +03:00
andrey	76ed60edf3	code brush	2021-09-07 15:39:44 +03:00
peri4	3b0a1c70fe	documentation fix	2021-09-03 17:12:46 +03:00
andrey	186e07e45d	PICodeInfo::EnumInfo toPIVariantEnum	2021-09-03 16:19:57 +03:00
andrey	047cff7d6e	version	2021-09-03 12:42:29 +03:00
peri4	305275e3ac	PICodeParser namespaces fix	2021-09-03 11:39:26 +03:00
peri4	efb0d5f4f9	PICodeParser predefined PIP macros	2021-09-03 11:20:38 +03:00
peri4	991a074538	version 2.30 PIStreamPacker remove progresses picloud various fixes	2021-09-01 23:48:13 +03:00
Andrey	f82b6c12ee	cloud_dispatcher patch	2021-09-01 22:43:40 +03:00
Andrey	00edfa4ef0	cloud data send optimize	2021-09-01 17:48:58 +03:00
andrey	35a3ce6402	picloudtcp.cpp revert some mutex	2021-09-01 10:56:11 +03:00
peri4	be3ce454a0	picloud multithread fix	2021-08-31 19:40:22 +03:00
peri4	4c85206cfa	version	2021-08-23 14:07:45 +03:00
Бычков Андрей	5ecdcbe46e	Merge pull request 'cloud_debug' (#78 ) from cloud_debug into master Reviewed-on: https://git.shs.tools/SHS/pip/pulls/78	2021-08-23 13:58:08 +03:00
Andrey	c937d7251a	it works	2021-08-23 13:56:21 +03:00
andrey	1cc46468c1	fail	2021-08-20 18:30:19 +03:00
andrey	5cc8ef1eb0	fail reconnect	2021-08-20 18:25:59 +03:00
andrey	99e135caa2	PICloudClient disconnect	2021-08-20 17:22:25 +03:00
andrey	9de7045d63	picloud revert to condvars and fix	2021-08-20 16:36:28 +03:00
peri4	0e65151e9f	PIEthernet error 232 PICloud many fixes PIBroadcast recursive fix	2021-08-20 10:55:47 +03:00
peri4	3c20728210	version	2021-08-19 18:29:05 +03:00
andrey	4c0530d89a	picloud ping and fix big bugs	2021-08-19 18:13:05 +03:00
andrey	f5af8a1da9	disable autostart pibroadcast	2021-08-19 15:02:30 +03:00
peri4	44b9c37391	PICloudClient now soft stop thread when closed last cmake changes	2021-08-16 22:30:56 +03:00
Andrey	97b0b6fc0c	picloud hash key	2021-08-12 22:05:02 +03:00
peri4	1a2e9afaef	PIVector compare operators	2021-08-12 21:52:14 +03:00
peri4	39a3a23a24	PIByteArray compare operators	2021-08-12 21:41:22 +03:00
andrey	ee131921a0	add PIByteArray operator <, fix picloud	2021-08-12 20:22:43 +03:00
andrey	f8818c8537	picloud patch	2021-08-12 19:50:17 +03:00
maakshishov	b07242226e	Tests1-10	2021-02-25 15:41:20 +03:00