version 4.3.1

PICodeParser now works with multi-line macros
PIBinaryStream supports PISet
2024-10-23 19:11:46 +03:00 · 2024-10-21 13:47:28 +03:00 · 2024-10-19 17:08:15 +03:00 · 2024-10-19 17:07:45 +03:00 · 2024-10-19 16:58:12 +03:00 · 2024-10-16 22:29:57 +03:00
388 changed files with 50665 additions and 33001 deletions
--- a/.clang-format
+++ b/.clang-format
@@ -0,0 +1,224 @@
 ---
 Language:        Cpp
 AccessModifierOffset: -4
 AlignAfterOpenBracket: Align
 AlignArrayOfStructures: Left
 AlignConsecutiveAssignments:
  Enabled:         true
  AcrossEmptyLines: true
  AcrossComments:  true
  AlignCompound:   false
  PadOperators:    true
 AlignConsecutiveBitFields:
  Enabled:         true
  AcrossEmptyLines: false
  AcrossComments:  true
  AlignCompound:   false
  PadOperators:    true
 AlignConsecutiveDeclarations:
  Enabled:         false
  AcrossEmptyLines: false
  AcrossComments:  false
  AlignCompound:   false
  PadOperators:    false
 AlignConsecutiveMacros:
  Enabled:         true
  AcrossEmptyLines: true
  AcrossComments:  true
  AlignCompound:   false
  PadOperators:    true
 AlignEscapedNewlines: Left
 AlignOperands:   Align
 AlignTrailingComments: true
 AllowAllArgumentsOnNextLine: false
 AllowAllParametersOfDeclarationOnNextLine: false
 AllowShortEnumsOnASingleLine: false
 AllowShortBlocksOnASingleLine: Empty
 AllowShortCaseLabelsOnASingleLine: true
 AllowShortFunctionsOnASingleLine: Inline
 AllowShortLambdasOnASingleLine: All
 AllowShortIfStatementsOnASingleLine: WithoutElse
 AllowShortLoopsOnASingleLine: false
 AlwaysBreakAfterDefinitionReturnType: None
 AlwaysBreakAfterReturnType: None
 AlwaysBreakBeforeMultilineStrings: false
 AlwaysBreakTemplateDeclarations: Yes
 AttributeMacros:
  - __capability
 BinPackArguments: false
 BinPackParameters: false
 BraceWrapping:
  AfterCaseLabel:  false
  AfterClass:      false
  AfterControlStatement: Never
  AfterEnum:       false
  AfterFunction:   false
  AfterNamespace:  false
  AfterObjCDeclaration: false
  AfterStruct:     false
  AfterUnion:      false
  AfterExternBlock: false
  BeforeCatch:     false
  BeforeElse:      false
  BeforeLambdaBody: false
  BeforeWhile:     false
  IndentBraces:    false
  SplitEmptyFunction: false
  SplitEmptyRecord: false
  SplitEmptyNamespace: true
 BreakBeforeBinaryOperators: None
 BreakBeforeConceptDeclarations: Always
 BreakBeforeBraces: Attach
 BreakInheritanceList: BeforeComma
 BreakBeforeTernaryOperators: true
 BreakConstructorInitializers: BeforeComma
 BreakAfterJavaFieldAnnotations: false
 BreakStringLiterals: true
 ColumnLimit:     140
 CommentPragmas:  '^ IWYU pragma:'
 QualifierAlignment: Leave
 CompactNamespaces: false
 ConstructorInitializerIndentWidth: 4
 ContinuationIndentWidth: 4
 Cpp11BracedListStyle: true
 DeriveLineEnding: false
 DerivePointerAlignment: false
 DisableFormat:   false
 EmptyLineAfterAccessModifier: Never
 EmptyLineBeforeAccessModifier: Always
 ExperimentalAutoDetectBinPacking: false
 PackConstructorInitializers: CurrentLine
 BasedOnStyle:    ''
 ConstructorInitializerAllOnOneLineOrOnePerLine: true
 AllowAllConstructorInitializersOnNextLine: true
 FixNamespaceComments: true
 ForEachMacros:
  - foreach
  - Q_FOREACH
  - BOOST_FOREACH
  - piForeach
  - piForeachC
  - piForeachR
  - piForeachRC
  - piForeachCR
 IfMacros:
  - KJ_IF_MAYBE
 IncludeBlocks:   Regroup
 IncludeCategories:
  - Regex:           '^"(llvm|llvm-c|clang|clang-c)/'
    Priority:        2
    SortPriority:    0
    CaseSensitive:   false
  - Regex:           '^(<|"(gtest|gmock|isl|json)/)'
    Priority:        3
    SortPriority:    0
    CaseSensitive:   false
  - Regex:           '.*'
    Priority:        1
    SortPriority:    0
    CaseSensitive:   false
 IncludeIsMainRegex: '(Test)?$'
 IncludeIsMainSourceRegex: ''
 IndentAccessModifiers: false
 IndentCaseLabels: false
 IndentCaseBlocks: false
 IndentGotoLabels: false
 IndentPPDirectives: AfterHash
 IndentExternBlock: NoIndent
 IndentRequiresClause: true
 IndentWidth:     4
 IndentWrappedFunctionNames: false
 InsertBraces:    false
 InsertTrailingCommas: Wrapped
 JavaScriptQuotes: Leave
 JavaScriptWrapImports: true
 KeepEmptyLinesAtTheStartOfBlocks: false
 LambdaBodyIndentation: Signature
 MacroBlockBegin: "PRIVATE_DEFINITION_START|STATIC_INITIALIZER_BEGIN"
 MacroBlockEnd: "PRIVATE_DEFINITION_END|STATIC_INITIALIZER_END"
 MaxEmptyLinesToKeep: 2
 NamespaceIndentation: None
 ObjCBinPackProtocolList: Auto
 ObjCBlockIndentWidth: 2
 ObjCBreakBeforeNestedBlockParam: true
 ObjCSpaceAfterProperty: false
 ObjCSpaceBeforeProtocolList: true
 PenaltyBreakAssignment: 2
 PenaltyBreakBeforeFirstCallParameter: 19
 PenaltyBreakComment: 300
 PenaltyBreakFirstLessLess: 120
 PenaltyBreakOpenParenthesis: 0
 PenaltyBreakString: 1000
 PenaltyBreakTemplateDeclaration: 10
 PenaltyExcessCharacter: 1000000
 PenaltyReturnTypeOnItsOwnLine: 60
 PenaltyIndentedWhitespace: 0
 PointerAlignment: Middle
 PPIndentWidth:   2
 ReferenceAlignment: Middle
 ReflowComments:  true
 RemoveBracesLLVM: false
 RequiresClausePosition: OwnLine
 SeparateDefinitionBlocks: Leave
 ShortNamespaceLines: 1
 SortIncludes:    CaseSensitive
 SortJavaStaticImport: Before
 SortUsingDeclarations: true
 SpaceAfterCStyleCast: false
 SpaceAfterLogicalNot: false
 SpaceAfterTemplateKeyword: false
 SpaceBeforeAssignmentOperators: true
 SpaceBeforeCaseColon: false
 SpaceBeforeCpp11BracedList: false
 SpaceBeforeCtorInitializerColon: false
 SpaceBeforeInheritanceColon: false
 SpaceBeforeParens: ControlStatementsExceptControlMacros
 SpaceBeforeParensOptions:
  AfterControlStatements: true
  AfterForeachMacros: false
  AfterFunctionDefinitionName: false
  AfterFunctionDeclarationName: false
  AfterIfMacros:   false
  AfterOverloadedOperator: false
  AfterRequiresInClause: false
  AfterRequiresInExpression: false
  BeforeNonEmptyParentheses: false
 SpaceAroundPointerQualifiers: Both
 SpaceBeforeRangeBasedForLoopColon: false
 SpaceInEmptyBlock: false
 SpaceInEmptyParentheses: false
 SpacesBeforeTrailingComments: 1
 SpacesInAngles:  Never
 SpacesInConditionalStatement: false
 SpacesInContainerLiterals: false
 SpacesInCStyleCastParentheses: false
 SpacesInLineCommentPrefix:
  Minimum:         1
  Maximum:         -1
 SpacesInParentheses: false
 SpacesInSquareBrackets: false
 SpaceBeforeSquareBrackets: false
 BitFieldColonSpacing: After
 Standard:        c++11
 StatementAttributeLikeMacros:
  - Q_EMIT
  - PIMETA
 StatementMacros:
  - Q_UNUSED
  - QT_REQUIRE_VERSION
  - PRIVATE_DECLARATION
  - NO_COPY_CLASS
  - FOREVER_WAIT
  - WAIT_FOREVER
 TabWidth:        4
 UseCRLF:         false
 UseTab:          AlignWithSpaces
 WhitespaceSensitiveMacros:
  - STRINGIZE
  - PP_STRINGIZE
  - BOOST_PP_STRINGIZE
  - NS_SWIFT_NAME
  - CF_SWIFT_NAME
  - PIMETA
 ...
--- a/.editorconfig
+++ b/.editorconfig
@@ -0,0 +1,6 @@
 root = true
 [*.{h,c,cpp}]
 charset = utf-8
 indent_style = tab
 tab_width = 4
--- a/.gitignore
+++ b/.gitignore
@@ -4,3 +4,4 @@
 _unsused
 CMakeLists.txt.user*
 /include
 /release
--- a/3rd/lua/lapi.c
+++ b/3rd/lua/lapi.c
@@ -5,7 +5,7 @@
 */
 #define lapi_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/lcode.c
+++ b/3rd/lua/lcode.c
@@ -5,7 +5,7 @@
 */
 #define lcode_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/lctype.c
+++ b/3rd/lua/lctype.c
@@ -5,7 +5,7 @@
 */
 #define lctype_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/ldebug.c
+++ b/3rd/lua/ldebug.c
@@ -5,7 +5,7 @@
 */
 #define ldebug_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/ldo.c
+++ b/3rd/lua/ldo.c
@@ -5,7 +5,7 @@
 */
 #define ldo_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/ldump.c
+++ b/3rd/lua/ldump.c
@@ -5,7 +5,7 @@
 */
 #define ldump_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/lfunc.c
+++ b/3rd/lua/lfunc.c
@@ -5,7 +5,7 @@
 */
 #define lfunc_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/lgc.c
+++ b/3rd/lua/lgc.c
@@ -5,7 +5,7 @@
 */
 #define lgc_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/llex.c
+++ b/3rd/lua/llex.c
@@ -5,7 +5,7 @@
 */
 #define llex_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/lmem.c
+++ b/3rd/lua/lmem.c
@@ -5,7 +5,7 @@
 */
 #define lmem_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/lobject.c
+++ b/3rd/lua/lobject.c
@@ -5,7 +5,7 @@
 */
 #define lobject_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/lopcodes.c
+++ b/3rd/lua/lopcodes.c
@@ -5,7 +5,7 @@
 */
 #define lopcodes_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/lparser.c
+++ b/3rd/lua/lparser.c
@@ -5,7 +5,7 @@
 */
 #define lparser_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/lstate.c
+++ b/3rd/lua/lstate.c
@@ -5,7 +5,7 @@
 */
 #define lstate_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/lstring.c
+++ b/3rd/lua/lstring.c
@@ -5,7 +5,7 @@
 */
 #define lstring_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/ltable.c
+++ b/3rd/lua/ltable.c
@@ -5,7 +5,7 @@
 */
 #define ltable_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/ltm.c
+++ b/3rd/lua/ltm.c
@@ -5,7 +5,7 @@
 */
 #define ltm_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/lundump.c
+++ b/3rd/lua/lundump.c
@@ -5,7 +5,7 @@
 */
 #define lundump_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/lvm.c
+++ b/3rd/lua/lvm.c
@@ -5,7 +5,7 @@
 */
 #define lvm_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/3rd/lua/lzio.c
+++ b/3rd/lua/lzio.c
@@ -5,7 +5,7 @@
 */
 #define lzio_c
-#define LUA_CORE
+
 #include "lprefix.h"
--- a/CMakeLists.txt
+++ b/CMakeLists.txt
@@ -1,12 +1,12 @@
 cmake_minimum_required(VERSION 3.0)
 cmake_policy(SET CMP0017 NEW) # need include() with .cmake
-project(pip)
+project(PIP)
-set(pip_MAJOR    2)
+set(PIP_MAJOR    4)
-set(pip_MINOR    39)
+set(PIP_MINOR    3)
-set(pip_REVISION 0)
+set(PIP_REVISION 1)
-set(pip_SUFFIX   )
+set(PIP_SUFFIX   )
-set(pip_COMPANY  SHS)
+set(PIP_COMPANY  SHS)
-set(pip_DOMAIN   org.SHS)
+set(PIP_DOMAIN   org.SHS)
 set(GIT_CMAKE_DIR)
 if (NOT DEFINED SHSTKPROJECT)
@@ -17,7 +17,7 @@ cmake_minimum_required(VERSION 2.8.2)
 project(cmake-download NONE)
 include(ExternalProject)
 ExternalProject_Add(cmake
-	GIT_REPOSITORY    https://git.shs.tools/SHS/cmake.git
+	GIT_REPOSITORY    https://git.shstk.ru/SHS/cmake.git
 	GIT_TAG           \"origin/master\"
 	GIT_CONFIG        \"advice.detachedHead=false\"
 	SOURCE_DIR        \"${CMAKE_CURRENT_BINARY_DIR}/cmake-src\"
@@ -53,7 +53,8 @@ include(CheckFunctionExists)
 include(PIPMacros)
 include(SHSTKMacros)
-shstk_begin_project(pip PIP)
+shstk_begin_project(PIP)
 set(PIP_VERSION "${PIP_VERSION}" CACHE STRING "")
 set(_ICU_DEFAULT OFF)
 if((NOT DEFINED WIN32) AND (NOT DEFINED ANDROID_PLATFORM) AND (NOT DEFINED APPLE))
@@ -61,17 +62,28 @@ if((NOT DEFINED WIN32) AND (NOT DEFINED ANDROID_PLATFORM) AND (NOT DEFINED APPLE
 endif()
 set(PIP_DLL_DIR "${CMAKE_CURRENT_BINARY_DIR}" CACHE STRING "")
 if (CMAKE_BUILD_TYPE MATCHES Debug)
    set(PIP_BUILD_DEBUG ON)
 else()
    set(PIP_BUILD_DEBUG OFF)
 endif()
 # Options
 option(ICU "ICU support for convert codepages" ${_ICU_DEFAULT})
 option(STD_IOSTREAM "Building with std iostream operators support" OFF)
 option(INTROSPECTION "Build with introspection" OFF)
-option(TESTS "Build tests and perform their before install step" OFF)
+option(TESTS "Build tests and perform their before install step" ${PIP_BUILD_DEBUG})
 option(COVERAGE "Build project with coverage info" OFF)
 set(PIP_UTILS 1)
 set(CMAKE_CXX_STANDARD_REQUIRED TRUE)
 set(CMAKE_CXX_STANDARD 11)
 shstk_is_parent_exists(_pe)
 if (_pe)
 	set(BUILDING_pip 1 PARENT_SCOPE)
 	set(pip_ROOT_SRC "${CMAKE_CURRENT_SOURCE_DIR}" PARENT_SCOPE)
 endif()
 # Basic
 set(PIP_MODULES)
@@ -84,7 +96,7 @@ set(PIP_UTILS_LIST)
 set(PIP_TESTS_LIST)
 set(PIP_EXPORTS)
-set(PIP_SRC_MODULES "console;crypt;compress;usb;fftw;opencl;io_utils;cloud;lua")
+set(PIP_SRC_MODULES "console;crypt;compress;usb;fftw;opencl;io_utils;client_server;cloud;lua")
 foreach(_m ${PIP_SRC_MODULES})
 	set(PIP_MSG_${_m} "no")
 endforeach()
@@ -96,7 +108,7 @@ macro(pip_module NAME LIBS LABEL INCLUDES SOURCES MSG)
 	set(CRES)
 	file(GLOB_RECURSE CPPS "libs/${NAME}/*.cpp" "libs/${NAME}/*.c")
 	file(GLOB_RECURSE HS   "libs/${NAME}/*.h")
-	file(GLOB_RECURSE PHS  "libs/${NAME}/*_p.h")
+	file(GLOB_RECURSE PHS  "libs/${NAME}/*_p.h" "libs/${NAME}/3rd/*.h")
 	file(GLOB_RECURSE RES  "libs/${NAME}/*.conf")
 	if (NOT "x${PHS}" STREQUAL "x")
 		list(REMOVE_ITEM HS ${PHS})
@@ -105,9 +117,14 @@ macro(pip_module NAME LIBS LABEL INCLUDES SOURCES MSG)
 		file(GLOB_RECURSE ASRC "${SOURCES}/*.cpp" "${SOURCES}/*.c")
 		list(APPEND CPPS ${ASRC})
 	endif()
 	#message("${NAME} HS = ${HS}")
 	list(APPEND HDRS ${HS})
 	list(APPEND PHDRS ${PHS})
 	if(${CMAKE_VERSION} VERSION_LESS "3.8.0")
 	else()
 		source_group(TREE "${CMAKE_CURRENT_SOURCE_DIR}" FILES ${CPPS} ${HS} ${PHS})
 	endif()
 	set(_target "pip_${NAME}")
 	set(_libs "${LIBS}")
 	if ("${NAME}" STREQUAL "main")
@@ -118,11 +135,11 @@ macro(pip_module NAME LIBS LABEL INCLUDES SOURCES MSG)
 	string(TOUPPER "${_target}" DEF_NAME)
 	set(PIP_MSG_${NAME} "yes${MSG}")
-	import_version(${_target} pip)
+	import_version(${_target} PIP)
-	set_deploy_property(${_target} ${pip_LIB_TYPE}
+	set_deploy_property(${_target} ${PIP_LIB_TYPE}
 		LABEL "${LABEL}"
-		FULLNAME "${pip_DOMAIN}.${_target}"
+		FULLNAME "${PIP_DOMAIN}.${_target}"
-		COMPANY  "${pip_COMPANY}"
+		COMPANY  "${PIP_COMPANY}"
 		INFO "Platform-Independent Primitives")
 	make_rc(${_target} _RC)
@@ -139,7 +156,7 @@ macro(pip_module NAME LIBS LABEL INCLUDES SOURCES MSG)
 		pip_resources(CRES "${RES}")
 	endif()
 	add_definitions(-D${DEF_NAME})
-	add_library(${_target} ${pip_LIB_TYPE} ${CPPS} ${CRES} ${_RC})
+	add_library(${_target} ${PIP_LIB_TYPE} ${CPPS} ${CRES} ${_RC} ${HS} ${PHS})
 	target_include_directories(${_target} PUBLIC ${PIP_INCLUDES})
 	if (NOT "x${RES}" STREQUAL "x")
 		add_dependencies(${_target} pip_rc)
@@ -234,26 +251,11 @@ if(PIP_MATH_YN)
 	add_definitions(-DPIP_MATH_YN)
 endif()
 # Check if RT timers exists
 set(CMAKE_REQUIRED_INCLUDES time.h)
 set(CMAKE_REQUIRED_LIBRARIES )
 if((NOT DEFINED ENV{QNX_HOST}) AND (NOT APPLE) AND (NOT WIN32) AND (NOT DEFINED ANDROID_PLATFORM) AND (NOT PIP_FREERTOS))
 	list(APPEND LIBS_MAIN rt)
 	set(CMAKE_REQUIRED_LIBRARIES rt)
 endif()
 CHECK_FUNCTION_EXISTS(timer_create  PIP_TIMER_RT_0)
 CHECK_FUNCTION_EXISTS(timer_settime PIP_TIMER_RT_1)
 CHECK_FUNCTION_EXISTS(timer_delete  PIP_TIMER_RT_2)
 # Check if build debug version
-if (CMAKE_BUILD_TYPE MATCHES Debug)
+if (PIP_BUILD_DEBUG)
 	set(PIP_BUILD_TYPE "Debug")
 	set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -g3 -Wall")
 	add_definitions(-DPIP_DEBUG)
 else()
 	set(PIP_BUILD_TYPE "Release")
 	set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -O3 -Wall")
 endif()
@@ -307,15 +309,6 @@ list(APPEND HDRS ${_PIP_DEFS_FILE})
 #message("${_PIP_DEFS_CHANGED}")
 # Check if RT timers exists
 if(PIP_TIMER_RT_0 AND PIP_TIMER_RT_1 AND PIP_TIMER_RT_2)
 	set(PIP_TIMERS "Thread, ThreadRT, Pool")
 	add_definitions(-DPIP_TIMER_RT)
 else()
 	set(PIP_TIMERS "Thread, Pool")
 endif()
 # Add main library
 if(APPLE)
@@ -326,22 +319,26 @@ if ((NOT DEFINED SHSTKPROJECT) AND (DEFINED ANDROID_PLATFORM))
 	#message("${ANDROID_SYSTEM_LIBRARY_PATH}/usr/include")
 	#message("${ANDROID_NDK}/sysroot/usr/include")
 endif()
 if(NOT PIP_FREERTOS)
-if(WIN32)
+	if(WIN32)
 		if(${C_COMPILER} STREQUAL "cl.exe")
 		else()
 			list(APPEND LIBS_MAIN ws2_32 iphlpapi psapi cfgmgr32 setupapi)
 		endif()
-else()
+	else()
 		list(APPEND LIBS_MAIN dl)
 		if(DEFINED ENV{QNX_HOST})
 			list(APPEND LIBS_MAIN socket)
 		else()
 			if (NOT DEFINED ANDROID_PLATFORM)
 				list(APPEND LIBS_MAIN pthread util)
 				if (NOT APPLE)
 					list(APPEND LIBS_MAIN rt)
 				endif()
 			endif()
 		endif()
 	endif()
 endif()
 endif()
 set(PIP_LIBS)
 if(PIP_FREERTOS)
@@ -399,6 +396,7 @@ if (NOT CROSSTOOLS)
 		pip_find_lib(sodium)
 		if(sodium_FOUND)
 			pip_module(crypt "sodium" "PIP crypt support" "" "" "")
 			pip_module(client_server "pip_io_utils" "PIP client-server helper" "" "" "")
 			pip_module(cloud "pip_io_utils" "PIP cloud support" "" "" "")
 		endif()
@@ -448,17 +446,16 @@ if (NOT CROSSTOOLS)
 		endif()
 		if (NOT "x${MINGW_INCLUDE}" STREQUAL "x")
 			list(APPEND CMAKE_INCLUDE_PATH "${MINGW_INCLUDE}")
 		endif()
 		find_package(OpenCL QUIET) #OpenCL_VERSION_STRING
 		if(OpenCL_FOUND)
 			set(_opencl_lib OpenCL::OpenCL)
 			if(${CMAKE_VERSION} VERSION_LESS "3.7.0")
 				target_link_libraries(_opencl_lib OpenCL)
 			endif()
 			set(_opencl_inc "${OpenCL_INCLUDE_DIRS}")
 			if(APPLE)
 				set(_opencl_inc "${OpenCL_INCLUDE_DIRS}/Headers")
 			endif()
-			pip_module(opencl "${_opencl_lib}" "PIP OpenCL support" "${_opencl_inc}" "" " (${OpenCL_VERSION_STRING})")
+			pip_module(opencl "OpenCL" "PIP OpenCL support" "${_opencl_inc}" "" " (${OpenCL_VERSION_STRING})")
 		endif()
@@ -481,14 +478,18 @@ if (NOT CROSSTOOLS)
 		list(APPEND HDR_DIRS "${_lua_bri_dir}/LuaBridge")
 		list(APPEND HDRS ${_lua_src_hdr})
 		# Test program
 		if(PIP_UTILS)
-			#add_library(pip_plugin SHARED "test_plugin.h" "test_plugin.cpp")
+
 			#add_library(pip_plugin SHARED "test_plugin.h" "test_plugin.cpp" "ccm.h" "ccm.cpp")
 			#target_link_libraries(pip_plugin pip)
 			add_executable(pip_test "main.cpp")
-			target_link_libraries(pip_test pip)
+			target_link_libraries(pip_test pip pip_io_utils pip_client_server)
 			if(sodium_FOUND)
 				add_executable(pip_cloud_test "main_picloud_test.cpp")
 				target_link_libraries(pip_cloud_test pip_cloud)
 			endif()
 		endif()
 	else()
@@ -562,6 +563,7 @@ if(NOT PIP_FREERTOS)
 	add_subdirectory("utils/code_model_generator")
 	add_subdirectory("utils/resources_compiler")
 	add_subdirectory("utils/deploy_tool")
 	add_subdirectory("utils/value_tree_translator")
 	if(PIP_UTILS AND (NOT CROSSTOOLS))
 		add_subdirectory("utils/system_test")
 		add_subdirectory("utils/udp_file_transfer")
@@ -588,18 +590,18 @@ if ((NOT PIP_FREERTOS) AND (NOT CROSSTOOLS))
 	find_package(Doxygen)
 	if(DOXYGEN_FOUND)
 		set(DOXY_DEFINES "${PIP_EXPORTS}")
-		foreach (_m "console" "usb" "compress" "crypt" "cloud" "fftw" "opencl" "io_utils" "lua")
+		foreach (_m "console" "usb" "compress" "crypt" "client_server" "cloud" "fftw" "opencl" "io_utils" "lua")
 			string(TOUPPER "${_m}" _mdef)
 			list(APPEND DOXY_DEFINES "PIP_${_mdef}_EXPORT")
 		endforeach()
-		set(DOXY_PROJECT_NUMBER "${pip_VERSION}")
+		set(DOXY_PROJECT_NUMBER "${PIP_VERSION}")
-		set(DOXY_QHP_CUST_FILTER_ATTRS "\"PIP ${pip_VERSION}\"")
+		set(DOXY_QHP_CUST_FILTER_ATTRS "\"PIP ${PIP_VERSION}\"")
-		set(DOXY_QHP_SECT_FILTER_ATTRS "\"PIP ${pip_VERSION}\"")
+		set(DOXY_QHP_SECT_FILTER_ATTRS "\"PIP ${PIP_VERSION}\"")
 		set(DOXY_EXAMPLE_PATH    "\"${CMAKE_CURRENT_SOURCE_DIR}/doc/examples\"")
 		set(DOXY_IMAGE_PATH      "\"${CMAKE_CURRENT_SOURCE_DIR}/doc/images\"")
 		set(DOXY_LOGO_PATH       "\"${CMAKE_CURRENT_SOURCE_DIR}/doc/pip.png\"")
 		set(DOXY_EXCLUDE         "\"${CMAKE_CURRENT_SOURCE_DIR}/libs/lua/3rd\"")
-		set(DOXY_DOMAIN "${pip_DOMAIN}.${PROJECT_NAME}.doc")
+		set(DOXY_DOMAIN "${PIP_DOMAIN}.${PROJECT_NAME}.doc")
 		if ("x${DOC_LANG}" STREQUAL "x")
 			set(DOXY_OUTPUT_LANGUAGE English)
 			set(DOXY_OUTPUT_DIR      en)
@@ -645,9 +647,9 @@ endmacro()
 list(REMOVE_ITEM LIBS_STATUS ${PIP_MODULES})
 message("----------PIP----------")
-message(" Version: ${pip_VERSION} ")
+message(" Version: ${PIP_VERSION} ")
-message(" Linkage: ${pip_LIB_TYPE_MSG}")
+message(" Linkage: ${PIP_LIB_TYPE_MSG}")
-message(" Type   : ${pip_BUILD_TYPE}")
+message(" Type   : ${CMAKE_BUILD_TYPE}")
 if (NOT LOCAL)
 	message(" Install: \"${CMAKE_INSTALL_PREFIX}\"")
 else()
@@ -659,7 +661,6 @@ message("")
 message(" Options:")
 message("  std::iostream: ${PIP_STD_IOSTREAM}")
 message("  ICU strings  : ${PIP_ICU}")
 message("  Timer types  : ${PIP_TIMERS}")
 message("  Introspection: ${PIP_INTROSPECTION}")
 message("  Coverage     : ${PIP_COVERAGE}")
 if(INTROSPECTION)
--- a/README.md
+++ b/README.md
@@ -33,10 +33,10 @@ You should add ${<out_var>} to your target.
 ## Documentation
-[🇺🇸 Online documentation](https://shs.tools/pip/html/en/index.html)
+[🇺🇸 Online documentation](https://shstk.ru/pip/html/en/index.html)
-[🇺🇸 Qt-help](https://shs.tools/pip/pip_en.qch)
+[🇺🇸 Qt-help](https://shstk.ru/pip/pip_en.qch)
-[🇷🇺 Онлайн документация](https://shs.tools/pip/html/ru/index.html)
+[🇷🇺 Онлайн документация](https://shstk.ru/pip/html/ru/index.html)
-[🇷🇺 Qt-help](https://shs.tools/pip/pip_ru.qch)
+[🇷🇺 Qt-help](https://shstk.ru/pip/pip_ru.qch)
--- a/cmake/FindPIP.cmake
+++ b/cmake/FindPIP.cmake
@@ -9,6 +9,7 @@ Create imported targets:
  * PIP::FFTW
  * PIP::OpenCL
  * PIP::IOUtils
  * PIP::ClientServer
  * PIP::Cloud
  * PIP::Lua
@@ -20,16 +21,11 @@ main library
 cmake_policy(SET CMP0011 NEW) # don`t affect includer policies
 include(SHSTKMacros)
-shstk_set_find_dirs(pip)
+shstk_set_find_dirs(PIP)
 if(PIP_DIR)
 	list(APPEND pip_LIBDIR "${PIP_DIR}/lib")
 	list(APPEND pip_INCDIR "${PIP_DIR}/include/pip")
 	list(APPEND pip_BINDIR "${PIP_DIR}/bin")
 endif()
-set(__libs "usb;crypt;console;fftw;compress;io_utils;opencl;cloud;lua")
+set(__libs "usb;crypt;console;fftw;compress;opencl;io_utils;client_server;cloud;lua")
-if (BUILDING_pip)
+if (BUILDING_PIP)
 	#set(_libs "pip;pip_usb;pip_console;pip_crypt;pip_fftw;pip_compress;pip_opencl;pip_io_utils;pip_cloud;pip_lua")
 	#set(_bins "pip_cmg;pip_rc;deploy_tool")
 	#get_target_property(_path pip BINARY_DIR)
@@ -40,20 +36,20 @@ if (BUILDING_pip)
 	set(PIP_FOUND ON CACHE BOOL "")
 else()
-	find_library(PIP_LIBRARY pip HINTS ${pip_LIBDIR})
+	find_library(PIP_LIBRARY pip HINTS ${PIP_LIBDIR})
 	foreach (_l ${__libs})
-		find_library(PIP_LIBRARY_${_l} pip_${_l} HINTS ${pip_LIBDIR})
+		find_library(PIP_LIBRARY_${_l} pip_${_l} HINTS ${PIP_LIBDIR})
 	endforeach()
 endif()
-if (BUILDING_pip AND (NOT CMAKE_CROSSCOMPILING))
+if (BUILDING_PIP AND (NOT CMAKE_CROSSCOMPILING))
 	set(PIP_CMG          "$<TARGET_FILE_DIR:pip_cmg>/$<TARGET_FILE_NAME:pip_cmg>"          CACHE STRING "")
 	set(PIP_RC           "$<TARGET_FILE_DIR:pip_rc>/$<TARGET_FILE_NAME:pip_rc>"            CACHE STRING "")
 	set(PIP_DEPLOY_TOOL  "$<TARGET_FILE_DIR:deploy_tool>/$<TARGET_FILE_NAME:deploy_tool>"  CACHE STRING "")
 else()
-	find_program(PIP_CMG pip_cmg${pip_BINEXT} HINTS ${pip_BINDIR} ${pip_FIND_PROGRAM_ARG})
+	find_program(PIP_CMG pip_cmg${PIP_BINEXT} HINTS ${PIP_BINDIR} ${PIP_FIND_PROGRAM_ARG})
-	find_program(PIP_RC pip_rc${pip_BINEXT} HINTS ${pip_BINDIR} ${pip_FIND_PROGRAM_ARG})
+	find_program(PIP_RC pip_rc${PIP_BINEXT} HINTS ${PIP_BINDIR} ${PIP_FIND_PROGRAM_ARG})
-	find_program(PIP_DEPLOY_TOOL deploy_tool${pip_BINEXT} HINTS ${pip_BINDIR} ${pip_FIND_PROGRAM_ARG})
+	find_program(PIP_DEPLOY_TOOL deploy_tool${PIP_BINEXT} HINTS ${PIP_BINDIR} ${PIP_FIND_PROGRAM_ARG})
 endif()
 if (NOT PIP_LIBRARY)
 	if(PIP_FIND_REQUIRED)
@@ -63,7 +59,7 @@ if (NOT PIP_LIBRARY)
 endif()
 set(_PIP_LIBRARY_PATH_ "${PIP_LIBRARY}")
 set(_PIP_ADD_LIBS_ "")
-if (NOT BUILDING_pip)
+if (NOT BUILDING_PIP)
 	if("${CMAKE_SYSTEM_NAME}" STREQUAL "Linux")
 		find_library(DL_LIBRARY dl)
 		list(APPEND PIP_LIBRARY ${DL_LIBRARY})
@@ -80,9 +76,9 @@ if (NOT BUILDING_pip)
 	endif()
 endif()
-if (NOT BUILDING_pip)
+if (NOT BUILDING_PIP)
-	shstk_find_header(pip PIP "pip_version.h" "${_PIP_LIBRARY_PATH_}")
+	shstk_find_header(PIP "pip_version.h" "${_PIP_LIBRARY_PATH_}")
-	set(PIP_INCLUDES "${pip_INCLUDES}" CACHE STRING "")
+	set(PIP_INCLUDES "${PIP_INCLUDES}" CACHE STRING "")
 endif()
 if(PIP_FIND_VERSION VERSION_GREATER PIP_VERSION)
 	message(FATAL_ERROR "PIP version ${PIP_VERSION} is available, but ${PIP_FIND_VERSION} requested!")
@@ -95,6 +91,7 @@ set(__module_fftw      FFTW     )
 set(__module_compress       Compress    )
 set(__module_opencl         OpenCL      )
 set(__module_io_utils       IOUtils     )
 set(__module_client_server  ClientServer)
 set(__module_cloud          Cloud       )
 set(__module_lua            Lua         )
@@ -104,14 +101,15 @@ foreach (_l ${__libs})
 	set(__libs_${_l} "")
 endforeach()
-set(__deps_io_utils  "PIP::Crypt")
+set(__deps_io_utils      "PIP::Crypt"  )
 set(__deps_client_server "PIP::IOUtils")
 set(__deps_cloud         "PIP::IOUtils")
-if (BUILDING_pip)
+if (BUILDING_PIP)
-	if (NOT SET_TARGETS_pip)
+	if (NOT SET_TARGETS_PIP)
-		set(SET_TARGETS_pip ON CACHE BOOL "")
+		set(SET_TARGETS_PIP ON CACHE BOOL "")
 		#message("create aliases")
 		if((NOT TARGET PIP) AND PIP_LIBRARY)
 			#message("alias PIP = pip")
@@ -133,7 +131,7 @@ else()
 		add_library(PIP UNKNOWN IMPORTED)
 		set_target_properties(PIP PROPERTIES
 			IMPORTED_LOCATION "${_PIP_LIBRARY_PATH_}"
-			INTERFACE_INCLUDE_DIRECTORIES "${pip_INCLUDES}"
+			INTERFACE_INCLUDE_DIRECTORIES "${PIP_INCLUDES}"
 			INTERFACE_LINK_LIBRARIES "${_PIP_ADD_LIBS_}")
 		#message("imported PIP = ${PIP_LIBRARY}")
 	endif()
--- a/doc/Doxyfile.in
+++ b/doc/Doxyfile.in
@@ -2282,7 +2282,7 @@ EXTERNAL_GROUPS        = YES
 # be listed.
 # The default value is: YES.
-EXTERNAL_PAGES         = YES
+EXTERNAL_PAGES         = NO
 #---------------------------------------------------------------------------
 # Configuration options related to the dot tool
--- a/doc/examples/pichunkstream.cpp
+++ b/doc/examples/pichunkstream.cpp
@@ -9,8 +9,14 @@ struct S {
 };
 // Operators
-PIByteArray & operator <<(PIByteArray & b, const S & s) {b << s.i << s.f << s.s; return b;}
+PIByteArray & operator<<(PIByteArray & b, const S & s) {
-PIByteArray & operator >>(PIByteArray & b, S & s) {b >> s.i >> s.f >> s.s; return b;}
+	b << s.i << s.f << s.s;
 	return b;
 }
 PIByteArray & operator>>(PIByteArray & b, S & s) {
 	b >> s.i >> s.f >> s.s;
 	return b;
 }
 //! [struct]
 //! [write]
 // Write chunk stream
@@ -22,10 +28,7 @@ PIVector<float> f;
 f << -1. << 2.5 << 11.;
 // write some data to empty stream
 PIChunkStream cs;
-cs << cs.chunk(1, int(10))
+cs << cs.chunk(1, int(10)) << cs.chunk(2, PIString("text")) << cs.chunk(4, f) << cs.chunk(3, s);
   << cs.chunk(2, PIString("text"))
   << cs.chunk(4, f)
   << cs.chunk(3, s);
 // now you can take cs.data() and send or place it somewhere ...
 //! [write]
 //! [read]
@@ -42,14 +45,14 @@ while (!cs2.atEnd()) {
 	case 1: i = cs2.getData<int>(); break;
 	case 2: str = cs2.getData<PIString>(); break;
 	case 3: s = cs2.getData<S>(); break;
-	case 4: f = cs2.getData<PIVector<float> >(); break;
+	case 4: f = cs2.getData<PIVector<float>>(); break;
 	}
 }
 piCout << i << str << f << s.i << s.f << s.s;
 //! [read]
 //! [write_new]
-PIByteArray & operator <<(PIByteArray & s, const S & value) {
+PIByteArray & operator<<(PIByteArray & s, const S & value) {
 	PIChunkStream cs;
 	cs.add(1, value.i).add(2, value.f).add(3, value.s);
 	s << cs.data();
@@ -57,11 +60,11 @@ PIByteArray & operator <<(PIByteArray & s, const S & value) {
 }
 //! [write_new]
 //! [read_new]
-PIByteArray & operator >>(PIByteArray & s, S & value) {
+PIByteArray & operator>>(PIByteArray & s, S & value) {
 	PIChunkStream cs;
 	if (!cs.extract(s)) return s;
 	cs.readAll();
 	cs.get(1, value.i).get(2, value.f).get(3, value.s);
-	return b;
+	return s;
 }
 //! [read_new]
--- a/doc/examples/picout.cpp
+++ b/doc/examples/picout.cpp
@@ -4,7 +4,7 @@
 inline PICout operator <<(PICout s, const PIByteArray & ba) {
 	s.space(); // insert space after previous output
 	s.quote(); // ONLY if you want to quoted your type
-	s.setControl(0, true); // clear all features and
+	s.saveAndSetControls(0); // clear all features and
 	// save them to stack,
 	// now it`s behavior similar to std::cout
@@ -12,7 +12,7 @@ inline PICout operator <<(PICout s, const PIByteArray & ba) {
 	for (uint i = 0; i < ba.size(); ++i)
 		s << ba[i];
-	s.restoreControl(); // restore features from stack
+	s.restoreControls(); // restore features from stack
 	s.quote(); // ONLY if you want to quoted your type
 	return s;
 }
--- a/doc/examples/piiodevice.cpp
+++ b/doc/examples/piiodevice.cpp
@@ -7,19 +7,19 @@ class SomeIO: public PIIODevice {
 public:
 	SomeIO(): PIIODevice() {}
 protected:
-	bool openDevice() {
+	bool openDevice() override {
 		// open your device here
 		return if_success;
 	}
-	int read(void * read_to, int max_size) {
+	ssize_t readDevice(void * read_to, ssize_t max_size) override {
 		// read from your device here
 		return readed_bytes;
 	}
-	int write(const void * data, int max_size) {
+	ssize_t writeDevice(const void * data, ssize_t max_size) override {
 		// write to your device here
 		return written_bytes;
 	}
-	void configureFromFullPath(const PIString & full_path) {
+	void configureFromFullPathDevice(const PIString & full_path) override {
 		// parse full_path and configure device here
 	}
 };
@@ -38,7 +38,7 @@ ser.configure("example.conf", "dev");
 //! [configureDevice]
 class SomeIO: public PIIODevice {
 	...
-	bool configureDevice(const void * e_main, const void * e_parent) {
+	bool configureDevice(const void * e_main, const void * e_parent) override {
 		PIConfig::Entry * em = (PIConfig::Entry * )e_main;
 		PIConfig::Entry * ep = (PIConfig::Entry * )e_parent;
 		setStringParam(readDeviceSetting<PIString>("stringParam", stringParam(), em, ep));
--- a/doc/examples/pitimer.cpp
+++ b/doc/examples/pitimer.cpp
@@ -1,10 +1,10 @@
 #include "pip.h"
 //! [delimiter]
-void tfunc(void * , int delim) {
+void tfunc(int delim) {
 	piCout << "tick with delimiter" << delim;
 };
-void tfunc4(void * , int delim) {
+void tfunc4(int delim) {
 	piCout << "tick4 with delimiter" << delim;
 };
 int main() {
@@ -13,8 +13,7 @@ int main() {
 	timer.addDelimiter(4, tfunc4);
 	timer.start(50);
 	piMSleep(200);
-	timer.stop();
+	timer.stopAndWait();
 	timer.waitForFinish();
 	return 0;
 };
 /* Result:
@@ -29,14 +28,14 @@ tick4 with delimiter 4
 //! [delimiter]
 //! [elapsed]
 int main() {
-	PITimer timer;
+	PITimeMeasurer tm;
 	piMSleep(100);
-	piCout << "elapsed" << timer.elapsed_m() << "ms";
+	piCout << "elapsed" << tm.elapsed_m() << "ms";
 	piMSleep(100);
-	piCout << "elapsed" << timer.elapsed_m() << "ms";
+	piCout << "elapsed" << tm.elapsed_m() << "ms";
-	timer.reset();
+	tm.reset();
 	piMSleep(150);
-	piCout << "elapsed" << timer.elapsed_s() << "s";
+	piCout << "elapsed" << tm.elapsed_s() << "s";
 	return 0;
 };
 /* Result:
@@ -53,16 +52,15 @@ int main() {
 	t0 -= PISystemTime::fromSeconds(0.1); // s = 1, ns = 0
 	t0.sleep();                           // sleep for 1 second
 	PISystemTime t1;
-	t0 = currentSystemTime();
+	t0 = PISystemTime::current();
 	piMSleep(500);
-	t1 = currentSystemTime();
+	t1 = PISystemTime::current();
 	(t1 - t0).sleep(); // sleep for 500 milliseconds
 	return 0;
 };
 //! [system_time]
-void _() {
+void _(){
 };
--- a/doc/pages/code_model.md
+++ b/doc/pages/code_model.md
@@ -0,0 +1,297 @@
 \~english \page code_model Code generation
 \~russian \page code_model Генерация кода
 \~english
 \~russian
 # Введение
 Кодогенерация помогает в случаях, когда нужен доступ к строковому представлению
 сущностей (классов, перечислений, ...), либо автоматизированная де/сериализация
 структур и классов.
 Например, необходимо для создания интерфейса получить в готовом виде список
 пар "имя" = "значение" от какого-либо перечисления, либо обойти список
 вложенных в класс структур с дополнительными метками. Или просто описать
 структуру любой сложности, пометить поля номерами и получить готовые операторы
 де/сериализации для PIBinaryStream с возможностью будущих изменений и сохранением
 обратной совместимости.
 # pip_cmg
 PIP предоставляет утилиту, которая берет на вход файлы исходного кода, пути
 включения, параметры и макросы, и на выходе создает h/cpp пару файлов с
 необходимым функционалом. В зависимости от параметров, в этих файлах будут
 присутствовать секции:
 * метаинформации о сущностях;
 * операторы де/сериализации;
 * возможность получить PIVariant любого члена структуры по имени.
 Параметры обработки:
 * -s - не следовать "#include" внутри файлов;
 * -I<include_dir> - добавить папку включения (например, -I.. -I../some_dir -I/usr/include);
 * -D<define>  - добавить макрос, PICODE всегда объявлен (например, -DMY_DEFINE добавит макрос MY_DEFINE).
 Параметры создания:
 * -A - создать всё;
 * -M - создать метаинформацию (имена и типы всех членов, иерархия включения);
 * -E - создать перечисления (списки перечислений);
 * -S - создать операторы де/сериализации;
 * -G - создать методы получения значений переменных по именам;
 * -o <output_file> - имя файлов модели без расширения (например, "ccm" - создадутся файлы "ccm.h" и "ccm.cpp")
 # CMake
 Для автоматизации кодогенерации существует CMake макрос pip_code_model, который сам вызывает pip_cmg и
 следит за актуальностью модели.
 Формат вызова макроса:
 \code{.cmake}
 pip_code_model(<out_var> file0 [file1 ...] [OPTIONS opt0 [opt1 ...] ] [NAME name])
 \endcode
 Параметры:
 * out_var - имя переменной, куда будут записаны абсолютные пути сгенерённых файлов;
 * file... - файлы для генерации, допускаются относительные или абсолютные пути;
 * OPTIONS - передаваемые в pip_cmg параметры, например, "-Es";
 * NAME - базовое имя файлов модели, если не указано, то используется "ccm_${PROJECT_NAME}".
 Этот макрос сам включает все пути для PIP.
 Для получения актуальных параметров pip_cmg можно вызывать "pip_cmg -v".
 # Подробности
 ## Метаинформация
 Метаинформация - это текстовое представление всех членов и методов структуры или класса C++.
 Для доступа к ним используется PICODEINFO::classes().value("name"), который возвращает
 указатель на структуру PICodeInfo::ClassInfo, содержащую всю информацию о сущности.
 В любой структуре PICodeInfo есть поле "MetaMap meta", содержащее произвольные
 данные, видимые для кодогенератора, но невидимые для компилятора.
 Для этого используется макрос PIMETA(), который необходимо вписать после объявления
 переменной, метода либо сущности, например:
 \code{.cpp}
 struct MyStruct: Header PIMETA(type=in,port=5005) {
 	ushort calcChecksum() const PIMETA(show=true);
 	bool checkChecksum() const;
 	void setChecksum();
 	uchar block_id PIMETA(type=int) = 0;
 };
 enum FOV { // Поле зрения
 	fovWide   PIMETA(label="Широкое",angle=90),
 	fovNormal PIMETA(label="Нормальное",angle=60),
 	fovNarrow PIMETA(label="Узкое",angle=30)
 };
 \endcode
 В этом примере в каждом месте, где указана PIMETA, её можно будет получить через "MetaMap meta".
 ## Перечисления
 Перечисления записываются отдельно, для доступа к ним используется PICODEINFO::enums().value("name"),
 который возвращает указатель на структуру PICodeInfo::EnumInfo, содержащую всю информацию о перечеслении.
 ## Операторы де/сериализации
 Эти операторы создаются в h файле для всех сутрктур и классов, в которых есть хотя бы один член,
 доступный для работы. Операторы работают с PIBinaryStream в двух вариантах - простом или через PIChunkStream.
 Для каждой структуры можно указать режим де/сериализации с помощью фиксированного поля в PIMETA:
 * нет указаний - работа через PIChunkStream;
 * simple-stream - работа просто через PIBinaryStream;
 * no-stream - не создавать операторы.
 Например, для структуры
 \code{.cpp}
 struct DateTime {
 	uchar seconds;
 	uchar minutes;
 	uchar hours;
 	uchar days;
 	uchar months;
 	uchar years;
 };
 \endcode
 создадутся операторы
 \code{.cpp}
 BINARY_STREAM_WRITE(DateTime) {
 	PIChunkStream cs;
 	cs << cs.chunk(1, v.seconds);
 	cs << cs.chunk(2, v.minutes);
 	cs << cs.chunk(3, v.hours);
 	cs << cs.chunk(4, v.days);
 	cs << cs.chunk(5, v.months);
 	cs << cs.chunk(6, v.years);
 	s << cs.data();
 	return s;
 }
 BINARY_STREAM_READ (DateTime) {
 	PIByteArray csba; s >> csba;
 	PIChunkStream cs(csba);
 	while (!cs.atEnd()) {
 		switch (cs.read()) {
 		case 1: cs.get(v.seconds); break;
 		case 2: cs.get(v.minutes); break;
 		case 3: cs.get(v.hours); break;
 		case 4: cs.get(v.days); break;
 		case 5: cs.get(v.months); break;
 		case 6: cs.get(v.years); break;
 		}
 	}
 	return s;
 }
 \endcode
 , где порядок id последовательнен.
 Для структуры
 \code{.cpp}
 struct DateTime PIMETA(simple-stream) {
 	uchar seconds;
 	uchar minutes;
 	uchar hours;
 	uchar days;
 	uchar months;
 	uchar years;
 };
 \endcode
 создадутся операторы
 \code{.cpp}
 BINARY_STREAM_WRITE(DateTime) {
 	s << v.seconds;
 	s << v.minutes;
 	s << v.hours;
 	s << v.days;
 	s << v.months;
 	s << v.years;
 	return s;
 }
 BINARY_STREAM_READ (DateTime) {
 	s >> v.seconds;
 	s >> v.minutes;
 	s >> v.hours;
 	s >> v.days;
 	s >> v.months;
 	s >> v.years;
 	return s;
 }
 \endcode
 Для структуры
 \code{.cpp}
 struct DateTime PIMETA(no-stream) {
 	uchar seconds;
 	uchar minutes;
 	uchar hours;
 	uchar days;
 	uchar months;
 	uchar years;
 };
 \endcode
 не создадутся операторы
 В режиме работы через PIChunkStream также можно указать индивидуальные id,
 что очень полезно для сохранения обратной совместимости структур разных версий:
 Для структуры
 \code{.cpp}
 struct DateTime {
 	PIMETA(id=10) uchar seconds;
 	PIMETA(id=11) uchar minutes;
 	PIMETA(id=12) uchar hours;
 	PIMETA(id=20) uchar days;
 	PIMETA(id=21) uchar months;
 	PIMETA(id=22) uchar years;
 };
 \endcode
 \code{.cpp}
 BINARY_STREAM_WRITE(DateTime) {
 	PIChunkStream cs;
 	cs << cs.chunk(10, v.seconds);
 	cs << cs.chunk(11, v.minutes);
 	cs << cs.chunk(12, v.hours);
 	cs << cs.chunk(20, v.days);
 	cs << cs.chunk(21, v.months);
 	cs << cs.chunk(22, v.years);
 	s << cs.data();
 	return s;
 }
 BINARY_STREAM_READ (DateTime) {
 	PIByteArray csba; s >> csba;
 	PIChunkStream cs(csba);
 	while (!cs.atEnd()) {
 		switch (cs.read()) {
 		case 10: cs.get(v.seconds); break;
 		case 11: cs.get(v.minutes); break;
 		case 12: cs.get(v.hours); break;
 		case 20: cs.get(v.days); break;
 		case 21: cs.get(v.months); break;
 		case 22: cs.get(v.years); break;
 		}
 	}
 	return s;
 }
 \endcode
 Если в этом режиме какую-либо переменную надо проигнорировать, то вместо
 числа id можно указать "-":
 \code{.cpp}
 struct DateTime {
 	PIMETA(id=10) uchar seconds;
 	PIMETA(id=11) uchar minutes;
 	PIMETA(id=-) uchar hours;
 	PIMETA(id=20) uchar days;
 	PIMETA(id=21) uchar months;
 	PIMETA(id=-) uchar years;
 };
 \endcode
 \code{.cpp}
 BINARY_STREAM_WRITE(DateTime) {
 	PIChunkStream cs;
 	cs << cs.chunk(10, v.seconds);
 	cs << cs.chunk(11, v.minutes);
 	cs << cs.chunk(20, v.days);
 	cs << cs.chunk(21, v.months);
 	s << cs.data();
 	return s;
 }
 BINARY_STREAM_READ (DateTime) {
 	PIByteArray csba; s >> csba;
 	PIChunkStream cs(csba);
 	while (!cs.atEnd()) {
 		switch (cs.read()) {
 		case 10: cs.get(v.seconds); break;
 		case 11: cs.get(v.minutes); break;
 		case 20: cs.get(v.days); break;
 		case 21: cs.get(v.months); break;
 		}
 	}
 	return s;
 }
 \endcode
 # Интеграция в проект
 При использовании CMake достаточно включить содержимое переменной out_var в приложение
 или библиотеку, и включить через "#include" сгенерированный заголовочный файл в нужном месте.
 После этого перечисления и метаинформация будут загружены в момент запуска, до int main(),
 а операторы станут доступны через заголовочный файл.
 CMakeLists.txt:
 \code{.cmake}
 project(myapp)
 pip_code_model(CCM "structures.h" OPTIONS "-EMs")
 add_executable(${PROJECT_NAME} ${CPPS} ${CCM})
 \endcode
 C++:
 \code{.cpp}
 #include "ccm_myapp.h"
 ...
 PICodeInfo::EnumInfo * ei = PICODEINFO::enums().value("MyEnum", 0);
 if (ei) {
 	ei->members.forEach([](const PICodeInfo::EnumeratorInfo & e){piCout << e.name << "=" << e.value;});
 }
 \endcode
--- a/doc/pages/iostream.md
+++ b/doc/pages/iostream.md
@@ -0,0 +1,125 @@
 \~english \page iostream Input/Output stream
 \~russian \page iostream Поток ввода/вывода
 \~english
 \~russian
 %PIBinaryStream представляет собой интерфейс бинарной сериализации.
 Не может быть использован в чистом виде, только в виде миксина или
 готовых классов: PIByteArray и PIIOBinaryStream.
 Используется для сохранения или чтения любых данных. Простые типы читаются/пишутся
 как блоки памяти, если не созданы конкретные операторы. Сложные типы
 ([нетривиальные](https://ru.cppreference.com/w/cpp/types/is_trivially_copyable))
 обязаны иметь операторы ввода/вывода, иначе возникнет ошибка компиляции.
 Также поддерживаются контейнеры с типами по таким же правилам.
 Перечисления интерпретируются как int, логические типы как один байт.
 Операторы сохранения добавляют данные в конец потока, а операторы извлечения
 берут данные из его начала.
 Для облегчения написания операторов есть макросы:
 * BINARY_STREAM_FRIEND(T) - объявить операторы с доступом к приватному
 содержимому типа T, необязателен;
 * BINARY_STREAM_WRITE(T) - запись в поток, "s" - объект потока, "v" - объект типа T;
 * BINARY_STREAM_READ(T) - чтение из потока, "s" - объект потока, "v" - объект типа T.
 Пример:
 \~\code{.cpp}
 #include <pibytearray.h>
 class MyType {
 	BINARY_STREAM_FRIEND(MyType);
 public:
 	void setInt(int v) {m_i = v;}
 	int getInt() const {return m_i;}
 	void setString(PIString v) {m_s = v;}
 	PIString getString() const {return m_s;}
 private:
 	int m_i = 0;
 	PIString m_s;
 };
 BINARY_STREAM_WRITE(MyType) {s << v.m_i << v.m_s; return s;}
 BINARY_STREAM_READ (MyType) {s >> v.m_i >> v.m_s; return s;}
 int main(int argc, char * argv[]) {
 	MyType t_read, t_write;
 	t_write.setInt(10);
 	t_write.setString("text");
 	PIByteArray data;
 	data << t_write;
 	piCout << data.toHex();
 	data >> t_read;
 	piCout << t_read.getInt() << t_read.getString();
 	piCout << data.toHex();
 }
 \endcode
 \~english Result:
 \~russian Результат:
 \~\code{.cpp}
 0a000000040000007400650078007400
 10 text
 \endcode
 \~english
 For store/restore custom data blocks this is PIMemoryBlock class. Stream
 operators of this class simply store/restore data block to/from stream:
 \~russian
 Для сохранения/извлечения блоков произвольных данных используется класс PIMemoryBlock.
 Потоковые операторы для него просто сохраняют/извлекают блоки байтов в/из потока:
 \~\code{.cpp}
 float a_read[10], a_write[10];
 for (int i = 0; i < 10; ++i) {
 	a_read [i] = 0.f;
 	a_write[i] = i / 10.f;
 }
 PIByteArray data;
 data << PIMemoryBlock(a_write, 10 * sizeof(float));
 piCout << data.toHex();
 data >> PIMemoryBlock(a_read, 10 * sizeof(float));
 for (int i = 0; i < 10; ++i)
 	piCout << a_read[i];
 \endcode
 \~english Result:
 \~russian Результат:
 \~\code{.cpp}
 00000000cdcccc3dcdcc4c3e9a99993ecdcccc3e0000003f9a99193f3333333fcdcc4c3f6666663f
 0
 0.1
 0.2
 0.3
 0.4
 0.5
 0.6
 0.7
 0.8
 0.9
 \endcode
 \~english
 \~russian
 Если при чтении из потока не хватило данных (например, закончился массив или файл), то проверка
 объекта потока на wasReadError() вернёт true. Рекомендуется делать эту проверку после чтения
 данных для корректной обработки ошибки.
--- a/doc/pages/summary.md
+++ b/doc/pages/summary.md
@@ -6,7 +6,7 @@
 * direct output to console (\a PICout)
 * containers (\a PIVector, \a PIDeque, \a PIVector2D, \a PIStack, \a PIQueue, \a PIMap, \a PISet)
 * byte array (\a PIByteArray)
-* serialization (\a PIChunkStream)
+* serialization (\a PIBinaryStream, \a PITextStream, \a PIIOBinaryStream, \a PIIOTextStream, \a PIChunkStream, \a PIJSON)
 * string (\a PIConstChars, \a PIString, \a PIStringList)
 * base object (events and handlers) (\a PIObject)
 * multithreading
@@ -57,7 +57,7 @@
 * общение с консолью (\a PICout)
 * контейнеры (\a PIVector, \a PIDeque, \a PIVector2D, \a PIStack, \a PIQueue, \a PIMap, \a PISet)
 * байтовый массив (\a PIByteArray)
-* сериализация (\a PIChunkStream)
+* сериализация (\a PIBinaryStream, \a PITextStream, \a PIIOBinaryStream, \a PIIOTextStream, \a PIChunkStream)
 * строка (\a PIConstChars, \a PIString, \a PIStringList)
 * базовый объект (события и обработчики) (\a PIObject)
 * многопоточность
--- a/doc/pages/using_basic.md
+++ b/doc/pages/using_basic.md
@@ -56,7 +56,7 @@ class MainClass: public PITimer {
 public:
 	MainClass() {}
 protected:
-	void tick(void * data, int delimiter) {
+	void tick(int delimiter) {
 		piCout << "timer tick";
 		// timer tick
 	}
--- a/esp-pip/main.cpp
+++ b/esp-pip/main.cpp
@@ -1,2 +1 @@
 #include "pip.h"
--- a/libs/client_server/piclientserver_client.cpp
+++ b/libs/client_server/piclientserver_client.cpp
@@ -0,0 +1,54 @@
 /*
    PIP - Platform Independent Primitives
 	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 "piclientserver_client.h"
 #include "piclientserver_server.h"
 #include "piethernet.h"
 void PIClientServer::ServerClient::createForServer(Server * parent, PIEthernet * tcp_) {
 	tcp = tcp_;
 	tcp->setParameter(PIEthernet::KeepConnection, false);
 	init();
 	CONNECTL(tcp, disconnected, ([this, parent](bool) { parent->clientDisconnected(this); }));
 }
 PIClientServer::Client::Client() {
 	tcp = new PIEthernet(PIEthernet::TCP_Client);
 	tcp->setParameter(PIEthernet::KeepConnection, true);
 	own_tcp = true;
 	init();
 }
 PIClientServer::Client::~Client() {
 	if (tcp) tcp->setDebug(false);
 	close();
 	stopAndWait();
 }
 void PIClientServer::Client::connect(PINetworkAddress addr) {
 	if (!tcp || !own_tcp) return;
 	close();
 	config.apply(this);
 	tcp->connect(addr, true);
 	tcp->startThreadedRead();
 }
--- a/libs/client_server/piclientserver_client_base.cpp
+++ b/libs/client_server/piclientserver_client_base.cpp
@@ -0,0 +1,117 @@
 /*
    PIP - Platform Independent Primitives
 	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 "piclientserver_client_base.h"
 #include "piethernet.h"
 #include "piliterals_time.h"
 PIClientServer::ClientBase::ClientBase() {}
 PIClientServer::ClientBase::~ClientBase() {
 	close();
 	stopAndWait();
 	if (own_tcp) piDeleteSafety(tcp);
 	piDeleteSafety(diag);
 }
 void PIClientServer::ClientBase::close() {
 	if (!tcp) return;
 	can_write = false;
 	tcp->stop();
 	stream.clear();
 }
 void PIClientServer::ClientBase::stopAndWait() {
 	if (!tcp) return;
 	tcp->stopAndWait(10_s);
 	if (tcp->isThreadedRead()) tcp->terminateThreadedRead();
 	tcp->close();
 	stream.clear();
 }
 int PIClientServer::ClientBase::write(const void * d, const size_t s) {
 	if (!tcp) return -1;
 	if (!can_write) return 0;
 	PIMutexLocker guard(write_mutex);
 	// piCout << "... send ...";
 	stream.send(PIByteArray(d, s));
 	// piCout << "... send ok";
 	return s;
 }
 void PIClientServer::ClientBase::enableDiagnostics() {
 	if (diag) return;
 	diag = new PIDiagnostics();
 }
 PIDiagnostics::State PIClientServer::ClientBase::diagnostics() const {
 	if (!diag) return {};
 	return diag->state();
 }
 int PIClientServer::ClientBase::receivePacketProgress() const {
 	return stream.receivePacketProgress();
 }
 void PIClientServer::ClientBase::init() {
 	if (!tcp) return;
 	CONNECTL(&stream, sendRequest, [this](const PIByteArray & ba) {
 		if (!can_write) return;
 		tcp->send(ba);
 		if (diag) diag->sended(ba.size_s());
 		// piMSleep(1);
 	});
 	CONNECTL(&stream, packetReceiveEvent, [this](PIByteArray & ba) { readed(ba); });
 	CONNECTL(&stream, startPacketReceive, [this](int size) { receivePacketStart(size); });
 	CONNECTL(&stream, endPacketReceive, [this]() { receivePacketEnd(); });
 	CONNECTL(tcp, threadedReadEvent, [this](const uchar * readed, ssize_t size) {
 		if (!can_write) return;
 		stream.received(readed, size);
 		if (diag) diag->received(size);
 	});
 	CONNECTL(tcp, connected, [this]() {
 		can_write = true;
 		// piCout << "Connected";
 		connected();
 	});
 	CONNECTL(tcp, disconnected, [this](bool) {
 		can_write = false;
 		stream.clear();
 		// piCout << "Disconnected";
 		disconnected();
 	});
 }
 void PIClientServer::ClientBase::destroy() {
 	write_mutex.lock();
 	close();
 	piDeleteSafety(tcp);
 	write_mutex.unlock();
 	// piCout << "Destroyed";
 }
--- a/libs/client_server/piclientserver_config.cpp
+++ b/libs/client_server/piclientserver_config.cpp
@@ -0,0 +1,50 @@
 /*
    PIP - Platform Independent Primitives
 	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 "piclientserver_config.h"
 #include "piclientserver_client_base.h"
 void PIClientServer::Config::setPacketSign(ushort sign) {
 	packet_sign = sign;
 }
 void PIClientServer::Config::setPacketSize(int bytes) {
 	packet_size = bytes;
 }
 void PIClientServer::Config::enableSymmetricEncryption(const PIByteArray & key) {
 	crypt_key = key;
 }
 void PIClientServer::Config::apply(ClientBase * client) {
 	auto & s(client->stream);
 	s.setPacketSign(packet_sign);
 	s.setMaxPacketSize(packet_size);
 	if (crypt_key.isNotEmpty()) {
 		s.setCryptEnabled(true);
 		s.setCryptKey(crypt_key);
 	} else
 		s.setCryptEnabled(false);
 }
--- a/libs/client_server/piclientserver_server.cpp
+++ b/libs/client_server/piclientserver_server.cpp
@@ -0,0 +1,143 @@
 /*
    PIP - Platform Independent Primitives
 	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 "piclientserver_server.h"
 #include "piclientserver_client.h"
 #include "piethernet.h"
 #include "piliterals_time.h"
 PIClientServer::Server::Server() {
 	tcp_server     = new PIEthernet(PIEthernet::TCP_Server);
 	clean_thread   = new PIThread();
 	client_factory = [] { return new ServerClient(); };
 	CONNECTL(tcp_server, newConnection, [this](PIEthernet * c) {
 		PIMutexLocker guard(clients_mutex);
 		if (clients.size_s() >= max_clients) {
 			piCout << "Server::newConnection overflow clients count";
 			delete c;
 			return;
 		}
 		auto sc = client_factory();
 		if (!sc) {
 			piCout << "ClientFactory returns nullptr!";
 			return;
 		}
 		sc->createForServer(this, c);
 		newClient(sc);
 	});
 	clean_thread->start([this]() {
 		clean_notifier.wait();
 		PIVector<ServerClient *> to_delete;
 		clients_mutex.lock();
 		for (auto c: clients) {
 			const PIEthernet * eth = c->getTCP();
 			if (!eth) continue;
 			if (eth->isConnected()) continue;
 			c->can_write = false;
 			to_delete << c;
 		}
 		for (auto c: to_delete)
 			clients.removeOne(c);
 		clients_mutex.unlock();
 		for (auto c: to_delete) {
 			c->aboutDelete();
 			c->destroy();
 			delete c;
 		}
 	});
 }
 PIClientServer::Server::~Server() {
 	clean_thread->stop();
 	clean_notifier.notify();
 	clean_thread->waitForFinish();
 	piDeleteSafety(clean_thread);
 	stopServer();
 	for (auto c: clients) {
 		c->aboutDelete();
 		c->destroy();
 		delete c;
 	}
 	piDeleteSafety(tcp_server);
 }
 void PIClientServer::Server::listen(PINetworkAddress addr) {
 	if (!tcp_server) return;
 	stopServer();
 	is_closing = false;
 	tcp_server->listen(addr, true);
 	// piCout << "Listen on" << addr.toString();
 }
 void PIClientServer::Server::closeAll() {
 	clients_mutex.lock();
 	for (auto c: clients) {
 		c->aboutDelete();
 		c->destroy();
 		delete c;
 	}
 	clients.clear();
 	clients_mutex.unlock();
 }
 void PIClientServer::Server::setMaxClients(int new_max_clients) {
 	max_clients = new_max_clients;
 }
 int PIClientServer::Server::clientsCount() const {
 	PIMutexLocker guard(clients_mutex);
 	return clients.size_s();
 }
 void PIClientServer::Server::forEachClient(std::function<void(ServerClient *)> func) {
 	PIMutexLocker guard(clients_mutex);
 	for (auto * c: clients) {
 		func(c);
 		if (is_closing) break;
 	}
 }
 void PIClientServer::Server::stopServer() {
 	if (!tcp_server) return;
 	is_closing = true;
 	tcp_server->stopThreadedListen();
 	tcp_server->stopAndWait();
 }
 void PIClientServer::Server::newClient(ServerClient * c) {
 	clients << c;
 	config.apply(c);
 	c->tcp->startThreadedRead();
 	c->connected();
 }
 void PIClientServer::Server::clientDisconnected(ServerClient * c) {
 	clean_notifier.notify();
 }
--- a/libs/cloud/picloudbase.cpp
+++ b/libs/cloud/picloudbase.cpp
@@ -1,7 +1,7 @@
 #include "picloudbase.h"
-PICloudBase::PICloudBase() : eth(PIEthernet::TCP_Client), streampacker(&eth), tcp(&streampacker) {
+PICloudBase::PICloudBase(): eth(PIEthernet::TCP_Client), streampacker(&eth), tcp(&streampacker) {
 	eth.setDebug(false);
 }
--- a/libs/cloud/picloudclient.cpp
+++ b/libs/cloud/picloudclient.cpp
@@ -18,43 +18,42 @@
 */
 #include "picloudclient.h"
 #include "picloudtcp.h"
-PICloudClient::PICloudClient(const PIString & path, PIIODevice::DeviceMode mode) : PIIODevice(path, mode), PICloudBase() {
+PICloudClient::PICloudClient(const PIString & path, PIIODevice::DeviceMode mode): PIIODevice(path, mode), PICloudBase() {
 	tcp.setRole(PICloud::TCP::Client);
 	setThreadedReadBufferSize(eth.threadedReadBufferSize());
 	setName("cloud_client");
 	is_connected = false;
 	is_deleted   = false;
-//	setReopenEnabled(false);
+	//	setReopenEnabled(false);
-	CONNECTL(&eth, connected, [this](){opened_ = true; tcp.sendStart();});
+	CONNECTL(&eth, connected, [this]() {
-	CONNECTU(&streampacker, packetReceiveEvent, this, _readed);
+		opened_ = true;
-	CONNECTL(&eth, disconnected, [this](bool){
+		tcp.sendStart();
 	});
 	CONNECT1(void, PIByteArray, &streampacker, packetReceiveEvent, this, _readed);
 	CONNECTL(&eth, disconnected, [this](bool) {
 		if (is_deleted) return;
 		bool need_disconn = is_connected;
-		//piCoutObj << "eth disconnected";
+		// piCoutObj << "eth disconnected";
-		static_cast<PIThread*>(&eth)->stop();
+		eth.stop();
 		opened_ = false;
 		internalDisconnect();
-		if (need_disconn)
+		if (need_disconn) disconnected();
-			disconnected();
+		// piCoutObj << "eth disconnected done";
 		//piCoutObj << "eth disconnected done";
 	});
 }
 PICloudClient::~PICloudClient() {
-	//piCoutObj << "~PICloudClient()";
+	// piCoutObj << "~PICloudClient() ..." << this;
 	PIThread::stop();
 	//eth.close();
 	//if (is_connected) disconnected();
 	close();
 	//piCoutObj << "~PICloudClient() closed";
 	internalDisconnect();
 //	stop(false);
 	is_deleted = true;
 	stopAndWait();
 	close();
 	internalDisconnect();
-	//piCoutObj << "~PICloudClient() done";
+	// piCoutObj << "~PICloudClient() done" << this;
 }
@@ -69,68 +68,80 @@ void PICloudClient::setKeepConnection(bool on) {
 }
 void PICloudClient::interrupt() {
 	cond_buff.notifyOne();
 	cond_connect.notifyOne();
 	eth.interrupt();
 }
 bool PICloudClient::openDevice() {
-	//piCoutObj << "open";// << path();
+	// piCoutObj << "open";// << path();
-	bool op = eth.connect(PIEthernet::Address::resolve(path()), false);
+	bool op = eth.connect(PINetworkAddress::resolve(path()), false);
 	if (op) {
 		mutex_connect.lock();
 		eth.startThreadedRead();
-		//piCoutObj << "connecting...";
+		// piCoutObj << "connecting...";
-		bool conn_ok = cond_connect.waitFor(mutex_connect, (int)eth.readTimeout());
+		bool conn_ok = cond_connect.waitFor(mutex_connect, eth.readTimeout());
-		//piCoutObj << "conn_ok" << conn_ok << is_connected;
+		// piCoutObj << "conn_ok" << conn_ok << is_connected;
 		mutex_connect.unlock();
 		if (!conn_ok) {
 			mutex_connect.lock();
-			eth.stop();
+			eth.stopAndWait();
 			eth.close();
 			mutex_connect.unlock();
 		}
 		return is_connected;
 	} else {
-		//eth.close();
+		// eth.close();
 		return false;
 	}
 }
 bool PICloudClient::closeDevice() {
-	//PIThread::stop();
+	// PIThread::stop();
 	if (is_connected) {
 		internalDisconnect();
 	}
-	eth.stop();
+	eth.stopAndWait();
 	eth.close();
 	return true;
 }
-int PICloudClient::readDevice(void * read_to, int max_size) {
+ssize_t PICloudClient::readDevice(void * read_to, ssize_t max_size) {
-	if (is_deleted) return -1;
+	if (is_deleted || max_size <= 0) return -1;
-	//piCoutObj << "readDevice";
+	// piCoutObj << "readDevice ...";
 	if (!is_connected && eth.isClosed()) openDevice();
-	int sz = -1;
+	ssize_t sz = -1;
 	mutex_buff.lock();
 	cond_buff.wait(mutex_buff, [this](){return !buff.isEmpty() || !is_connected;});
 	if (is_connected) {
-		sz = piMini(max_size, buff.size());
+		if (buff.isEmpty()) {
 			sz = 0;
 		} else {
 			sz = piMin<ssize_t>(max_size, buff.size_s());
 			memcpy(read_to, buff.data(), sz);
 			buff.remove(0, sz);
 		}
 		if (sz == 0) cond_buff.wait(mutex_buff);
 	}
 	mutex_buff.unlock();
 	if (!is_connected) opened_ = false;
-	//piCoutObj << "readDevice done" << sz;
+	// piCoutObj << "readDevice done" << sz;
 	return sz;
 }
-int PICloudClient::writeDevice(const void * data, int size) {
+ssize_t PICloudClient::writeDevice(const void * data, ssize_t size) {
-	if (is_deleted) return -1;
+	if (is_deleted || !is_connected) return -1;
-//	piCoutObj << "writeDevice";
+	// piCoutObj << "writeDevice" << size;
 	return tcp.sendData(PIByteArray(data, size));
 }
 void PICloudClient::internalDisconnect() {
 	// piCoutObj << "internalDisconnect";
 	is_connected = false;
 	cond_buff.notifyOne();
 	cond_connect.notifyOne();
@@ -142,7 +153,7 @@ void PICloudClient::internalDisconnect() {
 void PICloudClient::_readed(PIByteArray & ba) {
 	if (is_deleted) return;
 	PIPair<PICloud::TCP::Type, PICloud::TCP::Role> hdr = tcp.parseHeader(ba);
-	//piCoutObj << "_readed" << ba.size() << hdr.first << hdr.second;
+	// piCoutObj << "_readed" << ba.size() << hdr.first << hdr.second;
 	if (hdr.second == tcp.role()) {
 		switch (hdr.first) {
 		case PICloud::TCP::Connect:
@@ -155,24 +166,26 @@ void PICloudClient::_readed(PIByteArray & ba) {
 			}
 			break;
 		case PICloud::TCP::Disconnect:
-			static_cast<PIThread*>(&eth)->stop();
+			eth.stop();
 			opened_ = false;
 			eth.close();
 			break;
 		case PICloud::TCP::Data:
 			if (is_connected) {
 				mutex_buff.lock();
 				if (buff.size_s() > threadedReadBufferSize()) {
 					piCoutObj << "Error: buffer overflow, drop" << ba.size() << "bytes";
 					mutex_buff.unlock();
 					return;
 				}
 				buff.append(ba);
 				mutex_buff.unlock();
 				cond_buff.notifyOne();
 			}
 			break;
-		default:
+		default: break;
 		break;
 		}
-		//piCoutObj << "readed" << ba.toHex();
+		// piCoutObj << "readed" << ba.toHex();
 	}
-	while (buff.size_s() > threadedReadBufferSize()) piMSleep(100); // FIXME: sleep here is bad
+	// piCoutObj << "_readed done";
 	//piCoutObj << "_readed done";
 }
--- a/libs/cloud/picloudserver.cpp
+++ b/libs/cloud/picloudserver.cpp
@@ -19,30 +19,62 @@
 #include "picloudserver.h"
 #include "piliterals_time.h"
-PICloudServer::PICloudServer(const PIString & path, PIIODevice::DeviceMode mode) : PIIODevice(path, mode), PICloudBase() {
+
-	PIString server_name = "PCS_" + PIString::fromNumber(randomi()%1000);
+PICloudServer::PICloudServer(const PIString & path, PIIODevice::DeviceMode mode): PIIODevice(path, mode), PICloudBase() {
 	PIString server_name = "PCS_" + PIString::fromNumber(randomi() % 1000);
 	tcp.setRole(PICloud::TCP::Server);
 	tcp.setServerName(server_name);
 	setName("cloud_server__" + server_name);
-	CONNECTU(&streampacker, packetReceiveEvent, this, _readed);
+	is_deleted = false;
-	CONNECTL(&eth, connected, [this](){opened_ = true; piCoutObj << "connected"; tcp.sendStart();});
+	eth.setReopenEnabled(false);
-	CONNECTL(&eth, disconnected, [this](bool){
+	setThreadedReadBufferSize(eth.threadedReadBufferSize());
-		piCoutObj << "disconnected";
+	CONNECT1(void, PIByteArray, &streampacker, packetReceiveEvent, this, _readed);
-		static_cast<PIThread*>(&eth)->stop();
+	CONNECTL(&eth, connected, [this]() {
-		opened_ = false;
+		open_mutex.lock();
-		ping_timer.stop(false);
+		opened_ = true;
-		piMSleep(100);
+		cvar.notifyOne();
 		open_mutex.unlock();
 		piCoutObj << "connected";
 		tcp.sendStart();
 	});
-	CONNECTL(&ping_timer, tickEvent, [this] (void *, int){
+	CONNECTL(&eth, disconnected, [this](bool) {
 		if (is_deleted) return;
 		piCoutObj << "disconnected";
 		clients_mutex.lock();
 		for (auto c: clients_) {
 			c->is_connected = false;
 			c->close();
 		}
 		removed_clients_.append(clients_);
 		clients_.clear();
 		index_clients.clear();
 		clients_mutex.unlock();
 		open_mutex.lock();
 		opened_ = false;
 		cvar.notifyOne();
 		open_mutex.unlock();
 		ping_timer.stop();
 	});
 	ping_timer.setSlot([this]() {
 		if (eth.isConnected()) tcp.sendPing();
 	});
 }
 PICloudServer::~PICloudServer() {
 	// piCoutObj << "~PICloudServer ..." << this;
 	is_deleted = true;
 	stop();
 	close();
 	waitThreadedReadFinished();
 	// piCout << "wait";
 	while (removed_clients_.isNotEmpty()) {
 		Client * c = removed_clients_.take_back();
 		delete c;
 	}
 	// piCoutObj << "~PICloudServer done" << this;
 }
@@ -59,73 +91,88 @@ PIVector<PICloudServer::Client *> PICloudServer::clients() const {
 bool PICloudServer::openDevice() {
-	//piCout << "PICloudServer open device" << path();
+	piCoutObj << "open device" << path();
-	bool op = eth.connect(PIEthernet::Address::resolve(path()), false);
+	if (is_deleted) return false;
 	bool op = eth.connect(PINetworkAddress::resolve(path()), false);
 	if (op) {
 		eth.startThreadedRead();
-		ping_timer.start(5000);
+		ping_timer.start(5_s);
 		return true;
-	}
+	} else {
-	ping_timer.stop(false);
+		ping_timer.stop();
 		eth.close();
 		return false;
 	}
 }
 bool PICloudServer::closeDevice() {
-	eth.stop();
+	// piCoutObj << "closeDevice" << this;
-	ping_timer.stop(false);
+	eth.stopAndWait();
-	clients_mutex.lock();
+	ping_timer.stop();
 	for (auto c : clients_) {
 		c->close();
 		c->stop();
 	}
 	clients_mutex.unlock();
 	eth.close();
-	for (auto c : clients_)
+	cvar.notifyOne();
-		delete c;
+	clients_mutex.lock();
 	for (auto c: clients_) {
 		c->is_connected = false;
 		c->close();
 	}
 	removed_clients_.append(clients_);
 	clients_.clear();
 	index_clients.clear();
 	clients_mutex.unlock();
 	return true;
 }
-int PICloudServer::readDevice(void * read_to, int max_size) {
+ssize_t PICloudServer::readDevice(void * read_to, ssize_t max_size) {
-	//piCoutObj << "readDevice";
+	if (is_deleted) return -1;
-	if (!opened_) openDevice();
+	// piCoutObj << "readDevice";
-	else piMSleep(eth.readTimeout());
+	open_mutex.lock();
 	if (isOpened()) cvar.wait(open_mutex);
 	open_mutex.unlock();
 	// piCoutObj << "opened_ = " << opened_;
 	// else piMSleep(eth.readTimeout());
 	return -1;
 }
-int PICloudServer::writeDevice(const void * data, int max_size) {
+ssize_t PICloudServer::writeDevice(const void * data, ssize_t max_size) {
-	//piCoutObj << "writeDevice";
+	// piCoutObj << "writeDevice";
 	return -1;
 }
 void PICloudServer::interrupt() {
 	eth.interrupt();
 	cvar.notifyOne();
 }
 void PICloudServer::clientDisconnect(uint client_id) {
 	tcp.sendDisconnected(client_id);
 }
 int PICloudServer::sendData(const PIByteArray & data, uint client_id) {
 	if (!opened_) return -1;
 	return tcp.sendData(data, client_id);
 }
-PICloudServer::Client::Client(PICloudServer * srv, uint id) : server(srv), client_id(id) {
+PICloudServer::Client::Client(PICloudServer * srv, uint id): server(srv), client_id(id) {
 	setMode(PIIODevice::ReadWrite);
 	setReopenEnabled(false);
 	setThreadedReadBufferSize(server->threadedReadBufferSize());
 	is_connected = true;
 }
 PICloudServer::Client::~Client() {
-	if (is_connected) {
+	// piCoutObj << "~PICloudServer::Client..." << this;
 		is_connected = false;
 		cond_buff.notifyOne();
 	}
 	close();
-	stop();
+	stopAndWait(10_s);
 	// piCoutObj << "~PICloudServer::Client done" << this;
 }
@@ -135,7 +182,7 @@ bool PICloudServer::Client::openDevice() {
 bool PICloudServer::Client::closeDevice() {
-	PIThread::stop(false);
+	// piCoutObj << "closeDevice" << this;
 	if (is_connected) {
 		server->clientDisconnect(client_id);
 		is_connected = false;
@@ -145,37 +192,52 @@ bool PICloudServer::Client::closeDevice() {
 }
-int PICloudServer::Client::readDevice(void * read_to, int max_size) {
+ssize_t PICloudServer::Client::readDevice(void * read_to, ssize_t max_size) {
 	if (!is_connected) return -1;
-	int sz = -1;
+	ssize_t sz = -1;
 	mutex_buff.lock();
 	cond_buff.wait(mutex_buff, [this](){return !buff.isEmpty() || !is_connected;});
 	if (is_connected) {
 		if (buff.isEmpty()) {
 			sz = 0;
 		} else {
 			sz = piMini(max_size, buff.size());
 			memcpy(read_to, buff.data(), sz);
 			buff.remove(0, sz);
 		}
 		if (sz == 0) cond_buff.wait(mutex_buff);
 	}
 	mutex_buff.unlock();
 	return sz;
 }
-int PICloudServer::Client::writeDevice(const void * data, int size) {
+ssize_t PICloudServer::Client::writeDevice(const void * data, ssize_t size) {
 	if (!is_connected) return -1;
 	return server->sendData(PIByteArray(data, size), client_id);
 }
 void PICloudServer::Client::interrupt() {
 	cond_buff.notifyOne();
 }
 void PICloudServer::Client::pushBuffer(const PIByteArray & ba) {
 	if (!is_connected) return;
 	mutex_buff.lock();
 	if (buff.size_s() > threadedReadBufferSize()) {
 		piCoutObj << "Error: buffer overflow, drop" << ba.size() << "bytes";
 		mutex_buff.unlock();
 		return;
 	}
 	buff.append(ba);
 	cond_buff.notifyOne();
 	mutex_buff.unlock();
 	while (buff.size_s() > threadedReadBufferSize()) piMSleep(100); // FIXME: sleep here is bad
 }
 void PICloudServer::_readed(PIByteArray & ba) {
 	if (is_deleted) return;
 	PIPair<PICloud::TCP::Type, PICloud::TCP::Role> hdr = tcp.parseHeader(ba);
 	if (hdr.second == tcp.role()) {
 		switch (hdr.first) {
@@ -185,11 +247,12 @@ void PICloudServer::_readed(PIByteArray & ba) {
 			Client * oc = index_clients.value(id, nullptr);
 			clients_mutex.unlock();
 			if (oc) {
 				piCoutObj << "Warning: reject client with duplicated ID";
 				tcp.sendDisconnected(id);
 			} else {
 				//piCoutObj << "new Client" << id;
 				Client * c = new Client(this, id);
-				CONNECTU(c, deleted, this, clientDeleted);
+				// piCoutObj << "new Client" << id << c;
 				CONNECT1(void, PIObject *, c, deleted, this, clientDeleted);
 				clients_mutex.lock();
 				clients_ << c;
 				index_clients.insert(id, c);
@@ -199,13 +262,17 @@ void PICloudServer::_readed(PIByteArray & ba) {
 		} break;
 		case PICloud::TCP::Disconnect: {
 			uint id = tcp.parseDisconnect(ba);
-			//piCoutObj << "remove Client" << id;
+			// piCoutObj << "Close on logic";
 			clients_mutex.lock();
-			Client * oc = index_clients.value(id, nullptr);
+			Client * oc = index_clients.take(id, nullptr);
 			clients_.removeOne(oc);
 			clients_mutex.unlock();
 			if (oc) {
 				oc->stopAndWait();
 				oc->is_connected = false;
 				oc->close();
 				removed_clients_ << oc;
 				// delete oc;
 			}
 		} break;
 		case PICloud::TCP::Data: {
@@ -213,7 +280,7 @@ void PICloudServer::_readed(PIByteArray & ba) {
 			clients_mutex.lock();
 			Client * oc = index_clients.value(d.first, nullptr);
 			clients_mutex.unlock();
-			//piCoutObj << "data for" << d.first << d.second.toHex();
+			// piCoutObj << "data for" << d.first << d.second.size();
 			if (oc && !d.second.isEmpty()) oc->pushBuffer(d.second);
 		} break;
 		default: break;
@@ -223,16 +290,11 @@ void PICloudServer::_readed(PIByteArray & ba) {
 void PICloudServer::clientDeleted(PIObject * o) {
-	PICloudServer::Client * c = (PICloudServer::Client*)o;
+	PICloudServer::Client * c = (PICloudServer::Client *)o;
 	// piCoutObj << "clientDeleted" << c;
 	clients_mutex.lock();
 	clients_.removeOne(c);
-	auto it = index_clients.makeIterator();
+	removed_clients_.removeAll(c);
-	while (it.hasNext()) {
+	index_clients.removeWhere([c](uint, Client * v) { return v == c; });
 		it.next();
 		if (it.value() == c) {
 			index_clients.remove(it.key());
 			break;
 		}
 	}
 	clients_mutex.unlock();
 }
--- a/libs/cloud/picloudtcp.cpp
+++ b/libs/cloud/picloudtcp.cpp
@@ -18,8 +18,9 @@
 */
 #include "picloudtcp.h"
-#include "picrypt.h"
+
 #include "pichunkstream.h"
 #include "picrypt.h"
 #include "piethernet.h"
 #include "pistreampacker.h"
@@ -32,8 +33,8 @@ PICloud::TCP::Header::Header() {
 }
-PICloud::TCP::TCP(PIStreamPacker * s) : streampacker(s) {
+PICloud::TCP::TCP(PIStreamPacker * s): streampacker(s) {
-	streampacker->setMaxPacketSize(63*1024);
+	streampacker->setMaxPacketSize(63 * 1024);
 }
 void PICloud::TCP::setRole(PICloud::TCP::Role r) {
@@ -43,7 +44,8 @@ void PICloud::TCP::setRole(PICloud::TCP::Role r) {
 void PICloud::TCP::setServerName(const PIString & server_name_) {
 	server_name = server_name_;
-	suuid = PICrypt::hash(PIByteArray(server_name_.data(), server_name_.size()), (const unsigned char *)hash_cloud_key, sizeof(hash_cloud_key));
+	suuid =
 		PICrypt::hash(PIByteArray(server_name_.data(), server_name_.size()), (const unsigned char *)hash_cloud_key, sizeof(hash_cloud_key));
 }
@@ -53,7 +55,7 @@ PIString PICloud::TCP::serverName() const {
 void PICloud::TCP::sendStart() {
-	//piCout << "sendStart";
+	// piCout << "sendStart";
 	if (suuid.size() != PICrypt::sizeHash()) {
 		piCout << "PICloud ERROR, server not set, invoke setServerName first";
 		return;
@@ -62,9 +64,9 @@ void PICloud::TCP::sendStart() {
 	PIByteArray ba;
 	ba << header;
 	ba.append(suuid);
-	//mutex_send.lock();
+	// mutex_send.lock();
 	streampacker->send(ba);
-	//mutex_send.unlock();
+	// mutex_send.unlock();
 }
@@ -72,9 +74,9 @@ void PICloud::TCP::sendConnected(uint client_id) {
 	header.type = PICloud::TCP::Connect;
 	PIByteArray ba;
 	ba << header << client_id;
-//	mutex_send.lock();
+	//	mutex_send.lock();
 	streampacker->send(ba);
-//	mutex_send.unlock();
+	//	mutex_send.unlock();
 }
@@ -82,9 +84,9 @@ void PICloud::TCP::sendDisconnected(uint client_id) {
 	header.type = PICloud::TCP::Disconnect;
 	PIByteArray ba;
 	ba << header << client_id;
-//	mutex_send.lock();
+	//	mutex_send.lock();
 	streampacker->send(ba);
-//	mutex_send.unlock();
+	//	mutex_send.unlock();
 }
@@ -93,7 +95,7 @@ int PICloud::TCP::sendData(const PIByteArray & data) {
 	PIByteArray ba;
 	ba << header;
 	ba.append(data);
-//	piCout << "[PICloud::TCP] sendData" << ba.toHex();
+	//	piCout << "[PICloud::TCP] sendData" << ba.toHex();
 	mutex_send.lock();
 	streampacker->send(ba);
 	mutex_send.unlock();
@@ -132,7 +134,8 @@ PIPair<PICloud::TCP::Type, PICloud::TCP::Role> PICloud::TCP::parseHeader(PIByteA
 	PICloud::TCP::Header hdr;
 	ba >> hdr;
 	if (hdr.version != header.version) {
-		piCout << "[PICloud]" << "invalid PICloud::TCP version!";
+		piCout << "[PICloud]"
 			   << "invalid PICloud::TCP version!";
 		return ret;
 	}
 	ret.first  = (Type)hdr.type;
@@ -168,14 +171,14 @@ PIByteArray PICloud::TCP::parseConnect_d(PIByteArray & ba) {
 uint PICloud::TCP::parseConnect(PIByteArray & ba) {
-	uint ret;
+	uint ret = 0;
 	ba >> ret;
 	return ret;
 }
 uint PICloud::TCP::parseDisconnect(PIByteArray & ba) {
-	uint ret;
+	uint ret = 0;
 	ba >> ret;
 	return ret;
 }
--- a/libs/compress/picompress.cpp
+++ b/libs/compress/picompress.cpp
@@ -38,14 +38,16 @@ PIByteArray piCompress(const PIByteArray & ba, int level) {
 	ulong sz = zba.size();
 	ret      = compress2(zba.data(), &sz, ba.data(), ba.size(), level);
 	if (ret != Z_OK) {
-		piCout << "[PICompress]" << "Error: invalid input or not enought memory";
+		piCout << "[PICompress]"
 			   << "Error: invalid input or not enought memory";
 		return ba;
 	}
 	zba.resize(sz);
 	zba << ullong(ba.size());
 	return zba;
 #else
-	piCout << "[PICompress]" << "Warning: PICompress is disabled, to enable install zlib library and build pip_compress library";
+	piCout << "[PICompress]"
 		   << "Warning: PICompress is disabled, to enable install zlib library and build pip_compress library";
 #endif
 	return ba;
 }
@@ -53,9 +55,10 @@ PIByteArray piCompress(const PIByteArray & ba, int level) {
 PIByteArray piDecompress(const PIByteArray & zba) {
 #ifdef PIP_COMPRESS
-	ullong sz;
+	ullong sz = 0;
 	if (zba.size() < sizeof(ullong)) {
-		piCout << "[PICompress]" << "Error: invalid input";
+		piCout << "[PICompress]"
 			   << "Error: invalid input";
 		return zba;
 	}
 	PIByteArray ba(zba.data(zba.size() - sizeof(ullong)), sizeof(ullong));
@@ -65,12 +68,14 @@ PIByteArray piDecompress(const PIByteArray & zba) {
 	ulong s = sz;
 	ret     = uncompress(ba.data(), &s, zba.data(), zba.size());
 	if (ret != Z_OK) {
-		piCout << "[PICompress]" << "Error: invalid input or not enought memory";
+		piCout << "[PICompress]"
 			   << "Error: invalid input or not enought memory";
 		return zba;
 	}
 	return ba;
 #else
-	piCout << "[PICompress]" << "Warning: PICompress is disabled, to enable install zlib library and build pip_compress library";
+	piCout << "[PICompress]"
 		   << "Warning: PICompress is disabled, to enable install zlib library and build pip_compress library";
 #endif
 	return zba;
 }
--- a/libs/console/piscreen.cpp
+++ b/libs/console/piscreen.cpp
@@ -17,14 +17,16 @@
    along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */
 #include "piscreen.h"
 #include "piincludes_p.h"
 #include "piliterals_time.h"
 #ifndef WINDOWS
 #  include <sys/ioctl.h>
 #  include <fcntl.h>
 #  include <sys/ioctl.h>
 #  include <termios.h>
 #else
 #  include <wingdi.h>
 #  include <wincon.h>
 #  include <wingdi.h>
 #  ifndef COMMON_LVB_UNDERSCORE
 #	define COMMON_LVB_UNDERSCORE 0x8000
 #  endif
@@ -51,6 +53,18 @@ PRIVATE_DEFINITION_END(PIScreen::SystemConsole)
 PIScreen::SystemConsole::SystemConsole() {
 	width = height = pwidth = pheight = 0;
 	mouse_x = mouse_y = -1;
 }
 PIScreen::SystemConsole::~SystemConsole() {
 #ifdef WINDOWS
 	SetConsoleMode(PRIVATE->hOut, PRIVATE->smode);
 	SetConsoleTextAttribute(PRIVATE->hOut, PRIVATE->dattr);
 #endif
 }
 void PIScreen::SystemConsole::begin() {
 	int w, h;
 #ifdef WINDOWS
 	PRIVATE->ulcoord.X = 0;
@@ -74,18 +88,6 @@ PIScreen::SystemConsole::SystemConsole() {
 #  endif
 #endif
 	resize(w, h);
 }
 PIScreen::SystemConsole::~SystemConsole() {
 #ifdef WINDOWS
 	SetConsoleMode(PRIVATE->hOut, PRIVATE->smode);
 	SetConsoleTextAttribute(PRIVATE->hOut, PRIVATE->dattr);
 #endif
 }
 void PIScreen::SystemConsole::begin() {
 #ifdef WINDOWS
 	SetConsoleMode(PRIVATE->hOut, ENABLE_WRAP_AT_EOL_OUTPUT);
 	GetConsoleScreenBufferInfo(PRIVATE->hOut, &PRIVATE->sbi);
@@ -93,6 +95,7 @@ void PIScreen::SystemConsole::begin() {
 	PRIVATE->bc.Y = 0;
 #endif
 	clear();
 	clearScreen();
 	hideCursor();
 }
@@ -157,7 +160,7 @@ void PIScreen::SystemConsole::resize(int w, int h) {
 void PIScreen::SystemConsole::print() {
 	if (mouse_x >= 0 && mouse_x < width && mouse_y >= 0 && mouse_y < height) {
-		///cells[mouse_y][mouse_x].format.flags ^= Inverse;
+		/// cells[mouse_y][mouse_x].format.flags ^= Inverse;
 	}
 #ifdef WINDOWS
 	PRIVATE->srect = PRIVATE->sbi.srWindow;
@@ -188,7 +191,7 @@ void PIScreen::SystemConsole::print() {
 			PRIVATE->chars[k].Char.AsciiChar   = c.symbol.toConsole1Byte();
 			PRIVATE->chars[k].Attributes       = attributes(c);
 		}
-	//piCout << "draw" << dw << dh;
+	// piCout << "draw" << dw << dh;
 	PRIVATE->bs.X = dw;
 	PRIVATE->bs.Y = dh;
 	PRIVATE->srect.Left += dx0;
@@ -227,7 +230,7 @@ void PIScreen::SystemConsole::print() {
 		if (!s.isEmpty()) {
 			moveTo(si, sj);
 			PICout::stdoutPIString(s);
-			//printf("%s", s.data());
+			// printf("%s", s.data());
 			s.clear();
 		}
 	}
@@ -239,14 +242,18 @@ void PIScreen::SystemConsole::print() {
 #ifdef WINDOWS
-#define FOREGROUND_MASK (FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_BLUE)
+#  define FOREGROUND_MASK (FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_BLUE)
-#define BACKGROUND_MASK (BACKGROUND_RED | BACKGROUND_GREEN | BACKGROUND_BLUE)
+#  define BACKGROUND_MASK (BACKGROUND_RED | BACKGROUND_GREEN | BACKGROUND_BLUE)
 ushort PIScreen::SystemConsole::attributes(const PIScreenTypes::Cell & c) {
 	WORD attr = PRIVATE->dattr;
-	if (c.format.flags & Bold) attr |= FOREGROUND_INTENSITY;
+	if (c.format.flags & Bold)
-	else attr &= ~FOREGROUND_INTENSITY;
+		attr |= FOREGROUND_INTENSITY;
-	if (c.format.flags & Underline) attr |= COMMON_LVB_UNDERSCORE;
+	else
-	else attr &= ~COMMON_LVB_UNDERSCORE;
+		attr &= ~FOREGROUND_INTENSITY;
 	if (c.format.flags & Underline)
 		attr |= COMMON_LVB_UNDERSCORE;
 	else
 		attr &= ~COMMON_LVB_UNDERSCORE;
 	switch (c.format.color_char) {
 	case Black: attr = (attr & ~FOREGROUND_MASK); break;
 	case Red: attr = (attr & ~FOREGROUND_MASK) | FOREGROUND_RED; break;
@@ -275,8 +282,8 @@ ushort PIScreen::SystemConsole::attributes(const PIScreenTypes::Cell & c) {
 	}
 	return attr;
 }
-#undef FOREGROUND_MASK
+#  undef FOREGROUND_MASK
-#undef BACKGROUND_MASK
+#  undef BACKGROUND_MASK
 void PIScreen::SystemConsole::getWinCurCoord() {
 	GetConsoleScreenBufferInfo(PRIVATE->hOut, &PRIVATE->csbi);
@@ -291,7 +298,8 @@ void PIScreen::SystemConsole::clearLine() {
 void PIScreen::SystemConsole::newLine() {
 	getWinCurCoord();
-	PRIVATE->ccoord.X = 0; PRIVATE->ccoord.Y++;
+	PRIVATE->ccoord.X = 0;
 	PRIVATE->ccoord.Y++;
 	SetConsoleCursorPosition(PRIVATE->hOut, PRIVATE->ccoord);
 }
 #else  // WINDOWS
@@ -317,10 +325,10 @@ PIString PIScreen::SystemConsole::formatString(const PIScreenTypes::Cell & c) {
 	case Yellow: ts += PIStringAscii(";43"); break;
 	case White: ts += PIStringAscii(";47"); break;
 	}
-	if ((c.format.flags & Bold     ) == Bold     ) ts += PIStringAscii(";1");
+	if ((c.format.flags & Bold) == Bold) ts += PIStringAscii(";1");
 	if ((c.format.flags & Underline) == Underline) ts += PIStringAscii(";4");
-	if ((c.format.flags & Blink    ) == Blink    ) ts += PIStringAscii(";5");
+	if ((c.format.flags & Blink) == Blink) ts += PIStringAscii(";5");
-	if ((c.format.flags & Inverse  ) == Inverse  ) ts += PIStringAscii(";7");
+	if ((c.format.flags & Inverse) == Inverse) ts += PIStringAscii(";7");
 	return ts + 'm';
 }
 #endif // WINDOWS
@@ -357,8 +365,16 @@ void PIScreen::SystemConsole::clearScreen() {
 void PIScreen::SystemConsole::clearScreenLower() {
 #ifdef WINDOWS
 	getWinCurCoord();
-	FillConsoleOutputAttribute(PRIVATE->hOut, PRIVATE->dattr, width * height - width * PRIVATE->ccoord.Y + PRIVATE->ccoord.X, PRIVATE->ccoord, &PRIVATE->written);
+	FillConsoleOutputAttribute(PRIVATE->hOut,
-	FillConsoleOutputCharacter(PRIVATE->hOut, ' ', width * height - width * PRIVATE->ccoord.Y + PRIVATE->ccoord.X, PRIVATE->ccoord, &PRIVATE->written);
+	                           PRIVATE->dattr,
 	                           width * height - width * PRIVATE->ccoord.Y + PRIVATE->ccoord.X,
 	                           PRIVATE->ccoord,
 	                           &PRIVATE->written);
 	FillConsoleOutputCharacter(PRIVATE->hOut,
 	                           ' ',
 	                           width * height - width * PRIVATE->ccoord.Y + PRIVATE->ccoord.X,
 	                           PRIVATE->ccoord,
 	                           &PRIVATE->written);
 #else
 	printf("\e[0m\e[J");
 #endif
@@ -383,7 +399,7 @@ void PIScreen::SystemConsole::showCursor() {
 }
-
+// PIScreen
 PIScreen::PIScreen(bool startNow, PIKbdListener::KBFunc slot): PIThread(), drawer_(console.cells), root("rootTile") {
 	setName("screen");
@@ -391,20 +407,19 @@ PIScreen::PIScreen(bool startNow, PIKbdListener::KBFunc slot): PIThread(), drawe
 	needLockRun(true);
 	mouse_     = false;
 	ret_func   = slot;
-	tile_focus = tile_dialog = 0;
+	tile_focus = tile_dialog = nullptr;
 	root.screen              = this;
 	listener                 = new PIKbdListener(key_eventS, this, startNow);
-	CONNECTU(listener, mouseEvent, this, mouse_event);
+	CONNECT1(void, PIKbdListener::MouseEvent, listener, mouseEvent, this, mouse_event);
-	CONNECTU(listener, wheelEvent, this, wheel_event);
+	CONNECT1(void, PIKbdListener::WheelEvent, listener, wheelEvent, this, wheel_event);
 	if (startNow) start();
 }
 PIScreen::~PIScreen() {
-	if (isRunning())
+	if (isRunning()) stop();
-		stop();
+	PIThread::waitForFinish(100_ms);
-	PIThread::waitForFinish(10);
+	listener->waitForFinish(100_ms);
 	listener->waitForFinish(10);
 	delete listener;
 }
@@ -422,14 +437,12 @@ void PIScreen::key_event(PIKbdListener::KeyEvent key) {
 	return;
 	*/
 	PIScreenTile * rtile = rootTile();
-	if (tile_dialog)
+	if (tile_dialog) rtile = tile_dialog;
 		rtile = tile_dialog;
 	bool used = nextFocus(rtile, key);
 	if (used) return;
 	if (!used && tile_focus) {
 		if (tile_focus->visible) {
-			if (tile_focus->keyEvent(key))
+			if (tile_focus->keyEvent(key)) return;
 				return;
 		}
 	}
 	if (ret_func != 0) ret_func(key, data_);
@@ -437,14 +450,14 @@ void PIScreen::key_event(PIKbdListener::KeyEvent key) {
 }
-PIVector<PIScreenTile * > PIScreen::prepareMouse(PIKbdListener::MouseEvent * e) {
+PIVector<PIScreenTile *> PIScreen::prepareMouse(PIKbdListener::MouseEvent * e) {
-	PIVector<PIScreenTile * > ret;
+	PIVector<PIScreenTile *> ret;
 	if (!mouse_ || !e) return ret;
 	console.mouse_x             = e->x;
 	console.mouse_y             = e->y;
-	PIVector<PIScreenTile * > tl = tilesUnderMouse(e->x, e->y);
+	PIVector<PIScreenTile *> tl = tilesUnderMouse(e->x, e->y);
 	bool ff                     = false;
-	piForeachR (PIScreenTile * t, tl) {
+	piForeachR(PIScreenTile * t, tl) {
 		if (!ff) {
 			if (t->focus_flags[FocusOnMouse] && (e->action == PIKbdListener::MouseButtonPress)) {
 				t->setFocus();
@@ -455,14 +468,13 @@ PIVector<PIScreenTile * > PIScreen::prepareMouse(PIKbdListener::MouseEvent * e)
 				ff = true;
 			}
 		}
 	}
 	return tl;
 }
-PIVector<PIScreenTile * > PIScreen::tilesUnderMouse(int x, int y) {
+PIVector<PIScreenTile *> PIScreen::tilesUnderMouse(int x, int y) {
-	PIVector<PIScreenTile * > ret;
+	PIVector<PIScreenTile *> ret;
 	if (x < 0 || x >= console.width || y < 0 || y >= console.height) return ret;
 	PIScreenTile * ct = tile_dialog ? tile_dialog : rootTile();
 	bool f            = true;
@@ -476,27 +488,25 @@ PIVector<PIScreenTile * > PIScreen::tilesUnderMouse(int x, int y) {
 void PIScreen::mouse_event(PIKbdListener::MouseEvent me) {
-	PIVector<PIScreenTile * > tl = prepareMouse(&me);
+	PIVector<PIScreenTile *> tl = prepareMouse(&me);
 	if (tl.isEmpty()) return;
-	piForeachR (PIScreenTile * t, tl)
+	piForeachR(PIScreenTile * t, tl)
 		if (t->mouseEvent(me)) break;
 }
 void PIScreen::wheel_event(PIKbdListener::WheelEvent we) {
-	PIVector<PIScreenTile * > tl = prepareMouse(&we);
+	PIVector<PIScreenTile *> tl = prepareMouse(&we);
 	if (tl.isEmpty()) return;
-	piForeachR (PIScreenTile * t, tl)
+	piForeachR(PIScreenTile * t, tl)
 		if (t->wheelEvent(we)) break;
 }
 bool PIScreen::nextFocus(PIScreenTile * rt, PIKbdListener::KeyEvent key) {
-	PIVector<PIScreenTile*> vtl = rt->children(true), ftl;
+	PIVector<PIScreenTile *> vtl = rt->children(true), ftl;
-	piForeach (PIScreenTile * t, vtl) {
+	piForeach(PIScreenTile * t, vtl) {
-		if (t->focus_flags[CanHasFocus])
+		if (t->focus_flags[CanHasFocus]) ftl << t;
 			ftl << t;
 	}
 	int ind = -1;
 	for (int i = 0; i < ftl.size_s(); ++i)
@@ -504,18 +514,15 @@ bool PIScreen::nextFocus(PIScreenTile * rt, PIKbdListener::KeyEvent key) {
 			ind = i;
 			break;
 		}
-	if (ind < 0)
+	if (ind < 0) tile_focus = 0;
 		tile_focus = 0;
 	if (ftl.isEmpty())
 		tile_focus = 0;
 	else {
 		if (tile_focus)
-			if (!tile_focus->visible)
+			if (!tile_focus->visible) tile_focus = 0;
 				tile_focus = 0;
 		int next = tile_focus ? 0 : 1;
 		if (tile_focus) {
-			if (tile_focus->focus_flags[NextByTab] && key.key == PIKbdListener::Tab)
+			if (tile_focus->focus_flags[NextByTab] && key.key == PIKbdListener::Tab) next = 1;
 				next = 1;
 			if (tile_focus->focus_flags[NextByArrowsHorizontal]) {
 				if (key.key == PIKbdListener::LeftArrow) next = -1;
 				if (key.key == PIKbdListener::RightArrow) next = 1;
@@ -525,10 +532,10 @@ bool PIScreen::nextFocus(PIScreenTile * rt, PIKbdListener::KeyEvent key) {
 				if (key.key == PIKbdListener::DownArrow) next = 1;
 			}
 		}
-		//piCout << ftl.size() << ind << next;
+		// piCout << ftl.size() << ind << next;
 		if (next != 0) {
-			PIVector<PIScreenTile*> tl = rt->children();
+			PIVector<PIScreenTile *> tl = rt->children();
-			piForeach (PIScreenTile * t, tl)
+			piForeach(PIScreenTile * t, tl)
 				t->has_focus = false;
 			if (!ftl.isEmpty()) {
 				ind += next;
@@ -550,22 +557,19 @@ void PIScreen::tileEventInternal(PIScreenTile * t, TileEvent e) {
 void PIScreen::tileRemovedInternal(PIScreenTile * t) {
-	if (tile_dialog == t)
+	if (tile_dialog == t) tile_dialog = 0;
 		tile_dialog = 0;
 }
 void PIScreen::tileSetFocusInternal(PIScreenTile * t) {
 	PIScreenTile * rt = rootTile();
-	if (tile_dialog)
+	if (tile_dialog) rt = tile_dialog;
-		rt = tile_dialog;
+	PIVector<PIScreenTile *> tl = rt->children(), ftl;
-	PIVector<PIScreenTile*> tl = rt->children(), ftl;
+	piForeach(PIScreenTile * i, tl)
 	piForeach (PIScreenTile * i, tl)
 		i->has_focus = false;
 	tile_focus = t;
 	if (!tile_focus) return;
-	if (tile_focus->focus_flags[CanHasFocus])
+	if (tile_focus->focus_flags[CanHasFocus]) tile_focus->has_focus = true;
 		tile_focus->has_focus = true;
 }
@@ -587,8 +591,14 @@ void PIScreen::waitForFinish() {
 }
 void PIScreen::start(bool wait) {
 	PIThread::start(25_Hz);
 	if (wait) waitForFinish();
 }
 void PIScreen::stop(bool clear) {
-	PIThread::stop(true);
+	PIThread::stopAndWait();
 	if (clear) console.clearScreen();
 #ifndef WINDOWS
 	fflush(0);
@@ -620,8 +630,13 @@ void PIScreen::run() {
 		tile_dialog->height_ = sh;
 		tile_dialog->layout();
 		int dx = tile_dialog->x_ - 1, dy = tile_dialog->y_ - 1, dw = tile_dialog->width_, dh = tile_dialog->height_;
-		drawer_.drawFrame(dx, dy, dx + dw + 1, dy + dh + 1, (Color)tile_dialog->back_format.color_char,
+		drawer_.drawFrame(dx,
-						  (Color)tile_dialog->back_format.color_back, (CharFlags)tile_dialog->back_format.flags);
+		                  dy,
 		                  dx + dw + 1,
 		                  dy + dh + 1,
 		                  (Color)tile_dialog->back_format.color_char,
 		                  (Color)tile_dialog->back_format.color_back,
 		                  (CharFlags)tile_dialog->back_format.flags);
 		tile_dialog->drawEventInternal(&drawer_);
 	}
 	console.print();
@@ -635,10 +650,8 @@ void PIScreen::end() {
 PIScreenTile * PIScreen::tileByName(const PIString & name) {
-	PIVector<PIScreenTile*> tl(tiles());
+	PIVector<PIScreenTile *> tl(tiles());
-	piForeach (PIScreenTile * t, tl)
+	piForeach(PIScreenTile * t, tl)
-		if (t->name() == name)
+		if (t->name() == name) return t;
 			return t;
 	return 0;
 }
--- a/libs/console/piscreenconsole.cpp
+++ b/libs/console/piscreenconsole.cpp
@@ -22,21 +22,14 @@
 using namespace PIScreenTypes;
-TileVars::TileVars(const PIString &n) : PIScreenTile(n) {
+TileVars::TileVars(const PIString & n): PIScreenTile(n) {
 	alignment = Left;
 }
-void TileVars::sizeHint(int &w, int &h) const {
+void TileVars::sizeHint(int & w, int & h) const {}
-}
+void TileVars::drawEvent(PIScreenDrawer * d) {}
 void TileVars::drawEvent(PIScreenDrawer *d) {
 }
-PIScreenConsoleTile::PIScreenConsoleTile() {
+PIScreenConsoleTile::PIScreenConsoleTile() {}
 }
--- a/libs/console/piscreendrawer.cpp
+++ b/libs/console/piscreendrawer.cpp
@@ -25,7 +25,7 @@
 using namespace PIScreenTypes;
-PIScreenDrawer::PIScreenDrawer(PIVector<PIVector<Cell> > & c): cells(c) {
+PIScreenDrawer::PIScreenDrawer(PIVector<PIVector<Cell>> & c): cells(c) {
 	arts_[LineVertical] =
 #ifdef USE_UNICODE
 		PIChar::fromUTF8("│");
@@ -117,26 +117,24 @@ void PIScreenDrawer::drawLine(int x0, int y0, int x1, int y1, const PIChar & c,
 		float dy = (y1 - y0) / float(piAbsi(x1 - x0)), cy = y0;
 		int dx = x0 < x1 ? 1 : -1;
 		for (int i = x0; i != x1; i += dx) {
-			x = i; y = piRound(cy);
+			x = i;
-			if (x >= 0 && x < width && y >= 0 && y < height)
+			y = piRound(cy);
-				cells[y][x] = cc;
+			if (x >= 0 && x < width && y >= 0 && y < height) cells[y][x] = cc;
 			cy += dy;
 		}
 		y = piRound(cy);
-		if (x1 >= 0 && x1 < width && y >= 0 && y < height)
+		if (x1 >= 0 && x1 < width && y >= 0 && y < height) cells[y][x1] = cc;
 			cells[y][x1] = cc;
 	} else {
 		float dx = (x1 - x0) / float(piAbsi(y1 - y0)), cx = x0;
 		int dy = y0 < y1 ? 1 : -1;
 		for (int i = y0; i != y1; i += dy) {
-			x = piRound(cx); y = i;
+			x = piRound(cx);
-			if (x >= 0 && x < width && y >= 0 && y < height)
+			y = i;
-				cells[y][x] = cc;
+			if (x >= 0 && x < width && y >= 0 && y < height) cells[y][x] = cc;
 			cx += dx;
 		}
 		x = piRound(cx);
-		if (x >= 0 && x < width && y1 >= 0 && y1 < height)
+		if (x >= 0 && x < width && y1 >= 0 && y1 < height) cells[y1][x] = cc;
 			cells[y1][x] = cc;
 	}
 }
@@ -157,19 +155,16 @@ void PIScreenDrawer::drawRect(int x0, int y0, int x1, int y1, const PIChar & c,
 		if (j >= 0 && j < height) {
 			PIVector<Cell> & cv(cells[j]);
 			for (int i = x0; i != x1; i += dx)
-				if (i >= 0 && i < width)
+				if (i >= 0 && i < width) cv[i] = cc;
 					cv[i] = cc;
 		}
 		j = xs[k];
 		if (j >= 0 && j < width) {
 			for (int i = y0; i != y1; i += dy)
-				if (i >= 0 && i < height)
+				if (i >= 0 && i < height) cells[i][j] = cc;
 					cells[i][j] = cc;
 		}
 	}
 	int i = x1, j = y1;
-	if (i >= 0 && i < width && j >= 0 && j < height)
+	if (i >= 0 && i < width && j >= 0 && j < height) cells[j][i] = cc;
 		cells[j][i] = cc;
 }
@@ -189,24 +184,26 @@ void PIScreenDrawer::drawFrame(int x0, int y0, int x1, int y1, Color col_char, C
 			PIVector<Cell> & cv(cells[j]);
 			cc.symbol = artChar(LineHorizontal);
 			for (int i = x0 + 1; i != x1; i += dx)
-				if (i >= 0 && i < width)
+				if (i >= 0 && i < width) cv[i] = cc;
 					cv[i] = cc;
 		}
 		j = xs[k];
 		if (j >= 0 && j < width) {
 			cc.symbol = artChar(LineVertical);
 			for (int i = y0 + 1; i != y1; i += dy)
-				if (i >= 0 && i < height)
+				if (i >= 0 && i < height) cells[i][j] = cc;
 					cells[i][j] = cc;
 		}
 	}
-	int i = x0, j = y0; cc.symbol = artChar(CornerTopLeft);
+	int i = x0, j = y0;
 	cc.symbol = artChar(CornerTopLeft);
 	if (i >= 0 && i < width && j >= 0 && j < height) cells[j][i] = cc;
-	i = x1, j = y0; cc.symbol = artChar(CornerTopRight);
+	i = x1, j = y0;
 	cc.symbol = artChar(CornerTopRight);
 	if (i >= 0 && i < width && j >= 0 && j < height) cells[j][i] = cc;
-	i = x0, j = y1; cc.symbol = artChar(CornerBottomLeft);
+	i = x0, j = y1;
 	cc.symbol = artChar(CornerBottomLeft);
 	if (i >= 0 && i < width && j >= 0 && j < height) cells[j][i] = cc;
-	i = x1, j = y1; cc.symbol = artChar(CornerBottomRight);
+	i = x1, j = y1;
 	cc.symbol = artChar(CornerBottomRight);
 	if (i >= 0 && i < width && j >= 0 && j < height) cells[j][i] = cc;
 }
@@ -224,13 +221,12 @@ void PIScreenDrawer::fillRect(int x0, int y0, int x1, int y1, const PIChar & c,
 		if (j >= 0 && j < height) {
 			PIVector<Cell> & cv(cells[j]);
 			for (int i = x0; i != x1; i += dx)
-				if (i >= 0 && i < width)
+				if (i >= 0 && i < width) cv[i] = cc;
 					cv[i] = cc;
 		}
 }
-void PIScreenDrawer::fillRect(int x0, int y0, int x1, int y1, PIVector<PIVector<Cell> > & content) {
+void PIScreenDrawer::fillRect(int x0, int y0, int x1, int y1, PIVector<PIVector<Cell>> & content) {
 	if (x0 > x1) piSwap(x0, x1);
 	if (y0 > y1) piSwap(y0, y1);
 	int w = x1 - x0;
@@ -241,14 +237,13 @@ void PIScreenDrawer::fillRect(int x0, int y0, int x1, int y1, PIVector<PIVector<
 				PIVector<Cell> & cv(cells[y0 + j]);
 				PIVector<Cell> & contv(content[j]);
 				for (int i = 0; i < piMini(w, contv.size_s()); ++i)
-					if ((i + x0) >= 0 && (i + x0) < width)
+					if ((i + x0) >= 0 && (i + x0) < width) cv[x0 + i] = contv[i];
 						cv[x0 + i] = contv[i];
 			}
 		}
 }
-void PIScreenDrawer::clear(PIVector<PIVector<Cell> > & cells) {
+void PIScreenDrawer::clear(PIVector<PIVector<Cell>> & cells) {
 	for (int i = 0; i < cells.size_s(); ++i)
 		cells[i].fill(Cell());
 }
--- a/libs/console/piscreentile.cpp
+++ b/libs/console/piscreentile.cpp
@@ -18,6 +18,7 @@
 */
 #include "piscreentile.h"
 #include "piscreendrawer.h"
@@ -40,9 +41,8 @@ PIScreenTile::PIScreenTile(const PIString & n, Direction d, SizePolicy p): PIObj
 PIScreenTile::~PIScreenTile() {
-	//piCout << this << "~";
+	// piCout << this << "~";
-	if (screen)
+	if (screen) screen->tileRemovedInternal(this);
 		screen->tileRemovedInternal(this);
 	setScreen(0);
 	deleteChildren();
 	if (!parent) return;
@@ -76,20 +76,18 @@ void PIScreenTile::removeTile(PIScreenTile * t) {
 }
-PIVector<PIScreenTile * > PIScreenTile::children(bool only_visible) {
+PIVector<PIScreenTile *> PIScreenTile::children(bool only_visible) {
-	PIVector<PIScreenTile * > ret;
+	PIVector<PIScreenTile *> ret;
-	piForeach (PIScreenTile * t, tiles)
+	piForeach(PIScreenTile * t, tiles)
-		if (t->visible || !only_visible)
+		if (t->visible || !only_visible) ret << t << t->children(only_visible);
 			ret << t << t->children(only_visible);
 	return ret;
 }
 PIScreenTile * PIScreenTile::childUnderMouse(int x, int y) {
-	piForeach (PIScreenTile * t, tiles) {
+	piForeach(PIScreenTile * t, tiles) {
 		if (!t->visible) continue;
-		if (x >= t->x_ && (x - t->x_) < t->width_ &&
+		if (x >= t->x_ && (x - t->x_) < t->width_ && y >= t->y_ && (y - t->y_) < t->height_) {
 			y >= t->y_ && (y - t->y_) < t->height_) {
 			return t;
 		}
 	}
@@ -105,13 +103,13 @@ void PIScreenTile::raiseEvent(TileEvent e) {
 void PIScreenTile::setScreen(PIScreenBase * s) {
 	screen = s;
-	piForeach (PIScreenTile * t, tiles)
+	piForeach(PIScreenTile * t, tiles)
 		t->setScreen(s);
 }
 void PIScreenTile::deleteChildren() {
-	piForeach (PIScreenTile * t, tiles) {
+	piForeach(PIScreenTile * t, tiles) {
 		t->parent = 0;
 		delete t;
 	}
@@ -129,9 +127,16 @@ void PIScreenTile::drawEventInternal(PIScreenDrawer * d) {
 	if (!visible) {
 		return;
 	}
-	d->fillRect(x_, y_, x_ + width_, y_ + height_, back_symbol, (Color)back_format.color_char, (Color)back_format.color_back, back_format.flags);
+	d->fillRect(x_,
 	            y_,
 	            x_ + width_,
 	            y_ + height_,
 	            back_symbol,
 	            (Color)back_format.color_char,
 	            (Color)back_format.color_back,
 	            back_format.flags);
 	drawEvent(d);
-	piForeach (PIScreenTile * t, tiles)
+	piForeach(PIScreenTile * t, tiles)
 		t->drawEventInternal(d);
 }
@@ -141,18 +146,22 @@ void PIScreenTile::sizeHint(int & w, int & h) const {
 	h = 0;
 	if (tiles.isEmpty()) return;
 	int sl = spacing * (tiles.size_s() - 1);
-	if (direction == Horizontal) w += sl;
+	if (direction == Horizontal)
-	else h += sl;
+		w += sl;
-	piForeachC (PIScreenTile * t, tiles) {
+	else
 		h += sl;
 	piForeachC(PIScreenTile * t, tiles) {
 		if (!t->visible) continue;
 		int cw(0), ch(0);
 		t->sizeHint(cw, ch);
 		cw = piClampi(cw, t->minimumWidth, t->maximumWidth);
 		ch = piClampi(ch, t->minimumHeight, t->maximumHeight);
 		if (direction == Horizontal) {
-			w += cw; h = piMaxi(h, ch);
+			w += cw;
 			h = piMaxi(h, ch);
 		} else {
-			h += ch; w = piMaxi(w, cw);
+			h += ch;
 			w = piMaxi(w, cw);
 		}
 	}
 	w += marginLeft + marginRight;
@@ -210,8 +219,7 @@ void PIScreenTile::layout() {
 							for (int j = 0; j < tiles.size_s(); ++j) {
 								if (i == j) continue;
 								if (max_tl[j]) continue;
-								if (tiles[j]->size_policy == pol && tiles[j]->visible && tiles[j]->needLayout())
+								if (tiles[j]->size_policy == pol && tiles[j]->visible && tiles[j]->needLayout()) asizes[j] += pas;
 									asizes[j] += pas;
 							}
 						}
 					}
@@ -241,8 +249,7 @@ void PIScreenTile::layout() {
 			t->height_ = hints[i];
 			cy += hints[i] + spacing;
 		}
-		if (t->pw != t->width_ || t->ph != t->height_)
+		if (t->pw != t->width_ || t->ph != t->height_) t->resizeEvent(t->width_, t->height_);
 			t->resizeEvent(t->width_, t->height_);
 		t->pw = t->width_;
 		t->ph = t->height_;
 		t->layout();
--- a/libs/console/piscreentiles.cpp
+++ b/libs/console/piscreentiles.cpp
@@ -18,6 +18,7 @@
 */
 #include "piscreentiles.h"
 #include "piscreendrawer.h"
@@ -37,7 +38,7 @@ TileSimple::TileSimple(const TileSimple::Row & r): PIScreenTile() {
 void TileSimple::sizeHint(int & w, int & h) const {
 	w = h = 0;
-	piForeachC (Row & r, content)
+	piForeachC(Row & r, content)
 		w = piMaxi(w, r.first.size_s());
 	h = content.size_s();
 }
@@ -57,7 +58,7 @@ void TileSimple::drawEvent(PIScreenDrawer * d) {
 }
-
+// TileScrollBar
 TileScrollBar::TileScrollBar(const PIString & n) {
 	direction = Vertical;
@@ -122,7 +123,7 @@ bool TileScrollBar::mouseEvent(PIKbdListener::MouseEvent me) {
 }
-
+// TileList
 TileList::TileList(const PIString & n, SelectionMode sm): PIScreenTile(n) {
 	alignment   = Left;
@@ -138,7 +139,7 @@ TileList::TileList(const PIString & n, SelectionMode sm): PIScreenTile(n) {
 void TileList::sizeHint(int & w, int & h) const {
 	w = h = 0;
-	piForeachC (Row & r, content)
+	piForeachC(Row & r, content)
 		w = piMaxi(w, r.first.size_s());
 	h = 3;
 }
@@ -157,7 +158,7 @@ void TileList::drawEvent(PIScreenDrawer * d) {
 	int is = piClampi(offset, 0, piMaxi(0, content.size_s() - 1)), ie = piClampi(offset + lhei, 0, content.size_s());
 	if (is > 0) d->drawText(x_, y_, PIString(" /\\ ").repeat(width_ / 4), Green, Default, Bold);
 	if (ie < content.size_s()) d->drawText(x_, y_ + height_ - 1, PIString(" \\/ ").repeat(width_ / 4), Green, Default, Bold);
-	//piCout << is << ie << offset << lhei << content.size_s();
+	// piCout << is << ie << offset << lhei << content.size_s();
 	for (int i = is; i < ie; ++i) {
 		Row & r(content[i]);
 		bool sel = i == cur && has_focus;
@@ -188,9 +189,7 @@ bool TileList::keyEvent(PIKbdListener::KeyEvent key) {
 	lhei = height_ - 2;
 	int oo(0), osp = piMini(3, lhei / 4);
 	switch (key.key) {
-	case PIKbdListener::PageUp:
+	case PIKbdListener::PageUp: cur -= lhei / 2; oo -= lhei / 2;
 		cur -= lhei / 2;
 		oo -= lhei / 2;
 	case PIKbdListener::UpArrow:
 		cur--;
 		oo--;
@@ -207,7 +206,8 @@ bool TileList::keyEvent(PIKbdListener::KeyEvent key) {
 		switch (selection_mode) {
 		case NoSelection: return false;
 		case SingleSelection:
-			if (selected.isEmpty()) selected << cur;
+			if (selected.isEmpty())
 				selected << cur;
 			else {
 				bool add = !selected[cur];
 				selected.clear();
@@ -216,8 +216,10 @@ bool TileList::keyEvent(PIKbdListener::KeyEvent key) {
 			raiseEvent(TileEvent(SelectionChanged));
 			return true;
 		case MultiSelection:
-			if (selected[cur]) selected.remove(cur);
+			if (selected[cur])
-			else selected << cur;
+				selected.remove(cur);
 			else
 				selected << cur;
 			raiseEvent(TileEvent(SelectionChanged));
 			break;
 		}
@@ -238,17 +240,14 @@ bool TileList::keyEvent(PIKbdListener::KeyEvent key) {
 		if (offset >= content.size_s() - lhei) offset = content.size_s() - lhei;
 		if (offset < 0) offset = 0;
 		return true;
-	case PIKbdListener::Home:
+	case PIKbdListener::Home: cur = offset = 0; return true;
 		cur = offset = 0;
 		return true;
 	case PIKbdListener::End:
 		cur    = content.size_s() - 1;
 		offset = content.size_s() - lhei;
 		if (offset < 0) offset = 0;
 		return true;
 	case PIKbdListener::Return:
-		if (cur >= 0 && cur < content.size_s())
+		if (cur >= 0 && cur < content.size_s()) raiseEvent(TileEvent(RowPressed, cur));
 			raiseEvent(TileEvent(RowPressed, cur));
 		return true;
 	case '*':
 		if (selection_mode == TileList::MultiSelection) {
@@ -278,12 +277,8 @@ bool TileList::mouseEvent(PIKbdListener::MouseEvent me) {
 	if (mp < 0 || mp >= content.size_s()) return true;
 	cur = mp;
 	switch (me.action) {
-	case PIKbdListener::MouseButtonPress:
+	case PIKbdListener::MouseButtonPress: mouse_sel = !selected.contains(cur); break;
-		mouse_sel = !selected.contains(cur);
+	case PIKbdListener::MouseButtonDblClick: keyEvent(PIKbdListener::KeyEvent(PIKbdListener::Return)); return true;
 		break;
 	case PIKbdListener::MouseButtonDblClick:
 		keyEvent(PIKbdListener::KeyEvent(PIKbdListener::Return));
 		return true;
 	default: break;
 	}
 	if (me.buttons[PIKbdListener::MouseRight]) {
@@ -294,8 +289,10 @@ bool TileList::mouseEvent(PIKbdListener::MouseEvent me) {
 			raiseEvent(TileEvent(SelectionChanged));
 			break;
 		case MultiSelection:
-			if (mouse_sel) selected << cur;
+			if (mouse_sel)
-			else selected.remove(cur);
+				selected << cur;
 			else
 				selected.remove(cur);
 			raiseEvent(TileEvent(SelectionChanged));
 			break;
 		default: break;
@@ -311,7 +308,7 @@ bool TileList::wheelEvent(PIKbdListener::WheelEvent we) {
 }
-
+// TileButton
 TileButton::TileButton(const PIString & n): PIScreenTile(n) {
 	focus_flags = CanHasFocus | NextByTab | NextByArrowsAll | FocusOnMouse;
@@ -351,7 +348,7 @@ bool TileButton::mouseEvent(PIKbdListener::MouseEvent me) {
 }
-
+// TileButtons
 TileButtons::TileButtons(const PIString & n): PIScreenTile(n) {
 	focus_flags = CanHasFocus | NextByTab | FocusOnMouse;
@@ -364,12 +361,12 @@ TileButtons::TileButtons(const PIString & n): PIScreenTile(n) {
 void TileButtons::sizeHint(int & w, int & h) const {
 	w = h = 0;
 	if (direction == Horizontal) {
-		piForeachC (Button & b, content)
+		piForeachC(Button & b, content)
 			w += b.first.size_s() + 4;
 		w += piMaxi(0, content.size_s() - 1) * 2;
 		h += 1;
 	} else {
-		piForeachC (Button & b, content)
+		piForeachC(Button & b, content)
 			w = piMaxi(w, b.first.size_s() + 4);
 		h += content.size_s();
 		h += piMaxi(0, content.size_s() - 1);
@@ -387,8 +384,7 @@ void TileButtons::drawEvent(PIScreenDrawer * d) {
 	case PIScreenTypes::Right: dx = width_ - shw; break;
 	default: break;
 	}
-	if (direction == PIScreenTypes::Horizontal)
+	if (direction == PIScreenTypes::Horizontal) cx += dx;
 		cx += dx;
 	for (int i = 0; i < content.size_s(); ++i) {
 		Color cb = Cyan;
 		Color ct = Black;
@@ -430,9 +426,7 @@ bool TileButtons::keyEvent(PIKbdListener::KeyEvent key) {
 		if (cur >= content.size_s()) cur = content.size_s() - 1;
 		return true;
 	case PIKbdListener::Space:
-	case PIKbdListener::Return:
+	case PIKbdListener::Return: raiseEvent(TileEvent(ButtonSelected, cur)); return true;
 		raiseEvent(TileEvent(ButtonSelected, cur));
 		return true;
 	};
 	return PIScreenTile::keyEvent(key);
 }
@@ -441,8 +435,7 @@ bool TileButtons::keyEvent(PIKbdListener::KeyEvent key) {
 bool TileButtons::mouseEvent(PIKbdListener::MouseEvent me) {
 	if (me.action == PIKbdListener::MouseMove || me.action == PIKbdListener::MouseButtonPress) {
 		for (int i = 0; i < btn_rects.size_s(); ++i)
-			if (me.x >= btn_rects[i].x0 && me.x < btn_rects[i].x1 &&
+			if (me.x >= btn_rects[i].x0 && me.x < btn_rects[i].x1 && me.y >= btn_rects[i].y0 && me.y < btn_rects[i].y1) {
 				me.y >= btn_rects[i].y0 && me.y < btn_rects[i].y1) {
 				cur = i;
 				break;
 			}
@@ -454,7 +447,7 @@ bool TileButtons::mouseEvent(PIKbdListener::MouseEvent me) {
 }
-
+// TileCheck
 TileCheck::TileCheck(const PIString & n): PIScreenTile(n) {
 	focus_flags = CanHasFocus | NextByTab | NextByArrowsAll | FocusOnMouse;
@@ -499,7 +492,7 @@ bool TileCheck::mouseEvent(PIKbdListener::MouseEvent me) {
 }
-
+// TileProgress
 TileProgress::TileProgress(const PIString & n): PIScreenTile(n) {
 	maximum = 100.;
@@ -532,25 +525,23 @@ void TileProgress::drawEvent(PIScreenDrawer * d) {
 }
-
+// TilePICout
 TilePICout::TilePICout(const PIString & n): TileList(n) {
 	max_lines      = 1024;
 	selection_mode = TileList::SingleSelection;
 	PICout::setOutputDevices(PICout::Buffer);
 	PICout::setBufferActive(true);
 }
 void TilePICout::drawEvent(PIScreenDrawer * d) {
-	PIString out = PICout::buffer(true);
+	PIString out = PICout::getBufferAndClear();
 	if (!out.isEmpty()) {
 		PIStringList l = out.split("\n");
 		bool scroll    = (cur == content.size_s() - 1) || !has_focus;
-		piForeachC (PIString & s, l)
+		piForeachC(PIString & s, l)
 			content << TileList::Row(s.trimmed(), format);
-		if (content.size_s() > max_lines)
+		if (content.size_s() > max_lines) content.remove(0, content.size_s() - max_lines);
 			content.remove(0, content.size_s() - max_lines);
 		if (scroll) {
 			offset = piMaxi(0, content.size_s() - lhei);
 			cur    = content.size_s() - 1;
@@ -570,7 +561,7 @@ bool TilePICout::keyEvent(PIKbdListener::KeyEvent key) {
 }
-
+// TileInput
 TileInput::TileInput(const PIString & n): PIScreenTile(n) {
 	focus_flags            = CanHasFocus | NextByTab | FocusOnMouse;
@@ -592,10 +583,8 @@ void TileInput::sizeHint(int & w, int & h) const {
 void TileInput::drawEvent(PIScreenDrawer * d) {
 	PIString ps = text.mid(offset, width_ - 2);
 	d->drawText(x_ + 1, y_, ps, (Color)format.color_char, Transparent, (CharFlags)format.flags);
-	if (offset > 0)
+	if (offset > 0) d->drawText(x_, y_, "<", Green, Black, Bold);
-		d->drawText(x_, y_, "<", Green, Black, Bold);
+	if (text.size_s() - offset >= width_ - 2) d->drawText(x_ + width_ - 1, y_, ">", Green, Black, Bold);
 	if (text.size_s() - offset >= width_ - 2)
 		d->drawText(x_ + width_ - 1, y_, ">", Green, Black, Bold);
 	if (!has_focus) return;
 	Color cb = (Color)format.color_char, cc = (Color)format.color_back;
 	if (tm_blink.elapsed_m() >= 650) {
@@ -648,8 +637,7 @@ bool TileInput::keyEvent(PIKbdListener::KeyEvent key) {
 		reserCursor();
 		return true;
 	case PIKbdListener::Backspace:
-		if (cur > text.size_s() || text.isEmpty())
+		if (cur > text.size_s() || text.isEmpty()) return true;
 			return true;
 		text.remove(cur - 1, 1);
 		cur--;
 		if (cur > text.size_s()) cur = text.size_s();
@@ -659,8 +647,7 @@ bool TileInput::keyEvent(PIKbdListener::KeyEvent key) {
 		reserCursor();
 		return true;
 	case PIKbdListener::Delete:
-		if (cur >= text.size_s() || text.isEmpty())
+		if (cur >= text.size_s() || text.isEmpty()) return true;
 			return true;
 		text.remove(cur, 1);
 		if (cur < 0) cur = 0;
 		if (cur > text.size_s()) cur = text.size_s();
@@ -686,8 +673,7 @@ bool TileInput::keyEvent(PIKbdListener::KeyEvent key) {
 	case PIKbdListener::F9:
 	case PIKbdListener::F10:
 	case PIKbdListener::F11:
-	case PIKbdListener::F12:
+	case PIKbdListener::F12: break;
 		break;
 	default:
 		text.insert(cur, PIChar((ushort)key.key));
 		cur++;
--- a/libs/console/piterminal.cpp
+++ b/libs/console/piterminal.cpp
@@ -16,17 +16,20 @@
    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 "piincludes_p.h"
 #include "piterminal.h"
 #include "piincludes_p.h"
 #include "piliterals_time.h"
 #include "pisharedmemory.h"
 #ifndef MICRO_PIP
-#ifdef WINDOWS
+#  ifdef WINDOWS
 #	include <wincon.h>
 #	include <windows.h>
 #	include <wingdi.h>
 #  include <wincon.h>
 #	include <winuser.h>
-#else
+#  else
 #	include "piprocess.h"
 #	include <csignal>
 #	include <fcntl.h>
 #	include <sys/ioctl.h>
@@ -46,12 +49,12 @@
 #	else
 #	  define HAS_FORKPTY
 #	endif
-#endif
+#  endif
-//extern PIMutex PICout::__mutex__;
+// extern PIMutex PICout::__mutex__;
-#ifdef WINDOWS
+#  ifdef WINDOWS
 #	define PIPE_BUFFER_SIZE 1024
 enum PITerminalAuxMessageType {
 	mtKey = 1,
@@ -65,22 +68,22 @@ struct PITerminalAuxData {
 	int size_y;
 	int cells_size;
 };
-#else
+#  else
 #	define BUFFER_SIZE 4096
 enum DECType {
 	CKM = 1
 };
-#endif
+#  endif
 PRIVATE_DEFINITION_START(PITerminal)
-#ifdef WINDOWS
+#  ifdef WINDOWS
 	PISharedMemory * shm;
 	HANDLE hConBuf;
 	STARTUPINFOA si;
 	PROCESS_INFORMATION pi;
 	HANDLE pipe;
-#else
+#  else
 	PIString shell;
 	PIByteArray read_buf, tmp_buf;
 	PIScreenTypes::CellFormat cur_format, line_format;
@@ -92,21 +95,21 @@ PRIVATE_DEFINITION_START(PITerminal)
 	PIString esc_seq;
 	bool is_esc_seq, last_read;
 	PIMap<int, bool> DEC;
-	PIVector<PIVector<PIScreenTypes::Cell> > cells_save;
+	PIVector<PIVector<PIScreenTypes::Cell>> cells_save;
-#endif
+#  endif
 PRIVATE_DEFINITION_END(PITerminal)
-#ifdef WINDOWS
+#  ifdef WINDOWS
 int writePipe(HANDLE pipe, const PIByteArray & ba) {
 	DWORD wrote[2];
 	int sz = ba.size_s();
 	WriteFile(pipe, &sz, 4, &(wrote[0]), 0);
 	WriteFile(pipe, ba.data(), ba.size_s(), &(wrote[1]), 0);
-	//piCout << "send" << ba.size_s();
+	// piCout << "send" << ba.size_s();
 	return int(wrote[0] + wrote[1]);
 }
-#endif
+#  endif
 PITerminal::PITerminal(): PIThread() {
@@ -116,40 +119,39 @@ PITerminal::PITerminal(): PIThread() {
 	cursor_x = cursor_y = 0;
 	dsize_x             = 80;
 	dsize_y             = 24;
-#ifdef WINDOWS
+#  ifdef WINDOWS
 	PRIVATE->shm = 0;
-#endif
+#  endif
 }
 PITerminal::~PITerminal() {
-	if (isRunning())
+	if (isRunning()) stop();
-		stop();
+	PIThread::waitForFinish(1_s);
 	PIThread::waitForFinish(10);
 	destroy();
-#ifdef WINDOWS
+#  ifdef WINDOWS
 	if (PRIVATE->shm) delete PRIVATE->shm;
-#endif
+#  endif
 }
 void PITerminal::write(const PIByteArray & d) {
-#ifdef WINDOWS
+#  ifdef WINDOWS
 	PIByteArray msg;
 	PIVector<PIKbdListener::KeyEvent> ke;
 	for (int i = 0; i < d.size_s(); ++i)
 		ke << PIKbdListener::KeyEvent(d[i]);
 	msg << int(mtKey) << ke;
 	writePipe(PRIVATE->pipe, msg);
-#else
+#  else
 #	ifdef HAS_FORKPTY
 	if (PRIVATE->fd == 0) return;
-	//ssize_t wrote = 0;
+	// ssize_t wrote = 0;
-	//wrote =
+	// wrote =
 	::write(PRIVATE->fd, d.data(), d.size_s());
-	//piCout << "wrote" << wrote << d;
+	// piCout << "wrote" << wrote << d;
 #	endif
 #  endif
 #endif
 	cursor_tm.reset();
 	cursor_blink = true;
 }
@@ -157,15 +159,16 @@ void PITerminal::write(const PIByteArray & d) {
 void PITerminal::write(PIKbdListener::SpecialKey k, PIKbdListener::KeyModifiers m) {
 	PIByteArray ba;
-#ifdef WINDOWS
+#  ifdef WINDOWS
 	switch (k) {
 	case PIKbdListener::Tab: ba << uchar('\t'); break;
 	case PIKbdListener::Return: ba << uchar('\r') << uchar('\n'); break;
 	case PIKbdListener::Space: ba << uchar(' '); break;
 	default: break;
 	}
-	//piCout << "write" << ba.size();
+	// piCout << "write" << ba.size();
-	if (!ba.isEmpty()) write(ba);
+	if (!ba.isEmpty())
 		write(ba);
 	else {
 		PIByteArray msg;
 		PIVector<PIKbdListener::KeyEvent> ke;
@@ -173,7 +176,7 @@ void PITerminal::write(PIKbdListener::SpecialKey k, PIKbdListener::KeyModifiers
 		msg << int(mtKey) << ke;
 		writePipe(PRIVATE->pipe, msg);
 	}
-#else
+#  else
 	int term  = PRIVATE->term_type;
 	int flags = 0;
 	switch (k) {
@@ -185,7 +188,8 @@ void PITerminal::write(PIKbdListener::SpecialKey k, PIKbdListener::KeyModifiers
 	case PIKbdListener::UpArrow:
 	case PIKbdListener::DownArrow:
 	case PIKbdListener::RightArrow:
-	case PIKbdListener::LeftArrow:  if (PRIVATE->DEC.value(CKM, false)) flags = 1;
+	case PIKbdListener::LeftArrow:
 		if (PRIVATE->DEC.value(CKM, false)) flags = 1;
 	/*case PIKbdListener::Home:       //break;
 	case PIKbdListener::End:        //break;
 	case PIKbdListener::PageUp:     //ba << uchar('\e') << uchar('[') << uchar('5') << uchar('~'); break;
@@ -206,18 +210,18 @@ void PITerminal::write(PIKbdListener::SpecialKey k, PIKbdListener::KeyModifiers
 	case PIKbdListener::F12:        //break;
 	*/
 	default: {
-		//piCout << flags;
+		// piCout << flags;
-		//int mod = 0;
+		// int mod = 0;
 		if (m[PIKbdListener::Shift]) m |= 1;
 		if (m[PIKbdListener::Alt]) m |= 2;
 		if (m[PIKbdListener::Ctrl]) m |= 4;
-		for (int i = 0; ; ++i) {
+		for (int i = 0;; ++i) {
 			const PIKbdListener::EscSeq & e(PIKbdListener::esc_seq[i]);
 			if (!e.seq) break;
-			//piCout << "search" << rc[1] << esc_seq[i].seq;
+			// piCout << "search" << rc[1] << esc_seq[i].seq;
 			if (e.key == k && e.mod == m) {
 				if (((e.vt & term) == term) || (((e.flags & flags) == flags) && (flags != 0))) {
-					//piCout << "found key" << PIString(e.seq).replaceAll("\e", "\\e");
+					// piCout << "found key" << PIString(e.seq).replaceAll("\e", "\\e");
 					PIByteArray d = ("\e" + PIString(e.seq)).toByteArray();
 					write(d);
 					break;
@@ -226,35 +230,35 @@ void PITerminal::write(PIKbdListener::SpecialKey k, PIKbdListener::KeyModifiers
 		}
 	} break;
 	}
-	//piCout << "write" << ba.size();
+	// piCout << "write" << ba.size();
 	if (!ba.isEmpty()) write(ba);
-#endif
+#  endif
 	cursor_tm.reset();
 	cursor_blink = true;
 }
 void PITerminal::write(PIKbdListener::KeyEvent ke) {
-	if (isSpecialKey(ke.key)) write((PIKbdListener::SpecialKey)ke.key, ke.modifiers);
+	if (isSpecialKey(ke.key))
 		write((PIKbdListener::SpecialKey)ke.key, ke.modifiers);
 	else {
 		PIByteArray ba;
-#ifdef WINDOWS
+#  ifdef WINDOWS
 		ba << uchar(PIChar((ushort)ke.key).toConsole1Byte());
-#else
+#  else
 		ba = PIString(PIChar((ushort)ke.key)).toUTF8();
-#endif
+#  endif
 		write(ba);
 	}
 }
-PIVector<PIVector<PIScreenTypes::Cell> > PITerminal::content() {
+PIVector<PIVector<PIScreenTypes::Cell>> PITerminal::content() {
 	readConsole();
-	PIVector<PIVector<PIScreenTypes::Cell> > ret = cells;
+	PIVector<PIVector<PIScreenTypes::Cell>> ret = cells;
 	if (cursor_blink && cursor_visible)
 		if (cursor_x >= 0 && cursor_x < size_x)
-			if (cursor_y >= 0 && cursor_y < size_y)
+			if (cursor_y >= 0 && cursor_y < size_y) ret[cursor_y][cursor_x].format.flags ^= PIScreenTypes::Inverse;
 				ret[cursor_y][cursor_x].format.flags ^= PIScreenTypes::Inverse;
 	return ret;
 }
@@ -295,11 +299,11 @@ bool PITerminal::isSpecialKey(int k) {
 void PITerminal::initPrivate() {
-#ifdef WINDOWS
+#  ifdef WINDOWS
 	PRIVATE->hConBuf     = INVALID_HANDLE_VALUE;
 	PRIVATE->pipe        = INVALID_HANDLE_VALUE;
 	PRIVATE->pi.hProcess = 0;
-#else
+#  else
 	PRIVATE->shell = "/bin/bash";
 	PRIVATE->read_buf.reserve(BUFFER_SIZE);
 	PRIVATE->read_buf.fill(0);
@@ -311,14 +315,14 @@ void PITerminal::initPrivate() {
 	PRIVATE->last_read                        = true;
 	PRIVATE->esc_seq.clear();
 	PRIVATE->cur_format = PIScreenTypes::CellFormat();
-#endif
+#  endif
 	cursor_blink = cursor_visible = true;
 	size_x = size_y = 0;
 }
 void PITerminal::readConsole() {
-#ifdef WINDOWS
+#  ifdef WINDOWS
 	if (!PRIVATE->shm) return;
 	PITerminalAuxData data;
 	PRIVATE->shm->read(&data, sizeof(data));
@@ -331,20 +335,20 @@ void PITerminal::readConsole() {
 	ba.resize(data.cells_size);
 	PRIVATE->shm->read(ba.data(), ba.size_s(), sizeof(data));
 	ba >> cells;
-#endif
+#  endif
-	//piCout << cursor_x << cursor_y;
+	// piCout << cursor_x << cursor_y;
 }
 void PITerminal::getCursor(int & x, int & y) {
-#ifdef WINDOWS
+#  ifdef WINDOWS
 	if (!PRIVATE->shm) return;
 	int sz = 0;
 	PRIVATE->shm->read(&sz, 4);
-#else
+#  else
 	x                   = PRIVATE->cur_x;
 	y                   = PRIVATE->cur_y;
-#endif
+#  endif
 }
@@ -370,7 +374,7 @@ void PITerminal::run() {
 		cursor_tm.reset();
 		cursor_blink = !cursor_blink;
 	}
-#ifndef WINDOWS
+#  ifndef WINDOWS
 #	ifdef HAS_FORKPTY
 	if (PRIVATE->fd == 0) return;
 	PRIVATE->tmp_buf.resize(BUFFER_SIZE);
@@ -378,8 +382,8 @@ void PITerminal::run() {
 	bool used  = false;
 	if (readed > 0) {
 		PRIVATE->last_read = true;
-		//piCoutObj << "readed" << readed << PIString(PRIVATE->tmp_buf.resized(readed)).replaceAll("\e", "\\e");
+		// piCoutObj << "readed" << readed << PIString(PRIVATE->tmp_buf.resized(readed)).replaceAll("\e", "\\e");
-		//piCoutObj << "readed" << readed << (PRIVATE->tmp_buf.resized(readed));
+		// piCoutObj << "readed" << readed << (PRIVATE->tmp_buf.resized(readed));
 		PRIVATE->read_buf.append(PRIVATE->tmp_buf.resized(readed));
 		for (;;) {
 			int ind = -1;
@@ -395,28 +399,27 @@ void PITerminal::run() {
 		}
 		bool parse = PRIVATE->read_buf.size_s() >= BUFFER_SIZE;
 		if (PRIVATE->read_buf.size_s() == 1)
-			if (PRIVATE->read_buf[0] < 0x80)
+			if (PRIVATE->read_buf[0] < 0x80) parse = true;
 				parse = true;
 		if (parse) {
-			parseInput(PIString(PRIVATE->read_buf));
+			parseInput(PIString::fromUTF8(PRIVATE->read_buf));
 			PRIVATE->read_buf.clear();
 		}
-		//printf("%s", PRIVATE->read_buf.data());
+		// printf("%s", PRIVATE->read_buf.data());
 	}
 	if (!used && !PRIVATE->last_read && !PRIVATE->read_buf.isEmpty()) {
-		parseInput(PIString(PRIVATE->read_buf));
+		parseInput(PIString::fromUTF8(PRIVATE->read_buf));
 		PRIVATE->read_buf.clear();
 	}
 	PRIVATE->last_read = false;
 #	endif
-#endif
+#  endif
 }
-#ifndef WINDOWS
+#  ifndef WINDOWS
 void PITerminal::parseInput(const PIString & s) {
-	//piCoutObj << s.replaceAll("\e", "\\e");
+	// piCoutObj << s.replaceAll("\e", "\\e");
-	//printf("%s", s.data());
+	// printf("%s", s.data());
 	for (int i = 0; i < s.size_s(); ++i) {
 		if (s[i].unicode16Code() == 0) break;
 		if (PRIVATE->is_esc_seq) {
@@ -429,7 +432,7 @@ void PITerminal::parseInput(const PIString & s) {
 				if (isCompleteEscSeq(PRIVATE->esc_seq)) {
 					PRIVATE->is_esc_seq = false;
 					applyEscSeq(PRIVATE->esc_seq);
-					//piCoutObj << PRIVATE->esc_seq;
+					// piCoutObj << PRIVATE->esc_seq;
 				}
 			}
 		} else {
@@ -444,14 +447,15 @@ void PITerminal::parseInput(const PIString & s) {
 				}
 				if (s[i] == '\r') continue;
 				if (s[i] == '\n') {
-					//piCoutObj << "new line";
+					// piCoutObj << "new line";
-					for (int i = PRIVATE->cur_x; i < size_x; ++i) cells[PRIVATE->cur_y][i].format = PRIVATE->cur_format;
+					for (int i = PRIVATE->cur_x; i < size_x; ++i)
 						cells[PRIVATE->cur_y][i].format = PRIVATE->cur_format;
 					PRIVATE->line_format = PRIVATE->cur_format;
 					PRIVATE->cur_x       = 0;
 					moveCursor(0, 1);
 					continue;
 				}
-				//piCoutObj << "char" << s[i] << s[i].unicode16Code() << "at" << PRIVATE->cur_x << PRIVATE->cur_y;
+				// piCoutObj << "char" << s[i] << s[i].unicode16Code() << "at" << PRIVATE->cur_x << PRIVATE->cur_y;
 				cells[PRIVATE->cur_y][PRIVATE->cur_x].symbol = s[i];
 				cells[PRIVATE->cur_y][PRIVATE->cur_x].format = PRIVATE->cur_format;
 				moveCursor(1, 0);
@@ -475,7 +479,7 @@ bool PITerminal::isCompleteEscSeq(const PIString & es) {
 void PITerminal::applyEscSeq(PIString es) {
 	piCoutObj << es;
 	if (es.size_s() < 2) return;
-//	PIScreenTypes::Cell line_cell = PIScreenTypes::Cell(' ', PRIVATE->line_format);
+	//	PIScreenTypes::Cell line_cell = PIScreenTypes::Cell(' ', PRIVATE->line_format);
 	PIScreenTypes::Cell def_cell = PIScreenTypes::Cell(' ', PRIVATE->cur_format);
 	if (es[1] == '?' && es.size_s() >= 2) {
 		char a   = es.takeRight(1)[0].toAscii();
@@ -498,7 +502,8 @@ void PITerminal::applyEscSeq(PIString es) {
 		case 1047:
 			if (val) {
 				PRIVATE->cells_save = cells;
-				for (int i = 0; i < size_y; ++i) cells[i].fill(def_cell);
+				for (int i = 0; i < size_y; ++i)
 					cells[i].fill(def_cell);
 			} else {
 				cells = PRIVATE->cells_save;
 			}
@@ -513,7 +518,7 @@ void PITerminal::applyEscSeq(PIString es) {
 				return;
 			}
 			PIStringList args = es.split(";");
-			piForeachC (PIString & a, args) {
+			piForeachC(PIString & a, args) {
 				int av = a.toInt();
 				switch (av) {
 				case 0: PRIVATE->cur_format = PIScreenTypes::CellFormat(); break;
@@ -524,8 +529,14 @@ void PITerminal::applyEscSeq(PIString es) {
 				default: {
 					bool col = false, target = false;
 					int cid = av % 10;
-					if (av >= 30 && av <= 37) {col = true; target = false;}
+					if (av >= 30 && av <= 37) {
-					if (av >= 40 && av <= 47) {col = true; target = true;}
+						col    = true;
 						target = false;
 					}
 					if (av >= 40 && av <= 47) {
 						col    = true;
 						target = true;
 					}
 					if (col) {
 						int cfl = 0;
 						switch (cid) {
@@ -579,32 +590,36 @@ void PITerminal::applyEscSeq(PIString es) {
 			int x(0), y(0);
 			if (!args[0].isEmpty()) y = args[0].toInt() - 1;
 			if (!args[1].isEmpty()) x = args[1].toInt() - 1;
-			//piCoutObj << x << y;
+			// piCoutObj << x << y;
 			PRIVATE->cur_x       = piClamp(x, 0, size_x - 1);
 			PRIVATE->cur_y       = piClamp(y, 0, size_y - 1);
 			PRIVATE->line_format = PRIVATE->cur_format;
 		}
 		if (es.back() == 'A') { // cursor up
 			es.cutLeft(1).cutRight(1);
-			int v = es.toInt(); if (v == 0) v = 1;
+			int v = es.toInt();
 			if (v == 0) v = 1;
 			PRIVATE->cur_y       = piClamp(PRIVATE->cur_y - v, 0, size_y - 1);
 			PRIVATE->line_format = PRIVATE->cur_format;
 		}
 		if (es.back() == 'B') { // cursor down
 			es.cutLeft(1).cutRight(1);
-			int v = es.toInt(); if (v == 0) v = 1;
+			int v = es.toInt();
 			if (v == 0) v = 1;
 			PRIVATE->cur_y       = piClamp(PRIVATE->cur_y + v, 0, size_y - 1);
 			PRIVATE->line_format = PRIVATE->cur_format;
 		}
 		if (es.back() == 'C' || es.back() == 'a') { // cursor forward, next column
 			es.cutLeft(1).cutRight(1);
-			int v = es.toInt(); if (v == 0) v = 1;
+			int v = es.toInt();
 			if (v == 0) v = 1;
 			PRIVATE->cur_x       = piClamp(PRIVATE->cur_x + v, 0, size_x - 1);
 			PRIVATE->line_format = PRIVATE->cur_format;
 		}
 		if (es.back() == 'D') { // cursor back
 			es.cutLeft(1).cutRight(1);
-			int v = es.toInt(); if (v == 0) v = 1;
+			int v = es.toInt();
 			if (v == 0) v = 1;
 			PRIVATE->cur_x       = piClamp(PRIVATE->cur_x - v, 0, size_x - 1);
 			PRIVATE->line_format = PRIVATE->cur_format;
 		}
@@ -616,66 +631,92 @@ void PITerminal::applyEscSeq(PIString es) {
 		}
 		if (es.back() == 'd') { // goto line
 			es.cutLeft(1).cutRight(1);
-			int v = es.toInt(); if (v == 0) v = 1;
+			int v = es.toInt();
 			if (v == 0) v = 1;
 			PRIVATE->cur_x       = 0;
 			PRIVATE->cur_y       = piClamp(v - 1, 0, size_y - 1);
 			PRIVATE->line_format = PRIVATE->cur_format;
 		}
 		if (es.back() == 'E' || es.back() == 'e') { // next line
 			es.cutLeft(1).cutRight(1);
-			int v = es.toInt(); if (v == 0) v = 1;
+			int v = es.toInt();
 			if (v == 0) v = 1;
 			PRIVATE->cur_x       = 0;
 			PRIVATE->cur_y       = piClamp(PRIVATE->cur_y + v, 0, size_y - 1);
 			PRIVATE->line_format = PRIVATE->cur_format;
 		}
 		if (es.back() == 'F') { // previous line
 			es.cutLeft(1).cutRight(1);
-			int v = es.toInt(); if (v == 0) v = 1;
+			int v = es.toInt();
 			if (v == 0) v = 1;
 			PRIVATE->cur_x       = 0;
 			PRIVATE->cur_y       = piClamp(PRIVATE->cur_y - v, 0, size_y - 1);
 			PRIVATE->line_format = PRIVATE->cur_format;
 		}
 		if (es.back() == 'L') { // insert lines
 			es.cutLeft(1).cutRight(1);
-			int v = es.toInt(); if (v == 0) v = 1;
+			int v = es.toInt();
-			for (int i = piClamp(size_y - 1, PRIVATE->win_y0, PRIVATE->win_y1); i >= piClamp(PRIVATE->cur_y + v, PRIVATE->win_y0, PRIVATE->win_y1); --i) cells[i] = cells[i - v];
+			if (v == 0) v = 1;
-			for (int j = piClamp(PRIVATE->cur_y, PRIVATE->win_y0, PRIVATE->win_y1); j < piClamp(PRIVATE->cur_y + v, PRIVATE->win_y0, PRIVATE->win_y1); ++j)
+			for (int i = piClamp(size_y - 1, PRIVATE->win_y0, PRIVATE->win_y1);
-				for (int i = 0; i < PRIVATE->cur_x; ++i) cells[j][i] = def_cell;
+			     i >= piClamp(PRIVATE->cur_y + v, PRIVATE->win_y0, PRIVATE->win_y1);
 			     --i)
 				cells[i] = cells[i - v];
 			for (int j = piClamp(PRIVATE->cur_y, PRIVATE->win_y0, PRIVATE->win_y1);
 			     j < piClamp(PRIVATE->cur_y + v, PRIVATE->win_y0, PRIVATE->win_y1);
 			     ++j)
 				for (int i = 0; i < PRIVATE->cur_x; ++i)
 					cells[j][i] = def_cell;
 		}
 		if (es.back() == 'M') { // delete lines
 			es.cutLeft(1).cutRight(1);
-			int v = es.toInt(); if (v == 0) v = 1;
+			int v = es.toInt();
-			for (int i = piClamp(PRIVATE->cur_y, PRIVATE->win_y0, PRIVATE->win_y1); i < piClamp(size_y - v, PRIVATE->win_y0, PRIVATE->win_y1); ++i) cells[i] = cells[i + v];
+			if (v == 0) v = 1;
 			for (int i = piClamp(PRIVATE->cur_y, PRIVATE->win_y0, PRIVATE->win_y1);
 			     i < piClamp(size_y - v, PRIVATE->win_y0, PRIVATE->win_y1);
 			     ++i)
 				cells[i] = cells[i + v];
 			for (int j = piClamp(size_y - v, PRIVATE->win_y0, PRIVATE->win_y1); j < piClamp(size_y, PRIVATE->win_y0, PRIVATE->win_y1); ++j)
-				for (int i = 0; i < PRIVATE->cur_x; ++i) cells[j][i] = def_cell;
+				for (int i = 0; i < PRIVATE->cur_x; ++i)
 					cells[j][i] = def_cell;
 		}
 		if (es.back() == 'P') { // delete characters
 			es.cutLeft(1).cutRight(1);
-			int v = es.toInt(); if (v == 0) v = 1;
+			int v = es.toInt();
-			for (int i = PRIVATE->cur_x; i < size_x - v; ++i) cells[PRIVATE->cur_y][i] = cells[PRIVATE->cur_y][i + v];
+			if (v == 0) v = 1;
-			for (int i = size_x - v; i < size_x; ++i) cells[PRIVATE->cur_y][i] = def_cell;
+			for (int i = PRIVATE->cur_x; i < size_x - v; ++i)
 				cells[PRIVATE->cur_y][i] = cells[PRIVATE->cur_y][i + v];
 			for (int i = size_x - v; i < size_x; ++i)
 				cells[PRIVATE->cur_y][i] = def_cell;
 		}
 		if (es.back() == '@') { // delete characters
 			es.cutLeft(1).cutRight(1);
-			int v = es.toInt(); if (v == 0) v = 1;
+			int v = es.toInt();
-			for (int i = size_x - 1; i >= PRIVATE->cur_x + v; --i) cells[PRIVATE->cur_y][i] = cells[PRIVATE->cur_y][i - v];
+			if (v == 0) v = 1;
-			for (int i = PRIVATE->cur_x; i < PRIVATE->cur_x + v; ++i) cells[PRIVATE->cur_y][i] = def_cell;
+			for (int i = size_x - 1; i >= PRIVATE->cur_x + v; --i)
 				cells[PRIVATE->cur_y][i] = cells[PRIVATE->cur_y][i - v];
 			for (int i = PRIVATE->cur_x; i < PRIVATE->cur_x + v; ++i)
 				cells[PRIVATE->cur_y][i] = def_cell;
 		}
 		if (es.back() == 'J') { // erase data
 			es.cutLeft(1).cutRight(1);
 			int v = es.toInt();
 			switch (v) {
 			case 0:
-				for (int i = PRIVATE->cur_x; i < size_x; ++i) cells[PRIVATE->cur_y][i] = def_cell;
+				for (int i = PRIVATE->cur_x; i < size_x; ++i)
-				for (int i = PRIVATE->cur_y + 1; i < size_y; ++i) cells[i].fill(def_cell);
+					cells[PRIVATE->cur_y][i] = def_cell;
 				for (int i = PRIVATE->cur_y + 1; i < size_y; ++i)
 					cells[i].fill(def_cell);
 				break;
 			case 1:
-				for (int i = 0; i <= PRIVATE->cur_x; ++i) cells[PRIVATE->cur_y][i] = def_cell;
+				for (int i = 0; i <= PRIVATE->cur_x; ++i)
-				for (int i = 0; i < PRIVATE->cur_y; ++i) cells[i].fill(def_cell);
+					cells[PRIVATE->cur_y][i] = def_cell;
 				for (int i = 0; i < PRIVATE->cur_y; ++i)
 					cells[i].fill(def_cell);
 				break;
 			case 2:
-				for (int i = 0; i < size_y; ++i) cells[i].fill(def_cell);
+				for (int i = 0; i < size_y; ++i)
-				//PRIVATE->cur_x = PRIVATE->cur_y = 0;
+					cells[i].fill(def_cell);
 				// PRIVATE->cur_x = PRIVATE->cur_y = 0;
 				break;
 			}
 		}
@@ -684,14 +725,14 @@ void PITerminal::applyEscSeq(PIString es) {
 			int v = es.toInt();
 			switch (v) {
 			case 0:
-				for (int i = PRIVATE->cur_x; i < size_x; ++i) cells[PRIVATE->cur_y][i] = def_cell;
+				for (int i = PRIVATE->cur_x; i < size_x; ++i)
 					cells[PRIVATE->cur_y][i] = def_cell;
 				break;
 			case 1:
-				for (int i = 0; i <= PRIVATE->cur_x; ++i) cells[PRIVATE->cur_y][i] = def_cell;
+				for (int i = 0; i <= PRIVATE->cur_x; ++i)
-				break;
+					cells[PRIVATE->cur_y][i] = def_cell;
 			case 2:
 				cells[PRIVATE->cur_y].fill(def_cell);
 				break;
 			case 2: cells[PRIVATE->cur_y].fill(def_cell); break;
 			}
 		}
 	}
@@ -710,7 +751,7 @@ void PITerminal::moveCursor(int dx, int dy) {
 	}
 	if (PRIVATE->cur_y >= size_y) {
 		int scroll     = piMini(PRIVATE->cur_y - size_y + 1, size_y - 1);
-		//piCout << "scroll" << size_x << size_y << size_y - scroll - 1;
+		// piCout << "scroll" << size_x << size_y << size_y - scroll - 1;
 		PRIVATE->cur_y = size_y - 1;
 		for (int y = 0; y < size_y - scroll; ++y)
 			cells[y] = cells[y + scroll];
@@ -721,16 +762,18 @@ void PITerminal::moveCursor(int dx, int dy) {
 int PITerminal::termType(const PIString & t) {
-	if (t == "xterm") return PIKbdListener::vt_xterm;
+	if (t == "xterm")
-	else if (t == "linux") return PIKbdListener::vt_linux;
+		return PIKbdListener::vt_xterm;
 	else if (t == "linux")
 		return PIKbdListener::vt_linux;
 	return PIKbdListener::vt_none;
 }
-#endif
+#  endif
 bool PITerminal::initialize() {
 	destroy();
-#ifdef WINDOWS
+#  ifdef WINDOWS
 	/*SECURITY_ATTRIBUTES sa;
 	sa.nLength = sizeof(SECURITY_ATTRIBUTES);
 	sa.bInheritHandle = true;
@@ -746,18 +789,18 @@ bool PITerminal::initialize() {
 	    destroy();
 	    return false;
 	}*/
-	//CreatePipe(&(PRIVATE->pipe_out[0]), &(PRIVATE->pipe_out[1]), &sa, 0);
+	// CreatePipe(&(PRIVATE->pipe_out[0]), &(PRIVATE->pipe_out[1]), &sa, 0);
-	//SetHandleInformation(PRIVATE->pipe_in[1], HANDLE_FLAG_INHERIT, 0);
+	// SetHandleInformation(PRIVATE->pipe_in[1], HANDLE_FLAG_INHERIT, 0);
-	//SetHandleInformation(PRIVATE->hConBuf, HANDLE_FLAG_INHERIT, 0);
+	// SetHandleInformation(PRIVATE->hConBuf, HANDLE_FLAG_INHERIT, 0);
-	//GetStartupInfoA(&PRIVATE->si);
+	// GetStartupInfoA(&PRIVATE->si);
 	memset(&PRIVATE->si, 0, sizeof(PRIVATE->si));
 	PRIVATE->si.cb = sizeof(STARTUPINFO);
-	//PRIVATE->si.dwFlags |= STARTF_USESTDHANDLES;
+	// PRIVATE->si.dwFlags |= STARTF_USESTDHANDLES;
 	PRIVATE->si.dwFlags |= STARTF_USESHOWWINDOW;
 	PRIVATE->si.dwFlags |= STARTF_USECOUNTCHARS;
-	//PRIVATE->si.hStdInput = PRIVATE->pipe;
+	// PRIVATE->si.hStdInput = PRIVATE->pipe;
-	//PRIVATE->si.hStdOutput = PRIVATE->hConBuf;
+	// PRIVATE->si.hStdOutput = PRIVATE->hConBuf;
-	//PRIVATE->si.hStdError = PRIVATE->hConBuf;
+	// PRIVATE->si.hStdError = PRIVATE->hConBuf;
 	PRIVATE->si.wShowWindow   = SW_HIDE;
 	PRIVATE->si.dwXCountChars = 80;
 	PRIVATE->si.dwYCountChars = 24;
@@ -767,12 +810,28 @@ bool PITerminal::initialize() {
 	PIString shmh  = PIString::fromNumber(randomi() % 10000);
 	PIString pname = "\\\\.\\pipe\\piterm" + shmh;
 	PIString cmd   = "piterminal \"" + shmh + "\" \"" + pname + "\"";
-	if(!CreateProcessA(0, (LPSTR)cmd.dataAscii(), 0, 0, false, CREATE_NEW_CONSOLE | CREATE_NEW_PROCESS_GROUP, 0, 0, &PRIVATE->si, &PRIVATE->pi)) {
+	if (!CreateProcessA(0,
 	                    (LPSTR)cmd.dataAscii(),
 	                    0,
 	                    0,
 	                    false,
 	                    CREATE_NEW_CONSOLE | CREATE_NEW_PROCESS_GROUP,
 	                    0,
 	                    0,
 	                    &PRIVATE->si,
 	                    &PRIVATE->pi)) {
 		piCoutObj << "CreateProcess error," << errorString();
 		destroy();
 		return false;
 	}
-	PRIVATE->pipe = CreateNamedPipe((LPSTR)pname.dataAscii(), PIPE_ACCESS_DUPLEX, PIPE_TYPE_BYTE | PIPE_READMODE_BYTE | PIPE_WAIT, 2, PIPE_BUFFER_SIZE, PIPE_BUFFER_SIZE, 1000, NULL);
+	PRIVATE->pipe = CreateNamedPipeA((LPSTR)pname.dataAscii(),
 	                                 PIPE_ACCESS_DUPLEX,
 	                                 PIPE_TYPE_BYTE | PIPE_READMODE_BYTE | PIPE_WAIT,
 	                                 2,
 	                                 PIPE_BUFFER_SIZE,
 	                                 PIPE_BUFFER_SIZE,
 	                                 1000,
 	                                 NULL);
 	if (PRIVATE->pipe == INVALID_HANDLE_VALUE) {
 		piCoutObj << "CreateNamedPipe error," << errorString();
 		destroy();
@@ -792,26 +851,27 @@ bool PITerminal::initialize() {
 		return false;
 	}
 	if (PRIVATE->shm) delete PRIVATE->shm;
-	PRIVATE->shm = new PISharedMemory("piterm_aux" + shmh, 1024*1024);
+	PRIVATE->shm = new PISharedMemory("piterm_aux" + shmh, 1024 * 1024);
 	CloseHandle(PRIVATE->pi.hThread);
 	resize(dsize_x, dsize_y);
-#else
+#  else
 #	ifdef HAS_FORKPTY
-	char pty[256]; memset(pty, 0, 256);
+	char pty[256];
 	memset(pty, 0, 256);
 	winsize ws;
 	ws.ws_col        = dsize_x;
 	ws.ws_row        = dsize_y;
 	PIStringList env = PIProcess::currentEnvironment();
-	piForeachC (PIString & e, env)
+	piForeachC(PIString & e, env)
 		if (e.startsWith("TERM=")) {
 			PRIVATE->term_type = termType(e.mid(5).trim().toLowerCase());
-			//piCout << PRIVATE->term_type;
+			// piCout << PRIVATE->term_type;
 			break;
 		}
 	pid_t fr = forkpty(&(PRIVATE->fd), pty, 0, &ws);
-	//piCoutObj << fr << PRIVATE->fd << pty;
+	// piCoutObj << fr << PRIVATE->fd << pty;
 	if (fr == 0) {
-		char ** argv = new char*[2];
+		char ** argv      = new char *[2];
 		PIByteArray shell = PRIVATE->shell.toByteArray();
 		argv[0]           = new char[shell.size() + 1];
 		memcpy(argv[0], shell.data(), shell.size());
@@ -853,36 +913,34 @@ bool PITerminal::initialize() {
 		resize(size_x, size_y);
 	}
 #	endif
-#endif
+#  endif
 	cursor_blink = false;
 	cursor_tm.reset();
-	start(40);
+	start(25_Hz);
 	return true;
 }
 void PITerminal::destroy() {
-	//piCout << "destroy ...";
+	// piCout << "destroy ...";
 	stop();
-	waitForFinish(1000);
+	waitForFinish(1_s);
-#ifdef WINDOWS
+#  ifdef WINDOWS
 	if (PRIVATE->pi.hProcess) {
-		//piCout << "term";
+		// piCout << "term";
-		//TerminateProcess(PRIVATE->pi.hProcess, 0);
+		// TerminateProcess(PRIVATE->pi.hProcess, 0);
 		GenerateConsoleCtrlEvent(CTRL_C_EVENT, PRIVATE->pi.dwProcessId);
 		CloseHandle(PRIVATE->pi.hProcess);
 	}
 	if (PRIVATE->pipe != INVALID_HANDLE_VALUE) CloseHandle(PRIVATE->pipe);
 	if (PRIVATE->hConBuf != INVALID_HANDLE_VALUE) CloseHandle(PRIVATE->hConBuf);
-	//piCout << "destroy" << size_y;
+		// piCout << "destroy" << size_y;
-#else
+#  else
 #	ifdef HAS_FORKPTY
-	if (PRIVATE->pid != 0)
+	if (PRIVATE->pid != 0) kill(PRIVATE->pid, SIGKILL);
-		kill(PRIVATE->pid, SIGKILL);
+	if (PRIVATE->fd != 0) ::close(PRIVATE->fd);
-	if (PRIVATE->fd != 0)
+#	endif
 		::close(PRIVATE->fd);
 #  endif
 #endif
 	initPrivate();
 }
@@ -891,17 +949,17 @@ bool PITerminal::resize(int cols, int rows) {
 	bool ret = true;
 	dsize_x  = cols;
 	dsize_y  = rows;
-#ifdef WINDOWS
+#  ifdef WINDOWS
 	if (PRIVATE->pipe == INVALID_HANDLE_VALUE) return false;
 	PIByteArray msg;
 	msg << int(mtResize) << dsize_x << dsize_y;
 	writePipe(PRIVATE->pipe, msg);
-#else
+#  else
 #	ifdef HAS_FORKPTY
 	if (PRIVATE->fd == 0) return false;
 	size_x = dsize_x;
 	size_y = dsize_y;
-	//piCout << "resize" << PRIVATE->fd << size_x << size_y;
+	// piCout << "resize" << PRIVATE->fd << size_x << size_y;
 	winsize ws;
 	ws.ws_col = cols;
 	ws.ws_row = rows;
@@ -912,7 +970,7 @@ bool PITerminal::resize(int cols, int rows) {
 	for (int i = 0; i < size_y; ++i)
 		PRIVATE->cells_save[i].resize(size_x);
 #	endif
-#endif
+#  endif
 	cells.resize(size_y);
 	for (int i = 0; i < size_y; ++i)
 		cells[i].resize(size_x);
--- a/libs/crypt/piauth.cpp
+++ b/libs/crypt/piauth.cpp
@@ -20,7 +20,7 @@
 #include "piauth.h"
 #define PIAUTH_NOISE_MAX_SIZE 256
-PIAuth::PIAuth(const PIByteArray & sign) : PIObject() {
+PIAuth::PIAuth(const PIByteArray & sign): PIObject() {
 	setName("Client");
 	role    = Client;
 	state   = NotConnected;
@@ -56,7 +56,7 @@ PIByteArray PIAuth::startServer() {
 	state = AuthProbe;
 	PIByteArray ba;
 	crypt.generateKeypair(my_pk, box_sk);
-	PIByteArray noise = crypt.generateRandomBuff(randomi()%PIAUTH_NOISE_MAX_SIZE+128);
+	PIByteArray noise = crypt.generateRandomBuff(randomi() % PIAUTH_NOISE_MAX_SIZE + 128);
 	ba << (int)state << custom_info << sign_pk << my_pk << noise;
 	PIByteArray sign = crypt.signMessage(ba, sign_sk);
 	ba << sign;
@@ -70,12 +70,12 @@ PIAuth::State PIAuth::receive(PIByteArray & ba) {
 	int s;
 	ba >> s;
 	rstate = (State)s;
-//	if (state != rstate) return disconect(ba);
+	//	if (state != rstate) return disconect(ba);
-	//client side
+	// client side
 	if (role == Client) {
 		if (state == AuthProbe && rstate == AuthProbe) {
-			if (ba.size() < sizeof(int)*5) return disconnect(ba, "invalid data size");
+			if (ba.size() < sizeof(int) * 5) return disconnect(ba, "invalid data size");
 			PIByteArray rinfo;
 			PIByteArray rsign;
 			PIByteArray rsign_pk;
@@ -103,7 +103,7 @@ PIAuth::State PIAuth::receive(PIByteArray & ba) {
 			tba << sign;
 			tba   = crypt.crypt(tba, box_pk, box_sk);
 			state = AuthReply;
-			noise = crypt.generateRandomBuff(randomi()%PIAUTH_NOISE_MAX_SIZE);
+			noise = crypt.generateRandomBuff(randomi() % PIAUTH_NOISE_MAX_SIZE);
 			ba << (int)state << tba << my_pk << noise;
 			sign = crypt.signMessage(ba, sign_sk);
 			ba << sign;
@@ -154,14 +154,14 @@ PIAuth::State PIAuth::receive(PIByteArray & ba) {
 			ba.clear();
 			state = Connected;
 			connected(PIString());
-			ba << (int)state << crypt.crypt(custom_info, secret_key) << crypt.generateRandomBuff(randomi()%PIAUTH_NOISE_MAX_SIZE);
+			ba << (int)state << crypt.crypt(custom_info, secret_key) << crypt.generateRandomBuff(randomi() % PIAUTH_NOISE_MAX_SIZE);
 			return state;
 		}
 		if (state == Connected && rstate == Connected) {
 			ba.clear();
 			state = Connected;
 			connected(PIString());
-			ba << (int)state << crypt.crypt(custom_info, secret_key) << crypt.generateRandomBuff(randomi()%PIAUTH_NOISE_MAX_SIZE);
+			ba << (int)state << crypt.crypt(custom_info, secret_key) << crypt.generateRandomBuff(randomi() % PIAUTH_NOISE_MAX_SIZE);
 			return state;
 		}
 	}
@@ -169,7 +169,7 @@ PIAuth::State PIAuth::receive(PIByteArray & ba) {
 	// server side
 	if (role == Server) {
 		if (state == AuthProbe && rstate == AuthReply) {
-			if (ba.size() < sizeof(int)*4) return disconnect(ba, "invalid data size");
+			if (ba.size() < sizeof(int) * 4) return disconnect(ba, "invalid data size");
 			PIByteArray ctba, tba;
 			PIByteArray noise;
 			PIByteArray rsign1, rsign2;
@@ -179,7 +179,7 @@ PIAuth::State PIAuth::receive(PIByteArray & ba) {
 			bool ok = false;
 			tba     = crypt.decrypt(ctba, pk, box_sk, &ok);
 			if (tba.isEmpty() || !ok) return disconnect(ba, "Message corrupted");
-			if (tba.size() < sizeof(int)*3) return disconnect(tba, "invalid data size");
+			if (tba.size() < sizeof(int) * 3) return disconnect(tba, "invalid data size");
 			tba >> rsign_pk >> box_pk >> mpk >> rsign2;
 			if (pk != box_pk || mpk != my_pk) return disconnect(ba, "Invalid public key");
 			ba.clear();
@@ -197,7 +197,7 @@ PIAuth::State PIAuth::receive(PIByteArray & ba) {
 				ba.clear();
 				tba.clear();
 				state = PassRequest;
-				noise = crypt.generateRandomBuff(randomi()%PIAUTH_NOISE_MAX_SIZE);
+				noise = crypt.generateRandomBuff(randomi() % PIAUTH_NOISE_MAX_SIZE);
 				tba << sign_pk << noise << box_pk;
 				tba = crypt.crypt(tba, box_pk, box_sk);
 				ba << (int)state << tba;
@@ -223,7 +223,7 @@ PIAuth::State PIAuth::receive(PIByteArray & ba) {
 			if (ctba.isEmpty() || pass_hash.isEmpty()) auth = false;
 			passwordCheck(auth);
 			if (!auth) {
-//				piSleep(1);
+				//				piSleep(1);
 				return disconnect(ba, "Invalid password");
 			}
 			state = KeyExchange;
@@ -238,8 +238,8 @@ PIAuth::State PIAuth::receive(PIByteArray & ba) {
 			rinfo   = crypt.decrypt(rinfo, secret_key, &ok);
 			if (!ok) return disconnect(ba, "Error while exchange keys");
 			state = Connected;
-			connected(rinfo);
+			connected(PIString::fromUTF8(rinfo));
-			ba << (int)state << crypt.generateRandomBuff(randomi()%PIAUTH_NOISE_MAX_SIZE);
+			ba << (int)state << crypt.generateRandomBuff(randomi() % PIAUTH_NOISE_MAX_SIZE);
 			return state;
 		}
 	}
@@ -276,7 +276,7 @@ PIAuth::State PIAuth::disconnect(PIByteArray & ba, const PIString & error) {
 bool PIAuth::isAuthorizedKey(const PIByteArray & pkey) {
-	for (int i=0; i<auth_pkeys.size_s(); ++i) {
+	for (int i = 0; i < auth_pkeys.size_s(); ++i) {
 		if (pkey == auth_pkeys[i]) return true;
 	}
 	return false;
@@ -286,7 +286,7 @@ bool PIAuth::isAuthorizedKey(const PIByteArray & pkey) {
 PIByteArray PIAuth::createSKMessage() {
 	secret_key = crypt.generateKey();
 	PIByteArray tba;
-	PIByteArray noise = crypt.generateRandomBuff(randomi()%PIAUTH_NOISE_MAX_SIZE);
+	PIByteArray noise = crypt.generateRandomBuff(randomi() % PIAUTH_NOISE_MAX_SIZE);
 	tba << secret_key << noise;
 	tba = crypt.crypt(tba, box_pk, box_sk);
 	PIByteArray ret;
--- a/libs/crypt/picrypt.cpp
+++ b/libs/crypt/picrypt.cpp
@@ -22,7 +22,9 @@
 #  include <sodium.h>
 #endif
-#define PICRYPT_DISABLED_WARNING piCout << "[PICrypt]" << "Warning: PICrypt is disabled, to enable install sodium library and rebuild pip";
+#define PICRYPT_DISABLED_WARNING \
 	piCout << "[PICrypt]"        \
 		   << "Warning: PICrypt is disabled, to enable install sodium library and rebuild pip";
 const char hash_def_key[]   = "_picrypt_\0\0\0\0\0\0\0";
 const int hash_def_key_size = 9;
@@ -30,7 +32,9 @@ const int hash_def_key_size = 9;
 PICrypt::PICrypt() {
 #ifdef PIP_CRYPT
-	if (!init()) piCout << "[PICrypt]" << "Error while initialize sodium!";
+	if (!init())
 		piCout << "[PICrypt]"
 			   << "Error while initialize sodium!";
 	nonce_.resize(crypto_secretbox_NONCEBYTES);
 	key_.resize(crypto_secretbox_KEYBYTES);
 	randombytes_buf(key_.data(), key_.size());
@@ -53,7 +57,7 @@ PIByteArray PICrypt::setKey(const PIString & secret) {
 #ifdef PIP_CRYPT
 	hash.resize(crypto_generichash_BYTES);
 	PIByteArray s(secret.data(), secret.size());
-	crypto_generichash(hash.data(), hash.size(), s.data(), s.size(), (const uchar*)hash_def_key, hash_def_key_size);
+	crypto_generichash(hash.data(), hash.size(), s.data(), s.size(), (const uchar *)hash_def_key, hash_def_key_size);
 	hash.resize(key_.size());
 	setKey(hash);
 #endif
@@ -76,9 +80,8 @@ PIByteArray PICrypt::crypt(const PIByteArray & data) {
 PIByteArray PICrypt::crypt(const PIByteArray & data, PIByteArray key) {
 	PIByteArray ret;
 #ifdef PIP_CRYPT
-	if (key.size() != crypto_secretbox_KEYBYTES)
+	if (key.size() != crypto_secretbox_KEYBYTES) key.resize(crypto_secretbox_KEYBYTES, ' ');
-		key.resize(crypto_secretbox_KEYBYTES, ' ');
+	// return PIByteArray();
 		//return PIByteArray();
 	if (!init()) return ret;
 	PIByteArray n;
 	ret.resize(data.size() + crypto_secretbox_MACBYTES);
@@ -93,7 +96,7 @@ PIByteArray PICrypt::crypt(const PIByteArray & data, PIByteArray key) {
 }
-PIByteArray PICrypt::decrypt(const PIByteArray & crypt_data, bool *ok) {
+PIByteArray PICrypt::decrypt(const PIByteArray & crypt_data, bool * ok) {
 	PIByteArray ret;
 #ifdef PIP_CRYPT
 	if (crypt_data.size() < nonce_.size() + crypto_secretbox_MACBYTES) {
@@ -113,14 +116,13 @@ PIByteArray PICrypt::decrypt(const PIByteArray & crypt_data, bool *ok) {
 }
-PIByteArray PICrypt::decrypt(const PIByteArray & crypt_data, PIByteArray key, bool *ok) {
+PIByteArray PICrypt::decrypt(const PIByteArray & crypt_data, PIByteArray key, bool * ok) {
 	PIByteArray ret;
 #ifdef PIP_CRYPT
-	if (key.size() != crypto_secretbox_KEYBYTES)
+	if (key.size() != crypto_secretbox_KEYBYTES) key.resize(crypto_secretbox_KEYBYTES, ' ');
 		key.resize(crypto_secretbox_KEYBYTES, ' ');
 	/*if (ok) *ok = false;
 	return PIByteArray();
-	}*/
+}*/
 	if (crypt_data.size() < crypto_secretbox_NONCEBYTES + crypto_secretbox_MACBYTES) {
 		if (ok) *ok = false;
 		return PIByteArray();
@@ -134,7 +136,8 @@ PIByteArray PICrypt::decrypt(const PIByteArray & crypt_data, PIByteArray key, bo
 		if (ok) *ok = false;
 		//			piCout << "[PICrypt]" << "bad key_";
 		return PIByteArray();
-	} else if (ok) *ok = true;
+	} else if (ok)
 		*ok = true;
 #else
 	PICRYPT_DISABLED_WARNING
 #endif
@@ -148,7 +151,7 @@ PIByteArray PICrypt::hash(const PIString & secret) {
 	if (!init()) return hash;
 	hash.resize(crypto_generichash_BYTES);
 	PIByteArray s(secret.data(), secret.size());
-	crypto_generichash(hash.data(), hash.size(), s.data(), s.size(),(const uchar*)hash_def_key, hash_def_key_size);
+	crypto_generichash(hash.data(), hash.size(), s.data(), s.size(), (const uchar *)hash_def_key, hash_def_key_size);
 #else
 	PICRYPT_DISABLED_WARNING
 #endif
@@ -161,7 +164,7 @@ PIByteArray PICrypt::hash(const PIByteArray & data) {
 #ifdef PIP_CRYPT
 	if (!init()) return hash;
 	hash.resize(crypto_generichash_BYTES);
-	crypto_generichash(hash.data(), hash.size(), data.data(), data.size(), (const uchar*)hash_def_key, hash_def_key_size);
+	crypto_generichash(hash.data(), hash.size(), data.data(), data.size(), (const uchar *)hash_def_key, hash_def_key_size);
 #else
 	PICRYPT_DISABLED_WARNING
 #endif
@@ -169,7 +172,7 @@ PIByteArray PICrypt::hash(const PIByteArray & data) {
 }
-PIByteArray PICrypt::hash(const PIByteArray & data, const unsigned char *key, size_t keylen) {
+PIByteArray PICrypt::hash(const PIByteArray & data, const unsigned char * key, size_t keylen) {
 	PIByteArray hash;
 #ifdef PIP_CRYPT
 	if (!init()) return hash;
@@ -192,13 +195,16 @@ size_t PICrypt::sizeHash() {
 }
-ullong PICrypt::shorthash(const PIString& s, PIByteArray key) {
+ullong PICrypt::shorthash(const PIString & s, PIByteArray key) {
 	ullong hash = 0;
 #ifdef PIP_CRYPT
-	if (crypto_shorthash_BYTES != sizeof(hash)) piCout << "[PICrypt]" << "internal error: bad hash size";
+	if (crypto_shorthash_BYTES != sizeof(hash))
 		piCout << "[PICrypt]"
 			   << "internal error: bad hash size";
 	if (!init()) return hash;
 	if (key.size() != crypto_shorthash_KEYBYTES) {
-		piCout << "[PICrypt]" << "invalid key size" << key.size() << ", shoud be" << crypto_shorthash_KEYBYTES << ", filled zeros";
+		piCout << "[PICrypt]"
 			   << "invalid key size" << key.size() << ", shoud be" << crypto_shorthash_KEYBYTES << ", filled zeros";
 		key.resize(crypto_shorthash_KEYBYTES, 0);
 	}
 	PIByteArray in(s.data(), s.size());
@@ -345,16 +351,13 @@ PIByteArray PICrypt::crypt(const PIByteArray & data, const PIByteArray & public_
 	PIByteArray ret;
 #ifdef PIP_CRYPT
 	if (!init()) return ret;
-	if (public_key.size() != crypto_box_PUBLICKEYBYTES)
+	if (public_key.size() != crypto_box_PUBLICKEYBYTES) return ret;
-		return ret;
+	if (secret_key.size() != crypto_box_SECRETKEYBYTES) return ret;
 	if (secret_key.size() != crypto_box_SECRETKEYBYTES)
 		return ret;
 	PIByteArray n;
 	ret.resize(data.size() + crypto_box_MACBYTES);
 	n.resize(crypto_box_NONCEBYTES);
 	randombytes_buf(n.data(), n.size());
-	if (crypto_box_easy(ret.data(), data.data(), data.size(), n.data(), public_key.data(), secret_key.data()) != 0)
+	if (crypto_box_easy(ret.data(), data.data(), data.size(), n.data(), public_key.data(), secret_key.data()) != 0) return PIByteArray();
 		return PIByteArray();
 	ret.append(n);
 #else
 	PICRYPT_DISABLED_WARNING
@@ -383,11 +386,13 @@ PIByteArray PICrypt::decrypt(const PIByteArray & crypt_data, const PIByteArray &
 	n.resize(crypto_secretbox_NONCEBYTES);
 	ret.resize(crypt_data.size() - n.size() - crypto_secretbox_MACBYTES);
 	memcpy(n.data(), crypt_data.data(crypt_data.size() - n.size()), n.size());
-	if (crypto_box_open_easy(ret.data(), crypt_data.data(), crypt_data.size() - n.size(), n.data(), public_key.data(), secret_key.data()) != 0) {
+	if (crypto_box_open_easy(ret.data(), crypt_data.data(), crypt_data.size() - n.size(), n.data(), public_key.data(), secret_key.data()) !=
 	    0) {
 		if (ok) *ok = false;
 		//			piCout << "[PICrypt]" << "bad key_";
 		return PIByteArray();
-	} else if (ok) *ok = true;
+	} else if (ok)
 		*ok = true;
 #else
 	PICRYPT_DISABLED_WARNING
 #endif
@@ -397,16 +402,24 @@ PIByteArray PICrypt::decrypt(const PIByteArray & crypt_data, const PIByteArray &
 PIByteArray PICrypt::passwordHash(const PIString & password, const PIByteArray & seed) {
 #ifdef crypto_pwhash_ALG_ARGON2I13
-//	char out[crypto_pwhash_STRBYTES];
+	//	char out[crypto_pwhash_STRBYTES];
 	PIByteArray pass = password.toUTF8();
 	PIByteArray n    = hash(seed);
 	PIByteArray ph;
 	ph.resize(crypto_box_SEEDBYTES);
 	n.resize(crypto_pwhash_SALTBYTES);
-//	randombytes_buf(n.data(), n.size());
+	//	randombytes_buf(n.data(), n.size());
-//	crypto_shorthash(n.data(), seed.data(), seed.size(), PIByteArray(crypto_shorthash_KEYBYTES).data());
+	//	crypto_shorthash(n.data(), seed.data(), seed.size(), PIByteArray(crypto_shorthash_KEYBYTES).data());
-	int r = crypto_pwhash(ph.data(), ph.size(), (const char*)pass.data(), pass.size(), n.data(), crypto_pwhash_argon2i_opslimit_moderate(), crypto_pwhash_argon2i_memlimit_moderate(), crypto_pwhash_ALG_ARGON2I13);
+	int r = crypto_pwhash(ph.data(),
-	//crypto_pwhash_str(out, (const char*)pass.data(), pass.size(), crypto_pwhash_argon2i_opslimit_moderate(), crypto_pwhash_argon2i_memlimit_moderate());
+	                      ph.size(),
 	                      (const char *)pass.data(),
 	                      pass.size(),
 	                      n.data(),
 	                      crypto_pwhash_argon2i_opslimit_moderate(),
 	                      crypto_pwhash_argon2i_memlimit_moderate(),
 	                      crypto_pwhash_ALG_ARGON2I13);
 	// crypto_pwhash_str(out, (const char*)pass.data(), pass.size(), crypto_pwhash_argon2i_opslimit_moderate(),
 	// crypto_pwhash_argon2i_memlimit_moderate());
 	pass.fill(0);
 	if (r != 0) return PIByteArray();
 	return ph;
@@ -432,17 +445,13 @@ bool PICrypt::init() {
 #ifdef PIP_CRYPT
 	static bool inited = false;
 	if (inited) return true;
-	//piCout << "[PICrypt]" << "init ...";
+	// piCout << "[PICrypt]" << "init ...";
 	inited = sodium_init();
-	if (!inited)
+	if (!inited) inited = sodium_init();
-		inited = sodium_init();
+	// piCout << "[PICrypt]" << "init" << inited;
 	//piCout << "[PICrypt]" << "init" << inited;
 	return inited;
 #else
 	PICRYPT_DISABLED_WARNING
 #endif
 	return false;
 }
--- a/libs/fftw/pifft.cpp
+++ b/libs/fftw/pifft.cpp
@@ -18,16 +18,30 @@
 */
 #include "pifft.h"
 #include "pifft_p.h"
 #define _PIFFTW_CPP(type)                                                                               \
-	_PIFFTW_P_##type##_::_PIFFTW_P_##type##_() {impl = new PIFFTW_Private<type>();;} \
+	_PIFFTW_P_##type##_::_PIFFTW_P_##type##_() {                                                        \
-	_PIFFTW_P_##type##_::~_PIFFTW_P_##type##_() {delete (PIFFTW_Private<type>*)impl;} \
+		impl = new PIFFTW_Private<type>();                                                              \
-	const PIVector<complex<type> > & _PIFFTW_P_##type##_::calcFFT(const PIVector<complex<type> > & in) {return ((PIFFTW_Private<type>*)impl)->calcFFT(in);} \
+		;                                                                                               \
-	const PIVector<complex<type> > & _PIFFTW_P_##type##_::calcFFTR(const PIVector<type> & in) {return ((PIFFTW_Private<type>*)impl)->calcFFT(in);} \
+	}                                                                                                   \
-	const PIVector<complex<type> > & _PIFFTW_P_##type##_::calcFFTI(const PIVector<complex<type> > & in) {return ((PIFFTW_Private<type>*)impl)->calcFFTinverse(in);} \
+	_PIFFTW_P_##type##_::~_PIFFTW_P_##type##_() {                                                       \
-	void _PIFFTW_P_##type##_::preparePlan(int size, int op) {return ((PIFFTW_Private<type>*)impl)->preparePlan(size, op);}
+		delete (PIFFTW_Private<type> *)impl;                                                            \
 	}                                                                                                   \
 	const PIVector<complex<type>> & _PIFFTW_P_##type##_::calcFFT(const PIVector<complex<type>> & in) {  \
 		return ((PIFFTW_Private<type> *)impl)->calcFFT(in);                                             \
 	}                                                                                                   \
 	const PIVector<complex<type>> & _PIFFTW_P_##type##_::calcFFTR(const PIVector<type> & in) {          \
 		return ((PIFFTW_Private<type> *)impl)->calcFFT(in);                                             \
 	}                                                                                                   \
 	const PIVector<complex<type>> & _PIFFTW_P_##type##_::calcFFTI(const PIVector<complex<type>> & in) { \
 		return ((PIFFTW_Private<type> *)impl)->calcFFTinverse(in);                                      \
 	}                                                                                                   \
 	void _PIFFTW_P_##type##_::preparePlan(int size, int op) {                                           \
 		return ((PIFFTW_Private<type> *)impl)->preparePlan(size, op);                                   \
 	}
 _PIFFTW_CPP(float)
 _PIFFTW_CPP(double)
--- a/libs/fftw/pifft_p.h
+++ b/libs/fftw/pifft_p.h
@@ -1,6 +1,6 @@
 /*! \file pifft_p.h
 * \brief Class for FFT, IFFT and Hilbert transformations
-*/
+ */
 /*
    PIP - Platform Independent Primitives
    Private header for fftw3
@@ -23,8 +23,8 @@
 #ifndef PIFFT_P_H
 #define PIFFT_P_H
 #include "pivector.h"
 #include "picout.h"
 #include "pivector.h"
 #if defined(PIP_FFTW) || defined(PIP_FFTWf) || defined(PIP_FFTWl) || defined(PIP_FFTWq)
 #  include "fftw3.h"
 #else
@@ -35,43 +35,42 @@
 #endif
-template <typename T>
+template<typename T>
-class PIFFTW_Private
+class PIFFTW_Private {
 {
 public:
 	explicit PIFFTW_Private() {
 		plan = 0;
-//#ifndef PIP_FFTW
+		// #ifndef PIP_FFTW
-//		piCout << "[PIFFTW]" << "Warning: PIFFTW is disabled, to enable install libfftw3-dev library and build pip with -DFFTW=1";
+		//		piCout << "[PIFFTW]" << "Warning: PIFFTW is disabled, to enable install libfftw3-dev library and build pip with -DFFTW=1";
-//#endif
+		// #endif
 		p_makeThreadSafe();
 	}
-	~PIFFTW_Private() {p_destroyPlan(plan);}
+	~PIFFTW_Private() { p_destroyPlan(plan); }
-	const PIVector<complex<T> > & calcFFT(const PIVector<complex<T> > & in) {
+	const PIVector<complex<T>> & calcFFT(const PIVector<complex<T>> & in) {
 		if (prepare != PlanParams(in.size(), fo_complex)) {
 			p_out.resize(in.size());
-			piCout << "[PIFFTW]" << "creating plan";
+			// piCout << "[PIFFTW]" << "creating plan";
 			p_createPlan_c2c_1d(plan, in.size(), in.data(), p_out.data(), FFTW_FORWARD, FFTW_ESTIMATE | FFTW_UNALIGNED);
 			prepare = PlanParams(in.size(), fo_complex);
 		}
 		p_executePlan_c2c(plan, in.data(), p_out.data());
 		return p_out;
 	}
-	const PIVector<complex<T> > & calcFFT(const PIVector<T> & in) {
+	const PIVector<complex<T>> & calcFFT(const PIVector<T> & in) {
 		if (prepare != PlanParams(in.size(), fo_real)) {
 			p_out.resize(in.size());
-			piCout << "[PIFFTW]" << "creating plan";
+			// piCout << "[PIFFTW]" << "creating plan";
 			p_createPlan_r2c_1d(plan, in.size(), in.data(), p_out.data(), FFTW_ESTIMATE | FFTW_UNALIGNED);
 			prepare = PlanParams(in.size(), fo_real);
 		}
 		p_executePlan_r2c(plan, in.data(), p_out.data());
 		return p_out;
 	}
-	const PIVector<complex<T> > & calcFFTinverse(const PIVector<complex<T> > & in) {
+	const PIVector<complex<T>> & calcFFTinverse(const PIVector<complex<T>> & in) {
 		if (prepare != PlanParams(in.size(), fo_inverse)) {
 			p_out.resize(in.size());
-			piCout << "[PIFFTW]" << "creating plan";
+			// piCout << "[PIFFTW]" << "creating plan";
 			p_createPlan_c2c_1d(plan, in.size(), in.data(), p_out.data(), FFTW_BACKWARD, FFTW_ESTIMATE | FFTW_UNALIGNED);
 			prepare = PlanParams(in.size(), fo_inverse);
 		}
@@ -79,7 +78,11 @@ public:
 		return p_out;
 	}
-	enum FFT_Operation {fo_real, fo_complex, fo_inverse};
+	enum FFT_Operation {
 		fo_real,
 		fo_complex,
 		fo_inverse
 	};
 	void preparePlan(int size, int op) {
 		p_inr.clear();
@@ -101,9 +104,7 @@ public:
 			p_out.resize(size);
 			p_createPlan_c2c_1d(plan, size, p_in.data(), p_out.data(), FFTW_BACKWARD, FFTW_MEASURE | FFTW_UNALIGNED);
 			break;
-			default:
+		default: size = 0; break;
 				size = 0;
 			break;
 		}
 		prepare = PlanParams(size, (FFT_Operation)op);
 	}
@@ -117,62 +118,128 @@ public:
 	inline void p_makeThreadSafe() {}
 	struct PlanParams {
-		PlanParams() {size = 0; op = fo_complex;}
+		PlanParams() {
-		PlanParams(int size_, FFT_Operation op_) {size = size_; op = op_;}
+			size = 0;
-		bool isValid() {return size > 0;}
+			op   = fo_complex;
-		bool operator ==(const PlanParams & v) const {return (v.size == size) && (v.op == op);}
+		}
-		bool operator !=(const PlanParams & v) const {return !(*this == v);}
+		PlanParams(int size_, FFT_Operation op_) {
 			size = size_;
 			op   = op_;
 		}
 		bool isValid() { return size > 0; }
 		bool operator==(const PlanParams & v) const { return (v.size == size) && (v.op == op); }
 		bool operator!=(const PlanParams & v) const { return !(*this == v); }
 		int size;
 		FFT_Operation op;
 	};
-	PIVector<complex<T> > p_in;
+	PIVector<complex<T>> p_in;
 	PIVector<T> p_inr;
-	PIVector<complex<T> > p_out;
+	PIVector<complex<T>> p_out;
 	void * plan;
 	PlanParams prepare;
 };
 #ifdef PIP_FFTWf
-template<> inline void PIFFTW_Private<float>::p_createPlan_c2c_1d(void *& plan, int size, const void * in, void * out, int dir, int flags) {
+template<>
-	plan = fftwf_plan_dft_1d(size, (fftwf_complex *)in, (fftwf_complex *)out, dir, flags);}
+inline void PIFFTW_Private<float>::p_createPlan_c2c_1d(void *& plan, int size, const void * in, void * out, int dir, int flags) {
-template<> inline void PIFFTW_Private<float>::p_createPlan_r2c_1d(void *& plan, int size, const void * in, void * out, int flags) {
+	plan = fftwf_plan_dft_1d(size, (fftwf_complex *)in, (fftwf_complex *)out, dir, flags);
-	plan = fftwf_plan_dft_r2c_1d(size, (float *)in, (fftwf_complex *)out, flags);}
+}
-template<> inline void PIFFTW_Private<float>::p_executePlan(void * plan) {fftwf_execute((fftwf_plan)plan);}
+template<>
-template<> inline void PIFFTW_Private<float>::p_executePlan_c2c(void * plan, const void * in, void * out) {fftwf_execute_dft((fftwf_plan)plan, (fftwf_complex *)in, (fftwf_complex *)out);}
+inline void PIFFTW_Private<float>::p_createPlan_r2c_1d(void *& plan, int size, const void * in, void * out, int flags) {
-template<> inline void PIFFTW_Private<float>::p_executePlan_r2c(void * plan, const void * in, void * out) {fftwf_execute_dft_r2c((fftwf_plan)plan, (float *)in, (fftwf_complex *)out);}
+	plan = fftwf_plan_dft_r2c_1d(size, (float *)in, (fftwf_complex *)out, flags);
-template<> inline void PIFFTW_Private<float>::p_destroyPlan(void *& plan) {if (plan) fftwf_destroy_plan((fftwf_plan)plan); plan = 0;}
+}
 template<>
 inline void PIFFTW_Private<float>::p_executePlan(void * plan) {
 	fftwf_execute((fftwf_plan)plan);
 }
 template<>
 inline void PIFFTW_Private<float>::p_executePlan_c2c(void * plan, const void * in, void * out) {
 	fftwf_execute_dft((fftwf_plan)plan, (fftwf_complex *)in, (fftwf_complex *)out);
 }
 template<>
 inline void PIFFTW_Private<float>::p_executePlan_r2c(void * plan, const void * in, void * out) {
 	fftwf_execute_dft_r2c((fftwf_plan)plan, (float *)in, (fftwf_complex *)out);
 }
 template<>
 inline void PIFFTW_Private<float>::p_destroyPlan(void *& plan) {
 	if (plan) fftwf_destroy_plan((fftwf_plan)plan);
 	plan = 0;
 }
 #  ifdef PIP_FFTWf_THREADSAFE
-template<> inline void PIFFTW_Private<float>::p_makeThreadSafe() {fftwf_make_planner_thread_safe();}
+template<>
 inline void PIFFTW_Private<float>::p_makeThreadSafe() {
 	fftwf_make_planner_thread_safe();
 }
 #  endif
 #endif // PIP_FFTWf
 #ifdef PIP_FFTW
-template<> inline void PIFFTW_Private<double>::p_createPlan_c2c_1d(void *& plan, int size, const void * in, void * out, int dir, int flags) {
+template<>
-	plan = fftw_plan_dft_1d(size, (fftw_complex *)in, (fftw_complex *)out, dir, flags);}
+inline void PIFFTW_Private<double>::p_createPlan_c2c_1d(void *& plan, int size, const void * in, void * out, int dir, int flags) {
-template<> inline void PIFFTW_Private<double>::p_createPlan_r2c_1d(void *& plan, int size, const void * in, void * out, int flags) {
+	plan = fftw_plan_dft_1d(size, (fftw_complex *)in, (fftw_complex *)out, dir, flags);
-	plan = fftw_plan_dft_r2c_1d(size, (double *)in, (fftw_complex *)out, flags);}
+}
-template<> inline void PIFFTW_Private<double>::p_executePlan(void * plan) {fftw_execute((fftw_plan)plan);}
+template<>
-template<> inline void PIFFTW_Private<double>::p_executePlan_c2c(void * plan, const void * in, void * out) {fftw_execute_dft((fftw_plan)plan, (fftw_complex *)in, (fftw_complex *)out);}
+inline void PIFFTW_Private<double>::p_createPlan_r2c_1d(void *& plan, int size, const void * in, void * out, int flags) {
-template<> inline void PIFFTW_Private<double>::p_executePlan_r2c(void * plan, const void * in, void * out) {fftw_execute_dft_r2c((fftw_plan)plan, (double *)in, (fftw_complex *)out);}
+	plan = fftw_plan_dft_r2c_1d(size, (double *)in, (fftw_complex *)out, flags);
-template<> inline void PIFFTW_Private<double>::p_destroyPlan(void *& plan) {if (plan) fftw_destroy_plan((fftw_plan)plan); plan = 0;}
+}
 template<>
 inline void PIFFTW_Private<double>::p_executePlan(void * plan) {
 	fftw_execute((fftw_plan)plan);
 }
 template<>
 inline void PIFFTW_Private<double>::p_executePlan_c2c(void * plan, const void * in, void * out) {
 	fftw_execute_dft((fftw_plan)plan, (fftw_complex *)in, (fftw_complex *)out);
 }
 template<>
 inline void PIFFTW_Private<double>::p_executePlan_r2c(void * plan, const void * in, void * out) {
 	fftw_execute_dft_r2c((fftw_plan)plan, (double *)in, (fftw_complex *)out);
 }
 template<>
 inline void PIFFTW_Private<double>::p_destroyPlan(void *& plan) {
 	if (plan) fftw_destroy_plan((fftw_plan)plan);
 	plan = 0;
 }
 #  ifdef PIP_FFTW_THREADSAFE
-template<> inline void PIFFTW_Private<double>::p_makeThreadSafe() {fftw_make_planner_thread_safe();}
+template<>
 inline void PIFFTW_Private<double>::p_makeThreadSafe() {
 	fftw_make_planner_thread_safe();
 }
 #  endif
 #endif // PIP_FFTW
 #ifdef PIP_FFTWl
-template<> inline void PIFFTW_Private<ldouble>::p_createPlan_c2c_1d(void *& plan, int size, const void * in, void * out, int dir, int flags) {
+template<>
-	plan = fftwl_plan_dft_1d(size, (fftwl_complex *)in, (fftwl_complex *)out, dir, flags);}
+inline void PIFFTW_Private<ldouble>::p_createPlan_c2c_1d(void *& plan, int size, const void * in, void * out, int dir, int flags) {
-template<> inline void PIFFTW_Private<ldouble>::p_createPlan_r2c_1d(void *& plan, int size, const void * in, void * out, int flags) {
+	plan = fftwl_plan_dft_1d(size, (fftwl_complex *)in, (fftwl_complex *)out, dir, flags);
-	plan = fftwl_plan_dft_r2c_1d(size, (ldouble *)in, (fftwl_complex *)out, flags);}
+}
-template<> inline void PIFFTW_Private<ldouble>::p_executePlan(void * plan) {fftwl_execute((fftwl_plan)plan);}
+template<>
-template<> inline void PIFFTW_Private<ldouble>::p_executePlan_c2c(void * plan, const void * in, void * out) {fftwl_execute_dft((fftwl_plan)plan, (fftwl_complex *)in, (fftwl_complex *)out);}
+inline void PIFFTW_Private<ldouble>::p_createPlan_r2c_1d(void *& plan, int size, const void * in, void * out, int flags) {
-template<> inline void PIFFTW_Private<ldouble>::p_executePlan_r2c(void * plan, const void * in, void * out) {fftwl_execute_dft_r2c((fftwl_plan)plan, (ldouble *)in, (fftwl_complex *)out);}
+	plan = fftwl_plan_dft_r2c_1d(size, (ldouble *)in, (fftwl_complex *)out, flags);
-template<> inline void PIFFTW_Private<ldouble>::p_destroyPlan(void *& plan) {if (plan) fftwl_destroy_plan((fftwl_plan)plan); plan = 0;}
+}
 template<>
 inline void PIFFTW_Private<ldouble>::p_executePlan(void * plan) {
 	fftwl_execute((fftwl_plan)plan);
 }
 template<>
 inline void PIFFTW_Private<ldouble>::p_executePlan_c2c(void * plan, const void * in, void * out) {
 	fftwl_execute_dft((fftwl_plan)plan, (fftwl_complex *)in, (fftwl_complex *)out);
 }
 template<>
 inline void PIFFTW_Private<ldouble>::p_executePlan_r2c(void * plan, const void * in, void * out) {
 	fftwl_execute_dft_r2c((fftwl_plan)plan, (ldouble *)in, (fftwl_complex *)out);
 }
 template<>
 inline void PIFFTW_Private<ldouble>::p_destroyPlan(void *& plan) {
 	if (plan) fftwl_destroy_plan((fftwl_plan)plan);
 	plan = 0;
 }
 #  ifdef PIP_FFTWl_THREADSAFE
-template<> inline void PIFFTW_Private<ldouble>::p_makeThreadSafe() {fftwl_make_planner_thread_safe();}
+template<>
 inline void PIFFTW_Private<ldouble>::p_makeThreadSafe() {
 	fftwl_make_planner_thread_safe();
 }
 #  endif
 #endif // PIP_FFTWl
--- a/libs/io_utils/pibroadcast.cpp
+++ b/libs/io_utils/pibroadcast.cpp
@@ -19,6 +19,8 @@
 #include "pibroadcast.h"
 #include "piliterals_time.h"
 /** \class PIBroadcast
 * \brief Broadcast for all interfaces, including loopback
 *
@@ -39,7 +41,7 @@
 * current \a PIEthernet::allAddresses() was changed and call
 * \a reinit() if it necessary.
 *
-*/
+ */
 #define MULTICAST_TTL 4
@@ -57,8 +59,8 @@ PIBroadcast::PIBroadcast(bool send_only): PIThread(), PIEthUtilBase() {
 PIBroadcast::~PIBroadcast() {
-	PIThread::stop();
+	PIThread::stopAndWait();
-	mcast_mutex.unlock();
+	// mcast_mutex.unlock();
 	destroyAll();
 }
@@ -84,7 +86,7 @@ void PIBroadcast::setMulticastPort(ushort port) {
 }
-void PIBroadcast::setMulticastAddress(const PIEthernet::Address & addr) {
+void PIBroadcast::setMulticastAddress(const PINetworkAddress & addr) {
 	PIMutexLocker ml(mcast_mutex);
 	mcast_address = addr;
 	_reinit       = true;
@@ -113,31 +115,30 @@ void PIBroadcast::setLoopbackPortsCount(int count) {
 void PIBroadcast::destroyAll() {
-	piForeach (PIEthernet * e, eth_mcast) {
+	for (auto * e: eth_mcast) {
-		e->stopThreadedRead();
+		e->stopAndWait();
-		delete e;
+		piDeleteSafety(e);
 	}
 	eth_mcast.clear();
 	if (eth_lo) {
-		eth_lo->stopThreadedRead();
+		eth_lo->stopAndWait();
-		delete eth_lo;
+		piDeleteSafety(eth_lo);
 		eth_lo = 0;
 	}
 }
-void PIBroadcast::initAll(PIVector<PIEthernet::Address> al) {
+void PIBroadcast::initAll(PIVector<PINetworkAddress> al) {
 	PIMutexLocker ml(mcast_mutex);
 	destroyAll();
 	_reinit = false;
 	prev_al = al;
-	al.removeAll(PIEthernet::Address("127.0.0.1"));
+	al.removeAll(PINetworkAddress("127.0.0.1"));
 	al << mcast_address;
 	eth_mcast.clear();
 	PIEthernet::InterfaceList ifaces = PIEthernet::interfaces();
-	piForeachC (PIEthernet::Address & a, al) {
+	for (const auto & a: al) {
 		PIEthernet * ce = 0;
-		//piCout << "mcast try" << a;
+		// piCout << "mcast try" << a;
 		if (_channels[Multicast]) {
 			ce = new PIEthernet();
 			ce->setDebug(false);
@@ -148,10 +149,10 @@ void PIBroadcast::initAll(PIVector<PIEthernet::Address> al) {
 			if (!_send_only) {
 				ce->setReadAddress(a.ipString(), mcast_address.port());
 				ce->joinMulticastGroup(mcast_address.ipString());
-				//piCout << "mcast " << ce->readAddress() << ce->sendAddress();
+				// piCout << "mcast " << ce->readAddress() << ce->sendAddress();
 				if (ce->open()) {
 					eth_mcast << ce;
-					CONNECTU(ce, threadedReadEvent, this, mcastRead);
+					CONNECT2(void, const uchar *, ssize_t, ce, threadedReadEvent, this, mcastRead);
 				} else {
 					delete ce;
 				}
@@ -166,14 +167,14 @@ void PIBroadcast::initAll(PIVector<PIEthernet::Address> al) {
 			ce->setName("PIMulticast_" + a.toString());
 			ce->setParameters(PIEthernet::Broadcast);
 			const PIEthernet::Interface * cint = ifaces.getByAddress(a.ipString());
-			PIEthernet::Address nm((cint == 0) ? "255.255.255.0" : cint->netmask);
+			PINetworkAddress nm((cint == 0) ? "255.255.255.0" : cint->netmask);
 			ce->setSendAddress(PIEthernet::getBroadcast(a, nm).ipString(), bcast_port);
 			if (!_send_only) {
-				ce->setReadAddress(PIEthernet::Address(a.ip(), bcast_port));
+				ce->setReadAddress(PINetworkAddress(a.ip(), bcast_port));
-				//piCout << "bcast " << ce->readAddress() << ce->sendAddress();
+				// piCout << "bcast " << ce->readAddress() << ce->sendAddress();
 				if (ce->open()) {
 					eth_mcast << ce;
-					CONNECTU(ce, threadedReadEvent, this, mcastRead);
+					CONNECT2(void, const uchar *, ssize_t, ce, threadedReadEvent, this, mcastRead);
 				} else {
 					delete ce;
 				}
@@ -189,11 +190,11 @@ void PIBroadcast::initAll(PIVector<PIEthernet::Address> al) {
 		eth_lo->setName("PIMulticast_loopback");
 		if (!_send_only) {
 			eth_lo->setParameter(PIEthernet::ReuseAddress, false);
-			CONNECTU(eth_lo, threadedReadEvent, this, mcastRead);
+			CONNECT2(void, const uchar *, ssize_t, eth_lo, threadedReadEvent, this, mcastRead);
 			for (int i = 0; i < lo_pcnt; ++i) {
 				eth_lo->setReadAddress("127.0.0.1", lo_port + i);
 				if (eth_lo->open()) {
-					//piCout << "bind local to" << (lo_port + i);
+					// piCout << "bind local to" << (lo_port + i);
 					break;
 				}
 			}
@@ -203,14 +204,15 @@ void PIBroadcast::initAll(PIVector<PIEthernet::Address> al) {
 void PIBroadcast::send(const PIByteArray & data) {
-	if (!isRunning()) {
+	/*if (!isRunning()) {
 		reinit();
 		PIThread::start(3000);
-	}
+	}*/
 	PIByteArray cd = cryptData(data);
 	if (cd.isEmpty()) return;
 	PIMutexLocker ml(mcast_mutex);
-	piForeach (PIEthernet * e, eth_mcast) e->send(cd);
+	for (auto * e: eth_mcast)
 		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);
@@ -223,21 +225,23 @@ void PIBroadcast::startRead() {
 	if (!isRunning()) {
 		_started = false;
 		reinit();
-		PIThread::start(3000);
+		PIThread::start(3_s);
 	}
 	if (_send_only) return;
 	PIMutexLocker ml(mcast_mutex);
-	piForeach (PIEthernet * e, eth_mcast) e->startThreadedRead();
+	for (auto * e: eth_mcast)
 		e->startThreadedRead();
 	if (eth_lo) eth_lo->startThreadedRead();
 	_started = true;
 }
 void PIBroadcast::stopRead() {
-	if (isRunning()) stop();
+	if (isRunning()) stopAndWait();
 	PIMutexLocker ml(mcast_mutex);
-	piForeach (PIEthernet * e, eth_mcast) e->stopThreadedRead();
+	for (auto * e: eth_mcast)
-	if (eth_lo) eth_lo->stopThreadedRead();
+		e->stopAndWait();
 	if (eth_lo) eth_lo->stopAndWait();
 	_started = false;
 }
@@ -248,7 +252,7 @@ void PIBroadcast::reinit() {
 }
-void PIBroadcast::mcastRead(uchar * data, int size) {
+void PIBroadcast::mcastRead(const uchar * data, ssize_t size) {
 	PIByteArray cd = decryptData(PIByteArray(data, size));
 	if (cd.isEmpty()) return;
 	received(cd);
@@ -257,7 +261,7 @@ void PIBroadcast::mcastRead(uchar * data, int size) {
 void PIBroadcast::run() {
-	PIVector<PIEthernet::Address> al = PIEthernet::allAddresses();
+	PIVector<PINetworkAddress> al = PIEthernet::allAddresses();
 	mcast_mutex.lock();
 	bool r = _reinit, ac = (al != prev_al);
 	mcast_mutex.unlock();
--- a/libs/io_utils/piethutilbase.cpp
+++ b/libs/io_utils/piethutilbase.cpp
@@ -43,7 +43,7 @@
 * You can use this class as base for your own classes. Use \a cryptData()
 * and \a decryptData() when send and receive your data.
 *
-*/
+ */
 PIEthUtilBase::PIEthUtilBase() {
@@ -51,8 +51,7 @@ PIEthUtilBase::PIEthUtilBase() {
 }
-PIEthUtilBase::~PIEthUtilBase() {
+PIEthUtilBase::~PIEthUtilBase() {}
 }
 void PIEthUtilBase::setCryptEnabled(bool on) {
--- a/libs/io_utils/pipackedtcp.cpp
+++ b/libs/io_utils/pipackedtcp.cpp
@@ -0,0 +1,199 @@
 /*
    PIP - Platform Independent Primitives
 	PIPackedTCP
    Ivan Pelipenko peri4ko@yandex.ru, Andrey Bychkov work.a.b@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 "pipackedtcp.h"
 #include "piethernet.h"
 #include "piliterals.h"
 /** \class PIPackedTCP pipackedtcp.h
 * \brief
 * TCP packed channel
 *
 * \details
 * \section PITCP_sec0 Synopsis
 * %PIEthernet designed to work with IPv4 network via two protocols:
 * UDP and TCP. This class allow you send and receive packets to/from
 * another computer through network. Also it supports broadcast and
 * multicast extensions.
 *
 * */
 PIPackedTCP::PIPackedTCP(Role role, const PINetworkAddress & addr): m_role(role) {
 	setMode(PIIODevice::ReadWrite);
 	packer.setCryptEnabled(false);
 	CONNECTL(&packer, packetReceiveEvent, [this](PIByteArray & data) {
 		PIMutexLocker ml(rec_mutex);
 		rec_queue.enqueue(data);
 	});
 	init();
 	setAddress(addr);
 }
 PIPackedTCP::~PIPackedTCP() {
 	stopAndWait();
 	if (client) client->stopAndWait();
 	if (eth) eth->stopAndWait();
 	piDeleteSafety(eth);
 }
 void PIPackedTCP::setAddress(const PINetworkAddress & addr) {
 	m_addr = addr;
 	setPath(m_addr.toString());
 }
 bool PIPackedTCP::isConnected() const {
 	if (m_role == Client) {
 		return eth->isConnected();
 	} else {
 		if (client) return client->isConnected();
 	}
 	return false;
 }
 bool PIPackedTCP::isConnecting() const {
 	if (m_role == Client) {
 		return eth->isConnecting();
 	} else {
 		if (client) return client->isConnecting();
 	}
 	return false;
 }
 void PIPackedTCP::init() {
 	if (client) client->stopAndWait();
 	if (eth) eth->stopAndWait();
 	piDeleteSafety(eth);
 	eth = new PIEthernet(m_role == Client ? PIEthernet::TCP_Client : PIEthernet::TCP_Server);
 	if (m_role == Client) {
 		eth->setReopenTimeout(100_ms);
 		packer.assignDevice(eth);
 		CONNECTL(eth, connected, [this]() {
 			packer.clear();
 			connected();
 		});
 		CONNECTL(eth, disconnected, [this](bool) {
 			packer.clear();
 			eth->connect(path(), true);
 			disconnected();
 		});
 	} else {
 		CONNECTL(eth, newConnection, [this](PIEthernet * c) {
 			if (client) client->stopAndWait();
 			piDeleteSafety(client);
 			client = c;
 			// piCout << "Server connected" << client;
 			packer.assignDevice(client);
 			CONNECTL(client, disconnected, [this](bool) {
 				packer.assignDevice(nullptr);
 				packer.clear();
 				disconnected();
 			});
 			client->startThreadedRead();
 			connected();
 		});
 	}
 }
 PIIODevice::DeviceInfoFlags PIPackedTCP::deviceInfoFlags() const {
 	return PIIODevice::Reliable;
 }
 PIString PIPackedTCP::constructFullPathDevice() const {
 	return PIString(m_role == Client ? "client" : "server") + ":" + path();
 }
 void PIPackedTCP::configureFromFullPathDevice(const PIString & full_path) {
 	PIStringList pl = full_path.split(":");
 	if (pl.size() >= 1) {
 		PIString p = pl[0].toLowerCase().left(1);
 		if (p == "c") m_role = Client;
 		if (p == "s") m_role = Server;
 		init();
 	}
 	PINetworkAddress addr("0.0.0.0", 13362);
 	if (pl.size() >= 2) {
 		if (pl[1].isNotEmpty()) addr.setIP(pl[1]);
 	}
 	if (pl.size() >= 3) {
 		if (pl[2].isNotEmpty()) addr.setPort(pl[2].toInt());
 	}
 	setAddress(addr);
 }
 ssize_t PIPackedTCP::readDevice(void * read_to, ssize_t max_size) {
 	PIMutexLocker ml(rec_mutex);
 	if (rec_queue.isNotEmpty()) {
 		auto d  = rec_queue.dequeue();
 		auto sz = piMin(max_size, d.size_s());
 		if (read_to) memcpy(read_to, d.data(), sz);
 		return sz;
 	}
 	return 0;
 }
 ssize_t PIPackedTCP::writeDevice(const void * data, ssize_t max_size) {
 	if (!isConnected()) return 0;
 	packer.send(PIByteArray(data, max_size));
 	// piCout << m_role << "write" << eth;
 	return max_size;
 	/*if (m_role == Client) {
 		return eth->write(data, max_size);
 	} else {
 		if (client) return client->write(data, max_size);
 	}*/
 }
 bool PIPackedTCP::openDevice() {
 	if (m_role == Client) {
 		if (eth->isConnected()) return true;
 		if (eth->isConnecting()) return false;
 		packer.clear();
 		bool ret = eth->connect(path(), false);
 		eth->startThreadedRead();
 		return ret;
 	} else {
 		return eth->listen(path(), false);
 	}
 	return false;
 }
 bool PIPackedTCP::closeDevice() {
 	if (client) {
 		client->close();
 		client->stopAndWait();
 		piDeleteSafety(client);
 		packer.assignDevice(nullptr);
 	}
 	return eth->close();
 }
--- a/libs/io_utils/pistreampacker.cpp
+++ b/libs/io_utils/pistreampacker.cpp
@@ -22,7 +22,9 @@
 #  pragma GCC diagnostic ignored "-Wnonnull"
 #endif
 #include "pistreampacker.h"
 #include "piiodevice.h"
 #include "piliterals_bytes.h"
 #ifdef __GNUC__
 #  pragma GCC diagnostic pop
 #endif
@@ -43,7 +45,7 @@
 *
 * Use \a assignDevice() to connect device to this %PIStreamPacker.
 *
-*/
+ */
 PIStreamPacker::PIStreamPacker(PIIODevice * dev): PIObject() {
@@ -51,7 +53,7 @@ PIStreamPacker::PIStreamPacker(PIIODevice * dev): PIObject() {
 	aggressive_optimization = true;
 	packet_size             = -1;
 	size_crypted_size       = sizeof(int);
-	crypt_frag_size = 1024*1024;
+	crypt_frag_size         = 1_MiB;
 	max_packet_size         = 1400;
 	packet_sign             = 0xAFBE;
 	assignDevice(dev);
@@ -61,7 +63,8 @@ PIStreamPacker::PIStreamPacker(PIIODevice * dev): PIObject() {
 void PIStreamPacker::setCryptSizeEnabled(bool on) {
 	crypt_size = on;
 	if (crypt_size) {
-		PIByteArray ba; ba << int(0);
+		PIByteArray ba;
 		ba << int(0);
 		size_crypted_size = cryptData(ba).size_s();
 	} else
 		size_crypted_size = sizeof(int);
@@ -80,45 +83,51 @@ void PIStreamPacker::send(const PIByteArray & data) {
 	PIByteArray cd;
 	if (crypt_frag) {
 		int fcnt = (data.size_s() - 1) / crypt_frag_size + 1, fst = 0;
-		//piCout << "crypt_frag send" << fcnt << "frags";
+		// piCout << "crypt_frag send" << fcnt << "frags";
 		PIByteArray frag;
 		for (int i = 0; i < fcnt; ++i) {
-			if (i == fcnt - 1) frag = PIByteArray(data.data(fst), data.size_s() - fst);
+			if (i == fcnt - 1)
-			else frag = PIByteArray(data.data(fst), crypt_frag_size);
+				frag = PIByteArray(data.data(fst), data.size_s() - fst);
 			else
 				frag = PIByteArray(data.data(fst), crypt_frag_size);
 			fst += crypt_frag_size;
 			cd << cryptData(frag);
 		}
 	} else {
 		cd = cryptData(data);
 	}
-	//piCout << "crypt" << data.size() << "->" << cd.size() << key().size();
+	// piCout << "crypt" << data.size() << "->" << cd.size() << key().size();
 	PIByteArray hdr, part;
 	hdr << packet_sign;
 	if (crypt_size) {
-		PIByteArray crsz; crsz << int(cd.size_s());
+		PIByteArray crsz;
 		crsz << int(cd.size_s());
 		hdr.append(cryptData(crsz));
 	} else
 		hdr << int(cd.size_s());
 	cd.insert(0, hdr);
 	int pcnt = (cd.size_s() - 1) / max_packet_size + 1, pst = 0;
 	for (int i = 0; i < pcnt; ++i) {
-		if (i == pcnt - 1) part = PIByteArray(cd.data(pst), cd.size_s() - pst);
+		if (i == pcnt - 1)
-		else part = PIByteArray(cd.data(pst), max_packet_size);
+			part = PIByteArray(cd.data(pst), cd.size_s() - pst);
-		//piCout << "send" << part.size();
+		else
 			part = PIByteArray(cd.data(pst), max_packet_size);
 		// piCout << "send" << part.size();
 		sendRequest(part);
 		pst += max_packet_size;
 	}
 }
-void PIStreamPacker::received(uchar * readed, int size) {
+void PIStreamPacker::received(const uchar * readed, ssize_t size) {
 	if (size <= 0) return;
 	received(PIByteArray(readed, size));
 }
 void PIStreamPacker::received(const PIByteArray & data) {
 	stream.append(data);
-	//piCout << "rec" << data.size();
+	// piCout << "rec" << data.size();
 	while (!stream.isEmpty()) {
 		int hdr_size = sizeof(packet_sign) + size_crypted_size;
 		if (packet_size < 0) {
@@ -126,8 +135,10 @@ void PIStreamPacker::received(const PIByteArray & data) {
 			ushort sign(0);
 			memcpy(&sign, stream.data(), 2);
 			if (sign != packet_sign) {
-				if (aggressive_optimization) stream.clear();
+				if (aggressive_optimization)
-				else stream.pop_front();
+					stream.clear();
 				else
 					stream.pop_front();
 				continue;
 			}
 			int sz = -1;
@@ -136,8 +147,10 @@ void PIStreamPacker::received(const PIByteArray & data) {
 				memcpy(crsz.data(), stream.data(2), size_crypted_size);
 				crsz = decryptData(crsz);
 				if (crsz.size() < sizeof(sz)) {
-					if (aggressive_optimization) stream.clear();
+					if (aggressive_optimization)
-					else stream.pop_front();
+						stream.clear();
 					else
 						stream.pop_front();
 					continue;
 				}
 				crsz >> sz;
@@ -145,8 +158,10 @@ void PIStreamPacker::received(const PIByteArray & data) {
 				memcpy(&sz, stream.data(2), size_crypted_size);
 			}
 			if (sz < 0) {
-				if (aggressive_optimization) stream.clear();
+				if (aggressive_optimization)
-				else stream.pop_front();
+					stream.clear();
 				else
 					stream.pop_front();
 				continue;
 			}
 			stream.remove(0, hdr_size);
@@ -154,6 +169,8 @@ void PIStreamPacker::received(const PIByteArray & data) {
 			packet_size = sz;
 			if (packet_size == 0)
 				packet_size = -1;
 			else
 				startPacketReceive(packet_size);
 			continue;
 		} else {
 			int ps = piMini(stream.size_s(), packet_size - packet.size_s());
@@ -162,26 +179,27 @@ void PIStreamPacker::received(const PIByteArray & data) {
 			if (packet.size_s() == packet_size) {
 				PIByteArray cd;
 				if (crypt_frag) {
-					//piCout << "decrypt frags ..." << packet_size;
+					// piCout << "decrypt frags ..." << packet_size;
 					while (packet.size_s() >= 4) {
-						//piCout << "decrypt frags take data ...";
+						// piCout << "decrypt frags take data ...";
 						PIByteArray frag;
-						//piCout << "decrypt frags take data done" << frag.size_s();
+						// piCout << "decrypt frags take data done" << frag.size_s();
 						packet >> frag;
 						if (frag.isEmpty()) {
-							//piCout << "decrypt frags corrupt, break";
+							// piCout << "decrypt frags corrupt, break";
 							cd.clear();
 							break;
 						}
 						cd.append(decryptData(frag));
-						//piCout << "decrypt frags add" << frag.size_s();
+						// piCout << "decrypt frags add" << frag.size_s();
 					}
-					//piCout << "decrypt frags done" << cd.size();
+					// piCout << "decrypt frags done" << cd.size();
 				} else {
 					cd = decryptData(packet);
 				}
-				//piCout << "decrypt" << packet.size() << "->" << cd.size() << key().size();
+				// piCout << "decrypt" << packet.size() << "->" << cd.size() << key().size();
 				if (!cd.isEmpty()) {
 					endPacketReceive();
 					packetReceived(cd);
 					packetReceiveEvent(cd);
 				}
@@ -195,8 +213,9 @@ void PIStreamPacker::received(const PIByteArray & data) {
 void PIStreamPacker::assignDevice(PIIODevice * dev) {
 	if (!dev) return;
-	if (!dev->infoFlags()[PIIODevice::Reliable])
+	if (!dev->infoFlags()[PIIODevice::Reliable]) {
 		piCoutObj << "Warning! Not recommended to use with non-reliable" << dev;
-	CONNECTU(dev, threadedReadEvent, this, received);
+	}
-	CONNECTU(this, sendRequest, dev, write);
+	CONNECT2(void, const uchar *, ssize_t, dev, threadedReadEvent, this, received);
 	CONNECT1(void, PIByteArray, this, sendRequest, dev, write);
 }
--- a/libs/lua/piluaprogram.cpp
+++ b/libs/lua/piluaprogram.cpp
@@ -50,4 +50,3 @@ luabridge::LuaRef PILuaProgram::getGlobal(const PIString & name) {
 luabridge::Namespace PILuaProgram::getGlobalNamespace() {
 	return luabridge::getGlobalNamespace(PRIVATE->lua_state);
 }
--- a/libs/main/application/piapplicationmodule.h
+++ b/libs/main/application/piapplicationmodule.h
@@ -0,0 +1,59 @@
 /*
    PIP - Platform Independent Primitives
    Module includes
    Ivan Pelipenko peri4ko@yandex.ru, Andrey Bychkov work.a.b@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/>.
 */
 //! \defgroup Application Application
 //! \~\brief
 //! \~english Application-level classes.
 //! \~russian Классы уровня "приложение".
 //!
 //! \~\details
 //! \~english \section cmake_module_Application Building with CMake
 //! \~russian \section cmake_module_Application Сборка с использованием CMake
 //!
 //! \~\code
 //! find_package(PIP REQUIRED)
 //! target_link_libraries([target] PIP)
 //! \endcode
 //!
 //! \~english \par Common
 //! \~russian \par Общее
 //!
 //! \~english
 //! These files provides some classes for help to create application
 //!
 //! \~russian
 //! Эти файлы предоставляют классы для облегчения создания приложения
 //!
 //! \~\authors
 //! \~english
 //! Ivan Pelipenko peri4ko@yandex.ru;
 //! Andrey Bychkov work.a.b@yandex.ru;
 //! \~russian
 //! Иван Пелипенко peri4ko@yandex.ru;
 //! Андрей Бычков work.a.b@yandex.ru;
 //!
 #ifndef PIAPPLICATIONMODULE_H
 #define PIAPPLICATIONMODULE_H
 #include "picli.h"
 #include "pilog.h"
 #include "pisingleapplication.h"
 #include "pisystemmonitor.h"
 #endif
--- a/libs/main/application/picli.cpp
+++ b/libs/main/application/picli.cpp
@@ -0,0 +1,255 @@
 /*
    PIP - Platform Independent Primitives
    Command-Line Parser
    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 "picli.h"
 #include "pisysteminfo.h"
 //! \class PICLI picli.h
 //! \details
 //! \~english \section PICLI_sec0 Synopsis
 //! \~russian \section PICLI_sec0 Краткий обзор
 //! \~english
 //! This class provide handy parsing of command-line arguments. First you should add
 //! arguments to %PICLI with function \a addArgument(). Then you can check if there
 //! is some argument in application command-line with function \a hasArgument(),
 //! or obtain argument value by \a argumentValue().
 //!
 //! \~russian
 //! Этот класс предоставляет удобный механизм для разбора аргументов командной строки.
 //! Сперва необходимо добавить аргументы в %PICLI с помощью методов \a addArgument().
 //! Далее можно проверять аргументы на наличие в командной строке методом \a hasArgument(),
 //! а также получать их значения при помощи \a argumentValue().
 //!
 //! \~english \section PICLI_sec1 Example
 //! \~russian \section PICLI_sec1 Пример
 //! \~\code
 //! int main(int argc, char ** argv) {
 //! 	PICLI cli(argc, argv);
 //! 	cli.addArgument("console");
 //! 	cli.addArgument("debug");
 //! 	cli.addArgument("Value", "v", "value", true);
 //! 	if (cli.hasArgument("console"))
 //! 		piCout << "console active";
 //! 	if (cli.hasArgument("debug"))
 //! 		piCout << "debug active";
 //! 	piCout << "Value =" << cli.argumentValue("Value");
 //! 	return 0;
 //! }
 //! \endcode
 //!
 //! \~english These executions are similar:
 //! \~russian Эти вызовы будут идентичны:
 //!
 //! \~\code
 //! a.out -cd -v 10
 //! a.out --value 10 -dc
 //! a.out -c -v 10 -d
 //! a.out --console -d -v 10
 //! a.out --debug -c --value 10
 //! \endcode
 //!
 PICLI::PICLI(int argc, char * argv[]) {
 	for (int i = 0; i < argc; ++i)
 		_args_raw << argv[i];
 	if (argc > 0) PISystemInfo::instance()->execCommand = argv[0];
 }
 void PICLI::parse() {
 	if (!needParse) return;
 	PIString cra, full;
 	Argument * last = 0;
 	for (int i = 1; i < _args_raw.size_s(); ++i) {
 		cra = _args_raw[i];
 		if (cra.left(2) == _prefix_full) {
 			last = 0;
 			full = cra.right(cra.length() - 2);
 			for (auto & a: _args) {
 				if (a.full_key == full) {
 					a.found = true;
 					last    = &a;
 					break;
 				}
 			}
 		} else {
 			if (cra.left(1) == _prefix_short) {
 				last = 0;
 				for (int j = 1; j < cra.length(); ++j) {
 					bool found = false;
 					for (auto & a: _args) {
 						if ((a.short_key != '\0') && (a.short_key == cra[j])) {
 							a.found = true;
 							last    = &a;
 							found   = true;
 							break;
 						}
 					}
 					if (!found) break;
 				}
 			} else {
 				if (last == 0 ? true : !last->has_value) {
 					if (_args_mand.size_s() < _count_mand) {
 						_args_mand << cra;
 						continue;
 					}
 					if (_args_opt.size_s() < _count_opt || _count_opt < 0) {
 						_args_opt << cra;
 						continue;
 					}
 					piCoutObj << "Arguments overflow, \"" << cra << "\" ignored";
 				}
 				if (last == 0 ? false : last->has_value) {
 					last->value = cra;
 					last        = 0;
 				}
 			}
 		}
 	}
 	needParse = false;
 }
 void PICLI::addArgument(const PIString & name, bool value) {
 	_args << Argument(name, name[0], name, value);
 	needParse = true;
 }
 void PICLI::addArgument(const PIString & name, const PIChar & shortKey, bool value) {
 	_args << Argument(name, shortKey, name, value);
 	needParse = true;
 }
 void PICLI::addArgument(const PIString & name, const char * shortKey, bool value) {
 	_args << Argument(name, PIChar::fromUTF8(shortKey), name, value);
 	needParse = true;
 }
 void PICLI::addArgument(const PIString & name, const PIChar & shortKey, const PIString & fullKey, bool value) {
 	_args << Argument(name, shortKey, fullKey, value);
 	needParse = true;
 }
 void PICLI::addArgument(const PIString & name, const char * shortKey, const PIString & fullKey, bool value) {
 	_args << Argument(name, PIChar::fromUTF8(shortKey), fullKey, value);
 	needParse = true;
 }
 PIString PICLI::rawArgument(int index) {
 	parse();
 	return _args_raw[index];
 }
 PIString PICLI::mandatoryArgument(int index) {
 	parse();
 	return _args_mand[index];
 }
 PIString PICLI::optionalArgument(int index) {
 	parse();
 	return _args_opt[index];
 }
 const PIStringList & PICLI::rawArguments() {
 	parse();
 	return _args_raw;
 }
 const PIStringList & PICLI::mandatoryArguments() {
 	parse();
 	return _args_mand;
 }
 const PIStringList & PICLI::optionalArguments() {
 	parse();
 	return _args_opt;
 }
 PIString PICLI::programCommand() {
 	parse();
 	return _args_raw.isNotEmpty() ? _args_raw.front() : PIString();
 }
 bool PICLI::hasArgument(const PIString & name) {
 	parse();
 	for (const auto & i: _args)
 		if (i.name == name && i.found) return true;
 	return false;
 }
 PIString PICLI::argumentValue(const PIString & name) {
 	parse();
 	for (const auto & i: _args)
 		if (i.name == name && i.found) return i.value;
 	return PIString();
 }
 PIString PICLI::argumentShortKey(const PIString & name) {
 	for (const auto & i: _args)
 		if (i.name == name) return PIString(i.short_key);
 	return PIString();
 }
 PIString PICLI::argumentFullKey(const PIString & name) {
 	for (const auto & i: _args)
 		if (i.name == name) return i.full_key;
 	return PIString();
 }
 void PICLI::setShortKeyPrefix(const PIString & prefix) {
 	_prefix_short = prefix;
 	needParse     = true;
 }
 void PICLI::setFullKeyPrefix(const PIString & prefix) {
 	_prefix_full = prefix;
 	needParse    = true;
 }
 void PICLI::setMandatoryArgumentsCount(const int count) {
 	_count_mand = count;
 	needParse   = true;
 }
 void PICLI::setOptionalArgumentsCount(const int count) {
 	_count_opt = count;
 	needParse  = true;
 }
--- a/libs/main/application/picli.h
+++ b/libs/main/application/picli.h
@@ -0,0 +1,136 @@
 /*! \file picli.h
 * \ingroup Application
 * \~\brief
 * \~english Command-Line parser
 * \~russian Парсер командной строки
 */
 /*
    PIP - Platform Independent Primitives
    Command-Line Parser
    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 PICLI_H
 #define PICLI_H
 #include "piset.h"
 #include "pistringlist.h"
 //! \ingroup Application
 //! \~\brief
 //! \~english Command-Line parser.
 //! \~russian Парсер командной строки.
 class PIP_EXPORT PICLI {
 public:
 	//! \~english Constructs %PICLI from "argc" and "argv" from "int main()" method.
 	//! \~russian Создает %PICLI из "argc" и "argv" из метода "int main()".
 	PICLI(int argc, char * argv[]);
 	//! \~english Add argument with name "name", short key = name first letter and full key = name.
 	//! \~russian Добавляет аргумент с именем "name", коротким ключом = первой букве имени и полным ключом = имени.
 	void addArgument(const PIString & name, bool value = false);
 	//! \~english Add argument with name "name", short key = "shortKey" and full key = name.
 	//! \~russian Добавляет аргумент с именем "name", коротким ключом = "shortKey" и полным ключом = имени.
 	void addArgument(const PIString & name, const PIChar & shortKey, bool value = false);
 	//! \~english Add argument with name "name", short key = "shortKey" and full key = name.
 	//! \~russian Добавляет аргумент с именем "name", коротким ключом = "shortKey" и полным ключом = имени.
 	void addArgument(const PIString & name, const char * shortKey, bool value = false);
 	//! \~english Add argument with name "name", short key = "shortKey" and full key = "fullKey".
 	//! \~russian Добавляет аргумент с именем "name", коротким ключом = "shortKey" и полным ключом = "fullKey".
 	void addArgument(const PIString & name, const PIChar & shortKey, const PIString & fullKey, bool value = false);
 	//! \~english Add argument with name "name", short key = "shortKey" and full key = "fullKey".
 	//! \~russian Добавляет аргумент с именем "name", коротким ключом = "shortKey" и полным ключом = "fullKey".
 	void addArgument(const PIString & name, const char * shortKey, const PIString & fullKey, bool value = false);
 	//! \~english Returns unparsed command-line argument by index "index". Index 0 is program execute command.
 	//! \~russian Возвращает исходный аргумент командной строки по индексу "index". Индекс 0 это команда вызова программы.
 	PIString rawArgument(int index);
 	PIString mandatoryArgument(int index);
 	PIString optionalArgument(int index);
 	//! \~english Returns unparsed command-line arguments.
 	//! \~russian Возвращает исходные аргументы командной строки.
 	const PIStringList & rawArguments();
 	const PIStringList & mandatoryArguments();
 	const PIStringList & optionalArguments();
 	//! \~english Returns program execute command without arguments.
 	//! \~russian Возвращает команду вызова программы без аргументов.
 	PIString programCommand();
 	//! \~english Returns if argument "name" found.
 	//! \~russian Возвращает найден ли аргумент "name".
 	bool hasArgument(const PIString & name);
 	//! \~english Returns argument "name" value, or empty string if this is no value.
 	//! \~russian Возвращает значение аргумента "name" или пустую строку, если значения нет.
 	PIString argumentValue(const PIString & name);
 	//! \~english Returns short key of argument "name", or empty string if this is no argument.
 	//! \~russian Возвращает короткий ключ аргумента "name" или пустую строку, если аргумента нет.
 	PIString argumentShortKey(const PIString & name);
 	//! \~english Returns full key of argument "name", or empty string if this is no argument.
 	//! \~russian Возвращает полный ключ аргумента "name" или пустую строку, если аргумента нет.
 	PIString argumentFullKey(const PIString & name);
 	const PIString & shortKeyPrefix() const { return _prefix_short; }
 	const PIString & fullKeyPrefix() const { return _prefix_full; }
 	int mandatoryArgumentsCount() const { return _count_mand; }
 	int optionalArgumentsCount() const { return _count_opt; }
 	void setShortKeyPrefix(const PIString & prefix);
 	void setFullKeyPrefix(const PIString & prefix);
 	void setMandatoryArgumentsCount(const int count);
 	void setOptionalArgumentsCount(const int count);
 	bool debug() const { return debug_; }
 	void setDebug(bool debug) { debug_ = debug; }
 	PIConstChars className() const { return "PICLI"; }
 	PIString name() const { return PIStringAscii("CLI"); }
 private:
 	struct Argument {
 		Argument() {}
 		Argument(const PIString & n, const PIChar & s, const PIString & f, bool v) {
 			name      = n;
 			short_key = s;
 			full_key  = f;
 			has_value = v;
 		}
 		PIString name;
 		PIChar short_key;
 		PIString full_key;
 		PIString value;
 		bool has_value = false, found = false;
 	};
 	void parse();
 	PIString _prefix_short = "-", _prefix_full = "--";
 	PIStringList _args_raw, _args_mand, _args_opt;
 	PISet<PIString> keys_full, keys_short;
 	PIVector<Argument> _args;
 	int _count_mand = 0, _count_opt = 0;
 	bool needParse = true, debug_ = true;
 };
 #endif // PICLI_H
--- a/libs/main/application/pilog.cpp
+++ b/libs/main/application/pilog.cpp
@@ -0,0 +1,195 @@
 /*
    PIP - Platform Independent Primitives
 	High-level log
    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 "pilog.h"
 #include "pidir.h"
 #include "piliterals_string.h"
 #include "piliterals_time.h"
 #include "pitime.h"
 //! \class PILog pilog.h
 //! \details
 //! \~english \section PILog_sec0 Synopsis
 //! \~russian \section PILog_sec0 Краткий обзор
 //! \~english
 //! This class provides log with optional file and console output.
 //!
 //! \~russian
 //! Этот класс предоставляет лог с опциональным выводом в файл и консоль.
 //!
 PILog::PILog(): PIThread(), log_ts(&log_file) {
 	setName("PILog");
 	split_time       = 8_h;
 	timestamp_format = "yyyy-MM-dd hh:mm:ss.zzz";
 	setLineFormat("t - c: m");
 	id_by_cat[Level::Info]    = PICout::registerExternalBufferID();
 	id_by_cat[Level::Debug]   = PICout::registerExternalBufferID();
 	id_by_cat[Level::Warning] = PICout::registerExternalBufferID();
 	id_by_cat[Level::Error]   = PICout::registerExternalBufferID();
 	CONNECTU(PICout::Notifier::object(), finished, this, coutDone);
 }
 PILog::~PILog() {
 	stop();
 }
 void PILog::setDir(const PIString & d) {
 	stopAndWait();
 	log_dir = d;
 	if (output[File]) {
 		PIDir::make(log_dir);
 		newFile();
 	}
 	start();
 }
 void PILog::setLineFormat(const PIString & f) {
 	line_format   = f;
 	line_format_p = line_format;
 	line_format_p.replace("t", "${t}").replace("c", "${c}").replace("m", "${m}");
 }
 void PILog::setLevel(Level l) {
 	max_level = l;
 }
 PICout PILog::error(PIObject * context) {
 	return makePICout(context, Level::Error);
 }
 PICout PILog::warning(PIObject * context) {
 	return makePICout(context, Level::Warning);
 }
 PICout PILog::info(PIObject * context) {
 	return makePICout(context, Level::Info);
 }
 PICout PILog::debug(PIObject * context) {
 	return makePICout(context, Level::Debug);
 }
 void PILog::stop() {
 	while (true) {
 		log_mutex.lock();
 		bool done = queue.isEmpty();
 		log_mutex.unlock();
 		if (done) break;
 		piMinSleep();
 	}
 	PIThread::stopAndWait();
 }
 void PILog::coutDone(int id, PIString * buffer) {
 	if (!buffer) return;
 	if (!id_by_cat.containsValue(id)) return;
 	auto cat = id_by_cat.key(id, PILog::Level::Debug);
 	if (cat > max_level) return;
 	enqueue(*buffer, cat);
 	delete buffer;
 }
 PICout PILog::makePICout(PIObject * context, Level cat) {
 	auto buffer = new PIString();
 	if (context) {
 		*buffer = "["_a + context->className();
 		if (context->name().isNotEmpty()) *buffer += " \"" + context->name() + "\"";
 		*buffer += "] ";
 	}
 	return PICout::withExternalBuffer(buffer, id_by_cat.value(cat), PICoutManipulators::AddSpaces);
 }
 void PILog::enqueue(const PIString & msg, Level cat) {
 	auto t = PIDateTime::fromSystemTime(PISystemTime::current());
 	PIMutexLocker ml(log_mutex);
 	queue.enqueue({cat, t, msg});
 }
 PIString PILog::entryToString(const Entry & e) const {
 	static PIStringList categories{"error", "warn ", "info ", "debug"};
 	PIString t   = e.time.toString(timestamp_format);
 	PIString ret = line_format_p;
 	ret.replace("${t}", t).replace("${c}", categories[static_cast<int>(e.cat)]).replace("${m}", e.msg);
 	return ret;
 }
 void PILog::newFile() {
 	PIString aname = log_name;
 	if (aname.isNotEmpty()) aname += "__";
 	log_file.open(log_dir + "/" + aname + PIDateTime::current().toString("yyyy_MM_dd__hh_mm_ss") + ".log." +
 					  PIString::fromNumber(++part_number),
 				  PIIODevice::ReadWrite);
 }
 void PILog::run() {
 	if (output[File]) {
 		if (split_tm.elapsed() >= split_time) {
 			split_tm.reset();
 			newFile();
 		}
 	}
 	log_mutex.lock();
 	if (queue.isEmpty()) {
 		log_mutex.unlock();
 		piMSleep(20);
 		return;
 	}
 	log_mutex.unlock();
 	while (true) {
 		log_mutex.lock();
 		if (queue.isEmpty()) {
 			log_mutex.unlock();
 			return;
 		}
 		auto qi = queue.dequeue();
 		log_mutex.unlock();
 		auto str = entryToString(qi);
 		if (log_file.isOpened()) log_ts << str << "\n";
 		if (output[Console]) {
 			PICout out(qi.cat == Level::Error ? piCerr : piCout);
 			if (color_console) {
 				switch (qi.cat) {
 				case Level::Error: out << PICoutManipulators::Red; break;
 				case Level::Warning: out << PICoutManipulators::Yellow; break;
 				default: break;
 				}
 			}
 			out << str;
 		}
 	}
 }
--- a/libs/main/application/pilog.h
+++ b/libs/main/application/pilog.h
@@ -0,0 +1,177 @@
 /*! \file pilog.h
 * \ingroup Application
 * \~\brief
 * \~english High-level log
 * \~russian Высокоуровневый лог
 */
 /*
    PIP - Platform Independent Primitives
 	High-level log
    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 PIlog_H
 #define PIlog_H
 #include "pifile.h"
 #include "piiostream.h"
 #include "pithread.h"
 //! \ingroup Application
 //! \~\brief
 //! \~english High-level log
 //! \~russian Высокоуровневый лог
 class PIP_EXPORT PILog: public PIThread {
 	PIOBJECT_SUBCLASS(PILog, PIThread)
 public:
 	PILog();
 	~PILog();
 	//! \~english Message category
 	//! \~russian Категория сообщения
 	enum class Level {
 		Error /** \~english Error   \~russian Ошибка */,
 		Warning /** \~english Warning \~russian Предупреждение */,
 		Info /** \~english Information    \~russian Информация */,
 		Debug /** \~english Debug   \~russian Отладка */,
 	};
 	//! \~english Output channel
 	//! \~russian Канал вывода
 	enum Output {
 		File /** \~english File \~russian Файл */          = 0x1,
 		Console /** \~english Console \~russian Консоль */ = 0x2,
 		All /** \~english All \~russian Все */             = 0xFF,
 	};
 	//! \~english Set output channel \"o\" to \"on\".
 	//! \~russian Установить канал вывода \"o\" в \"on\".
 	void setOutput(Output o, bool on = true) { output.setFlag(o, on); }
 	//! \~english Returns prefix for filename.
 	//! \~russian Возвращает префикс имени файла.
 	PIString logName() const { return log_name; }
 	//! \~english Set prefix for filename. Should be set \b before \a setDir()!
 	//! \~russian Устанавливает префикс имени файла. Должен быть установлен \b до вызова \a setDir()!
 	void setLogName(const PIString & n) { log_name = n; }
 	//! \~english Returns if color for console output enabled.
 	//! \~russian Возвращает использовать ли цвет для вывода в консоль.
 	bool colorConsole() const { return color_console; }
 	//! \~english Set color for console output enabled. True by default.
 	//! \~russian Устанавливает использовать ли цвет для вывода в консоль. Включено по умолчанию.
 	void setColorConsole(bool yes) { color_console = yes; }
 	//! \~english Returns directory for log files.
 	//! \~russian Возвращает директорию для файлов.
 	PIString dir() const { return log_dir; }
 	//! \~english Set directory for log files. Should be set \b after \a setApplicationName()!
 	//! \~russian Устанавливает директорию для файлов. Должна быть установлена \b после вызова \a setApplicationName()!
 	void setDir(const PIString & d);
 	//! \~english Returns lifetime for file.
 	//! \~russian Возвращает время жизни файла.
 	PISystemTime fileSplitTime() const { return split_time; }
 	//! \~english Set lifetime for file. Each "st" interval new file will be created.
 	//! \~russian Устанавливает время жизни файла. Каждый интервал "st" будет создан новый файл.
 	void setFileSplitTime(PISystemTime st) { split_time = st; }
 	//! \~english Returns timestamp format for line.
 	//! \~russian Возвращает формат метки времени для строки.
 	PIString timestampFormat() const { return timestamp_format; }
 	//! \~english Set timestamp format for line. Default is "yyyy-MM-dd hh:mm:ss.zzz".
 	//! \~russian Устанавливает формат метки времени для строки. По умолчанию "yyyy-MM-dd hh:mm:ss.zzz".
 	void setTimestampFormat(const PIString & f) { timestamp_format = f; }
 	//! \~english Returns line format.
 	//! \~russian Возвращает формат строки.
 	PIString lineFormat() const { return line_format; }
 	//! \~english Set line format. "t" is timestamp, "c" is category and "m" is message. Default is "t - c: m".
 	//! \~russian Устанавливает формат строки. "t" - метка времени, "c" - категория и "m" - сообщение. По умолчанию "t - c: m".
 	void setLineFormat(const PIString & f);
 	//! \~english Returns maximum level.
 	//! \~russian Возвращает максимальную категорию.
 	Level level() const { return max_level; }
 	//! \~english Set maximum level. All levels greater than \"l\" will be ignored. Default is \a Level::Debug.
 	//! \~russian Устанавливает максимальную категорию. Все сообщения с большей категорией, чем \"l\", будут игнорироваться. По умолчанию \a
 	//! Level::Debug.
 	void setLevel(Level l);
 	//! \~english Returns \a PICout for \a Level::Error level.
 	//! \~russian Возвращает \a PICout для категории \a Level::Error.
 	PICout error(PIObject * context = nullptr);
 	//! \~english Returns \a PICout for \a Level::Warning level.
 	//! \~russian Возвращает \a PICout для категории \a Level::Warning.
 	PICout warning(PIObject * context = nullptr);
 	//! \~english Returns \a PICout for \a Level::Info level.
 	//! \~russian Возвращает \a PICout для категории \a Level::Info.
 	PICout info(PIObject * context = nullptr);
 	//! \~english Returns \a PICout for \a Level::Debug level.
 	//! \~russian Возвращает \a PICout для категории \a Level::Debug.
 	PICout debug(PIObject * context = nullptr);
 	//! \~english Write all queued lines and stop. Also called in destructor.
 	//! \~russian Записывает все строки из очереди и останавливается. Также вызывается в деструкторе.
 	void stop();
 private:
 	EVENT_HANDLER2(void, coutDone, int, id, PIString *, buff);
 	PICout makePICout(PIObject * context, Level cat);
 	void enqueue(const PIString & msg, Level cat = Level::Debug);
 	struct Entry {
 		Level cat;
 		PIDateTime time;
 		PIString msg;
 	};
 	PIString entryToString(const Entry & e) const;
 	void newFile();
 	void run() override;
 	PIMutex log_mutex;
 	PIFile log_file;
 	PIIOTextStream log_ts;
 	PITimeMeasurer split_tm;
 	PISystemTime split_time;
 	PIString log_dir, timestamp_format, line_format, line_format_p, log_name;
 	PIQueue<Entry> queue;
 	PIMap<Level, int> id_by_cat;
 	Level max_level        = Level::Debug;
 	PIFlags<Output> output = All;
 	bool color_console     = true;
 	int part_number = -1, cout_id = -1;
 };
 #endif
--- a/libs/main/application/pisingleapplication.cpp
+++ b/libs/main/application/pisingleapplication.cpp
@@ -18,7 +18,11 @@
 */
 #include "pisingleapplication.h"
 #include "piliterals_bytes.h"
 #include "piliterals_time.h"
 #include "pisharedmemory.h"
 #include "pitime.h"
 //! \class PISingleApplication pisingleapplication.h
@@ -60,7 +64,7 @@
 //!
-#define SHM_SIZE 1024*32
+#define SHM_SIZE 32_KiB
 PISingleApplication::PISingleApplication(const PIString & app_name): PIThread() {
@@ -68,14 +72,13 @@ PISingleApplication::PISingleApplication(const PIString & app_name): PIThread()
 	started = false;
 	sacnt   = 0;
 	shm     = new PISharedMemory("sa_" + app_name, SHM_SIZE);
-	start(100);
+	start(10_Hz);
 }
 PISingleApplication::~PISingleApplication() {
 	stop();
-	if (!waitForFinish(5000))
+	if (!waitForFinish(5_s)) terminate();
 		terminate();
 	delete shm;
 }
@@ -113,7 +116,7 @@ void PISingleApplication::begin() {
 		}
 		piMSleep(100);
 	}
-	//piCoutObj << "started" << first << shm->size();
+	// piCoutObj << "started" << first << shm->size();
 	readed.reserve(shm->size());
 	started = true;
 }
@@ -124,7 +127,7 @@ void PISingleApplication::run() {
 	++sacnt;
 	int st_[2] = {sacnt, sacnt};
 	shm->write(st_, 8);
-	//piCoutObj << "write" << sacnt;
+	// piCoutObj << "write" << sacnt;
 	int ri[3]        = {0, 0, 0};
 	const int hdr_sz = sizeof(int) * 3;
 	shm->read(ri, hdr_sz);
@@ -133,9 +136,9 @@ void PISingleApplication::run() {
 		shm->read(readed.data(), readed.size(), hdr_sz);
 		PIByteArray msg;
 		readed >> msg;
-		if (!msg.isEmpty()) {
+		if (msg.isNotEmpty()) {
 			messageReceived(msg);
-			//piCoutObj << "message" << msg;
+			// piCoutObj << "message" << msg;
 		}
 		int wi[3] = {sacnt, sacnt, 0};
 		shm->write(wi, 12);
--- a/libs/main/application/pisingleapplication.h
+++ b/libs/main/application/pisingleapplication.h
@@ -1,5 +1,5 @@
 /*! \file pisingleapplication.h
- * \ingroup System
+ * \ingroup Application
 * \~\brief
 * \~english Single-instance application control
 * \~russian Контроль одного экземпляра приложения
@@ -30,14 +30,14 @@
 class PISharedMemory;
-//! \ingroup System
+//! \ingroup Application
 //! \~\brief
 //! \~english Single-instance application control.
 //! \~russian Контроль одного экземпляра приложения.
 class PIP_EXPORT PISingleApplication: public PIThread {
-	PIOBJECT_SUBCLASS(PISingleApplication, PIThread)
+	PIOBJECT_SUBCLASS(PISingleApplication, PIThread);
 public:
 public:
 	//! \~english Construct %PISingleApplication with name "app_name"
 	//! \~russian Создает %PISingleApplication с именем "app_name"
 	PISingleApplication(const PIString & app_name = PIString());
@@ -50,30 +50,30 @@ public:
 	bool isFirst() const;
 	EVENT_HANDLER1(void, sendMessage, const PIByteArray &, m);
-	EVENT1(messageReceived, PIByteArray, m)
+	EVENT1(messageReceived, PIByteArray, m);
-//! \handlers
+	//! \handlers
-//! \{
+	//! \{
 	//! \fn void sendMessage(const PIByteArray & m)
 	//! \brief
 	//! \~english Send message "m" to first launched application
 	//! \~russian Посылает сообщение "m" первому запущеному приложению
-//! \}
+	//! \}
-//! \events
+	//! \events
-//! \{
+	//! \{
 	//! \fn void messageReceived(PIByteArray m)
 	//! \brief
 	//! \~english Raise on first launched application receive message from another
 	//! \~russian Вызывается первым запущеным приложением по приему сообщения от других
-//! \}
+	//! \}
 private:
-	void begin();
+	void begin() override;
-	void run();
+	void run() override;
 	void waitFirst() const;
 	PISharedMemory * shm;
@@ -81,7 +81,6 @@ private:
 	PIByteArray readed;
 	bool first, started;
 	int sacnt;
 };
 #endif // PISINGLEAPPLICATION_H
--- a/libs/main/application/pisystemmonitor.cpp
+++ b/libs/main/application/pisystemmonitor.cpp
@@ -17,18 +17,21 @@
    along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */
 #include "piincludes_p.h"
 #include "pisystemmonitor.h"
-#include "pisysteminfo.h"
+
-#include "piprocess.h"
+#include <unistd.h>
 #include "pidir.h"
 #include "piliterals_string.h"
 #include "piprocess.h"
 #include "pisysteminfo.h"
 #include "pitime_win.h"
 #ifdef WINDOWS
 #  include <psapi.h>
 #  include <tlhelp32.h>
 #endif
 #ifdef MAC_OS
-   struct kqueue_id_t;
+struct kqueue_id_t;
 #  include <libproc.h>
 #  include <sys/proc_info.h>
 #endif
@@ -48,21 +51,22 @@ void PISystemMonitor::ProcessStats::makeStrings() {
 #ifndef MICRO_PIP
 PRIVATE_DEFINITION_START(PISystemMonitor)
-#ifndef WINDOWS
+#  ifndef WINDOWS
 #	ifdef MAC_OS
 	PISystemTime
 #	else
 	llong
 #	endif
-				cpu_u_cur, cpu_u_prev, cpu_s_cur, cpu_s_prev;
+		cpu_u_cur,
 		cpu_u_prev, cpu_s_cur, cpu_s_prev;
 	PIString proc_dir;
 	PIFile file, filem;
-#else
+#  else
 	HANDLE hProc;
 	PROCESS_MEMORY_COUNTERS mem_cnt;
 	PISystemTime tm_kernel, tm_user;
 	PITimeMeasurer tm;
-#endif
+#  endif
 PRIVATE_DEFINITION_END(PISystemMonitor)
 #endif
@@ -71,18 +75,18 @@ PISystemMonitor::PISystemMonitor(): PIThread() {
 	pID_ = cycle = 0;
 	cpu_count    = PISystemInfo::instance()->processorsCount;
 #ifndef MICRO_PIP
-#ifndef WINDOWS
+#  ifndef WINDOWS
 #	ifdef QNX
 	page_size = 4096;
 #	else
 	page_size = getpagesize();
 #	endif
-#else
+#  else
 	PRIVATE->hProc      = 0;
 	PRIVATE->mem_cnt.cb = sizeof(PRIVATE->mem_cnt);
 #  endif
 #endif
-#endif
+	setName("system_monitor"_a);
 	setName("system_monitor");
 }
@@ -92,40 +96,40 @@ PISystemMonitor::~PISystemMonitor() {
 #ifndef MICRO_PIP
-bool PISystemMonitor::startOnProcess(int pID, int interval_ms) {
+bool PISystemMonitor::startOnProcess(int pID, PISystemTime interval) {
 	stop();
 	pID_ = pID;
 	Pool::instance()->add(this);
 	cycle = -1;
-#ifndef WINDOWS
+#  ifndef WINDOWS
 #	ifndef MAC_OS
 	PRIVATE->proc_dir = PIStringAscii("/proc/") + PIString::fromNumber(pID_) + PIStringAscii("/");
-	PRIVATE->file. open(PRIVATE->proc_dir + "stat",  PIIODevice::ReadOnly);
+	PRIVATE->file.open(PRIVATE->proc_dir + "stat", PIIODevice::ReadOnly);
 	PRIVATE->filem.open(PRIVATE->proc_dir + "statm", PIIODevice::ReadOnly);
 	if (!PRIVATE->file.isOpened()) {
 		piCoutObj << "Can`t find process with ID = " << pID_ << "!";
 		return false;
 	}
 #	endif
-#else
+#  else
 	PRIVATE->hProc      = OpenProcess(PROCESS_QUERY_INFORMATION | PROCESS_VM_READ, FALSE, pID_);
 	if (PRIVATE->hProc == 0) {
 		piCoutObj << "Can`t open process with ID = " << pID_ << "," << errorString();
 		return false;
 	}
 	PRIVATE->tm.reset();
-#endif
+#  endif
-	return start(interval_ms);
+	return start(interval);
 }
 #endif
-bool PISystemMonitor::startOnSelf(int interval_ms) {
+bool PISystemMonitor::startOnSelf(PISystemTime interval) {
 #ifndef MICRO_PIP
-	bool ret = startOnProcess(PIProcess::currentPID(), interval_ms);
+	bool ret = startOnProcess(PIProcess::currentPID(), interval);
 	cycle    = -1;
 #else
-	bool ret = start(interval_ms);
+	bool ret        = start(interval);
 #endif
 	return ret;
 }
@@ -147,7 +151,7 @@ void PISystemMonitor::setStatistic(const PISystemMonitor::ProcessStats & s) {
 void PISystemMonitor::stop() {
-	PIThread::stop();
+	PIThread::stopAndWait();
 #ifdef WINDOWS
 	if (PRIVATE->hProc != 0) {
 		CloseHandle(PRIVATE->hProc);
@@ -166,7 +170,7 @@ PISystemMonitor::ProcessStats PISystemMonitor::statistic() const {
 #ifdef MAC_OS
 PISystemTime uint64toST(uint64_t v) {
-	return PISystemTime(((uint*)&(v))[1], ((uint*)&(v))[0]);
+	return PISystemTime(((uint *)&(v))[1], ((uint *)&(v))[0]);
 }
 #endif
@@ -175,25 +179,24 @@ void PISystemMonitor::run() {
 	tbid.clear();
 	__PIThreadCollection * pitc = __PIThreadCollection::instance();
 	pitc->lock();
-	PIVector<PIThread * > tv = pitc->threads();
+	PIVector<PIThread *> tv = pitc->threads();
-	piForeach (PIThread * t, tv)
+	piForeach(PIThread * t, tv)
-		if (t->isPIObject())
+		if (t->isPIObject()) tbid[t->tid()] = t->name();
 			tbid[t->tid()] = t->name();
 	pitc->unlock();
-	//piCout << tbid.keys().toType<uint>();
+	// piCout << tbid.keys().toType<uint>();
 	ProcessStats tstat;
 	tstat.ID = pID_;
 #ifdef MICRO_PIP
-	piForeach (PIThread * t, tv)
+	piForeach(PIThread * t, tv)
-		if (t->isPIObject())
+		if (t->isPIObject()) gatherThread(t->tid());
 			gatherThread(t->tid());
 #else
-#ifndef WINDOWS
+#  ifndef WINDOWS
 	double delay_ms = delay_.toMilliseconds();
 	tbid[pID_]      = "main";
 #	ifdef MAC_OS
 	rusage_info_current ru;
-	proc_pid_rusage(pID_, RUSAGE_INFO_CURRENT, (rusage_info_t*)&ru);
+	proc_pid_rusage(pID_, RUSAGE_INFO_CURRENT, (rusage_info_t *)&ru);
-	//piCout << PISystemTime(((uint*)&(ru.ri_user_time))[1], ((uint*)&(ru.ri_user_time))[0]);
+	// piCout << PISystemTime(((uint*)&(ru.ri_user_time))[1], ((uint*)&(ru.ri_user_time))[0]);
 	if (cycle < 0) {
 		PRIVATE->cpu_u_prev = PRIVATE->cpu_u_cur = uint64toST(ru.ri_user_time);
 		PRIVATE->cpu_s_prev = PRIVATE->cpu_s_cur = uint64toST(ru.ri_system_time);
@@ -202,13 +205,13 @@ void PISystemMonitor::run() {
 	PRIVATE->cpu_s_prev   = PRIVATE->cpu_s_cur;
 	PRIVATE->cpu_u_cur    = uint64toST(ru.ri_user_time);
 	PRIVATE->cpu_s_cur    = uint64toST(ru.ri_system_time);
-	tstat.cpu_load_system = 100.f * (PRIVATE->cpu_s_cur - PRIVATE->cpu_s_prev).toMilliseconds() / delay_;
+	tstat.cpu_load_system = 100.f * (PRIVATE->cpu_s_cur - PRIVATE->cpu_s_prev).toMilliseconds() / delay_ms;
-	tstat.cpu_load_user = 100.f * (PRIVATE->cpu_u_cur - PRIVATE->cpu_u_prev).toMilliseconds() / delay_;
+	tstat.cpu_load_user   = 100.f * (PRIVATE->cpu_u_cur - PRIVATE->cpu_u_prev).toMilliseconds() / delay_ms;
 	cycle                 = 0;
-	//piCout << (PRIVATE->cpu_u_cur - PRIVATE->cpu_u_prev).toMilliseconds() / delay_;
+	// piCout << (PRIVATE->cpu_u_cur - PRIVATE->cpu_u_prev).toMilliseconds() / delay_ms;
 #	else
 	PRIVATE->file.seekToBegin();
-	PIString str(PRIVATE->file.readAll(true));
+	PIString str = PIString::fromAscii(PRIVATE->file.readAll(true));
 	int si = str.find('(') + 1, fi = 0, cc = 1;
 	for (int i = si; i < str.size_s(); ++i) {
 		if (str[i] == '(') cc++;
@@ -235,18 +238,18 @@ void PISystemMonitor::run() {
 	PRIVATE->cpu_s_prev   = PRIVATE->cpu_s_cur;
 	PRIVATE->cpu_u_cur    = sl[12].toLLong();
 	PRIVATE->cpu_s_cur    = sl[13].toLLong();
-	tstat.cpu_load_system = (PRIVATE->cpu_s_cur - PRIVATE->cpu_s_prev) / (delay_ / 1000.);
+	tstat.cpu_load_system = (PRIVATE->cpu_s_cur - PRIVATE->cpu_s_prev) / (delay_ms / 1000.);
-	tstat.cpu_load_user = (PRIVATE->cpu_u_cur - PRIVATE->cpu_u_prev) / (delay_ / 1000.);
+	tstat.cpu_load_user   = (PRIVATE->cpu_u_cur - PRIVATE->cpu_u_prev) / (delay_ms / 1000.);
 	tstat.cpu_load_system /= cpu_count;
 	tstat.cpu_load_user /= cpu_count;
 	cycle          = 0;
 	tstat.priority = sl[16].toInt();
 	tstat.threads  = sl[18].toInt();
-	//piCout << "\n";
+	// piCout << "\n";
-	//piCout << sl[0] << sl[12] << sl[13];
+	// piCout << sl[0] << sl[12] << sl[13];
 	PRIVATE->filem.seekToBegin();
-	str = PRIVATE->filem.readAll(true);
+	str = PIString::fromAscii(PRIVATE->filem.readAll(true));
 	sl  = str.split(" ");
 	if (sl.size_s() < 6) return;
 	tstat.virtual_memsize          = sl[0].toLong() * page_size;
@@ -256,13 +259,12 @@ void PISystemMonitor::run() {
 	tstat.physical_memsize         = tstat.resident_memsize - tstat.share_memsize;
 	PIVector<PIFile::FileInfo> tld = PIDir(PRIVATE->proc_dir + "task").entries();
-	piForeachC (PIFile::FileInfo & i, tld) {
+	piForeachC(PIFile::FileInfo & i, tld) {
-		if (i.flags[PIFile::FileInfo::Dot] || i.flags[PIFile::FileInfo::DotDot])
+		if (i.flags[PIFile::FileInfo::Dot] || i.flags[PIFile::FileInfo::DotDot]) continue;
 			continue;
 		gatherThread(i.name().toInt());
 	}
 #	endif
-#else
+#  else
 	if (GetProcessMemoryInfo(PRIVATE->hProc, &PRIVATE->mem_cnt, sizeof(PRIVATE->mem_cnt)) != 0) {
 		tstat.physical_memsize = PRIVATE->mem_cnt.WorkingSetSize;
 	}
@@ -282,7 +284,7 @@ void PISystemMonitor::run() {
 					++thcnt;
 					gatherThread(thread.th32ThreadID);
 				}
-				//piCout << thread.th32ThreadID;
+				// piCout << thread.th32ThreadID;
 			}
 		}
 		tstat.threads = thcnt;
@@ -312,20 +314,20 @@ void PISystemMonitor::run() {
 		tstat.cpu_load_user   = 0.f;
 	}
 	PRIVATE->tm.reset();
-#endif
+#  endif
 #endif
 	tstat.cpu_load_system = piClampf(tstat.cpu_load_system, 0.f, 100.f);
-	tstat.cpu_load_user   = piClampf(tstat.cpu_load_user  , 0.f, 100.f);
+	tstat.cpu_load_user   = piClampf(tstat.cpu_load_user, 0.f, 100.f);
 	auto i                = cur_tm.makeIterator();
 	while (i.next()) {
 		if (!last_tm.contains(i.key())) continue;
-		ThreadStats & ts_new(i.valueRef());
+		ThreadStats & ts_new(i.value());
 		ThreadStats & ts_old(last_tm[i.key()]);
 		ts_new.cpu_load_kernel = calcThreadUsage(ts_new.kernel_time, ts_old.kernel_time);
 		ts_new.cpu_load_user   = calcThreadUsage(ts_new.user_time, ts_old.user_time);
-		//piCout << ts_new.cpu_load_user;
+		// piCout << ts_new.cpu_load_user;
 	}
 	last_tm = cur_tm;
 	lock();
@@ -351,10 +353,9 @@ void PISystemMonitor::gatherThread(llong id) {
 	ts.name               = tbid.value(id, "<non-PIThread>");
 #  ifndef WINDOWS
 	PIFile f(PRIVATE->proc_dir + "task/" + PIString::fromNumber(id) + "/stat");
-	//piCout << f.path();
+	// piCout << f.path();
-	if (!f.open(PIIODevice::ReadOnly))
+	if (!f.open(PIIODevice::ReadOnly)) return;
-		return;
+	PIString str = PIString::fromAscii(f.readAll(true));
 	PIString str = f.readAll(true);
 	int si = str.find('(') + 1, fi = 0, cc = 1;
 	for (int i = si; i < str.size_s(); ++i) {
 		if (str[i] == '(') cc++;
@@ -367,7 +368,7 @@ void PISystemMonitor::gatherThread(llong id) {
 	str.cutMid(si - 1, fi - si + 3);
 	PIStringList sl = str.split(" ");
 	if (sl.size_s() < 14) return;
-	//piCout << sl[0] << sl[12] << sl[13];
+	// piCout << sl[0] << sl[12] << sl[13];
 	ts.user_time   = PISystemTime::fromMilliseconds(sl[12].toInt() * 10.);
 	ts.kernel_time = PISystemTime::fromMilliseconds(sl[13].toInt() * 10.);
 #  else
@@ -395,8 +396,8 @@ void PISystemMonitor::gatherThread(llong id) {
 float PISystemMonitor::calcThreadUsage(PISystemTime & t_new, PISystemTime & t_old) {
-	if (delay_ <= 0) return -1.;
+	if (delay_.isNull()) return -1.;
-	return piClampf(100. * ((t_new - t_old).toMilliseconds() / delay_), 0.f, 100.f);
+	return piClampf(100. * ((t_new - t_old).toMilliseconds() / delay_.toMilliseconds()), 0.f, 100.f);
 }
@@ -433,8 +434,6 @@ ullong PISystemMonitor::usedRAM() {
 }
 PISystemMonitor::Pool * PISystemMonitor::Pool::instance() {
 	static Pool ret;
 	return &ret;
@@ -457,34 +456,3 @@ void PISystemMonitor::Pool::remove(PISystemMonitor * sm) {
 	PIMutexLocker _ml(mutex);
 	sysmons.remove(sm->pID());
 }
 PIByteArray & operator <<(PIByteArray & s, const PISystemMonitor::ProcessStats & v) {
 	s << PIByteArray::RawData(&v, sizeof(PISystemMonitor::ProcessStatsFixed))
 	  << v.exec_name << v.state;
 	return s;
 }
 PIByteArray & operator >>(PIByteArray & s, PISystemMonitor::ProcessStats & v) {
 	s >> PIByteArray::RawData(&v, sizeof(PISystemMonitor::ProcessStatsFixed))
 	  >> v.exec_name >> v.state;
 	v.makeStrings();
 	return s;
 }
 PIByteArray & operator <<(PIByteArray & s, const PISystemMonitor::ThreadStats & v) {
 	s << PIByteArray::RawData(&v, sizeof(PISystemMonitor::ThreadStatsFixed))
 	  << v.name;
 	return s;
 }
 PIByteArray & operator >>(PIByteArray & s, PISystemMonitor::ThreadStats & v) {
 	s >> PIByteArray::RawData(&v, sizeof(PISystemMonitor::ThreadStatsFixed))
 	  >> v.name;
 	return s;
 }
--- a/libs/main/application/pisystemmonitor.h
+++ b/libs/main/application/pisystemmonitor.h
@@ -1,5 +1,5 @@
 /*! \file pisystemmonitor.h
- * \ingroup System
+ * \ingroup Application
 * \~\brief
 * \~english System resources monitoring
 * \~russian Мониторинг ресурсов системы
@@ -26,17 +26,18 @@
 #ifndef PISYSTEMMONITOR_H
 #define PISYSTEMMONITOR_H
 #include "pithread.h"
 #include "pifile.h"
 #include "pithread.h"
-//! \ingroup System
+//! \ingroup Application
 //! \~\brief
 //! \~english Process monitoring.
 //! \~russian Мониторинг процесса.
 class PIP_EXPORT PISystemMonitor: public PIThread {
-	PIOBJECT_SUBCLASS(PISystemMonitor, PIThread)
+	PIOBJECT_SUBCLASS(PISystemMonitor, PIThread);
 	friend class PIIntrospectionServer;
 public:
 	//! \~english Constructs unassigned %PISystemMonitor
 	//! \~russian Создает непривязанный %PISystemMonitor
@@ -45,12 +46,11 @@ public:
 	~PISystemMonitor();
 #pragma pack(push, 1)
-	//! \ingroup System
+	//! \ingroup Application
 	//! \~\brief
 	//! \~english Process statistics (fixed-size fields).
 	//! \~russian Статистика процесса (фиксированные поля).
 	struct PIP_EXPORT ProcessStatsFixed {
 		//! \~english PID
 		//! \~russian PID
 		int ID                  = 0;
@@ -116,12 +116,11 @@ public:
 		float cpu_load_user     = 0.f;
 	};
-	//! \ingroup System
+	//! \ingroup Application
 	//! \~\brief
 	//! \~english Thread statistics (fixed-size fields).
 	//! \~russian Статистика потока (фиксированные поля).
 	struct PIP_EXPORT ThreadStatsFixed {
 		//! \~english TID
 		//! \~russian TID
 		llong id = 0;
@@ -152,12 +151,11 @@ public:
 	};
 #pragma pack(pop)
-	//! \ingroup System
+	//! \ingroup Application
 	//! \~\brief
 	//! \~english Process statistics.
 	//! \~russian Статистика процесса.
 	struct PIP_EXPORT ProcessStats: ProcessStatsFixed {
 		//! \~english Fill human-readable fields
 		//! \~russian Заполнить читаемые поля
 		void makeStrings();
@@ -191,12 +189,11 @@ public:
 		PIString data_memsize_readable;
 	};
-	//! \ingroup System
+	//! \ingroup Application
 	//! \~\brief
 	//! \~english Thread statistics.
 	//! \~russian Статистика потока.
 	struct PIP_EXPORT ThreadStats: ThreadStatsFixed {
 		//! \~english Name
 		//! \~russian Имя
 		PIString name;
@@ -206,12 +203,12 @@ public:
 	//! \~english Starts monitoring of process with PID "pID" and update interval "interval_ms" milliseconds
 	//! \~russian Начинает мониторинг процесса с PID "pID" и интервалом обновления "interval_ms" миллисекунд
-	bool startOnProcess(int pID, int interval_ms = 1000);
+	bool startOnProcess(int pID, PISystemTime interval = PISystemTime::fromSeconds(1.));
 #endif
 	//! \~english Starts monitoring of application process with update interval "interval_ms" milliseconds
 	//! \~russian Начинает мониторинг процесса приложения с интервалом обновления "interval_ms" миллисекунд
-	bool startOnSelf(int interval_ms = 1000);
+	bool startOnSelf(PISystemTime interval = PISystemTime::fromSeconds(1.));
 	//! \~english Stop monitoring
 	//! \~russian Останавливает мониторинг
@@ -220,7 +217,7 @@ public:
 	//! \~english Returns monitoring process PID
 	//! \~russian Возвращает PID наблюдаемого процесса
-	int pID() const {return pID_;}
+	int pID() const { return pID_; }
 	//! \~english Returns monitoring process statistics
 	//! \~russian Возвращает статистику наблюдаемого процесса
@@ -247,7 +244,7 @@ public:
 private:
-	void run();
+	void run() override;
 	void gatherThread(llong id);
 	float calcThreadUsage(PISystemTime & t_new, PISystemTime & t_old);
@@ -263,52 +260,64 @@ private:
 	class PIP_EXPORT Pool {
 		friend class PISystemMonitor;
 	public:
 		static Pool * instance();
 		PISystemMonitor * getByPID(int pID);
 	private:
 		void add(PISystemMonitor * sm);
 		void remove(PISystemMonitor * sm);
-		PIMap<int, PISystemMonitor*> sysmons;
+		PIMap<int, PISystemMonitor *> sysmons;
 		PIMutex mutex;
 	};
 };
 //! \relatesalso PICout
 //! \~english Output operator to \a PICout
 //! \~russian Оператор вывода в \a PICout
-inline PICout operator <<(PICout s, const PISystemMonitor::ThreadStats & v) {
+inline PICout operator<<(PICout s, const PISystemMonitor::ThreadStats & v) {
-	s.setControl(0, true);
+	s.saveAndSetControls(0);
-	s << "ThreadInfo(\"" << v.name << "\", created " << v.created
+	s << "ThreadInfo(\"" << v.name << "\", created " << v.created << ", work " << v.work_time.toMilliseconds() << " ms"
 	  << ", work " << v.work_time.toMilliseconds() << " ms"
 	  << ", kernel " << v.kernel_time.toMilliseconds() << " ms"
 	  << ", user " << v.user_time.toMilliseconds() << " ms"
 	  << ")\n";
-	s.restoreControl();
+	s.restoreControls();
 	return s;
 }
-//! \relatesalso PIByteArray
+//! \relatesalso PIBinaryStream
-//! \~english Store operator
+//! \~english Store operator.
-//! \~russian Оператор сохранения
+//! \~russian Оператор сохранения.
-PIP_EXPORT PIByteArray & operator <<(PIByteArray & s, const PISystemMonitor::ProcessStats & v);
+BINARY_STREAM_WRITE(PISystemMonitor::ProcessStats) {
 	s << PIMemoryBlock(&v, sizeof(PISystemMonitor::ProcessStatsFixed)) << v.exec_name << v.state;
 	return s;
 }
-//! \relatesalso PIByteArray
+//! \relatesalso PIBinaryStream
-//! \~english Restore operator
+//! \~english Restore operator.
-//! \~russian Оператор извлечения
+//! \~russian Оператор извлечения.
-PIP_EXPORT PIByteArray & operator >>(PIByteArray & s,       PISystemMonitor::ProcessStats & v);
+BINARY_STREAM_READ(PISystemMonitor::ProcessStats) {
 	s >> PIMemoryBlock(&v, sizeof(PISystemMonitor::ProcessStatsFixed)) >> v.exec_name >> v.state;
 	v.makeStrings();
 	return s;
 }
-//! \relatesalso PIByteArray
+//! \relatesalso PIBinaryStream
-//! \~english Store operator
+//! \~english Store operator.
-//! \~russian Оператор сохранения
+//! \~russian Оператор сохранения.
-PIP_EXPORT PIByteArray & operator <<(PIByteArray & s, const PISystemMonitor::ThreadStats & v);
+BINARY_STREAM_WRITE(PISystemMonitor::ThreadStats) {
 	s << PIMemoryBlock(&v, sizeof(PISystemMonitor::ThreadStatsFixed)) << v.name;
 	return s;
 }
-//! \relatesalso PIByteArray
+//! \relatesalso PIBinaryStream
-//! \~english Restore operator
+//! \~english Restore operator.
-//! \~russian Оператор извлечения
+//! \~russian Оператор извлечения.
-PIP_EXPORT PIByteArray & operator >>(PIByteArray & s,       PISystemMonitor::ThreadStats & v);
+BINARY_STREAM_READ(PISystemMonitor::ThreadStats) {
 	s >> PIMemoryBlock(&v, sizeof(PISystemMonitor::ThreadStatsFixed)) >> v.name;
 	return s;
 }
 #endif // PISYSTEMMONITOR_H
--- a/libs/main/client_server/piclientserver_client.h
+++ b/libs/main/client_server/piclientserver_client.h
@@ -0,0 +1,69 @@
 /*! \file piclientserver_client.h
 * \ingroup ClientServer
 * \~\brief
 * \~english
 * \~russian
 */
 /*
    PIP - Platform Independent Primitives
 	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 piclientserver_client_H
 #define piclientserver_client_H
 #include "piclientserver_client_base.h"
 namespace PIClientServer {
 // ServerClient
 class PIP_CLIENT_SERVER_EXPORT ServerClient: public ClientBase {
 	friend class Server;
 	NO_COPY_CLASS(ServerClient);
 public:
 	ServerClient() {}
 protected:
 	virtual void aboutDelete() {}
 private:
 	void createForServer(Server * parent, PIEthernet * tcp_);
 };
 // Client
 class PIP_CLIENT_SERVER_EXPORT Client: public ClientBase {
 	NO_COPY_CLASS(Client);
 public:
 	Client();
 	~Client();
 	void connect(PINetworkAddress addr);
 protected:
 private:
 };
 } // namespace PIClientServer
 #endif
--- a/libs/main/client_server/piclientserver_client_base.h
+++ b/libs/main/client_server/piclientserver_client_base.h
@@ -0,0 +1,86 @@
 /*! \file piclientserver_client_base.h
 * \ingroup ClientServer
 * \~\brief
 * \~english
 * \~russian
 */
 /*
    PIP - Platform Independent Primitives
 	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 piclientserver_client_base_H
 #define piclientserver_client_base_H
 #include "piclientserver_config.h"
 #include "pidiagnostics.h"
 #include "pip_client_server_export.h"
 #include "pistreampacker.h"
 class PIEthernet;
 namespace PIClientServer {
 class Server;
 class PIP_CLIENT_SERVER_EXPORT ClientBase {
 	friend class Config;
 	friend class Server;
 	NO_COPY_CLASS(ClientBase);
 public:
 	ClientBase();
 	virtual ~ClientBase();
 	const PIEthernet * getTCP() const { return tcp; }
 	void close();
 	void stopAndWait();
 	int write(const void * d, const size_t s);
 	int write(const PIByteArray & ba) { return write(ba.data(), ba.size()); }
 	void enableDiagnostics();
 	PIDiagnostics::State diagnostics() const;
 	int receivePacketProgress() const;
 	Config & configuration() { return config; }
 protected:
 	virtual void readed(PIByteArray data) {}
 	virtual void connected() {}
 	virtual void disconnected() {}
 	virtual void receivePacketStart(int size) {}
 	virtual void receivePacketEnd() {}
 	void init();
 	bool own_tcp               = false;
 	std::atomic_bool can_write = {true};
 	PIEthernet * tcp           = nullptr;
 	Config config;
 private:
 	void destroy();
 	PIStreamPacker stream;
 	mutable PIMutex write_mutex;
 	PIDiagnostics * diag = nullptr;
 };
 } // namespace PIClientServer
 #endif
--- a/libs/main/client_server/piclientserver_config.h
+++ b/libs/main/client_server/piclientserver_config.h
@@ -0,0 +1,60 @@
 /*! \file piclientserver_config.h
 * \ingroup ClientServer
 * \~\brief
 * \~english
 * \~russian
 */
 /*
    PIP - Platform Independent Primitives
 	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 piclientserver_config_H
 #define piclientserver_config_H
 #include "pibytearray.h"
 #include "pip_client_server_export.h"
 namespace PIClientServer {
 class Server;
 class Client;
 class ClientBase;
 class PIP_CLIENT_SERVER_EXPORT Config {
 	friend class Server;
 	friend class Client;
 public:
 	void setPacketSign(ushort sign);
 	void setPacketSize(int bytes);
 	void enableSymmetricEncryption(const PIByteArray & key);
 protected:
 	void apply(ClientBase * client);
 	PIByteArray crypt_key;
 	ushort packet_sign = 0xAFBE;
 	int packet_size    = 1400;
 private:
 };
 } // namespace PIClientServer
 #endif
--- a/libs/main/client_server/piclientserver_server.h
+++ b/libs/main/client_server/piclientserver_server.h
@@ -0,0 +1,82 @@
 /*! \file piclientserver_server.h
 * \ingroup ClientServer
 * \~\brief
 * \~english
 * \~russian
 */
 /*
    PIP - Platform Independent Primitives
 	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 piclientserver_server_H
 #define piclientserver_server_H
 #include "piclientserver_config.h"
 #include "pimutex.h"
 #include "pinetworkaddress.h"
 #include "pip_client_server_export.h"
 #include "pithreadnotifier.h"
 class PIEthernet;
 class PIThread;
 namespace PIClientServer {
 class ServerClient;
 class PIP_CLIENT_SERVER_EXPORT Server {
 	friend class ServerClient;
 	NO_COPY_CLASS(Server);
 public:
 	Server();
 	virtual ~Server();
 	void listen(PINetworkAddress addr);
 	void listenAll(ushort port) { listen({0, port}); }
 	void closeAll();
 	int getMaxClients() const { return max_clients; }
 	void setMaxClients(int new_max_clients);
 	int clientsCount() const;
 	void forEachClient(std::function<void(ServerClient *)> func);
 	void setClientFactory(std::function<ServerClient *()> f) { client_factory = f; }
 	Config & configuration() { return config; }
 private:
 	void stopServer();
 	void newClient(ServerClient * c);
 	void clientDisconnected(ServerClient * c);
 	std::function<ServerClient *()> client_factory;
 	std::atomic_bool is_closing = {false};
 	PIEthernet * tcp_server     = nullptr;
 	PIThread * clean_thread     = nullptr;
 	PIThreadNotifier clean_notifier;
 	Config config;
 	PIVector<ServerClient *> clients;
 	mutable PIMutex clients_mutex;
 	int max_clients = 1000;
 };
 } // namespace PIClientServer
 #endif
--- a/libs/main/client_server/piclientservermodule.h
+++ b/libs/main/client_server/piclientservermodule.h
@@ -0,0 +1,57 @@
 /*
    PIP - Platform Independent Primitives
    Module includes
 	Ivan Pelipenko peri4ko@yandex.ru, Andrey Bychkov work.a.b@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/>.
 */
 //! \defgroup ClientServer ClientServer
 //! \~\brief
 //! \~english TCP Client-Server
 //! \~russian TCP Клиент-Сервер
 //!
 //! \~\details
 //! \~english \section cmake_module_ClientServer Building with CMake
 //! \~russian \section cmake_module_ClientServer Сборка с использованием CMake
 //!
 //! \~\code
 //! find_package(PIP REQUIRED)
 //! target_link_libraries([target] PIP::ClientServer)
 //! \endcode
 //!
 //! \~english \par Common
 //! \~russian \par Общее
 //!
 //! \~english
 //! These files provides server with clients dispatching for server-side and client for client-side.
 //!
 //! \~russian
 //! Эти файлы предоставляют сервер с диспетчеризацией клиентов для серверной стороны и клиента для клиентской стороны.
 //!
 //! \~\authors
 //! \~english
 //! Ivan Pelipenko peri4ko@yandex.ru;
 //! Andrey Bychkov work.a.b@yandex.ru;
 //! \~russian
 //! Иван Пелипенко peri4ko@yandex.ru;
 //! Андрей Бычков work.a.b@yandex.ru;
 //!
 #ifndef PICLIENTSERVERMODULE_H
 #define PICLIENTSERVERMODULE_H
 #include "piclientserver_client.h"
 #include "piclientserver_server.h"
 #endif
--- a/libs/main/cloud/picloudbase.h
+++ b/libs/main/cloud/picloudbase.h
@@ -31,8 +31,7 @@
 #include "pistreampacker.h"
-class PIP_CLOUD_EXPORT PICloudBase
+class PIP_CLOUD_EXPORT PICloudBase {
 {
 public:
 	PICloudBase();
--- a/libs/main/cloud/picloudclient.h
+++ b/libs/main/cloud/picloudclient.h
@@ -32,26 +32,30 @@
 //! \brief PICloudClient
-class PIP_CLOUD_EXPORT PICloudClient: public PIIODevice, public PICloudBase
+class PIP_CLOUD_EXPORT PICloudClient
-{
+	: public PIIODevice
-	PIIODEVICE(PICloudClient, "")
+	, public PICloudBase {
 	PIIODEVICE(PICloudClient, "");
 public:
 	explicit PICloudClient(const PIString & path = PIString(), PIIODevice::DeviceMode mode = PIIODevice::ReadWrite);
 	virtual ~PICloudClient();
 	void setServerName(const PIString & server_name);
 	void setKeepConnection(bool on);
-	bool isConnected() const {return is_connected;}
+	bool isConnected() const { return is_connected; }
 	ssize_t bytesAvailable() const override { return buff.size(); }
 	void interrupt() override;
-	EVENT(connected)
+	EVENT(connected);
-	EVENT(disconnected)
+	EVENT(disconnected);
 protected:
-	bool openDevice();
+	bool openDevice() override;
-	bool closeDevice();
+	bool closeDevice() override;
-	int readDevice(void * read_to, int max_size);
+	ssize_t readDevice(void * read_to, ssize_t max_size) override;
-	int writeDevice(const void * data, int size);
+	ssize_t writeDevice(const void * data, ssize_t size) override;
-	DeviceInfoFlags deviceInfoFlags() const {return PIIODevice::Reliable;}
+	DeviceInfoFlags deviceInfoFlags() const override { return PIIODevice::Reliable; }
 private:
 	EVENT_HANDLER1(void, _readed, PIByteArray &, data);
--- a/libs/main/cloud/picloudmodule.h
+++ b/libs/main/cloud/picloudmodule.h
@@ -51,8 +51,8 @@
 #ifndef PICLOUDMODULE_H
 #define PICLOUDMODULE_H
 #include "picloudtcp.h"
 #include "picloudclient.h"
 #include "picloudserver.h"
 #include "picloudtcp.h"
 #endif // PICLOUDMODULE_H
--- a/libs/main/cloud/picloudserver.h
+++ b/libs/main/cloud/picloudserver.h
@@ -30,26 +30,32 @@
 #include "piconditionvar.h"
-class PIP_CLOUD_EXPORT PICloudServer: public PIIODevice, public PICloudBase
+class PIP_CLOUD_EXPORT PICloudServer
-{
+	: public PIIODevice
-	PIIODEVICE(PICloudServer, "")
+	, public PICloudBase {
 	PIIODEVICE(PICloudServer, "");
 public:
 	//! PICloudServer
 	explicit PICloudServer(const PIString & path = PIString(), PIIODevice::DeviceMode mode = PIIODevice::ReadWrite);
 	virtual ~PICloudServer();
-	class Client : public PIIODevice {
+	class Client: public PIIODevice {
-		PIIODEVICE(PICloudServer::Client, "")
+		PIIODEVICE(PICloudServer::Client, "");
 		friend class PICloudServer;
 	public:
 		Client(PICloudServer * srv = nullptr, uint id = 0);
 		virtual ~Client();
 	protected:
-		bool openDevice();
+		bool openDevice() override;
-		bool closeDevice();
+		bool closeDevice() override;
-		int readDevice(void * read_to, int max_size);
+		ssize_t readDevice(void * read_to, ssize_t max_size) override;
-		int writeDevice(const void * data, int size);
+		ssize_t writeDevice(const void * data, ssize_t size) override;
-		DeviceInfoFlags deviceInfoFlags() const {return PIIODevice::Reliable;}
+		DeviceInfoFlags deviceInfoFlags() const override { return PIIODevice::Reliable; }
 		ssize_t bytesAvailable() const override { return buff.size(); }
 		void interrupt() override;
 	private:
 		void pushBuffer(const PIByteArray & ba);
@@ -65,13 +71,14 @@ public:
 	PIVector<PICloudServer::Client *> clients() const;
-	EVENT1(newConnection, PICloudServer::Client * , client)
+	EVENT1(newConnection, PICloudServer::Client *, client);
 protected:
-	bool openDevice();
+	bool openDevice() override;
-	bool closeDevice();
+	bool closeDevice() override;
-	int readDevice(void * read_to, int max_size);
+	ssize_t readDevice(void * read_to, ssize_t max_size) override;
-	int writeDevice(const void * data, int max_size);
+	ssize_t writeDevice(const void * data, ssize_t max_size) override;
 	void interrupt() override;
 private:
 	EVENT_HANDLER1(void, _readed, PIByteArray &, ba);
@@ -80,9 +87,13 @@ private:
 	int sendData(const PIByteArray & data, uint client_id);
 	PIVector<Client *> clients_;
 	PIVector<Client *> removed_clients_;
 	PIMap<uint, Client *> index_clients;
-	PITimer ping_timer;
+	PIThread ping_timer;
 	PIConditionVariable cvar;
 	PIMutex open_mutex;
 	mutable PIMutex clients_mutex;
 	std::atomic_bool is_deleted;
 };
 #endif // PICLOUDSERVER_H
--- a/libs/main/cloud/picloudtcp.h
+++ b/libs/main/cloud/picloudtcp.h
@@ -26,9 +26,9 @@
 #ifndef PICLOUDTCP_H
 #define PICLOUDTCP_H
 #include "pimutex.h"
 #include "pip_cloud_export.h"
 #include "pistring.h"
 #include "pimutex.h"
 class PIEthernet;
@@ -37,7 +37,6 @@ class PIStreamPacker;
 namespace PICloud {
 class PIP_CLOUD_EXPORT TCP {
 public:
 	enum Version {
@@ -61,7 +60,7 @@ public:
 	TCP(PIStreamPacker * s);
 	void setRole(Role r);
-	Role role() const {return (Role)header.role;}
+	Role role() const { return (Role)header.role; }
 	void setServerName(const PIString & server_name_);
 	PIString serverName() const;
@@ -91,9 +90,8 @@ private:
 	PIString server_name;
 	PIStreamPacker * streampacker;
 	PIMutex mutex_send;
 };
-}
+} // namespace PICloud
 #endif // PICLOUDTCP_H
--- a/libs/main/code/picodeinfo.cpp
+++ b/libs/main/code/picodeinfo.cpp
@@ -18,45 +18,68 @@
 */
 #include "picodeinfo.h"
 #include "pivariant.h"
 PIString PICodeInfo::EnumInfo::memberName(int value_) const {
-	piForeachC (PICodeInfo::EnumeratorInfo & e, members)
+	piForeachC(PICodeInfo::EnumeratorInfo & e, members)
-		if (e.value == value_)
+		if (e.value == value_) return e.name.toString();
 			return e.name.toString();
 	return PIString();
 }
 int PICodeInfo::EnumInfo::memberValue(const PIString & name_) const {
-	piForeachC (PICodeInfo::EnumeratorInfo & e, members)
+	piForeachC(PICodeInfo::EnumeratorInfo & e, members)
-		if (e.name.toString() == name_)
+		if (e.name.toString() == name_) return e.value;
 			return e.value;
 	return -1;
 }
 PIVariantTypes::Enum PICodeInfo::EnumInfo::toPIVariantEnum() {
 	PIVariantTypes::Enum en(name.toString());
-	for (auto m: members) en << m.toPIVariantEnumerator();
+	for (auto m: members)
 		en << m.toPIVariantEnumerator();
 	if (!en.isEmpty()) en.selectValue(members.front().value);
 	return en;
 }
 PIMap<PIConstChars, PICodeInfo::ClassInfo * > * PICodeInfo::classesInfo;
 PIMap<PIConstChars, PICodeInfo::EnumInfo * > * PICodeInfo::enumsInfo;
 PIMap<PIConstChars, PICodeInfo::AccessValueFunction> * PICodeInfo::accessValueFunctions;
 PIMap<PIConstChars, PICodeInfo::AccessTypeFunction> * PICodeInfo::accessTypeFunctions;
 bool __PICodeInfoInitializer__::_inited_ = false;
 PIVariant PICodeInfo::getMemberAsVariant(const void * p, const char * class_name, const char * member_name) {
-	if (!p || !class_name || !member_name || !accessTypeFunctions || !accessValueFunctions) return PIVariant();
+	if (!p || !class_name || !member_name) return PIVariant();
-	AccessTypeFunction atf = accessTypeFunctions->value(class_name, (AccessTypeFunction)0);
+	AccessTypeFunction atf  = PICODEINFO::accessTypeFunctions().value(class_name, (AccessTypeFunction) nullptr);
-	AccessValueFunction avf = accessValueFunctions->value(class_name, (AccessValueFunction)0);
+	AccessValueFunction avf = PICODEINFO::accessValueFunctions().value(class_name, (AccessValueFunction) nullptr);
 	if (!atf || !avf) return PIVariant();
 	return PIVariant::fromValue(avf(p, member_name), PIStringAscii(atf(member_name)));
 }
 PICodeInfo::__Storage__::__Storage__() {
 	classesInfo          = new PIMap<PIConstChars, ClassInfo *>;
 	enumsInfo            = new PIMap<PIConstChars, EnumInfo *>;
 	accessValueFunctions = new PIMap<PIConstChars, AccessValueFunction>;
 	accessTypeFunctions  = new PIMap<PIConstChars, AccessTypeFunction>;
 	(*enumsInfo)[""]     = new EnumInfo();
 }
 PICodeInfo::__Storage__::~__Storage__() {
 	piDeleteAll(classesInfo->values());
 	piDeleteAll(enumsInfo->values());
 	piDeleteSafety(classesInfo);
 	piDeleteSafety(enumsInfo);
 	piDeleteSafety(accessValueFunctions);
 	piDeleteSafety(accessTypeFunctions);
 }
 PICodeInfo::__Storage__ * PICodeInfo::__Storage__::instance() {
 	static __Storage__ ret;
 	return &ret;
 }
 PICodeInfo::ClassInfoInterface classesInfo;
 PICodeInfo::EnumsInfoInterface enumsInfo;
 PICodeInfo::AccessValueFunctionInterface accessValueFunctions;
 PICodeInfo::AccessTypeFunctionInterface accessTypeFunctions;
--- a/libs/main/code/picodeinfo.h
+++ b/libs/main/code/picodeinfo.h
@@ -1,8 +1,8 @@
 /*! \file picodeinfo.h
 * \ingroup Code
 * \~\brief
- * \~english C++ code info structs
+ * \~english C++ code info structs. See \ref code_model.
- * \~russian Структуры для C++ кода
+ * \~russian Структуры для C++ кода. Подробнее \ref code_model.
 */
 /*
    PIP - Platform Independent Primitives
@@ -34,72 +34,181 @@
 class PIVariant;
 //! \~english Namespace contains structures for code generation. See \ref code_model.
 //! \~russian Пространство имен содержит структуры для кодогенерации. Подробнее \ref code_model.
 namespace PICodeInfo {
 //! \~english
 //! Type modifiers
 //! \~russian
 //! Модификаторы типа
 enum TypeFlag {
 	NoFlag,
-	Const = 0x01,
+	Const /** const    */    = 0x01,
-	Static = 0x02,
+	Static /** static   */   = 0x02,
-	Mutable = 0x04,
+	Mutable /** mutable  */  = 0x04,
-	Volatile = 0x08,
+	Volatile /** volatile */ = 0x08,
-	Inline = 0x10,
+	Inline /** inline   */   = 0x10,
-	Virtual = 0x20,
+	Virtual /** virtual  */  = 0x20,
-	Extern = 0x40
+	Extern /** extern   */   = 0x40
 };
 typedef PIFlags<PICodeInfo::TypeFlag> TypeFlags;
 typedef PIMap<PIString, PIString> MetaMap;
-typedef PIByteArray(*AccessValueFunction)(const void *, const char *);
+typedef PIByteArray (*AccessValueFunction)(const void *, const char *);
-typedef const char*(*AccessTypeFunction)(const char *);
+typedef const char * (*AccessTypeFunction)(const char *);
 //! \~english Type information
 //! \~russian Информация о типе
 struct PIP_EXPORT TypeInfo {
-	TypeInfo(const PIConstChars & n = PIConstChars(), const PIConstChars & t = PIConstChars(), PICodeInfo::TypeFlags f = 0, int b = -1) {name = n; type = t; flags = f; bits = b;}
+	TypeInfo(const PIConstChars & n = PIConstChars(), const PIConstChars & t = PIConstChars(), PICodeInfo::TypeFlags f = 0, int b = -1) {
-	bool isBitfield() const {return bits > 0;}
+		name  = n;
 		type  = t;
 		flags = f;
 		bits  = b;
 	}
 	//! \~english Returns if variable if bitfield
 	//! \~russian Возвращает битовым ли полем является переменная
 	bool isBitfield() const { return bits > 0; }
 	//! \~english Custom PIMETA content
 	//! \~russian Произвольное содержимое PIMETA
 	MetaMap meta;
 	//! \~english Name
 	//! \~russian Имя
 	PIConstChars name;
 	//! \~english Type
 	//! \~russian Тип
 	PIConstChars type;
 	//! \~english Modifiers
 	//! \~russian Модификаторы
 	PICodeInfo::TypeFlags flags;
 	//! \~english Bitfield variable bit count
 	//! \~russian Количество бит битового поля
 	int bits;
 };
 //! \~english Method information
 //! \~russian Информация о методе
 struct PIP_EXPORT FunctionInfo {
 	//! \~english Custom PIMETA content
 	//! \~russian Произвольное содержимое PIMETA
 	MetaMap meta;
 	//! \~english Name
 	//! \~russian Имя
 	PIConstChars name;
 	//! \~english Return type
 	//! \~russian Возвращаемые тип
 	TypeInfo return_type;
 	//! \~english Arguments types
 	//! \~russian Типы аргументов
 	PIVector<PICodeInfo::TypeInfo> arguments;
 };
 //! \~english Class or struct information
 //! \~russian Информация о классе или структуре
 struct PIP_EXPORT ClassInfo {
-	ClassInfo() {has_name = true;}
+	ClassInfo() { has_name = true; }
 	//! \~english Custom PIMETA content
 	//! \~russian Произвольное содержимое PIMETA
 	MetaMap meta;
 	//! \~english Has name or not
 	//! \~russian Имеет или нет имя
 	bool has_name;
 	//! \~english Type
 	//! \~russian Тип
 	PIConstChars type;
 	//! \~english Name
 	//! \~russian Имя
 	PIConstChars name;
 	//! \~english Parent names
 	//! \~russian Имена родителей
 	PIVector<PIConstChars> parents;
 	//! \~english Variables
 	//! \~russian Переменные
 	PIVector<PICodeInfo::TypeInfo> variables;
 	//! \~english Methods
 	//! \~russian Методы
 	PIVector<PICodeInfo::FunctionInfo> functions;
-	PIVector<PICodeInfo::ClassInfo * > children_info;
+
 	//! \~english Subclass list
 	//! \~russian Список наследников
 	PIVector<PICodeInfo::ClassInfo *> children_info;
 };
 //! \~english Enumerator information
 //! \~russian Информация об элементе перечисления
 struct PIP_EXPORT EnumeratorInfo {
-	EnumeratorInfo(const PIConstChars & n = PIConstChars(), int v = 0) {name = n; value = v;}
+	EnumeratorInfo(const PIConstChars & n = PIConstChars(), int v = 0) {
-	PIVariantTypes::Enumerator toPIVariantEnumerator() {return PIVariantTypes::Enumerator(value, name.toString());}
+		name  = n;
 		value = v;
 	}
 	PIVariantTypes::Enumerator toPIVariantEnumerator() { return PIVariantTypes::Enumerator(value, name.toString()); }
 	//! \~english Custom PIMETA content
 	//! \~russian Произвольное содержимое PIMETA
 	MetaMap meta;
 	//! \~english Name
 	//! \~russian Имя
 	PIConstChars name;
 	//! \~english Value
 	//! \~russian Значение
 	int value;
 };
 //! \~english Enum information
 //! \~russian Информация о перечислении
 struct PIP_EXPORT EnumInfo {
 	//! \~english Returns member name with value "value"
 	//! \~russian Возвращает имя элемента со значением "value"
 	PIString memberName(int value) const;
 	//! \~english Returns member value with name "name"
 	//! \~russian Возвращает значение элемента с именем "name"
 	int memberValue(const PIString & name) const;
 	//! \~english Returns as PIVariantTypes::Enum
 	//! \~russian Возвращает как PIVariantTypes::Enum
 	PIVariantTypes::Enum toPIVariantEnum();
 	//! \~english Custom PIMETA content
 	//! \~russian Произвольное содержимое PIMETA
 	MetaMap meta;
 	//! \~english Name
 	//! \~russian Имя
 	PIConstChars name;
 	//! \~english Members
 	//! \~russian Элементы
 	PIVector<PICodeInfo::EnumeratorInfo> members;
 };
-inline PICout operator <<(PICout s, const PICodeInfo::TypeInfo & v) {
+inline PICout operator<<(PICout s, const PICodeInfo::TypeInfo & v) {
 	if (v.flags[Inline]) s << "inline ";
 	if (v.flags[Virtual]) s << "virtual ";
 	if (v.flags[Mutable]) s << "mutable ";
@@ -107,22 +216,26 @@ inline PICout operator <<(PICout s, const PICodeInfo::TypeInfo & v) {
 	if (v.flags[Static]) s << "static ";
 	if (v.flags[Const]) s << "const ";
 	s << v.type;
-	if (!v.name.isEmpty())
+	if (!v.name.isEmpty()) s << " " << v.name;
 		s << " " << v.name;
 	return s;
 }
-inline PICout operator <<(PICout s, const PICodeInfo::EnumeratorInfo & v) {s << v.name << " = " << v.value << " Meta" << v.meta; return s;}
+inline PICout operator<<(PICout s, const PICodeInfo::EnumeratorInfo & v) {
 	s << v.name << " = " << v.value << " Meta" << v.meta;
 	return s;
 }
-inline PICout operator <<(PICout s, const PICodeInfo::ClassInfo & v) {
+inline PICout operator<<(PICout s, const PICodeInfo::ClassInfo & v) {
-	s.setControl(0, true);
+	s.saveAndSetControls(0);
 	s << "class " << v.name;
 	if (!v.parents.isEmpty()) {
 		s << ": ";
 		bool first = true;
 		for (const auto & i: v.parents) {
-			if (first) first = false;
+			if (first)
-			else s << ", ";
+				first = false;
 			else
 				s << ", ";
 			s << i;
 		}
 	}
@@ -131,51 +244,132 @@ inline PICout operator <<(PICout s, const PICodeInfo::ClassInfo & v) {
 		s << PICoutManipulators::Tab << i.return_type << " " << i.name << "(";
 		bool fa = true;
 		for (const auto & a: i.arguments) {
-			if (fa) fa = false;
+			if (fa)
-			else s << ", ";
+				fa = false;
 			else
 				s << ", ";
 			s << a;
 		}
 		s << ") Meta" << i.meta << ";\n";
 	}
-	if (!v.functions.isEmpty() && !v.variables.isEmpty())
+	if (!v.functions.isEmpty() && !v.variables.isEmpty()) s << "\n";
 		s << "\n";
 	for (const auto & i: v.variables) {
 		s << PICoutManipulators::Tab << i << " Meta" << i.meta << ";\n";
 	}
 	s << "}\n";
-	s.restoreControl();
+	s.restoreControls();
 	return s;
 }
-inline PICout operator <<(PICout s, const PICodeInfo::EnumInfo & v) {
+inline PICout operator<<(PICout s, const PICodeInfo::EnumInfo & v) {
-	s.setControl(0, true);
+	s.saveAndSetControls(0);
 	s << "enum " << v.name << " Meta" << v.meta << " {\n";
 	for (const auto & i: v.members) {
 		bool f = true;
-		if (f) f = false;
+		if (f)
-		else s << ", ";
+			f = false;
 		else
 			s << ", ";
 		s << PICoutManipulators::Tab << i << "\n";
 	}
 	s << "}\n";
-	s.restoreControl();
+	s.restoreControls();
 	return s;
 }
-extern PIP_EXPORT PIMap<PIConstChars, PICodeInfo::ClassInfo * > * classesInfo;
+
-extern PIP_EXPORT PIMap<PIConstChars, PICodeInfo::EnumInfo * > * enumsInfo;
+class PIP_EXPORT __Storage__ {
-extern PIP_EXPORT PIMap<PIConstChars, PICodeInfo::AccessValueFunction> * accessValueFunctions;
+	__Storage__();
-extern PIP_EXPORT PIMap<PIConstChars, PICodeInfo::AccessTypeFunction> * accessTypeFunctions;
+	~__Storage__();
 public:
 	static __Storage__ * instance();
 	PIMap<PIConstChars, PICodeInfo::ClassInfo *> * classesInfo;
 	PIMap<PIConstChars, PICodeInfo::EnumInfo *> * enumsInfo;
 	PIMap<PIConstChars, PICodeInfo::AccessValueFunction> * accessValueFunctions;
 	PIMap<PIConstChars, PICodeInfo::AccessTypeFunction> * accessTypeFunctions;
 private:
 	NO_COPY_CLASS(__Storage__)
 };
 class PIP_EXPORT __StorageAccess__ {
 public:
 	//! \~english Getter for single storage of PICodeInfo::ClassInfo, access by name
 	//! \~russian Доступ к единому хранилищу PICodeInfo::ClassInfo, доступ по имени
 	static const PIMap<PIConstChars, PICodeInfo::ClassInfo *> & classes() { return *(__Storage__::instance()->classesInfo); }
 	//! \~english Getter for single storage of PICodeInfo::EnumInfo, access by name
 	//! \~russian Доступ к единому хранилищу хранилище PICodeInfo::EnumInfo, доступ по имени
 	static const PIMap<PIConstChars, PICodeInfo::EnumInfo *> & enums() { return *(__Storage__::instance()->enumsInfo); }
 	static const PIMap<PIConstChars, PICodeInfo::AccessValueFunction> & accessValueFunctions() {
 		return *(__Storage__::instance()->accessValueFunctions);
 	}
 	static const PIMap<PIConstChars, PICodeInfo::AccessTypeFunction> & accessTypeFunctions() {
 		return *(__Storage__::instance()->accessTypeFunctions);
 	}
 };
 #define PICODEINFO PICodeInfo::__StorageAccess__
 class PIP_EXPORT ClassInfoInterface {
 public:
 	const PIMap<PIConstChars, PICodeInfo::ClassInfo *> * operator->() const DEPRECATEDM("use PICODEINFO::classes()") {
 		return __Storage__::instance()->classesInfo;
 	}
 };
 static ClassInfoInterface classesInfo;
 class PIP_EXPORT EnumsInfoInterface {
 public:
 	const PIMap<PIConstChars, PICodeInfo::EnumInfo *> * operator->() const DEPRECATEDM("use PICODEINFO::enums()") {
 		return __Storage__::instance()->enumsInfo;
 	}
 };
 static EnumsInfoInterface enumsInfo;
 class PIP_EXPORT AccessValueFunctionInterface {
 public:
 	const PIMap<PIConstChars, PICodeInfo::AccessValueFunction> * operator->() const DEPRECATEDM("use PICODEINFO::accessValueFunctions()") {
 		return __Storage__::instance()->accessValueFunctions;
 	}
 };
 static AccessValueFunctionInterface accessValueFunctions;
 class PIP_EXPORT AccessTypeFunctionInterface {
 public:
 	const PIMap<PIConstChars, PICodeInfo::AccessTypeFunction> * operator->() const DEPRECATEDM("use PICODEINFO::accessTypeFunctions()") {
 		return __Storage__::instance()->accessTypeFunctions;
 	}
 };
 static AccessTypeFunctionInterface accessTypeFunctions;
 STATIC_INITIALIZER_BEGIN
 	NO_UNUSED(classesInfo);
 	NO_UNUSED(enumsInfo);
 	NO_UNUSED(accessValueFunctions);
 	NO_UNUSED(accessTypeFunctions);
 STATIC_INITIALIZER_END
 inline PIByteArray getMemberValue(const void * p, const char * class_name, const char * member_name) {
-	if (!p || !class_name || !member_name || !accessValueFunctions) return PIByteArray();
+	if (!p || !class_name || !member_name) return PIByteArray();
-	AccessValueFunction af = accessValueFunctions->value(class_name, (AccessValueFunction)0);
+	AccessValueFunction af = PICODEINFO::accessValueFunctions().value(class_name, (AccessValueFunction)0);
 	if (!af) return PIByteArray();
 	return af(p, member_name);
 }
 inline const char * getMemberType(const char * class_name, const char * member_name) {
-	if (!class_name || !member_name || !accessTypeFunctions) return "";
+	if (!class_name || !member_name) return "";
-	AccessTypeFunction af = accessTypeFunctions->value(class_name, (AccessTypeFunction)0);
+	AccessTypeFunction af = PICODEINFO::accessTypeFunctions().value(class_name, (AccessTypeFunction)0);
 	if (!af) return "";
 	return af(member_name);
 }
@@ -183,27 +377,15 @@ inline const char * getMemberType(const char * class_name, const char * member_n
 PIP_EXPORT PIVariant getMemberAsVariant(const void * p, const char * class_name, const char * member_name);
-template<typename T, typename std::enable_if< std::is_assignable<T&, const T&>::value, int>::type = 0>
+template<typename T, typename std::enable_if<std::is_assignable<T &, const T &>::value, int>::type = 0>
-void serialize(PIByteArray & ret, const T & v) {ret << v;}
+void serialize(PIByteArray & ret, const T & v) {
-
+	ret << v;
 template<typename T, typename std::enable_if<!std::is_assignable<T&, const T&>::value, int>::type = 0>
 void serialize(PIByteArray & ret, const T & v) {}
 }
-class PIP_EXPORT __PICodeInfoInitializer__ {
+template<typename T, typename std::enable_if<!std::is_assignable<T &, const T &>::value, int>::type = 0>
-public:
+void serialize(PIByteArray & ret, const T & v) {}
-	__PICodeInfoInitializer__() {
+
-		if (_inited_) return;
+} // namespace PICodeInfo
 		_inited_ = true;
 		PICodeInfo::classesInfo = new PIMap<PIConstChars, PICodeInfo::ClassInfo * >;
 		PICodeInfo::enumsInfo = new PIMap<PIConstChars, PICodeInfo::EnumInfo * >;
 		PICodeInfo::accessValueFunctions = new PIMap<PIConstChars, PICodeInfo::AccessValueFunction>;
 		PICodeInfo::accessTypeFunctions = new PIMap<PIConstChars, PICodeInfo::AccessTypeFunction>;
 	}
 	static bool _inited_;
 };
 static __PICodeInfoInitializer__ __picodeinfoinitializer__;
 #endif // PICODEINFO_H
--- a/libs/main/code/picodemodule.h
+++ b/libs/main/code/picodemodule.h
@@ -35,9 +35,11 @@
 //!
 //! \~english
 //! These files provides parsing C++ code and storage to use results of \a pip_cmg utility.
 //! See \ref code_model.
 //!
 //! \~russian
 //! Эти файлы обеспечивают разбор C++ кода и хранение результатов работы утилиты \a pip_cmg.
 //! Подробнее \ref code_model.
 //!
 //! \~\authors
 //! \~english
--- a/libs/main/code/picodeparser.cpp
+++ b/libs/main/code/picodeparser.cpp
@@ -20,7 +20,6 @@
 #include "picodeparser.h"
 PIString PICodeParser::Macro::expand(PIString args_, bool * ok) const {
 	PIStringList arg_vals;
 	while (!args_.isEmpty()) {
@@ -32,29 +31,32 @@ PIString PICodeParser::Macro::expand(PIString args_, bool * ok) const {
 		PIString ca;
 		if (bi >= 0 && bi < ci) {
 			ca = args_.left(args_.takeLeft(bi).toInt());
-			ci -= ca.size_s(); bi -= ca.size_s();
+			ci -= ca.size_s();
 			bi -= ca.size_s();
 			ca += '(' + args_.takeRange('(', ')') + ')';
 		} else {
 			ca = args_.takeLeft(ci);
 		}
 		arg_vals << ca;
-		args_.trim(); args_.takeLeft(1); args_.trim();
+		args_.trim();
 		args_.takeLeft(1);
 		args_.trim();
 	}
 	if (args.size() != arg_vals.size()) {
-		piCout << ("Error: in expansion of macro \"" + name + '(' + args.join(", ") + ")\": expect")
+		piCout << ("Error: in expansion of macro \"" + name + '(' + args.join(", ") + ")\": expect") << args.size() << "arguments but takes"
-			   << args.size() << "arguments but takes" << arg_vals.size() << "!";
+			   << arg_vals.size() << "!";
 		if (ok != 0) *ok = false;
 		return PIString();
 	}
 	PIString ret = value;
 	for (int i = 0; i < args.size_s(); ++i) {
-		const PIString & an(args[i]), av(arg_vals[i]);
+		const PIString &an(args[i]), av(arg_vals[i]);
 		int ind(-1);
 		while ((ind = ret.find(an, ind + 1)) >= 0) {
 			PIChar ppc, pc, nc;
 			if (ind > 1) ppc = ret[ind - 2];
 			if (ind > 0) pc = ret[ind - 1];
-			if (ind + an.size_s() < ret.size_s()) nc = ret.mid(ind + an.size_s(),1)[0];
+			if (ind + an.size_s() < ret.size_s()) nc = ret.mid(ind + an.size_s(), 1)[0];
 			if (ppc != '#' && pc == '#' && !_isCChar(nc)) { // to chars
 				ind--;
 				ret.replace(ind, an.size_s() + 1, '\"' + av + '\"');
@@ -72,7 +74,6 @@ PIString PICodeParser::Macro::expand(PIString args_, bool * ok) const {
 }
 PICodeParser::PICodeParser() {
 	macros_iter   = 32;
 	with_includes = true;
@@ -118,7 +119,7 @@ void PICodeParser::parseFile(const PIString & file, bool follow_includes) {
 void PICodeParser::parseFiles(const PIStringList & files, bool follow_includes) {
 	clear();
-	piForeachC (PIString & f, files)
+	piForeachC(PIString & f, files)
 		parseFileInternal(f, follow_includes);
 	/*piCout << "\n\nDefines:";
 	piForeachC (Define & m, defines)
@@ -138,10 +139,14 @@ void PICodeParser::parseFiles(const PIStringList & files, bool follow_includes)
 }
 void PICodeParser::parseFileContent(PIString fc) {
 	parseFileContent(fc, false);
 }
 bool PICodeParser::isEnum(const PIString & name) {
-	piForeachC (Enum & e, enums)
+	piForeachC(Enum & e, enums)
-		if (e.name == name)
+		if (e.name == name) return true;
 			return true;
 	return false;
 }
@@ -154,14 +159,14 @@ bool PICodeParser::parseFileInternal(const PIString & file, bool follow_includes
 	int ii = 0;
 	while (!f.isOpened() && ii < (includes.size_s() - 1)) {
 		f.setPath(includes[++ii] + '/' + file);
-		//piCout << "try" << f.path();
+		// piCout << "try" << f.path();
 		f.open(PIIODevice::ReadOnly);
 	}
 	if (!f.isOpened()) {
 		piCout << ("Error: can`t open file \"" + file + "\"!");
 		return false;
 	}
-	//piCout << "add" << file;
+	// piCout << "add" << file;
 	proc_files << f.path();
 	PIString fc = PIString::fromUTF8(f.readAll());
 	piCout << "parsing" << f.path() << "...";
@@ -174,7 +179,8 @@ bool PICodeParser::parseFileInternal(const PIString & file, bool follow_includes
 void PICodeParser::clear() {
-	piForeach (Entity * i, entities) delete i;
+	piForeach(Entity * i, entities)
 		delete i;
 	defines.clear();
 	macros.clear();
 	enums.clear();
@@ -187,37 +193,142 @@ void PICodeParser::clear() {
 	cur_def_vis       = Global;
 	anon_num          = 0;
 	PIStringList defs = PIStringAscii(PICODE_DEFINES).split(",");
-	piForeachC (PIString & d, defs)
+	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("PIOBJECT_SUBCLASS"),
 	                "",
 	                PIStringList() << "name"
 	                               << "parent")
 		   << Macro(PIStringAscii("PIIODEVICE"), "", PIStringList() << "name")
-		   << Macro(PIStringAscii("NO_COPY_CLASS"), "", PIStringList() << "name")
+		   << Macro(PIStringAscii("NO_COPY_CLASS"), "", PIStringList() << "name") << Macro(PIStringAscii("PRIVATE_DECLARATION"))
 		   << Macro(PIStringAscii("PRIVATE_DECLARATION"))
-		   << Macro(PIStringAscii("EVENT" ), "void name();", PIStringList() << "name")
+		   << 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("EVENT1"),
-		   << Macro(PIStringAscii("EVENT2"), "void name(a0 n0, a1 n1);", PIStringList() << "name" << "a0" << "n0" << "a1" << "n1")
+	                "void name(a0 n0);",
-		   << Macro(PIStringAscii("EVENT3"), "void name(a0 n0, a1 n1, a2 n2);", PIStringList() << "name" << "a0" << "n0" << "a1" << "n1" << "a2" << "n2")
+	                PIStringList() << "name"
-		   << Macro(PIStringAscii("EVENT4"), "void name(a0 n0, a1 n1, a2 n2, a3 n3);", PIStringList() << "name" << "a0" << "n0" << "a1" << "n1" << "a2" << "n2" << "a3" << "n3")
+	                               << "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_HANDLER"),
-		   << Macro(PIStringAscii("EVENT_HANDLER0"), "ret name()", PIStringList() << "ret" << "name")
+	                "ret name()",
-		   << Macro(PIStringAscii("EVENT_HANDLER1"), "ret name(a0 n0)", PIStringList() << "ret" << "name" << "a0" << "n0")
+	                PIStringList() << "ret"
-		   << Macro(PIStringAscii("EVENT_HANDLER2"), "ret name(a0 n0, a1 n1)", PIStringList() << "ret" << "name" << "a0" << "n0" << "a1" << "n1")
+	                               << "name")
-		   << Macro(PIStringAscii("EVENT_HANDLER3"), "ret name(a0 n0, a1 n1, a2 n2)", PIStringList() << "ret" << "name" << "a0" << "n0" << "a1" << "n1" << "a2" << "n2")
+		   << Macro(PIStringAscii("EVENT_HANDLER0"),
-		   << 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")
+	                "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_VHANDLER"),
-		   << Macro(PIStringAscii("EVENT_VHANDLER0"), "virtual ret name()", PIStringList() << "ret" << "name")
+	                "virtual ret name()",
-		   << Macro(PIStringAscii("EVENT_VHANDLER1"), "virtual ret name(a0 n0)", PIStringList() << "ret" << "name" << "a0" << "n0")
+	                PIStringList() << "ret"
-		   << Macro(PIStringAscii("EVENT_VHANDLER2"), "virtual ret name(a0 n0, a1 n1)", PIStringList() << "ret" << "name" << "a0" << "n0" << "a1" << "n1")
+	                               << "name")
-		   << 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_VHANDLER0"),
-		   << 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")
+	                "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");
 }
@@ -232,6 +343,7 @@ bool PICodeParser::parseFileContent(PIString & fc, bool main) {
 	static const PIString s_typedef   = PIStringAscii("typedef");
 	static const PIString s_namespace = PIStringAscii("namespace");
 	static const PIString s_template  = PIStringAscii("template");
 	static const PIString s_L         = PIStringAscii("$L");
 	bool mlc = false, cc = false;
 	int mls = 0, ole = -1, /*ccs = 0,*/ end = 0;
@@ -247,55 +359,74 @@ bool PICodeParser::parseFileContent(PIString & fc, bool main) {
 		if (i > 0) pc = c;
 		c = fc[i].toAscii();
 		if (c == '"' && !mlc && pc != '\'') {
-			if (i > 0) if (fc[i - 1] == '\\') continue;
+			if (i > 0)
 				if (fc[i - 1] == '\\') continue;
 			cc = !cc;
 			continue;
 		}
 		if (i > 0)
 			if (c == '\\' && fc[i - 1].toAscii() != '\\') {
-				fc.cutMid(i, 2);
+				fc.cutMid(i, 1);
-				--i;
+				fc.replace(i, 1, s_L);
 				++i;
 				continue;
 			}
 		if (cc) continue;
-		if (fc.mid(i, 2) == "/*") {mlc = true; mls = i; ++i; continue;}
+		if (fc.mid(i, 2) == "/*") {
-		if (fc.mid(i, 2) == "*/" && mlc) {mlc = false; fc.cutMid(mls, i - mls + 2); i = mls - 1; continue;}
+			mlc = true;
-		if (fc.mid(i, 2) == "//" && !mlc) {ole = fc.find('\n', i); fc.cutMid(i, ole < 0 ? -1 : ole - i); --i; continue;}
+			mls = i;
 			++i;
 			continue;
 		}
 		if (fc.mid(i, 2) == "*/" && mlc) {
 			mlc = false;
 			fc.cutMid(mls, i - mls + 2);
 			i = mls - 1;
 			continue;
 		}
 		if (fc.mid(i, 2) == "//" && !mlc) {
 			ole = fc.find('\n', i);
 			fc.cutMid(i, ole < 0 ? -1 : ole - i);
 			--i;
 			continue;
 		}
 	}
 	pfc = procMacros(fc);
 	pfc.removeAll(s_L);
 	if (main) return true;
 	bool replaced    = true;
 	int replaced_cnt = 0;
 	while (replaced) {
-		//piCout << "MACRO iter" << replaced_cnt;
+		// piCout << "MACRO iter" << replaced_cnt;
 		if (replaced_cnt >= macros_iter) {
 			piCout << "Error: recursive macros detected!";
-			break;//return false;
+			break; // return false;
 		}
 		replaced_cnt++;
 		replaced = false;
-		piForeachC (Define & d, defines) {
+		piForeachC(Define & d, defines) {
 			int ind(-1);
 			while ((ind = pfc.find(d.first, ind + 1)) >= 0) {
 				PIChar pc, nc;
 				if (ind > 0) pc = pfc[ind - 1];
-				if (ind + d.first.size_s() < pfc.size_s()) nc = pfc.mid(ind + d.first.size_s(),1)[0];
+				if (ind + d.first.size_s() < pfc.size_s()) nc = pfc.mid(ind + d.first.size_s(), 1)[0];
 				if (_isCChar(pc) || _isCChar(nc) || nc.isDigit()) continue;
 				pfc.replace(ind, d.first.size_s(), d.second);
 				ind -= d.first.size_s() - d.second.size_s();
 				replaced = true;
 			}
 		}
-		piForeachC (Macro & m, macros) {
+		piForeachC(Macro & m, macros) {
 			int ind(-1);
 			while ((ind = pfc.find(m.name, ind + 1)) >= 0) {
 				PIChar pc, nc;
 				if (ind > 0) pc = pfc[ind - 1];
-				if (ind + m.name.size_s() < pfc.size_s()) nc = pfc.mid(ind + m.name.size_s(),1)[0];
+				if (ind + m.name.size_s() < pfc.size_s()) nc = pfc.mid(ind + m.name.size_s(), 1)[0];
 				if (_isCChar(pc) || _isCChar(nc) || nc.isDigit()) continue;
-				PIString ret, range; bool ok(false);
+				PIString ret, range;
 				bool ok(false);
 				range = pfc.mid(ind + m.name.size_s()).takeRange('(', ')');
 				ret   = m.expand(range, &ok);
 				if (!ok) return false;
@@ -309,8 +440,9 @@ bool PICodeParser::parseFileContent(PIString & fc, bool main) {
 	replaceMeta(pfc);
-	//piCout << PICoutManipulators::NewLine << "file" << cur_file << pfc;
+	// piCout << PICoutManipulators::NewLine << "file" << cur_file << pfc;
 	int pl      = -1;
 	cur_def_vis = Global;
 	while (!pfc.isEmpty()) {
 		pfc.trim();
 		int nl = pfc.size_s();
@@ -321,6 +453,7 @@ bool PICodeParser::parseFileContent(PIString & fc, bool main) {
 			PIString prev_namespace = cur_namespace, ccmn;
 			cur_namespace += pfc.takeCWord() + s_ns;
 			ccmn = pfc.takeRange('{', '}');
 			// piCout << "namespace" << cur_namespace;
 			parseClass(0, ccmn, true);
 			cur_namespace = prev_namespace;
 			continue;
@@ -330,14 +463,25 @@ bool PICodeParser::parseFileContent(PIString & fc, bool main) {
 			pfc.takeRange('<', '>');
 			bool def = !isDeclaration(pfc, 0, &end);
 			pfc.cutLeft(end);
-			if (def) pfc.takeRange('{', '}');
+			if (def)
-			else pfc.takeSymbol();
+				pfc.takeRange('{', '}');
 			else
 				pfc.takeSymbol();
 			continue;
 		}
 		if (pfc.left(5) == s_class || pfc.left(6) == s_struct || pfc.left(5) == s_union) {
 			int dind = pfc.find('{', 0), find = pfc.find(';', 0);
-			if (dind < 0 && find < 0) {pfc.cutLeft(6); continue;}
+			// piCout << pfc.left(6) << dind << find;
-			if (dind < 0 || find < dind) {pfc.cutLeft(6); continue;}
+			if (dind < 0 && find < 0) {
 				pfc.cutLeft(6);
 				continue;
 			}
 			if (dind < 0 || find < dind) {
 				// piCout << "skip FC" << (find + 1) << pfc.left(find + 1);
 				pfc.cutLeft(find + 1);
 				// pfc.cutLeft(6);
 				continue;
 			}
 			ccmn = pfc.left(dind) + s_bo + pfc.mid(dind).takeRange('{', '}') + s_bc;
 			pfc.remove(0, ccmn.size());
 			parseClass(0, ccmn, false);
@@ -348,6 +492,12 @@ bool PICodeParser::parseFileContent(PIString & fc, bool main) {
 			tmp = pfc.takeCWord();
 			pfc.trim();
 			MetaMap meta = maybeMeta(pfc);
 			if (tmp == s_class || tmp == s_struct) {
 				tmp = pfc.takeCWord();
 				pfc.trim();
 				MetaMap smeta = maybeMeta(pfc);
 				meta << smeta;
 			}
 			parseEnum(0, cur_namespace + tmp, pfc.takeRange('{', '}'), meta);
 			pfc.takeSymbol();
 			continue;
@@ -355,8 +505,10 @@ bool PICodeParser::parseFileContent(PIString & fc, bool main) {
 		if (pfc.left(7) == s_typedef) {
 			pfc.cutLeft(7);
 			typedefs << parseTypedef(pfc.takeLeft(pfc.find(';')));
-			if (typedefs.back().first.isEmpty()) typedefs.pop_back();
+			if (typedefs.back().first.isEmpty())
-			else root_.typedefs << typedefs.back();
+				typedefs.pop_back();
 			else
 				root_.typedefs << typedefs.back();
 			pfc.takeSymbol();
 			continue;
 		}
@@ -390,35 +542,41 @@ PICodeParser::Entity * PICodeParser::parseClassDeclaration(const PIString & fc)
 		meta = tmp_meta.value(cd.takeMid(ind, 5));
 		cd.replaceAll(s_ss, ' ');
 	}
-	//piCout << "found class <****\n" << cd << "\n****>";
+	// piCout << "found class <****\n" << cd << "\n****>";
 	ind = cd.find(':');
-	PIVector<Entity * > parents;
+	PIVector<Entity *> parents;
 	if (ind > 0) {
 		PIStringList pl = cd.takeMid(ind + 1).trim().split(',');
 		cd.cutRight(1);
 		Entity * pe = 0;
-		piForeachC (PIString & p, pl) {
+		piForeachC(PIString & p, pl) {
-			if (p.contains(' ')) pn = p.mid(p.find(' ') + 1);
+			if (p.contains(' '))
-			else pn = p;
+				pn = p.mid(p.find(' ') + 1);
 			else
 				pn = p;
 			pe = findEntityByName(pn);
-			if (pe == 0) ;//{piCout << "Error: can`t find" << pn;}
+			if (pe == 0)
-			else parents << pe;
+				; //{piCout << "Error: can`t find" << pn;}
 			else
 				parents << pe;
 		}
 	}
 	PIString typename_ = cd.left(6).trim();
 	bool is_class      = typename_ == s_class;
 	Visibility vis     = cur_def_vis;
 	cur_def_vis        = (is_class ? Private : Public);
 	PIString cn        = cd.mid(6).trim();
 	bool has_name      = !cn.isEmpty();
 	if (cn.isEmpty()) cn = PIStringAscii("<unnamed_") + PIString::fromNumber(anon_num++) + '>';
-	//piCout << "found " << typename_ << cn;
+	// piCout << "found " << typename_ << cn;
-	if (cn.isEmpty()) return 0;
+	if (cn.isEmpty()) return nullptr;
 	Entity * e    = new Entity();
 	e->meta       = meta;
 	e->name       = cur_namespace + cn;
 	e->type       = typename_;
 	e->has_name   = has_name;
 	e->parents    = parents;
 	e->visibility = vis;
 	e->file       = cur_file;
 	entities << e;
 	return e;
@@ -441,18 +599,13 @@ void PICodeParser::parseClass(Entity * parent, PIString & fc, bool is_namespace)
 	Visibility prev_vis               = cur_def_vis;
 	int dind = fc.find('{'), find = fc.find(';'), end = 0;
 	if (dind < 0 && find < 0) return;
-	if (dind < 0 || find < dind) {
+	// piCout << "parse class <****\n" << fc << "\n****>";
 		fc.left(find);
 		return;
 	}
 	//piCout << "parse class <****\n" << fc << "\n****>";
 	Entity * ce = parent;
 	if (!is_namespace) {
 		ce = parseClassDeclaration(fc.takeLeft(dind));
 		fc.trim().cutLeft(1).cutRight(1).trim();
 	}
-	//piCout << "found class <****\n" << fc << "\n****>";
+	// piCout << "found class <****\n" << fc << "\n****>";
 	///if (!ce) return PIString();
 	if (ce) {
 		if (parent) parent->children << ce;
 		ce->parent_scope = parent;
@@ -461,14 +614,26 @@ void PICodeParser::parseClass(Entity * parent, PIString & fc, bool is_namespace)
 	bool def                = false;
 	PIString prev_namespace = cur_namespace, stmp;
 	if (ce) cur_namespace += ce->name + s_ns;
-	//piCout << "parse class" << ce->name << "namespace" << cur_namespace;
+	// piCout << "parse class" << ce->name << "namespace" << cur_namespace;
-	//piCout << "\nparse class" << ce->name << "namespace" << cur_namespace;
+	// piCout << "\nparse class" << ce->name << "namespace" << cur_namespace;
 	while (!fc.isEmpty()) {
 		PIString cw = fc.takeCWord(), tmp;
-		//piCout << "\ntaked word" << cw;
+		// piCout << "\ntaked word" << cw;
-		if (cw == s_public   ) {cur_def_vis = Public;    fc.cutLeft(1); continue;}
+		if (cw == s_public) {
-		if (cw == s_protected) {cur_def_vis = Protected; fc.cutLeft(1); continue;}
+			cur_def_vis = Public;
-		if (cw == s_private  ) {cur_def_vis = Private;   fc.cutLeft(1); continue;}
+			fc.cutLeft(1);
 			continue;
 		}
 		if (cw == s_protected) {
 			cur_def_vis = Protected;
 			fc.cutLeft(1);
 			continue;
 		}
 		if (cw == s_private) {
 			cur_def_vis = Private;
 			fc.cutLeft(1);
 			continue;
 		}
 		if (cw == s_namespace) {
 			PIString prev_namespace = cur_namespace, ccmn;
 			cur_namespace += fc.takeCWord() + s_ns;
@@ -478,6 +643,7 @@ void PICodeParser::parseClass(Entity * parent, PIString & fc, bool is_namespace)
 			continue;
 		}
 		if (cw == s_class || cw == s_struct || cw == s_union) {
 			// piCout << cw << isDeclaration(fc, 0, &end);
 			if (isDeclaration(fc, 0, &end)) {
 				fc.cutLeft(end);
 				fc.takeSymbol();
@@ -494,18 +660,26 @@ void PICodeParser::parseClass(Entity * parent, PIString & fc, bool is_namespace)
 			tmp = fc.takeCWord();
 			fc.trim();
 			MetaMap meta = maybeMeta(fc);
 			if (tmp == s_class || tmp == s_struct) {
 				tmp = fc.takeCWord();
 				fc.trim();
 				MetaMap smeta = maybeMeta(fc);
 				meta << smeta;
 			}
 			parseEnum(ce, cur_namespace + tmp, fc.takeRange('{', '}'), meta);
 			fc.takeSymbol();
 			continue;
 		}
-		if (cw == s_friend) {fc.cutLeft(fc.find(';') + 1); continue;}
+		if (cw == s_friend) {
 			fc.cutLeft(fc.find(';') + 1);
 			continue;
 		}
 		if (cw == s_typedef) {
 			if (ce) {
 				ce->typedefs << parseTypedef(fc.takeLeft(fc.find(';')));
 				typedefs << ce->typedefs.back();
 				typedefs.back().first.insert(0, cur_namespace);
-				if (ce->typedefs.back().first.isEmpty())
+				if (ce->typedefs.back().first.isEmpty()) ce->typedefs.pop_back();
 					ce->typedefs.pop_back();
 			}
 			fc.takeSymbol();
 			continue;
@@ -514,17 +688,22 @@ void PICodeParser::parseClass(Entity * parent, PIString & fc, bool is_namespace)
 			fc.takeRange('<', '>');
 			def = !isDeclaration(fc, 0, &end);
 			fc.cutLeft(end);
-			if (def) fc.takeRange('{', '}');
+			if (def)
-			else fc.takeSymbol();
+				fc.takeRange('{', '}');
 			else
 				fc.takeSymbol();
 			continue;
 		}
 		def = !isDeclaration(fc, 0, &end);
 		tmp = (cw + fc.takeLeft(end)).trim();
-		if (!tmp.isEmpty() && ce)
+		if (!tmp.isEmpty() && ce) parseMember(ce, tmp);
-			parseMember(ce, tmp);
+		if (def)
-		if (def) fc.takeRange('{', '}');
+			fc.takeRange('{', '}');
-		else fc.takeSymbol();
+		else
-		if (ps == fc.size_s()) {fc.cutLeft(1);}
+			fc.takeSymbol();
 		if (ps == fc.size_s()) {
 			fc.cutLeft(1);
 		}
 		ps = fc.size_s();
 	}
 	cur_def_vis   = prev_vis;
@@ -536,7 +715,7 @@ PICodeParser::MetaMap PICodeParser::parseMeta(PIString & fc) {
 	PICodeParser::MetaMap ret;
 	if (fc.isEmpty()) return ret;
 	PIStringList ml = fc.split(',');
-	piForeachC (PIString & m, ml) {
+	piForeachC(PIString & m, ml) {
 		int i = m.find('=');
 		if (i < 0) {
 			ret[m.trimmed()] = PIString();
@@ -547,7 +726,7 @@ PICodeParser::MetaMap PICodeParser::parseMeta(PIString & fc) {
 			ret[m.left(i).trim()] = mv;
 		}
 	}
-	//piCout << ms << ret;
+	// piCout << ms << ret;
 	return ret;
 }
@@ -555,47 +734,53 @@ PICodeParser::MetaMap PICodeParser::parseMeta(PIString & fc) {
 bool PICodeParser::parseEnum(Entity * parent, const PIString & name, PIString fc, const MetaMap & meta) {
 	static const PIString s_ss = PIStringAscii("  ");
 	static const PIString s_M  = PIStringAscii("$M");
-	//piCout << PIStringAscii("enum") << name << fc;
+	// piCout << PIStringAscii("enum") << name << fc;
 	Enum e(name);
 	e.meta = meta;
 	PIStringList vl(fc.split(','));
 	PIString vn;
 	int cv = -1, ind = 0;
-	piForeach (PIString & v, vl) {
+	piForeach(PIString & v, vl) {
 		MetaMap meta;
 		int mi = v.find(s_M);
 		if (mi >= 0) {
 			meta = tmp_meta.value(v.takeMid(mi, 5));
 			v.replaceAll(s_ss, ' ');
 		}
-		vn = v; ind = v.find('=');
+		vn  = v;
-		if (ind > 0) {cv = v.right(v.size_s() - ind - 1).toInt(); vn = v.left(ind);}
+		ind = v.find('=');
 		if (ind > 0) {
 			cv = v.right(v.size_s() - ind - 1).toInt();
 			vn = v.left(ind);
 		}
 		if (ind < 0) ++cv;
 		e.members << EnumeratorInfo(vn.trim(), cv, meta);
 	}
 	if (!e.members.isEmpty())
-		if (e.members.back().name.isEmpty())
+		if (e.members.back().name.isEmpty()) e.members.pop_back();
 			e.members.pop_back();
 	enums << e;
 	return true;
 }
 PICodeParser::Typedef PICodeParser::parseTypedef(PIString fc) {
-	//piCout << "parse typedef" << fc;
+	// piCout << "parse typedef" << fc;
 	Typedef td;
 	fc.replaceAll('\t', ' ');
 	if (fc.contains('(')) {
 		int start = fc.find('('), end = fc.find(')');
 		td.first = fc.takeMid(start + 1, end - start - 1).trim();
-		if (td.first.left(1) == PIChar('*')) {td.first.cutLeft(1).trim(); fc.insert(start + 1, '*');}
+		if (td.first.left(1) == PIChar('*')) {
 			td.first.cutLeft(1).trim();
 			fc.insert(start + 1, '*');
 		}
 		td.second = fc.trim();
 	} else {
 		td.first  = fc.takeMid(fc.findLast(' ')).trim();
 		td.second = fc.trim();
 	}
-	//piCout << "found typedef" << td;
+	// piCout << "found typedef" << td;
 	return td;
 }
@@ -631,22 +816,26 @@ bool PICodeParser::parseMember(Entity * parent, PIString & fc) {
 	if (fc.trim().isEmpty()) return true;
 	if (fc.find(s_operator) >= 0) return true;
 	tmp_temp.clear();
-	//piCout << "parse member" << fc;
+	// piCout << "parse member" << fc;
 	int ts = fc.find('<'), te = 0;
 	PIString ctemp, crepl;
 	while (ts >= 0) {
 		ctemp = fc.mid(ts).takeRange('<', '>');
-		if (ctemp.isEmpty()) {te = ts + 1; ts = fc.find('<', te); continue;}
+		if (ctemp.isEmpty()) {
 			te = ts + 1;
 			ts = fc.find('<', te);
 			continue;
 		}
 		crepl = s_T + PIString::fromNumber(tmp_temp.size_s()).expandLeftTo(3, '0');
 		fc.replace(ts, ctemp.size_s() + 2, crepl);
 		tmp_temp[crepl] = '<' + ctemp + '>';
 		ts              = fc.find('<', te);
 	}
 	fc.replaceAll('\n', ' ').replaceAll('\t', ' ').replaceAll(s_ss, ' ').replaceAll(s_cs, ',').replaceAll(s_sb, '(').replaceAll(s_sM, s_M);
-	//piCout << "parse member" << fc;
+	// piCout << "parse member" << fc;
 	PIStringList tl, al;
 	Member me;
-	//piCout << fc;
+	// piCout << fc;
 	if (fc.contains('(')) {
 		MetaMap meta;
 		int ind = fc.find(s_M);
@@ -656,10 +845,10 @@ bool PICodeParser::parseMember(Entity * parent, PIString & fc) {
 		}
 		fc.cutRight(fc.size_s() - fc.findLast(')') - 1);
 		te = fc.find('(');
-		//piCout << fc;
+		// piCout << fc;
 		for (ts = te - 1; ts >= 0; --ts)
 			if (!_isCChar(fc[ts]) && !(fc[ts].isDigit())) break;
-		//piCout << "takeMid" << ts + 1 << te - ts - 1;
+		// piCout << "takeMid" << ts + 1 << te - ts - 1;
 		me.meta = meta;
 		me.name = fc.takeMid(ts + 1, te - ts - 1);
 		if (me.name == parent->name) return true;
@@ -680,20 +869,18 @@ bool PICodeParser::parseMember(Entity * parent, PIString & fc) {
 		}
 		normalizeEntityNamespace(me.type);
 		int i = 0;
-		//piCout << me.arguments_full;
+		// piCout << me.arguments_full;
-		piForeach (PIString & a, me.arguments_full)
+		piForeach(PIString & a, me.arguments_full)
-				if ((i = a.find('=')) > 0)
+			if ((i = a.find('=')) > 0) a.cutRight(a.size_s() - i).trim();
 				a.cutRight(a.size_s() - i).trim();
 		for (int j = 0; j < me.arguments_full.size_s(); ++j)
 			if (me.arguments_full[j] == s_void) {
 				me.arguments_full.remove(j);
 				--j;
 			}
 		me.arguments_type = me.arguments_full;
-		piForeach (PIString & a, me.arguments_type) {
+		piForeach(PIString & a, me.arguments_type) {
 			crepl.clear();
-			if (a.contains('['))
+			if (a.contains('[')) crepl = a.takeMid(a.find('['), a.findLast(']') - a.find('[') + 1);
 				crepl = a.takeMid(a.find('['), a.findLast(']') - a.find('[') + 1);
 			for (ts = a.size_s() - 1; ts >= 0; --ts)
 				if (!_isCChar(a[ts]) && !(a[ts].isDigit())) break;
 			a.cutRight(a.size_s() - ts - 1);
@@ -702,18 +889,18 @@ bool PICodeParser::parseMember(Entity * parent, PIString & fc) {
 			a.trim();
 		}
 		restoreTmpTemp(&me);
-		//piCout << "func" << me.type << me.name << me.arguments_full << me.arguments_type;
+		// piCout << "func" << me.type << me.name << me.arguments_full << me.arguments_type;
 		parent->functions << me;
 	} else {
 		if (fc.endsWith(';')) fc.cutRight(1);
-		//piCout << "member" << fc;
+		// piCout << "member" << fc;
 		if (fc.startsWith(s_using) || !(fc.contains(' ') || fc.contains('\t') || fc.contains('\n'))) return true;
 		int bits = extractMemberBits(fc);
 		tl       = fc.split(',');
-		//piCout << "member" << fc << tl;
+		// piCout << "member" << fc << tl;
-		//piCout << "member after eb" << fc << ", bits =" << bits;
+		// piCout << "member after eb" << fc << ", bits =" << bits;
 		if (tl.isEmpty()) return true;
-		piForeach (PIString & v, tl)
+		piForeach(PIString & v, tl)
 			removeAssignment(v);
 		bool vn = true;
 		ctemp   = tl.front().trim();
@@ -723,8 +910,11 @@ bool PICodeParser::parseMember(Entity * parent, PIString & fc) {
 			ctemp.trim();
 		}
 		for (ts = ctemp.size_s() - 1; ts > 0; --ts) {
-			if (vn) {if (!_isCChar(ctemp[ts]) && !ctemp[ts].isDigit() && ctemp[ts] != '[' && ctemp[ts] != ']') vn = false;}
+			if (vn) {
-			else {if (_isCChar(ctemp[ts]) || ctemp[ts].isDigit()) break;}
+				if (!_isCChar(ctemp[ts]) && !ctemp[ts].isDigit() && ctemp[ts] != '[' && ctemp[ts] != ']') vn = false;
 			} else {
 				if (_isCChar(ctemp[ts]) || ctemp[ts].isDigit()) break;
 			}
 		}
 		me.type       = ctemp.takeLeft(ts + 1);
 		me.visibility = cur_def_vis;
@@ -754,21 +944,21 @@ bool PICodeParser::parseMember(Entity * parent, PIString & fc) {
 		type.trim();
 		normalizeEntityNamespace(type);
 		tl[0] = ctemp.trim();
-		//piCout << "vars" << tl;
+		// piCout << "vars" << tl;
-		piForeachC (PIString & v, tl) {
+		piForeachC(PIString & v, tl) {
 			crepl.clear();
 			me.name = v.trimmed();
 			me.type = type;
 			restoreTmpMeta(&me);
 			if (me.name.isEmpty()) continue;
-			if (me.name.contains('['))
+			if (me.name.contains('[')) crepl = me.name.takeMid(me.name.find('['), me.name.findLast(']') - me.name.find('[') + 1);
 				crepl = me.name.takeMid(me.name.find('['), me.name.findLast(']') - me.name.find('[') + 1);
 			while (!me.name.isEmpty()) {
 				if (me.name.front() == PIChar('*') || me.name.front() == PIChar('&')) {
 					me.type += me.name.takeLeft(1);
 					me.name.trim();
-				} else break;
+				} else
 					break;
 			}
 			me.is_type_ptr = (me.type.right(1) == PIChar(']') || me.type.right(1) == PIChar('*'));
 			me.type += crepl;
@@ -778,12 +968,12 @@ bool PICodeParser::parseMember(Entity * parent, PIString & fc) {
 				if (cdim.isEmpty()) break;
 				me.dims << cdim;
 			}
-			//PICout(PICoutManipulators::AddAll) << "var" << me.type << me.name << me.bits;
+			// PICout(PICoutManipulators::AddAll) << "var" << me.type << me.name << me.bits;
-			//piCout << "var" << v << me.type << me.name << me.bits;
+			// piCout << "var" << v << me.type << me.name << me.bits;
 			parent->members << me;
 		}
 	}
-	//piCout << "parse member" << fc;
+	// piCout << "parse member" << fc;
 	return true;
 }
@@ -815,13 +1005,25 @@ void PICodeParser::normalizeEntityNamespace(PIString & n) {
 			break;
 		}
 	n.push_front(' ');
-	if (n.find(s_s_const_s) >= 0) {n.replaceAll(s_s_const_s, ""); pref += s_const_s;}
+	if (n.find(s_s_const_s) >= 0) {
-	if (n.find(s_s_static_s) >= 0) {n.replaceAll(s_s_static_s, ""); pref += s_static_s;}
+		n.replaceAll(s_s_const_s, "");
-	if (n.find(s_s_mutable_s) >= 0) {n.replaceAll(s_s_mutable_s, ""); pref += s_mutable_s;}
+		pref += s_const_s;
-	if (n.find(s_s_volatile_s) >= 0) {n.replaceAll(s_s_volatile_s, ""); pref += s_volatile_s;}
+	}
 	if (n.find(s_s_static_s) >= 0) {
 		n.replaceAll(s_s_static_s, "");
 		pref += s_static_s;
 	}
 	if (n.find(s_s_mutable_s) >= 0) {
 		n.replaceAll(s_s_mutable_s, "");
 		pref += s_mutable_s;
 	}
 	if (n.find(s_s_volatile_s) >= 0) {
 		n.replaceAll(s_s_volatile_s, "");
 		pref += s_volatile_s;
 	}
 	n.trim();
 	int f = 0;
-	piForeachC (Entity * e, entities) {
+	piForeachC(Entity * e, entities) {
 		if (e->name == n) {
 			n = (pref + n + suff).trim();
 			return;
@@ -833,20 +1035,20 @@ void PICodeParser::normalizeEntityNamespace(PIString & n) {
 					return;
 				}
 	}
-	piForeachC (Enum & e, enums) {
+	piForeachC(Enum & e, enums) {
 		if ((f = e.name.find(n)) >= 0)
 			if (e.name.at(f - 1) == PIChar(':'))
 				if (e.name.find(cur_namespace) >= 0) {
-					//piCout << "change" << n << "to" << e.name + suff;
+					// piCout << "change" << n << "to" << e.name + suff;
 					n = pref + e.name + suff;
 					return;
 				}
 	}
-	piForeachC (Typedef & e, typedefs) {
+	piForeachC(Typedef & e, typedefs) {
 		if ((f = e.first.find(n)) >= 0)
 			if (e.first.at(f - 1) == PIChar(':'))
 				if (e.first.find(cur_namespace) >= 0) {
-					//piCout << "change" << n << "to" << e.name + suff;
+					// piCout << "change" << n << "to" << e.name + suff;
 					n = pref + e.first + suff;
 					return;
 				}
@@ -858,11 +1060,11 @@ void PICodeParser::normalizeEntityNamespace(PIString & n) {
 void PICodeParser::restoreTmpTemp(Member * e) {
 	static const PIString s_T = PIStringAscii("$T");
 	int i                     = 0;
-	piForeach (PIString & a, e->arguments_full) {
+	piForeach(PIString & a, e->arguments_full) {
 		while ((i = a.find(s_T)) >= 0)
 			a.replace(i, 5, tmp_temp[a.mid(i, 5)]);
 	}
-	piForeach (PIString & a, e->arguments_type) {
+	piForeach(PIString & a, e->arguments_type) {
 		while ((i = a.find(s_T)) >= 0)
 			a.replace(i, 5, tmp_temp[a.mid(i, 5)]);
 	}
@@ -895,7 +1097,7 @@ bool PICodeParser::macroCondition(const PIString & mif, PIString mifcond) {
 	static const PIString s_ifndef = PIStringAscii("ifndef");
 	static const PIString s_if     = PIStringAscii("if");
 	static const PIString s_elif   = PIStringAscii("elif");
-	//piCout << "macroCondition" << mif << mifcond;
+	// piCout << "macroCondition" << mif << mifcond;
 	if (mif == s_ifdef) return isDefineExists(mifcond);
 	if (mif == s_ifndef) return !isDefineExists(mifcond);
 	if (mif == s_if || mif == s_elif) {
@@ -914,14 +1116,29 @@ double PICodeParser::procMacrosCond(PIString fc) {
 	char cc, nc;
 	PIString ce;
 	fc.removeAll(s_defined);
-	//piCout << "procMacrosCond" << fc;
+	// piCout << "procMacrosCond" << fc;
 	while (!fc.isEmpty()) {
 		cc = fc[0].toAscii();
 		nc = (fc.size() > 1 ? fc[1].toAscii() : 0);
-		if (cc == '!') {neg = true; fc.pop_front(); continue;}
+		if (cc == '!') {
-		if (cc == '(') {br = true; brv = procMacrosCond(fc.takeRange('(', ')'));}
+			neg = true;
-		if (cc == '&' && nc == '&') {fc.remove(0, 2); oper = 1; continue;}
+			fc.pop_front();
-		if (cc == '|' && nc == '|') {fc.remove(0, 2); oper = 2; continue;}
+			continue;
 		}
 		if (cc == '(') {
 			br  = true;
 			brv = procMacrosCond(fc.takeRange('(', ')'));
 		}
 		if (cc == '&' && nc == '&') {
 			fc.remove(0, 2);
 			oper = 1;
 			continue;
 		}
 		if (cc == '|' && nc == '|') {
 			fc.remove(0, 2);
 			oper = 2;
 			continue;
 		}
 		if (!br) {
 			ce = fc.takeCWord();
 			if (ce.isEmpty()) ce = fc.takeNumber();
@@ -931,7 +1148,7 @@ double PICodeParser::procMacrosCond(PIString fc) {
 			ret   = br ? brv : defineValue(ce);
 			if (neg) ret = -ret;
 		} else {
-			//piCout << "oper" << oper << "with" << ce;
+			// piCout << "oper" << oper << "with" << ce;
 			if (!br) brv = defineValue(ce);
 			switch (oper) {
 			case 1: ret = ret && (neg ? -brv : brv); break;
@@ -942,24 +1159,22 @@ double PICodeParser::procMacrosCond(PIString fc) {
 		ps = fc.size_s();
 		br = neg = false;
 	}
-	//piCout << "return" << ret;
+	// piCout << "return" << ret;
 	return ret;
 }
 bool PICodeParser::isDefineExists(const PIString & dn) {
-	piForeachC (Define & d, defines) {
+	piForeachC(Define & d, defines) {
-		if (d.first == dn)
+		if (d.first == dn) return true;
 			return true;
 	}
 	return false;
 }
 double PICodeParser::defineValue(const PIString & dn) {
-	piForeachC (Define & d, defines) {
+	piForeachC(Define & d, defines) {
-		if (d.first == dn)
+		if (d.first == dn) return d.second.isEmpty() ? 1. : d.second.toDouble();
 			return d.second.isEmpty() ? 1. : d.second.toDouble();
 	}
 	return dn.toDouble();
 }
@@ -978,7 +1193,7 @@ void PICodeParser::replaceMeta(PIString & dn) {
 		PIString meta = dn.mid(ms, ml).trim();
 		PIString rm   = s_M + PIString::fromNumber(tmp_meta.size_s()).expandLeftTo(3, '0');
 		dn.replace(s, ms + ml + 1 - s, rm);
-		//piCout << "FOUND META \"" << meta << '\"';
+		// piCout << "FOUND META \"" << meta << '\"';
 		tmp_meta[rm] = parseMeta(meta);
 		s            = dn.find(s_PIMETA);
 	}
@@ -986,18 +1201,23 @@ void PICodeParser::replaceMeta(PIString & dn) {
 PICodeParser::Entity * PICodeParser::findEntityByName(const PIString & en) {
-	piForeach (Entity * e, entities)
+	piForeach(Entity * e, entities)
-			if (e->name == en)
+		if (e->name == en) return e;
 			return e;
 	return 0;
 }
 bool PICodeParser::isDeclaration(const PIString & fc, int start, int * end) {
 	int dind = fc.find('{', start), find = fc.find(';', start);
-	//piCout << "isDeclaration" << dind << find << fc.left(10);
+	// piCout << "isDeclaration" << dind << find << fc.left(10);
-	if (dind < 0 && find < 0) {if (end) *end = -1; return true;}
+	if (dind < 0 && find < 0) {
-	if (dind < 0 || find < dind) {if (end) *end = find; return true;}
+		if (end) *end = -1;
 		return true;
 	}
 	if (dind < 0 || find < dind) {
 		if (end) *end = find;
 		return true;
 	}
 	if (end) *end = dind;
 	return false;
 }
@@ -1031,72 +1251,85 @@ PIString PICodeParser::procMacros(PIString fc) {
 	static const PIString s_elif   = PIStringAscii("elif");
 	static const PIString s_else   = PIStringAscii("else");
 	static const PIString s_endif  = PIStringAscii("endif");
 	static const PIString s_L      = PIStringAscii("$L");
 	if (fc.isEmpty()) return PIString();
 	int ifcnt = 0;
 	bool grab = false, skip = false, cond_ok = false;
 	PIString pfc, nfc, line, mif, mifcond;
-	//piCout << "procMacros\n<******" << fc << "\n******>";
+	// piCout << "procMacros\n<******" << fc << "\n******>";
 	fc += '\n';
 	while (!fc.isEmpty()) {
 		line = fc.takeLine().trimmed();
 		if (line.left(1) == PIChar('#')) {
 			mifcond = line.mid(1);
 			mif     = mifcond.takeCWord();
-			//piCout << mif;
+			// piCout << mif;
-			//piCout << "mif mifcond" << mif << mifcond << ifcnt;
+			// piCout << "mif mifcond" << mif << mifcond << ifcnt;
 			if (skip || grab) {
 				if (mif.left(2) == s_if) ifcnt++;
 				if (mif.left(5) == s_endif) {
-					if (ifcnt > 0) ifcnt--;
+					if (ifcnt > 0)
 						ifcnt--;
 					else {
-						//piCout << "main endif" << skip << grab;
+						// piCout << "main endif" << skip << grab;
-						if (grab) pfc << procMacros(nfc);
+						if (grab) pfc += procMacros(nfc);
 						skip = grab = false;
 						continue;
 					}
 				}
 				if (mif.left(4) == s_elif && ifcnt == 0) {
-					//piCout << "main elif" << skip << grab << cond_ok;
+					// piCout << "main elif" << skip << grab << cond_ok;
 					if (cond_ok) {
 						if (grab) {
-							pfc << procMacros(nfc);
+							pfc += procMacros(nfc);
-							skip = true; grab = false;
+							skip = true;
 							grab = false;
 						}
 						continue;
 					}
 					if (skip) {
-						//piCout << "check elif" << skip << grab << cond_ok;
+						// piCout << "check elif" << skip << grab << cond_ok;
 						if (!macroCondition(mif, mifcond.trimmed())) continue;
-						//piCout << "check elif ok";
+						// piCout << "check elif ok";
-						skip = false; grab = cond_ok = true;
+						skip = false;
 						grab = cond_ok = true;
 						continue;
 					}
 					continue;
 				}
 				if (mif.left(4) == s_else && ifcnt == 0) {
-					//piCout << "main else" << skip << grab;
+					// piCout << "main else" << skip << grab;
-					if (grab) pfc << procMacros(nfc);
+					if (grab) pfc += procMacros(nfc);
-					if (skip && !cond_ok) {skip = false; grab = true;}
+					if (skip && !cond_ok) {
-					else {skip = true; grab = false;}
+						skip = false;
 						grab = true;
 					} else {
 						skip = true;
 						grab = false;
 					}
 					continue;
 				}
-				if (grab) nfc << line << '\n';
+				if (grab) nfc += line + '\n';
 				continue;
 			}
 			if (mif.left(2) == s_if) {
-				//piCout << "main if";
+				// piCout << "main if";
 				skip = grab = cond_ok = false;
-				if (macroCondition(mif, mifcond.trimmed())) grab = cond_ok = true;
+				if (macroCondition(mif, mifcond.trimmed()))
-				else skip = true;
+					grab = cond_ok = true;
 				else
 					skip = true;
 				ifcnt = 0;
 				nfc.clear();
 			} else {
 				parseDirective(line.cutLeft(1).trim());
-				//return false; /// WARNING: now skip errors
+				// return false; /// WARNING: now skip errors
 			}
 		} else {
-			if (grab) nfc << line << '\n';
+			if (grab)
-			else if (!skip) pfc << line << '\n';
+				nfc += line + '\n';
 			else if (!skip)
 				pfc += line + '\n';
 		}
 	}
 	return pfc;
@@ -1108,9 +1341,11 @@ bool PICodeParser::parseDirective(PIString d) {
 	static const PIString s_define  = PIStringAscii("define");
 	static const PIString s_undef   = PIStringAscii("undef");
 	static const PIString s_PIMETA  = PIStringAscii("PIMETA");
 	static const PIString s_L       = PIStringAscii("$L");
 	if (d.isEmpty()) return true;
 	d.replaceAll(s_L, '\n');
 	PIString dname = d.takeCWord();
-	//piCout << "parseDirective" << d;
+	// piCout << "parseDirective" << d;
 	if (dname == s_include) {
 		d.replaceAll('<', '\"').replaceAll('>', '\"');
 		PIString cf = cur_file, ifc = d.takeRange('\"', '\"');
@@ -1122,7 +1357,7 @@ bool PICodeParser::parseDirective(PIString d) {
 	}
 	if (dname == s_define) {
 		PIString mname = d.takeCWord();
-		//piCout << mname;
+		// piCout << mname;
 		if (mname == s_PIMETA) return true;
 		if (d.left(1) == PIChar('(')) { // macro
 			PIStringList args = d.takeRange('(', ')').split(',').trim();
@@ -1147,7 +1382,10 @@ bool PICodeParser::parseDirective(PIString d) {
 	if (dname == s_undef) {
 		PIString mname = d.takeCWord();
 		for (int i = 0; i < defines.size_s(); ++i)
-			if (defines[i].first == mname) {defines.remove(i); --i;}
+			if (defines[i].first == mname) {
 				defines.remove(i);
 				--i;
 			}
 		return true;
 	}
 	return true;
--- a/libs/main/code/picodeparser.h
+++ b/libs/main/code/picodeparser.h
@@ -26,17 +26,27 @@
 #ifndef PICODEPARSER_H
 #define PICODEPARSER_H
 #include "pifile.h"
 #include "pievaluator.h"
 #include "pifile.h"
-inline bool _isCChar(const PIChar & c) {return (c.isAlpha() || (c.toAscii() == '_'));}
+inline bool _isCChar(const PIChar & c) {
-inline bool _isCChar(const PIString & c) {if (c.isEmpty()) return false; return _isCChar(c[0]);}
+	return (c.isAlpha() || (c.toAscii() == '_'));
 }
 inline bool _isCChar(const PIString & c) {
 	if (c.isEmpty()) return false;
 	return _isCChar(c[0]);
 }
 class PIP_EXPORT PICodeParser {
 public:
 	PICodeParser();
-	enum Visibility {Global, Public, Protected, Private};
+	enum Visibility {
 		Global,
 		Public,
 		Protected,
 		Private
 	};
 	enum Attribute {
 		NoAttributes = 0x0,
 		Const        = 0x01,
@@ -73,7 +83,7 @@ public:
 			is_type_ptr = false;
 			attributes  = NoAttributes;
 		}
-		bool isBitfield() const {return bits > 0;}
+		bool isBitfield() const { return bits > 0; }
 		MetaMap meta;
 		PIString type;
 		PIString name;
@@ -102,24 +112,26 @@ public:
 		int size;
 		bool has_name;
 		Entity * parent_scope;
-		PIVector<Entity * > parents;
+		PIVector<Entity *> parents;
-		PIVector<Entity * > children;
+		PIVector<Entity *> children;
 		PIVector<Member> functions;
 		PIVector<Member> members;
 		PIVector<Typedef> typedefs;
 	};
 	struct PIP_EXPORT EnumeratorInfo {
-		EnumeratorInfo(const PIString & n = PIString(), int v = 0, const MetaMap & m = MetaMap()) {name = n; value = v; meta = m;}
+		EnumeratorInfo(const PIString & n = PIString(), int v = 0, const MetaMap & m = MetaMap()) {
 			name  = n;
 			value = v;
 			meta  = m;
 		}
 		MetaMap meta;
 		PIString name;
 		int value;
 	};
 	struct PIP_EXPORT Enum {
-		Enum(const PIString & n = PIString()) {
+		Enum(const PIString & n = PIString()) { name = n; }
 			name = n;
 		}
 		MetaMap meta;
 		PIString name;
 		PIVector<EnumeratorInfo> members;
@@ -127,23 +139,24 @@ public:
 	void parseFile(const PIString & file, bool follow_includes = true);
 	void parseFiles(const PIStringList & files, bool follow_includes = true);
 	void parseFileContent(PIString fc);
-	void includeDirectory(const PIString & dir) {includes << dir;}
+	void includeDirectory(const PIString & dir) { includes << dir; }
-	void addDefine(const PIString & def_name, const PIString & def_value) {custom_defines << Define(def_name, def_value);}
+	void addDefine(const PIString & def_name, const PIString & def_value) { custom_defines << Define(def_name, def_value); }
 	bool isEnum(const PIString & name);
 	Entity * findEntityByName(const PIString & en);
-	PIStringList parsedFiles() const {return PIStringList(proc_files.toVector());}
+	PIStringList parsedFiles() const { return PIStringList(proc_files.toVector()); }
-	PIString mainFile() const {return main_file;}
+	PIString mainFile() const { return main_file; }
-	const PICodeParser::Entity * global() const {return &root_;}
+	const PICodeParser::Entity * global() const { return &root_; }
-	int macrosSubstitutionMaxIterations() const {return macros_iter;}
+	int macrosSubstitutionMaxIterations() const { return macros_iter; }
-	void setMacrosSubstitutionMaxIterations(int value) {macros_iter = value;}
+	void setMacrosSubstitutionMaxIterations(int value) { macros_iter = value; }
 	PIVector<Define> defines, custom_defines;
 	PIVector<Macro> macros;
 	PIVector<Enum> enums;
 	PIVector<Typedef> typedefs;
-	PIVector<Entity * > entities;
+	PIVector<Entity *> entities;
 private:
 	void clear();
@@ -181,7 +194,6 @@ private:
 	PIString cur_namespace;
 	PIMap<PIString, PIString> tmp_temp;
 	PIMap<PIString, MetaMap> tmp_meta;
 };
 #endif // PICODEPARSER_H
--- a/libs/main/compress/picompress.h
+++ b/libs/main/compress/picompress.h
@@ -58,8 +58,8 @@
 #ifndef PICOMPRESS_H
 #define PICOMPRESS_H
 #include "pip_compress_export.h"
 #include "pibytearray.h"
 #include "pip_compress_export.h"
 //! \~english Compress "ba" with compression level "level", return empty %PIByteArray if no compression supports
 //! \~russian Сжимает "ba" с уровнем сжатия "level", возвращает пустой %PIByteArray если нет поддержки
--- a/libs/main/console/pikbdlistener.cpp
+++ b/libs/main/console/pikbdlistener.cpp
@@ -16,13 +16,15 @@
    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 "piincludes_p.h"
 #include "pikbdlistener.h"
 #include "piincludes_p.h"
 #include "piliterals.h"
 #ifndef WINDOWS
 #  include <termios.h>
 #else
 #  include <wingdi.h>
 #  include <wincon.h>
 #  include <wingdi.h>
 #endif
 /** \class PIKbdListener
@@ -47,80 +49,82 @@ PIKbdListener * PIKbdListener::_object = 0;
 #ifndef WINDOWS
 // unix
 const PIKbdListener::EscSeq PIKbdListener::esc_seq[] = {
-	{"OA",   PIKbdListener::UpArrow,     0,  0        , 1 },
+	{"OA",   PIKbdListener::UpArrow,    0, 0,        1},
-	{"OA",   PIKbdListener::UpArrow,     4,  0        , 0 },
+	{"OA",   PIKbdListener::UpArrow,    4, 0,        0},
-	{"[1A",  PIKbdListener::UpArrow,     0,  0        , 0 },
+	{"[1A",  PIKbdListener::UpArrow,    0, 0,        0},
-	{"[A",   PIKbdListener::UpArrow,     0,  vt_all   , 0 },
+	{"[A",   PIKbdListener::UpArrow,    0, vt_all,   0},
-	{"OB",   PIKbdListener::DownArrow,   0,  0        , 1 },
+	{"OB",   PIKbdListener::DownArrow,  0, 0,        1},
-	{"OB",   PIKbdListener::DownArrow,   4,  0        , 0 },
+	{"OB",   PIKbdListener::DownArrow,  4, 0,        0},
-	{"[1B",  PIKbdListener::DownArrow,   0,  0        , 0 },
+	{"[1B",  PIKbdListener::DownArrow,  0, 0,        0},
-	{"[B",   PIKbdListener::DownArrow,   0,  vt_all   , 0 },
+	{"[B",   PIKbdListener::DownArrow,  0, vt_all,   0},
-	{"OC",   PIKbdListener::RightArrow,  0,  0        , 1 },
+	{"OC",   PIKbdListener::RightArrow, 0, 0,        1},
-	{"OC",   PIKbdListener::RightArrow,  4,  0        , 0 },
+	{"OC",   PIKbdListener::RightArrow, 4, 0,        0},
-	{"[1C",  PIKbdListener::RightArrow,  0,  0        , 0 },
+	{"[1C",  PIKbdListener::RightArrow, 0, 0,        0},
-	{"[C",   PIKbdListener::RightArrow,  0,  vt_all   , 0 },
+	{"[C",   PIKbdListener::RightArrow, 0, vt_all,   0},
-	{"OD",   PIKbdListener::LeftArrow,   0,  0        , 1 },
+	{"OD",   PIKbdListener::LeftArrow,  0, 0,        1},
-	{"OD",   PIKbdListener::LeftArrow,   4,  0        , 0 },
+	{"OD",   PIKbdListener::LeftArrow,  4, 0,        0},
-	{"[1D",  PIKbdListener::LeftArrow,   0,  0        , 0 },
+	{"[1D",  PIKbdListener::LeftArrow,  0, 0,        0},
-	{"[D",   PIKbdListener::LeftArrow,   0,  vt_all   , 0 },
+	{"[D",   PIKbdListener::LeftArrow,  0, vt_all,   0},
-	{"[H",   PIKbdListener::Home,        0,  vt_xterm , 0 },
+	{"[H",   PIKbdListener::Home,       0, vt_xterm, 0},
-	{"[1H",  PIKbdListener::Home,        0,  0        , 0 },
+	{"[1H",  PIKbdListener::Home,       0, 0,        0},
-	{"OH",   PIKbdListener::Home,        0,  0        , 1 },
+	{"OH",   PIKbdListener::Home,       0, 0,        1},
-	{"[1~",  PIKbdListener::Home,        0,  vt_linux , 0 },
+	{"[1~",  PIKbdListener::Home,       0, vt_linux, 0},
-	{"[F",   PIKbdListener::End,         0,  vt_xterm , 0 },
+	{"[F",   PIKbdListener::End,        0, vt_xterm, 0},
-	{"[1F",  PIKbdListener::End,         0,  0        , 0 },
+	{"[1F",  PIKbdListener::End,        0, 0,        0},
-	{"OF",   PIKbdListener::End,         0,  0        , 1 },
+	{"OF",   PIKbdListener::End,        0, 0,        1},
-	{"[4~",  PIKbdListener::End,         0,  vt_linux , 0 },
+	{"[4~",  PIKbdListener::End,        0, vt_linux, 0},
-	{"[2~",  PIKbdListener::Insert,      0,  vt_all   , 0 },
+	{"[2~",  PIKbdListener::Insert,     0, vt_all,   0},
-	{"[3~",  PIKbdListener::Delete,      0,  vt_all   , 0 },
+	{"[3~",  PIKbdListener::Delete,     0, vt_all,   0},
-	{"[5~",  PIKbdListener::PageUp,      0,  vt_all   , 0 },
+	{"[5~",  PIKbdListener::PageUp,     0, vt_all,   0},
-	{"[6~",  PIKbdListener::PageDown,    0,  vt_all   , 0 },
+	{"[6~",  PIKbdListener::PageDown,   0, vt_all,   0},
-	{"[Z",   PIKbdListener::Tab,         1,  vt_xterm , 0 },
+	{"[Z",   PIKbdListener::Tab,        1, vt_xterm, 0},
-	{"OP",   PIKbdListener::F1,          0,  vt_xterm , 0 },
+	{"OP",   PIKbdListener::F1,         0, vt_xterm, 0},
-	{"[[A",  PIKbdListener::F1,          0,  vt_linux , 0 },
+	{"[[A",  PIKbdListener::F1,         0, vt_linux, 0},
-	{"[11~", PIKbdListener::F1,          0,  0        , 0 },
+	{"[11~", PIKbdListener::F1,         0, 0,        0},
-	{"[25~", PIKbdListener::F1,          1,  vt_linux , 0 },
+	{"[25~", PIKbdListener::F1,         1, vt_linux, 0},
-	{"OQ",   PIKbdListener::F2,          0,  vt_xterm , 0 },
+	{"OQ",   PIKbdListener::F2,         0, vt_xterm, 0},
-	{"[[B",  PIKbdListener::F2,          0,  vt_linux , 0 },
+	{"[[B",  PIKbdListener::F2,         0, vt_linux, 0},
-	{"[12~", PIKbdListener::F2,          0,  0        , 0 },
+	{"[12~", PIKbdListener::F2,         0, 0,        0},
-	{"[26~", PIKbdListener::F2,          1,  vt_linux , 0 },
+	{"[26~", PIKbdListener::F2,         1, vt_linux, 0},
-	{"OR",   PIKbdListener::F3,          0,  vt_xterm , 0 },
+	{"OR",   PIKbdListener::F3,         0, vt_xterm, 0},
-	{"[[C",  PIKbdListener::F3,          0,  vt_linux , 0 },
+	{"[[C",  PIKbdListener::F3,         0, vt_linux, 0},
-	{"[13~", PIKbdListener::F3,          0,  0        , 0 },
+	{"[13~", PIKbdListener::F3,         0, 0,        0},
-	{"[28~", PIKbdListener::F3,          1,  vt_linux , 0 },
+	{"[28~", PIKbdListener::F3,         1, vt_linux, 0},
-	{"OS",   PIKbdListener::F4,          0,  vt_xterm , 0 },
+	{"OS",   PIKbdListener::F4,         0, vt_xterm, 0},
-	{"[[D",  PIKbdListener::F4,          0,  vt_linux , 0 },
+	{"[[D",  PIKbdListener::F4,         0, vt_linux, 0},
-	{"[14~", PIKbdListener::F4,          0,  0        , 0 },
+	{"[14~", PIKbdListener::F4,         0, 0,        0},
-	{"[29~", PIKbdListener::F4,          1,  vt_linux , 0 },
+	{"[29~", PIKbdListener::F4,         1, vt_linux, 0},
-	{"[[E",  PIKbdListener::F5,          0,  vt_linux , 0 },
+	{"[[E",  PIKbdListener::F5,         0, vt_linux, 0},
-	{"OT",   PIKbdListener::F5,          0,  0        , 0 },
+	{"OT",   PIKbdListener::F5,         0, 0,        0},
-	{"[15~", PIKbdListener::F5,          0,  vt_xterm , 0 },
+	{"[15~", PIKbdListener::F5,         0, vt_xterm, 0},
-	{"[31~", PIKbdListener::F5,          1,  vt_linux , 0 },
+	{"[31~", PIKbdListener::F5,         1, vt_linux, 0},
-	{"OU",   PIKbdListener::F6,          0,  0        , 0 },
+	{"OU",   PIKbdListener::F6,         0, 0,        0},
-	{"[17~", PIKbdListener::F6,          0,  vt_all   , 0 },
+	{"[17~", PIKbdListener::F6,         0, vt_all,   0},
-	{"[32~", PIKbdListener::F6,          1,  vt_linux , 0 },
+	{"[32~", PIKbdListener::F6,         1, vt_linux, 0},
-	{"OV",   PIKbdListener::F7,          0,  0        , 0 },
+	{"OV",   PIKbdListener::F7,         0, 0,        0},
-	{"[18~", PIKbdListener::F7,          0,  vt_all   , 0 },
+	{"[18~", PIKbdListener::F7,         0, vt_all,   0},
-	{"[33~", PIKbdListener::F7,          1,  vt_linux , 0 },
+	{"[33~", PIKbdListener::F7,         1, vt_linux, 0},
-	{"OW",   PIKbdListener::F8,          0,  0        , 0 },
+	{"OW",   PIKbdListener::F8,         0, 0,        0},
-	{"[19~", PIKbdListener::F8,          0,  vt_all   , 0 },
+	{"[19~", PIKbdListener::F8,         0, vt_all,   0},
-	{"[34~", PIKbdListener::F8,          1,  vt_linux , 0 },
+	{"[34~", PIKbdListener::F8,         1, vt_linux, 0},
-	{"OX",   PIKbdListener::F9,          0,  0        , 0 },
+	{"OX",   PIKbdListener::F9,         0, 0,        0},
-	{"[20~", PIKbdListener::F9,          0,  vt_all   , 0 },
+	{"[20~", PIKbdListener::F9,         0, vt_all,   0},
-	{"[35~", PIKbdListener::F9,          1,  vt_linux , 0 },
+	{"[35~", PIKbdListener::F9,         1, vt_linux, 0},
-	{"OY",   PIKbdListener::F10,         0,  0        , 0 },
+	{"OY",   PIKbdListener::F10,        0, 0,        0},
-	{"[21~", PIKbdListener::F10,         0,  vt_all   , 0 },
+	{"[21~", PIKbdListener::F10,        0, vt_all,   0},
-	{"[36~", PIKbdListener::F10,         1,  vt_linux , 0 },
+	{"[36~", PIKbdListener::F10,        1, vt_linux, 0},
-	{"OZ",   PIKbdListener::F11,         0,  0        , 0 },
+	{"OZ",   PIKbdListener::F11,        0, 0,        0},
-	{"[23~", PIKbdListener::F11,         0,  vt_all   , 0 },
+	{"[23~", PIKbdListener::F11,        0, vt_all,   0},
-	{"O[",   PIKbdListener::F12,         0,  0        , 0 },
+	{"O[",   PIKbdListener::F12,        0, 0,        0},
-	{"[24~", PIKbdListener::F12,         0,  vt_all   , 0 },
+	{"[24~", PIKbdListener::F12,        0, vt_all,   0},
 // End
 	{0,      0,						 0, 0,        0},
 };
 void setupTerminal(bool on) {
-	printf("\e[?1000"); printf(on ? "h" : "l");
+	printf("\e[?1000");
-	printf("\e[?1002"); printf(on ? "h" : "l");
+	printf(on ? "h" : "l");
 	printf("\e[?1002");
 	printf(on ? "h" : "l");
 	fflush(0);
 }
 #endif
@@ -128,7 +132,7 @@ void setupTerminal(bool on) {
 PRIVATE_DEFINITION_START(PIKbdListener)
 #ifdef WINDOWS
-	void * hIn, * hOut;
+	void *hIn, *hOut;
 	DWORD smode, tmode;
 	CONSOLE_SCREEN_BUFFER_INFO sbi;
 #else
@@ -144,7 +148,7 @@ PRIVATE_DEFINITION_END(PIKbdListener)
 PIKbdListener::PIKbdListener(KBFunc slot, void * _d, bool startNow): PIThread() {
-	setName("keyboard_listener");
+	setName("keyboard_listener"_a);
 	_object = this;
 #ifdef WINDOWS
 	PRIVATE->hIn  = GetStdHandle(STD_INPUT_HANDLE);
@@ -163,7 +167,8 @@ PIKbdListener::PIKbdListener(KBFunc slot, void * _d, bool startNow): PIThread()
 PIKbdListener::~PIKbdListener() {
-	terminate();
+	stop();
 	if (!waitForFinish(100_ms)) terminate();
 	end();
 }
@@ -193,7 +198,7 @@ PIKbdListener::KeyModifiers getModifiers(DWORD v, bool * shift = 0) {
 	if (ctrl) ret |= PIKbdListener::Ctrl;
 	if (shi) ret |= PIKbdListener::Shift;
 	if (alt) ret |= PIKbdListener::Alt;
-	//if (meta) ret |= PIKbdListener::Meta;
+	// if (meta) ret |= PIKbdListener::Meta;
 	if (v & CAPSLOCK_ON) shi = !shi;
 	if (shift) *shift = shi;
 	return ret;
@@ -215,42 +220,119 @@ void PIKbdListener::readKeyboard() {
 #ifdef WINDOWS
 	INPUT_RECORD ir;
 	ReadConsoleInput(PRIVATE->hIn, &ir, 1, &(PRIVATE->ret));
 	//piCout << ir.EventType;
 	switch (ir.EventType) {
 	case KEY_EVENT: {
 		KEY_EVENT_RECORD ker = ir.Event.KeyEvent;
 		if (ker.bKeyDown) {
 			bool shift   = false;
 			ke.modifiers = getModifiers(ker.dwControlKeyState, &shift);
-			//piCout << "key" << int(ker.wVirtualKeyCode) << int(ker.uChar.AsciiChar);
+			// piCout << "key" << int(ker.wVirtualKeyCode) << int(ker.uChar.AsciiChar);
 			switch (ker.wVirtualKeyCode) {
-			case 8:  PRIVATE->ret = 1; ke.key = Backspace; break;
+			case 8:
-			case 33: PRIVATE->ret = 1; ke.key = PageUp; break;
+				PRIVATE->ret = 1;
-			case 34: PRIVATE->ret = 1; ke.key = PageDown; break;
+				ke.key       = Backspace;
-			case 35: PRIVATE->ret = 1; ke.key = End; break;
+				break;
-			case 36: PRIVATE->ret = 1; ke.key = Home; break;
+			case 33:
-			case 37: PRIVATE->ret = 1; ke.key = LeftArrow; break;
+				PRIVATE->ret = 1;
-			case 38: PRIVATE->ret = 1; ke.key = UpArrow; break;
+				ke.key       = PageUp;
-			case 39: PRIVATE->ret = 1; ke.key = RightArrow; break;
+				break;
-			case 40: PRIVATE->ret = 1; ke.key = DownArrow; break;
+			case 34:
-			case 45: PRIVATE->ret = 1; ke.key = Insert; break;
+				PRIVATE->ret = 1;
-			case 46: PRIVATE->ret = 1; ke.key = Delete; break;
+				ke.key       = PageDown;
 				break;
 			case 35:
 				PRIVATE->ret = 1;
 				ke.key       = End;
 				break;
 			case 36:
 				PRIVATE->ret = 1;
 				ke.key       = Home;
 				break;
 			case 37:
 				PRIVATE->ret = 1;
 				ke.key       = LeftArrow;
 				break;
 			case 38:
 				PRIVATE->ret = 1;
 				ke.key       = UpArrow;
 				break;
 			case 39:
 				PRIVATE->ret = 1;
 				ke.key       = RightArrow;
 				break;
 			case 40:
 				PRIVATE->ret = 1;
 				ke.key       = DownArrow;
 				break;
 			case 45:
 				PRIVATE->ret = 1;
 				ke.key       = Insert;
 				break;
 			case 46:
 				PRIVATE->ret = 1;
 				ke.key       = Delete;
 				break;
 			case '\r':
-			case '\n': PRIVATE->ret = 1; ke.key = Return; break;
+			case '\n':
-			case ' ':  PRIVATE->ret = 1; ke.key = Space; break;
+				PRIVATE->ret = 1;
-			case '\t': PRIVATE->ret = 1; ke.key = Tab; break;
+				ke.key       = Return;
-			case 112:  PRIVATE->ret = 1; ke.key = F1; break;
+				break;
-			case 113:  PRIVATE->ret = 1; ke.key = F2; break;
+			case ' ':
-			case 114:  PRIVATE->ret = 1; ke.key = F3; break;
+				PRIVATE->ret = 1;
-			case 115:  PRIVATE->ret = 1; ke.key = F4; break;
+				ke.key       = Space;
-			case 116:  PRIVATE->ret = 1; ke.key = F5; break;
+				break;
-			case 117:  PRIVATE->ret = 1; ke.key = F6; break;
+			case '\t':
-			case 118:  PRIVATE->ret = 1; ke.key = F7; break;
+				PRIVATE->ret = 1;
-			case 119:  PRIVATE->ret = 1; ke.key = F8; break;
+				ke.key       = Tab;
-			case 120:  PRIVATE->ret = 1; ke.key = F9; break;
+				break;
-			case 121:  PRIVATE->ret = 1; ke.key = F10; break;
+			case 112:
-			case 122:  PRIVATE->ret = 1; ke.key = F11; break;
+				PRIVATE->ret = 1;
-			case 123:  PRIVATE->ret = 1; ke.key = F12; break;
+				ke.key       = F1;
 				break;
 			case 113:
 				PRIVATE->ret = 1;
 				ke.key       = F2;
 				break;
 			case 114:
 				PRIVATE->ret = 1;
 				ke.key       = F3;
 				break;
 			case 115:
 				PRIVATE->ret = 1;
 				ke.key       = F4;
 				break;
 			case 116:
 				PRIVATE->ret = 1;
 				ke.key       = F5;
 				break;
 			case 117:
 				PRIVATE->ret = 1;
 				ke.key       = F6;
 				break;
 			case 118:
 				PRIVATE->ret = 1;
 				ke.key       = F7;
 				break;
 			case 119:
 				PRIVATE->ret = 1;
 				ke.key       = F8;
 				break;
 			case 120:
 				PRIVATE->ret = 1;
 				ke.key       = F9;
 				break;
 			case 121:
 				PRIVATE->ret = 1;
 				ke.key       = F10;
 				break;
 			case 122:
 				PRIVATE->ret = 1;
 				ke.key       = F11;
 				break;
 			case 123:
 				PRIVATE->ret = 1;
 				ke.key       = F12;
 				break;
 			default:
 				PRIVATE->ret = 1;
 				rc[0]        = 1;
@@ -261,20 +343,25 @@ void PIKbdListener::readKeyboard() {
 				}
 				break;
 			}
-			if (ke.key == 0) {piMSleep(10); return;}
+			if (ke.key == 0) {
-		} else {piMSleep(10); return;}
+				piMSleep(10);
 				return;
 			}
-		break;
+		} else {
 			piMSleep(10);
 			return;
 		}
 	} break;
 	case MOUSE_EVENT: {
 		MOUSE_EVENT_RECORD mer = ir.Event.MouseEvent;
 		GetConsoleScreenBufferInfo(PRIVATE->hOut, &PRIVATE->sbi);
 		me.modifiers    = getModifiers(mer.dwControlKeyState);
 		MouseButtons mb = getButtons(mer.dwButtonState);
 		if (mer.dwEventFlags & MOUSE_WHEELED) {
-			memcpy((void*)(&we), (const void*)(&me), sizeof(me));
+			memcpy((void *)(&we), (const void *)(&me), sizeof(me));
 			we.action    = MouseWheel;
 			we.direction = short((mer.dwButtonState >> 8) & 0xFFFF) > 0;
-			//piCout << "wheel" << we.direction;
+			// piCout << "wheel" << we.direction;
 			wheelEvent(we, kbddata_);
 			break;
 		} else {
@@ -297,24 +384,23 @@ void PIKbdListener::readKeyboard() {
 						prev_p_me = me;
 					}
 					tm_dbl.reset();
 				} else if (mb < me.buttons)
 					me.action = MouseButtonRelease;
 				else {
 					if (mb != 0) piCoutObj << "WTF";
 					break;
 				}
 				else if (mb < me.buttons) me.action = MouseButtonRelease;
 				else {if (mb != 0) piCoutObj << "WTF"; break;}
 			}
 			me.buttons = mb;
-			if (piCompareBinary(&prev_me, &me, sizeof(me)))
+			if (piCompareBinary(&prev_me, &me, sizeof(me))) break;
-				break;
+			memcpy((void *)(&prev_me), (const void *)(&me), sizeof(me));
-			memcpy((void*)(&prev_me), (const void*)(&me), sizeof(me));
+			// PIString _s[] = {"press", "release", "dbl click", "move"};
-			//PIString _s[] = {"press", "release", "dbl click", "move"};
+			// piCoutObj << _s[me.action] << me.buttons << ":" << me.x << me.y;
 			//piCoutObj << _s[me.action] << me.buttons << ":" << me.x << me.y;
 			mouseEvent(me, kbddata_);
 			break;
 		}
-		}
+	} break;
-		break;
+	default: piMSleep(10); return;
 	default:
 		piMSleep(10);
 		return;
 	}
 #else
 	tcsetattr(0, TCSANOW, &PRIVATE->tterm);
@@ -327,8 +413,14 @@ void PIKbdListener::readKeyboard() {
 	for (int i = 0; i < PRIVATE->ret; ++i)
 	    std::cout << "'" << (char)(rc[i]) << "' " << (int)(uchar)(rc[i]);
 	std::cout << std::endl;*/
-	if (rc[0] == 0) {piMSleep(10); return;}
+	if (rc[0] == 0) {
-	if (PRIVATE->ret < 0 || PRIVATE->ret > 7) {piMSleep(10); return;}
+		piMSleep(10);
 		return;
 	}
 	if (PRIVATE->ret < 0 || PRIVATE->ret > 7) {
 		piMSleep(10);
 		return;
 	}
 	if (PRIVATE->ret == 1) {
 		if (rc[0] == 8)
 			ke.key = Backspace;
@@ -345,9 +437,10 @@ void PIKbdListener::readKeyboard() {
 		if (PRIVATE->ret == 2) {
 			mod    = 2;
 			ke.key = PIChar::fromConsole(rc[1]).unicode16Code();
-		} else {// escape-seq
+		} else {                 // escape-seq
 			if (rc[1] == '\e') { // search for Alt
-				for (int i = 1; i < 7; ++i) rc[i] = rc[i + 1];
+				for (int i = 1; i < 7; ++i)
 					rc[i] = rc[i + 1];
 				mod = 2;
 				PRIVATE->ret--;
 			}
@@ -358,10 +451,10 @@ void PIKbdListener::readKeyboard() {
 						me.y  = uchar(rc[5] - '!');
 						int b = rc[3] & 0x7, a = rc[3] & 0x60;
 						if (a == 0x60) {
-							memcpy((void*)(&we), (const void*)(&me), sizeof(me));
+							memcpy((void *)(&we), (const void *)(&me), sizeof(me));
 							we.action    = MouseWheel;
 							we.direction = (b == 0);
-							//piCout << "wheel" << we.direction;
+							// piCout << "wheel" << we.direction;
 							wheelEvent(we, kbddata_);
 						} else {
 							switch (b) {
@@ -385,18 +478,19 @@ void PIKbdListener::readKeyboard() {
 								}
 							}
 							if (a == 0x40) me.action = MouseMove;
-							//PIString _s[] = {"press", "release", "dbl click", "move"};
+							// PIString _s[] = {"press", "release", "dbl click", "move"};
-							//piCoutObj << _s[me.action] << me.buttons << ":" << me.x << me.y;
+							// piCoutObj << _s[me.action] << me.buttons << ":" << me.x << me.y;
 							mouseEvent(me, kbddata_);
 						}
-						//piCout << me.x << me.y << PICoutManipulators::Hex << b << a;
+						// piCout << me.x << me.y << PICoutManipulators::Hex << b << a;
 					}
 					return;
 				} else {
 					for (int i = 2; i < 7; ++i) // search for modifier
 						if (rc[i] == ';') {
 							mod |= rc[i + 1] - '0' - 1;
-							for (int j = i; j < 6; ++j) rc[j] = rc[j + 2];
+							for (int j = i; j < 6; ++j)
 								rc[j] = rc[j + 2];
 							rc[6] = rc[7] = 0;
 							PRIVATE->ret -= 2;
 							break;
@@ -406,14 +500,15 @@ void PIKbdListener::readKeyboard() {
 			if (PRIVATE->ret >= 3 && rc[1] == 'O') { // search for modifier (F1-F4)
 				if (rc[2] >= '1' && rc[2] <= '8') {
 					mod |= rc[2] - '0' - 1;
-					for (int j = 2; j < 6; ++j) rc[j] = rc[j + 1];
+					for (int j = 2; j < 6; ++j)
 						rc[j] = rc[j + 1];
 					rc[7] = 0;
 					PRIVATE->ret--;
 				}
 			}
-			for (int i = 0; ; ++i) {
+			for (int i = 0;; ++i) {
 				if (!esc_seq[i].seq) break;
-				//piCout << "search" << rc[1] << esc_seq[i].seq;
+				// piCout << "search" << rc[1] << esc_seq[i].seq;
 				if (strcmp(esc_seq[i].seq, &(rc[1])) == 0) {
 					ke.key = esc_seq[i].key;
 					mod |= esc_seq[i].mod;
@@ -425,18 +520,16 @@ void PIKbdListener::readKeyboard() {
 			if (mod & 0x1) ke.modifiers |= Shift;
 			if (mod & 0x2) ke.modifiers |= Alt;
 			if (mod & 0x4) ke.modifiers |= Ctrl;
-			//if (mod & 0x8) ke.modifiers |= Meta;
+			// if (mod & 0x8) ke.modifiers |= Meta;
 		}
 		/*cout << "wo mods (" << mod << ")\n";
 		for (int i = 0; i < PRIVATE->ret; ++i)
 		    cout << "'" << (char)(rc[i]) << "' ";
 		cout << endl;*/
 	}
-	if (ke.key == 0 && PRIVATE->ret > 1)
+	if (ke.key == 0 && PRIVATE->ret > 1) ke.key = PIChar::fromSystem(rc).unicode16Code();
 		ke.key = PIChar(rc).unicode16Code();
 #endif
-	if ((rc[0] == '\n' || rc[0] == '\r') && PRIVATE->ret == 1)
+	if ((rc[0] == '\n' || rc[0] == '\r') && PRIVATE->ret == 1) ke.key = Return;
 		ke.key = Return;
 	if (exit_enabled && ke.key == exit_key) {
 		PIKbdListener::exiting = true;
 		return;
@@ -448,8 +541,13 @@ void PIKbdListener::readKeyboard() {
 }
 void PIKbdListener::stop() {
 	PIThread::stop();
 }
 void PIKbdListener::end() {
-	//cout << "list end" << endl;
+	// cout << "list end" << endl;
 #ifdef WINDOWS
 	SetConsoleMode(PRIVATE->hIn, PRIVATE->smode);
 #else
--- a/libs/main/console/pikbdlistener.h
+++ b/libs/main/console/pikbdlistener.h
@@ -27,17 +27,20 @@
 #define PIKBDLISTENER_H
 #include "pithread.h"
 #include "pitime.h"
-#define WAIT_FOR_EXIT while (!PIKbdListener::exiting) piMSleep(PIP_MIN_MSLEEP*5); // TODO: rewrite with condvar
+#define WAIT_FOR_EXIT                 \
 	while (!PIKbdListener::exiting)   \
 		piMSleep(PIP_MIN_MSLEEP * 5); \
 	if (PIKbdListener::instance()) PIKbdListener::instance()->stopAndWait();
-class PIP_EXPORT PIKbdListener: public PIThread
+class PIP_EXPORT PIKbdListener: public PIThread {
-{
+	PIOBJECT_SUBCLASS(PIKbdListener, PIThread);
 	PIOBJECT_SUBCLASS(PIKbdListener, PIThread)
 	friend class PIConsole;
 	friend class PITerminal;
 public:
 public:
 	//! Special keyboard keys
 	enum SpecialKey {
 		Tab /** Tab key */                = 0x09,
@@ -74,14 +77,17 @@ public:
 		Ctrl /** Control key */ = 0x1,
 		Shift /** Shift key */  = 0x2,
 		Alt /** Alt key */      = 0x4
-		//Meta /** Meta (windows) key */ = 0x8
+		// Meta /** Meta (windows) key */ = 0x8
 	};
 	typedef PIFlags<KeyModifier> KeyModifiers;
 	//! This struct contains information about pressed keyboard key
 	struct PIP_EXPORT KeyEvent {
-		KeyEvent(int k = 0, KeyModifiers m = 0) {key = k; modifiers = m;}
+		KeyEvent(int k = 0, KeyModifiers m = 0) {
 			key       = k;
 			modifiers = m;
 		}
 		//! Pressed key. It can be simple \b char or special key (see PIKbdListener::SpecialKey)
 		int key;
@@ -110,7 +116,12 @@ public:
 	//! This struct contains information about mouse action
 	struct PIP_EXPORT MouseEvent {
-		MouseEvent(MouseAction a = MouseButtonPress, MouseButtons b = 0, KeyModifiers m = 0) {x = y = 0; action = a; buttons = b; modifiers = m;}
+		MouseEvent(MouseAction a = MouseButtonPress, MouseButtons b = 0, KeyModifiers m = 0) {
 			x = y     = 0;
 			action    = a;
 			buttons   = b;
 			modifiers = m;
 		}
 		//! Event X coordinate in view-space, from 0
 		int x;
@@ -130,7 +141,7 @@ public:
 	//! This struct contains information about mouse wheel action
 	struct PIP_EXPORT WheelEvent: public MouseEvent {
-		WheelEvent(): MouseEvent() {direction = false;}
+		WheelEvent(): MouseEvent() { direction = false; }
 		//! Wheel direction, /b true - up, /b fasle - down
 		bool direction;
@@ -145,43 +156,50 @@ public:
 	//! Returns custom data
-	void * data() {return kbddata_;}
+	void * data() { return kbddata_; }
 	//! Set custom data to "_data"
-	void setData(void * _data) {kbddata_ = _data;}
+	void setData(void * _data) { kbddata_ = _data; }
 	//! Set external function to "slot"
-	void setSlot(KBFunc slot) {ret_func = slot;}
+	void setSlot(KBFunc slot) { ret_func = slot; }
 	//! Set external function to "slot"
-	void setSlot(std::function<void(KeyEvent)> slot) {ret_func = [slot](KeyEvent e, void *){slot(e);};}
+	void setSlot(std::function<void(KeyEvent)> slot) {
 		ret_func = [slot](KeyEvent e, void *) { slot(e); };
 	}
 	//! Returns if exit key if awaiting
-	bool exitCaptured() const {return exit_enabled;}
+	bool exitCaptured() const { return exit_enabled; }
 	//! Returns exit key, default 'Q'
-	int exitKey() const {return exit_key;}
+	int exitKey() const { return exit_key; }
-	double doubleClickInterval() const {return dbl_interval;}
+	double doubleClickInterval() const { return dbl_interval; }
-	void setDoubleClickInterval(double v) {dbl_interval = v;}
+	void setDoubleClickInterval(double v) { dbl_interval = v; }
 	void readKeyboard();
-	//! Returns if keyboard listening is active (not running!)
+	void stop();
 	bool isActive() {return is_active;}
-	EVENT_HANDLER( void, enableExitCapture) {enableExitCapture('Q');}
+	//! Returns if keyboard listening is active (not running!)
-	EVENT_HANDLER1(void, enableExitCapture, int, key) {exit_enabled = true; exit_key = key;}
+	bool isActive() { return is_active; }
-	EVENT_HANDLER(void, disableExitCapture) {exit_enabled = false;}
+
-	EVENT_HANDLER(void, setActive) {setActive(true);}
+	EVENT_HANDLER(void, enableExitCapture) { enableExitCapture('Q'); }
 	EVENT_HANDLER1(void, enableExitCapture, int, key) {
 		exit_enabled = true;
 		exit_key     = key;
 	}
 	EVENT_HANDLER(void, disableExitCapture) { exit_enabled = false; }
 	EVENT_HANDLER(void, setActive) { setActive(true); }
 	EVENT_HANDLER1(void, setActive, bool, yes);
-	EVENT2(keyPressed, PIKbdListener::KeyEvent, key, void * , data)
+	EVENT2(keyPressed, PIKbdListener::KeyEvent, key, void *, data);
-	EVENT2(mouseEvent, PIKbdListener::MouseEvent, mouse, void * , data)
+	EVENT2(mouseEvent, PIKbdListener::MouseEvent, mouse, void *, data);
-	EVENT2(wheelEvent, PIKbdListener::WheelEvent, wheel, void * , data)
+	EVENT2(wheelEvent, PIKbdListener::WheelEvent, wheel, void *, data);
-//! \handlers
+	//! \handlers
-//! \{
+	//! \{
 	//! \fn void enableExitCapture(int key = 'Q')
 	//! \brief Enable exit key "key" awaiting
@@ -192,22 +210,22 @@ public:
 	//! \fn void setActive(bool yes = true)
 	//! \brief Set keyboard listening is active or not
-//! \}
+	//! \}
-//! \events
+	//! \events
-//! \{
+	//! \{
 	//! \fn void keyPressed(PIKbdListener::KeyEvent key, void * data)
 	//! \brief Raise on key "key" pressed, "data" is custom data
-//! \}
+	//! \}
 	static bool exiting;
-	static PIKbdListener * instance() {return _object;}
+	static PIKbdListener * instance() { return _object; }
 private:
-	void begin();
+	void begin() override;
-	void run() {readKeyboard();}
+	void run() override { readKeyboard(); }
-	void end();
+	void end() override;
 #ifndef WINDOWS
 	struct PIP_EXPORT EscSeq {
@@ -243,17 +261,42 @@ private:
 	MouseEvent me, prev_me, prev_p_me;
 	WheelEvent we;
 	static PIKbdListener * _object;
 };
-inline PIByteArray & operator <<(PIByteArray & s, const PIKbdListener::KeyEvent & v) {s << v.key << v.modifiers; return s;}
+//! \relatesalso PIBinaryStream
-inline PIByteArray & operator <<(PIByteArray & s, const PIKbdListener::MouseEvent & v) {s << v.x << v.y << (int)v.action << v.buttons << v.modifiers; return s;}
+//! \~english Store operator
-inline PIByteArray & operator <<(PIByteArray & s, const PIKbdListener::WheelEvent & v) {s << (*(PIKbdListener::MouseEvent*)&v) << (uchar)v.direction; return s;}
+//! \~russian Оператор сохранения
 BINARY_STREAM_WRITE(PIKbdListener::MouseEvent) {
 	s << v.x << v.y << v.action << v.buttons << v.modifiers;
 	return s;
 }
 //! \relatesalso PIBinaryStream
 //! \~english Restore operator
 //! \~russian Оператор извлечения
 BINARY_STREAM_READ(PIKbdListener::MouseEvent) {
 	s >> v.x >> v.y >> v.action >> v.buttons >> v.modifiers;
 	return s;
 }
 //! \relatesalso PIBinaryStream
 //! \~english Store operator
 //! \~russian Оператор сохранения
 BINARY_STREAM_WRITE(PIKbdListener::WheelEvent) {
 	s << (*(PIKbdListener::MouseEvent *)&v) << v.direction;
 	return s;
 }
 //! \relatesalso PIBinaryStream
 //! \~english Restore operator
 //! \~russian Оператор извлечения
 BINARY_STREAM_READ(PIKbdListener::WheelEvent) {
 	s >> (*(PIKbdListener::MouseEvent *)&v) >> v.direction;
 	return s;
 }
 inline PIByteArray & operator >>(PIByteArray & s, PIKbdListener::KeyEvent & v) {s >> v.key >> v.modifiers; return s;}
 inline PIByteArray & operator >>(PIByteArray & s, PIKbdListener::MouseEvent & v) {int a(0); s >> v.x >> v.y >> a >> v.buttons >> v.modifiers; v.action = (PIKbdListener::MouseAction)a; return s;}
 inline PIByteArray & operator >>(PIByteArray & s, PIKbdListener::WheelEvent & v) {uchar d(0); s >> (*(PIKbdListener::MouseEvent*)&v) >> d; v.direction = d; return s;}
 REGISTER_PIVARIANTSIMPLE(PIKbdListener::KeyEvent)
 REGISTER_PIVARIANTSIMPLE(PIKbdListener::MouseEvent)
--- a/libs/main/console/piscreen.h
+++ b/libs/main/console/piscreen.h
@@ -27,60 +27,61 @@
 #define PISCREEN_H
 #include "pip_console_export.h"
 #include "piscreentile.h"
 #include "piscreendrawer.h"
 #include "piscreentile.h"
-class PIP_CONSOLE_EXPORT PIScreen: public PIThread, public PIScreenTypes::PIScreenBase
+class PIP_CONSOLE_EXPORT PIScreen
-{
+	: public PIThread
-	PIOBJECT_SUBCLASS(PIScreen, PIThread)
+	, public PIScreenTypes::PIScreenBase {
 	PIOBJECT_SUBCLASS(PIScreen, PIThread);
 	class SystemConsole;
 public:
 public:
 	//! Constructs %PIScreen with key handler "slot" and if "startNow" start it
 	PIScreen(bool startNow = true, PIKbdListener::KBFunc slot = 0);
 	~PIScreen();
 	//! Directly call function from \a PIKbdListener
-	void enableExitCapture(int key = 'Q') {listener->enableExitCapture(key);}
+	void enableExitCapture(int key = 'Q') { listener->enableExitCapture(key); }
 	//! Directly call function from \a PIKbdListener
-	void disableExitCapture() {listener->disableExitCapture();}
+	void disableExitCapture() { listener->disableExitCapture(); }
 	//! Directly call function from \a PIKbdListener
-	bool exitCaptured() const {return listener->exitCaptured();}
+	bool exitCaptured() const { return listener->exitCaptured(); }
 	//! Directly call function from \a PIKbdListener
-	int exitKey() const {return listener->exitKey();}
+	int exitKey() const { return listener->exitKey(); }
-	int windowWidth() const {return console.width;}
+	int windowWidth() const { return console.width; }
-	int windowHeight() const {return console.height;}
+	int windowHeight() const { return console.height; }
-	bool isMouseEnabled() const {return mouse_;}
+	bool isMouseEnabled() const { return mouse_; }
 	void setMouseEnabled(bool on);
-	PIScreenTile * rootTile() {return &root;}
+	PIScreenTile * rootTile() { return &root; }
 	PIScreenTile * tileByName(const PIString & name);
 	void setDialogTile(PIScreenTile * t);
-	PIScreenTile * dialogTile() const {return tile_dialog;}
+	PIScreenTile * dialogTile() const { return tile_dialog; }
-	PIScreenDrawer * drawer() {return &drawer_;}
+	PIScreenDrawer * drawer() { return &drawer_; }
-	void clear() {drawer_.clear();}
+	void clear() { drawer_.clear(); }
-	void resize(int w, int h) {console.resize(w, h);}
+	void resize(int w, int h) { console.resize(w, h); }
 	EVENT_HANDLER0(void, waitForFinish);
-	EVENT_HANDLER0(void, start) {start(false);}
+	EVENT_HANDLER0(void, start) { start(false); }
-	EVENT_HANDLER1(void, start, bool, wait) {PIThread::start(40); if (wait) waitForFinish();}
+	EVENT_HANDLER1(void, start, bool, wait);
-	EVENT_HANDLER0(void, stop) {stop(false);}
+	EVENT_HANDLER0(void, stop) { stop(false); }
 	EVENT_HANDLER1(void, stop, bool, clear);
-	EVENT2(keyPressed, PIKbdListener::KeyEvent, key, void * , data)
+	EVENT2(keyPressed, PIKbdListener::KeyEvent, key, void *, data);
-	EVENT2(tileEvent, PIScreenTile * , tile, PIScreenTypes::TileEvent, e)
+	EVENT2(tileEvent, PIScreenTile *, tile, PIScreenTypes::TileEvent, e);
-//! \handlers
+	//! \handlers
-//! \{
+	//! \{
 	//! \fn void waitForFinish()
 	//! \brief block until finished (exit key will be pressed)
@@ -91,9 +92,9 @@ public:
 	//! \fn void stop(bool clear = false)
 	//! \brief Stop console output and if "clear" clear the screen
-//! \}
+	//! \}
-//! \events
+	//! \events
-//! \{
+	//! \{
 	//! \fn void keyPressed(PIKbdListener::KeyEvent key, void * data)
 	//! \brief Raise on key "key" pressed, "data" is pointer to %PIConsole object
@@ -101,7 +102,7 @@ public:
 	//! \fn void tileEvent(PIScreenTile * tile, PIScreenTypes::TileEvent e)
 	//! \brief Raise on some event "e" from tile "tile"
-//! \}
+	//! \}
 private:
 	class PIP_CONSOLE_EXPORT SystemConsole {
@@ -131,23 +132,23 @@ private:
 		PRIVATE_DECLARATION(PIP_CONSOLE_EXPORT)
 		int width, height, pwidth, pheight;
 		int mouse_x, mouse_y;
-		PIVector<PIVector<PIScreenTypes::Cell> > cells, pcells;
+		PIVector<PIVector<PIScreenTypes::Cell>> cells, pcells;
 	};
-	void begin();
+	void begin() override;
-	void run();
+	void run() override;
-	void end();
+	void end() override;
 	void key_event(PIKbdListener::KeyEvent key);
 	EVENT_HANDLER1(void, mouse_event, PIKbdListener::MouseEvent, me);
 	EVENT_HANDLER1(void, wheel_event, PIKbdListener::WheelEvent, we);
-	static void key_eventS(PIKbdListener::KeyEvent key, void * t) {((PIScreen*)t)->key_event(key);}
+	static void key_eventS(PIKbdListener::KeyEvent key, void * t) { ((PIScreen *)t)->key_event(key); }
-	PIVector<PIScreenTile*> tiles() {return root.children();}
+	PIVector<PIScreenTile *> tiles() { return root.children(); }
-	PIVector<PIScreenTile*> prepareMouse(PIKbdListener::MouseEvent * e);
+	PIVector<PIScreenTile *> prepareMouse(PIKbdListener::MouseEvent * e);
-	PIVector<PIScreenTile*> tilesUnderMouse(int x, int y);
+	PIVector<PIScreenTile *> tilesUnderMouse(int x, int y);
 	bool nextFocus(PIScreenTile * rt, PIKbdListener::KeyEvent key = PIKbdListener::KeyEvent());
-	void tileEventInternal(PIScreenTile * t, PIScreenTypes::TileEvent e);
+	void tileEventInternal(PIScreenTile * t, PIScreenTypes::TileEvent e) override;
-	void tileRemovedInternal(PIScreenTile * t);
+	void tileRemovedInternal(PIScreenTile * t) override;
-	void tileSetFocusInternal(PIScreenTile * t);
+	void tileSetFocusInternal(PIScreenTile * t) override;
 	bool mouse_;
 	SystemConsole console;
@@ -155,8 +156,7 @@ private:
 	PIKbdListener * listener;
 	PIKbdListener::KBFunc ret_func;
 	PIScreenTile root;
-	PIScreenTile * tile_focus, * tile_dialog;
+	PIScreenTile *tile_focus, *tile_dialog;
 };
--- a/libs/main/console/piscreenconsole.h
+++ b/libs/main/console/piscreenconsole.h
@@ -35,10 +35,15 @@
 class PIP_CONSOLE_EXPORT TileVars: public PIScreenTile {
 public:
 	TileVars(const PIString & n = PIString());
 protected:
 	struct PIP_CONSOLE_EXPORT Variable {
-		Variable() {nx = ny = type = offset = bitFrom = bitCount = size = 0; format = PIScreenTypes::CellFormat(); ptr = 0;}
+		Variable() {
-		bool isEmpty() const {return (ptr == 0);}
+			nx = ny = type = offset = bitFrom = bitCount = size = 0;
 			format                                              = PIScreenTypes::CellFormat();
 			ptr                                                 = 0;
 		}
 		bool isEmpty() const { return (ptr == 0); }
 		PIString name;
 		PIScreenTypes::CellFormat format;
 		int nx;
@@ -64,14 +69,12 @@ protected:
 	};
 	PIVector<Variable> variables;
 	PIScreenTypes::Alignment alignment;
-	void sizeHint(int & w, int & h) const;
+	void sizeHint(int & w, int & h) const override;
-	void drawEvent(PIScreenDrawer * d);
+	void drawEvent(PIScreenDrawer * d) override;
 };
-
+class PIP_CONSOLE_EXPORT PIScreenConsoleTile: public PIScreenTile {
 class PIP_CONSOLE_EXPORT PIScreenConsoleTile : public PIScreenTile
 {
 public:
 	PIScreenConsoleTile();
 };
--- a/libs/main/console/piscreendrawer.h
+++ b/libs/main/console/piscreendrawer.h
@@ -30,10 +30,10 @@
 #include "piscreentypes.h"
 #include "pistring.h"
-class PIP_CONSOLE_EXPORT PIScreenDrawer
+class PIP_CONSOLE_EXPORT PIScreenDrawer {
 {
 	friend class PIScreen;
-	PIScreenDrawer(PIVector<PIVector<PIScreenTypes::Cell> > & c);
+	PIScreenDrawer(PIVector<PIVector<PIScreenTypes::Cell>> & c);
 public:
 	enum ArtChar {
 		LineVertical = 1,
@@ -48,24 +48,60 @@ public:
 	};
 	void clear();
-	void clearRect(int x0, int y0, int x1, int y1) {fillRect(x0, y0, x1, y1, ' ');}
+	void clearRect(int x0, int y0, int x1, int y1) { fillRect(x0, y0, x1, y1, ' '); }
-	void drawPixel(int x, int y, const PIChar & c, PIScreenTypes::Color col_char = PIScreenTypes::Default, PIScreenTypes::Color col_back = PIScreenTypes::Default, PIScreenTypes::CharFlags flags_char = 0);
+	void drawPixel(int x,
-	void drawLine(int x0, int y0, int x1, int y1, const PIChar & c, PIScreenTypes::Color col_char = PIScreenTypes::Default, PIScreenTypes::Color col_back = PIScreenTypes::Default, PIScreenTypes::CharFlags flags_char = 0);
+	               int y,
-	void drawRect(int x0, int y0, int x1, int y1, const PIChar & c, PIScreenTypes::Color col_char = PIScreenTypes::Default, PIScreenTypes::Color col_back = PIScreenTypes::Default, PIScreenTypes::CharFlags flags_char = 0);
+	               const PIChar & c,
-	void drawFrame(int x0, int y0, int x1, int y1, PIScreenTypes::Color col_char = PIScreenTypes::Default, PIScreenTypes::Color col_back = PIScreenTypes::Default, PIScreenTypes::CharFlags flags_char = 0);
+	               PIScreenTypes::Color col_char       = PIScreenTypes::Default,
-	void drawText(int x, int y, const PIString & s, PIScreenTypes::Color col_char = PIScreenTypes::Default, PIScreenTypes::Color col_back = PIScreenTypes::Transparent, PIScreenTypes::CharFlags flags_char = 0);
+	               PIScreenTypes::Color col_back       = PIScreenTypes::Default,
-	void fillRect(int x0, int y0, int x1, int y1, const PIChar & c, PIScreenTypes::Color col_char = PIScreenTypes::Default, PIScreenTypes::Color col_back = PIScreenTypes::Default, PIScreenTypes::CharFlags flags_char = 0);
+	               PIScreenTypes::CharFlags flags_char = 0);
-	void fillRect(int x0, int y0, int x1, int y1, PIVector<PIVector<PIScreenTypes::Cell> > & content);
+	void drawLine(int x0,
 	              int y0,
 	              int x1,
 	              int y1,
 	              const PIChar & c,
 	              PIScreenTypes::Color col_char       = PIScreenTypes::Default,
 	              PIScreenTypes::Color col_back       = PIScreenTypes::Default,
 	              PIScreenTypes::CharFlags flags_char = 0);
 	void drawRect(int x0,
 	              int y0,
 	              int x1,
 	              int y1,
 	              const PIChar & c,
 	              PIScreenTypes::Color col_char       = PIScreenTypes::Default,
 	              PIScreenTypes::Color col_back       = PIScreenTypes::Default,
 	              PIScreenTypes::CharFlags flags_char = 0);
 	void drawFrame(int x0,
 	               int y0,
 	               int x1,
 	               int y1,
 	               PIScreenTypes::Color col_char       = PIScreenTypes::Default,
 	               PIScreenTypes::Color col_back       = PIScreenTypes::Default,
 	               PIScreenTypes::CharFlags flags_char = 0);
 	void drawText(int x,
 	              int y,
 	              const PIString & s,
 	              PIScreenTypes::Color col_char       = PIScreenTypes::Default,
 	              PIScreenTypes::Color col_back       = PIScreenTypes::Transparent,
 	              PIScreenTypes::CharFlags flags_char = 0);
 	void fillRect(int x0,
 	              int y0,
 	              int x1,
 	              int y1,
 	              const PIChar & c,
 	              PIScreenTypes::Color col_char       = PIScreenTypes::Default,
 	              PIScreenTypes::Color col_back       = PIScreenTypes::Default,
 	              PIScreenTypes::CharFlags flags_char = 0);
 	void fillRect(int x0, int y0, int x1, int y1, PIVector<PIVector<PIScreenTypes::Cell>> & content);
-	PIChar artChar(const ArtChar type) const {return arts_.value(type, PIChar(' '));}
+	PIChar artChar(const ArtChar type) const { return arts_.value(type, PIChar(' ')); }
-	static void clear(PIVector<PIVector<PIScreenTypes::Cell> > & cells);
+	static void clear(PIVector<PIVector<PIScreenTypes::Cell>> & cells);
 private:
-	PIVector<PIVector<PIScreenTypes::Cell> > & cells;
+	PIVector<PIVector<PIScreenTypes::Cell>> & cells;
 	int width, height;
 	PIMap<ArtChar, PIChar> arts_;
 };
--- a/libs/main/console/piscreentile.h
+++ b/libs/main/console/piscreentile.h
@@ -26,36 +26,44 @@
 #ifndef PISCREENTILE_H
 #define PISCREENTILE_H
 #include "pikbdlistener.h"
 #include "pip_console_export.h"
 #include "piscreentypes.h"
 #include "pikbdlistener.h"
 class PIScreenDrawer;
 class PIP_CONSOLE_EXPORT PIScreenTile: public PIObject {
 	friend class PIScreen;
-	PIOBJECT_SUBCLASS(PIScreenTile, PIObject)
+	PIOBJECT_SUBCLASS(PIScreenTile, PIObject);
 public:
-	PIScreenTile(const PIString & n = PIString(), PIScreenTypes::Direction d = PIScreenTypes::Vertical, PIScreenTypes::SizePolicy p = PIScreenTypes::Preferred);
+	PIScreenTile(const PIString & n          = PIString(),
 	             PIScreenTypes::Direction d  = PIScreenTypes::Vertical,
 	             PIScreenTypes::SizePolicy p = PIScreenTypes::Preferred);
 	virtual ~PIScreenTile();
 	void addTile(PIScreenTile * t);
 	void takeTile(PIScreenTile * t);
 	void removeTile(PIScreenTile * t);
-	PIScreenTile * parentTile() const {return parent;}
+	PIScreenTile * parentTile() const { return parent; }
-	PIVector<PIScreenTile * > children(bool only_visible = false);
+	PIVector<PIScreenTile *> children(bool only_visible = false);
 	PIScreenTile * childUnderMouse(int x, int y);
-	void show() {visible = true;}
+	void show() { visible = true; }
-	void hide() {visible = false;}
+	void hide() { visible = false; }
 	void setFocus();
-	bool hasFocus() const {return has_focus;}
+	bool hasFocus() const { return has_focus; }
-	void setMargins(int m) {marginLeft = marginRight = marginTop = marginBottom = m;}
+	void setMargins(int m) { marginLeft = marginRight = marginTop = marginBottom = m; }
-	void setMargins(int l, int r, int t, int b) {marginLeft = l; marginRight = r; marginTop = t; marginBottom = b;}
+	void setMargins(int l, int r, int t, int b) {
 		marginLeft   = l;
 		marginRight  = r;
 		marginTop    = t;
 		marginBottom = b;
 	}
-	int x() const {return x_;}
+	int x() const { return x_; }
-	int y() const {return y_;}
+	int y() const { return y_; }
-	int width() const {return width_;}
+	int width() const { return width_; }
-	int height() const {return height_;}
+	int height() const { return height_; }
 	PIScreenTypes::Direction direction;
 	PIScreenTypes::SizePolicy size_policy;
@@ -69,7 +77,6 @@ public:
 	bool visible;
 protected:
 	//! Returns desired tile size in "w" and "h"
 	virtual void sizeHint(int & w, int & h) const;
@@ -80,22 +87,22 @@ protected:
 	virtual void drawEvent(PIScreenDrawer * d) {}
 	//! Return "true" if you process key
-	virtual bool keyEvent(PIKbdListener::KeyEvent key) {return false;}
+	virtual bool keyEvent(PIKbdListener::KeyEvent key) { return false; }
 	//! Return "true" if you process event
-	virtual bool mouseEvent(PIKbdListener::MouseEvent me) {return false;}
+	virtual bool mouseEvent(PIKbdListener::MouseEvent me) { return false; }
 	//! Return "true" if you process wheel
-	virtual bool wheelEvent(PIKbdListener::WheelEvent we) {return false;}
+	virtual bool wheelEvent(PIKbdListener::WheelEvent we) { return false; }
 	void raiseEvent(PIScreenTypes::TileEvent e);
 	void setScreen(PIScreenTypes::PIScreenBase * s);
 	void deleteChildren();
 	void drawEventInternal(PIScreenDrawer * d);
 	void layout();
-	bool needLayout() {return size_policy != PIScreenTypes::Ignore;}
+	bool needLayout() { return size_policy != PIScreenTypes::Ignore; }
-	PIVector<PIScreenTile * > tiles;
+	PIVector<PIScreenTile *> tiles;
 	PIScreenTile * parent;
 	PIScreenTypes::PIScreenBase * screen;
 	int x_, y_, width_, height_;
@@ -103,7 +110,6 @@ protected:
 private:
 	int pw, ph;
 };
--- a/libs/main/console/piscreentiles.h
+++ b/libs/main/console/piscreentiles.h
@@ -31,7 +31,8 @@
 class PIP_CONSOLE_EXPORT TileSimple: public PIScreenTile {
-	PIOBJECT_SUBCLASS(TileSimple, PIScreenTile)
+	PIOBJECT_SUBCLASS(TileSimple, PIScreenTile);
 public:
 	typedef PIPair<PIString, PIScreenTypes::CellFormat> Row;
 	TileSimple(const PIString & n = PIString());
@@ -39,39 +40,43 @@ public:
 	virtual ~TileSimple() {}
 	PIVector<Row> content;
 	PIScreenTypes::Alignment alignment;
 protected:
-	void sizeHint(int & w, int & h) const;
+	void sizeHint(int & w, int & h) const override;
-	void drawEvent(PIScreenDrawer * d);
+	void drawEvent(PIScreenDrawer * d) override;
 };
 class TileList;
 class PIP_CONSOLE_EXPORT TileScrollBar: public PIScreenTile {
-	PIOBJECT_SUBCLASS(TileScrollBar, PIScreenTile)
+	PIOBJECT_SUBCLASS(TileScrollBar, PIScreenTile);
 	friend class TileList;
 public:
 	TileScrollBar(const PIString & n = PIString());
 	virtual ~TileScrollBar() {}
 	void setMinimum(int v);
 	void setMaximum(int v);
 	void setValue(int v);
-	int minimum() const {return minimum_;}
+	int minimum() const { return minimum_; }
-	int maximum() const {return maximum_;}
+	int maximum() const { return maximum_; }
-	int value() const {return value_;}
+	int value() const { return value_; }
 	int thickness;
 protected:
 	void _check();
-	void sizeHint(int & w, int & h) const;
+	void sizeHint(int & w, int & h) const override;
-	void drawEvent(PIScreenDrawer * d);
+	void drawEvent(PIScreenDrawer * d) override;
-	bool mouseEvent(PIKbdListener::MouseEvent me);
+	bool mouseEvent(PIKbdListener::MouseEvent me) override;
 	int minimum_, maximum_, value_;
 	PIChar line_char;
 };
 class PIP_CONSOLE_EXPORT TileList: public PIScreenTile {
-	PIOBJECT_SUBCLASS(TileList, PIScreenTile)
+	PIOBJECT_SUBCLASS(TileList, PIScreenTile);
 public:
 	enum SelectionMode {
 		NoSelection,
@@ -92,20 +97,22 @@ public:
 	SelectionMode selection_mode;
 	PISet<int> selected;
 	int lhei, cur, offset;
 protected:
-	void sizeHint(int & w, int & h) const;
+	void sizeHint(int & w, int & h) const override;
-	void resizeEvent(int w, int h);
+	void resizeEvent(int w, int h) override;
-	void drawEvent(PIScreenDrawer * d);
+	void drawEvent(PIScreenDrawer * d) override;
-	bool keyEvent(PIKbdListener::KeyEvent key);
+	bool keyEvent(PIKbdListener::KeyEvent key) override;
-	bool mouseEvent(PIKbdListener::MouseEvent me);
+	bool mouseEvent(PIKbdListener::MouseEvent me) override;
-	bool wheelEvent(PIKbdListener::WheelEvent we);
+	bool wheelEvent(PIKbdListener::WheelEvent we) override;
 	TileScrollBar * scroll;
 	bool mouse_sel;
 };
 class PIP_CONSOLE_EXPORT TileButton: public PIScreenTile {
-	PIOBJECT_SUBCLASS(TileButton, PIScreenTile)
+	PIOBJECT_SUBCLASS(TileButton, PIScreenTile);
 public:
 	TileButton(const PIString & n = PIString());
 	virtual ~TileButton() {}
@@ -114,18 +121,18 @@ public:
 	};
 	PIScreenTypes::CellFormat format;
 	PIString text;
 protected:
-	void sizeHint(int & w, int & h) const;
+	void sizeHint(int & w, int & h) const override;
-	void drawEvent(PIScreenDrawer * d);
+	void drawEvent(PIScreenDrawer * d) override;
-	bool keyEvent(PIKbdListener::KeyEvent key);
+	bool keyEvent(PIKbdListener::KeyEvent key) override;
-	bool mouseEvent(PIKbdListener::MouseEvent me);
+	bool mouseEvent(PIKbdListener::MouseEvent me) override;
 };
 class PIP_CONSOLE_EXPORT TileButtons: public PIScreenTile {
-	PIOBJECT_SUBCLASS(TileButtons, PIScreenTile)
+	PIOBJECT_SUBCLASS(TileButtons, PIScreenTile);
 public:
 	TileButtons(const PIString & n = PIString());
 	virtual ~TileButtons() {}
@@ -136,21 +143,23 @@ public:
 	PIScreenTypes::Alignment alignment;
 	PIVector<Button> content;
 	int cur;
 protected:
-	void sizeHint(int & w, int & h) const;
+	void sizeHint(int & w, int & h) const override;
-	void drawEvent(PIScreenDrawer * d);
+	void drawEvent(PIScreenDrawer * d) override;
-	bool keyEvent(PIKbdListener::KeyEvent key);
+	bool keyEvent(PIKbdListener::KeyEvent key) override;
-	bool mouseEvent(PIKbdListener::MouseEvent me);
+	bool mouseEvent(PIKbdListener::MouseEvent me) override;
 	struct Rect {
-		Rect(int _x0 = 0, int _y0 = 0, int _x1 = 0, int _y1 = 0): x0(_x0),y0(_y0),x1(_x1),y1(_y1) {}
+		Rect(int _x0 = 0, int _y0 = 0, int _x1 = 0, int _y1 = 0): x0(_x0), y0(_y0), x1(_x1), y1(_y1) {}
-		int x0,y0,x1,y1;
+		int x0, y0, x1, y1;
 	};
 	PIVector<Rect> btn_rects;
 };
 class PIP_CONSOLE_EXPORT TileCheck: public PIScreenTile {
-	PIOBJECT_SUBCLASS(TileCheck, PIScreenTile)
+	PIOBJECT_SUBCLASS(TileCheck, PIScreenTile);
 public:
 	TileCheck(const PIString & n = PIString());
 	virtual ~TileCheck() {}
@@ -160,16 +169,18 @@ public:
 	PIScreenTypes::CellFormat format;
 	PIString text;
 	bool toggled;
 protected:
-	void sizeHint(int & w, int & h) const;
+	void sizeHint(int & w, int & h) const override;
-	void drawEvent(PIScreenDrawer * d);
+	void drawEvent(PIScreenDrawer * d) override;
-	bool keyEvent(PIKbdListener::KeyEvent key);
+	bool keyEvent(PIKbdListener::KeyEvent key) override;
-	bool mouseEvent(PIKbdListener::MouseEvent me);
+	bool mouseEvent(PIKbdListener::MouseEvent me) override;
 };
 class PIP_CONSOLE_EXPORT TileProgress: public PIScreenTile {
-	PIOBJECT_SUBCLASS(TileProgress, PIScreenTile)
+	PIOBJECT_SUBCLASS(TileProgress, PIScreenTile);
 public:
 	TileProgress(const PIString & n = PIString());
 	virtual ~TileProgress() {}
@@ -178,37 +189,42 @@ public:
 	PIString suffix;
 	double maximum;
 	double value;
 protected:
-	void sizeHint(int & w, int & h) const;
+	void sizeHint(int & w, int & h) const override;
-	void drawEvent(PIScreenDrawer * d);
+	void drawEvent(PIScreenDrawer * d) override;
 };
 class PIP_CONSOLE_EXPORT TilePICout: public TileList {
-	PIOBJECT_SUBCLASS(TilePICout, PIScreenTile)
+	PIOBJECT_SUBCLASS(TilePICout, PIScreenTile);
 public:
 	TilePICout(const PIString & n = PIString());
 	virtual ~TilePICout() {}
 	PIScreenTypes::CellFormat format;
 	int max_lines;
 protected:
-	void drawEvent(PIScreenDrawer * d);
+	void drawEvent(PIScreenDrawer * d) override;
-	bool keyEvent(PIKbdListener::KeyEvent key);
+	bool keyEvent(PIKbdListener::KeyEvent key) override;
 };
 class PIP_CONSOLE_EXPORT TileInput: public PIScreenTile {
-	PIOBJECT_SUBCLASS(TileInput, PIScreenTile)
+	PIOBJECT_SUBCLASS(TileInput, PIScreenTile);
 public:
 	TileInput(const PIString & n = PIString());
 	virtual ~TileInput() {}
 	PIScreenTypes::CellFormat format;
 	PIString text;
 	int max_length;
 protected:
-	void sizeHint(int & w, int & h) const;
+	void sizeHint(int & w, int & h) const override;
-	void drawEvent(PIScreenDrawer * d);
+	void drawEvent(PIScreenDrawer * d) override;
-	bool keyEvent(PIKbdListener::KeyEvent key);
+	bool keyEvent(PIKbdListener::KeyEvent key) override;
 	void reserCursor();
 	int cur, offset;
 	bool inv;
--- a/libs/main/console/piscreentypes.h
+++ b/libs/main/console/piscreentypes.h
@@ -34,8 +34,8 @@ class PIScreenTile;
 namespace PIScreenTypes {
-	//! Color for chars or background
+//! Color for chars or background
-	enum Color {
+enum Color {
 	Default /** Default */,
 	Black /** Black */,
 	Red /** Red */,
@@ -46,39 +46,39 @@ namespace PIScreenTypes {
 	Yellow /** Yellow */,
 	White /** White */,
 	Transparent /** Save previous color */
-	};
+};
-	//! Flags for chars
+//! Flags for chars
-	enum CharFlag {
+enum CharFlag {
 	Bold /** Bold or bright */      = 0x1,
 	Blink /** Blink text */         = 0x2,
 	Underline /** Underline text */ = 0x4,
 	Inverse                         = 0x08
-	};
+};
-	//! Alignment
+//! Alignment
-	enum Alignment {
+enum Alignment {
-		Left /** Left */ ,
+	Left /** Left */,
-		Center /** Center */ ,
+	Center /** Center */,
 	Right /** Right */
-	};
+};
-	//! Size policy
+//! Size policy
-	enum SizePolicy {
+enum SizePolicy {
-		Fixed /** Fixed size */ ,
+	Fixed /** Fixed size */,
-		Preferred /** Preferred size */ ,
+	Preferred /** Preferred size */,
-		Expanding /** Maximum available size */ ,
+	Expanding /** Maximum available size */,
 	Ignore /** Ignore layout logic */
-	};
+};
-	//! Direction
+//! Direction
-	enum Direction {
+enum Direction {
-		Horizontal /** Horizontal */ ,
+	Horizontal /** Horizontal */,
 	Vertical /** Vertical */
-	};
+};
-	//! Focus flags
+//! Focus flags
-	enum FocusFlag {
+enum FocusFlag {
 	CanHasFocus /** Tile can has focus */                                               = 0x1,
 	NextByTab /** Focus passed to next tile by tab key */                               = 0x2,
 	NextByArrowsHorizontal /** Focus passed to next tile by arrow keys left or right */ = 0x4,
@@ -87,13 +87,13 @@ namespace PIScreenTypes {
 	FocusOnMouse /** Tile focused on mouse press */                                     = 0x10,
 	FocusOnWheel /** Tile focused on wheel */                                           = 0x20,
 	FocusOnMouseOrWheel /** Tile focused on mouse press or wheel */                     = FocusOnMouse | FocusOnWheel
-	};
+};
-	typedef PIFlags<CharFlag> CharFlags;
+typedef PIFlags<CharFlag> CharFlags;
-	typedef PIFlags<FocusFlag> FocusFlags;
+typedef PIFlags<FocusFlag> FocusFlags;
-	union PIP_CONSOLE_EXPORT CellFormat {
+union PIP_CONSOLE_EXPORT CellFormat {
-		CellFormat(ushort f = 0) {raw_format = f;}
+	CellFormat(ushort f = 0) { raw_format = f; }
 	CellFormat(Color col_char, Color col_back = Default, CharFlags flags_ = 0) {
 		color_char = col_char;
 		color_back = col_back;
@@ -101,53 +101,88 @@ namespace PIScreenTypes {
 	}
 	ushort raw_format;
 	struct {
-			ushort color_char : 4;
+		ushort color_char: 4;
-			ushort color_back : 4;
+		ushort color_back: 4;
 		ushort flags     : 8;
 	};
-		bool operator ==(const CellFormat & c) const {return raw_format == c.raw_format;}
+	bool operator==(const CellFormat & c) const { return raw_format == c.raw_format; }
-		bool operator !=(const CellFormat & c) const {return raw_format != c.raw_format;}
+	bool operator!=(const CellFormat & c) const { return raw_format != c.raw_format; }
-	};
+};
-	struct PIP_CONSOLE_EXPORT Cell {
+struct PIP_CONSOLE_EXPORT Cell {
-		Cell(PIChar c = PIChar(' '), CellFormat f = CellFormat()) {symbol = c; format = f;}
+	Cell(PIChar c = PIChar(' '), CellFormat f = CellFormat()) {
 		symbol = c;
 		format = f;
 	}
 	CellFormat format;
 	PIChar symbol;
-		bool operator ==(const Cell & c) const {return format == c.format && symbol == c.symbol;}
+	bool operator==(const Cell & c) const { return format == c.format && symbol == c.symbol; }
-		bool operator !=(const Cell & c) const {return format != c.format || symbol != c.symbol;}
+	bool operator!=(const Cell & c) const { return format != c.format || symbol != c.symbol; }
-		Cell & operator =(const Cell & c) {
+	Cell & operator=(const Cell & c) {
 		symbol = c.symbol;
 		if (c.format.color_back == Transparent) {
 			format.color_char = c.format.color_char;
 			format.flags      = c.format.flags;
-			} else format = c.format;
+		} else
 			format = c.format;
 		return *this;
 	}
-	};
+};
-	struct PIP_CONSOLE_EXPORT TileEvent {
+struct PIP_CONSOLE_EXPORT TileEvent {
 	TileEvent(int t = -1, const PIVariant & d = PIVariant()): type(t), data(d) {}
 	int type;
 	PIVariant data;
-	};
+};
-	class PIP_CONSOLE_EXPORT PIScreenBase {
+class PIP_CONSOLE_EXPORT PIScreenBase {
-	public:
+public:
 	PIScreenBase() {}
 	virtual ~PIScreenBase() {}
-		virtual void tileEventInternal(PIScreenTile * , TileEvent) {}
+	virtual void tileEventInternal(PIScreenTile *, TileEvent) {}
-		virtual void tileRemovedInternal(PIScreenTile * ) {}
+	virtual void tileRemovedInternal(PIScreenTile *) {}
-		virtual void tileSetFocusInternal(PIScreenTile * ) {}
+	virtual void tileSetFocusInternal(PIScreenTile *) {}
-	};
+};
 } // namespace PIScreenTypes
 // inline PIByteArray & operator <<(PIByteArray & s, const PIScreenTypes::Cell & v) {s << v.format.raw_format << v.symbol; return s;}
 // inline PIByteArray & operator >>(PIByteArray & s, PIScreenTypes::Cell & v) {s >> v.format.raw_format >> v.symbol; return s;}
 //! \relatesalso PIBinaryStream
 //! \~english Store operator
 //! \~russian Оператор сохранения
 BINARY_STREAM_WRITE(PIScreenTypes::Cell) {
 	s << v.format.raw_format << v.symbol;
 	return s;
 }
 //! \relatesalso PIBinaryStream
 //! \~english Restore operator
 //! \~russian Оператор извлечения
 BINARY_STREAM_READ(PIScreenTypes::Cell) {
 	s >> v.format.raw_format >> v.symbol;
 	return s;
 }
-inline PIByteArray & operator <<(PIByteArray & s, const PIScreenTypes::Cell & v) {s << v.format.raw_format << v.symbol; return s;}
+//! \relatesalso PIBinaryStream
-inline PIByteArray & operator >>(PIByteArray & s, PIScreenTypes::Cell & v) {s >> v.format.raw_format >> v.symbol; return s;}
+//! \~english Store operator
 //! \~russian Оператор сохранения
 BINARY_STREAM_WRITE(PIScreenTypes::TileEvent) {
 	s << v.type << v.data;
 	return s;
 }
 //! \relatesalso PIBinaryStream
 //! \~english Restore operator
 //! \~russian Оператор извлечения
 BINARY_STREAM_READ(PIScreenTypes::TileEvent) {
 	s >> v.type >> v.data;
 	return s;
 }
 inline PIByteArray & operator <<(PIByteArray & s, const PIScreenTypes::TileEvent & v) {s << v.type << v.data; return s;}
 inline PIByteArray & operator >>(PIByteArray & s, PIScreenTypes::TileEvent & v) {s >> v.type >> v.data; return s;}
 REGISTER_PIVARIANTSIMPLE(PIScreenTypes::TileEvent)
--- a/libs/main/console/piterminal.h
+++ b/libs/main/console/piterminal.h
@@ -26,39 +26,39 @@
 #ifndef PITERMINAL_H
 #define PITERMINAL_H
 #include "pip_console_export.h"
 #include "pikbdlistener.h"
 #include "pip_console_export.h"
 #include "piscreentypes.h"
-class PIP_CONSOLE_EXPORT PITerminal: public PIThread
+class PIP_CONSOLE_EXPORT PITerminal: public PIThread {
-{
+	PIOBJECT_SUBCLASS(PITerminal, PIThread);
 	PIOBJECT_SUBCLASS(PITerminal, PIThread)
 public:
 public:
 	//! Constructs %PITerminal
 	PITerminal();
 	~PITerminal();
-	int columns() const {return size_x;}
+	int columns() const { return size_x; }
-	int rows() const {return size_y;}
+	int rows() const { return size_y; }
 	bool resize(int cols, int rows);
 	void write(const PIByteArray & d);
 	void write(PIKbdListener::SpecialKey k, PIKbdListener::KeyModifiers m);
 	void write(PIKbdListener::KeyEvent ke);
-	PIVector<PIVector<PIScreenTypes::Cell> > content();
+	PIVector<PIVector<PIScreenTypes::Cell>> content();
 	static bool isSpecialKey(int k);
 	bool initialize();
 	void destroy();
 private:
 	void initPrivate();
 	void readConsole();
 	void getCursor(int & x, int & y);
 	uchar invertColor(uchar c);
-	void run();
+	void run() override;
 #ifndef WINDOWS
 	void parseInput(const PIString & s);
 	bool isCompleteEscSeq(const PIString & es);
@@ -72,8 +72,7 @@ private:
 	int size_x, size_y, cursor_x, cursor_y;
 	bool cursor_blink, cursor_visible;
 	PITimeMeasurer cursor_tm;
-	PIVector<PIVector<PIScreenTypes::Cell> > cells;
+	PIVector<PIVector<PIScreenTypes::Cell>> cells;
 };
--- a/libs/main/containers/picontainers.cpp
+++ b/libs/main/containers/picontainers.cpp
@@ -20,15 +20,16 @@
 #include "picontainers.h"
-const ssize_t minAlloc = 64;
+const size_t minAlloc = 64;
-ssize_t _PIContainerConstantsBase::calcMinCountPoT(ssize_t szof) {
+size_t _PIContainerConstantsBase::calcMinCountPoT(size_t szof) {
-	ssize_t ret = 0, elc = 1;
+	size_t ret = 0;
 	size_t elc = 1;
 	while (elc * szof < minAlloc) {
 		elc *= 2;
 		++ret;
 	}
-	//printf("calcMinCount sizeof = %d, min_count = %d, pot = %d\n", szof, elc, ret);
+	// printf("calcMinCount sizeof = %d, min_count = %d, pot = %d\n", szof, elc, ret);
 	return ret;
 }
--- a/libs/main/containers/picontainers.h
+++ b/libs/main/containers/picontainers.h
@@ -41,23 +41,24 @@
 #else
 #  include <malloc.h>
 #endif
 #include <initializer_list>
 #include <type_traits>
 #include <string.h>
 #include <new>
 #include <algorithm>
 #include <functional>
 #include <initializer_list>
 #include <new>
 #include <string.h>
 #include <type_traits>
-template <typename C>
+template<typename C>
 class _PIReverseWrapper {
 public:
 	_PIReverseWrapper(C & c): c_(c) {}
-	_PIReverseWrapper(const C & c): c_(const_cast<C&>(c)) {}
+	_PIReverseWrapper(const C & c): c_(const_cast<C &>(c)) {}
-	typename C::reverse_iterator begin() {return c_.rbegin();}
+	typename C::reverse_iterator begin() { return c_.rbegin(); }
-	typename C::reverse_iterator end() {return c_.rend(); }
+	typename C::reverse_iterator end() { return c_.rend(); }
-	typename C::const_reverse_iterator begin() const {return c_.rbegin();}
+	typename C::const_reverse_iterator begin() const { return c_.rbegin(); }
-	typename C::const_reverse_iterator end() const {return c_.rend(); }
+	typename C::const_reverse_iterator end() const { return c_.rend(); }
 private:
 	C & c_;
 };
@@ -65,21 +66,30 @@ private:
 class PIP_EXPORT _PIContainerConstantsBase {
 public:
-	static ssize_t calcMinCountPoT(ssize_t szof);
+	static size_t calcMinCountPoT(size_t szof);
 };
 template<typename T>
 class _PIContainerConstants {
 public:
-	static ssize_t minCountPoT() {static ssize_t ret = _PIContainerConstantsBase::calcMinCountPoT(sizeof(T)); return ret;}
+	static size_t minCountPoT() {
 		static const size_t ret = _PIContainerConstantsBase::calcMinCountPoT(sizeof(T));
 		return ret;
 	}
 };
 //! \brief
 //! \~english Template reverse wrapper over any container
 //! \~russian Шаблонная функция обертки любого контейнера для обратного доступа через итераторы
-template <typename C> _PIReverseWrapper<C> PIReverseWrap(C & c) {return _PIReverseWrapper<C>(c);}
+template<typename C>
-template <typename C> _PIReverseWrapper<C> PIReverseWrap(const C & c) {return _PIReverseWrapper<C>(c);}
+_PIReverseWrapper<C> PIReverseWrap(C & c) {
 	return _PIReverseWrapper<C>(c);
 }
 template<typename C>
 _PIReverseWrapper<C> PIReverseWrap(const C & c) {
 	return _PIReverseWrapper<C>(c);
 }
 //! \brief
@@ -88,7 +98,7 @@ template <typename C> _PIReverseWrapper<C> PIReverseWrap(const C & c) {return _P
 //! \~\param c
 //! \~english Iteration times in loop
 //! \~russian Количество итераций цикла
-#define piForTimes(c) for(int _i##c = 0; _i##c < c; ++_i##c)
+#define piForTimes(c)     for (int _i##c = 0; _i##c < c; ++_i##c)
 //! \brief
@@ -120,7 +130,7 @@ template <typename C> _PIReverseWrapper<C> PIReverseWrap(const C & c) {return _P
 //! // 4
 //! \endcode
 //! \sa \a piForeachC, \a piForeachR, \a piForeachRC
-#define piForeach(i, c) for(i : c)
+#define piForeach(i, c)   for (i: c)
 //! \brief
 //! \~english Macro for iterate any container
@@ -136,7 +146,7 @@ template <typename C> _PIReverseWrapper<C> PIReverseWrap(const C & c) {return _P
 //! \~russian Перебор всех элементов контейнера с доступом только на чтение.
 //! Перебор осуществляется в прямом порядке.
 //! \~ \sa \a piForeach, \a piForeachR, \a piForeachRC
-#define piForeachC(i, c) for(const i : c)
+#define piForeachC(i, c)  for (const i: c)
 //! \brief
 //! \~english Macro for iterate any container
@@ -152,7 +162,7 @@ template <typename C> _PIReverseWrapper<C> PIReverseWrap(const C & c) {return _P
 //! \~russian Перебор всех элементов контейнера с доступом на чтение и запись.
 //! Перебор осуществляется в обратном порядке.
 //! \~ \sa \a piForeach, \a piForeachC, \a piForeachRC
-#define piForeachR(i, c) for(i : PIReverseWrap(c))
+#define piForeachR(i, c)  for (i: PIReverseWrap(c))
 //! \brief
 //! \~english Macro for iterate any container
@@ -168,7 +178,7 @@ template <typename C> _PIReverseWrapper<C> PIReverseWrap(const C & c) {return _P
 //! \~russian Перебор всех элементов контейнера с доступом только на чтение.
 //! Перебор осуществляется в обратном порядке. Также можно писать **piForeachCR**
 //! \~ \sa \a piForeach, \a piForeachC, \a piForeachR
-#define piForeachRC(i, c) for(const i : PIReverseWrap(c))
+#define piForeachRC(i, c) for (const i: PIReverseWrap(c))
 #define piForeachCR       piForeachRC
@@ -177,7 +187,9 @@ template <typename C> _PIReverseWrapper<C> PIReverseWrap(const C & c) {return _P
 //! \~russian Порядок обхода для функции изменения размерности reshape().
 //! \~ \sa \a PIVector::reshape(), \a PIDeque::reshape()
 enum ReshapeOrder {
-	ReshapeByRow	/*! \~english Traversing elements by line, just as they stay in memory  \~russian Обход элементов построчно, так же как они находятся в памяти */,
+	ReshapeByRow /*! \~english Traversing elements by line, just as they stay in memory  \~russian Обход элементов построчно, так же как они
 	                находятся в памяти */
 		,
 	ReshapeByColumn /*! \~english Traversing elements by column \~russian Обход элементов по столбцам */,
 };
--- a/libs/main/containers/picontainersmodule.h
+++ b/libs/main/containers/picontainersmodule.h
@@ -180,12 +180,12 @@
 #ifndef PICONTAINERSMODULE_H
 #define PICONTAINERSMODULE_H
 #include "pivector.h"
 #include "pideque.h"
 #include "pimap.h"
 #include "piqueue.h"
 #include "piset.h"
 #include "pistack.h"
 #include "pivector.h"
 #include "pivector2d.h"
--- a/libs/main/containers/pideque.h
+++ b/libs/main/containers/pideque.h
@@ -75,9 +75,9 @@
 //! if the number of elements is known beforehand.
 //!
 //! The complexity (efficiency) of common operations on PIDeque is as follows:
-//! - Random access - constant 𝓞(1)
+//! - Random access - constant O(1)
-//! - Insertion or removal of elements at the end or begin - amortized constant 𝓞(1)
+//! - Insertion or removal of elements at the end or begin - amortized constant O(1)
-//! - Insertion or removal of elements - linear in the distance to the end of the array 𝓞(n)
+//! - Insertion or removal of elements - linear in the distance to the end of the array O(n)
 //!
 //! \~russian
 //! Элементы хранятся непрерывно, а значит доступны не только через итераторы,
@@ -109,31 +109,29 @@
 //! если количество элементов известно заранее.
 //!
 //! Сложность (эффективность) обычных операций над PIDeque следующая:
-//! - Произвольный доступ — постоянная 𝓞(1)
+//! - Произвольный доступ — постоянная O(1)
-//! - Вставка и удаление элементов в конце или начале — амортизированная постоянная 𝓞(1)
+//! - Вставка и удаление элементов в конце или начале — амортизированная постоянная O(1)
-//! - Вставка и удаление элементов — линейная по расстоянию до конца массива 𝓞(n)
+//! - Вставка и удаление элементов — линейная по расстоянию до конца массива O(n)
 //!
 //! \~\sa \a PIVector, \a PIMap
-template <typename T>
+template<typename T>
 class PIDeque {
 public:
-	typedef bool (*CompareFunc)(const T & , const T & );
+	typedef bool (*CompareFunc)(const T &, const T &);
 	typedef T value_type;
-	typedef T* pointer;
+	typedef T * pointer;
-	typedef const T* const_pointer;
+	typedef const T * const_pointer;
-	typedef T& reference;
+	typedef T & reference;
-	typedef const T& const_reference;
+	typedef const T & const_reference;
 	typedef size_t size_type;
 	//! \~english Constructs an empty array.
 	//! \~russian Создает пустой массив.
-	inline PIDeque(): pid_data(0), pid_size(0), pid_rsize(0), pid_start(0) {
+	inline PIDeque() { PIINTROSPECTION_CONTAINER_NEW(T, sizeof(T)) }
 		PIINTROSPECTION_CONTAINER_NEW(T, sizeof(T))
 	}
 	//! \~english Copy constructor.
 	//! \~russian Копирующий конструктор.
-	inline PIDeque(const PIDeque<T> & other): pid_data(0), pid_size(0), pid_rsize(0), pid_start(0) {
+	inline PIDeque(const PIDeque<T> & other) {
 		PIINTROSPECTION_CONTAINER_NEW(T, sizeof(T))
 		alloc_forward(other.pid_size);
 		newT(pid_data + pid_start, other.pid_data + other.pid_start, pid_size);
@@ -148,7 +146,7 @@ public:
 	//! PIDeque <int> v{1,2,3};
 	//! piCout << v; // {1, 2, 3}
 	//! \endcode
-	inline PIDeque(std::initializer_list<T> init_list): pid_data(0), pid_size(0), pid_rsize(0), pid_start(0) {
+	inline PIDeque(std::initializer_list<T> init_list) {
 		PIINTROSPECTION_CONTAINER_NEW(T, sizeof(T))
 		alloc_forward(init_list.size());
 		newT(pid_data, init_list.begin(), init_list.size());
@@ -158,7 +156,7 @@ public:
 	//! This constructor reserve `size` and copy from `data` pointer.
 	//! \~russian Создает массив из указателя на данные `data` и размер `size`.
 	//! То есть выделяет память для `size` элементов и копирует данные из указателя `data`.
-	inline PIDeque(const T * data, size_t size): pid_data(0), pid_size(0), pid_rsize(0), pid_start(0) {
+	inline PIDeque(const T * data, size_t size) {
 		PIINTROSPECTION_CONTAINER_NEW(T, sizeof(T))
 		alloc_forward(size);
 		newT(pid_data + pid_start, data, pid_size);
@@ -166,9 +164,9 @@ public:
 	//! \~english Contructs array with size `size` filled elements `e`.
 	//! \~russian Создает массив из `size` элементов заполненных `e`.
-	inline PIDeque(size_t pid_size, const T & e = T()): pid_data(0), pid_size(0), pid_rsize(0), pid_start(0) {
+	inline explicit PIDeque(size_t pid_size, const T & e = T()) {
 		PIINTROSPECTION_CONTAINER_NEW(T, sizeof(T))
-		resize(pid_size, e);
+		expand(pid_size, e);
 	}
 	//! \~english Contructs array with size `size` and elements created by function `f(size_t i)`.
@@ -184,31 +182,34 @@ public:
 	//! PIDeque <int> v(5, [](size_t i){return i*2;});
 	//! piCout << v; // {0, 2, 4, 6, 8}
 	//! \endcode
-	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) {
+	inline PIDeque(size_t piv_size, std::function<T(size_t i)> f) {
 		PIINTROSPECTION_CONTAINER_NEW(T, sizeof(T))
-		resize(piv_size, f);
+		expand(piv_size, f);
 	}
 	//! \~english Move constructor.
 	//! \~russian Перемещающий конструктор.
-	inline PIDeque(PIDeque<T> && other): pid_data(other.pid_data), pid_size(other.pid_size), pid_rsize(other.pid_rsize), pid_start(other.pid_start) {
+	inline PIDeque(PIDeque<T> && other) {
 		PIINTROSPECTION_CONTAINER_NEW(T, sizeof(T))
 		pid_data  = other.pid_data;
 		pid_size  = other.pid_size;
 		pid_rsize = other.pid_rsize;
 		pid_start = other.pid_start;
 		other._reset();
 	}
-	inline virtual ~PIDeque() {
+	inline ~PIDeque() {
 		PIINTROSPECTION_CONTAINER_DELETE(T)
 		PIINTROSPECTION_CONTAINER_FREE(T, (pid_rsize))
 		deleteT(pid_data + pid_start, pid_size);
 		dealloc();
 		_reset();
 	}
 	//! \~english Assign operator.
 	//! \~russian Оператор присваивания.
-	inline PIDeque<T> & operator =(const PIDeque<T> & other) {
+	inline PIDeque<T> & operator=(const PIDeque<T> & other) {
 		if (this == &other) return *this;
-		deleteT(pid_data + pid_start, pid_size);
+		clear();
 		alloc_forward(other.pid_size);
 		newT(pid_data + pid_start, other.pid_data + other.pid_start, pid_size);
 		return *this;
@@ -216,360 +217,330 @@ public:
 	//! \~english Assign move operator.
 	//! \~russian Оператор перемещающего присваивания.
-	inline PIDeque<T> & operator =(PIDeque<T> && other) {
+	inline PIDeque<T> & operator=(PIDeque<T> && other) {
 		swap(other);
 		return *this;
 	}
 	class iterator {
 		friend class PIDeque<T>;
 	private:
 		inline iterator(PIDeque<T> * v, ssize_t p): parent(v), pos(p) {}
 		PIDeque<T> * parent;
 		ssize_t pos;
 	public:
 		typedef T value_type;
-		typedef T* pointer;
+		typedef T * pointer;
-		typedef T& reference;
+		typedef T & reference;
 		typedef std::ptrdiff_t difference_type;
 		typedef std::random_access_iterator_tag iterator_category;
 		inline iterator(): parent(0), pos(0) {}
-		inline T & operator *() {return (*parent)[pos];}
+		inline T & operator*() { return (*parent)[pos]; }
-		inline const T & operator *() const {return (*parent)[pos];}
+		inline const T & operator*() const { return (*parent)[pos]; }
-		inline T & operator ->() {return (*parent)[pos];}
+		inline T & operator->() { return (*parent)[pos]; }
-		inline const T & operator ->() const {return (*parent)[pos];}
+		inline const T & operator->() const { return (*parent)[pos]; }
-		inline iterator & operator ++() {
+		inline iterator & operator++() {
 			++pos;
 			return *this;
 		}
-		inline iterator operator ++(int) {
+		inline iterator operator++(int) {
-			auto tmp = *this;
+			const auto tmp = *this;
 			++*this;
 			return tmp;
 		}
-		inline iterator & operator --() {
+		inline iterator & operator--() {
 			--pos;
 			return *this;
 		}
-		inline iterator operator --(int) {
+		inline iterator operator--(int) {
-			auto tmp = *this;
+			const auto tmp = *this;
 			--*this;
 			return tmp;
 		}
-		inline iterator & operator +=(const iterator & it) {
+		inline iterator & operator+=(const iterator & it) {
 			pos += it.pos;
 			return *this;
 		}
-		inline iterator & operator +=(size_t p) {
+		inline iterator & operator+=(size_t p) {
 			pos += p;
 			return *this;
 		}
-		inline iterator & operator -=(const iterator & it) {
+		inline iterator & operator-=(const iterator & it) {
 			pos -= it.pos;
 			return *this;
 		}
-		inline iterator & operator -=(size_t p) {
+		inline iterator & operator-=(size_t p) {
 			pos -= p;
 			return *this;
 		}
-		friend inline iterator operator -(size_t p, const iterator & it) {return it - p;}
+		friend inline iterator operator-(size_t p, const iterator & it) { return it - p; }
-		friend inline iterator operator -(const iterator & it, size_t p) {
+		friend inline iterator operator-(const iterator & it, size_t p) {
 			auto tmp = it;
 			tmp -= p;
 			return tmp;
 		}
-		friend inline std::ptrdiff_t operator -(const iterator & it1, const iterator & it2) {
+		friend inline std::ptrdiff_t operator-(const iterator & it1, const iterator & it2) { return it1.pos - it2.pos; }
 			return it1.pos - it2.pos;
 		}
-		friend inline iterator operator +(size_t p, const iterator & it) {return it + p;}
+		friend inline iterator operator+(size_t p, const iterator & it) { return it + p; }
-		friend inline iterator operator +(const iterator & it, size_t p) {
+		friend inline iterator operator+(const iterator & it, size_t p) {
 			auto tmp = it;
 			tmp += p;
 			return tmp;
 		}
-		inline bool operator ==(const iterator & it) const {return (pos == it.pos);}
+		inline bool operator==(const iterator & it) const { return (pos == it.pos); }
-		inline bool operator !=(const iterator & it) const {return (pos != it.pos);}
+		inline bool operator!=(const iterator & it) const { return (pos != it.pos); }
-		friend inline bool operator <(const iterator & it1, const iterator & it2) {
+		friend inline bool operator<(const iterator & it1, const iterator & it2) { return it1.pos < it2.pos; }
-			return it1.pos < it2.pos;
+		friend inline bool operator<=(const iterator & it1, const iterator & it2) { return it1.pos <= it2.pos; }
-		}
+		friend inline bool operator>(const iterator & it1, const iterator & it2) { return it1.pos > it2.pos; }
-		friend inline bool operator <=(const iterator & it1, const iterator & it2) {
+		friend inline bool operator>=(const iterator & it1, const iterator & it2) { return it1.pos >= it2.pos; }
 			return it1.pos <= it2.pos;
 		}
 		friend inline bool operator >(const iterator & it1, const iterator & it2) {
 			return it1.pos > it2.pos;
 		}
 		friend inline bool operator >=(const iterator & it1, const iterator & it2) {
 			return it1.pos >= it2.pos;
 		}
 	};
 	class const_iterator {
 		friend class PIDeque<T>;
 	private:
 		inline const_iterator(const PIDeque<T> * v, ssize_t p): parent(v), pos(p) {}
 		const PIDeque<T> * parent;
 		ssize_t pos;
 	public:
 		typedef T value_type;
-		typedef T* pointer;
+		typedef T * pointer;
-		typedef T& reference;
+		typedef T & reference;
 		typedef std::ptrdiff_t difference_type;
 		typedef std::random_access_iterator_tag iterator_category;
 		inline const_iterator(): parent(0), pos(0) {}
-		inline const T & operator *() const {return (*parent)[pos];}
+		inline const T & operator*() const { return (*parent)[pos]; }
-		inline const T & operator ->() const {return (*parent)[pos];}
+		inline const T & operator->() const { return (*parent)[pos]; }
-		inline const_iterator & operator ++() {
+		inline const_iterator & operator++() {
 			++pos;
 			return *this;
 		}
-		inline const_iterator operator ++(int) {
+		inline const_iterator operator++(int) {
-			auto tmp = *this;
+			const auto tmp = *this;
 			++*this;
 			return tmp;
 		}
-		inline const_iterator & operator --() {
+		inline const_iterator & operator--() {
 			--pos;
 			return *this;
 		}
-		inline const_iterator operator --(int) {
+		inline const_iterator operator--(int) {
-			auto tmp = *this;
+			const auto tmp = *this;
 			--*this;
 			return tmp;
 		}
-		inline const_iterator & operator +=(const const_iterator & it) {
+		inline const_iterator & operator+=(const const_iterator & it) {
 			pos += it.pos;
 			return *this;
 		}
-		inline const_iterator & operator +=(size_t p) {
+		inline const_iterator & operator+=(size_t p) {
 			pos += p;
 			return *this;
 		}
-		inline const_iterator & operator -=(const const_iterator & it) {
+		inline const_iterator & operator-=(const const_iterator & it) {
 			pos -= it.pos;
 			return *this;
 		}
-		inline const_iterator & operator -=(size_t p) {
+		inline const_iterator & operator-=(size_t p) {
 			pos -= p;
 			return *this;
 		}
-		friend inline const_iterator operator -(size_t p, const const_iterator & it) {return it - p;}
+		friend inline const_iterator operator-(size_t p, const const_iterator & it) { return it - p; }
-		friend inline const_iterator operator -(const const_iterator & it, size_t p) {
+		friend inline const_iterator operator-(const const_iterator & it, size_t p) {
 			auto tmp = it;
 			tmp -= p;
 			return tmp;
 		}
-		friend inline std::ptrdiff_t operator -(const const_iterator & it1, const const_iterator & it2) {
+		friend inline std::ptrdiff_t operator-(const const_iterator & it1, const const_iterator & it2) { return it1.pos - it2.pos; }
 			return it1.pos - it2.pos;
 		}
-		friend inline const_iterator operator +(size_t p, const const_iterator & it) {return it + p;}
+		friend inline const_iterator operator+(size_t p, const const_iterator & it) { return it + p; }
-		friend inline const_iterator operator +(const const_iterator & it, size_t p) {
+		friend inline const_iterator operator+(const const_iterator & it, size_t p) {
 			auto tmp = it;
 			tmp += p;
 			return tmp;
 		}
-		inline bool operator ==(const const_iterator & it) const {return (pos == it.pos);}
+		inline bool operator==(const const_iterator & it) const { return (pos == it.pos); }
-		inline bool operator !=(const const_iterator & it) const {return (pos != it.pos);}
+		inline bool operator!=(const const_iterator & it) const { return (pos != it.pos); }
-		friend inline bool operator <(const const_iterator & it1, const const_iterator & it2) {
+		friend inline bool operator<(const const_iterator & it1, const const_iterator & it2) { return it1.pos < it2.pos; }
-			return it1.pos < it2.pos;
+		friend inline bool operator<=(const const_iterator & it1, const const_iterator & it2) { return it1.pos <= it2.pos; }
-		}
+		friend inline bool operator>(const const_iterator & it1, const const_iterator & it2) { return it1.pos > it2.pos; }
-		friend inline bool operator <=(const const_iterator & it1, const const_iterator & it2) {
+		friend inline bool operator>=(const const_iterator & it1, const const_iterator & it2) { return it1.pos >= it2.pos; }
 			return it1.pos <= it2.pos;
 		}
 		friend inline bool operator >(const const_iterator & it1, const const_iterator & it2) {
 			return it1.pos > it2.pos;
 		}
 		friend inline bool operator >=(const const_iterator & it1, const const_iterator & it2) {
 			return it1.pos >= it2.pos;
 		}
 	};
 	class reverse_iterator {
 		friend class PIDeque<T>;
 	private:
 		inline reverse_iterator(PIDeque<T> * v, ssize_t p): parent(v), pos(p) {}
 		PIDeque<T> * parent;
 		ssize_t pos;
 	public:
 		typedef T value_type;
-		typedef T* pointer;
+		typedef T * pointer;
-		typedef T& reference;
+		typedef T & reference;
 		typedef std::ptrdiff_t difference_type;
 		typedef std::random_access_iterator_tag iterator_category;
 		inline reverse_iterator(): parent(0), pos(0) {}
-		inline T & operator *() {return (*parent)[pos];}
+		inline T & operator*() { return (*parent)[pos]; }
-		inline const T & operator *() const {return (*parent)[pos];}
+		inline const T & operator*() const { return (*parent)[pos]; }
-		inline T & operator ->() {return (*parent)[pos];}
+		inline T & operator->() { return (*parent)[pos]; }
-		inline const T & operator ->() const {return (*parent)[pos];}
+		inline const T & operator->() const { return (*parent)[pos]; }
-		inline reverse_iterator & operator ++() {
+		inline reverse_iterator & operator++() {
 			--pos;
 			return *this;
 		}
-		inline reverse_iterator operator ++(int) {
+		inline reverse_iterator operator++(int) {
-			auto tmp = *this;
+			const auto tmp = *this;
 			--*this;
 			return tmp;
 		}
-		inline reverse_iterator & operator --() {
+		inline reverse_iterator & operator--() {
 			++pos;
 			return *this;
 		}
-		inline reverse_iterator operator --(int) {
+		inline reverse_iterator operator--(int) {
-			auto tmp = *this;
+			const auto tmp = *this;
 			++*this;
 			return tmp;
 		}
-		inline reverse_iterator & operator +=(const reverse_iterator & it) {
+		inline reverse_iterator & operator+=(const reverse_iterator & it) {
 			pos -= it.pos;
 			return *this;
 		}
-		inline reverse_iterator & operator +=(size_t p) {
+		inline reverse_iterator & operator+=(size_t p) {
 			pos -= p;
 			return *this;
 		}
-		inline reverse_iterator & operator -=(const reverse_iterator & it) {
+		inline reverse_iterator & operator-=(const reverse_iterator & it) {
 			pos += it.pos;
 			return *this;
 		}
-		inline reverse_iterator & operator -=(size_t p) {
+		inline reverse_iterator & operator-=(size_t p) {
 			pos += p;
 			return *this;
 		}
-		friend inline reverse_iterator operator -(size_t p, const reverse_iterator & it) {return it - p;}
+		friend inline reverse_iterator operator-(size_t p, const reverse_iterator & it) { return it - p; }
-		friend inline reverse_iterator operator -(const reverse_iterator & it, size_t p) {
+		friend inline reverse_iterator operator-(const reverse_iterator & it, size_t p) {
 			auto tmp = it;
 			tmp -= p;
 			return tmp;
 		}
-		friend inline std::ptrdiff_t operator -(const reverse_iterator & it1, const reverse_iterator & it2) {
+		friend inline std::ptrdiff_t operator-(const reverse_iterator & it1, const reverse_iterator & it2) { return it2.pos - it1.pos; }
 			return it2.pos - it1.pos;
 		}
-		friend inline reverse_iterator operator +(size_t p, const reverse_iterator & it) {return it + p;}
+		friend inline reverse_iterator operator+(size_t p, const reverse_iterator & it) { return it + p; }
-		friend inline reverse_iterator operator +(const reverse_iterator & it, size_t p) {
+		friend inline reverse_iterator operator+(const reverse_iterator & it, size_t p) {
 			auto tmp = it;
 			tmp += p;
 			return tmp;
 		}
-		inline bool operator ==(const reverse_iterator & it) const {return (pos == it.pos);}
+		inline bool operator==(const reverse_iterator & it) const { return (pos == it.pos); }
-		inline bool operator !=(const reverse_iterator & it) const {return (pos != it.pos);}
+		inline bool operator!=(const reverse_iterator & it) const { return (pos != it.pos); }
-		friend inline bool operator <(const reverse_iterator & it1, const reverse_iterator & it2) {
+		friend inline bool operator<(const reverse_iterator & it1, const reverse_iterator & it2) { return it1.pos < it2.pos; }
-			return it1.pos < it2.pos;
+		friend inline bool operator<=(const reverse_iterator & it1, const reverse_iterator & it2) { return it1.pos <= it2.pos; }
-		}
+		friend inline bool operator>(const reverse_iterator & it1, const reverse_iterator & it2) { return it1.pos > it2.pos; }
-		friend inline bool operator <=(const reverse_iterator & it1, const reverse_iterator & it2) {
+		friend inline bool operator>=(const reverse_iterator & it1, const reverse_iterator & it2) { return it1.pos >= it2.pos; }
 			return it1.pos <= it2.pos;
 		}
 		friend inline bool operator >(const reverse_iterator & it1, const reverse_iterator & it2) {
 			return it1.pos > it2.pos;
 		}
 		friend inline bool operator >=(const reverse_iterator & it1, const reverse_iterator & it2) {
 			return it1.pos >= it2.pos;
 		}
 	};
 	class const_reverse_iterator {
 		friend class PIDeque<T>;
 	private:
 		inline const_reverse_iterator(const PIDeque<T> * v, ssize_t p): parent(v), pos(p) {}
 		const PIDeque<T> * parent;
 		ssize_t pos;
 	public:
 		typedef T value_type;
-		typedef T* pointer;
+		typedef T * pointer;
-		typedef T& reference;
+		typedef T & reference;
 		typedef std::ptrdiff_t difference_type;
 		typedef std::random_access_iterator_tag iterator_category;
 		inline const_reverse_iterator(): parent(0), pos(0) {}
-		inline const T & operator *() const {return (*parent)[pos];}
+		inline const T & operator*() const { return (*parent)[pos]; }
-		inline const T & operator ->() const {return (*parent)[pos];}
+		inline const T & operator->() const { return (*parent)[pos]; }
-		inline const_reverse_iterator & operator ++() {
+		inline const_reverse_iterator & operator++() {
 			--pos;
 			return *this;
 		}
-		inline const_reverse_iterator operator ++(int) {
+		inline const_reverse_iterator operator++(int) {
-			auto tmp = *this;
+			const auto tmp = *this;
 			--*this;
 			return tmp;
 		}
-		inline const_reverse_iterator & operator --() {
+		inline const_reverse_iterator & operator--() {
 			++pos;
 			return *this;
 		}
-		inline const_reverse_iterator operator --(int) {
+		inline const_reverse_iterator operator--(int) {
-			auto tmp = *this;
+			const auto tmp = *this;
 			++*this;
 			return tmp;
 		}
-		inline const_reverse_iterator & operator +=(const const_reverse_iterator & it) {
+		inline const_reverse_iterator & operator+=(const const_reverse_iterator & it) {
 			pos -= it.pos;
 			return *this;
 		}
-		inline const_reverse_iterator & operator +=(size_t p) {
+		inline const_reverse_iterator & operator+=(size_t p) {
 			pos -= p;
 			return *this;
 		}
-		inline const_reverse_iterator & operator -=(const const_reverse_iterator & it) {
+		inline const_reverse_iterator & operator-=(const const_reverse_iterator & it) {
 			pos += it.pos;
 			return *this;
 		}
-		inline const_reverse_iterator & operator -=(size_t p) {
+		inline const_reverse_iterator & operator-=(size_t p) {
 			pos += p;
 			return *this;
 		}
-		friend inline const_reverse_iterator operator -(size_t p, const const_reverse_iterator & it) {return it - p;}
+		friend inline const_reverse_iterator operator-(size_t p, const const_reverse_iterator & it) { return it - p; }
-		friend inline const_reverse_iterator operator -(const const_reverse_iterator & it, size_t p) {
+		friend inline const_reverse_iterator operator-(const const_reverse_iterator & it, size_t p) {
 			auto tmp = it;
 			tmp -= p;
 			return tmp;
 		}
-		friend inline std::ptrdiff_t operator -(const const_reverse_iterator & it1, const const_reverse_iterator & it2) {
+		friend inline std::ptrdiff_t operator-(const const_reverse_iterator & it1, const const_reverse_iterator & it2) {
 			return it2.pos - it1.pos;
 		}
-		friend inline const_reverse_iterator operator +(size_t p, const const_reverse_iterator & it) {return it + p;}
+		friend inline const_reverse_iterator operator+(size_t p, const const_reverse_iterator & it) { return it + p; }
-		friend inline const_reverse_iterator operator +(const const_reverse_iterator & it, size_t p) {
+		friend inline const_reverse_iterator operator+(const const_reverse_iterator & it, size_t p) {
 			auto tmp = it;
 			tmp += p;
 			return tmp;
 		}
-		inline bool operator ==(const const_reverse_iterator & it) const {return (pos == it.pos);}
+		inline bool operator==(const const_reverse_iterator & it) const { return (pos == it.pos); }
-		inline bool operator !=(const const_reverse_iterator & it) const {return (pos != it.pos);}
+		inline bool operator!=(const const_reverse_iterator & it) const { return (pos != it.pos); }
-		friend inline bool operator <(const const_reverse_iterator & it1, const const_reverse_iterator & it2) {
+		friend inline bool operator<(const const_reverse_iterator & it1, const const_reverse_iterator & it2) { return it1.pos < it2.pos; }
-			return it1.pos < it2.pos;
+		friend inline bool operator<=(const const_reverse_iterator & it1, const const_reverse_iterator & it2) { return it1.pos <= it2.pos; }
-		}
+		friend inline bool operator>(const const_reverse_iterator & it1, const const_reverse_iterator & it2) { return it1.pos > it2.pos; }
-		friend inline bool operator <=(const const_reverse_iterator & it1, const const_reverse_iterator & it2) {
+		friend inline bool operator>=(const const_reverse_iterator & it1, const const_reverse_iterator & it2) { return it1.pos >= it2.pos; }
 			return it1.pos <= it2.pos;
 		}
 		friend inline bool operator >(const const_reverse_iterator & it1, const const_reverse_iterator & it2) {
 			return it1.pos > it2.pos;
 		}
 		friend inline bool operator >=(const const_reverse_iterator & it1, const const_reverse_iterator & it2) {
 			return it1.pos >= it2.pos;
 		}
 	};
@@ -581,7 +552,7 @@ public:
 	//! \~russian Если массив - пуст, возвращаемый итератор будет равен \a end().
 	//! \~\return \ref stl_iterators
 	//! \~\sa \a end(), \a rbegin(), \a rend()
-	inline iterator begin() {return iterator(this, 0);}
+	inline iterator begin() { return iterator(this, 0); }
 	//! \~english Iterator to the element following the last element.
 	//! \~russian Итератор на элемент, следующий за последним элементом.
@@ -593,10 +564,10 @@ public:
 	//! попытка доступа к нему приведёт к выходу за разрешенную память.
 	//! \~\return \ref stl_iterators
 	//! \~\sa \a begin(), \a rbegin(), \a rend()
-	inline iterator end() {return iterator(this, pid_size);}
+	inline iterator end() { return iterator(this, pid_size); }
-	inline const_iterator begin() const {return const_iterator(this, 0); }
+	inline const_iterator begin() const { return const_iterator(this, 0); }
-	inline const_iterator end() const {return const_iterator(this, pid_size);}
+	inline const_iterator end() const { return const_iterator(this, pid_size); }
 	//! \~english Returns a reverse iterator to the first element of the reversed array.
 	//! \~russian Обратный итератор на первый элемент.
@@ -609,11 +580,12 @@ public:
 	//! Если массив пустой, то совпадает с итератором \a rend().
 	//! \~\return \ref stl_iterators
 	//! \~\sa \a rend(), \a begin(), \a end()
-	inline reverse_iterator rbegin() {return reverse_iterator(this, pid_size - 1);}
+	inline reverse_iterator rbegin() { return reverse_iterator(this, pid_size - 1); }
 	//! \~english Returns a reverse iterator to the element.
 	//! following the last element of the reversed array.
-	//! \~russian Обратный итератор на элемент, следующий за последним элементом.
+	//! \~russian Обратный итератор на элемент,
 	//! следующий за последним элементом.
 	//! \~\details ![rbegin, rend](doc/images/pivector_rbegin.png)
 	//!
 	//! \~english It corresponds to the element preceding the first element of the non-reversed array.
@@ -624,51 +596,51 @@ public:
 	//! попытка доступа к нему приведёт к выходу за разрешенную память.
 	//! \~\return \ref stl_iterators
 	//! \~\sa \a rbegin(), \a begin(), \a end()
-	inline reverse_iterator rend() {return reverse_iterator(this, -1);}
+	inline reverse_iterator rend() { return reverse_iterator(this, -1); }
-	inline const_reverse_iterator rbegin() const {return const_reverse_iterator(this, pid_size - 1);}
+	inline const_reverse_iterator rbegin() const { return const_reverse_iterator(this, pid_size - 1); }
-	inline const_reverse_iterator rend() const {return const_reverse_iterator(this, -1);}
+	inline const_reverse_iterator rend() const { return const_reverse_iterator(this, -1); }
 	//! \~english Number of elements in the container.
 	//! \~russian Количество элементов массива.
 	//! \~\sa \a size_s(), \a capacity(), \a isEmpty(), \a isNotEmpty(), \a resize(), \a reserve()
-	inline size_t size() const {return pid_size;}
+	inline size_t size() const { return pid_size; }
 	//! \~english Number of elements in the container as signed value.
 	//! \~russian Количество элементов массива в виде знакового числа.
 	//! \~\sa \a size(), \a capacity(), \a isEmpty(), \a isNotEmpty(), \a resize(), \a reserve()
-	inline ssize_t size_s() const {return pid_size;}
+	inline ssize_t size_s() const { return pid_size; }
 	//! \~english Same as \a size().
 	//! \~russian Синоним \a size().
 	//! \~\sa \a size(), \a size_s(), \a capacity(), \a isEmpty(), \a isNotEmpty(), \a resize(), \a reserve()
-	inline size_t length() const {return pid_size;}
+	inline size_t length() const { return pid_size; }
 	//! \~english Number of elements that the container has currently allocated space for.
-	//! \~russian Количество элементов, для которого сейчас выделена память контейнером.
+	//! \~russian Количество элементов, для которого сейчас выделена память массивом.
 	//! \~\details
 	//! \~english To find out the actual number of items, use the function \a size().
 	//! \~russian Чтобы узнать фактическое количество элементов используйте функцию \a size().
 	//! \~\sa \a reserve(), \a size(), \a size_s()
-	inline size_t capacity() const {return pid_rsize;}
+	inline size_t capacity() const { return pid_rsize; }
-	inline size_t _start() const {return pid_start;}
+	inline size_t _start() const { return pid_start; }
 	//! \~english Checks if the container has no elements.
-	//! \~russian Проверяет пуст ли контейнер.
+	//! \~russian Проверяет пуст ли массив.
 	//! \~\return
 	//! \~english **true** if the container is empty, **false** otherwise
-	//! \~russian **true** если контейнер пуст, **false** иначе.
+	//! \~russian **true** если массив пуст, **false** иначе.
 	//! \~\sa \a size(), \a size_s(), \a isEmpty(), \a isNotEmpty(), \a resize(), \a reserve()
-	inline bool isEmpty() const {return (pid_size == 0);}
+	inline bool isEmpty() const { return (pid_size == 0); }
 	//! \~english Checks if the container has elements.
-	//! \~russian Проверяет не пуст ли контейнер.
+	//! \~russian Проверяет не пуст ли массив.
 	//! \~\return
 	//! \~english **true** if the container is not empty, **false** otherwise
-	//! \~russian **true** если контейнер не пуст, **false** иначе.
+	//! \~russian **true** если массив не пуст, **false** иначе.
 	//! \~\sa \a size(), \a size_s(), \a isEmpty(), \a isNotEmpty(), \a resize(), \a reserve()
-	inline bool isNotEmpty() const {return (pid_size > 0);}
+	inline bool isNotEmpty() const { return (pid_size > 0); }
 	//! \~english Tests whether at least one element in the array
 	//! passes the test implemented by the provided function `test`.
@@ -689,7 +661,7 @@ public:
 	//! \endcode
 	//! \~\sa \a every(), \a contains(), \a entries(), \a forEach()
 	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) {
+		for (size_t i = pid_start; i < pid_start + pid_size; ++i) {
 			if (test(pid_data[i])) return true;
 		}
 		return false;
@@ -714,7 +686,7 @@ public:
 	//! \endcode
 	//! \~\sa \a any(), \a contains(), \a entries(), \a forEach()
 	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) {
+		for (size_t i = pid_start; i < pid_start + pid_size; ++i) {
 			if (!test(pid_data[i])) return false;
 		}
 		return true;
@@ -736,8 +708,8 @@ public:
 	//! piCout << v; // {1, 2, 5, 9}
 	//! \endcode
 	//! \~\sa \a at()
-	inline T & operator [](size_t index) {return pid_data[pid_start + index];}
+	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];}
+	inline const T & operator[](size_t index) const { return pid_data[pid_start + index]; }
 	//! \~english Read only access to element by `index`.
 	//! \~russian Доступ исключительно на чтение к элементу по индексу `index`.
@@ -748,7 +720,35 @@ public:
 	//! \~russian Индекс элемента считается от `0`.
 	//! Индекс элемента должен лежать в пределах от `0` до `size()-1`.
 	//! Иначе это приведёт к неопределённому поведению программы и ошибкам памяти.
-	inline const T & at(size_t index) const {return pid_data[pid_start + index];}
+	inline const T & at(size_t index) const { return pid_data[pid_start + index]; }
 	//! \~english Returns the first element of the array that
 	//! passes the test implemented by the provided function `test`
 	//! or `def` if there is no such element.
 	//! \~russian Возвращает первый элемент массива, проходящего по условию,
 	//! заданному в передаваемой функции `test`, или `def` если такого элемента нет.
 	//! \~\sa \a indexWhere()
 	inline const T & atWhere(std::function<bool(const T & e)> test, ssize_t start = 0, const T & def = T()) const {
 		const ssize_t i = indexWhere(test, start);
 		if (i < 0)
 			return def;
 		else
 			return at(i);
 	}
 	//! \~english Returns the last element of the array that
 	//! passes the test implemented by the provided function `test`
 	//! or `def` if there is no such element.
 	//! \~russian Возвращает последний элемент массива, проходящего по условию,
 	//! заданному в передаваемой функции `test`, или `def` если такого элемента нет.
 	//! \~\sa \a lastIndexWhere()
 	inline const T & lastAtWhere(std::function<bool(const T & e)> test, ssize_t start = -1, const T & def = T()) const {
 		const ssize_t i = lastIndexWhere(test, start);
 		if (i < 0)
 			return def;
 		else
 			return at(i);
 	}
 	//! \~english Last element.
 	//! \~russian Последний элемент массива.
@@ -759,8 +759,8 @@ public:
 	//! \~russian Возвращает ссылку на последний элемент в массиве.
 	//! Эта функция предполагает, что массив не пустой.
 	//! Иначе это приведёт к неопределённому поведению программы и ошибкам памяти.
-	inline T & back() {return pid_data[pid_start + pid_size - 1];}
+	inline T & back() { return pid_data[pid_start + pid_size - 1]; }
-	inline const T & back() const {return pid_data[pid_start + pid_size - 1];}
+	inline const T & back() const { return pid_data[pid_start + pid_size - 1]; }
 	//! \~english Last element.
 	//! \~russian Первый элемент массива.
@@ -771,12 +771,12 @@ public:
 	//! \~russian Возвращает ссылку на пенрвый элемент в массиве.
 	//! Эта функция предполагает, что массив не пустой.
 	//! Иначе это приведёт к неопределённому поведению программы и ошибкам памяти.
-	inline T & front() {return pid_data[pid_start];}
+	inline T & front() { return pid_data[pid_start]; }
-	inline const T & front() const {return pid_data[pid_start];}
+	inline const T & front() const { return pid_data[pid_start]; }
 	//! \~english Compare operator with array `v`.
 	//! \~russian Оператор сравнения с массивом `v`.
-	inline bool operator ==(const PIDeque<T> & v) const {
+	inline bool operator==(const PIDeque<T> & v) const {
 		if (pid_size != v.pid_size) return false;
 		for (size_t i = 0; i < pid_size; ++i) {
 			if (v[i] != (*this)[i]) return false;
@@ -786,7 +786,7 @@ public:
 	//! \~english Compare operator with array `v`.
 	//! \~russian Оператор сравнения с массивом `v`.
-	inline bool operator !=(const PIDeque<T> & v) const {return !(*this == v);}
+	inline bool operator!=(const PIDeque<T> & v) const { return !(*this == v); }
 	//! \~english Tests if element `e` exists in the array.
 	//! \~russian Проверяет наличие элемента `e` в массиве.
@@ -804,7 +804,7 @@ public:
 	//! возвращается **false**, что означает, что массив даже не просматривается.
 	//! Если индекс является отрицательным числом, он трактуется как смещение с конца массива.
 	//! Если рассчитанный индекс все равно оказывается меньше 0, просматривается весь массив.
-	//! Обратите внимание: если индекс отрицателен, массив всё равно просматривается от начала к концу.
+	//! Обратите внимание: если индекс отрицателен, массив всё равно просматривается от начала к концу (слева на право).
 	//! Значение по умолчанию равно 0, что означает, что просматривается весь массив.
 	//! \~\code
 	//! PIDeque<int> v{1, 2, 3, 4};
@@ -825,12 +825,39 @@ public:
 			start = pid_size + start;
 			if (start < 0) start = 0;
 		}
-		for (ssize_t i = pid_start + start; i < pid_start + (ssize_t)pid_size; ++i) {
+		for (size_t i = pid_start + size_t(start); i < pid_start + pid_size; ++i) {
 			if (e == pid_data[i]) return true;
 		}
 		return false;
 	}
 	//! \~english Tests if all elements of `v` exists in the array.
 	//! \~russian Проверяет наличие  всех элементов `v` в массиве.
 	//! \~\details
 	//! \~\code
 	//! PIDeque<int> v{1, 2, 3, 4};
 	//! piCout << v.contains({1,4}); // true
 	//! piCout << v.contains({1,5}); // false
 	//! \endcode
 	//! \~\sa \a every(), \a any(), \a entries(), \a forEach()
 	inline bool contains(const PIDeque<T> & v, ssize_t start = 0) const {
 		if (start < 0) {
 			start = pid_size + start;
 			if (start < 0) start = 0;
 		}
 		for (const T & e: v) {
 			bool c = false;
 			for (size_t i = pid_start + size_t(start); i < pid_start + pid_size; ++i) {
 				if (e == pid_data[i]) {
 					c = true;
 					break;
 				}
 			}
 			if (!c) return false;
 		}
 		return true;
 	}
 	//! \~english Count elements equal `e` in the array.
 	//! \~russian Подсчитывает количество элементов, совпадающих с элементом `e` в массиве.
 	//! \~\details
@@ -847,7 +874,7 @@ public:
 	//! возвращается 0, что означает, что массив даже не просматривается.
 	//! Если индекс является отрицательным числом, он трактуется как смещение с конца массива.
 	//! Если рассчитанный индекс все равно оказывается меньше 0, просматривается весь массив.
-	//! Обратите внимание: если индекс отрицателен, массив всё равно просматривается от начала к концу.
+	//! Обратите внимание: если индекс отрицателен, массив всё равно просматривается от начала к концу (слева на право).
 	//! Значение по умолчанию равно 0, что означает, что просматривается весь массив.
 	//! \~\code
 	//! PIDeque<int> v{2, 2, 4, 2, 6};
@@ -856,13 +883,13 @@ public:
 	//! piCout << v.entries(2, -4); // 2
 	//! \endcode
 	//! \~\sa \a every(), \a any(), \a contains(), \a forEach(), \a indexOf()
-	inline int entries(const T & e, size_t start = 0) const {
+	inline int entries(const T & e, ssize_t start = 0) const {
 		int ec = 0;
 		if (start < 0) {
 			start = pid_size + start;
 			if (start < 0) start = 0;
 		}
-		for (ssize_t i = pid_start + start; i < pid_start + (ssize_t)pid_size; ++i) {
+		for (size_t i = pid_start + size_t(start); i < pid_start + pid_size; ++i) {
 			if (e == pid_data[i]) ++ec;
 		}
 		return ec;
@@ -887,16 +914,16 @@ public:
 	//! возвращается 0, что означает, что массив даже не просматривается.
 	//! Если индекс является отрицательным числом, он трактуется как смещение с конца массива.
 	//! Если рассчитанный индекс все равно оказывается меньше 0, просматривается весь массив.
-	//! Обратите внимание: если индекс отрицателен, массив всё равно просматривается от начала к концу.
+	//! Обратите внимание: если индекс отрицателен, массив всё равно просматривается от начала к концу (слева на право).
 	//! Значение по умолчанию равно 0, что означает, что просматривается весь массив.
 	//! \~\sa \a every(), \a any(), \a contains(), \a forEach(), \a indexWhere()
-	inline int entries(std::function<bool(const T & e)> test, size_t start = 0) const {
+	inline int entries(std::function<bool(const T & e)> test, ssize_t start = 0) const {
 		int ec = 0;
 		if (start < 0) {
 			start = pid_size + start;
 			if (start < 0) start = 0;
 		}
-		for (ssize_t i = pid_start + start; i < pid_start + (ssize_t)pid_size; ++i) {
+		for (size_t i = pid_start + size_t(start); i < pid_start + pid_size; ++i) {
 			if (test(pid_data[i])) ++ec;
 		}
 		return ec;
@@ -920,7 +947,7 @@ public:
 	//! возвращается `-1`, что означает, что массив даже не просматривается.
 	//! Если индекс является отрицательным числом, он трактуется как смещение с конца массива.
 	//! Если рассчитанный индекс все равно оказывается меньше 0, просматривается весь массив.
-	//! Обратите внимание: если индекс отрицателен, массив всё равно просматривается от начала к концу.
+	//! Обратите внимание: если индекс отрицателен, массив всё равно просматривается от начала к концу (слева на право).
 	//! Значение по умолчанию равно 0, что означает, что просматривается весь массив.
 	//! \~\code
 	//! PIDeque<int> v{2, 5, 9};
@@ -931,14 +958,14 @@ public:
 	//! piCout << v.indexOf(2, -3); // 0
 	//! \endcode
 	//! \~\sa \a indexWhere(), \a lastIndexOf(), \a lastIndexWhere(), \a contains()
-	inline ssize_t indexOf(const T & e, size_t start = 0) const {
+	inline ssize_t indexOf(const T & e, ssize_t start = 0) const {
 		if (start < 0) {
 			start = pid_size + start;
 			if (start < 0) start = 0;
 		}
-		for (ssize_t i = pid_start + start; i < pid_start + (ssize_t)pid_size; ++i) {
+		for (size_t i = pid_start + size_t(start); i < pid_start + pid_size; ++i) {
 			if (e == pid_data[i]) {
-				return i - pid_start;
+				return ssize_t(i) - pid_start;
 			}
 		}
 		return -1;
@@ -963,7 +990,7 @@ public:
 	//! возвращается `-1`, что означает, что массив даже не просматривается.
 	//! Если индекс является отрицательным числом, он трактуется как смещение с конца массива.
 	//! Если рассчитанный индекс все равно оказывается меньше 0, просматривается весь массив.
-	//! Обратите внимание: если индекс отрицателен, массив всё равно просматривается от начала к концу.
+	//! Обратите внимание: если индекс отрицателен, массив всё равно просматривается от начала к концу (слева на право).
 	//! Значение по умолчанию равно 0, что означает, что просматривается весь массив.
 	//! \~\code
 	//! PIDeque<PIString> v{"do", "re", "mi", "re"};
@@ -972,14 +999,14 @@ public:
 	//! piCout << v.indexWhere([](const PIString & s){return s.startsWith('k');});    // -1
 	//! \endcode
 	//! \~\sa \a indexOf(), \a lastIndexOf(), \a lastIndexWhere(), \a contains()
-	inline ssize_t indexWhere(std::function<bool(const T & e)> test, size_t start = 0) const {
+	inline ssize_t indexWhere(std::function<bool(const T & e)> test, ssize_t start = 0) const {
 		if (start < 0) {
 			start = pid_size + start;
 			if (start < 0) start = 0;
 		}
-		for (ssize_t i = pid_start + start; i < pid_start + (ssize_t)pid_size; ++i) {
+		for (size_t i = pid_start + size_t(start); i < pid_start + pid_size; ++i) {
 			if (test(pid_data[i])) {
-				return i - pid_start;
+				return ssize_t(i) - pid_start;
 			}
 		}
 		return -1;
@@ -1005,7 +1032,7 @@ public:
 	//! c которого начинать поиск в обратном направлении.
 	//! Если индекс больше или равен длине массива, просматривается весь массив.
 	//! Если индекс является отрицательным числом, он трактуется как смещение с конца массива.
-	//! Обратите внимание: если индекс отрицателен, массив всё равно просматривается от конца к началу.
+	//! Обратите внимание: если индекс отрицателен, массив всё равно просматривается от конца к началу (справа на лево).
 	//! Если рассчитанный индекс оказывается меньше 0, массив даже не просматривается.
 	//! Значение по умолчанию равно `-1`, что равно индексу последнего элемента
 	//! и означает, что просматривается весь массив.
@@ -1022,9 +1049,9 @@ public:
 	inline ssize_t lastIndexOf(const T & e, ssize_t start = -1) const {
 		if (start >= size_s()) start = pid_size - 1;
 		if (start < 0) start = pid_size + start;
-		for (ssize_t i = pid_start + start; i >= pid_start; --i) {
+		for (ssize_t i = ssize_t(pid_start) + start; i >= ssize_t(pid_start); --i) {
 			if (e == pid_data[i]) {
-				return i - pid_start;
+				return i - ssize_t(pid_start);
 			}
 		}
 		return -1;
@@ -1050,7 +1077,7 @@ public:
 	//! c которого начинать поиск в обратном направлении.
 	//! Если индекс больше или равен длине массива, просматривается весь массив.
 	//! Если индекс является отрицательным числом, он трактуется как смещение с конца массива.
-	//! Обратите внимание: если индекс отрицателен, массив всё равно просматривается от конца к началу.
+	//! Обратите внимание: если индекс отрицателен, массив всё равно просматривается от конца к началу (справа на лево).
 	//! Если рассчитанный индекс оказывается меньше 0, массив даже не просматривается.
 	//! Значение по умолчанию равно `-1`, что равно индексу последнего элемента
 	//! и означает, что просматривается весь массив.
@@ -1058,9 +1085,9 @@ public:
 	inline ssize_t lastIndexWhere(std::function<bool(const T & e)> test, ssize_t start = -1) const {
 		if (start >= size_s()) start = pid_size - 1;
 		if (start < 0) start = pid_size + start;
-		for (ssize_t i = pid_start + start; i >= pid_start; --i) {
+		for (ssize_t i = ssize_t(pid_start) + start; i >= ssize_t(pid_start); --i) {
 			if (test(pid_data[i])) {
-				return i - pid_start;
+				return i - ssize_t(pid_start);
 			}
 		}
 		return -1;
@@ -1079,7 +1106,7 @@ public:
 	//! memcpy(vec.data(1), a, 2 * sizeof(int));
 	//! piCout << v; // {2, 12, 13, 2}
 	//! \endcode
-	inline T * data(size_t index = 0) {return &(pid_data[pid_start + index]);}
+	inline T * data(size_t index = 0) { return &(pid_data[pid_start + index]); }
 	//! \~english Read only pointer to array
 	//! \~russian Указатель на память массива только для чтения.
@@ -1098,7 +1125,7 @@ public:
 	//! memcpy(a, v.data(), a.size() * sizeof(int));
 	//! piCout << a[0] << a[1] << a[2]; // 1 3 5
 	//! \endcode
-	inline const T * data(size_t index = 0) const {return &(pid_data[pid_start + index]);}
+	inline const T * data(size_t index = 0) const { return &(pid_data[pid_start + index]); }
 	//! \~english Creates sub-array of this array.
 	//! \~russian Создает подмассив, то есть кусок из текущего массива.
@@ -1119,7 +1146,7 @@ public:
 	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);
+		return PIDeque(pid_data + pid_start + index, count);
 	}
 	//! \~english Clear array, remove all elements.
@@ -1129,16 +1156,14 @@ public:
 	//! \~english Reserved memory will not be released.
 	//! \~russian Зарезервированная память не освободится.
 	//! \~\sa \a resize()
-	template<typename T1 = T, typename std::enable_if<
+	template<typename T1 = T, typename std::enable_if<!std::is_trivially_copyable<T1>::value, int>::type = 0>
 				 !std::is_trivially_copyable<T1>::value
 				 , int>::type = 0>
 	inline PIDeque<T> & clear() {
-		resize(0);
+		deleteT(pid_data + pid_start, pid_size);
 		pid_size  = 0;
 		pid_start = (pid_rsize - pid_size) / 2;
 		return *this;
 	}
-	template<typename T1 = T, typename std::enable_if<
+	template<typename T1 = T, typename std::enable_if<std::is_trivially_copyable<T1>::value, int>::type = 0>
 				 std::is_trivially_copyable<T1>::value
 				 , int>::type = 0>
 	inline PIDeque<T> & clear() {
 		PIINTROSPECTION_CONTAINER_UNUSED(T, pid_size)
 		pid_size  = 0;
@@ -1185,21 +1210,17 @@ public:
 	//! \~english Same as \a fill().
 	//! \~russian Тоже самое что и \a fill().
 	//! \~\sa \a fill(), \a resize()
-	inline PIDeque<T> & assign(const T & e = T()) {return fill(e);}
+	inline PIDeque<T> & assign(const T & e = T()) { return fill(e); }
 	//! \~english First does `resize(new_size)` then `fill(e)`.
 	//! \~russian Сначала делает `resize(new_size)`, затем `fill(e)`.
 	//! \~\sa \a fill(), \a resize()
-	template<typename T1 = T, typename std::enable_if<
+	template<typename T1 = T, typename std::enable_if<!std::is_trivially_copyable<T1>::value, int>::type = 0>
 				 !std::is_trivially_copyable<T1>::value
 				 , int>::type = 0>
 	inline PIDeque<T> & assign(size_t new_size, const T & e) {
 		resize(new_size);
 		return fill(e);
 	}
-	template<typename T1 = T, typename std::enable_if<
+	template<typename T1 = T, typename std::enable_if<std::is_trivially_copyable<T1>::value, int>::type = 0>
 				 std::is_trivially_copyable<T1>::value
 				 , int>::type = 0>
 	inline PIDeque<T> & assign(size_t new_size, const T & e) {
 		_resizeRaw(new_size);
 		return fill(e);
@@ -1217,20 +1238,12 @@ public:
 	//! лишние элементы удаляются с конца массива.
 	//! \~\sa \a size(), \a clear()
 	inline PIDeque<T> & resize(size_t new_size, const T & e = T()) {
 		if (new_size == 0) return clear();
 		if (new_size < pid_size) {
-			deleteT(&(pid_data[new_size + pid_start]), pid_size - new_size);
+			deleteT(pid_data + pid_start + new_size, pid_size - new_size);
 			pid_size = new_size;
-			if (new_size == 0) {
+		} else if (new_size > pid_size) {
-				pid_start = (pid_rsize - pid_size) / 2;
+			expand(new_size, e);
 			}
 		}
 		if (new_size > pid_size) {
 			size_t os = pid_size;
 			alloc_forward(new_size);
 			PIINTROSPECTION_CONTAINER_USED(T, (new_size-os))
 			for (size_t i = os + pid_start; i < new_size + pid_start; ++i) {
 				elementNew(pid_data + i, e);
 			}
 		}
 		return *this;
 	}
@@ -1247,41 +1260,31 @@ public:
 	//! лишние элементы удаляются с конца массива.
 	//! \~\sa \a size(), \a clear()
 	inline PIDeque<T> & resize(size_t new_size, std::function<T(size_t i)> f) {
 		if (new_size == 0) return clear();
 		if (new_size < pid_size) {
-			deleteT(&(pid_data[new_size + pid_start]), pid_size - new_size);
+			deleteT(pid_data + pid_start + new_size, pid_size - new_size);
 			pid_size = new_size;
-			if (new_size == 0) {
+		} else if (new_size > pid_size) {
-				pid_start = (pid_rsize - pid_size) / 2;
+			expand(new_size, f);
 			}
 		}
 		if (new_size > pid_size) {
 			size_t os = pid_size;
 			alloc_forward(new_size);
 			PIINTROSPECTION_CONTAINER_USED(T, (new_size-os))
 			for (size_t i = os + pid_start; i < new_size + pid_start; ++i) {
 				elementNew(pid_data + i, f(i));
 			}
 		}
 		return *this;
 	}
-	template<typename T1 = T, typename std::enable_if<
+	template<typename T1 = T, typename std::enable_if<std::is_trivially_copyable<T1>::value, int>::type = 0>
 				 std::is_trivially_copyable<T1>::value
 				 , int>::type = 0>
 	inline PIDeque<T> & _resizeRaw(size_t new_size) {
 #if defined(PIP_INTROSPECTION) && !defined(PIP_FORCE_NO_PIINTROSPECTION)
 		if (new_size > pid_size) {
-			PIINTROSPECTION_CONTAINER_USED(T, (new_size-pid_size));
+			PIINTROSPECTION_CONTAINER_USED(T, (new_size - pid_size));
 		}
 		if (new_size < pid_size) {
-			PIINTROSPECTION_CONTAINER_UNUSED(T, (pid_size-new_size));
+			PIINTROSPECTION_CONTAINER_UNUSED(T, (pid_size - new_size));
 		}
 #endif
 		alloc_forward(new_size);
 		return *this;
 	}
-	inline void _copyRaw(T * dst, const T * src, size_t size) {
+	inline void _copyRaw(T * dst, const T * src, size_t size) { newT(dst, src, size); }
 		newT(dst, src, size);
 	}
 	//! \~english Attempts to allocate memory for at least `new_size` elements.
 	//! \~russian Резервируется память под как минимум `new_size` элементов.
@@ -1299,7 +1302,7 @@ public:
 	//! \~\sa \a size(), \a capacity(), \a resize()
 	inline PIDeque<T> & reserve(size_t new_size) {
 		if (new_size <= pid_rsize) return *this;
-		size_t os = pid_size;
+		const size_t os = pid_size;
 		alloc_forward(new_size);
 		pid_size = os;
 		return *this;
@@ -1319,17 +1322,21 @@ public:
 	inline PIDeque<T> & insert(size_t index, const T & e = T()) {
 		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);
+		const bool dir = pid_rsize <= 2 ? true : (index >= pid_rsize / 2 ? true : false);
 		if (dir) {
 			alloc_forward(pid_size + 1);
 			if (index < pid_size - 1) {
-				size_t os = pid_size - index - 1;
+				const size_t os = pid_size - index - 1;
-				memmove((void*)(&(pid_data[index + pid_start + 1])), (const void*)(&(pid_data[index + pid_start])), os * sizeof(T));
+				memmove(reinterpret_cast<void *>(pid_data + pid_start + index + 1),
 						reinterpret_cast<const void *>(pid_data + pid_start + index),
 						os * sizeof(T));
 			}
 		} else {
 			alloc_backward(pid_size + 1, -1);
 			if (index > 0) {
-				memmove((void*)(&(pid_data[pid_start])), (const void*)(&(pid_data[pid_start + 1])), index * sizeof(T));
+				memmove(reinterpret_cast<void *>(pid_data + pid_start),
 						reinterpret_cast<const void *>(pid_data + pid_start + 1),
 						index * sizeof(T));
 			}
 		}
 		elementNew(pid_data + pid_start + index, e);
@@ -1345,17 +1352,21 @@ public:
 	inline PIDeque<T> & insert(size_t index, T && e) {
 		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);
+		const bool dir = pid_rsize <= 2 ? true : (index >= pid_rsize / 2 ? true : false);
 		if (dir) {
 			alloc_forward(pid_size + 1);
 			if (index < pid_size - 1) {
-				size_t os = pid_size - index - 1;
+				const size_t os = pid_size - index - 1;
-				memmove((void*)(&(pid_data[index + pid_start + 1])), (const void*)(&(pid_data[index + pid_start])), os * sizeof(T));
+				memmove(reinterpret_cast<void *>(pid_data + pid_start + index + 1),
 						reinterpret_cast<const void *>(pid_data + pid_start + index),
 						os * sizeof(T));
 			}
 		} else {
 			alloc_backward(pid_size + 1, -1);
 			if (index > 0) {
-				memmove((void*)(&(pid_data[pid_start])), (const void*)(&(pid_data[pid_start + 1])), index * sizeof(T));
+				memmove(reinterpret_cast<void *>(pid_data + pid_start),
 						reinterpret_cast<const void *>(pid_data + pid_start + 1),
 						index * sizeof(T));
 			}
 		}
 		elementNew(pid_data + pid_start + index, std::move(e));
@@ -1372,21 +1383,25 @@ public:
 		if (v.isEmpty()) return *this;
 #ifndef NDEBUG
 		if (&v == this) {
-			printf("error with PIDeque<%s>::insert\n", __PIP_TYPENAME__(T));
+			fprintf(stderr, "error with PIDeque<%s>::insert\n", __PIP_TYPENAME__(T));
 		}
 #endif
 		assert(&v != this);
-		bool dir = pid_rsize <= 2 ? true : (index >= pid_rsize / 2 ? true : false);
+		const bool dir = v.size() > pid_size ? true : (index >= pid_rsize / 2 ? true : false);
 		if (dir) {
-			ssize_t os = pid_size - index;
+			const ssize_t os = pid_size - index;
 			alloc_forward(pid_size + v.pid_size);
 			if (os > 0) {
-				memmove((void*)(&(pid_data[index + pid_start + v.pid_size])), (const void*)(&(pid_data[index + pid_start])), os * sizeof(T));
+				memmove(reinterpret_cast<void *>(pid_data + pid_start + index + v.pid_size),
 						reinterpret_cast<const void *>(pid_data + pid_start + index),
 						os * sizeof(T));
 			}
 		} else {
 			alloc_backward(pid_size + v.pid_size, -v.pid_size);
 			if (index > 0) {
-				memmove((void*)(&(pid_data[pid_start])), (const void*)(&(pid_data[pid_start + v.pid_size])), index * sizeof(T));
+				memmove(reinterpret_cast<void *>(pid_data + pid_start),
 						reinterpret_cast<const void *>(pid_data + pid_start + v.pid_size),
 						index * sizeof(T));
 			}
 		}
 		newT(pid_data + pid_start + index, v.pid_data + v.pid_start, v.pid_size);
@@ -1404,17 +1419,22 @@ public:
 	//! [списка инициализации C++11](https://ru.cppreference.com/w/cpp/utility/initializer_list).
 	//! \~\sa \a append(), \a prepend(), \a remove()
 	inline PIDeque<T> & insert(size_t index, std::initializer_list<T> init_list) {
-		bool dir = pid_rsize <= 2 ? true : (index >= pid_rsize / 2 ? true : false);
+		if (init_list.size() == 0) return *this;
 		const bool dir = init_list.size() > pid_size ? true : (index >= pid_rsize / 2 ? true : false);
 		if (dir) {
-			ssize_t os = pid_size - index;
+			const ssize_t os = ssize_t(pid_size) - index;
 			alloc_forward(pid_size + init_list.size());
 			if (os > 0) {
-				memmove((void*)(&(pid_data[index + pid_start + init_list.size()])), (const void*)(&(pid_data[index + pid_start])), os * sizeof(T));
+				memmove(reinterpret_cast<void *>(pid_data + pid_start + index + init_list.size()),
 						reinterpret_cast<const void *>(pid_data + pid_start + index),
 				        os * sizeof(T));
 			}
 		} else {
 			alloc_backward(pid_size + init_list.size(), -init_list.size());
 			if (index > 0) {
-				memmove((void*)(&(pid_data[pid_start])), (const void*)(&(pid_data[pid_start + init_list.size()])), index * sizeof(T));
+				memmove(reinterpret_cast<void *>(pid_data + pid_start),
 						reinterpret_cast<const void *>(pid_data + pid_start + init_list.size()),
 						index * sizeof(T));
 			}
 		}
 		newT(pid_data + pid_start + index, init_list.begin(), init_list.size());
@@ -1433,22 +1453,27 @@ public:
 	inline PIDeque<T> & remove(size_t index, size_t count = 1) {
 		if (count == 0) return *this;
 		if (index + count >= pid_size) {
-			resize(index);
+			if (index < pid_size) {
-			return *this;
+				deleteT(pid_data + pid_start + index, pid_size - index);
-		}
+				pid_size = index;
 		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));
 			}
 		} else {
 			const size_t os = pid_size - index - count;
 			deleteT(pid_data + pid_start + index, count);
 			if (os <= index) {
 				memmove(reinterpret_cast<void *>(pid_data + pid_start + index),
 						reinterpret_cast<const void *>(pid_data + pid_start + index + count),
 						os * sizeof(T));
 			} else {
 				if (index > 0) {
-				memmove((void*)(&(pid_data[pid_start + count])), (const void*)(&(pid_data[pid_start])), index * sizeof(T));
+					memmove(reinterpret_cast<void *>(pid_data + pid_start + count),
 							reinterpret_cast<const void *>(pid_data + pid_start),
 							index * sizeof(T));
 				}
 				pid_start += count;
 			}
 			pid_size -= count;
 		}
 		return *this;
 	}
@@ -1458,10 +1483,10 @@ public:
 	//! \~english This operation is very fast and never fails.
 	//! \~russian Эта операция выполняется мгновенно без копирования памяти и никогда не дает сбоев.
 	inline void swap(PIDeque<T> & other) {
-		piSwap<T*>(pid_data, other.pid_data);
+		piSwap<T *>(pid_data, other.pid_data);
 		piSwap<size_t>(pid_size, other.pid_size);
 		piSwap<size_t>(pid_rsize, other.pid_rsize);
-		piSwap<ssize_t>(pid_start, other.pid_start);
+		piSwap<size_t>(pid_start, other.pid_start);
 	}
 	//! \~english Sorts the elements in non-descending order.
@@ -1503,23 +1528,18 @@ public:
 	//! Complexity `O(N·log(N))`.
 	//! \~russian Сохранность порядка элементов, имеющих одинаковое значение, не гарантируется.
 	//! Для сравнения элементов используется функция сравнения `comp`.
-	//! Функция сравнения, возвращает `true` если первый аргумент меньше второго.
+	//! Функция сравнения, возвращает `true` если первый аргумент меньше
-	//! Сигнатура функции сравнения должна быть эквивалентна следующей:
+	//! второго. Сигнатура функции сравнения должна быть эквивалентна следующей: \code bool comp(const T &a, const T &b); \endcode Сигнатура
-	//! \code
+	//! не обязана содержать const &, однако, функция не может изменять переданные объекты. Функция обязана возвращать `false` для
-	//! bool comp(const T &a, const T &b);
+	//! одинаковых элементов, иначе это приведёт к неопределённому поведению программы и ошибкам памяти. Для сортировки используется функция
-	//! \endcode
+	//! [std::sort](https://ru.cppreference.com/w/cpp/algorithm/sort). Сложность сортировки `O(N·log(N))`.
 	//! Сигнатура не обязана содержать const &, однако, функция не может изменять переданные объекты.
 	//! Функция обязана возвращать `false` для одинаковых элементов,
 	//! иначе это приведёт к неопределённому поведению программы и ошибкам памяти.
 	//! Для сортировки используется функция [std::sort](https://ru.cppreference.com/w/cpp/algorithm/sort).
 	//! Сложность сортировки `O(N·log(N))`.
 	//! \~\code
 	//! PIDeque<int> v{5, 7, 4, 2, 8, 6, 1, 9, 0, 3};
 	//! v.sort([](const int & a, const int & b){return a > b;});
 	//! piCout << v; // 9, 8, 7, 6, 5, 4, 3, 2, 1, 0
 	//! \endcode
 	//! \~\sa \a sort()
-	inline PIDeque<T> & sort(std::function<bool(const T &a, const T &b)> comp) {
+	inline PIDeque<T> & sort(std::function<bool(const T & a, const T & b)> comp) {
 		std::sort(begin(), end(), comp);
 		return *this;
 	}
@@ -1542,9 +1562,9 @@ public:
 	//! \endcode
 	//! \~\sa \a reversed()
 	inline PIDeque<T> & reverse() {
-		size_t s2 = pid_size/2;
+		const size_t s2 = pid_size / 2;
 		for (size_t i = 0; i < s2; ++i) {
-			piSwap<T>(pid_data[pid_start+i], pid_data[pid_start+pid_size-i-1]);
+			piSwap<T>(pid_data[pid_start + i], pid_data[pid_start + pid_size - i - 1]);
 		}
 		return *this;
 	}
@@ -1572,10 +1592,12 @@ public:
 	//! Если `add_size < 0`, то с конца массива удаляются элементы.
 	//! Если `add_size < 0` и в массиве меньше элементов чем указано, то массив становится пустым.
 	//! \~\sa \a resize()
-	inline PIDeque<T> & enlarge(llong pid_size) {
+	inline PIDeque<T> & enlarge(ssize_t add_size, const T & e = T()) {
-		llong ns = size_s() + pid_size;
+		const ssize_t ns = size_s() + add_size;
-		if (ns <= 0) clear();
+		if (ns <= 0)
-		else resize(size_t(ns));
+			clear();
 		else
 			resize(size_t(ns), e);
 		return *this;
 	}
@@ -1608,12 +1630,15 @@ public:
 	//! \endcode
 	//! \~\sa \a remove(), \a removeOne(), \a removeWhere()
 	inline PIDeque<T> & removeAll(const T & e) {
-		for (ssize_t i = 0; i < ssize_t(pid_size); ++i) {
+		ssize_t j = indexOf(e);
-			if (pid_data[i + pid_start] == e) {
+		if (j != -1) {
-				remove(i);
+			for (size_t i = j + 1; i < pid_size; ++i) {
-				--i;
+				if (pid_data[i + pid_start] != e) {
 					pid_data[j++ + pid_start] = std::move(pid_data[i + pid_start]);
 				}
 			}
 			remove(j, pid_size - j);
 		}
 		return *this;
 	}
@@ -1629,12 +1654,15 @@ public:
 	//! \endcode
 	//! \~\sa \a remove(), \a removeOne(), \a removeWhere()
 	inline PIDeque<T> & removeWhere(std::function<bool(const T & e)> test) {
-		for (ssize_t i = 0; i < ssize_t(pid_size); ++i) {
+		ssize_t j = indexWhere(test);
-			if (test(pid_data[i + pid_start])) {
+		if (j != -1) {
-				remove(i);
+			for (size_t i = j + 1; i < pid_size; ++i) {
-				--i;
+				if (!test(pid_data[i + pid_start])) {
 					pid_data[j++ + pid_start] = std::move(pid_data[i + pid_start]);
 				}
 			}
 			remove(j, pid_size - j);
 		}
 		return *this;
 	}
@@ -1693,7 +1721,8 @@ public:
 	//! [списка инициализации C++11](https://ru.cppreference.com/w/cpp/utility/initializer_list).
 	//! \~\sa \a push_back()
 	inline PIDeque<T> & push_back(std::initializer_list<T> init_list) {
-		size_t ps = pid_size;
+		if (init_list.size() == 0) return *this;
 		const size_t ps = pid_size;
 		alloc_forward(pid_size + init_list.size());
 		newT(pid_data + pid_start + ps, init_list.begin(), init_list.size());
 		return *this;
@@ -1706,13 +1735,14 @@ public:
 	//! \~russian Перегруженая функция.
 	//! \~\sa \a push_back()
 	inline PIDeque<T> & push_back(const PIDeque<T> & v) {
 		if (v.isEmpty()) return *this;
 #ifndef NDEBUG
 		if (&v == this) {
-			printf("error with PIDeque<%s>::append\n", __PIP_TYPENAME__(T));
+			fprintf(stderr, "error with PIDeque<%s>::append\n", __PIP_TYPENAME__(T));
 		}
 #endif
 		assert(&v != this);
-		size_t ps = pid_size;
+		const size_t ps = pid_size;
 		alloc_forward(pid_size + v.pid_size);
 		newT(pid_data + ps + pid_start, v.pid_data + v.pid_start, v.pid_size);
 		return *this;
@@ -1742,7 +1772,7 @@ public:
 	//! piCout << v; // {1, 2, 3, 4, 5}
 	//! \endcode
 	//! \~\sa \a prepend(), \a push_front(), \a push_back(), \a insert()
-	inline PIDeque<T> & append(const T & e) {return push_back(e);}
+	inline PIDeque<T> & append(const T & e) { return push_back(e); }
 	//! \~english Appends the given element `e` to the end of the array.
 	//! \~russian Добавляет элемент `e` в конец массива.
@@ -1750,7 +1780,7 @@ public:
 	//! \~english Overloaded function.
 	//! \~russian Перегруженая функция.
 	//! \~\sa \a append()
-	inline PIDeque<T> & append(T && e) {return push_back(std::move(e));}
+	inline PIDeque<T> & append(T && e) { return push_back(std::move(e)); }
 	//! \~english Appends the given elements to the end of the array.
 	//! \~russian Добавляет элементы в конец массива.
@@ -1762,7 +1792,7 @@ public:
 	//! Добавляет элементы из
 	//! [списка инициализации C++11](https://ru.cppreference.com/w/cpp/utility/initializer_list).
 	//! \~\sa \a append()
-	inline PIDeque<T> & append(std::initializer_list<T> init_list) {return push_back(init_list);}
+	inline PIDeque<T> & append(std::initializer_list<T> init_list) { return push_back(init_list); }
 	//! \~english Appends the given array `v` to the end of the array.
 	//! \~russian Добавляет массив `v` в конец массива.
@@ -1775,7 +1805,7 @@ public:
 	//! piCout << v; // {1, 2, 3, 4, 5}
 	//! \endcode
 	//! \~\sa \a append()
-	inline PIDeque<T> & append(const PIDeque<T> & v) {return push_back(v);}
+	inline PIDeque<T> & append(const PIDeque<T> & v) { return push_back(v); }
 	//! \~english Appends the given element `e` to the end of the array.
 	//! \~russian Добавляет элемент `e` в конец массива.
@@ -1786,7 +1816,7 @@ public:
 	//! piCout << v; // {1, 2, 3, 4, 5}
 	//! \endcode
 	//! \~\sa \a append()
-	inline PIDeque<T> & operator <<(const T & e) {return push_back(e);}
+	inline PIDeque<T> & operator<<(const T & e) { return push_back(e); }
 	//! \~english Appends the given element `e` to the end of the array.
 	//! \~russian Добавляет элемент `e` в конец массива.
@@ -1797,7 +1827,7 @@ public:
 	//! piCout << v; // {1, 2, 3, 4, 5}
 	//! \endcode
 	//! \~\sa \a append()
-	inline PIDeque<T> & operator <<(T && e) {return push_back(std::move(e));}
+	inline PIDeque<T> & operator<<(T && e) { return push_back(std::move(e)); }
 	//! \~english Appends the given array `v` to the end of the array.
 	//! \~russian Добавляет массив `v` в конец массива.
@@ -1808,7 +1838,7 @@ public:
 	//! piCout << v; // {1, 2, 3, 4, 5}
 	//! \endcode
 	//! \~\sa \a append(), \a push_back()
-	inline PIDeque<T> & operator <<(const PIDeque<T> & v) {return append(v);}
+	inline PIDeque<T> & operator<<(const PIDeque<T> & v) { return append(v); }
 	//! \~english Appends the given element `e` to the begin of the array.
 	//! \~russian Добавляет элемент `e` в начало массива.
@@ -1835,7 +1865,9 @@ public:
 	//! \endcode
 	//! \~\sa \a push_back(), \a append(), \a prepend(), \a insert()
 	inline PIDeque<T> & push_front(const T & e) {
-		insert(0, e);
+		if (isEmpty()) return push_back(e);
 		alloc_backward(pid_size + 1, -1);
 		elementNew(pid_data + pid_start, e);
 		return *this;
 	}
@@ -1846,7 +1878,9 @@ public:
 	//! \~russian Перегруженая функция.
 	//! \~\sa \a push_front()
 	inline PIDeque<T> & push_front(T && e) {
-		insert(0, std::move(e));
+		if (isEmpty()) return push_back(std::move(e));
 		alloc_backward(pid_size + 1, -1);
 		elementNew(pid_data + pid_start, std::move(e));
 		return *this;
 	}
@@ -1861,10 +1895,7 @@ public:
 	//! piCout << v; // {4, 5, 1, 2, 3}
 	//! \endcode
 	//! \~\sa \a push_front()
-	inline PIDeque<T> & push_front(const PIDeque<T> & v) {
+	inline PIDeque<T> & push_front(const PIDeque<T> & v) { return insert(0, v); }
 		insert(0, v);
 		return *this;
 	}
 	//! \~english Appends the given elements to the begin of the array.
 	//! \~russian Добавляет элементы в начало массива.
@@ -1876,10 +1907,7 @@ public:
 	//! Добавляет элементы из
 	//! [списка инициализации C++11](https://ru.cppreference.com/w/cpp/utility/initializer_list).
 	//! \~\sa \a append()
-	inline PIDeque<T> & push_front(std::initializer_list<T> init_list) {
+	inline PIDeque<T> & push_front(std::initializer_list<T> init_list) { return insert(0, init_list); }
 		insert(0, init_list);
 		return *this;
 	}
 	//! \~english Appends the given element `e` to the begin of the array.
 	//! \~russian Добавляет элемент `e` в начало массива.
@@ -1905,7 +1933,7 @@ public:
 	//! piCout << v; // {5, 4, 1, 2, 3}
 	//! \endcode
 	//! \~\sa \a push_back(), \a append(), \a prepend(), \a insert()
-	inline PIDeque<T> & prepend(const T & e) {return push_front(e);}
+	inline PIDeque<T> & prepend(const T & e) { return push_front(e); }
 	//! \~english Appends the given element `e` to the begin of the array.
 	//! \~russian Добавляет элемент `e` в начало массива.
@@ -1913,7 +1941,7 @@ public:
 	//! \~english Overloaded function.
 	//! \~russian Перегруженая функция.
 	//! \~\sa \a prepend()
-	inline PIDeque<T> & prepend(T && e) {return push_front(std::move(e));}
+	inline PIDeque<T> & prepend(T && e) { return push_front(std::move(e)); }
 	//! \~english Appends the given array `v` to the begin of the array.
 	//! \~russian Добавляет массив `v` в начало массива.
@@ -1926,7 +1954,7 @@ public:
 	//! piCout << v; // {4, 5, 1, 2, 3}
 	//! \endcode
 	//! \~\sa \a prepend()
-	inline PIDeque<T> & prepend(const PIDeque<T> & v) {return push_front(v);}
+	inline PIDeque<T> & prepend(const PIDeque<T> & v) { return push_front(v); }
 	//! \~english Appends the given elements to the begin of the array.
 	//! \~russian Добавляет элементы в начало массива.
@@ -1938,7 +1966,7 @@ public:
 	//! Добавляет элементы из
 	//! [списка инициализации C++11](https://ru.cppreference.com/w/cpp/utility/initializer_list).
 	//! \~\sa \a append()
-	inline PIDeque<T> & prepend(std::initializer_list<T> init_list) {return prepend(init_list);}
+	inline PIDeque<T> & prepend(std::initializer_list<T> init_list) { return push_front(init_list); }
 	//! \~english Remove one element from the end of the array.
 	//! \~russian Удаляет один элемент с конца массива.
@@ -1955,7 +1983,8 @@ public:
 	//! \~\sa \a pop_front(), \a take_back(), \a take_front()
 	inline PIDeque<T> & pop_back() {
 		if (pid_size == 0) return *this;
-		resize(pid_size - 1);
+		elementDelete(pid_data[pid_size + pid_start - 1]);
 		pid_size = pid_size - 1;
 		return *this;
 	}
@@ -1976,7 +2005,9 @@ public:
 	//! \~\sa \a pop_back(), \a take_back(), \a take_front()
 	inline PIDeque<T> & pop_front() {
 		if (pid_size == 0) return *this;
-		remove(0);
+		elementDelete(pid_data[pid_start]);
 		pid_start += 1;
 		pid_size -= 1;
 		return *this;
 	}
@@ -1990,7 +2021,7 @@ public:
 	//! \endcode
 	//! \~\sa \a take_front(), \a pop_back(), \a pop_front()
 	inline T take_back() {
-		T e(back());
+		const T e(back());
 		pop_back();
 		return e;
 	}
@@ -2005,7 +2036,7 @@ public:
 	//! \endcode
 	//! \~\sa \a take_front(), \a pop_back(), \a pop_front()
 	inline T take_front() {
-		T e(front());
+		const T e(front());
 		pop_front();
 		return e;
 	}
@@ -2019,9 +2050,10 @@ public:
 	//! piCout << v2; // {1, 2, 3}
 	//! \endcode
 	//! \~\sa \a map()
-	template <typename ST>
+	template<typename ST>
 	inline PIDeque<ST> toType() const {
 		PIDeque<ST> ret(pid_size);
 		ret.reserve(pid_size);
 		for (size_t i = 0; i < pid_size; ++i) {
 			ret[i] = ST(pid_data[i + pid_start]);
 		}
@@ -2029,9 +2061,9 @@ public:
 	}
 	//! \~english Returns a new array with all elements
-	//! that pass the test implemented by the provided function `test`.
+	//! that pass the test implemented by the provided function `bool test(const T & e)`.
 	//! \~russian Возвращает новый массив со всеми элементами,
-	//! прошедшими проверку, задаваемую в передаваемой функции `test`.
+	//! прошедшими проверку, задаваемую в передаваемой функции `bool test(const T & e)`.
 	//! \~\details
 	//! \~\code
 	//! PIDeque<int> v{3, 2, 5, 2, 7};
@@ -2047,6 +2079,39 @@ public:
 		return ret;
 	}
 	//! \~english Same as \a filter() but with `index` parameter in `test`.
 	//! \~russian Аналогично \a filter() но с параметром индекса `index` в функции `test`.
 	//! \~\sa \a filter()
 	inline PIDeque<T> filterIndexed(std::function<bool(size_t index, const T & e)> test) const {
 		PIDeque<T> ret;
 		for (size_t i = pid_start; i < pid_start + pid_size; ++i) {
 			if (test(i - pid_start, pid_data[i])) ret << pid_data[i];
 		}
 		return ret;
 	}
 	//! \~english Same as \a filter() but from end to begin (from right to left).
 	//! \~russian Аналогично \a filter() но от конца до начала (справа на лево).
 	//! \~\sa \a filter()
 	inline PIDeque<T> filterReverse(std::function<bool(const T & e)> test) const {
 		PIDeque<T> ret;
 		for (ssize_t i = ssize_t(pid_start + pid_size) - 1; i >= ssize_t(pid_start); --i) {
 			if (test(pid_data[i])) ret << pid_data[i];
 		}
 		return ret;
 	}
 	//! \~english Same as \a filterReverse() but with `index` parameter in `test`.
 	//! \~russian Аналогично \a filterReverse() но с параметром индекса `index` в функции `test`.
 	//! \~\sa \a filterReverse()
 	inline PIDeque<T> filterReverseIndexed(std::function<bool(size_t index, const T & e)> test) const {
 		PIDeque<T> ret;
 		for (ssize_t i = ssize_t(pid_start + pid_size) - 1; i >= ssize_t(pid_start); --i) {
 			if (test(i - pid_start, pid_data[i])) ret << pid_data[i];
 		}
 		return ret;
 	}
 	//! \~english Execute function `void f(const T & e)` for every element in array.
 	//! \~russian Выполняет функцию `void f(const T & e)` для каждого элемента массива.
 	//! \~\details
@@ -2087,6 +2152,63 @@ public:
 		return *this;
 	}
 	//! \~english Same as \a forEach() but with `index` parameter in `f`.
 	//! \~russian Аналогично \a forEach() но с параметром индекса `index` в функции `f`.
 	//! \~\sa \a forEach()
 	inline void forEachIndexed(std::function<void(size_t index, const T & e)> f) const {
 		for (size_t i = pid_start; i < pid_start + pid_size; ++i) {
 			f(i - pid_start, pid_data[i]);
 		}
 	}
 	//! \~english Same as \a forEachIndexed(), but allows you to change the elements of the array.
 	//! \~russian Аналогично \a forEachIndexed(), но позволяет изменять элементы массива.
 	//! \~\sa \a forEach(), \a forEachIndexed()
 	inline PIDeque<T> & forEachIndexed(std::function<void(size_t index, T & e)> f) {
 		for (size_t i = pid_start; i < pid_start + pid_size; ++i) {
 			f(i - pid_start, pid_data[i]);
 		}
 		return *this;
 	}
 	//! \~english Same as \a forEach() but from end to begin (from right to left).
 	//! \~russian Аналогично \a forEach() но от конца до начала (справа на лево).
 	//! \~\sa \a forEach()
 	inline void forEachReverse(std::function<void(const T & e)> f) const {
 		for (ssize_t i = ssize_t(pid_start + pid_size) - 1; i >= ssize_t(pid_start); --i) {
 			f(pid_data[i]);
 		}
 	}
 	//! \~english Same as \a forEachReverse(), but allows you to change the elements of the array.
 	//! \~russian Аналогично \a forEachReverse(), но позволяет изменять элементы массива.
 	//! \~\sa \a forEach(), \a forEachReverse()
 	inline PIDeque<T> & forEachReverse(std::function<void(T & e)> f) {
 		for (ssize_t i = ssize_t(pid_start + pid_size) - 1; i >= ssize_t(pid_start); --i) {
 			f(pid_data[i]);
 		}
 		return *this;
 	}
 	//! \~english Same as \a forEachIndexed() but from end to begin (from right to left).
 	//! \~russian Аналогично \a forEachIndexed() но от конца до начала (справа на лево).
 	//! \~\sa \a forEachIndexed(), \a forEachReverse(), \a forEach()
 	inline void forEachReverseIndexed(std::function<void(size_t index, const T & e)> f) const {
 		for (ssize_t i = ssize_t(pid_start + pid_size) - 1; i >= ssize_t(pid_start); --i) {
 			f(i - pid_start, pid_data[i]);
 		}
 	}
 	//! \~english Same as \a forEachReverseIndexed(), but allows you to change the elements of the array.
 	//! \~russian Аналогично \a forEachReverseIndexed(), но позволяет изменять элементы массива.
 	//! \~\sa \a forEachReverseIndexed(), \a forEachIndexed(), \a forEachReverse(), \a forEach()
 	inline PIDeque<T> & forEachReverseIndexed(std::function<void(size_t index, T & e)> f) {
 		for (ssize_t i = ssize_t(pid_start + pid_size) - 1; i >= ssize_t(pid_start); --i) {
 			f(i - pid_start, pid_data[i]);
 		}
 		return *this;
 	}
 	//! \~english Сreates a new array populated with the results
 	//! of calling a provided function `ST f(const T & e)` on every element in the calling array.
 	//! \~russian Создаёт новый массив с результатом вызова указанной функции
@@ -2096,23 +2218,78 @@ public:
 	//! once for each element in an array, in order,
 	//! and constructs a new array from the results.
 	//! \~russian Метод `map` вызывает переданную функцию `ST f(const T & e)`
-	//! один раз для каждого элемента в порядке их появления
+	//! один раз для каждого элемента в порядке их появления от начала к концу (слева на право)
 	//! и конструирует новый массив из результатов её вызова.
 	//! \~\code
 	//! PIDeque<int> v{1, 2, 3};
 	//! PIStringList sl = v.map<PIString>([](const int & i){return PIString::fromNumber(i);});
-	//! piCout << sl; {"1", "2", "3"}
+	//! piCout << sl; // {"1", "2", "3"}
 	//! \endcode
 	//! \~\sa \a forEach(), \a reduce()
-	template <typename ST>
+	template<typename ST>
 	inline PIDeque<ST> map(std::function<ST(const T & e)> f) const {
-		PIDeque<ST> ret; ret.reserve(pid_size);
+		PIDeque<ST> ret;
 		ret.reserve(pid_size);
 		for (size_t i = pid_start; i < pid_start + pid_size; ++i) {
 			ret << f(pid_data[i]);
 		}
 		return ret;
 	}
 	//! \~english Same as \a map() but with `index` parameter in `f`.
 	//! \~russian Аналогично \a map() но с параметром индекса `index` в функции `f`.
 	//! \~\code
 	//! PIDeque<int> v{1, 2, 3};
 	//! PIStringList sl = v.mapIndexed<PIString>([](size_t index, const int & i){return PIString::fromNumber(index);});
 	//! piCout << sl; // {"0", "1", "2"}
 	//! \endcode
 	//! \~\sa \a map()
 	template<typename ST>
 	inline PIDeque<ST> mapIndexed(std::function<ST(size_t index, const T & e)> f) const {
 		PIDeque<ST> ret;
 		ret.reserve(pid_size);
 		for (size_t i = pid_start; i < pid_start + pid_size; ++i) {
 			ret << f(i - pid_start, pid_data[i]);
 		}
 		return ret;
 	}
 	//! \~english Same as \a map() but from end to begin (from right to left).
 	//! \~russian Аналогично \a map() но от конца до начала (справа на лево).
 	//! \~\code
 	//! PIDeque<int> v{1, 2, 3};
 	//! PIStringList sl = v.mapReverse<PIString>([](const int & i){return PIString::fromNumber(i);});
 	//! piCout << sl; // {"3", "2", "1"}
 	//! \endcode
 	//! \~\sa \a map()
 	template<typename ST>
 	inline PIDeque<ST> mapReverse(std::function<ST(const T & e)> f) const {
 		PIDeque<ST> ret;
 		ret.reserve(pid_size);
 		for (ssize_t i = ssize_t(pid_start + pid_size) - 1; i >= ssize_t(pid_start); --i) {
 			ret << f(pid_data[i]);
 		}
 		return ret;
 	}
 	//! \~english Same as \a mapReverse() but with `index` parameter in `f`.
 	//! \~russian Аналогично \a mapReverse() но с параметром индекса `index` в функции `f`.
 	//! \~\code
 	//! PIDeque<int> v{1, 2, 3};
 	//! PIStringList sl = v.mapReverseIndexed<PIString>([](size_t index, const int & i){return PIString::fromNumber(index);});
 	//! piCout << sl; // {"2", "1", "0"}
 	//! \endcode
 	//! \~\sa \a mapReverse()
 	template<typename ST>
 	inline PIDeque<ST> mapReverseIndexed(std::function<ST(size_t index, const T & e)> f) const {
 		PIDeque<ST> ret;
 		ret.reserve(pid_size);
 		for (ssize_t i = ssize_t(pid_start + pid_size) - 1; i >= ssize_t(pid_start); --i) {
 			ret << f(size_t(i) - pid_start, pid_data[i]);
 		}
 		return ret;
 	}
 	//! \~english Applies the function `ST f(const T & e, const ST & acc)`
 	//! to each element of the array (from left to right), returns one value.
 	//! \~russian Применяет функцию `ST f(const T & e, const ST & acc)`
@@ -2133,7 +2310,7 @@ public:
 	//! \param initial _optional_ Object used as the second argument
 	//! when the `f` function is first called.
 	//! \~russian Метод reduce() выполняет функцию `f`
-	//! один раз для каждого элемента, присутствующего в массиве.
+	//! один раз для каждого элемента, присутствующего в массиве от начала к концу (слева на право).
 	//! Если при вызове reduce() передан аргумент `initial`,
 	//! то при первом вызове функции `f` значение `acc`
 	//! будет равным значению `initial`.
@@ -2153,8 +2330,8 @@ public:
 	//! int s = v.reduce<int>([](const int & e, const int & acc){return e + acc;});
 	//! piCout << s; // 15
 	//! \endcode
-	//! \~\sa \a forEach(), \a map()
+	//! \~\sa \a reduceIndexed(), \a reduceReverse(), \a reduceReverseIndexed(), \a forEach(), \a map()
-	template <typename ST>
+	template<typename ST>
 	inline ST reduce(std::function<ST(const T & e, const ST & acc)> f, const ST & initial = ST()) const {
 		ST ret(initial);
 		for (size_t i = pid_start; i < pid_start + pid_size; ++i) {
@@ -2163,6 +2340,42 @@ public:
 		return ret;
 	}
 	//! \~english Same as \a reduce() but with `index` parameter in `f`.
 	//! \~russian Аналогично \a reduce() но с параметром индекса `index` в функции `f`.
 	//! \~\sa \a reduce()
 	template<typename ST>
 	inline ST reduceIndexed(std::function<ST(size_t index, const T & e, const ST & acc)> f, const ST & initial = ST()) const {
 		ST ret(initial);
 		for (size_t i = pid_start; i < pid_start + pid_size; ++i) {
 			ret = f(i - pid_start, pid_data[i], ret);
 		}
 		return ret;
 	}
 	//! \~english Same as \a reduce() but from end to begin (from right to left).
 	//! \~russian Аналогично \a reduce() но от конца до начала (справа на лево).
 	//! \~\sa \a reduce()
 	template<typename ST>
 	inline ST reduceReverse(std::function<ST(const T & e, const ST & acc)> f, const ST & initial = ST()) const {
 		ST ret(initial);
 		for (ssize_t i = ssize_t(pid_start + pid_size) - 1; i >= ssize_t(pid_start); --i) {
 			ret = f(pid_data[i], ret);
 		}
 		return ret;
 	}
 	//! \~english Same as \a reduceReverse() but with `index` parameter in `f`.
 	//! \~russian Аналогично \a reduceReverse() но с параметром индекса `index` в функции `f`.
 	//! \~\sa \a reduceReverse()
 	template<typename ST>
 	inline ST reduceReverseIndexed(std::function<ST(size_t index, const T & e, const ST & acc)> f, const ST & initial = ST()) const {
 		ST ret(initial);
 		for (ssize_t i = ssize_t(pid_start + pid_size) - 1; i >= ssize_t(pid_start); --i) {
 			ret = f(size_t(i) - pid_start, pid_data[i], ret);
 		}
 		return ret;
 	}
 	//! \~english Changes the dimension of the array, creates a two-dimensional array from a one-dimensional array.
 	//! \~russian Изменяет размерность массива, из одномерного массива создает двухмерный.
 	//! \~\details
@@ -2186,22 +2399,22 @@ public:
 		PIDeque<PIDeque<T>> ret;
 		if (isEmpty()) return ret;
 #ifndef NDEBUG
-		if (rows*cols != pid_size) {
+		if (rows * cols != pid_size) {
-			printf("error with PIDeque<%s>::reshape\n", __PIP_TYPENAME__(T));
+			fprintf(stderr, "error with PIDeque<%s>::reshape\n", __PIP_TYPENAME__(T));
 		}
 #endif
-		assert(rows*cols == pid_size);
+		assert(rows * cols == pid_size);
-		ret.resize(rows);
+		ret.expand(rows);
 		if (order == ReshapeByRow) {
 			for (size_t r = 0; r < rows; r++) {
-				ret[r] = PIDeque<T>(&(pid_data[r*cols]), cols);
+				ret[r] = PIDeque<T>(&(pid_data[r * cols]), cols);
 			}
 		}
 		if (order == ReshapeByColumn) {
 			for (size_t r = 0; r < rows; r++) {
-				ret[r].resize(cols);
+				ret[r].expand(cols);
 				for (size_t c = 0; c < cols; c++) {
-					ret[r][c] = pid_data[c*rows + r];
+					ret[r][c] = pid_data[c * rows + r];
 				}
 			}
 		}
@@ -2222,14 +2435,12 @@ public:
 	//! piCout << xv.flatten<int>(); // {1, 2, 3, 4, 5, 6}
 	//! \endcode
 	//! \~\sa \a map(), \a reduce(), \a reshape()
-	template<typename C, typename std::enable_if<
+	template<typename C, typename std::enable_if<std::is_same<T, PIDeque<C>>::value, int>::type = 0>
 				 std::is_same<T, PIDeque<C>>::value
 				 , int>::type = 0>
 	inline PIDeque<C> flatten(ReshapeOrder order = ReshapeByRow) const {
 		PIDeque<C> ret;
 		if (isEmpty()) return ret;
-		size_t rows = size();
+		const size_t rows = size();
-		size_t cols = at(0).size();
+		const size_t cols = at(0).size();
 		ret.reserve(rows * cols);
 		if (order == ReshapeByRow) {
 			for (size_t r = 0; r < rows; r++) {
@@ -2265,119 +2476,220 @@ public:
 	//! piCout << xv.reshape<int>(2,3); // {{1, 2, 3}, {4, 5, 6}}
 	//! \endcode
 	//! \~\sa \a map(), \a reduce(), \a reshape()
-	template<typename C, typename std::enable_if<
+	template<typename C, typename std::enable_if<std::is_same<T, PIDeque<C>>::value, int>::type = 0>
 				 std::is_same<T, PIDeque<C>>::value
 				 , int>::type = 0>
 	inline PIDeque<PIDeque<C>> reshape(size_t rows, size_t cols, ReshapeOrder order = ReshapeByRow) const {
 		PIDeque<C> fl = flatten<C>();
 		return fl.reshape(rows, cols, order);
 	}
 	//! \~english Divides an array into a two-dimensional array using the separator `separator`.
 	//! \~russian Разделяет массив на двумерный массив с помощью разделителя`separator`.
 	//! \~\code
 	//! PIDeque<int> v{1, 2, 3, 99, 4, 5, 99, 6};
 	//! piCout << v.split(99); // {{1, 2, 3}, {4, 5}, {6}}
 	//! \endcode
 	//! \~\sa \a splitBySize()
 	inline PIDeque<PIDeque<T>> split(const T & separator) const {
 		PIDeque<PIDeque<T>> ret;
 		if (isEmpty()) return ret;
 		size_t start = 0;
 		ssize_t ci   = indexOf(separator, start);
 		while (ci >= 0) {
 			ret << PIDeque<T>(pid_data + pid_start + start, ci - start);
 			start = ci + 1;
 			ci    = indexOf(separator, start);
 		}
 		if (start < pid_size) {
 			ret << PIDeque<T>(pid_data + pid_start + start, pid_size - start);
 		}
 		return ret;
 	}
 	//! \~english Divides an array into a two-dimensional array in chunks of no more than `sz`.
 	//! \~russian Разделяет массив на двумерный массив по кускам не более чем `sz`.
 	//! \~\sa \a split()
 	inline PIDeque<PIDeque<T>> splitBySize(size_t sz) const {
 		PIDeque<PIDeque<T>> ret;
 		if (isEmpty() || sz == 0) return ret;
 		const size_t ch = pid_size / sz;
 		for (size_t i = 0; i < ch; ++i) {
 			ret << PIDeque<T>(pid_data + pid_start + sz * i, sz);
 		}
 		const size_t t = ch * sz;
 		if (t < pid_size) {
 			ret << PIDeque<T>(pid_data + pid_start + t, pid_size - t);
 		}
 		return ret;
 	}
 	//! \~english Cut sub-array of this array.
 	//! \~russian Вырезает подмассив, то есть кусок из текущего массива.
 	//! \~english
 	//! \param index - index of this array where sub-array starts
 	//! \param count - sub-array size
 	//! \~russian
 	//! \param index - индекс в текущем массиве, откуда начинётся подмассив
 	//! \param count - размер подмассива
 	//! \~\details
 	//! \~english
 	//! Index must be in range from `0` to `size()-1`.
 	//! If sub-array size more than this array size, than ends early.
 	//! \~russian
 	//! Индекс начала должен лежать в диапазоне от `0` до `size()-1`.
 	//! Если заданный размер подмассива превышает размер текущего массива,
 	//! то вернется подмассив меньшего размера (`size()-index-1`).
 	inline PIDeque<T> takeRange(size_t index, size_t count) {
 		PIDeque<T> ret;
 		if (index >= pid_size || count == 0) return ret;
 		if (index + count > pid_size) count = pid_size - index;
 		ret.alloc_forward(count);
 		memcpy(reinterpret_cast<void *>(ret.pid_data + ret.pid_start),
 			   reinterpret_cast<const void *>(pid_data + pid_start + index),
 			   count * sizeof(T));
 		const size_t os = pid_size - index - count;
 		if (os <= index) {
 			if (os > 0) {
 				memmove(reinterpret_cast<void *>(pid_data + pid_start + index),
 						reinterpret_cast<const void *>(pid_data + pid_start + index + count),
 						os * sizeof(T));
 			}
 		} else {
 			if (index > 0) {
 				memmove(reinterpret_cast<void *>(pid_data + pid_start + count),
 						reinterpret_cast<const void *>(pid_data + pid_start),
 						index * sizeof(T));
 			}
 			pid_start += count;
 		}
 		pid_size -= count;
 		return ret;
 	}
 private:
-	inline void _reset() {pid_size = pid_rsize = pid_start = 0; pid_data = 0;}
+	inline void _reset() {
 		pid_size  = 0;
 		pid_rsize = 0;
 		pid_start = 0;
 		pid_data  = nullptr;
 	}
 	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 * 2 >= size_t(s) && pid_rsize < size_t(s)) {
-			return pid_rsize + pid_rsize;
+			return pid_rsize * 2;
 		}
-		ssize_t t = _PIContainerConstants<T>::minCountPoT(), s_ = s - 1;
+		size_t t = _PIContainerConstants<T>::minCountPoT();
-		while (s_ >> t)
+		s -= 1;
 		while (s >> t) {
 			++t;
 		}
 		return (1 << t);
 	}
-	template<typename T1 = T, typename std::enable_if<
+
-			!std::is_trivially_copyable<T1>::value
+	template<typename T1 = T, typename std::enable_if<!std::is_trivially_copyable<T1>::value, int>::type = 0>
 			, int>::type = 0>
 	inline void newT(T * dst, const T * src, size_t s) {
 		PIINTROSPECTION_CONTAINER_USED(T, s)
-		for (size_t i = 0; i < s; ++i)
+		for (size_t i = 0; i < s; ++i) {
 			elementNew(dst + i, src[i]);
 		}
-	template<typename T1 = T, typename std::enable_if<
+	}
-				 std::is_trivially_copyable<T1>::value
+
-				 , int>::type = 0>
+	template<typename T1 = T, typename std::enable_if<std::is_trivially_copyable<T1>::value, int>::type = 0>
 	inline void newT(T * dst, const T * src, size_t s) {
 		PIINTROSPECTION_CONTAINER_USED(T, s)
-		memcpy((void*)(dst), (const void*)(src), s * sizeof(T));
+		memcpy(reinterpret_cast<void *>(dst), reinterpret_cast<const void *>(src), s * sizeof(T));
 	}
-	template<typename T1 = T, typename std::enable_if<
+
-			!std::is_trivially_copyable<T1>::value
+	template<typename T1 = T, typename std::enable_if<!std::is_trivially_copyable<T1>::value, int>::type = 0>
 			, int>::type = 0>
 	inline void deleteT(T * d, size_t sz) {
 		PIINTROSPECTION_CONTAINER_UNUSED(T, sz)
-		if ((uchar*)d != 0) {
+		if (d != nullptr) {
 			for (size_t i = 0; i < sz; ++i) {
 				elementDelete(d[i]);
 			}
 		}
 	}
-	template<typename T1 = T, typename std::enable_if<
+
-				 std::is_trivially_copyable<T1>::value
+	template<typename T1 = T, typename std::enable_if<std::is_trivially_copyable<T1>::value, int>::type = 0>
 				 , int>::type = 0>
 	inline void deleteT(T * d, size_t sz) {
 		PIINTROSPECTION_CONTAINER_UNUSED(T, sz)
 	}
-	template<typename T1 = T, typename std::enable_if<
+
-				 !std::is_trivially_copyable<T1>::value
+	template<typename T1 = T, typename std::enable_if<!std::is_trivially_copyable<T1>::value, int>::type = 0>
-				 , int>::type = 0>
+	inline void elementNew(T * to, const T & from) {
-	inline void elementNew(T * to, const T & from) {new(to)T(from);}
+		new (to) T(from);
 	template<typename T1 = T, typename std::enable_if<
 				 !std::is_trivially_copyable<T1>::value
 				 , int>::type = 0>
 	inline void elementNew(T * to, T && from) {new(to)T(std::move(from));}
 	template<typename T1 = T, typename std::enable_if<
 				 std::is_trivially_copyable<T1>::value
 				 , int>::type = 0>
 	inline void elementNew(T1 * to, const T & from) {(*to) = from;}
 	template<typename T1 = T, typename std::enable_if<
 				 std::is_trivially_copyable<T1>::value
 				 , int>::type = 0>
 	inline void elementNew(T * to, T && from) {(*to) = std::move(from);}
 	template<typename T1 = T, typename std::enable_if<
 				 !std::is_trivially_copyable<T1>::value
 				 , int>::type = 0>
 	inline void elementDelete(T & from) {from.~T();}
 	template<typename T1 = T, typename std::enable_if<
 				 std::is_trivially_copyable<T1>::value
 				 , int>::type = 0>
 	inline void elementDelete(T & from) {}
 	inline void dealloc() {
 		if ((uchar*)pid_data != 0) free((uchar*)pid_data);
 		pid_data = 0;
 	}
 	template<typename T1 = T, typename std::enable_if<!std::is_trivially_copyable<T1>::value, int>::type = 0>
 	inline void elementNew(T * to, T && from) {
 		new (to) T(std::move(from));
 	}
 	template<typename T1 = T, typename std::enable_if<std::is_trivially_copyable<T1>::value, int>::type = 0>
 	inline void elementNew(T1 * to, const T & from) {
 		(*to) = from;
 	}
 	template<typename T1 = T, typename std::enable_if<std::is_trivially_copyable<T1>::value, int>::type = 0>
 	inline void elementNew(T * to, T && from) {
 		(*to) = std::move(from);
 	}
 	template<typename T1 = T, typename std::enable_if<!std::is_trivially_copyable<T1>::value, int>::type = 0>
 	inline void elementDelete(T & from) {
 		from.~T();
 	}
 	template<typename T1 = T, typename std::enable_if<std::is_trivially_copyable<T1>::value, int>::type = 0>
 	inline void elementDelete(T & from) {}
 	inline void dealloc() {
 		if (pid_data != nullptr) {
 			free(reinterpret_cast<void *>(pid_data));
 			pid_data = nullptr;
 		}
 	}
 	inline void checkMove() {
 		if (pid_size >= 4) {
 			if (pid_size < pid_rsize / 6) {
-				if (pid_start < ssize_t(pid_size + pid_size) || pid_start > (ssize_t(pid_rsize) - ssize_t(pid_size) - ssize_t(pid_size))) {
+				if (pid_start < (pid_size * 2) || ssize_t(pid_start) > (ssize_t(pid_rsize) - (ssize_t(pid_size) * 2))) {
-					ssize_t ns = (pid_rsize - pid_size) / 2;
+					size_t ns = (pid_rsize - pid_size) / 2;
 					if (pid_start != ns) {
-						memmove((void*)(pid_data + ns), (const void*)(pid_data + pid_start), pid_size * sizeof(T));
+						memmove(reinterpret_cast<void *>(pid_data + ns),
 								reinterpret_cast<const void *>(pid_data + pid_start),
 								pid_size * sizeof(T));
 						pid_start = ns;
 					}
 				}
 			}
 		} else {
-			ssize_t ns = (pid_rsize - pid_size) / 2;
+			const size_t ns = (pid_rsize - pid_size) / 2;
 			if (pid_start != ns) {
-				memmove((void*)(pid_data + ns), (const void*)(pid_data + pid_start), pid_size * sizeof(T));
+				memmove(reinterpret_cast<void *>(pid_data + ns),
 						reinterpret_cast<const void *>(pid_data + pid_start),
 						pid_size * sizeof(T));
 				pid_start = ns;
 			}
 		}
 	}
-	inline void alloc_forward(size_t new_size) { // direction == true -> alloc forward
+
 	inline void alloc_forward(size_t new_size) {
 		if (pid_start + new_size <= pid_rsize) {
 			pid_size = new_size;
-				checkMove();
+			if (pid_start > 0) checkMove();
 			return;
 		}
 		pid_size        = new_size;
-			size_t as = asize(pid_start + new_size);
+		const size_t as = asize(pid_start + new_size);
 		if (as != pid_rsize) {
-				PIINTROSPECTION_CONTAINER_ALLOC(T, (as-pid_rsize))
+			PIINTROSPECTION_CONTAINER_ALLOC(T, (as - pid_rsize))
-				T * p_d = (T*)(realloc((void*)(pid_data), as*sizeof(T)));
+			T * p_d = reinterpret_cast<T *>(realloc(reinterpret_cast<void *>(pid_data), as * sizeof(T)));
 #ifndef NDEBUG
 			if (!p_d) {
-					printf("error with PIDeque<%s>::alloc\n", __PIP_TYPENAME__(T));
+				fprintf(stderr, "error with PIDeque<%s>::alloc\n", __PIP_TYPENAME__(T));
 			}
 #endif
 			assert(p_d);
@@ -2385,19 +2697,15 @@ private:
 			pid_rsize = as;
 		}
 	}
-	inline void alloc_backward(size_t new_size, ssize_t start_offset = 0) { //alloc backward
+
-			size_t as;
+	inline void alloc_backward(size_t new_size, ssize_t start_offset = 0) {
-			if (pid_start + start_offset < 0) {
+		const size_t as = ssize_t(pid_start) + start_offset < 0 ? asize(pid_rsize - start_offset) : pid_rsize;
 				as = asize(pid_rsize - start_offset);
 			} else {
 				as = pid_rsize;
 			}
 		if (as > pid_rsize) {
-				T * td = (T*)(malloc(as * sizeof(T)));
+			T * td          = reinterpret_cast<T *>(malloc(as * sizeof(T)));
-				ssize_t ns = pid_start + as - pid_rsize;
+			const size_t ns = pid_start + as - pid_rsize;
-				PIINTROSPECTION_CONTAINER_ALLOC(T, (as-pid_rsize))
+			PIINTROSPECTION_CONTAINER_ALLOC(T, (as - pid_rsize))
 			if (pid_rsize > 0 && pid_data != 0) {
-					memcpy((void*)(td + ns), (const void*)(pid_data + pid_start), pid_size * sizeof(T));
+				memcpy(reinterpret_cast<void *>(td + ns), reinterpret_cast<const void *>(pid_data + pid_start), pid_size * sizeof(T));
 				dealloc();
 			}
 			pid_data  = td;
@@ -2409,9 +2717,28 @@ private:
 		checkMove();
 	}
-	T * pid_data;
+	inline void expand(size_t new_size, const T & e = T()) {
-	size_t pid_size, pid_rsize;
+		const size_t os = pid_size;
-	ssize_t pid_start;
+		alloc_forward(new_size);
 		PIINTROSPECTION_CONTAINER_USED(T, (new_size - os))
 		for (size_t i = os + pid_start; i < new_size + pid_start; ++i) {
 			elementNew(pid_data + i, e);
 		}
 	}
 	inline void expand(size_t new_size, std::function<T(size_t i)> f) {
 		const size_t os = pid_size;
 		alloc_forward(new_size);
 		PIINTROSPECTION_CONTAINER_USED(T, (new_size - os))
 		for (size_t i = os + pid_start; i < new_size + pid_start; ++i) {
 			elementNew(pid_data + i, f(i));
 		}
 	}
 	T * pid_data     = nullptr;
 	size_t pid_size  = 0;
 	size_t pid_rsize = 0;
 	size_t pid_start = 0;
 };
@@ -2419,7 +2746,7 @@ private:
 //! \~english Output operator to [std::ostream](https://en.cppreference.com/w/cpp/io/basic_ostream).
 //! \~russian Оператор вывода в [std::ostream](https://ru.cppreference.com/w/cpp/io/basic_ostream).
 template<typename T>
-inline std::ostream & operator <<(std::ostream & s, const PIDeque<T> & v) {
+inline std::ostream & operator<<(std::ostream & s, const PIDeque<T> & v) {
 	s << "{";
 	for (size_t i = 0; i < v.size(); ++i) {
 		s << v[i];
@@ -2435,21 +2762,23 @@ inline std::ostream & operator <<(std::ostream & s, const PIDeque<T> & v) {
 //! \~english Output operator to \a PICout
 //! \~russian Оператор вывода в \a PICout
 template<typename T>
-inline PICout operator <<(PICout s, const PIDeque<T> & v) {
+inline PICout operator<<(PICout s, const PIDeque<T> & v) {
 	s.space();
-	s.setControl(0, true);
+	s.saveAndSetControls(0);
 	s << "{";
 	for (size_t i = 0; i < v.size(); ++i) {
 		s << v[i];
 		if (i < v.size() - 1) s << ", ";
 	}
 	s << "}";
-	s.restoreControl();
+	s.restoreControls();
 	return s;
 }
 template<typename T>
-inline void piSwap(PIDeque<T> & f, PIDeque<T> & s) {f.swap(s);}
+inline void piSwap(PIDeque<T> & f, PIDeque<T> & s) {
 	f.swap(s);
 }
 #endif // PIDEQUE_H
--- a/libs/main/containers/pimap.cpp
+++ b/libs/main/containers/pimap.cpp
@@ -1,187 +0,0 @@
 /** \class PIMap
 * \brief Associative array
 * \details This class used to store Key = Value array of any
 * type of data. \a value() returns value for key and leave map
 * unchaged in any case. \a operator [] create entry in map if
 * there is no entry for given key. You can retrieve all
 * keys by method \a keys() and all values by methos \a values().
 * To iterate all entries use class PIMapIterator, or methods
 * \a makeIterator() and \a makeReverseIterator().
 * \fn PIMap::PIMap();
 * \brief Contructs an empty map
 * \fn PIMap::PIMap(const PIMap & other);
 * \brief Contructs a copy of "other"
 * \fn PIMap & PIMap::operator =(const PIMap & other);
 * \brief Copy operator
 * \fn PIMap::PIMap(const PIMap & other);
 * \brief Contructs a copy of "other"
 * \fn PIMapIterator PIMap::makeIterator() const
 * \brief Returns PIMapIterator for this map
 * \fn PIMapIterator PIMap::makeReverseIterator() const
 * \brief Returns reverse PIMapIterator for this map
 * \fn size_t PIMap::size() const
 * \brief Returns entries count
 * \fn int PIMap::size_s() const
 * \brief Returns entries count
 * \fn size_t PIMap::length() const
 * \brief Returns entries count
 * \fn bool PIMap::isEmpty() const
 * \brief Returns if map is empty
 * \fn T & PIMap::operator [](const Key & key)
 * \brief Returns value for key "key". If there is no key in map, create one.
 * \fn const T PIMap::operator [](const Key & key) const
 * \brief Returns value for key "key". If there is no key in map, returns default T().
 * \fn T & PIMap::at(const Key & key)
 * \brief Equivalent to operator []
 * \fn const T PIMap::at(const Key & key) const
 * \brief Equivalent to operator []
 * \fn PIMap & PIMap::operator <<(const PIMap & other)
 * \brief Insert all etries of "other" to this map. Override existing values.
 * \fn bool PIMap::operator ==(const PIMap & t) const
 * \brief Compare operator
 * \fn bool PIMap::operator !=(const PIMap & t) const
 * \brief Compare operator
 * \fn bool PIMap::contains(const Key & key) const
 * \brief Returns "true" if map contains entry with key "key"
 * \fn PIMap & PIMap::reserve(size_t new_size)
 * \brief Reserve space for "new_size" entries
 * \fn PIMap & PIMap::removeOne(const Key & key)
 * \brief Remove entry with key "key"
 * \fn PIMap & PIMap::remove(const Key & key)
 * \brief Equivalent \a removeOne(key)
 * \fn PIMap & PIMap::erase(const Key & key)
 * \brief Equivalent \a removeOne(key)
 * \fn PIMap & PIMap::clear()
 * \brief Clear map
 * \fn void PIMap::swap(PIMap & other)
 * \brief Swap map with "other"
 * \fn PIMap & PIMap::insert(const Key & key, const T & value)
 * \brief Insert or rewrite entry with key "key" and value "value"
 * \fn const T PIMap::value(const Key & key, const T & default = T())
 * \brief Returns value for key "key". If there is no key in map, returns "default".
 * \fn PIVector<T> PIMap::values() const
 * \brief Returns all values as PIVector
 * \fn Key PIMap::key(const T & value, const Key & default = Key()) const
 * \brief Returns key for first founded value "value". If there is no such value in map, returns "default".
 * \fn PIVector<Key> PIMap::keys() const
 * \brief Returns all keys as PIVector
 * */
 /** \class PIMapIterator
 * \brief Helper class to iterate over PIMap
 * \details This class used to access keys and values in PIMap.
 * You can use constructor to create iterator, or use \a PIMap::makeIterator()
 * and \a PIMap::makeReverseIterator() methods.
 *
 * First usage variant:
 * \code
 * PIMap<int, PIString> m;
 * m[1] = "one";
 * m[2] = "two";
 * m[4] = "four";
 *
 * auto it = m.makeIterator();
 * while (it.next()) {
 *     piCout << it.key() << it.value();
 * }
 * // 1 one
 * // 2 two
 * // 4 four
 * \endcode
 *
 * Using hasNext():
 * \code
 * while (it.hasNext()) {
 *     it.next();
 * \endcode
 *
 * Using constructor:
 * \code
 * PIMapIterator<int, PIString> it(m);
 * \endcode
 *
 * Write access:
 * \code
 * while (it.next()) {
 *     it.valueRef().append("_!");
 *     piCout << it.key() << it.value();
 * }
 *
 * // 1 one_!
 * // 2 two_!
 * // 4 four_!
 * \endcode
 *
 * Reverse iterator:
 * \code
 * auto it = m.makeReverseIterator();
 * while (it.next()) {
 *     piCout << it.key() << it.value();
 * }
 *
 * // 4 four
 * // 2 two
 * // 1 one
 * \endcode
 * \fn PIMapIterator(const PIMap & map, bool reverse = false)
 * \brief Contructs iterator for "map". Current position is invalid.
 * \fn const Key & PIMapIterator::key() const
 * \brief Returns current entry key
 * \fn const T & PIMapIterator::value() const
 * \brief Returns current entry value
 * \fn T & PIMapIterator::valueRef() const
 * \brief Returns reference to current entry value
 * \fn bool PIMapIterator::hasNext()
 * \brief Returns if iterator can jump to next entry
 * \fn bool PIMapIterator::next()
 * \brief Jump to next entry and return if new position is valid.
 * \fn void PIMapIterator::reset()
 * \brief Reset iterator to initial position.
 * */
--- a/libs/main/containers/pimap.h
+++ b/libs/main/containers/pimap.h
@@ -1,8 +1,17 @@
-/*! \file pimap.h
+//! \addtogroup Containers
- * \brief Associative array with custom types of key and value
+//! \{
- * 
+//! \file pimap.h
- * This file declares PIMap
+//! \brief
-*/
+//! \~english Declares \a PIMap
 //! \~russian Объявление \a PIMap
 //! \~\authors
 //! \~english
 //! Ivan Pelipenko peri4ko@yandex.ru;
 //! Andrey Bychkov work.a.b@yandex.ru;
 //! \~russian
 //! Иван Пелипенко peri4ko@yandex.ru;
 //! Андрей Бычков work.a.b@yandex.ru;
 //! \~\}
 /*
    PIP - Platform Independent Primitives
    Associative array with custom types of key and value
@@ -25,66 +34,100 @@
 #ifndef PIMAP_H
 #define PIMAP_H
 #include "pivector.h"
 #include "pideque.h"
 #include "pipair.h"
 #include "pivector.h"
-template<class T>
+template<typename Key, typename T>
-void piQuickSort(T * a, ssize_t N) {
+class PIMapIteratorConst;
-	if (N < 1) return;
+template<typename Key, typename T>
-	if (N < 46) {
+class PIMapIteratorConstReverse;
-		T tmp;
+template<typename Key, typename T>
 		ssize_t i,j;
 		for(i=1; i<=N; i++) {
 			tmp = a[i];
 			j = i-1;
 			while(tmp<a[j] && j>=0) {
 				a[j+1] = a[j];
 				j = j-1;
 			}
 			a[j+1] = tmp;
 		}
 	} else {
 		ssize_t i = 0, j = N;
 		T & p(a[N >> 1]);
 		do {
 			while (a[i] < p) i++;
 			while (a[j] > p) j--;
 			if (i <= j) {
 				if (i != j) {
 					//piCout << "swap" << i << j << a[i] << a[j];
 					piSwap<T>(a[i], a[j]);
 				}
 				i++; j--;
 			}
 		} while (i <= j);
 		if (j > 0) piQuickSort(a, j);
 		if (N > i) piQuickSort(a + i, N - i);
 	}
 }
 template <typename Key, typename T>
 class PIMapIterator;
 template<typename Key, typename T>
 class PIMapIteratorReverse;
-template <typename Key, typename T>
+//! \addtogroup Containers
 //! \{
 //! \class PIMap
 //! \brief
 //! \~english Associative array.
 //! \~russian Словарь.
 //! \~\}
 //! \details
 //! \~english
 //! A collection of key/value pairs, from which you retrieve a value using its associated key.
 //! There is a finite number of keys in the map, and each key has exactly one value associated with it.
 //! \a value() returns value for key and leave map
 //! unchaged in any case. \a operator [] create entry in map if
 //! there is no entry for given key. You can retrieve all
 //! keys by method \a keys() and all values by methos \a values().
 //! To iterate all entries use class PIMapIterator, or methods
 //! \a makeIterator() and \a makeReverseIterator().
 //! A key in the Map may only occur once.
 //! \~russian
 //! Словари, в принципе, похожи на обычные, используемые в повседневной жизни.
 //! Они хранят элементы одного и того же типа, индексируемые ключевыми значениями.
 //! Достоинство словаря в том, что он позволяет быстро получать значение,
 //! ассоциированное с заданным ключом.
 //! Ключи должны быть уникальными.
 //! Элемент
 //! В контейнеры этого типа заносятся элементы вместе с ключами,
 //! по которым их можно найти, которыми могут выступать значения любого типа.
 //! \a operator [] позволяет получить доступ к элементу по ключу,
 //! и если такого эелемента не было, то он будет создан.
 template<typename Key, typename T>
 class PIMap {
-	template <typename Key1, typename T1> friend PIByteArray & operator >>(PIByteArray & s, PIMap<Key1, T1> & v);
+	template<typename Key1, typename T1>
-	template <typename Key1, typename T1> friend PIByteArray & operator <<(PIByteArray & s, const PIMap<Key1, T1> & v);
+	friend class PIMapIteratorConst;
-	template <typename Key1, typename T1> friend class PIMapIterator;
+	template<typename Key1, typename T1>
 	friend class PIMapIteratorConstReverse;
 	template<typename Key1, typename T1>
 	friend class PIMapIterator;
 	template<typename Key1, typename T1>
 	friend class PIMapIteratorReverse;
 	template<typename P, typename Key1, typename T1>
 	friend PIBinaryStream<P> & operator<<(PIBinaryStream<P> & s, const PIMap<Key1, T1> & v);
 	template<typename P, typename Key1, typename T1>
 	friend PIBinaryStream<P> & operator>>(PIBinaryStream<P> & s, PIMap<Key1, T1> & v);
 public:
-	PIMap() {;}
+	typedef T mapped_type;
-	PIMap(const PIMap<Key, T> & other) {*this = other;}
+	typedef Key key_type;
-	PIMap(PIMap<Key, T> && other) : pim_content(std::move(other.pim_content)), pim_index(std::move(other.pim_index)) {}
+	typedef PIPair<Key, T> value_type;
-	PIMap(std::initializer_list<std::pair<Key, T>> init_list) {
+
-		for (auto i: init_list)
+	//! \~english Constructs an empty map.
 	//! \~russian Создает пустой словарь.
 	inline PIMap() {}
 	//! \~english Copy constructor.
 	//! \~russian Копирующий конструктор.
 	inline PIMap(const PIMap<Key, T> & other): pim_content(other.pim_content), pim_index(other.pim_index) {}
 	//! \~english Move constructor.
 	//! \~russian Перемещающий конструктор.
 	inline PIMap(PIMap<Key, T> && other): pim_content(std::move(other.pim_content)), pim_index(std::move(other.pim_index)) {}
 	//! \~english Contructs map from
 	//! [C++11 initializer list](https://en.cppreference.com/w/cpp/utility/initializer_list).
 	//! \~russian Создает словарь из
 	//! [списка инициализации C++11](https://ru.cppreference.com/w/cpp/utility/initializer_list).
 	//! \~\details
 	//! \~\code
 	//! PIMap <int, PIString> m{{1, "a"}, {2, "b"}};
 	//! piCout << m; // {1: a, 2: b}
 	//! \endcode
 	inline PIMap(std::initializer_list<std::pair<Key, T>> init_list) {
 		for (auto i: init_list) {
 			insert(std::get<0>(i), std::get<1>(i));
 		}
-	virtual ~PIMap() {;}
+	}
-	PIMap<Key, T> & operator =(const PIMap<Key, T> & other) {
+	//! \~english Assign operator.
 	//! \~russian Оператор присваивания.
 	inline PIMap<Key, T> & operator=(const PIMap<Key, T> & other) {
 		if (this == &other) return *this;
 		clear();
 		pim_content = other.pim_content;
@@ -92,333 +135,876 @@ public:
 		return *this;
 	}
-	PIMap<Key, T> & operator =(PIMap<Key, T> && other) {
+	//! \~english Assign move operator.
 	//! \~russian Оператор перемещающего присваивания.
 	inline PIMap<Key, T> & operator=(PIMap<Key, T> && other) {
 		swap(other);
 		return *this;
 	}
 	typedef T mapped_type;
 	typedef Key key_type;
 	typedef PIPair<Key, T> value_type;
 	class iterator {
 		friend class PIMap<Key, T>;
 	private:
 		iterator(const PIMap<Key, T> * v, ssize_t p): parent(v), pos(p) {}
 		const PIMap<Key, T> * parent;
 		ssize_t pos;
 	public:
-		iterator(): parent(0), pos(0) {}
+		iterator(): parent(nullptr), pos(0) {}
-		const Key & key() const {return const_cast<PIMap<Key, T> * >(parent)->_key(pos);}
+		const Key & key() const { return const_cast<PIMap<Key, T> *>(parent)->_key(pos); }
-		T & value() {return const_cast<PIMap<Key, T> * >(parent)->_value(pos);}
+		T & value() { return const_cast<PIMap<Key, T> *>(parent)->_value(pos); }
-		inline PIPair<Key, T> operator *() const {return PIPair<Key, T>(const_cast<PIMap<Key, T> * >(parent)->_key(pos), const_cast<PIMap<Key, T> * >(parent)->_value(pos));}
+		inline PIPair<Key, T> operator*() const {
-		void operator ++() {++pos;}
+			return PIPair<Key, T>(const_cast<PIMap<Key, T> *>(parent)->_key(pos), const_cast<PIMap<Key, T> *>(parent)->_value(pos));
-		void operator ++(int) {++pos;}
+		}
-		void operator --() {--pos;}
+		void operator++() { ++pos; }
-		void operator --(int) {--pos;}
+		void operator++(int) { ++pos; }
-		bool operator ==(const iterator & it) const {return (pos == it.pos);}
+		void operator--() { --pos; }
-		bool operator !=(const iterator & it) const {return (pos != it.pos);}
+		void operator--(int) { --pos; }
 		bool operator==(const iterator & it) const { return (pos == it.pos); }
 		bool operator!=(const iterator & it) const { return (pos != it.pos); }
 	};
 	class reverse_iterator {
 		friend class PIMap<Key, T>;
 	private:
 		reverse_iterator(const PIMap<Key, T> * v, ssize_t p): parent(v), pos(p) {}
 		const PIMap<Key, T> * parent;
 		ssize_t pos;
 	public:
-		reverse_iterator(): parent(0), pos(0) {}
+		reverse_iterator(): parent(nullptr), pos(0) {}
-		const Key & key() const {return const_cast<PIMap<Key, T> * >(parent)->_key(pos);}
+		const Key & key() const { return const_cast<PIMap<Key, T> *>(parent)->_key(pos); }
-		T & value() const {return const_cast<PIMap<Key, T> * >(parent)->_value(pos);}
+		T & value() const { return const_cast<PIMap<Key, T> *>(parent)->_value(pos); }
-		inline PIPair<Key, T> operator *() const {return PIPair<Key, T>(const_cast<PIMap<Key, T> * >(parent)->_key(pos), const_cast<PIMap<Key, T> * >(parent)->_value(pos));}
+		inline PIPair<Key, T> operator*() const {
-		void operator ++() {--pos;}
+			return PIPair<Key, T>(const_cast<PIMap<Key, T> *>(parent)->_key(pos), const_cast<PIMap<Key, T> *>(parent)->_value(pos));
-		void operator ++(int) {--pos;}
+		}
-		void operator --() {++pos;}
+		void operator++() { --pos; }
-		void operator --(int) {++pos;}
+		void operator++(int) { --pos; }
-		bool operator ==(const reverse_iterator & it) const {return (pos == it.pos);}
+		void operator--() { ++pos; }
-		bool operator !=(const reverse_iterator & it) const {return (pos != it.pos);}
+		void operator--(int) { ++pos; }
 		bool operator==(const reverse_iterator & it) const { return (pos == it.pos); }
 		bool operator!=(const reverse_iterator & it) const { return (pos != it.pos); }
 	};
 	class const_iterator {
 		friend class PIMap<Key, T>;
 	private:
 		const_iterator(const PIMap<Key, T> * v, ssize_t p): parent(v), pos(p) {}
 		const PIMap<Key, T> * parent;
 		ssize_t pos;
 	public:
-		const_iterator(): parent(0), pos(0) {}
+		const_iterator(): parent(nullptr), pos(0) {}
-		const value_type operator *() const {return parent->_pair(pos);}
+		const value_type operator*() const { return parent->_pair(pos); }
-		const value_type* operator ->() const {cval = parent->_pair(pos); return &cval;}
+		const Key & key() const { return const_cast<PIMap<Key, T> *>(parent)->_key(pos); }
-		const Key & key() const {return const_cast<PIMap<Key, T> * >(parent)->_key(pos);}
+		const T & value() const { return const_cast<PIMap<Key, T> *>(parent)->_value(pos); }
-		const T & value() const {return const_cast<PIMap<Key, T> * >(parent)->_value(pos);}
+		void operator++() { ++pos; }
-		void operator ++() {++pos;}
+		void operator++(int) { ++pos; }
-		void operator ++(int) {++pos;}
+		void operator--() { --pos; }
-		void operator --() {--pos;}
+		void operator--(int) { --pos; }
-		void operator --(int) {--pos;}
+		bool operator==(const const_iterator & it) const { return (pos == it.pos); }
-		bool operator ==(const const_iterator & it) const {return (pos == it.pos);}
+		bool operator!=(const const_iterator & it) const { return (pos != it.pos); }
 		bool operator !=(const const_iterator & it) const {return (pos != it.pos);}
 		mutable value_type cval;
 	};
 	class const_reverse_iterator {
 		friend class PIMap<Key, T>;
 	private:
 		const_reverse_iterator(const PIMap<Key, T> * v, ssize_t p): parent(v), pos(p) {}
 		const PIMap<Key, T> * parent;
 		ssize_t pos;
 	public:
-		const_reverse_iterator(): parent(0), pos(0) {}
+		const_reverse_iterator(): parent(nullptr), pos(0) {}
-		const value_type operator *() const {return parent->_pair(pos);}
+		const value_type operator*() const { return parent->_pair(pos); }
-		const value_type* operator ->() const {cval = parent->_pair(pos); return &cval;}
+		void operator++() { --pos; }
-		void operator ++() {--pos;}
+		void operator++(int) { --pos; }
-		void operator ++(int) {--pos;}
+		void operator--() { ++pos; }
-		void operator --() {++pos;}
+		void operator--(int) { ++pos; }
-		void operator --(int) {++pos;}
+		bool operator==(const const_reverse_iterator & it) const { return (pos == it.pos); }
-		bool operator ==(const const_reverse_iterator & it) const {return (pos == it.pos);}
+		bool operator!=(const const_reverse_iterator & it) const { return (pos != it.pos); }
 		bool operator !=(const const_reverse_iterator & it) const {return (pos != it.pos);}
 		mutable value_type cval;
 	};
 	iterator begin() {return iterator(this, 0);}
 	iterator end() {return iterator(this, size());}
 	const_iterator begin() const {return const_iterator(this, 0);}
 	const_iterator end() const {return const_iterator(this, size());}
 	const_iterator constBegin() const {return const_iterator(this, 0);}
 	const_iterator constEnd() const {return const_iterator(this, size());}
 	reverse_iterator rbegin() {return reverse_iterator(this, size() - 1);}
 	reverse_iterator rend() {return reverse_iterator(this, -1);}
 	const_reverse_iterator rbegin() const {return const_reverse_iterator(this, size() - 1);}
 	const_reverse_iterator rend() const {return const_reverse_iterator(this, -1);}
 	const_reverse_iterator constRbegin() const {return const_reverse_iterator(this, size() - 1);}
 	const_reverse_iterator constRend() const {return const_reverse_iterator(this, -1);}
-	PIMapIterator<Key, T> makeIterator()  const {return PIMapIterator<Key, T>(*this);}
+	//! \~english Iterator to the first element.
-	PIMapIterator<Key, T> makeReverseIterator() const {return PIMapIterator<Key, T>(*this, true);}
+	//! \~russian Итератор на первый элемент.
 	inline iterator begin() { return iterator(this, 0); }
-	size_t size() const {return pim_content.size();}
+	//! \~english Iterator to the element following the last element.
-	int size_s() const {return pim_content.size_s();}
+	//! \~russian Итератор на элемент, следующий за последним элементом.
-	size_t length() const {return pim_content.size();}
+	inline iterator end() { return iterator(this, size()); }
 	bool isEmpty() const {return (pim_content.size() == 0);}
-	T & operator [](const Key & key) {
+	inline const_iterator begin() const { return const_iterator(this, 0); }
 	inline const_iterator end() const { return const_iterator(this, size()); }
 	//! \~english Returns a reverse iterator to the first element of the reversed array.
 	//! \~russian Обратный итератор на первый элемент.
 	inline reverse_iterator rbegin() { return reverse_iterator(this, size() - 1); }
 	//! \~english Returns a reverse iterator to the element.
 	//! following the last element of the reversed array.
 	//! \~russian Обратный итератор на элемент,
 	//! следующий за последним элементом.
 	inline reverse_iterator rend() { return reverse_iterator(this, -1); }
 	inline const_reverse_iterator rbegin() const { return const_reverse_iterator(this, size() - 1); }
 	inline const_reverse_iterator rend() const { return const_reverse_iterator(this, -1); }
 	//! \relatesalso PIMapIteratorConst
 	inline PIMapIteratorConst<Key, T> makeIterator() const { return PIMapIteratorConst<Key, T>(*this); }
 	//! \relatesalso PIMapIterator
 	inline PIMapIterator<Key, T> makeIterator() { return PIMapIterator<Key, T>(*this); }
 	//! \relatesalso PIMapIteratorConstReverse
 	inline PIMapIteratorConstReverse<Key, T> makeReverseIterator() const { return PIMapIteratorConstReverse<Key, T>(*this); }
 	//! \relatesalso PIMapIteratorReverse
 	inline PIMapIteratorReverse<Key, T> makeReverseIterator() { return PIMapIteratorReverse<Key, T>(*this); }
 	//! \~english Number of elements in the container.
 	//! \~russian Количество элементов массива.
 	//! \~\sa \a size_s(), \a capacity(), \a isEmpty(), \a isNotEmpty(), \a resize(), \a reserve()
 	inline size_t size() const { return pim_content.size(); }
 	//! \~english Number of elements in the container as signed value.
 	//! \~russian Количество элементов массива в виде знакового числа.
 	//! \~\sa \a size(), \a capacity(), \a isEmpty(), \a isNotEmpty(), \a resize(), \a reserve()
 	inline int size_s() const { return pim_content.size_s(); }
 	//! \~english Same as \a size().
 	//! \~russian Синоним \a size().
 	//! \~\sa \a size(), \a size_s(), \a capacity(), \a isEmpty(), \a isNotEmpty(), \a resize(), \a reserve()
 	inline size_t length() const { return pim_content.size(); }
 	//! \~english Checks if the container has no elements.
 	//! \~russian Проверяет пуст ли массив.
 	//! \~\return
 	//! \~english **true** if the container is empty, **false** otherwise
 	//! \~russian **true** если массив пуст, **false** иначе.
 	//! \~\sa \a size(), \a size_s(), \a isEmpty(), \a isNotEmpty(), \a resize(), \a reserve()
 	inline bool isEmpty() const { return (pim_content.size() == 0); }
 	//! \~english Checks if the container has elements.
 	//! \~russian Проверяет не пуст ли массив.
 	//! \~\return
 	//! \~english **true** if the container is not empty, **false** otherwise
 	//! \~russian **true** если массив не пуст, **false** иначе.
 	//! \~\sa \a size(), \a size_s(), \a isEmpty(), \a isNotEmpty(), \a resize(), \a reserve()
 	inline bool isNotEmpty() const { return (pim_content.size() > 0); }
 	//! \~english Full access to element key `key`.
 	//! \~russian Полный доступ к элементу по ключу `key`.
 	//! \~\details
 	//! \~english If the map contains no item with key `key`,
 	//! the function inserts a default-constructed value into the map with key `key`,
 	//! and returns a reference to it.
 	//! \~russian Если элемента с таким ключом `key` не существует,
 	//! то он будет создан конструктором по умолчанию и добавлен в массив
 	//! по ключу `key`, а затем возвращена ссылка на этот новый элемент.
 	//! \~\code
 	//! PIMap <PIString, int> m;
 	//! m["огурец"] = 500;
 	//! piCout << m; // {огурец: 500}
 	//! m["лук"] = 25;
 	//! piCout << m; // {огурец: 500, лук: 25}
 	//! m["огурец"] = 350;
 	//! piCout << m; // {огурец: 350, лук: 25}
 	//! \endcode
 	//! \~\sa \a insert(), \a value(), \a key()
 	inline T & operator[](const Key & key) {
 		bool f(false);
-		ssize_t i = _find(key, f);
+		const ssize_t i = _find(key, f);
-		if (f) return pim_content[pim_index[i].index];
+		if (f) return _value(i);
 		pim_content.push_back(T());
 		pim_index.insert(i, MapIndex(key, pim_content.size() - 1));
 		return pim_content.back();
 	}
 	const T operator [](const Key & key) const {bool f(false); ssize_t i = _find(key, f); if (f) return pim_content[pim_index[i].index]; return T();}
 	const T at(const Key & key) const {return (*this)[key];}
-	PIMap<Key, T> & operator <<(const PIMap<Key, T> & other) {
+	//! \~english Read only access to element by `key`.
 	//! \~russian Доступ исключительно на чтение к элементу по ключу `key`.
 	//! \~\note
 	//! \~english Element with key `key` must exists,
 	//! otherwise it will lead to undefined program behavior and memory errors.
 	//! \~russian Элемент по ключу `key` должен существовать,
 	//! иначе это приведёт к неопределённому поведению программы и ошибкам памяти.
 	//! \~\sa \a operator[](), \a value(), \a key()
 	inline const T & at(const Key & key) const {
 		bool f(false);
 		const ssize_t i = _find(key, f);
 		return _value(i);
 	}
 	//! \~english Remove element with key `key` from the array and return it.
 	//! \~russian Удаляет элемент с ключом `key` из массива и возвращает его.
 	inline T take(const Key & key, const T & default_ = T()) {
 		bool f(false);
 		const ssize_t i = _find(key, f);
 		if (!f) return default_;
 		const T ret = _value(i);
 		_remove(i);
 		return ret;
 	}
 	//! \~english Inserts all elements in array `other` to this array with overwrite.
 	//! \~russian Вставляет все элементы `other` этот массив с перезаписью.
 	inline PIMap<Key, T> & operator<<(const PIMap<Key, T> & other) {
 #ifndef NDEBUG
 		if (&other == this) {
-			printf("error with PIMap<%s, %s>::<<\n", __PIP_TYPENAME__(Key), __PIP_TYPENAME__(T));
+			fprintf(stderr, "error with PIMap<%s, %s>::<<\n", __PIP_TYPENAME__(Key), __PIP_TYPENAME__(T));
 		}
 #endif
 		assert(&other != this);
 		if (other.isEmpty()) return *this;
-		if (other.size() == 1) {insert(other.pim_index[0].key, other.pim_content[0]); return *this;}
+		if (other.size() == 1) {
-		if (other.size() == 2) {insert(other.pim_index[0].key, other.pim_content[0]); insert(other.pim_index[1].key, other.pim_content[1]); return *this;}
+			insert(other.pim_index[0].key, other.pim_content[0]);
-		for (int i = 0; i < other.pim_index.size_s(); ++i)
+			return *this;
 		}
 		if (other.size() == 2) {
 			insert(other.pim_index[0].key, other.pim_content[0]);
 			insert(other.pim_index[1].key, other.pim_content[1]);
 			return *this;
 		}
 		for (int i = 0; i < other.pim_index.size_s(); ++i) {
 			insert(other.pim_index[i].key, other.pim_content[other.pim_index[i].index]);
 		}
 		return *this;
 	}
-	bool operator ==(const PIMap<Key, T> & t) const {return (pim_content == t.pim_content && pim_index == t.pim_index);}
+	//! \~english Compare operator with array `m`.
-	bool operator !=(const PIMap<Key, T> & t) const {return (pim_content != t.pim_content || pim_index != t.pim_index);}
+	//! \~russian Оператор сравнения с массивом `m`.
-	bool contains(const Key & key) const {bool f(false); _find(key, f); return f;}
+	inline bool operator==(const PIMap<Key, T> & m) const { return (pim_content == m.pim_content && pim_index == m.pim_index); }
-	PIMap<Key, T> & reserve(size_t new_size) {pim_content.reserve(new_size); pim_index.reserve(new_size); return *this;}
+	//! \~english Compare operator with array `m`.
 	//! \~russian Оператор сравнения с массивом `m`.
 	inline bool operator!=(const PIMap<Key, T> & m) const { return (pim_content != m.pim_content || pim_index != m.pim_index); }
-	PIMap<Key, T> & removeOne(const Key & key) {bool f(false); ssize_t i = _find(key, f); if (f) _remove(i); return *this;}
+	//! \~english Tests if element with key `key` exists in the array.
-	PIMap<Key, T> & remove(const Key & key) {return removeOne(key);}
+	//! \~russian Проверяет наличие элемента с ключом `key` в массиве.
-	PIMap<Key, T> & erase(const Key & key) {return removeOne(key);}
+	inline bool contains(const Key & key) const {
-	PIMap<Key, T> & clear() {pim_content.clear(); pim_index.clear(); return *this;}
+		bool f(false);
 		_find(key, f);
 		return f;
 	}
-	void swap(PIMap<Key, T> & other) {
+	//! \~english Tests if element with value `value` exists in the array.
 	//! \~russian Проверяет наличие элемента со значением `value` в массиве.
 	inline bool containsValue(const T & value) const { return pim_content.contains(value); }
 	//! \~english Attempts to allocate memory for at least `new_size` elements.
 	//! \~russian Резервируется память под как минимум `new_size` элементов.
 	inline PIMap<Key, T> & reserve(size_t new_size) {
 		pim_content.reserve(new_size);
 		pim_index.reserve(new_size);
 		return *this;
 	}
 	//! \~english Remove element with key `key` from the array.
 	//! \~russian Удаляет элемент с ключом `key` из массива.
 	inline PIMap<Key, T> & remove(const Key & key) {
 		bool f(false);
 		const ssize_t i = _find(key, f);
 		if (f) _remove(i);
 		return *this;
 	}
 	//! \~english Remove all elements in the array
 	//! passes the test implemented by the provided function `test`.
 	//! \~russian Удаляет все элементы, удовлетворяющие условию,
 	//! заданному в передаваемой функции `test`.
 	inline PIMap<Key, T> & removeWhere(std::function<bool(const Key & key, const T & value)> test) {
 		for (int i = 0; i < pim_index.size_s(); ++i) {
 			const auto & mi(pim_index[i]);
 			if (test(mi.key, pim_content[mi.index])) {
 				_remove(i);
 				--i;
 			}
 		}
 		return *this;
 	}
 	//! \~english Same as \a remove().
 	//! \~russian Синоним функции \a remove().
 	inline PIMap<Key, T> & erase(const Key & key) { return remove(key); }
 	//! \~english Clear array, remove all elements.
 	//! \~russian Очищает массив, удаляет все элементы.
 	//! \~\details
 	//! \~\note
 	//! \~english Reserved memory will not be released.
 	//! \~russian Зарезервированная память не освободится.
 	//! \~\sa \a resize()
 	inline PIMap<Key, T> & clear() {
 		pim_content.clear();
 		pim_index.clear();
 		return *this;
 	}
 	//! \~english Swaps array `v` other with this array.
 	//! \~russian Меняет местами массив `v` с этим массивом.
 	//! \~\details
 	//! \~english This operation is very fast and never fails.
 	//! \~russian Эта операция выполняется мгновенно без копирования памяти и никогда не дает сбоев.
 	inline void swap(PIMap<Key, T> & other) {
 		pim_content.swap(other.pim_content);
 		pim_index.swap(other.pim_index);
 	}
-	PIMap<Key, T> & insert(const Key & key, const T & value) {
+	//! \~english Inserts value `value` with key `key` in the array.
 	//! \~russian Вставляет значение `value` с ключом `key` в массив.
 	//! \~\details
 	//! \~english If an element with the key `key` already exists, it will be overwritten with the value `value`.
 	//! \~russian Если элемент с ключом `key` уже существует, то он будет перезаписан на значение `value`.
 	inline PIMap<Key, T> & insert(const Key & key, const T & value) {
 		bool f(false);
-		ssize_t i = _find(key, f);
+		const ssize_t i = _find(key, f);
 		//piCout << "insert key=" << key << "found=" << f << "index=" << i << "value=" << value;
 		if (f) {
-			pim_content[pim_index[i].index] = value;
+			_value(i) = value;
 		} else {
 			pim_content.push_back(value);
 			pim_index.insert(i, MapIndex(key, pim_content.size() - 1));
 		}
 		return *this;
 	}
-	PIMap<Key, T> & insert(const Key & key, T && value) {
+
 	inline PIMap<Key, T> & insert(const Key & key, T && value) {
 		bool f(false);
-		ssize_t i = _find(key, f);
+		const ssize_t i = _find(key, f);
 		//piCout << "insert key=" << key << "found=" << f << "index=" << i << "value=" << value;
 		if (f) {
-			pim_content[pim_index[i].index] = std::move(value);
+			_value(i) = std::move(value);
 		} else {
 			pim_content.push_back(std::move(value));
 			pim_index.insert(i, MapIndex(key, pim_content.size() - 1));
 		}
 		return *this;
 	}
-	const T value(const Key & key, const T & default_ = T()) const {bool f(false); ssize_t i = _find(key, f); if (!f) return default_; return pim_content[pim_index[i].index];}
+
-	PIVector<T> values() const {return pim_content;}
+	//! \~english Inserts value `pair` in the array.
-	Key key(const T & value_, const Key & default_ = Key()) const {for (int i = 0; i < pim_index.size_s(); ++i) if (pim_content[pim_index[i].index] == value_) return pim_index[i].key; return default_;}
+	//! \~russian Вставляет пару `pair` в массив.
-	PIVector<Key> keys() const {
+	//! \~\details
 	//! \~english The first element of the pair is the key, and the second is the value.
 	//! \~russian Первый элемент пары является ключом, а второй значением.
 	inline PIMap<Key, T> & insert(const PIPair<Key, T> & pair) {
 		bool f(false);
 		const ssize_t i = _find(pair.first, f);
 		if (f) {
 			_value(i) = pair.second;
 		} else {
 			pim_content.push_back(pair.second);
 			pim_index.insert(i, MapIndex(pair.first, pim_content.size() - 1));
 		}
 		return *this;
 	}
 	inline PIMap<Key, T> & insert(PIPair<Key, T> && pair) {
 		bool f(false);
 		Key k(std::move(pair.first));
 		const ssize_t i = _find(k, f);
 		if (f) {
 			_value(i) = std::move(pair.second);
 		} else {
 			pim_content.push_back(std::move(pair.second));
 			pim_index.insert(i, MapIndex(k, pim_content.size() - 1));
 		}
 		return *this;
 	}
 	//! \~english Returns the value of the element by the key `key`
 	//! or `default_` if there is no such element.
 	//! \~russian Возвращает значение элемента по ключу `key`
 	//!  или `default_` если такого элемента нет.
 	inline T value(const Key & key, const T & default_ = T()) const {
 		bool f(false);
 		const ssize_t i = _find(key, f);
 		if (!f) return default_;
 		return _value(i);
 	}
 	//! \~english Returns an array of values of all elements
 	//! \~russian Возвращает массив значений всех эелметнов
 	inline PIVector<T> values() const { return pim_content; }
 	//! \~english Returns the key of the first element
 	//! whose value matches `value` or `default_` if there is no such element.
 	//! \~russian Возвращает ключ первого элемента, значение которого
 	//! совпадает с `value` или `default_` если такого элемента нет.
 	inline Key key(const T & value, const Key & default_ = Key()) const {
 		for (int i = 0; i < pim_index.size_s(); ++i) {
 			const auto & mi(pim_index[i]);
 			if (pim_content[mi.index] == value) {
 				return mi.key;
 			}
 		}
 		return default_;
 	}
 	//! \~english Returns an array of keys of all elements
 	//! \~russian Возвращает массив ключей всех элементов
 	inline PIVector<Key> keys() const {
 		PIVector<Key> ret;
-		for (int i = 0; i < pim_index.size_s(); ++i)
+		ret.reserve(pim_index.size());
 		for (int i = 0; i < pim_index.size_s(); ++i) {
 			ret << pim_index[i].key;
 		}
 		return ret;
 	}
-	void dump() {
+	//! \~english Execute function `void f(const Key & key, const T & value)` for every element in array.
-		piCout << "PIMap" << size() << "entries" << PICoutManipulators::NewLine << "content:";
+	//! \~russian Выполняет функцию `void f(const Key & key, const T & value)` для каждого элемента массива.
-		for (size_t i = 0; i < pim_content.size(); ++i)
+	inline void forEach(std::function<void(const Key & key, const T & value)> f) const {
-			piCout << PICoutManipulators::Tab << i << ":" << pim_content[i];
+		for (int i = 0; i < pim_index.size_s(); ++i) {
-		piCout << "index:";
+			const auto & mi(pim_index[i]);
-		for (size_t i = 0; i < pim_index.size(); ++i)
+			f(mi.key, pim_content[mi.index]);
-			piCout << PICoutManipulators::Tab << i << ":" << pim_index[i].key << "->" << pim_index[i].index;
+		}
 	}
 	//! \~english Сreates a new map PIMap<Key2, T2> populated with the results
 	//! of calling a provided function `PIPair<Key2, T2> f(const Key & key, const T & value)` on every element in the calling array.
 	//! \~russian Создаёт новый словарь PIMap<Key2, T2> с результатом вызова указанной функции
 	//! `PIPair<Key2, T2> f(const Key & key, const T & value)` для каждого элемента массива.
 	template<typename Key2, typename T2>
 	inline PIMap<Key2, T2> map(std::function<PIPair<Key2, T2>(const Key & key, const T & value)> f) const {
 		PIMap<Key2, T2> ret;
 		ret.reserve(size());
 		for (int i = 0; i < pim_index.size_s(); ++i) {
 			const auto & mi(pim_index[i]);
 			ret.insert(f(mi.key, pim_content[mi.index]));
 		}
 		return ret;
 	}
 	//! \~english Сreates a new array PIVector<ST> populated with the results
 	//! of calling a provided function `ST f(const Key & key, const T & value)` on every element in the calling array.
 	//! \~russian Создаёт новый массив PIVector<ST> с результатом вызова указанной функции
 	//! `ST f(const Key & key, const T & value)` для каждого элемента массива.
 	template<typename ST>
 	inline PIVector<ST> map(std::function<ST(const Key & key, const T & value)> f) const {
 		PIVector<ST> ret;
 		ret.reserve(size());
 		for (int i = 0; i < pim_index.size_s(); ++i) {
 			const auto & mi(pim_index[i]);
 			ret << f(mi.key, pim_content[mi.index]);
 		}
 		return ret;
 	}
 	//! \~english Returns a new array with all elements
 	//! that pass the test implemented by the provided function `bool test(const Key & key, const T & value)`.
 	//! \~russian Возвращает новый массив со всеми элементами,
 	//! прошедшими проверку, задаваемую в передаваемой функции `bool test(const Key & key, const T & value)`.
 	inline PIMap<Key, T> filter(std::function<bool(const Key & key, const T & value)> test) const {
 		PIMap<Key, T> ret;
 		for (int i = 0; i < pim_index.size_s(); ++i) {
 			const auto & mi(pim_index[i]);
 			const auto & v(pim_content[mi.index]);
 			if (test(mi.key, v)) {
 				ret.insert(mi.key, v);
 			}
 		}
 		return ret;
 	}
 protected:
 	struct MapIndex {
-		MapIndex(Key k = Key(), size_t i = 0): key(k), index(i) {;}
+		MapIndex(const Key & k = Key(), size_t i = 0): key(k), index(i) {}
 		MapIndex(Key && k, size_t i = 0): key(std::move(k)), index(i) {}
 		Key key;
 		size_t index;
-		bool operator ==(const MapIndex & s) const {return key == s.key;}
+		bool operator==(const MapIndex & s) const { return key == s.key; }
-		bool operator !=(const MapIndex & s) const {return key != s.key;}
+		bool operator!=(const MapIndex & s) const { return key != s.key; }
-		bool operator <(const MapIndex & s) const {return key < s.key;}
+		bool operator<(const MapIndex & s) const { return key < s.key; }
-		bool operator >(const MapIndex & s) const {return key > s.key;}
+		bool operator>(const MapIndex & s) const { return key > s.key; }
 	};
 	template <typename Key1, typename T1> friend PIByteArray & operator >>(PIByteArray & s, PIDeque<typename PIMap<Key1, T1>::MapIndex> & v);
 	template <typename Key1, typename T1> friend PIByteArray & operator <<(PIByteArray & s, const PIDeque<typename PIMap<Key1, T1>::MapIndex> & v);
-	ssize_t binarySearch(ssize_t first, ssize_t last, const Key & key, bool & found) const {
+	template<typename P, typename Key1, typename T1>
-		ssize_t mid;
+	friend PIBinaryStream<P> & operator>>(PIBinaryStream<P> & s, PIDeque<typename PIMap<Key1, T1>::MapIndex> & v);
 	template<typename P, typename Key1, typename T1>
 	friend PIBinaryStream<P> & operator<<(PIBinaryStream<P> & s, const PIDeque<typename PIMap<Key1, T1>::MapIndex> & v);
 	PIVector<T> pim_content;
 	PIDeque<MapIndex> pim_index;
 private:
 	inline ssize_t _binarySearch(ssize_t first, ssize_t last, const Key & key, bool & found) const {
 		ssize_t mid = 0;
 		while (first <= last) {
 			mid = (first + last) / 2;
-			if (key > pim_index[mid].key) first = mid + 1;
+			if (key > pim_index[mid].key)
-			else if (key < pim_index[mid].key) last = mid - 1;
+				first = mid + 1;
-			else {found = true; return mid;}
+			else if (key < pim_index[mid].key)
 				last = mid - 1;
 			else {
 				found = true;
 				return mid;
 			}
 		}
 		found = false;
 		return first;
 	}
-	void _sort() {piQuickSort<MapIndex>(pim_index.data(), pim_index.size_s() - 1);}
+
-	ssize_t _find(const Key & k, bool & found) const {
+	inline ssize_t _find(const Key & k, bool & found) const {
 		if (pim_index.isEmpty()) {
 			found = false;
 			return 0;
 		}
-		return binarySearch(0, pim_index.size_s() - 1, k, found);
+		return _binarySearch(0, pim_index.size_s() - 1, k, found);
 	}
-	void _remove(ssize_t index) {
+
-		//if (index >= pim_index.size()) return;
+	inline void _remove(ssize_t index) {
-		size_t ci = pim_index[index].index, bi = pim_index.size() - 1;
+		const size_t ci = pim_index[index].index, bi = pim_index.size() - 1;
 		pim_index.remove(index);
-		for (size_t i = 0; i < pim_index.size(); ++i)
+		for (size_t i = 0; i < pim_index.size(); ++i) {
 			if (pim_index[i].index == bi) {
 				pim_index[i].index = ci;
 				break;
 			}
 		}
 		piSwap<T>(pim_content[ci], pim_content.back());
 		pim_content.resize(pim_index.size());
 	}
 	const value_type _pair(ssize_t index) const {
 		if (index < 0 || index >= pim_index.size_s())
 			return value_type();
 		//piCout << "_pair" << index << pim_index[index].index;
 		return value_type(pim_index[index].key, pim_content[pim_index[index].index]);
 	}
 	Key & _key(ssize_t index) {return pim_index[index].key;}
 	T & _value(ssize_t index) {return pim_content[pim_index[index].index];}
-	PIVector<T> pim_content;
+	inline const value_type _pair(ssize_t index) const {
-	PIDeque<MapIndex> pim_index;
+		if (index < 0 || index >= pim_index.size_s()) return value_type();
 		const auto & mi(pim_index[index]);
 		return value_type(mi.key, pim_content[mi.index]);
 	}
 	inline Key & _key(ssize_t index) { return pim_index[index].key; }
 	inline const Key & _key(ssize_t index) const { return pim_index[index].key; }
 	inline T & _value(ssize_t index) { return pim_content[pim_index[index].index]; }
 	inline const T & _value(ssize_t index) const { return pim_content[pim_index[index].index]; }
 };
-template <typename Key, typename T>
+//! \addtogroup Containers
-class PIMapIterator {
+//! \{
 //! \class PIMapIteratorConst
 //! \brief
 //! \~english Java-style iterator for \a PIMap.
 //! \~russian Итератор Java стиля для \a PIMap.
 //! \~\}
 //! \details
 //! \~english
 //! This class used to easy serial access keys and values in PIMap with read only permitions.
 //! Use constructor to create iterator, or use \a PIMap::makeIterator()
 //! \~russian
 //! Этот класс используется для удобного перебора ключей и значений всего словаря только для чтения.
 //! Можно использовать конструктор, в который передаётся словарь, или функцию словаря \a PIMap::makeIterator().
 //! \~
 //! \code
 //! PIMap<int, PIString> m;
 //! m[1] = "one";
 //! m[2] = "two";
 //! m[4] = "four";
 //! auto it = m.makeIterator();
 //! while (it.next()) {
 //!     piCout << it.key() << it.value();
 //! }
 //! // 1 one
 //! // 2 two
 //! // 4 four
 //! \endcode
 template<typename Key, typename T>
 class PIMapIteratorConst {
 	typedef PIMap<Key, T> MapType;
 public:
-	PIMapIterator(const PIMap<Key, T> & map, bool reverse = false): m(map), pos(-1), rev(reverse) {
+	inline PIMapIteratorConst(const PIMap<Key, T> & map): m(map), pos(-1) {}
-		if (rev) pos = m.size_s();
+
-	}
+	//! \~english Returns current key.
-	const Key & key() const {return const_cast<MapType & >(m)._key(pos);}
+	//! \~russian Возвращает ключ текущего элемента.
-	const T & value() const {return const_cast<MapType & >(m)._value(pos);}
+	//! \~\sa \a value()
-	T & valueRef() const {return const_cast<MapType & >(m)._value(pos);}
+	inline const Key & key() const { return m._key(pos); }
-	inline bool hasNext() const {
+
-		if (rev) {
+	//! \~english Returns current value.
-			return pos > 0;
+	//! \~russian Возвращает значение текущего элемента.
-		} else {
+	//! \~\sa \a key()
-			return pos < (m.size_s() - 1);
+	inline const T & value() const { return m._value(pos); }
-		}
+
-		return false;
+
-	}
+	//! \~english Returns true if iterator can jump to next entry
 	//! \~russian Возвращает true если итератор может перейти к следующему элементу.
 	//! \~\sa \a next()
 	inline bool hasNext() const { return pos < (m.size_s() - 1); }
 	//! \~english Jump to next entry and return true if new position is valid.
 	//! \~russian Переходит к следующему элементу и возвращает true если он существует.
 	//! \~\sa \a hasNext(), \a reset()
 	inline bool next() {
 		if (rev) {
 			--pos;
 			return pos >= 0;
 		} else {
 		++pos;
 		return pos < m.size_s();
 	}
-		return false;
+
-	}
+	//! \~english Reset iterator to initial position.
-	inline void reset() {
+	//! \~russian Переходит на начало.
-		if (rev) {
+	//! \~\sa \a next()
-			pos = m.size_s();
+	inline void reset() { pos = -1; }
-		} else {
+
 			pos = -1;
 		}
 	}
 private:
 	const MapType & m;
 	ssize_t pos;
-	bool rev;
+};
 //! \addtogroup Containers
 //! \{
 //! \class PIMapIteratorConstReverse
 //! \brief
 //! \~english Java-style reverse iterator for \a PIMap.
 //! \~russian Итератор Java стиля для \a PIMap в обратном порядке.
 //! \~\}
 //! \details
 //! \~english
 //! This class used to easy serial reverse access keys and values in PIMap with read only permitions.
 //! Use constructor to create iterator, or use \a PIMap::makeReverseIterator().
 //! \~russian
 //! Этот класс используется для удобного перебора ключей и значений всего словаря в обратном порядке только для чтения.
 //! Можно использовать конструктор, в который передаётся словарь, или функцию словаря \a PIMap::makeReverseIterator().
 //! \~
 //! \code
 //! PIMap<int, PIString> m;
 //! m[1] = "one";
 //! m[2] = "two";
 //! m[4] = "four";
 //! auto it = m.makeReverseIterator();
 //! while (it.next()) {
 //!     piCout << it.key() << it.value();
 //! }
 //! // 4 four
 //! // 2 two
 //! // 1 one
 //! \endcode
 template<typename Key, typename T>
 class PIMapIteratorConstReverse {
 	typedef PIMap<Key, T> MapType;
 public:
 	inline PIMapIteratorConstReverse(const PIMap<Key, T> & map): m(map), pos(m.size_s()) {}
 	//! \~english Returns current key.
 	//! \~russian Возвращает ключ текущего элемента.
 	//! \~\sa \a value()
 	inline const Key & key() const { return m._key(pos); }
 	//! \~english Returns current value.
 	//! \~russian Возвращает значение текущего элемента.
 	//! \~\sa \a key()
 	inline const T & value() const { return m._value(pos); }
 	//! \~english Returns true if iterator can jump to next entry
 	//! \~russian Возвращает true если итератор может перейти к следующему элементу.
 	//! \~\sa \a next()
 	inline bool hasNext() const { return pos > 0; }
 	//! \~english Jump to next entry and return true if new position is valid.
 	//! \~russian Переходит к следующему элементу и возвращает true если он существует.
 	//! \~\sa \a hasNext(), \a reset()
 	inline bool next() {
 		--pos;
 		return pos >= 0;
 	}
 	//! \~english Reset iterator to initial position.
 	//! \~russian Переходит на начало.
 	//! \~\sa \a next()
 	inline void reset() { pos = m.size_s(); }
 private:
 	const MapType & m;
 	ssize_t pos;
 };
 //! \addtogroup Containers
 //! \{
 //! \class PIMapIterator
 //! \brief
 //! \~english Java-style iterator for \a PIMap.
 //! \~russian Итератор Java стиля для \a PIMap.
 //! \~\}
 //! \details
 //! \~english
 //! This class used to easy serial access keys and values in PIMap with write permitions.
 //! Use constructor to create iterator, or use \a PIMap::makeIterator()
 //! \~russian
 //! Этот класс используется для удобного перебора ключей и значений всего словаря с доступом на запись.
 //! Можно использовать конструктор, в который передаётся словарь, или функцию словаря \a PIMap::makeIterator().
 //! \~
 //! \code
 //! PIMap<int, PIString> m;
 //! m[1] = "one";
 //! m[2] = "two";
 //! m[4] = "four";
 //! auto it = m.makeIterator();
 //! while (it.next()) {
 //!     it.value().append("_!");
 //!     piCout << it.key() << it.value();
 //! }
 //! // 1 one_!
 //! // 2 two_!
 //! // 4 four_!
 //! \endcode
 template<typename Key, typename T>
 class PIMapIterator {
 	typedef PIMap<Key, T> MapType;
 public:
 	inline PIMapIterator(PIMap<Key, T> & map): m(map), pos(-1) {}
 	//! \~english Returns current key.
 	//! \~russian Возвращает ключ текущего элемента.
 	//! \~\sa \a value()
 	inline const Key & key() const { return m._key(pos); }
 	//! \~english Returns current value.
 	//! \~russian Возвращает значение текущего элемента.
 	//! \~\sa \a key()
 	inline T & value() { return m._value(pos); }
 	//! \~english Returns true if iterator can jump to next entry
 	//! \~russian Возвращает true если итератор может перейти к следующему элементу.
 	//! \~\sa \a next()
 	inline bool hasNext() const { return pos < (m.size_s() - 1); }
 	//! \~english Jump to next entry and return true if new position is valid.
 	//! \~russian Переходит к следующему элементу и возвращает true если он существует.
 	//! \~\sa \a hasNext(), \a reset()
 	inline bool next() {
 		++pos;
 		return pos < m.size_s();
 	}
 	//! \~english Reset iterator to initial position.
 	//! \~russian Переходит на начало.
 	//! \~\sa \a next()
 	inline void reset() { pos = -1; }
 private:
 	MapType & m;
 	ssize_t pos;
 };
 //! \addtogroup Containers
 //! \{
 //! \class PIMapIteratorReverse
 //! \brief
 //! \~english Java-style reverse iterator for \a PIMap.
 //! \~russian Итератор Java стиля для \a PIMap в обратном порядке.
 //! \~\}
 //! \details
 //! \~english
 //! This class used to easy serial reverse access keys and values in PIMap with write permitions.
 //! Use constructor to create iterator, or use \a PIMap::makeReverseIterator().
 //! \~russian
 //! Этот класс используется для удобного перебора ключей и значений всего словаря в обратном порядке с доступом на запись.
 //! Можно использовать конструктор, в который передаётся словарь, или функцию словаря \a PIMap::makeReverseIterator().
 //! \~
 //! \code
 //! PIMap<int, PIString> m;
 //! m[1] = "one";
 //! m[2] = "two";
 //! m[4] = "four";
 //! auto it = m.makeReverseIterator();
 //! while (it.next()) {
 //!     it.value().append("_!");
 //!     piCout << it.key() << it.value();
 //! }
 //! // 4 four_!
 //! // 2 two_!
 //! // 1 one_!
 //! \endcode
 template<typename Key, typename T>
 class PIMapIteratorReverse {
 	typedef PIMap<Key, T> MapType;
 public:
 	inline PIMapIteratorReverse(PIMap<Key, T> & map): m(map), pos(m.size_s()) {}
 	//! \~english Returns current key.
 	//! \~russian Возвращает ключ текущего элемента.
 	//! \~\sa \a value()
 	inline const Key & key() const { return m._key(pos); }
 	//! \~english Returns current value.
 	//! \~russian Возвращает значение текущего элемента.
 	//! \~\sa \a key()
 	inline T & value() { return m._value(pos); }
 	//! \~english Returns true if iterator can jump to next entry
 	//! \~russian Возвращает true если итератор может перейти к следующему элементу.
 	//! \~\sa \a next()
 	inline bool hasNext() const { return pos > 0; }
 	//! \~english Jump to next entry and return true if new position is valid.
 	//! \~russian Переходит к следующему элементу и возвращает true если он существует.
 	//! \~\sa \a hasNext(), \a reset()
 	inline bool next() {
 		--pos;
 		return pos >= 0;
 	}
 	//! \~english Reset iterator to initial position.
 	//! \~russian Переходит на начало.
 	//! \~\sa \a next()
 	inline void reset() { pos = m.size_s(); }
 private:
 	MapType & m;
 	ssize_t pos;
 };
 #ifdef PIP_STD_IOSTREAM
 //! \~english Output operator to [std::ostream](https://en.cppreference.com/w/cpp/io/basic_ostream).
 //! \~russian Оператор вывода в [std::ostream](https://ru.cppreference.com/w/cpp/io/basic_ostream).
 template<typename Key, typename Type>
-inline std::ostream & operator <<(std::ostream & s, const PIMap<Key, Type> & v) {
+inline std::ostream & operator<<(std::ostream & s, const PIMap<Key, Type> & v) {
 	s << "{";
 	bool first = true;
 	for (typename PIMap<Key, Type>::const_iterator i = v.begin(); i != v.end(); ++i) {
-		if (!first)
+		if (!first) s << ", ";
 			s << ", ";
 		first = false;
-		s << i->first << ": " << i->second;
+		s << i.key() << ": " << i.value();
 	}
 	s << "}";
 	return s;
 }
 #endif
 //! \relatesalso PICout
 //! \~english Output operator to \a PICout
 //! \~russian Оператор вывода в \a PICout
 template<typename Key, typename Type>
-inline PICout operator <<(PICout s, const PIMap<Key, Type> & v) {
+inline PICout operator<<(PICout s, const PIMap<Key, Type> & v) {
 	s.space();
-	s.setControl(0, true);
+	s.saveAndSetControls(0);
 	s << "{";
 	bool first = true;
 	for (typename PIMap<Key, Type>::const_iterator i = v.begin(); i != v.end(); ++i) {
-		if (!first)
+		if (!first) s << ", ";
 			s << ", ";
 		first = false;
-		s << i->first << ": " << i->second;
+		s << i.key() << ": " << i.value();
 	}
 	s << "}";
-	s.restoreControl();
+	s.restoreControls();
 	return s;
 }
-template<typename Key, typename Type> inline void piSwap(PIMap<Key, Type> & f, PIMap<Key, Type> & s) {f.swap(s);}
+template<typename Key, typename Type>
 inline void piSwap(PIMap<Key, Type> & f, PIMap<Key, Type> & s) {
 	f.swap(s);
 }
 #endif // PIMAP_H
--- a/Show More
+++ b/Show More