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10 Commits
b871b9dd46 ... 4e08d985c9

Author SHA1 Message Date
Timur A. Fatkhullin
4e08d985c9 ... 2026-02-11 18:22:06 +03:00
Timur A. Fatkhullin
652fbd0890 ... 2026-02-11 12:07:27 +03:00
Timur A. Fatkhullin
b1df84a87f ... 2026-02-10 19:12:16 +03:00
Timur A. Fatkhullin
5df3dcf596 ... 2026-02-09 23:42:24 +03:00
Timur A. Fatkhullin
07cf211b3d ... 2026-02-08 21:50:48 +03:00
Timur A. Fatkhullin
86bb53d358 ... 2026-02-06 17:47:48 +03:00
Timur A. Fatkhullin
97b908838c ... 2026-02-06 00:09:15 +03:00
Timur A. Fatkhullin
6352865610 ... 2026-02-05 10:35:24 +03:00
Timur A. Fatkhullin
593a914d8d ... 2026-02-04 18:29:08 +03:00
Timur A. Fatkhullin
5b4456d6ef ... 2026-02-02 19:43:18 +03:00
20 changed files with 6179 additions and 1143 deletions
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<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE QtCreatorProject>
<!-- Written by QtCreator 18.0.1, 2026-02-10T08:36:52. -->
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<value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName"></value>
<value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">CMakeProjectManager.CMakeRunConfiguration.</value>
<value type="QString" key="ProjectExplorer.RunConfiguration.BuildKey">exe</value>
<value type="bool" key="ProjectExplorer.RunConfiguration.Customized">false</value>
<value type="QString" key="ProjectExplorer.RunConfiguration.UniqueId"></value>
<value type="bool" key="RunConfiguration.UseCppDebuggerAuto">true</value>
<value type="bool" key="RunConfiguration.UseLibrarySearchPath">true</value>
<value type="bool" key="RunConfiguration.UseQmlDebuggerAuto">true</value>
<value type="QString" key="RunConfiguration.WorkingDirectory.default">%{RunConfig:Executable:Path}</value>
</valuemap>
<valuemap type="QVariantMap" key="ProjectExplorer.Target.RunConfiguration.1">
<value type="bool" key="Analyzer.Perf.Settings.UseGlobalSettings">true</value>
<value type="bool" key="Analyzer.QmlProfiler.Settings.UseGlobalSettings">true</value>
<value type="int" key="Analyzer.Valgrind.Callgrind.CostFormat">0</value>
<value type="bool" key="Analyzer.Valgrind.Settings.UseGlobalSettings">true</value>
<value type="QString" key="Analyzer.Valgrind.ValgrindExecutable">/usr/bin/valgrind</value>
<valuelist type="QVariantList" key="CustomOutputParsers"/>
<value type="int" key="PE.EnvironmentAspect.Base">2</value>
<valuelist type="QVariantList" key="PE.EnvironmentAspect.Changes"/>
<value type="bool" key="PE.EnvironmentAspect.PrintOnRun">false</value>
<value type="QString" key="PerfRecordArgsId">-e cpu-cycles --call-graph dwarf,4096 -F 250</value>
<value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName"></value>
<value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">CMakeProjectManager.CMakeRunConfiguration.</value>
<value type="QString" key="ProjectExplorer.RunConfiguration.BuildKey">mcc_telemetry_test</value>
<value type="bool" key="ProjectExplorer.RunConfiguration.Customized">false</value>
<value type="QString" key="ProjectExplorer.RunConfiguration.UniqueId"></value>
<value type="bool" key="RunConfiguration.UseCppDebuggerAuto">true</value>
<value type="bool" key="RunConfiguration.UseLibrarySearchPath">true</value>
<value type="bool" key="RunConfiguration.UseQmlDebuggerAuto">true</value>
<value type="QString" key="RunConfiguration.WorkingDirectory.default">%{RunConfig:Executable:Path}</value>
</valuemap>
<valuemap type="QVariantMap" key="ProjectExplorer.Target.RunConfiguration.2">
<value type="bool" key="Analyzer.Perf.Settings.UseGlobalSettings">true</value>
<value type="bool" key="Analyzer.QmlProfiler.Settings.UseGlobalSettings">true</value>
<value type="int" key="Analyzer.Valgrind.Callgrind.CostFormat">0</value>
<value type="bool" key="Analyzer.Valgrind.Settings.UseGlobalSettings">true</value>
<value type="QString" key="Analyzer.Valgrind.ValgrindExecutable">/usr/bin/valgrind</value>
<valuelist type="QVariantList" key="CustomOutputParsers"/>
<value type="int" key="PE.EnvironmentAspect.Base">2</value>
<valuelist type="QVariantList" key="PE.EnvironmentAspect.Changes"/>
<value type="bool" key="PE.EnvironmentAspect.PrintOnRun">false</value>
<value type="QString" key="PerfRecordArgsId">-e cpu-cycles --call-graph dwarf,4096 -F 250</value>
<value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName"></value>
<value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">CMakeProjectManager.CMakeRunConfiguration.</value>
<value type="QString" key="ProjectExplorer.RunConfiguration.BuildKey">mcc_coord_test</value>
<value type="bool" key="ProjectExplorer.RunConfiguration.Customized">false</value>
<value type="QString" key="ProjectExplorer.RunConfiguration.UniqueId"></value>
<value type="bool" key="RunConfiguration.UseCppDebuggerAuto">true</value>
<value type="bool" key="RunConfiguration.UseLibrarySearchPath">true</value>
<value type="bool" key="RunConfiguration.UseQmlDebuggerAuto">true</value>
<value type="QString" key="RunConfiguration.WorkingDirectory.default">%{RunConfig:Executable:Path}</value>
</valuemap>
<valuemap type="QVariantMap" key="ProjectExplorer.Target.RunConfiguration.3">
<value type="bool" key="Analyzer.Perf.Settings.UseGlobalSettings">true</value>
<value type="bool" key="Analyzer.QmlProfiler.Settings.UseGlobalSettings">true</value>
<value type="int" key="Analyzer.Valgrind.Callgrind.CostFormat">0</value>
<value type="bool" key="Analyzer.Valgrind.Settings.UseGlobalSettings">true</value>
<value type="QString" key="Analyzer.Valgrind.ValgrindExecutable">/usr/bin/valgrind</value>
<valuelist type="QVariantList" key="CustomOutputParsers"/>
<value type="int" key="PE.EnvironmentAspect.Base">2</value>
<valuelist type="QVariantList" key="PE.EnvironmentAspect.Changes"/>
<value type="bool" key="PE.EnvironmentAspect.PrintOnRun">false</value>
<value type="QString" key="PerfRecordArgsId">-e cpu-cycles --call-graph dwarf,4096 -F 250</value>
<value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName"></value>
<value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">CMakeProjectManager.CMakeRunConfiguration.</value>
<value type="QString" key="ProjectExplorer.RunConfiguration.BuildKey">mcc_pzone_test</value>
<value type="bool" key="ProjectExplorer.RunConfiguration.Customized">false</value>
<value type="QString" key="ProjectExplorer.RunConfiguration.UniqueId"></value>
<value type="bool" key="RunConfiguration.UseCppDebuggerAuto">true</value>
<value type="bool" key="RunConfiguration.UseLibrarySearchPath">true</value>
<value type="bool" key="RunConfiguration.UseQmlDebuggerAuto">true</value>
<value type="QString" key="RunConfiguration.WorkingDirectory.default">%{RunConfig:Executable:Path}</value>
</valuemap>
<value type="qlonglong" key="ProjectExplorer.Target.RunConfigurationCount">4</value>
</valuemap>
</data>
<data>
<variable>ProjectExplorer.Project.TargetCount</variable>
<value type="qlonglong">2</value>
</data>
<data>
<variable>Version</variable>
<value type="int">22</value>
</data>
</qtcreator>

366
CMakeLists.txt
View File

@@ -1,11 +1,11 @@
cmake_minimum_required(VERSION 3.14)
set(QT_CREATOR_SKIP_MAINTENANCE_TOOL_PROVIDER ON)
# ******* MOUNT CONTROL COMPONENTS *******
project(mcc LANGUAGES C CXX Fortran VERSION 0.1)
# set(CMAKE_BUILD_TYPE Release)
set(CMAKE_CXX_STANDARD 23)
@@ -13,13 +13,27 @@ set(CMAKE_CXX_STANDARD_REQUIRED ON)
set(CMAKE_MODULE_PATH ${CMAKE_MODULE_PATH} "${CMAKE_SOURCE_DIR}/cmake")
# ******* LIBRARY OPTIONS *******
option(USE_SPDLOG "Use of SPDLOG library (add implementation of logger class based on this library)" ON)
option(USE_ERFA "Use of ERFA library (add implementation of CCTE based on this library)" ON)
option(
USE_SPDLOG
"Use of SPDLOG library (add implementation of logger class based on this library)"
ON
)
option(
USE_ERFA
"Use of ERFA library (add implementation of CCTE based on this library)"
ON
)
option(USE_BSPLINE_PCM "Use of FITPACK bivariate splines for PCM" ON)
option(
USE_ASIO
"Use of ASIO-library (add generic implementation of network capabilities)"
ON
)
option(BUILD_TESTS "Build tests" ON)
@@ -30,153 +44,220 @@ include(ExternalProject)
# ******* SPDLOG LIBRARY *******
if (USE_SPDLOG)
if(USE_SPDLOG)
set(SPDLOG_USE_STD_FORMAT ON CACHE INTERNAL "Use of C++20 std::format")
set(SPDLOG_FMT_EXTERNAL OFF CACHE INTERNAL "Turn off external fmt library")
find_package(spdlog CONFIG)
if (NOT ${spdlog_FOUND})
FetchContent_Declare(spdlog
GIT_REPOSITORY "https://github.com/gabime/spdlog.git"
GIT_TAG "v1.15.1"
GIT_SHALLOW TRUE
GIT_SUBMODULES ""
GIT_PROGRESS TRUE
CMAKE_ARGS "-DSPDLOG_USE_STD_FORMAT=ON -DSPDLOG_FMT_EXTERNAL=OFF"
OVERRIDE_FIND_PACKAGE
if(NOT ${spdlog_FOUND})
message(STATUS "\tfetch spdlog-lib ...")
FetchContent_Declare(
spdlog
GIT_REPOSITORY "https://github.com/gabime/spdlog.git"
GIT_TAG "v1.15.1"
GIT_SHALLOW TRUE
GIT_SUBMODULES ""
GIT_PROGRESS TRUE
CMAKE_ARGS
"-DSPDLOG_USE_STD_FORMAT=ON -DSPDLOG_FMT_EXTERNAL=OFF"
OVERRIDE_FIND_PACKAGE
)
find_package(spdlog CONFIG)
find_package(spdlog REQUIRED CONFIG)
endif()
endif()
# ******* ERFA LIBRARY *******
find_program(MESON_PROG NAMES meson HINTS ENV PATHS)
if (NOT MESON_PROG)
message(FATAL "meson executable can not be found!!!")
endif()
find_program(NINJA_PROG NAMES ninja ninja-build)
if (NOT NINJA_PROG)
message(FATAL "ninja executable can not be found!!!")
endif()
find_package(PkgConfig REQUIRED)
pkg_check_modules(ERFALIB IMPORTED_TARGET GLOBAL erfa)
if (NOT ERFALIB_FOUND)
message(STATUS "\tfetch erfa-lib ...")
# ExternalProject_Add(erfalib
# PREFIX ${CMAKE_BINARY_DIR}/erfa_lib
# GIT_REPOSITORY "https://github.com/liberfa/erfa.git"
# GIT_TAG "v2.0.1"
# UPDATE_COMMAND ""
# PATCH_COMMAND ""
# LOG_CONFIGURE 1
# CONFIGURE_COMMAND meson setup --reconfigure -Ddefault_library=static -Dbuildtype=release
# -Dprefix=${CMAKE_BINARY_DIR}/erfa_lib -Dlibdir= -Dincludedir= -Ddatadir= <SOURCE_DIR>
# BUILD_COMMAND ninja -C <BINARY_DIR>
# INSTALL_COMMAND meson install -C <BINARY_DIR>
# BUILD_BYPRODUCTS ${CMAKE_BINARY_DIR}/erfa_lib/liberfa.a
# )
# add_library(PkgConfig::ERFALIB STATIC IMPORTED GLOBAL)
# set_target_properties(PkgConfig::ERFALIB PROPERTIES IMPORTED_LOCATION ${CMAKE_BINARY_DIR}/erfa_lib/liberfa.a)
# set_target_properties(PkgConfig::ERFALIB PROPERTIES INTERFACE_INCLUDE_DIRECTORIES ${CMAKE_BINARY_DIR}/erfa_lib)
# add_dependencies(PkgConfig::ERFALIB erfalib)
# set(CACHE{ERFALIB_INCLUDE_DIRS} TYPE PATH VALUE "${CMAKE_BINARY_DIR}/erfa_lib")
# set(CACHE{ERFALIB_LIBRARY_DIRS} TYPE PATH VALUE "${CMAKE_BINARY_DIR}/erfa_lib")
# set(CACHE{ERFALIB_LIBRARIES} TYPE STRING VALUE "erfa;m")
FetchContent_Declare(erfalib_project
GIT_REPOSITORY "https://github.com/liberfa/erfa.git"
GIT_TAG "v2.0.1"
GIT_SHALLOW TRUE
GIT_PROGRESS TRUE
)
FetchContent_MakeAvailable(erfalib_project)
# message(STATUS "ERFA: ${erfalib_project_SOURCE_DIR}")
message(STATUS "\tbuild erfa-lib ...")
execute_process(
COMMAND meson setup --reconfigure -Ddefault_library=static -Dbuildtype=release
-Dprefix=${CMAKE_BINARY_DIR}/erfa_lib -Dlibdir= -Dincludedir= -Ddatadir= ${CMAKE_BINARY_DIR}/erfa_lib ${erfalib_project_SOURCE_DIR}
)
execute_process(
WORKING_DIRECTORY ${CMAKE_BINARY_DIR}/erfa_lib
COMMAND ninja -C ${CMAKE_BINARY_DIR}/erfa_lib
)
execute_process(
WORKING_DIRECTORY ${CMAKE_BINARY_DIR}/erfa_lib
COMMAND meson install -C ${CMAKE_BINARY_DIR}/erfa_lib
)
set(ENV{PKG_CONFIG_PATH} "${CMAKE_BINARY_DIR}/erfa_lib/pkgconfig")
if(USE_ERFA)
pkg_check_modules(ERFALIB IMPORTED_TARGET GLOBAL erfa)
if(NOT ERFALIB_FOUND)
message(STATUS "\tfetch erfa-lib ...")
# ExternalProject_Add(erfalib
# PREFIX ${CMAKE_BINARY_DIR}/erfa_lib
# GIT_REPOSITORY "https://github.com/liberfa/erfa.git"
# GIT_TAG "v2.0.1"
# UPDATE_COMMAND ""
# PATCH_COMMAND ""
# LOG_CONFIGURE 1
# CONFIGURE_COMMAND meson setup --reconfigure -Ddefault_library=static -Dbuildtype=release
# -Dprefix=${CMAKE_BINARY_DIR}/erfa_lib -Dlibdir= -Dincludedir= -Ddatadir= <SOURCE_DIR>
# BUILD_COMMAND ninja -C <BINARY_DIR>
# INSTALL_COMMAND meson install -C <BINARY_DIR>
# BUILD_BYPRODUCTS ${CMAKE_BINARY_DIR}/erfa_lib/liberfa.a
# )
# add_library(PkgConfig::ERFALIB STATIC IMPORTED GLOBAL)
# set_target_properties(PkgConfig::ERFALIB PROPERTIES IMPORTED_LOCATION ${CMAKE_BINARY_DIR}/erfa_lib/liberfa.a)
# set_target_properties(PkgConfig::ERFALIB PROPERTIES INTERFACE_INCLUDE_DIRECTORIES ${CMAKE_BINARY_DIR}/erfa_lib)
# add_dependencies(PkgConfig::ERFALIB erfalib)
# set(CACHE{ERFALIB_INCLUDE_DIRS} TYPE PATH VALUE "${CMAKE_BINARY_DIR}/erfa_lib")
# set(CACHE{ERFALIB_LIBRARY_DIRS} TYPE PATH VALUE "${CMAKE_BINARY_DIR}/erfa_lib")
# set(CACHE{ERFALIB_LIBRARIES} TYPE STRING VALUE "erfa;m")
find_program(MESON_PROG NAMES meson HINTS ENV PATHS)
if(NOT MESON_PROG)
message(FATAL "meson executable can not be found!!!")
endif()
find_program(NINJA_PROG NAMES ninja ninja-build)
if(NOT NINJA_PROG)
message(FATAL "ninja executable can not be found!!!")
endif()
FetchContent_Declare(
erfalib_project
GIT_REPOSITORY "https://github.com/liberfa/erfa.git"
GIT_TAG "v2.0.1"
GIT_SHALLOW TRUE
GIT_PROGRESS TRUE
)
FetchContent_MakeAvailable(erfalib_project)
# message(STATUS "ERFA: ${erfalib_project_SOURCE_DIR}")
message(STATUS "\tbuild erfa-lib ...")
execute_process(
COMMAND
meson setup --reconfigure -Ddefault_library=static
-Dbuildtype=release -Dprefix=${CMAKE_BINARY_DIR}/erfa_lib
-Dlibdir= -Dincludedir= -Ddatadir= ${CMAKE_BINARY_DIR}/erfa_lib
${erfalib_project_SOURCE_DIR}
)
execute_process(
WORKING_DIRECTORY ${CMAKE_BINARY_DIR}/erfa_lib
COMMAND ninja -C ${CMAKE_BINARY_DIR}/erfa_lib
)
execute_process(
WORKING_DIRECTORY ${CMAKE_BINARY_DIR}/erfa_lib
COMMAND meson install -C ${CMAKE_BINARY_DIR}/erfa_lib
)
set(ENV{PKG_CONFIG_PATH} "${CMAKE_BINARY_DIR}/erfa_lib/pkgconfig")
pkg_check_modules(ERFALIB IMPORTED_TARGET GLOBAL erfa)
endif()
message(STATUS "ERFA LIBS: ${ERFALIB_LIBRARIES}")
message(STATUS "ERFA LIB PATHS: ${ERFALIB_LIBRARY_DIRS}")
message(STATUS "ERFA INC PATHS: ${ERFALIB_INCLUDE_DIRS}")
endif()
if(USE_ASIO)
pkg_check_modules(ASIOLIB IMPORTED_TARGET GLOBAL asio)
message(STATUS "ERFA LIBS: ${ERFALIB_LIBRARIES}")
message(STATUS "ERFA LIB PATHS: ${ERFALIB_LIBRARY_DIRS}")
message(STATUS "ERFA INC PATHS: ${ERFALIB_INCLUDE_DIRS}")
if(NOT ASIOLIB_FOUND)
message(STATUS "\tfetch asio-lib ...")
FetchContent_Declare(
asiolib_project
PREFIX
${CMAKE_BINARY_DIR}/asio
GIT_REPOSITORY "https://github.com/chriskohlhoff/asio.git"
GIT_TAG "asio-1-36-0"
GIT_SHALLOW 1
)
if (USE_BSPLINE_PCM)
FetchContent_MakeAvailable(asiolib_project)
endif()
execute_process(
WORKING_DIRECTORY ${asiolib_project_SOURCE_DIR}/asio
COMMAND ./autogen.sh
)
execute_process(
WORKING_DIRECTORY ${asiolib_project_SOURCE_DIR}/asio
COMMAND ./configure --prefix=${asiolib_project_SOURCE_DIR}/asio
)
set(ENV{PKG_CONFIG_PATH} "${asiolib_project_SOURCE_DIR}/asio")
pkg_check_modules(ASIOLIB IMPORTED_TARGET GLOBAL asio)
message(STATUS "ASIO INC PATHS: ${ASIOLIB_INCLUDE_DIRS}")
endif()
if(USE_BSPLINE_PCM)
# fitpack by P. Dierckx
add_subdirectory(fitpack)
endif()
set(MCC_SRC mcc_concepts.h mcc_constants.h mcc_epoch.h mcc_angle.h mcc_coordinate.h mcc_error.h
mcc_traits.h mcc_utils.h mcc_ccte_iers.h mcc_ccte_iers_default.h mcc_ccte_erfa.h mcc_pzone.h
mcc_pzone_container.h mcc_pcm.h mcc_telemetry.h mcc_serializer.h)
set(MCC_SRC
mcc_concepts.h
mcc_constants.h
mcc_epoch.h
mcc_angle.h
mcc_coordinate.h
mcc_error.h
mcc_traits.h
mcc_utils.h
mcc_pzone.h
mcc_pzone_container.h
mcc_pcm.h
mcc_telemetry.h
mcc_serialization_common.h
mcc_deserializer.h
mcc_serializer.h
)
if (USE_SPDLOG)
if(USE_SPDLOG)
list(APPEND MCC_SRC mcc_spdlog.h)
endif()
if(USE_ERFA)
list(APPEND MCC_SRC mcc_ccte_iers.h mcc_ccte_iers_default.h mcc_ccte_erfa.h)
endif()
if(USE_ASIO)
list(
APPEND MCC_SRC
mcc_netserver_endpoint.h
mcc_netserver_proto.h
mcc_netserver.h
)
endif()
add_library(${PROJECT_NAME} INTERFACE ${MCC_SRC})
target_compile_features(${PROJECT_NAME} INTERFACE cxx_std_23)
target_link_libraries(${PROJECT_NAME} INTERFACE PkgConfig::ERFALIB)
# target_link_libraries(${PROJECT_NAME} INTERFACE PkgConfig::ERFALIB fitpack)
target_include_directories(
${PROJECT_NAME}
INTERFACE
# $<BUILD_INTERFACE:${CMAKE_CURRENT_SOURCE_DIR};${ERFALIB_INCLUDE_DIRS};${FITPACK_INCLUDE_DIR};>
$<BUILD_INTERFACE:${CMAKE_CURRENT_SOURCE_DIR};${ERFALIB_INCLUDE_DIRS};>
$<INSTALL_INTERFACE:include/${PROJECT_NAME}>
)
if (USE_BSPLINE_PCM)
target_compile_definitions(${PROJECT_NAME} INTERFACE USE_BSPLINE_PCM)
target_link_libraries(${PROJECT_NAME} INTERFACE fitpack)
# target_include_directories(
# ${PROJECT_NAME}
# INTERFACE
# $<BUILD_INTERFACE:${FITPACK_INCLUDE_DIR};>)
if(USE_ERFA)
target_link_libraries(${PROJECT_NAME} INTERFACE PkgConfig::ERFALIB)
target_include_directories(
${PROJECT_NAME}
INTERFACE
# $<BUILD_INTERFACE:${CMAKE_CURRENT_SOURCE_DIR};${ERFALIB_INCLUDE_DIRS};${FITPACK_INCLUDE_DIR};>
$<BUILD_INTERFACE:${CMAKE_CURRENT_SOURCE_DIR};${ERFALIB_INCLUDE_DIRS};>
$<INSTALL_INTERFACE:include/${PROJECT_NAME}>
)
else()
target_include_directories(
${PROJECT_NAME}
INTERFACE
$<BUILD_INTERFACE:${CMAKE_CURRENT_SOURCE_DIR};>
$<INSTALL_INTERFACE:include/${PROJECT_NAME}>
)
endif()
# get_target_property(ZZ ${PROJECT_NAME} INTERFACE_INCLUDE_DIRECTORIES)
if(USE_BSPLINE_PCM)
target_compile_definitions(${PROJECT_NAME} INTERFACE USE_BSPLINE_PCM)
target_link_libraries(${PROJECT_NAME} INTERFACE fitpack)
endif()
# message(STATUS "INT: ${ZZ}")
if(USE_ASIO)
target_link_libraries(${PROJECT_NAME} INTERFACE PkgConfig::ASIOLIB)
endif()
if(USE_SPDLOG)
target_link_libraries(${PROJECT_NAME} INTERFACE spdlog::spdlog)
endif()
# add_executable(exe EXCLUDE_FROM_ALL main.cpp)
# target_link_libraries(exe PUBLIC ${PROJECT_NAME})
# get_target_property(ZZ exe INCLUDE_DIRECTORIES)
# message(STATUS "INT: ${ZZ_STRING}")
if (BUILD_TESTS)
if(BUILD_TESTS)
add_executable(mcc_telemetry_test tests/mcc_telemetry_test.cpp)
target_link_libraries(mcc_telemetry_test PRIVATE ${PROJECT_NAME})
@@ -185,40 +266,57 @@ if (BUILD_TESTS)
add_executable(mcc_pzone_test tests/mcc_pzone_test.cpp)
target_link_libraries(mcc_pzone_test PRIVATE ${PROJECT_NAME})
add_executable(mcc_netmsg_test tests/mcc_netmsg_test.cpp)
target_link_libraries(mcc_netmsg_test PRIVATE ${PROJECT_NAME})
else()
# This is just a stub to allow access to the path and library settings for the ${PROJECT_NAME} target during development
add_executable(just_stub EXCLUDE_FROM_ALL main.cpp)
target_link_libraries(just_stub PUBLIC ${PROJECT_NAME})
endif()
include(CMakePackageConfigHelpers)
write_basic_package_version_file("${PROJECT_NAME}ConfigVersion.cmake"
VERSION ${PROJECT_VERSION}
COMPATIBILITY SameMajorVersion)
write_basic_package_version_file(
"${PROJECT_NAME}ConfigVersion.cmake"
VERSION ${PROJECT_VERSION}
COMPATIBILITY SameMajorVersion
)
set(MCC_CONFIG_INSTALLDIR
${CMAKE_INSTALL_LIBDIR}/cmake/${PROJECT_NAME}
CACHE PATH
"install path for generated library config files"
)
set(MCC_HEADERS_INSTALLDIR
${CMAKE_INSTALL_INCLUDEDIR}
CACHE PATH
"install path for headers"
)
set(MCC_CONFIG_INSTALLDIR ${CMAKE_INSTALL_LIBDIR}/cmake/${PROJECT_NAME} CACHE PATH "install path for generated library config files")
set(MCC_HEADERS_INSTALLDIR ${CMAKE_INSTALL_INCLUDEDIR} CACHE PATH "install path for headers")
configure_package_config_file("${PROJECT_SOURCE_DIR}/${PROJECT_NAME}Config.cmake.in"
"${PROJECT_BINARY_DIR}/${PROJECT_NAME}Config.cmake"
INSTALL_DESTINATION
${MCC_CONFIG_INSTALLDIR}
PATH_VARS MCC_HEADERS_INSTALLDIR)
configure_package_config_file(
"${PROJECT_SOURCE_DIR}/${PROJECT_NAME}Config.cmake.in"
"${PROJECT_BINARY_DIR}/${PROJECT_NAME}Config.cmake"
INSTALL_DESTINATION ${MCC_CONFIG_INSTALLDIR}
PATH_VARS MCC_HEADERS_INSTALLDIR
)
#install(EXPORT ${PROJECT_NAME}_Targets FILE ${PROJECT_NAME}Targets.cmake NAMESPACE ${PROJECT_NAME_NAMESPACE}:: DESTINATION ${MCC_CONFIG_INSTALLDIR})
#install(FILES "${PROJECT_BINARY_DIR}/${PROJECT_NAME}Config.cmake" "${PROJECT_BINARY_DIR}/${PROJECT_NAME}ConfigVersion.cmake" DESTINATION ${MCC_CONFIG_INSTALLDIR})
#install(FILES ${MCC_SRC} DESTINATION include/${PROJECT_NAME})
# uninstall target
if(NOT TARGET uninstall)
configure_file(
"${CMAKE_CURRENT_SOURCE_DIR}/cmake_uninstall.cmake.in"
"${CMAKE_CURRENT_BINARY_DIR}/cmake_uninstall.cmake"
IMMEDIATE @ONLY)
IMMEDIATE
@ONLY
)
add_custom_target(uninstall
COMMAND ${CMAKE_COMMAND} -P ${CMAKE_CURRENT_BINARY_DIR}/cmake_uninstall.cmake)
add_custom_target(
uninstall
COMMAND
${CMAKE_COMMAND} -P
${CMAKE_CURRENT_BINARY_DIR}/cmake_uninstall.cmake
)
endif()

28
mcc_angle.h
View File

@@ -715,21 +715,21 @@ static constexpr MccCoordPairKind MccCoordStrToPairKind(R&& spair)
}
enum class MccCoordinatePairRep : int {
MCC_COORDPAIR_REP_DEGREES, // both angles are in decimal degrees
MCC_COORDPAIR_REP_SXGM_HOURDEG, // X is in hour and Y is in degree sexagesimal representation
MCC_COORDPAIR_REP_SXGM_DEGDEG // both angles are in sexagesimal degrees
};
// enum class MccCoordinatePairRep : int {
// MCC_COORDPAIR_REP_DEGREES, // both angles are in decimal degrees
// MCC_COORDPAIR_REP_SXGM_HOURDEG, // X is in hour and Y is in degree sexagesimal representation
// MCC_COORDPAIR_REP_SXGM_DEGDEG // both angles are in sexagesimal degrees
// };
// default wide-acceptable sexagesimal representation
static constexpr MccCoordinatePairRep MccCoordinatePairToSxgmRep(MccCoordPairKind kind)
{
return kind == MccCoordPairKind::COORDS_KIND_AZALT || kind == MccCoordPairKind::COORDS_KIND_AZZD ||
kind == MccCoordPairKind::COORDS_KIND_XY || kind == MccCoordPairKind::COORDS_KIND_LONLAT ||
kind == MccCoordPairKind::COORDS_KIND_GENERIC
? MccCoordinatePairRep::MCC_COORDPAIR_REP_SXGM_DEGDEG
: MccCoordinatePairRep::MCC_COORDPAIR_REP_SXGM_HOURDEG; // RA-DEC or HA-DEC
}
// // default wide-acceptable sexagesimal representation
// static constexpr MccCoordinatePairRep MccCoordinatePairToSxgmRep(MccCoordPairKind kind)
// {
// return kind == MccCoordPairKind::COORDS_KIND_AZALT || kind == MccCoordPairKind::COORDS_KIND_AZZD ||
// kind == MccCoordPairKind::COORDS_KIND_XY || kind == MccCoordPairKind::COORDS_KIND_LONLAT ||
// kind == MccCoordPairKind::COORDS_KIND_GENERIC
// ? MccCoordinatePairRep::MCC_COORDPAIR_REP_SXGM_DEGDEG
// : MccCoordinatePairRep::MCC_COORDPAIR_REP_SXGM_HOURDEG; // RA-DEC or HA-DEC
// }
} // namespace mcc::impl

10
mcc_ccte_erfa.h
View File

@@ -280,15 +280,15 @@ public:
}
// latitude and longitude
template <mcc_angle_c LAT_T, mcc_angle_c LON_T>
void geoPosition(std::pair<LAT_T, LON_T>* coords) const
// longitude and latitude
template <mcc_angle_c LON_T, mcc_angle_c LAT_T>
void geoPosition(std::pair<LON_T, LAT_T>* coords) const
{
std::lock_guard lock{*_stateMutex};
if (coords) {
coords->first = _currentState.lat;
coords->second = _currentState.lon;
coords->first = _currentState.lon;
coords->second = _currentState.lat;
}
}

45
mcc_concepts.h
View File

@@ -58,10 +58,23 @@ concept mcc_error_c = std::default_initializable<T> && (std::convertible_to<T, b
template <mcc_error_c ErrT, mcc_error_c DefErrT>
DefErrT mcc_deduced_err(ErrT const& err, DefErrT const& default_err)
auto mcc_deduced_err(ErrT const& err, DefErrT const& default_err)
// DefErrT mcc_deduced_err(ErrT const& err, DefErrT const& default_err)
{
if constexpr (std::same_as<ErrT, DefErrT>) {
return err;
} else if constexpr (std::is_error_code_enum_v<DefErrT>) {
if constexpr (std::same_as<ErrT, std::error_code>) {
return err;
} else {
return default_err;
}
} else if constexpr (std::is_error_condition_enum_v<DefErrT>) {
if constexpr (std::same_as<ErrT, std::error_condition>) {
return err;
} else {
return default_err;
}
} else {
return default_err;
}
@@ -147,6 +160,11 @@ concept mcc_fp_type_like_c =
/* GEOMETRICAL ANGLE REPRESENTATION CLASS CONCEPT */
/* REQUIREMENT: in the MCC-library it is assumed that an arithmetic representation of angles are measured in the
radians!!! This means that possible conversion operator 'SOME_USER_ANGLE_CLASS::operator double()'
must return an angle in radians!
*/
template <typename T>
concept mcc_angle_c = mcc_fp_type_like_c<T> && requires(T v, double vd) {
// mandatory arithmetic operations
@@ -468,11 +486,11 @@ struct mcc_skypoint_interface_t {
return std::forward<SelfT>(self).refractInverseCorrection(dZ);
}
// returns apparent sideral time (Greenwich) for the epoch of the celestial point
// returns apparent sideral time (Greenwich or local) for the epoch of the celestial point
template <std::derived_from<mcc_skypoint_interface_t> SelfT>
auto appSideralTime(this SelfT&& self, mcc_angle_c auto* st)
auto appSideralTime(this SelfT&& self, mcc_angle_c auto* st, bool is_local)
{
return std::forward<SelfT>(self).appSideralTime(st);
return std::forward<SelfT>(self).appSideralTime(st, is_local);
}
// returns equation of origins for the epoch of the celestial point
@@ -566,7 +584,7 @@ concept mcc_pcm_c = std::derived_from<T, mcc_pcm_interface_t<typename T::error_t
// static constexpr uint16_t HW_MOVE_ERROR = 555;
// }
template <typename T>
concept mcc_hardware_movement_state_c = requires {
concept mcc_hardware_movement_state_c = std::formattable<T, char> && requires {
[]() {
// // mount axes were stopped
// [[maybe_unused]] static constexpr auto v0 = T::HW_MOVE_STOPPED;
@@ -616,7 +634,6 @@ concept mcc_hardware_movement_state_c = requires {
template <typename T>
concept mcc_hardware_state_c = requires(T state) {
// encoder co-longitude and co-latiitude positions, as well as its measurement time point
// the given constrains on coordinate pair kind can be used to deduce mount type
requires mcc_coord_pair_c<decltype(state.XY)> &&
(decltype(state.XY)::pairKind == impl::MccCoordPairKind::COORDS_KIND_GENERIC ||
decltype(state.XY)::pairKind == impl::MccCoordPairKind::COORDS_KIND_XY);
@@ -783,6 +800,13 @@ struct mcc_telemetry_interface_t {
{
return std::forward<SelfT>(self).setTarget(pt);
}
// get entered target position
template <std::derived_from<mcc_telemetry_interface_t> SelfT>
RetT setTarget(this SelfT&& self, mcc_skypoint_c auto* pt)
{
return std::forward<SelfT>(self).getTarget(pt);
}
};
template <typename T>
@@ -944,10 +968,11 @@ concept mcc_movement_controls_c = requires(T t) {
template <typename T>
concept mcc_mount_status_c = requires {
[]() {
[[maybe_unused]] static constexpr std::array arr = {
T::MOUNT_STATUS_ERROR, T::MOUNT_STATUS_IDLE, T::MOUNT_STATUS_INITIALIZATION,
T::MOUNT_STATUS_ERROR, T::MOUNT_STATUS_STOPPED, T::MOUNT_STATUS_SLEWING,
T::MOUNT_STATUS_ADJUSTING, T::MOUNT_STATUS_GUIDING, T::MOUNT_STATUS_TRACKING};
[[maybe_unused]]
static constexpr std::array arr = {T::MOUNT_STATUS_ERROR, T::MOUNT_STATUS_IDLE,
T::MOUNT_STATUS_INITIALIZATION, T::MOUNT_STATUS_STOPPED,
T::MOUNT_STATUS_SLEWING, T::MOUNT_STATUS_ADJUSTING,
T::MOUNT_STATUS_GUIDING, T::MOUNT_STATUS_TRACKING};
}; // to ensure mount status is compile-time constants
};

10
mcc_constants.h
View File

@@ -18,11 +18,17 @@
namespace mcc
{
constexpr double MCC_HALF_PI = std::numbers::pi / 2.0;
constexpr double MCC_TWO_PI = std::numbers::pi * 2.0;
static constexpr double MCC_DEGRESS_TO_RADS = std::numbers::pi / 180.0;
static constexpr double MCC_RADS_TO_DEGRESS = 1.0 / MCC_DEGRESS_TO_RADS;
static constexpr double MCC_HALF_PI = std::numbers::pi / 2.0;
static constexpr double MCC_TWO_PI = std::numbers::pi * 2.0;
static constexpr double MCC_SIDERAL_TO_UT1_RATIO = 1.002737909350795; // sideral/UT1
static constexpr double MCC_J2000_MJD = 51544.5;
static constexpr double MCC_MJD_ZERO = 2400000.5;
// a value to represent of infinite time duration according to type of duration representation
template <traits::mcc_time_duration_c DT>

51
mcc_coordinate.h
View File

@@ -475,7 +475,7 @@ public:
std::pair<double, double> pos;
cctEngine.geoPosition(&pos);
return MccGeoLONLAT(pos.second, pos.first);
return MccGeoLONLAT(pos.first, pos.second);
}
@@ -581,14 +581,13 @@ public:
}
error_t appSideralTime(mcc_angle_c auto* st) const
error_t appSideralTime(mcc_angle_c auto* st, bool is_local = false) const
{
// return Greenwich apparent sideral time since epoch is UTC
return cctEngine.apparentSideralTime(_epoch, st, false);
return cctEngine.apparentSideralTime(_epoch, st, is_local);
}
error_t EO(mcc_angle_c auto* eo)
error_t EO(mcc_angle_c auto* eo) const
{
return cctEngine.equationOrigins(_epoch, eo);
}
@@ -659,30 +658,30 @@ protected:
// HA, DEC to AZ, ALT (AZ from the South through the West)
void hadec2azalt(double ha, double dec, double phi, double& az, double& alt) const
{
eraHd2ae(ha, dec, phi, &az, &alt);
// from ERFA "from N" to "from S"
if (az > std::numbers::pi) {
az -= std::numbers::pi;
} else {
az += std::numbers::pi;
}
// eraHd2ae(ha, dec, phi, &az, &alt);
// // from ERFA "from N" to "from S"
// if (az > std::numbers::pi) {
// az -= std::numbers::pi;
// } else {
// az += std::numbers::pi;
// }
return;
// return;
const auto cos_phi = std::cos(phi), sin_phi = std::sin(phi);
const auto cos_dec = std::cos(dec), sin_dec = std::sin(dec);
const auto cos_ha = std::cos(ha), sin_ha = std::sin(ha);
auto x = sin_phi * cos_dec * cos_ha - cos_phi * sin_dec;
auto y = -cos_dec * sin_ha;
auto y = cos_dec * sin_ha;
auto z = cos_phi * cos_dec * cos_ha + sin_phi * sin_dec;
auto xx = x * x, yy = y * y;
decltype(x) r;
if (xx < yy) {
r = yy * sqrt(1.0 + xx / yy);
r = std::abs(y) * sqrt(1.0 + xx / yy);
} else {
r = xx * sqrt(1.0 + yy / xx);
r = std::abs(x) * sqrt(1.0 + yy / xx);
}
az = utils::isEqual(r, 0.0) ? 0.0 : std::atan2(y, x);
@@ -697,10 +696,10 @@ protected:
// AZ, ALT to HA, DEC (AZ from the South through the West)
void azalt2hadec(double az, double alt, double phi, double& ha, double& dec) const
{
az += std::numbers::pi;
eraAe2hd(az, alt, phi, &ha, &dec);
// az += std::numbers::pi;
// eraAe2hd(az, alt, phi, &ha, &dec);
return;
// return;
const auto cos_phi = std::cos(phi), sin_phi = std::sin(phi);
const auto cos_az = std::cos(az), sin_az = std::sin(az);
@@ -713,9 +712,9 @@ protected:
auto xx = x * x, yy = y * y;
decltype(x) r;
if (xx < yy) {
r = yy * sqrt(1.0 + xx / yy);
r = std::abs(y) * sqrt(1.0 + xx / yy);
} else {
r = xx * sqrt(1.0 + yy / xx);
r = std::abs(x) * sqrt(1.0 + yy / xx);
}
ha = utils::isEqual(r, 0.0) ? 0.0 : std::atan2(y, x);
@@ -735,6 +734,16 @@ protected:
static_assert(PT::pairKind != MccCoordPairKind::COORDS_KIND_UNKNOWN, "UNSUPPORTED SKY POINT TRANSFORMATION!");
if constexpr (PT::pairKind == MccCoordPairKind::COORDS_KIND_LONLAT) { // returns geographic site coordinates
std::pair<double, double> pos;
cctEngine.geoPosition(&pos);
cpair.setX(pos.first);
cpair.setY(pos.second);
return error_t{};
}
if (_pairKind == MccCoordPairKind::COORDS_KIND_RADEC_ICRS &&
PT::pairKind == MccCoordPairKind::COORDS_KIND_RADEC_ICRS) { // from ICRS to ICRS - just copy and exit
cpair = PT(typename PT::x_t(_x), typename PT::y_t(_y));

438
mcc_deserializer.h
View File

@@ -1,23 +1,10 @@
#pragma once
/****************************************************************************************
* *
* MOUNT CONTROL COMPONENTS LIBRARY *
* *
* *
* IMPLEMENTATION OF DESERIALIZER CLASSES *
* *
****************************************************************************************/
#include <algorithm>
#include <atomic>
#include <string_view>
#include "mcc_concepts.h"
#include "mcc_coordinate.h"
#include "mcc_epoch.h"
#include "mcc_error.h"
#include "mcc_serialization_common.h"
namespace mcc::impl
{
@@ -89,34 +76,11 @@ inline std::error_code make_error_code(MccDeserializerErrorCode ec)
}
template <mcc_error_c RetT>
struct mcc_deserializer_interface_t {
virtual ~mcc_deserializer_interface_t() = default;
typedef RetT error_t;
/* BASE DESERIALIZER CLASS (FOR IMPLEMENTATIONS BELOW) */
template <std::derived_from<mcc_deserializer_interface_t> SelfT,
traits::mcc_input_char_range R,
typename ValueT,
typename... DeserParamsT>
RetT operator()(this SelfT&& self, R const& input, ValueT& value, DeserParamsT&&... params)
{
return std::forward<SelfT>(self)(input, value);
}
protected:
mcc_deserializer_interface_t() = default;
};
template <typename T>
concept mcc_deserializer_c = std::derived_from<T, mcc_deserializer_interface_t<typename T::error_t>>;
namespace details
{
struct MccDeserializerBase : mcc_deserializer_interface_t<impl::MccError>, utils::mcc_elem_sequence_with_delim_t {
using typename mcc_deserializer_interface_t<impl::MccError>::error_t;
struct MccDeserializerBase : mcc_deserializer_interface_t<MccError> {
using typename mcc_deserializer_interface_t<MccError>::error_t;
virtual ~MccDeserializerBase() = default;
@@ -127,14 +91,18 @@ protected:
//
// empty == true, if the 'input' is empty or if all elements consist of only spaces
//
std::vector<std::string_view> splitAggregateValue(traits::mcc_input_char_range auto const& input, bool& empty) const
static std::vector<std::string_view> splitValueIntoElements(traits::mcc_input_char_range auto const& input,
mcc_serialization_params_c auto const& params,
bool& empty)
{
static_assert(std::ranges::contiguous_range<decltype(input)>, "NOT IMPLEMENTED FOR NON-CONTIGUIUS RANGES!!!");
std::vector<std::string_view> res;
if (std::ranges::size(input)) {
empty = true;
std::ranges::for_each(std::views::split(input, this->_elementDelimiter), [&res, &empty](auto const& el) {
std::ranges::for_each(std::views::split(input, params.elem_delim), [&res, &empty](auto const& el) {
std::back_inserter(res) = utils::trimSpaces(std::string_view{el.begin(), el.end()});
if (empty && res.back().size()) {
empty = false;
@@ -148,17 +116,17 @@ protected:
}
template <typename VT, std::ranges::output_range<VT> R, typename... DeserParamsT>
error_t deserializingRange(mcc_deserializer_c auto& dsr,
traits::mcc_input_char_range auto const& input,
R& r,
DeserParamsT&&... params) const
static error_t deserializingRange(mcc_deserializer_c auto& dsr,
traits::mcc_input_char_range auto const& input,
R& r,
mcc_serialization_params_c auto const& params)
{
if (std::ranges::size(input) == 0) { // ignore an empty input, just return empty range?!!
r = R{};
return MccDeserializerErrorCode::ERROR_OK;
}
auto r_str = std::views::split(input, _seqDelimiter);
auto r_str = std::views::split(input, params.seq_delim);
VT val;
auto it = r.begin();
@@ -181,24 +149,24 @@ protected:
}
};
} // namespace details
/* MAIN (FALLBACK) TEMPLATED IMPLEMENTATION */
/* fallback template: basic deserializer */
template <typename VT>
class MccDeserializer : public details::MccDeserializerBase
{
public:
using typename details::MccDeserializerBase::error_t;
struct MccDeserializer : MccDeserializerBase {
static constexpr std::string_view deserializerName{"MCC-FALLBACK-DESERIALIZER"};
virtual ~MccDeserializer() = default;
error_t operator()(traits::mcc_input_char_range auto const& input, VT& value)
template <mcc_serialization_params_c ParamsT = mcc_serialization_params_t>
error_t operator()(traits::mcc_input_char_range auto const& input,
VT& value,
ParamsT const& params = mcc_serialization_params_t{})
{
if constexpr (std::is_arithmetic_v<VT>) {
auto v = mcc::utils::numFromStr<VT>(trimSpaces(input));
auto v = mcc::utils::numFromStr<VT>(utils::trimSpaces(input));
if (!v.has_value()) {
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
@@ -229,16 +197,16 @@ public:
static_assert(std::ranges::output_range<VT, el_t>, "INVALID RANGE TYPE!!!");
// no reference or constants allowed
static_assert(std::is_reference_v<el_t> || std::is_const_v<el_t>, "INVALID RANGE ELEMENT TYPE!!!");
static_assert(!(std::is_reference_v<el_t> || std::is_const_v<el_t>), "INVALID RANGE ELEMENT TYPE!!!");
MccDeserializer<el_t> dsr;
return deserializingRange<el_t>(dsr, input, value);
return deserializingRange<el_t>(dsr, input, value, params);
} else if constexpr (traits::mcc_time_duration_c<VT>) {
typename VT::rep vd;
MccDeserializer<typename VT::rep> dsr;
auto err = dsr(trimSpaces(input), vd);
auto err = dsr(utils::trimSpaces(input), vd, params);
if (err) {
return mcc_deduced_err(err, MccDeserializerErrorCode::ERROR_UNDERLYING_DESERIALIZER);
}
@@ -254,72 +222,147 @@ public:
};
/* SPECIALIZATION FOR THE SOME CONCEPTS */
template <mcc_coord_epoch_c VT>
struct MccDeserializer<VT> : MccDeserializerBase {
static constexpr std::string_view deserializerName{"MCC-COORD-EPOCH-DESERIALIZER"};
template <mcc_serialization_params_c ParamsT = mcc_serialization_params_t>
error_t operator()(traits::mcc_input_char_range auto const& input,
VT& value,
ParamsT const& params = mcc_serialization_params_t{})
{
bool ok = value.fromCharRange(input);
if (!ok) {
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
return MccDeserializerErrorCode::ERROR_OK;
}
};
template <typename VT>
requires(mcc_coord_epoch_c<VT> || (std::ranges::output_range<VT, std::ranges::range_value_t<VT>> &&
mcc_coord_epoch_c<std::remove_cv_t<std::ranges::range_value_t<VT>>>))
class MccDeserializer<VT> : public details::MccDeserializerBase
{
public:
using typename details::MccDeserializerBase::error_t;
requires(!std::is_arithmetic_v<VT> && mcc_angle_c<VT>)
struct MccDeserializer<VT> : MccDeserializerBase {
static constexpr std::string_view deserializerName{"MCC-ANGLE-DESERIALIZER"};
virtual ~MccDeserializer() = default;
error_t operator()(traits::mcc_input_char_range auto const& input, VT& value)
template <mcc_serialization_params_c ParamsT = mcc_serialization_params_t>
error_t operator()(traits::mcc_input_char_range auto const& input,
VT& value,
ParamsT const& params = mcc_serialization_params_t{})
{
if constexpr (mcc_coord_epoch_c<VT>) { // scalar
bool ok = value.fromCharRange(input);
bool hms = params.angle_format == MccSerializedAngleFormat::MCC_SERIALIZED_FORMAT_SXGM_HOURS;
auto res = utils::parsAngleString(input, hms);
if (res) { // returned angle is in degrees!!!
value = res.value() * MCC_DEGRESS_TO_RADS;
} else {
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
return MccDeserializerErrorCode::ERROR_OK;
}
};
template <mcc_skypoint_c VT>
struct MccDeserializer<VT> : MccDeserializerBase {
static constexpr std::string_view deserializerName{"MCC-SKYPOINT-DESERIALIZER"};
template <mcc_serialization_params_c ParamsT = mcc_serialization_params_t>
error_t operator()(traits::mcc_input_char_range auto const& input,
VT& value,
ParamsT const& params = mcc_serialization_params_t{})
{
auto pars = params;
// valid format: X<elem-delim>Y[<elem-delim>TIME-POINT<elem-delim>PAIR-KIND]
// X<elem-delim>Y (assumed RADEC_ICRS and J2000.0 epoch)
bool empty;
auto elems = MccDeserializerBase::splitValueIntoElements(input, params, empty);
if (empty || (elems.size() < 2) || (elems.size() == 3)) {
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
MccCoordPairKind pair_kind{MccCoordPairKind::COORDS_KIND_RADEC_ICRS};
MccCelestialCoordEpoch epoch; // J2000.0
MccAngle x, y;
MccDeserializer<MccAngle> dsr_ang;
typename MccDeserializer<MccAngle>::error_t dsr_err;
if (elems.size() > 3) { // full format
// deserialize pair kind string
pair_kind = MccCoordStrToPairKind(elems[3]);
if (pair_kind == MccCoordPairKind::COORDS_KIND_UNKNOWN) {
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
// epoch
bool ok = epoch.fromCharRange(elems[2]);
if (!ok) {
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
} else { // range
using value_t = std::remove_cv_t<std::ranges::range_value_t<VT>>;
MccDeserializer<value_t> dsr;
return deserializingRange(dsr, input, value);
}
}
};
template <typename VT>
requires(!std::is_arithmetic_v<VT> &&
(mcc_angle_c<VT> || (std::ranges::output_range<VT, std::ranges::range_value_t<VT>> &&
mcc_angle_c<std::remove_cv_t<std::ranges::range_value_t<VT>>>)))
class MccDeserializer<VT> : public details::MccDeserializerBase
{
public:
using typename details::MccDeserializerBase::error_t;
// deserialize X and Y
if (params.coordpair_format == MccSerializedCoordPairFormat::MCC_SERIALIZED_FORMAT_SXGM_HOURDEG) {
pars.angle_format = MccSerializedAngleFormat::MCC_SERIALIZED_FORMAT_SXGM_HOURS;
} else {
pars.angle_format = MccSerializedAngleFormat::MCC_SERIALIZED_FORMAT_SXGM_DEGS;
}
virtual ~MccDeserializer() = default;
dsr_err = dsr_ang(elems[0], x, pars);
if (dsr_err) {
return mcc_deduced_err(dsr_err, MccDeserializerErrorCode::ERROR_UNDERLYING_DESERIALIZER);
}
// if hms == true and the input sequence is a sexagesimal string then it interpretates angle as hours:mins:secs
// otherwise the input sequence is interpretated as decimal or sexagesimal degrees
error_t operator()(traits::mcc_input_char_range auto const& input, VT& value, bool hms = false)
{
if constexpr (mcc_angle_c<VT>) { // scalar
auto res = utils::parsAngleString(input, hms);
if (res) {
value = res.value();
} else {
pars.angle_format = MccSerializedAngleFormat::MCC_SERIALIZED_FORMAT_SXGM_DEGS;
dsr_err = dsr_ang(elems[1], y, pars);
if (dsr_err) {
return mcc_deduced_err(dsr_err, MccDeserializerErrorCode::ERROR_UNDERLYING_DESERIALIZER);
}
switch (pair_kind) {
case MccCoordPairKind::COORDS_KIND_RADEC_ICRS:
value.from(MccSkyRADEC_ICRS{(double)x, (double)y});
break;
case MccCoordPairKind::COORDS_KIND_RADEC_OBS:
value.from(MccSkyRADEC_OBS{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_RADEC_APP:
value.from(MccSkyRADEC_APP{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_HADEC_OBS:
value.from(MccSkyHADEC_OBS{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_HADEC_APP:
value.from(MccSkyHADEC_APP{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_AZZD:
value.from(MccSkyAZZD{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_AZALT:
value.from(MccSkyAZALT{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_XY:
value.from(MccGenXY{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_GENERIC:
value.from(MccCoordPair{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_LONLAT:
value.from(MccGeoLONLAT{(double)x, (double)y});
break;
default:
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
} else { // range
using value_t = std::remove_cv_t<std::ranges::range_value_t<VT>>;
MccDeserializer<value_t> dsr;
if constexpr (std::invocable<MccDeserializer<value_t>, decltype(input), VT&, bool>) {
// it is assumed here, the angle deserializer has the same behavior as the one implemented above
// (that is, it can interpret the third argument as a flag "false/true = only
// degrees/hour-like")
return deserializingRange<value_t>(dsr, input, value, hms);
} else {
return deserializingRange<value_t>(dsr, input, value);
}
}
return MccDeserializerErrorCode::ERROR_OK;
@@ -327,119 +370,82 @@ public:
};
template <typename VT>
requires(mcc_skypoint_c<VT> || (std::ranges::output_range<VT, std::ranges::range_value_t<VT>> &&
mcc_skypoint_c<std::remove_cv_t<std::ranges::range_value_t<VT>>>))
class MccDeserializer<VT> : public details::MccDeserializerBase
{
public:
using typename details::MccDeserializerBase::error_t;
template <>
struct MccDeserializer<MccCoordPairKind> : MccDeserializerBase {
static constexpr std::string_view deserializerName{"MCC-COORDPAIR-DESERIALIZER"};
virtual ~MccDeserializer() = default;
error_t operator()(traits::mcc_input_char_range auto const& input, VT& value)
template <mcc_serialization_params_c ParamsT = mcc_serialization_params_t>
error_t operator ()(
traits::mcc_input_char_range auto const& input,
MccCoordPairKind& value,
ParamsT const& params = mcc_serialization_params_t{})
{
if constexpr (mcc_skypoint_c<VT>) { // scalar: X[elem-delim]Y{[elem-delim]TIME-POINT[elem-delim]PAIR-KIND}
bool empty; // exactly 2 or >3 elements
auto elems = splitAggregateValue(input, empty);
value = MccCoordStrToPairKind(input);
if (empty || (elems.size() < 2) || (elems.size() == 3)) {
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
MccCoordPairKind pair_kind{MccCoordPairKind::COORDS_KIND_RADEC_ICRS};
MccCelestialCoordEpoch epoch; // J2000.0
MccAngle x, y;
MccDeserializer<MccAngle> dsr_ang;
typename MccDeserializer<MccAngle>::error_t dsr_err;
if (elems.size() >= 4) { // X, Y, TIME-POINT, PAIR-KIND
// first, get pair-kind
pair_kind = MccCoordStrToPairKind(elems[3]);
if (pair_kind == MccCoordPairKind::COORDS_KIND_UNKNOWN) {
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
// epoch
bool ok = epoch.fromCharRange(elems[2]);
if (!ok) {
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
}
if (elems.size() >= 2) { // if == 2: just X and Y (if so it is interpretated as RADEC_ICRS)
if (MccCoordinatePairToSxgmRep(pair_kind) == MccCoordinatePairRep::MCC_COORDPAIR_REP_SXGM_HOURDEG) {
// if input X-angle is in sexagesimal from then interpretate it in hours::mins::secs format
if constexpr (std::invocable<MccDeserializer<MccAngle>, decltype(elems[0]), MccAngle&, bool>) {
// it is assumed here, the angle deserializer has the same behavior as the one implemented above
// (that is, it can interpret the third argument as a flag "false/true = only
// degrees/hour-like")
dsr_err = dsr_ang(elems[0], x, true);
} else {
dsr_err = dsr_ang(elems[0], x);
}
} else {
dsr_err = dsr_ang(elems[0], x);
}
if (dsr_err) {
return mcc_deduced_err(dsr_err, MccDeserializerErrorCode::ERROR_UNDERLYING_DESERIALIZER);
}
dsr_err = dsr_ang(elems[1], y);
if (dsr_err) {
return mcc_deduced_err(dsr_err, MccDeserializerErrorCode::ERROR_UNDERLYING_DESERIALIZER);
}
}
switch (pair_kind) {
case MccCoordPairKind::COORDS_KIND_RADEC_ICRS:
value.from(MccSkyRADEC_ICRS{(double)x, (double)y});
break;
case MccCoordPairKind::COORDS_KIND_RADEC_OBS:
value.from(MccSkyRADEC_OBS{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_RADEC_APP:
value.from(MccSkyRADEC_APP{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_HADEC_OBS:
value.from(MccSkyHADEC_OBS{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_HADEC_APP:
value.from(MccSkyHADEC_APP{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_AZZD:
value.from(MccSkyAZZD{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_AZALT:
value.from(MccSkyAZALT{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_XY:
value.from(MccGenXY{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_GENERIC:
value.from(MccCoordPair{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_LONLAT:
value.from(MccGeoLONLAT{(double)x, (double)y});
break;
default:
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
} else { // range
using value_t = std::remove_cv_t<std::ranges::range_value_t<VT>>;
MccDeserializer<value_t> dsr;
return deserializingRange<value_t>(dsr, input, value);
if (value == MccCoordPairKind::COORDS_KIND_UNKNOWN) {
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
return MccDeserializerErrorCode::ERROR_OK;
}
};
template <>
struct MccDeserializer<MccSerializedAngleFormatPrec> : MccDeserializerBase {
static constexpr std::string_view deserializerName{"MCC-ANGLE-FORMAT-PREC-DESERIALIZER"};
template <mcc_serialization_params_c ParamsT = mcc_serialization_params_t>
error_t operator ()(
traits::mcc_input_char_range auto const& input,
MccSerializedAngleFormatPrec& value,
ParamsT const& params = mcc_serialization_params_t{})
{
// valid format: hour_prec[<params.elem_delim>deg_prec<params.elem_delim>decimals]
std::vector<uint8_t> v;
auto err = MccDeserializer<decltype(v)>{}(input, v);
if (err) {
return MccDeserializerErrorCode::ERROR_UNDERLYING_DESERIALIZER;
}
if (v.size() > 0) {
value.hour_prec = v[0];
}
if (v.size() > 1) {
value.deg_prec = v[1];
}
if (v.size() > 2) {
value.decimals = v[2];
}
return MccDeserializerErrorCode::ERROR_OK;
}
};
template <>
struct MccDeserializer<MccSerializedCoordPairFormat> : MccDeserializerBase {
static constexpr std::string_view deserializerName{"MCC-COORDPAIR-FORMAT-DESERIALIZER"};
template <mcc_serialization_params_c ParamsT = mcc_serialization_params_t>
error_t operator ()(
traits::mcc_input_char_range auto const& input,
MccSerializedCoordPairFormat& value,
ParamsT const& params = mcc_serialization_params_t{})
{
value = MccSerializedCoordPairFormatStrToValue(input);
if (value != MccSerializedCoordPairFormat::MCC_SERIALIZED_FORMAT_UNKNOWN) {
return MccDeserializerErrorCode::ERROR_OK;
} else {
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
}
};
} // namespace mcc::impl

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@@ -0,0 +1,445 @@
#pragma once
/****************************************************************************************
* *
* MOUNT CONTROL COMPONENTS LIBRARY *
* *
* *
* IMPLEMENTATION OF DESERIALIZER CLASSES *
* *
****************************************************************************************/
#include <algorithm>
#include <atomic>
#include <string_view>
#include "mcc_concepts.h"
#include "mcc_coordinate.h"
#include "mcc_epoch.h"
#include "mcc_error.h"
namespace mcc::impl
{
enum class MccDeserializerErrorCode : int {
ERROR_OK,
ERROR_UNDERLYING_DESERIALIZER,
ERROR_INVALID_SERIALIZED_VALUE,
ERROR_COORD_TRANSFORM
};
} // namespace mcc::impl
namespace std
{
template <>
class is_error_code_enum<mcc::impl::MccDeserializerErrorCode> : public true_type
{
};
} // namespace std
namespace mcc::impl
{
// error category
struct MccDeserializerCategory : public std::error_category {
MccDeserializerCategory() : std::error_category() {}
const char* name() const noexcept
{
return "MCC-DESERIALIZER-ERR-CATEGORY";
}
std::string message(int ec) const
{
MccDeserializerErrorCode err = static_cast<MccDeserializerErrorCode>(ec);
switch (err) {
case MccDeserializerErrorCode::ERROR_OK:
return "OK";
case MccDeserializerErrorCode::ERROR_UNDERLYING_DESERIALIZER:
return "error returned by underlying deserializer";
case MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE:
return "invalid serialized value";
case MccDeserializerErrorCode::ERROR_COORD_TRANSFORM:
return "coordinates transformation error";
default:
return "UNKNOWN";
}
}
static const MccDeserializerCategory& get()
{
static const MccDeserializerCategory constInst;
return constInst;
}
};
inline std::error_code make_error_code(MccDeserializerErrorCode ec)
{
return std::error_code(static_cast<int>(ec), MccDeserializerCategory::get());
}
template <mcc_error_c RetT>
struct mcc_deserializer_interface_t {
virtual ~mcc_deserializer_interface_t() = default;
typedef RetT error_t;
template <std::derived_from<mcc_deserializer_interface_t> SelfT,
traits::mcc_input_char_range R,
typename ValueT,
typename... DeserParamsT>
RetT operator()(this SelfT&& self, R const& input, ValueT& value, DeserParamsT&&... params)
{
return std::forward<SelfT>(self)(input, value);
}
protected:
mcc_deserializer_interface_t() = default;
};
template <typename T>
concept mcc_deserializer_c = std::derived_from<T, mcc_deserializer_interface_t<typename T::error_t>>;
namespace details
{
struct MccDeserializerBase : mcc_deserializer_interface_t<impl::MccError>, utils::mcc_elem_sequence_with_delim_t {
using typename mcc_deserializer_interface_t<impl::MccError>::error_t;
virtual ~MccDeserializerBase() = default;
protected:
MccDeserializerBase() = default;
//
// empty == true, if the 'input' is empty or if all elements consist of only spaces
//
std::vector<std::string_view> splitAggregateValue(traits::mcc_input_char_range auto const& input, bool& empty) const
{
std::vector<std::string_view> res;
if (std::ranges::size(input)) {
empty = true;
std::ranges::for_each(std::views::split(input, this->_elementDelimiter), [&res, &empty](auto const& el) {
std::back_inserter(res) = utils::trimSpaces(std::string_view{el.begin(), el.end()});
if (empty && res.back().size()) {
empty = false;
}
});
} else {
empty = true;
}
return res;
}
template <typename VT, std::ranges::output_range<VT> R, typename... DeserParamsT>
error_t deserializingRange(mcc_deserializer_c auto& dsr,
traits::mcc_input_char_range auto const& input,
R& r,
DeserParamsT&&... params) const
{
if (std::ranges::size(input) == 0) { // ignore an empty input, just return empty range?!!
r = R{};
return MccDeserializerErrorCode::ERROR_OK;
}
auto r_str = std::views::split(input, _seqDelimiter);
VT val;
auto it = r.begin();
for (auto const& el : r_str) {
auto err = dsr(el, val, std::forward<DeserParamsT>(params)...);
if (err) {
return mcc_deduced_err(err, MccDeserializerErrorCode::ERROR_UNDERLYING_DESERIALIZER);
}
if (it == r.end()) {
std::back_inserter(r) = val;
it = r.end();
} else {
*it = val;
++it;
}
}
return MccDeserializerErrorCode::ERROR_OK;
}
};
} // namespace details
/* fallback template: basic deserializer */
template <typename VT>
class MccDeserializer : public details::MccDeserializerBase
{
public:
using typename details::MccDeserializerBase::error_t;
virtual ~MccDeserializer() = default;
error_t operator()(traits::mcc_input_char_range auto const& input, VT& value)
{
if constexpr (std::is_arithmetic_v<VT>) {
auto v = mcc::utils::numFromStr<VT>(utils::trimSpaces(input));
if (!v.has_value()) {
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
value = v.value();
} else if constexpr (mcc::traits::mcc_output_char_range<VT>) {
VT r;
if constexpr (traits::mcc_array_c<VT>) {
size_t N =
std::ranges::size(r) <= std::ranges::size(input) ? std::ranges::size(r) : std::ranges::size(input);
for (size_t i = 0; i < N; ++i) {
r[i] = input[i];
}
if (std::ranges::size(r) > N) {
for (size_t i = N; i < std::ranges::size(r); ++i) {
r[i] = '\0';
}
}
} else {
std::ranges::copy(input, std::back_inserter(r));
}
value = r;
} else if constexpr (std::ranges::range<VT>) {
using el_t = std::ranges::range_value_t<VT>;
static_assert(std::ranges::output_range<VT, el_t>, "INVALID RANGE TYPE!!!");
// no reference or constants allowed
static_assert(std::is_reference_v<el_t> || std::is_const_v<el_t>, "INVALID RANGE ELEMENT TYPE!!!");
MccDeserializer<el_t> dsr;
return deserializingRange<el_t>(dsr, input, value);
} else if constexpr (traits::mcc_time_duration_c<VT>) {
typename VT::rep vd;
MccDeserializer<typename VT::rep> dsr;
auto err = dsr(trimSpaces(input), vd);
if (err) {
return mcc_deduced_err(err, MccDeserializerErrorCode::ERROR_UNDERLYING_DESERIALIZER);
}
value = VT{vd};
} else {
static_assert(false, "UNSUPPORTED VALUE TYPE!!!");
}
return MccDeserializerErrorCode::ERROR_OK;
}
};
/* SPECIALIZATION FOR THE SOME CONCEPTS */
template <typename VT>
requires(mcc_coord_epoch_c<VT> || (std::ranges::output_range<VT, std::ranges::range_value_t<VT>> &&
mcc_coord_epoch_c<std::remove_cv_t<std::ranges::range_value_t<VT>>>))
class MccDeserializer<VT> : public details::MccDeserializerBase
{
public:
using typename details::MccDeserializerBase::error_t;
virtual ~MccDeserializer() = default;
error_t operator()(traits::mcc_input_char_range auto const& input, VT& value)
{
if constexpr (mcc_coord_epoch_c<VT>) { // scalar
bool ok = value.fromCharRange(input);
if (!ok) {
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
} else { // range
using value_t = std::remove_cv_t<std::ranges::range_value_t<VT>>;
MccDeserializer<value_t> dsr;
return deserializingRange(dsr, input, value);
}
}
};
template <typename VT>
requires(!std::is_arithmetic_v<VT> &&
(mcc_angle_c<VT> || (std::ranges::output_range<VT, std::ranges::range_value_t<VT>> &&
mcc_angle_c<std::remove_cv_t<std::ranges::range_value_t<VT>>>)))
class MccDeserializer<VT> : public details::MccDeserializerBase
{
public:
using typename details::MccDeserializerBase::error_t;
virtual ~MccDeserializer() = default;
// if hms == true and the input sequence is a sexagesimal string then it interpretates angle as hours:mins:secs
// otherwise the input sequence is interpretated as decimal or sexagesimal degrees
error_t operator()(traits::mcc_input_char_range auto const& input, VT& value, bool hms = false)
{
if constexpr (mcc_angle_c<VT>) { // scalar
auto res = utils::parsAngleString(input, hms);
if (res) { // returned angle is in degrees!!!
value = res.value() * MCC_DEGRESS_TO_RADS;
} else {
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
} else { // range
using value_t = std::remove_cv_t<std::ranges::range_value_t<VT>>;
MccDeserializer<value_t> dsr;
if constexpr (std::invocable<MccDeserializer<value_t>, decltype(input), VT&, bool>) {
// it is assumed here, the angle deserializer has the same behavior as the one implemented above
// (that is, it can interpret the third argument as a flag "false/true = only
// degrees/hour-like")
return deserializingRange<value_t>(dsr, input, value, hms);
} else {
return deserializingRange<value_t>(dsr, input, value);
}
}
return MccDeserializerErrorCode::ERROR_OK;
}
};
template <typename VT>
requires(mcc_skypoint_c<VT> || (std::ranges::output_range<VT, std::ranges::range_value_t<VT>> &&
mcc_skypoint_c<std::remove_cv_t<std::ranges::range_value_t<VT>>>))
class MccDeserializer<VT> : public details::MccDeserializerBase
{
public:
using typename details::MccDeserializerBase::error_t;
virtual ~MccDeserializer() = default;
error_t operator()(traits::mcc_input_char_range auto const& input, VT& value)
{
if constexpr (mcc_skypoint_c<VT>) { // scalar: X[elem-delim]Y{[elem-delim]TIME-POINT[elem-delim]PAIR-KIND}
bool empty; // exactly 2 or >3 elements
auto elems = splitAggregateValue(input, empty);
if (empty || (elems.size() < 2) || (elems.size() == 3)) {
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
MccCoordPairKind pair_kind{MccCoordPairKind::COORDS_KIND_RADEC_ICRS};
MccCelestialCoordEpoch epoch; // J2000.0
MccAngle x, y;
MccDeserializer<MccAngle> dsr_ang;
typename MccDeserializer<MccAngle>::error_t dsr_err;
if (elems.size() >= 4) { // X, Y, TIME-POINT, PAIR-KIND
// first, get pair-kind
pair_kind = MccCoordStrToPairKind(elems[3]);
if (pair_kind == MccCoordPairKind::COORDS_KIND_UNKNOWN) {
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
// epoch
bool ok = epoch.fromCharRange(elems[2]);
if (!ok) {
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
}
if (elems.size() >= 2) { // if == 2: just X and Y (if so it is interpretated as RADEC_ICRS)
if (MccCoordinatePairToSxgmRep(pair_kind) == MccCoordinatePairRep::MCC_COORDPAIR_REP_SXGM_HOURDEG) {
// if input X-angle is in sexagesimal from then interpretate it in hours::mins::secs format
if constexpr (std::invocable<MccDeserializer<MccAngle>, decltype(elems[0]), MccAngle&, bool>) {
// it is assumed here, the angle deserializer has the same behavior as the one implemented above
// (that is, it can interpret the third argument as a flag "false/true = only
// degrees/hour-like")
dsr_err = dsr_ang(elems[0], x, true);
} else {
dsr_err = dsr_ang(elems[0], x);
}
} else {
dsr_err = dsr_ang(elems[0], x);
}
if (dsr_err) {
return mcc_deduced_err(dsr_err, MccDeserializerErrorCode::ERROR_UNDERLYING_DESERIALIZER);
}
dsr_err = dsr_ang(elems[1], y);
if (dsr_err) {
return mcc_deduced_err(dsr_err, MccDeserializerErrorCode::ERROR_UNDERLYING_DESERIALIZER);
}
}
switch (pair_kind) {
case MccCoordPairKind::COORDS_KIND_RADEC_ICRS:
value.from(MccSkyRADEC_ICRS{(double)x, (double)y});
break;
case MccCoordPairKind::COORDS_KIND_RADEC_OBS:
value.from(MccSkyRADEC_OBS{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_RADEC_APP:
value.from(MccSkyRADEC_APP{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_HADEC_OBS:
value.from(MccSkyHADEC_OBS{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_HADEC_APP:
value.from(MccSkyHADEC_APP{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_AZZD:
value.from(MccSkyAZZD{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_AZALT:
value.from(MccSkyAZALT{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_XY:
value.from(MccGenXY{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_GENERIC:
value.from(MccCoordPair{(double)x, (double)y, epoch});
break;
case MccCoordPairKind::COORDS_KIND_LONLAT:
value.from(MccGeoLONLAT{(double)x, (double)y});
break;
default:
return MccDeserializerErrorCode::ERROR_INVALID_SERIALIZED_VALUE;
}
} else { // range
using value_t = std::remove_cv_t<std::ranges::range_value_t<VT>>;
MccDeserializer<value_t> dsr;
return deserializingRange<value_t>(dsr, input, value);
}
return MccDeserializerErrorCode::ERROR_OK;
}
};
} // namespace mcc::impl

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#pragma once
/* MOUNT CONTROL COMPONENTS LIBRARY */
/* NETWORK SERVER ENDPOINT CLASS IMPLEMENTATION */
#include <algorithm>
#include <array>
#include <charconv>
#include <cstdint>
#include <filesystem>
#include <ranges>
#include <string_view>
#include "mcc_traits.h"
namespace mcc::network
{
namespace utils
{
static constexpr bool mcc_char_range_compare(const traits::mcc_char_view auto& what,
const traits::mcc_char_view auto& where,
bool case_insensitive = false)
{
if (std::ranges::size(what) == std::ranges::size(where)) {
if (case_insensitive) {
auto f = std::ranges::search(where,
std::views::transform(what, [](const char& ch) { return std::tolower(ch); }));
return !f.empty();
} else {
auto f = std::ranges::search(where, what);
return !f.empty();
}
}
return false;
}
} // namespace utils
/*
* Very simple various protocols endpoint parser and holder class
*
* endpoint: proto_mark://host_name:port_num/path
* where "path" is optional for all non-local protocol kinds;
*
* for local kind of protocols the endpoint must be given as:
* local://stream/PATH
* local://seqpacket/PATH
* local://serial/PATH
* where 'stream' and 'seqpacket' "host_name"-field marks the
* stream-type and seqpacket-type UNIX domain sockets protocols;
* 'serial' marks a serial (RS232/485) protocol.
* here, possible "port_num" field is allowed but ignored.
*
* NOTE: "proto_mark" and "host_name" (for local kind) fields are parsed in case-insensitive manner!
*
* EXAMPLES: tcp://192.168.70.130:3131
* local://serial/dev/ttyS1
* local://seqpacket/tmp/BM70_SERVER_SOCK
*
*
*/
class MccNetServerEndpoint
{
public:
static constexpr std::string_view protoHostDelim = "://";
static constexpr std::string_view hostPortDelim = ":";
static constexpr std::string_view portPathDelim = "/";
enum proto_id_t : uint8_t {
PROTO_ID_LOCAL,
PROTO_ID_SEQLOCAL,
PROTO_ID_SERLOCAL,
PROTO_ID_TCP,
PROTO_ID_TLS,
PROTO_ID_UNKNOWN
};
static constexpr std::string_view protoMarkLocal{"local"}; // UNIX domain
static constexpr std::string_view protoMarkTCP{"tcp"}; // TCP
static constexpr std::string_view protoMarkTLS{"tls"}; // TLS
static constexpr std::array validProtoMarks{protoMarkLocal, protoMarkTCP, protoMarkTLS};
static constexpr std::string_view localProtoTypeStream{"stream"}; // UNIX domain stream
static constexpr std::string_view localProtoTypeSeqpacket{"seqpacket"}; // UNIX domain seqpacket
static constexpr std::string_view localProtoTypeSerial{"serial"}; // serial (RS232/485)
static constexpr std::array validLocalProtoTypes{localProtoTypeStream, localProtoTypeSeqpacket,
localProtoTypeSerial};
template <traits::mcc_input_char_range R>
MccNetServerEndpoint(const R& ept)
{
fromRange(ept);
}
MccNetServerEndpoint(const MccNetServerEndpoint& other)
{
copyInst(other);
}
MccNetServerEndpoint(MccNetServerEndpoint&& other)
{
moveInst(std::move(other));
}
virtual ~MccNetServerEndpoint() = default;
MccNetServerEndpoint& operator=(const MccNetServerEndpoint& other)
{
copyInst(other);
return *this;
}
MccNetServerEndpoint& operator=(MccNetServerEndpoint&& other)
{
moveInst(std::move(other));
return *this;
}
template <traits::mcc_input_char_range R>
requires std::ranges::contiguous_range<R>
bool fromRange(const R& ept)
{
_isValid = false;
// at least 'ws://a' (proto, proto-host delimiter and at least a single character of hostname)
if (std::ranges::size(ept) < 6) {
return _isValid;
}
if constexpr (std::is_array_v<std::remove_cvref_t<R>>) {
_endpoint = ept;
} else {
_endpoint.clear();
std::ranges::copy(ept, std::back_inserter(_endpoint));
}
auto found = std::ranges::search(_endpoint, protoHostDelim);
if (found.empty()) {
return _isValid;
}
ssize_t idx;
if ((idx = checkProtoMark(std::string_view{_endpoint.begin(), found.begin()})) < 0) {
return _isValid;
}
_proto = validProtoMarks[idx];
_host = std::string_view{found.end(), _endpoint.end()};
auto f1 = std::ranges::search(_host, portPathDelim);
// std::string_view port_sv;
if (f1.empty() && isLocal()) { // no path, but it is mandatory for 'local'!
return _isValid;
} else {
_host = std::string_view(_host.begin(), f1.begin());
_path = std::string_view(f1.end(), &*_endpoint.end());
f1 = std::ranges::search(_host, hostPortDelim);
if (f1.empty() && !isLocal()) { // no port, but it is mandatory for non-local!
return _isValid;
}
_portView = std::string_view(f1.end(), _host.end());
if (_portView.size()) {
_host = std::string_view(_host.begin(), f1.begin());
if (!isLocal()) {
// convert port string to int
auto end_ptr = _portView.data() + _portView.size();
auto [ptr, ec] = std::from_chars(_portView.data(), end_ptr, _port);
if (ec != std::errc() || ptr != end_ptr) {
return _isValid;
}
} else { // ignore for local
_port = -1;
}
} else {
_port = -1;
}
if (isLocal()) { // check for special values
idx = 0;
if (std::ranges::any_of(validLocalProtoTypes, [&idx, this](const auto& el) {
bool ok = utils::mcc_char_range_compare(_host, el, true);
if (!ok) {
++idx;
}
return ok;
})) {
_host = validLocalProtoTypes[idx];
} else {
return _isValid;
}
}
}
_isValid = true;
return _isValid;
}
bool isValid() const
{
return _isValid;
}
auto endpoint() const
{
return _endpoint;
}
template <traits::mcc_view_or_output_char_range R>
R proto() const
{
return part<R>(PROTO_PART);
}
std::string_view proto() const
{
return proto<std::string_view>();
}
template <traits::mcc_view_or_output_char_range R>
R host() const
{
return part<R>(HOST_PART);
}
std::string_view host() const
{
return host<std::string_view>();
}
int port() const
{
return _port;
}
template <traits::mcc_view_or_output_char_range R>
R portView() const
{
return part<R>(PORT_PART);
}
std::string_view portView() const
{
return portView<std::string_view>();
}
template <traits::mcc_output_char_range R, traits::mcc_input_char_range RR = std::string_view>
R path(RR&& root_path) const
{
if (_path.empty()) {
if constexpr (traits::mcc_output_char_range<R>) {
R res;
std::ranges::copy(std::forward<RR>(root_path), std::back_inserter(res));
return res;
} else { // can't add root path!!!
return part<R>(PATH_PART);
}
}
auto N = std::ranges::distance(root_path.begin(), root_path.end());
if (N) {
R res;
std::filesystem::path pt(root_path.begin(), root_path.end());
if (isLocal() && _path[0] == '\0') {
std::ranges::copy(std::string_view(" "), std::back_inserter(res));
pt /= _path.substr(1);
std::ranges::copy(pt.string(), std::back_inserter(res));
*res.begin() = '\0';
} else {
pt /= _path;
std::ranges::copy(pt.string(), std::back_inserter(res));
}
return res;
} else {
return part<R>(PATH_PART);
}
}
template <traits::mcc_input_char_range RR = std::string_view>
std::string path(RR&& root_path) const
{
return path<std::string, RR>(std::forward<RR>(root_path));
}
template <traits::mcc_view_or_output_char_range R>
R path() const
{
return part<R>(PATH_PART);
}
std::string_view path() const
{
return path<std::string_view>();
}
bool isLocal() const
{
return proto() == protoMarkLocal;
}
bool isLocalStream() const
{
return host() == localProtoTypeStream;
}
bool isLocalSerial() const
{
return host() == localProtoTypeSerial;
}
bool isLocalSeqpacket() const
{
return host() == localProtoTypeSeqpacket;
}
bool isTCP() const
{
return proto() == protoMarkTCP;
}
bool isTLS() const
{
return proto() == protoMarkTLS;
}
// add '\0' char (or replace special-meaning char/char-sequence) to construct UNIX abstract namespace
// endpoint path
template <typename T = std::nullptr_t>
MccNetServerEndpoint& makeAbstract(const T& mark = nullptr)
requires(traits::mcc_input_char_range<T> || std::same_as<std::remove_cv_t<T>, char> ||
std::is_null_pointer_v<std::remove_cv_t<T>>)
{
if (!(isLocalStream() || isLocalSeqpacket())) { // only local proto is valid!
return *this;
}
if constexpr (std::is_null_pointer_v<T>) { // just insert '\0'
auto it = _endpoint.insert(std::string::const_iterator(_path.begin()), '\0');
_path = std::string_view(it, _endpoint.end());
} else if constexpr (std::same_as<std::remove_cv_t<T>, char>) { // replace a character (mark)
auto pos = std::distance(_endpoint.cbegin(), std::string::const_iterator(_path.begin()));
if (_endpoint[pos] == mark) {
_endpoint[pos] = '\0';
}
} else { // replace a character range (mark)
if (std::ranges::equal(_path | std::views::take(std::ranges::size(mark), mark))) {
auto pos = std::distance(_endpoint.cbegin(), std::string::const_iterator(_path.begin()));
_endpoint.replace(pos, std::ranges::size(mark), 1, '\0');
_path = std::string_view(_endpoint.begin() + pos, _endpoint.end());
}
}
return *this;
}
protected:
std::string _endpoint;
std::string_view _proto, _host, _path, _portView;
int _port;
bool _isValid;
virtual ssize_t checkProtoMark(std::string_view proto_mark)
{
ssize_t idx = 0;
// case-insensitive look-up
bool found = std::ranges::any_of(MccNetServerEndpoint::validProtoMarks, [&idx, &proto_mark](const auto& el) {
bool ok = utils::mcc_char_range_compare(proto_mark, el, true);
if (!ok) {
++idx;
}
return ok;
});
return found ? idx : -1;
}
enum EndpointPart { PROTO_PART, HOST_PART, PATH_PART, PORT_PART };
template <traits::mcc_view_or_output_char_range R>
R part(EndpointPart what) const
{
R res;
// if (!_isValid) {
// return res;
// }
auto part = _proto;
switch (what) {
case PROTO_PART:
part = _proto;
break;
case HOST_PART:
part = _host;
break;
case PATH_PART:
part = _path;
break;
case PORT_PART:
part = _portView;
break;
default:
break;
}
if constexpr (std::ranges::view<R>) {
return {part.begin(), part.end()};
} else {
std::ranges::copy(part, std::back_inserter(res));
}
return res;
}
void copyInst(const MccNetServerEndpoint& other)
{
if (&other != this) {
if (other._isValid) {
_isValid = other._isValid;
_endpoint = other._endpoint;
_proto = other._proto;
std::iterator_traits<const char*>::difference_type idx;
if (other.isLocal()) { // for 'local' host is one of static class constants
_host = other._host;
} else {
idx = std::distance(other._endpoint.c_str(), other._host.data());
_host = std::string_view(_endpoint.c_str() + idx, other._host.size());
}
idx = std::distance(other._endpoint.c_str(), other._path.data());
_path = std::string_view(_endpoint.c_str() + idx, other._path.size());
idx = std::distance(other._endpoint.c_str(), other._portView.data());
_portView = std::string_view(_endpoint.c_str() + idx, other._portView.size());
_port = other._port;
} else {
_isValid = false;
_endpoint = std::string();
_proto = std::string_view();
_host = std::string_view();
_path = std::string_view();
_portView = std::string_view();
_port = -1;
}
}
}
void moveInst(MccNetServerEndpoint&& other)
{
if (&other != this) {
if (other._isValid) {
_isValid = std::move(other._isValid);
_endpoint = std::move(other._endpoint);
_proto = other._proto;
_host = std::move(other._host);
_path = std::move(other._path);
_port = std::move(other._port);
_portView = std::move(other._portView);
} else {
_isValid = false;
_endpoint = std::string();
_proto = std::string_view();
_host = std::string_view();
_path = std::string_view();
_portView = std::string_view();
_port = -1;
}
}
}
};
} // namespace mcc::network

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mcc_netserver_proto.h Normal file
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#pragma once
/* MOUNT CONTROL COMPONENTS LIBRARY */
/* BASIC NETWORK PROTOCOL DEFINITIONS */
#include <algorithm>
#include <string_view>
#include "mcc_deserializer.h"
#include "mcc_serializer.h"
#include "mcc_utils.h"
namespace mcc::network
{
/*
* The network protocol is the ASCII-based, case-sensitive textual protocol.
* The "client-server" communication is performed through messages.
* The message is a minimal unit of this communication.
* The model of network communication is a simple "client-server" one, i.e.,
* client asks - server responds.
*
* network communication message format:
* <keyword>[[<key-param-delim>]<param1>[<param-param-delim>][<param2>]...]<stop-seq>
*
* where
* <keyword> - mandatory message keyword (one or more ASCII symbols)
* <key-param-delim>
*
* e.g.
* "TARGET 12:23:45.56 00:32:21.978\n"
*/
/* low-level network message format definitions */
static constexpr std::string_view MCC_COMMPROTO_STOP_SEQ = "\n";
static constexpr std::string_view MCC_COMMPROTO_KEYPARAM_DELIM_SEQ = " ";
static constexpr std::string_view MCC_COMMPROTO_PARAMPARAM_DELIM_SEQ = ";";
static constexpr std::string_view MCC_COMMPROTO_RANGEPARAM_DELIM_SEQ = ",";
/* server special keywords */
static constexpr std::string_view MCC_COMMPROTO_KEYWORD_SERVER_ACK_STR = "ACK"; // ACK
static constexpr std::string_view MCC_COMMPROTO_KEYWORD_SERVER_ERROR_STR = "ERROR"; // mount operational error
// pre-defined errors
static constexpr std::string_view MCC_COMMPROTO_SERVER_ERROR_INVKEY_STR = "INVKEY"; // invalid keyword
static constexpr std::string_view MCC_COMMPROTO_SERVER_ERROR_INVPAR_STR = "INVPAR"; // invalid parameter
/* server control keywords */
static constexpr std::string_view MCC_COMMPROTO_KEYWORD_RESTART_SERVER_STR = "RESTART"; // restart server
/* BELOW IS ONE OF THE PROTOCOL OPTIONS CORRESPONDING MCC_GENERIC_MOUNT_C CONCEPT */
/* keywords */
// NOTE: THE COORDINATES AND TIME-RELATED QUANTITIES CAN BE EXPRESSED IN THE TWO FORMATS:
// 1) fixed-point real number, e.g. 123.43987537359 or -0.09775
// 2) sexagesimal number, e.g. 10:43:43.12 or -123:54:12.435
//
// IN THE FIRST CASE ALL NUMBERS MUST BE INTERPRETATED AS DEGREES,
// IN THE SECOND CASE NUMBERS MUST BE INTERPRETATED ACCORDING TO ITS TYPE:
// ALL TIME-RELATED QUANTITIES AND RA/HA COORDINATES MUST BE EXPRESSED
// IN FORMAT 'HOURS:MINUTES:SECONDS', WHILE DEC/ALT/AZ/ZD COORDINATES MUST
// BE EXPRESSED AS '+/-DEGREES:ARCMINUTES:ARCSECONDS'
//
// USER-ENTERED (FROM NETWORK CLIENTS) COORDINATE PAIR CAN BE PROVIDED IN A MIXED FORM, I.E.,
// 12.34436658678 10:32:11.432 or
// 10:32:11.432 12.34436658678
//
// SERVER-RESPONDED COORDINATES ARE ALWAYS IN THE SAME FORMAT, SEXAGESIMAL OR FIXED-POINT
//
// format of output coordinates:
// "COORDFMT FMT-type\n"
// e.g.:
// "COORDFMT SGM\n"
// "COORDFMT\n"
//
// server must return "ACK" or "ERROR INVPAR" in the case of 'set'-operation and
// "ACK COORDFMT FMT-type" in the case of 'get'-operation
// e.g.:
// "COORDFMT FIX\n" -> "ACK\n"
// "COORDFMT SXT\n" -> "ERROR INVPAR\n" (invalid parameter of format type)
// "COORDFMT\n" -> "ACK COORDFMT FIX\n"
//
static constexpr std::string_view MCC_COMMPROTO_KEYWORD_COORDFMT_STR = "COORDFMT";
static constexpr std::string_view MCC_COMMPROTO_KEYWORD_COORDFMT_SEXGM_STR = "SGM"; // sexagesimal
static constexpr std::string_view MCC_COMMPROTO_KEYWORD_COORDFMT_FIXED_STR = "FIX"; // fixed point
// precision (number of decimal places) of returned coordinates:
// "COORDPREC seconds-prec arcseconds-prec\n"
// seconds-prec - precision of hour-based coordinates (RA and HA) or time-related quantities
// arcseconds-prec - precision of degree-based coordinates (DEC, AZ, ZD, ALT)
// precision must be given as non-negative integer number
// e.g.
// "COORDPREC 2,1\n" (output sexagesimal RA=12:34:56.67, DEC=32:54:21.9)
//
static constexpr std::string_view MCC_COMMPROTO_KEYWORD_COORDPREC_STR = "COORDPREC";
// set/get target coordinates
// "TARGET X-coord Y-coord XY-kind\n", if 'XY-kind' is omitted then one should assume RADEC_ICRS
// e.g.:
// "TARGET 12.7683487 10:23:09.75 AZZD\n"
// "TARGET HADEC\n"
// "TARGET\n"
//
// server must return "ACK" or "ERROR INVPAR" in the case of 'set'-operation and
// "ACK TARGET X-coord Y-coord XY-kind" in the case of 'get'-operation
// e.g.:
// "TARGET 12.7683487 10:23:09.75 AZZD\n" -> "ACK\n"
// "TARGET 12.7683487 10:23:09.75 AZZE\n" -> "ERROR INVPAR\n" (invalid parameter of coordinates pair kind)
//
// "TARGET HADEC\n" -> "ACK TARGET 20:21:56.32 -01:32:34.2 HADEC\n"
// "TARGET\n" -> "ACK TARGET 20:21:56.32 -01:32:34.2 RADEC_ICRS\n"
//
static constexpr std::string_view MCC_COMMPROTO_KEYWORD_TARGET_STR = "TARGET";
// get mount coordinates:
// "MOUNT coord-kind", if 'coord-kind' is omitted then coordinates are according to mount type,
// i.e., HADEC for equathorial-type mount and AZZD for alt-azimuthal one
// e.g.:
// "MOUNT RADEC\n" (get current apparent RA and DEC mount coordinates)
//
// server must return "ACK MOUNT X-coord Y-coord XY-kind" or "ERROR INVPAR"
// e.g.
// "MOUNT AZALT\n" -> "ACK MOUNT 1.2332325 54.23321312 AZALT\n"
// "MOUNT AZAL\n" -> "ERROR INVPAR\n" (invalid parameter of coordinates pair kind)
// "MOUNT\n" -> "ACK MOUNT 1.2332325 54.23321312 AZZD\n" for alt-azimuthal mount
// "MOUNT\n" -> "ACK MOUNT 1.2332325 54.23321312 HADEC\n" for equathorial mount
static constexpr std::string_view MCC_COMMPROTO_KEYWORD_MOUNT_STR = "MOUNT";
static constexpr std::string_view MCC_COMMPROTO_KEYWORD_TELEMETRY_STR = "TELEMETRY";
// init mount
// "INIT\n"
static constexpr std::string_view MCC_COMMPROTO_KEYWORD_INIT_STR = "INIT";
// stop any movements
// "STOP\n"
static constexpr std::string_view MCC_COMMPROTO_KEYWORD_STOP_STR = "STOP";
// slew mount and track target:
// "SLEW\n"
static constexpr std::string_view MCC_COMMPROTO_KEYWORD_SLEW_STR = "SLEW";
// slew mount and stop:
// "MOVE\n"
static constexpr std::string_view MCC_COMMPROTO_KEYWORD_MOVE_STR = "MOVE";
// track target
// "TRACK\n"
static constexpr std::string_view MCC_COMMPROTO_KEYWORD_TRACK_STR = "TRACK";
// get mount status
// "STATUS\n"
static constexpr std::string_view MCC_COMMPROTO_KEYWORD_STATUS_STR = "STATUS";
// valid keywords
static constexpr std::array MCC_COMMPROTO_VALID_KEYS = {
MCC_COMMPROTO_KEYWORD_SERVER_ACK_STR, MCC_COMMPROTO_KEYWORD_SERVER_ERROR_STR, MCC_COMMPROTO_KEYWORD_COORDFMT_STR,
MCC_COMMPROTO_KEYWORD_COORDPREC_STR, MCC_COMMPROTO_KEYWORD_TARGET_STR, MCC_COMMPROTO_KEYWORD_MOUNT_STR,
MCC_COMMPROTO_KEYWORD_TELEMETRY_STR, MCC_COMMPROTO_KEYWORD_INIT_STR, MCC_COMMPROTO_KEYWORD_STOP_STR,
MCC_COMMPROTO_KEYWORD_SLEW_STR, MCC_COMMPROTO_KEYWORD_MOVE_STR, MCC_COMMPROTO_KEYWORD_TRACK_STR,
MCC_COMMPROTO_KEYWORD_STATUS_STR};
// hashes of valid keywords
static constexpr std::array MCC_COMMPROTO_VALID_KEYS_HASH = []<size_t... Is>(std::index_sequence<Is...>) {
return std::array{mcc::utils::FNV1aHash(MCC_COMMPROTO_VALID_KEYS[Is])...};
}(std::make_index_sequence<MCC_COMMPROTO_VALID_KEYS.size()>());
template <typename T>
concept mcc_netmsg_valid_keys_c = requires(T t) {
// std::array of valid message keywords
[]<size_t N>(std::array<std::string_view, N>) {
// to ensure T::NETMSG_VALID_KEYWORDS can be used as compile-time constant
static constexpr auto v0 = T::NETMSG_VALID_KEYWORDS[0];
return v0;
}(T::NETMSG_VALID_KEYWORDS);
// std::array of valid message keywords hashes
[]<size_t N>(std::array<size_t, N>) {
// to ensure T::NETMSG_VALID_KEYWORD_HASHES can be used as compile-time constant
static constexpr auto v0 = T::NETMSG_VALID_KEYWORD_HASHES[0];
return v0;
}(T::NETMSG_VALID_KEYWORD_HASHES);
requires T::NETMSG_VALID_KEYWORDS.size() == T::NETMSG_VALID_KEYWORD_HASHES.size();
};
struct MccNetMessageValidKeywords {
static constexpr std::array NETMSG_VALID_KEYWORDS = {
MCC_COMMPROTO_KEYWORD_SERVER_ACK_STR, MCC_COMMPROTO_KEYWORD_SERVER_ERROR_STR,
MCC_COMMPROTO_KEYWORD_COORDFMT_STR, MCC_COMMPROTO_KEYWORD_COORDPREC_STR,
MCC_COMMPROTO_KEYWORD_TARGET_STR, MCC_COMMPROTO_KEYWORD_MOUNT_STR,
MCC_COMMPROTO_KEYWORD_TELEMETRY_STR, MCC_COMMPROTO_KEYWORD_INIT_STR,
MCC_COMMPROTO_KEYWORD_STOP_STR, MCC_COMMPROTO_KEYWORD_SLEW_STR,
MCC_COMMPROTO_KEYWORD_MOVE_STR, MCC_COMMPROTO_KEYWORD_TRACK_STR,
MCC_COMMPROTO_KEYWORD_STATUS_STR};
// hashes of valid keywords
static constexpr std::array NETMSG_VALID_KEYWORD_HASHES = []<size_t... Is>(std::index_sequence<Is...>) {
return std::array{mcc::utils::FNV1aHash(NETMSG_VALID_KEYWORDS[Is])...};
}(std::make_index_sequence<NETMSG_VALID_KEYWORDS.size()>());
constexpr static const size_t* isKeywordValid(std::string_view key)
{
const auto hash = mcc::utils::FNV1aHash(key);
for (auto const& h : NETMSG_VALID_KEYWORD_HASHES) {
if (h == hash) {
return &h;
}
}
return nullptr;
}
};
static_assert(mcc_netmsg_valid_keys_c<MccNetMessageValidKeywords>, "");
template <typename T>
concept mcc_netmessage_c = requires(T t) { T(); };
template <mcc::traits::mcc_char_range BYTEREPR_T = std::string_view,
mcc_netmsg_valid_keys_c BASE_T = MccNetMessageValidKeywords>
class MccNetMessage
{
protected:
// just a wrapper class to hold MccSerializer<T> specializations
struct DefaultSerializer {
template <traits::mcc_output_char_range OR, typename T>
auto operator()(OR& bytes, const T& value, mcc_serialization_params_c auto const& pars) const
{
return impl::MccSerializer<T>{}(bytes, value, pars);
}
};
public:
typedef BASE_T valid_keys_t;
typedef BYTEREPR_T byte_repr_t;
enum MccNetMessageError { ERROR_OK, ERROR_EMPTY_MESSAGE, ERROR_INVALID_KEYWORD, ERROR_EMPTY_KEYWORD };
MccNetMessage() = default;
template <traits::mcc_input_char_range KT, typename... PTs>
MccNetMessage(KT&& key, PTs&&... params)
requires traits::mcc_output_char_range<BYTEREPR_T>
{
construct(_defaultSerializer, std::forward<KT>(key), std::forward<PTs>(params)...);
}
template <traits::mcc_input_char_range R>
constexpr MccNetMessage(const R& msg)
requires traits::mcc_input_char_range<BYTEREPR_T>
{
fromCharRange(msg);
}
// constexpr MccNetMessage(const BYTEREPR_T& msg)
// requires traits::mcc_input_char_range<BYTEREPR_T>
// {
// fromCharRange(msg);
// }
virtual ~MccNetMessage() = default;
template <traits::mcc_input_char_range KT>
constexpr bool withKey(const KT& key) const
{
if constexpr (std::is_pointer_v<std::decay_t<KT>>) {
return withKey(std::string_view{key});
}
return mcc::utils::FNV1aHash(key) == _keywordHash;
}
template <traits::mcc_view_or_output_char_range R>
R keyword() const
{
if constexpr (traits::mcc_char_view<R>) {
return R{_keyword.begin(), _keyword.end()};
} else {
R r;
std::ranges::copy(_keyword, std::back_inserter(r));
return r;
}
}
std::string_view keyword() const
{
return _keyword;
}
size_t paramSize() const
{
return _params.size();
}
template <std::ranges::range R>
R params(size_t start_idx = 0, size_t Nelemes = std::numeric_limits<size_t>::max()) const
requires(traits::mcc_view_or_output_char_range<R> || traits::mcc_range_of_char_range<R>)
{
if (start_idx >= _params.size()) {
return R{};
}
auto stop_idx = start_idx + Nelemes - 1;
if (stop_idx >= _params.size()) {
stop_idx = _params.size() - 1;
}
if constexpr (traits::mcc_range_of_char_range<R>) { // returm parameters as array
using el_t = std::ranges::range_value_t<R>;
R r;
if constexpr (traits::mcc_char_view<el_t> || traits::mcc_output_char_range<el_t>) {
for (size_t i = start_idx; i <= stop_idx; ++i) {
auto& el = _params[i];
std::back_inserter(r) = el_t{el.begin(), el.end()};
}
} else {
static_assert(false, "UNSUPPORTED RANGE TYPE!!!");
}
return r;
} else {
if constexpr (traits::mcc_char_view<R>) { // return joined parameters as a single char-range
return R{_params[start_idx].begin(), _params[stop_idx].end()};
} else {
R r;
std::ranges::copy(std::string_view{_params[start_idx].begin(), _params[stop_idx].end()},
std::back_inserter(r));
return r;
}
}
}
std::string_view params(size_t start_idx = 0, size_t Nelemes = std::numeric_limits<size_t>::max()) const
{
return params<std::string_view>(start_idx, Nelemes);
}
template <traits::mcc_view_or_output_char_range R>
R param(size_t idx) const
{
if (idx >= _params.size()) {
return {};
}
if constexpr (traits::mcc_char_view<R>) {
return R{_params[idx].begin(), _params[idx].end()};
} else {
R r;
std::ranges::copy(_params[idx], std::back_inserter(r));
return r;
}
}
std::string_view param(size_t idx) const
{
if (idx >= _params.size()) {
return {};
}
return _params[idx];
}
template <typename T, typename DeserFuncT>
std::expected<T, std::error_code> paramValue(size_t idx, DeserFuncT&& deser_func) const
{
static_assert(std::invocable<DeserFuncT, typename decltype(_params)::value_type const&, T&,
impl::mcc_serialization_params_t const&>,
"INVALID DESERIALIZATION FUNCTION!");
static_assert(std::same_as<std::invoke_result_t<DeserFuncT, typename decltype(_params)::value_type const&, T&,
impl::mcc_serialization_params_t const&>,
std::error_code>,
"INVALID DESERIALIZATION FUNCTION!");
if (idx >= _params.size()) {
return std::unexpected{std::make_error_code(std::errc::value_too_large)};
}
T val;
auto ec = std::forward<DeserFuncT>(deser_func)(_params[idx], val, _serializationParams);
if (ec) {
return std::unexpected(ec);
} else {
return val;
}
}
template <typename T>
std::expected<T, std::error_code> paramValue(size_t idx) const
{
return paramValue<T>(
idx, impl::MccDeserializer<T>{}); // use one of specialization of MccDeserializer templated class
}
template <traits::mcc_view_or_output_char_range R>
R byteRepr() const
{
if constexpr (traits::mcc_char_view<R>) {
return R{_msgBuffer.begin(), _msgBuffer.end()};
} else {
R r;
std::ranges::copy(_msgBuffer, std::back_inserter(r));
return r;
}
}
std::string_view byteRepr() const
{
return byteRepr<std::string_view>();
}
template <traits::mcc_input_char_range KT, typename... PTs>
std::error_code construct(KT&& key, PTs&&... params)
requires traits::mcc_output_char_range<BYTEREPR_T>
{
return construct(_defaultSerializer, std::forward<KT>(key), std::forward<PTs>(params)...);
}
//
// serializing function SerFuncT - a callable with the signature:
// template<typename T, mcc_output_char_range R>
// void ser_func(R&& buffer, const T& val, mcc_serialization_params_t const& pars)
//
template <typename SerFuncT, traits::mcc_input_char_range KT, typename... PTs>
std::error_code construct(SerFuncT&& ser_func, KT&& key, PTs&&... params)
requires(traits::mcc_output_char_range<BYTEREPR_T> &&
!traits::mcc_input_char_range<std::remove_cvref_t<SerFuncT>>)
{
if constexpr (std::is_pointer_v<std::decay_t<KT>>) {
return construct(std::forward<SerFuncT>(ser_func), std::string_view(key), std::forward<PTs>(params)...);
}
if (!std::ranges::size(key)) {
return std::make_error_code(std::errc::invalid_argument);
}
auto r = valid_keys_t::isKeywordValid(key);
if (!r) {
return std::make_error_code(std::errc::not_supported);
}
_keywordHash = *r;
_msgBuffer = BYTEREPR_T{};
std::ranges::copy(std::forward<KT>(key), std::back_inserter(_msgBuffer));
// _keyword = {_msgBuffer.begin(), _msgBuffer.end()};
size_t key_idx = std::distance(_msgBuffer.begin(), _msgBuffer.end());
std::vector<size_t> par_idx;
_params.clear();
if constexpr (sizeof...(PTs)) {
std::ranges::copy(MCC_COMMPROTO_KEYPARAM_DELIM_SEQ, std::back_inserter(_msgBuffer));
convertFunc(std::forward<SerFuncT>(ser_func), par_idx, std::forward<PTs>(params)...);
for (size_t i = 0; i < par_idx.size(); i += 2) {
_params.emplace_back(_msgBuffer.begin() + par_idx[i], _msgBuffer.begin() + par_idx[i + 1]);
}
}
_keyword = std::string_view{_msgBuffer.begin(), _msgBuffer.begin() + key_idx};
return {};
}
template <traits::mcc_input_char_range R>
constexpr MccNetMessageError fromCharRange(const R& r)
{
if constexpr (std::is_pointer_v<std::decay_t<R>>) {
return fromCharRange(std::string_view(r));
}
if (std::ranges::size(r) == 0) {
return ERROR_EMPTY_MESSAGE;
}
std::string_view key;
// auto prev_msg_buff = _msgBuffer;
if constexpr (traits::mcc_output_char_range<BYTEREPR_T>) {
_msgBuffer = BYTEREPR_T{};
std::ranges::copy(r, std::back_inserter(_msgBuffer));
} else {
_msgBuffer = {std::begin(r), std::end(r)};
}
auto found = std::ranges::search(_msgBuffer, MCC_COMMPROTO_KEYPARAM_DELIM_SEQ);
if (found.empty()) { // only keyword
key = mcc::utils::trimSpaces(std::string_view{_msgBuffer.begin(), _msgBuffer.end()});
} else {
key = mcc::utils::trimSpaces(std::string_view{_msgBuffer.begin(), found.begin()});
}
auto kv = valid_keys_t::isKeywordValid(key);
if (!kv) {
// _msgBuffer = prev_msg_buff; // restore previous netmessage state
return ERROR_INVALID_KEYWORD;
}
_keywordHash = *kv;
_keyword = key;
if (!found.empty()) { // params ...
_params.clear();
auto pr =
std::views::split(std::string_view{found.end(), _msgBuffer.end()}, MCC_COMMPROTO_PARAMPARAM_DELIM_SEQ);
for (auto const& p : pr) {
_params.emplace_back(p.begin(), p.end());
}
}
return ERROR_OK;
}
protected:
size_t _keywordHash{};
std::string_view _keyword{};
std::vector<std::string_view> _params{};
BYTEREPR_T _msgBuffer{};
DefaultSerializer _defaultSerializer{};
impl::mcc_serialization_params_t _serializationParams{.seq_delim{MCC_COMMPROTO_PARAMPARAM_DELIM_SEQ},
.elem_delim{MCC_COMMPROTO_RANGEPARAM_DELIM_SEQ}};
template <typename SerFuncT, typename T, typename... Ts>
void convertFunc(SerFuncT&& ser_func, std::vector<size_t>& idx, const T& par, const Ts&... pars)
{
if constexpr (std::same_as<T, MccSerializedCoordPairFormat>) {
_serializationParams.coordpair_format = par;
} else if constexpr (std::same_as<T, MccSerializedAngleFormatPrec>) {
_serializationParams.angle_prec = par;
} else {
idx.emplace_back(std::distance(_msgBuffer.begin(), _msgBuffer.end()));
std::forward<SerFuncT>(ser_func)(_msgBuffer, par, _serializationParams);
idx.emplace_back(std::distance(_msgBuffer.begin(), _msgBuffer.end()));
if constexpr (sizeof...(Ts)) {
std::ranges::copy(_serializationParams.seq_delim, std::back_inserter(_msgBuffer));
}
}
if constexpr (sizeof...(Ts)) {
convertFunc(std::forward<SerFuncT>(ser_func), idx, pars...);
}
}
};
static_assert(MccNetMessage<std::string, MccNetMessageValidKeywords>{"ACK"}.withKey("ACK"));
static_assert(MccNetMessage{"ACK"}.withKey("ACK"));
} // namespace mcc::network

6
mcc_pzone_container.h
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@@ -115,7 +115,7 @@ public:
{
auto sptr = std::make_shared<decltype(zone)>(std::move(zone));
_inZoneFunc.emplace_back([sptr](MccSkyPoint const& pt, bool* res) {
_inZoneFunc.emplace_back([sptr](MccSkyPoint const& pt, bool* res) -> error_t {
auto err = sptr->inPZone(pt, res);
if (err) {
return mcc_deduced_err(err, MccPZoneContainerErrorCode::ERROR_INZONE_FUNC);
@@ -125,7 +125,7 @@ public:
});
_timeToZoneFunc.emplace_back([sptr](MccSkyPoint const& pt, duration_t* res) {
_timeToZoneFunc.emplace_back([sptr](MccSkyPoint const& pt, duration_t* res) -> error_t {
auto err = sptr->timeToPZone(pt, res);
if (err) {
return mcc_deduced_err(err, MccPZoneContainerErrorCode::ERROR_TIMETO_FUNC);
@@ -135,7 +135,7 @@ public:
});
_timeFromZoneFunc.emplace_back([sptr](MccSkyPoint const& pt, duration_t* res) {
_timeFromZoneFunc.emplace_back([sptr](MccSkyPoint const& pt, duration_t* res) -> error_t {
auto err = sptr->timeFromPZone(pt, res);
if (err) {
return mcc_deduced_err(err, MccPZoneContainerErrorCode::ERROR_TIMEFROM_FUNC);

390
mcc_serialization_common.h Normal file
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@@ -0,0 +1,390 @@
#pragma once
/****************************************************************************************
* *
* MOUNT CONTROL COMPONENTS LIBRARY *
* *
* *
* COMMON DEFINITIONS FOR DATA SERIALIZATION/DESERIALIZATION *
* *
****************************************************************************************/
#include "mcc_concepts.h"
#include "mcc_error.h"
#include "mcc_traits.h"
namespace mcc
{
/* celestial angle serialization */
enum class MccSerializedAngleFormat {
MCC_SERIALIZED_FORMAT_DEGREES, // degrees as floating-point number
MCC_SERIALIZED_FORMAT_SXGM_HOURS, // sexagesimal representation: hours:mins:secs
MCC_SERIALIZED_FORMAT_SXGM_DEGS, // sexagesimal representation: degs:arcmins:arcsecs
MCC_SERIALIZED_FORMAT_UNKNOWN
};
static constexpr std::string_view MCC_SERIALIZED_ANG_FORMAT_DEGREES_STR = "SRANG-FORMAT-DEGREES";
static constexpr std::string_view MCC_SERIALIZED_ANG_FORMAT_SXGM_HOURS_STR = "SRANG-FORMAT-SXGM_HOURDEG";
static constexpr std::string_view MCC_SERIALIZED_ANG_FORMAT_SXGM_DEGS_STR = "SRANG-FORMAT-SXGM_DEGDEG";
static constexpr std::string_view MccSerializedAngleFormatToStr(MccSerializedAngleFormat fmt)
{
return fmt == MccSerializedAngleFormat::MCC_SERIALIZED_FORMAT_DEGREES ? MCC_SERIALIZED_ANG_FORMAT_DEGREES_STR
: fmt == MccSerializedAngleFormat::MCC_SERIALIZED_FORMAT_SXGM_HOURS
? MCC_SERIALIZED_ANG_FORMAT_SXGM_HOURS_STR
: fmt == MccSerializedAngleFormat::MCC_SERIALIZED_FORMAT_SXGM_DEGS ? MCC_SERIALIZED_ANG_FORMAT_SXGM_DEGS_STR
: MCC_SERIALIZED_ANG_FORMAT_DEGREES_STR;
}
template <traits::mcc_input_char_range R>
static constexpr MccSerializedAngleFormat MccSerializedAngleFormatStrToValue(R&& str)
{
if constexpr (std::is_array_v<std::decay_t<R>>) {
return MccSerializedAngleFormatStrToValue(std::string_view{str});
}
const auto hash = mcc::utils::FNV1aHash(std::forward<R>(str));
return hash == mcc::utils::FNV1aHash(MCC_SERIALIZED_ANG_FORMAT_DEGREES_STR)
? MccSerializedAngleFormat::MCC_SERIALIZED_FORMAT_DEGREES
: hash == mcc::utils::FNV1aHash(MCC_SERIALIZED_ANG_FORMAT_SXGM_HOURS_STR)
? MccSerializedAngleFormat::MCC_SERIALIZED_FORMAT_SXGM_HOURS
: hash == mcc::utils::FNV1aHash(MCC_SERIALIZED_ANG_FORMAT_SXGM_DEGS_STR)
? MccSerializedAngleFormat::MCC_SERIALIZED_FORMAT_SXGM_DEGS
: MccSerializedAngleFormat::MCC_SERIALIZED_FORMAT_UNKNOWN;
}
/* coordinates pair serialization */
enum class MccSerializedCoordPairFormat {
MCC_SERIALIZED_FORMAT_DEGREES, // both angles are in degrees as floating-point number
MCC_SERIALIZED_FORMAT_SXGM_HOURDEG, // X is in hour (if RA or HA) and Y is in degree sexagesimal representation
MCC_SERIALIZED_FORMAT_SXGM_DEGDEG, // both angles are in sexagesimal degrees
MCC_SERIALIZED_FORMAT_UNKNOWN
};
static constexpr std::string_view MCC_SERIALIZED_CP_FORMAT_DEGREES_STR = "SRCP-FORMAT-DEGREES";
static constexpr std::string_view MCC_SERIALIZED_CP_FORMAT_SXGM_HOURDEG_STR = "SRCP-FORMAT-SXGM_HOURDEG";
static constexpr std::string_view MCC_SERIALIZED_CP_FORMAT_SXGM_DEGDEG_STR = "SRCP-FORMAT-SXGM_DEGDEG";
static constexpr std::string_view MccSerializedCoordPairFormatToStr(MccSerializedCoordPairFormat fmt)
{
return fmt == MccSerializedCoordPairFormat::MCC_SERIALIZED_FORMAT_DEGREES ? MCC_SERIALIZED_CP_FORMAT_DEGREES_STR
: fmt == MccSerializedCoordPairFormat::MCC_SERIALIZED_FORMAT_SXGM_HOURDEG
? MCC_SERIALIZED_CP_FORMAT_SXGM_HOURDEG_STR
: fmt == MccSerializedCoordPairFormat::MCC_SERIALIZED_FORMAT_SXGM_DEGDEG
? MCC_SERIALIZED_CP_FORMAT_SXGM_DEGDEG_STR
: MCC_SERIALIZED_CP_FORMAT_DEGREES_STR;
}
template <traits::mcc_input_char_range R>
static constexpr MccSerializedCoordPairFormat MccSerializedCoordPairFormatStrToValue(R&& str)
{
if constexpr (std::is_array_v<std::decay_t<R>>) {
return MccSerializedCoordPairFormatStrToValue(std::string_view{str});
}
const auto hash = mcc::utils::FNV1aHash(std::forward<R>(str));
return hash == mcc::utils::FNV1aHash(MCC_SERIALIZED_CP_FORMAT_DEGREES_STR)
? MccSerializedCoordPairFormat::MCC_SERIALIZED_FORMAT_DEGREES
: hash == mcc::utils::FNV1aHash(MCC_SERIALIZED_CP_FORMAT_SXGM_HOURDEG_STR)
? MccSerializedCoordPairFormat::MCC_SERIALIZED_FORMAT_SXGM_HOURDEG
: hash == mcc::utils::FNV1aHash(MCC_SERIALIZED_CP_FORMAT_SXGM_DEGDEG_STR)
? MccSerializedCoordPairFormat::MCC_SERIALIZED_FORMAT_SXGM_DEGDEG
: MccSerializedCoordPairFormat::MCC_SERIALIZED_FORMAT_UNKNOWN;
}
/* precision of representation of serialized celestial angle/coordinates pair */
struct MccSerializedAngleFormatPrec {
uint8_t hour_prec = 2; // number of decimal places in hour seconds (sexagesimal format)
uint8_t deg_prec = 1; // number of decimal places in arcseconds (sexagesimal format)
// slightly better than 0.1 arcsecond precision
uint8_t decimals = 6; // number of decimal places in degrees (floating-point number format)
// if 0, then number of decimal places is according to formating rules of 'double' type
};
enum class MccTimePointFormat {
MCC_TIMEPOINT_FORMAT_DATE, // UTC date
MCC_TIMEPOINT_FORMAT_MJD, // MJD
MCC_TIMEPOINT_FORMAT_JD, // JD
MCC_TIMEPOINT_FORMAT_JEPOCH, // Julian epoch
MCC_TIMEPOINT_FORMAT_UNKNOWN
};
static constexpr std::string_view MCC_TIMEPOINT_FORMAT_DATE_STR = "TP-FORMAT-DATE";
static constexpr std::string_view MCC_TIMEPOINT_FORMAT_MJD_STR = "TP-FORMAT-MJD";
static constexpr std::string_view MCC_TIMEPOINT_FORMAT_JD_STR = "TP-FORMAT-JD";
static constexpr std::string_view MCC_TIMEPOINT_FORMAT_JEPOCH_STR = "TP-FORMAT-JEPOCH";
static constexpr std::string_view MccTimePointFormatToStr(MccTimePointFormat fmt)
{
return fmt == MccTimePointFormat::MCC_TIMEPOINT_FORMAT_DATE ? MCC_TIMEPOINT_FORMAT_DATE_STR
: fmt == MccTimePointFormat::MCC_TIMEPOINT_FORMAT_MJD ? MCC_TIMEPOINT_FORMAT_MJD_STR
: fmt == MccTimePointFormat::MCC_TIMEPOINT_FORMAT_JD ? MCC_TIMEPOINT_FORMAT_JD_STR
: fmt == MccTimePointFormat::MCC_TIMEPOINT_FORMAT_JEPOCH ? MCC_TIMEPOINT_FORMAT_JEPOCH_STR
: MCC_TIMEPOINT_FORMAT_MJD_STR;
}
template <traits::mcc_input_char_range R>
static constexpr MccTimePointFormat MccTimePointFormatStrToValue(R&& str)
{
if constexpr (std::is_array_v<std::decay_t<R>>) {
return MccTimePointFormatStrToValue(std::string_view{str});
}
const auto hash = mcc::utils::FNV1aHash(std::forward<R>(str));
return hash == mcc::utils::FNV1aHash(MCC_TIMEPOINT_FORMAT_DATE_STR) ? MccTimePointFormat::MCC_TIMEPOINT_FORMAT_DATE
: hash == mcc::utils::FNV1aHash(MCC_TIMEPOINT_FORMAT_MJD_STR) ? MccTimePointFormat::MCC_TIMEPOINT_FORMAT_MJD
: hash == mcc::utils::FNV1aHash(MCC_TIMEPOINT_FORMAT_JD_STR) ? MccTimePointFormat::MCC_TIMEPOINT_FORMAT_JD
: hash == mcc::utils::FNV1aHash(MCC_TIMEPOINT_FORMAT_JEPOCH_STR)
? MccTimePointFormat::MCC_TIMEPOINT_FORMAT_JEPOCH
: MccTimePointFormat::MCC_TIMEPOINT_FORMAT_UNKNOWN;
}
/* SERIALIZATION/DESERIALIZATION PROCESS TUNING PARAMETERS */
// delimiter between items of serializing values sequence
static constexpr std::string_view MCC_SERIALIZING_DEFAULT_SEQ_DELIMITER{";"};
// delimiter between items of aggregative (multi-element) serializing value
static constexpr std::string_view MCC_SERIALIZING_DEFAULT_ELEM_DELIMITER{","};
template <typename T>
concept mcc_serialization_params_c = std::copyable<T> && requires(T t) {
requires traits::mcc_output_char_range<decltype(t.seq_delim)>;
requires traits::mcc_output_char_range<decltype(t.elem_delim)>;
requires std::same_as<decltype(t.angle_format), MccSerializedAngleFormat>;
requires std::same_as<decltype(t.angle_prec), MccSerializedAngleFormatPrec>;
requires std::same_as<decltype(t.coordpair_format), MccSerializedCoordPairFormat>;
requires std::same_as<decltype(t.timepoint_format), MccTimePointFormat>;
// a format string for mcc_systime_c types (std;:chrono::sys_time)
requires std::same_as<decltype(t.systime_format), std::string_view>;
// if true - normalize angle in sexagesimal format (to control rounding)
// (to avoid something like "24:00:00.0" for sexagesimal 'hours:minutes:seconds' format)
requires std::convertible_to<decltype(t.norm_sxgm), bool>;
// if true - interpretate serialized angle in sexagesimal format as 'hours:minutes:seconds'
// otherwise as 'degrees:arcmins:arcsecs'
requires std::convertible_to<decltype(t.sxgm_hms), bool>;
};
/* SERIALIZER/DESERIALIZER CONCEPTS */
template <mcc_error_c RetT>
struct mcc_serializer_interface_t {
virtual ~mcc_serializer_interface_t() = default;
typedef RetT error_t;
template <std::derived_from<mcc_serializer_interface_t> SelfT, traits::mcc_output_char_range R, typename ValueT>
RetT operator()(this SelfT&& self, R& output, ValueT const& value)
{
return std::forward<SelfT>(self)(output, value);
}
template <std::derived_from<mcc_serializer_interface_t> SelfT, traits::mcc_output_char_range R, typename ValueT>
RetT operator()(this SelfT&& self, R& output, ValueT const& value, mcc_serialization_params_c auto const& params)
{
return std::forward<SelfT>(self)(output, value, params);
}
protected:
mcc_serializer_interface_t() = default;
};
template <typename T>
concept mcc_serializer_c =
std::derived_from<T, mcc_serializer_interface_t<typename T::error_t>> && requires(T t, const T t_const) {
// static const variable with name of the serializer
requires std::formattable<decltype(T::serializerName), char> && std::is_const_v<decltype(T::serializerName)>;
// // must define a type "params_t"
// requires mcc_serialization_params_c<typename T::params_t>;
// { t.setParams(std::declval<typename T::params_t const&>()) };
// { t_const.getParams() } -> std::same_as<typename T::params_t>;
};
template <mcc_error_c RetT>
struct mcc_deserializer_interface_t {
virtual ~mcc_deserializer_interface_t() = default;
typedef RetT error_t;
template <std::derived_from<mcc_deserializer_interface_t> SelfT, traits::mcc_input_char_range R, typename ValueT>
RetT operator()(this SelfT&& self, R const& input, ValueT& value)
{
return std::forward<SelfT>(self)(input, value);
}
template <std::derived_from<mcc_deserializer_interface_t> SelfT, traits::mcc_input_char_range R, typename ValueT>
RetT operator()(this SelfT&& self, R const& input, ValueT& value, mcc_serialization_params_c auto& params)
{
return std::forward<SelfT>(self)(input, value, params);
}
protected:
mcc_deserializer_interface_t() = default;
};
template <typename T>
concept mcc_deserializer_c =
std::derived_from<T, mcc_deserializer_interface_t<typename T::error_t>> && requires(T t, const T t_const) {
// static const variable with name of the deserializer
requires std::formattable<decltype(T::deserializerName), char> &&
std::is_const_v<decltype(T::deserializerName)>;
// // must define a type "params_t"
// requires mcc_serialization_params_c<typename T::params_t>;
// { t.setParams(std::declval<typename T::params_t const&>()) };
// { t_const.getParams() } -> std::same_as<typename T::params_t>;
};
/* BASE CLASS IMPLEMENTATION FOR SERIALIZER/DESERIALIZER */
namespace impl
{
// default definition of serialization/deserialization process parameters structure
struct mcc_serialization_params_t {
std::string seq_delim{MCC_SERIALIZING_DEFAULT_SEQ_DELIMITER};
std::string elem_delim{MCC_SERIALIZING_DEFAULT_ELEM_DELIMITER};
MccSerializedAngleFormat angle_format{MccSerializedAngleFormat::MCC_SERIALIZED_FORMAT_DEGREES};
MccSerializedAngleFormatPrec angle_prec{MccSerializedAngleFormatPrec{.hour_prec = 2, .deg_prec = 1, .decimals = 6}};
MccSerializedCoordPairFormat coordpair_format{MccSerializedCoordPairFormat::MCC_SERIALIZED_FORMAT_SXGM_HOURDEG};
MccTimePointFormat timepoint_format{MccTimePointFormat::MCC_TIMEPOINT_FORMAT_DATE};
std::string_view systime_format{"{:%FT%T}"};
bool norm_sxgm{false};
bool sxgm_hms{false};
};
static_assert(mcc_serialization_params_c<mcc_serialization_params_t>, "!!!");
namespace details
{
template <mcc_serialization_params_c ParamsT>
struct _params_manipulator_t {
virtual ~_params_manipulator_t() = default;
typedef ParamsT params_t;
template <mcc_serialization_params_c p_t>
void setParams(p_t const& pars)
{
if constexpr (std::same_as<p_t, params_t>) {
_params = pars;
} else {
_params.seq_delim = pars.seq_delim;
_params.elem_delim = pars.elem_delim;
_params.coordpair_format = pars.coordpair_format;
_params.angle_prec = pars.angle_prec;
_params.timepoint_format = pars.timepoint_format;
_params.norm_sxgm = pars.norm_sxgm;
_params.sxgm_hms = pars.sxgm_hms;
}
}
template <mcc_serialization_params_c p_t>
requires(!std::same_as<p_t, params_t>)
p_t getParams() const
{
p_t pars;
pars.seq_delim = _params.seq_delim;
pars.elem_delim = _params.elem_delim;
pars.coordpair_format = _params.coordpair_format;
pars.angle_prec = _params.angle_prec;
pars.timepoint_format = _params.timepoint_format;
pars.norm_sxgm = _params.norm_sxgm;
pars.sxgm_hms = _params.sxgm_hms;
return pars;
}
params_t getParams() const
{
return _params;
}
protected:
_params_manipulator_t() = default;
params_t _params;
};
} // namespace details
// struct MccDeserializerBase : mcc_deserializer_interface_t<MccError> {
// virtual ~MccDeserializerBase() = default;
// using typename mcc_deserializer_interface_t<MccError>::error_t;
// protected:
// MccDeserializerBase() = default;
// };
// template <mcc_serialization_params_c ParamsT>
// struct MccSerializerBase : mcc_serializer_interface_t<MccError>, details::_params_manipulator_t<ParamsT> {
// virtual ~MccSerializerBase() = default;
// using typename mcc_serializer_interface_t<MccError>::error_t;
// using typename details::_params_manipulator_t<ParamsT>::params_t;
// protected:
// MccSerializerBase() = default;
// };
// template <mcc_serialization_params_c ParamsT>
// struct MccDeserializerBase : mcc_deserializer_interface_t<MccError>, details::_params_manipulator_t<ParamsT> {
// virtual ~MccDeserializerBase() = default;
// using typename mcc_deserializer_interface_t<MccError>::error_t;
// using typename details::_params_manipulator_t<ParamsT>::params_t;
// protected:
// MccDeserializerBase() = default;
// };
} // namespace impl
} // namespace mcc

1333
mcc_serializer.h
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910
mcc_serializer.h.old Normal file
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@@ -0,0 +1,910 @@
#pragma once
/****************************************************************************************
* *
* MOUNT CONTROL COMPONENTS LIBRARY *
* *
* *
* IMPLEMENTATION OF SERIALIZER CLASSES *
* *
****************************************************************************************/
#include <atomic>
#include <concepts>
#include "mcc_concepts.h"
#include "mcc_constants.h"
#include "mcc_coordinate.h"
#include "mcc_epoch.h"
#include "mcc_error.h"
#include "mcc_traits.h"
#include "mcc_utils.h"
namespace mcc::impl
{
enum class MccSerializerErrorCode : int {
ERROR_OK,
ERROR_UNDERLYING_SERIALIZER,
ERROR_INVALID_EPOCH,
ERROR_COORD_TRANSFORM
};
} // namespace mcc::impl
namespace std
{
template <>
class is_error_code_enum<mcc::impl::MccSerializerErrorCode> : public true_type
{
};
} // namespace std
namespace mcc::impl
{
// error category
struct MccSerializerCategory : public std::error_category {
MccSerializerCategory() : std::error_category() {}
const char* name() const noexcept
{
return "MCC-SERIALIZER-ERR-CATEGORY";
}
std::string message(int ec) const
{
MccSerializerErrorCode err = static_cast<MccSerializerErrorCode>(ec);
switch (err) {
case MccSerializerErrorCode::ERROR_OK:
return "OK";
case MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER:
return "error returned by underlying serializer";
case MccSerializerErrorCode::ERROR_INVALID_EPOCH:
return "invalid coordinate epoch";
case MccSerializerErrorCode::ERROR_COORD_TRANSFORM:
return "coordinates transformation error";
default:
return "UNKNOWN";
}
}
static const MccSerializerCategory& get()
{
static const MccSerializerCategory constInst;
return constInst;
}
};
inline std::error_code make_error_code(MccSerializerErrorCode ec)
{
return std::error_code(static_cast<int>(ec), MccSerializerCategory::get());
}
template <mcc_error_c RetT>
struct mcc_serializer_interface_t {
virtual ~mcc_serializer_interface_t() = default;
typedef RetT error_t;
template <std::derived_from<mcc_serializer_interface_t> SelfT,
traits::mcc_output_char_range R,
typename ValueT,
typename FmtT>
requires(std::same_as<std::format_string<ValueT>, FmtT> || std::same_as<std::string_view, FmtT>)
RetT operator()(this SelfT&& self, R& output, ValueT const& value, FmtT fmt)
{
return std::forward<SelfT>(self)(output, value, std::move(fmt));
}
protected:
mcc_serializer_interface_t() = default;
};
template <typename T>
concept mcc_serializer_c = std::derived_from<T, mcc_serializer_interface_t<typename T::error_t>>;
namespace details
{
struct MccSerializerBase : mcc_serializer_interface_t<impl::MccError>, utils::mcc_elem_sequence_with_delim_t {
using typename mcc_serializer_interface_t<impl::MccError>::error_t;
virtual ~MccSerializerBase() = default;
protected:
MccSerializerBase() = default;
template <typename VT, typename R>
requires(std::ranges::input_range<R> && std::same_as<VT, std::ranges::range_value_t<R>>)
error_t serializingRange(mcc_serializer_c auto& sr,
R const& r,
traits::mcc_output_char_range auto& output,
auto fmt) const
{
size_t i = 0, N = std::ranges::size(r);
for (auto const& el : r) {
auto err = sr(output, el, std::move(fmt));
if (err) {
return mcc_deduced_err(err, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
if (++i < N) {
std::format_to(std::back_inserter(output), "{}", _seqDelimiter);
}
}
return MccSerializerErrorCode::ERROR_OK;
}
};
} // namespace details
/* fallback template */
template <typename VT>
class MccSerializer : public details::MccSerializerBase
// class MccSerializer : public mcc_serializer_interface_t<impl::MccError>
{
public:
// default delimiter
static constexpr std::string_view defaultRangeDelimiter{","};
// typedef impl::MccError error_t;
MccSerializer() = default;
~MccSerializer() = default;
template <typename FmtT = std::nullptr_t>
error_t operator()(traits::mcc_output_char_range auto& output, VT const& value, FmtT fmt = nullptr)
{
if constexpr (std::formattable<VT, char>) {
if constexpr (std::is_null_pointer_v<FmtT>) {
std::format_to(std::back_inserter(output), "{}", value);
} else if constexpr (traits::mcc_input_char_range<FmtT>) {
std::string_view sfmt{fmt.begin(), fmt.end()};
std::vformat_to(std::back_inserter(output), sfmt, std::make_format_args(value));
} else if constexpr (std::same_as<std::format_string<VT>, FmtT>) {
std::format_to(std::back_inserter(output), std::move(fmt), value);
} else {
static_assert(false, "INVALID FORMAT STRING TYPE!!!");
}
} else if constexpr (std::convertible_to<VT, std::string>) {
auto err = MccSerializer<std::string>{}(output, static_cast<std::string>(value), std::move(fmt));
if (err) {
return mcc_deduced_err(err, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
} else if constexpr (std::ranges::range<VT>) {
using value_t = std::remove_cv_t<std::ranges::range_value_t<VT>>;
// special range (character sequence)
if constexpr (std::same_as<value_t, char>) {
std::string str;
std::ranges::copy(value, std::back_inserter(str));
auto err = MccSerializer<std::string>{}(output, str, std::move(fmt));
if (err) {
return mcc_deduced_err(err, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
} else {
MccSerializer<value_t> sr;
return serializingRange<value_t>(sr, value, output, std::move(fmt));
}
} else {
static_assert(false, "UNSUPPORTED TYPE!!!");
}
return MccSerializerErrorCode::ERROR_OK;
}
};
/* SPECIALIZATION FOR THE SOME CONCEPTS */
template <typename VT>
requires(traits::mcc_systime_c<VT> ||
(std::ranges::input_range<VT> && traits::mcc_systime_c<std::remove_cv_t<std::ranges::range_value_t<VT>>>))
class MccSerializer<VT> : public details::MccSerializerBase
{
public:
virtual ~MccSerializer() = default;
template <typename FmtT = std::nullptr_t>
error_t operator()(traits::mcc_output_char_range auto& output, VT const& value, FmtT fmt = nullptr)
{
if constexpr (std::ranges::input_range<VT>) {
using value_t = std::remove_cv_t<std::ranges::range_value_t<VT>>;
MccSerializer<value_t> sr;
return serializingRange<value_t>(sr, value, output, std::move(fmt));
} else { // scalar
if constexpr (std::is_null_pointer_v<FmtT>) {
std::format_to(std::back_inserter(output), "{:%FT%T}", value);
} else if constexpr (traits::mcc_input_char_range<FmtT>) {
std::string_view sfmt{fmt.begin(), fmt.end()};
if (sfmt == "{}") {
sfmt = "{:%FT%T}";
}
std::vformat_to(std::back_inserter(output), sfmt, std::make_format_args(value));
} else if constexpr (std::same_as<std::format_string<VT>, FmtT>) {
std::string_view sfmt{fmt.get().begin(), fmt.get().end()};
if (sfmt == "{}") {
std::format_to(std::back_inserter(output), "{:%FT%T}", value);
} else {
std::format_to(std::back_inserter(output), std::move(fmt), value);
}
} else {
static_assert(false, "INVALID FORMAT STRING TYPE!!!");
}
}
return MccSerializerErrorCode::ERROR_OK;
}
};
template <typename VT>
requires(!std::is_arithmetic_v<VT> &&
(mcc_angle_c<VT> ||
(std::ranges::input_range<VT> && mcc_angle_c<std::remove_cv_t<std::ranges::range_value_t<VT>>>)))
class MccSerializer<VT> : public virtual details::MccSerializerBase
// class MccSerializer<VT> : public mcc_serializer_interface_t<impl::MccError>
{
public:
enum SerializedCoordFormat {
CFMT_DEGREES, // floating-point representation in degrees
CFMT_SGM_HOURS, // sexagesimal representation: HH:MM:SS.SSSSSS (hours:minutes:seconds)
CFMT_SGM_DEGS // sexagesimal representation: DD:MM:SS.SSSSS (degrees:arcmins::arcsecs)
};
struct SexagesimalCoordPrec {
uint8_t hour_prec = 2; // number of decimal places in hour seconds
uint8_t deg_prec = 1; // number of decimal places in arcseconds
};
// typedef impl::MccError error_t;
virtual ~MccSerializer() = default;
void setCoordFormat(SerializedCoordFormat format)
{
_coordFormat = format;
}
SerializedCoordFormat getCoordFormat() const
{
return _coordFormat;
}
void setCoordPrec(SexagesimalCoordPrec prec)
{
_coordPrec = std::move(prec);
}
SexagesimalCoordPrec getCoordPrec() const
{
return _coordPrec;
}
template <typename FmtT = std::nullptr_t>
error_t operator()(traits::mcc_output_char_range auto& output, VT const& value, FmtT fmt = nullptr)
{
if constexpr (std::ranges::input_range<VT>) {
using value_t = std::remove_cv_t<std::ranges::range_value_t<VT>>;
MccSerializer<value_t> sr;
sr.setCoordFormat(_coordFormat);
sr.setCoordPrec(_coordPrec);
return serializingRange<value_t>(sr, value, output, std::move(fmt));
} else { // scalar
double v = (double)value; // radians
std::string sgm;
switch (_coordFormat) {
case MccSerializer::CFMT_DEGREES:
v *= 180.0 / std::numbers::pi;
return MccSerializer<double>{}(output, v, std::move(fmt));
case MccSerializer::CFMT_SGM_HOURS:
sgm = utils::rad2sxg(v, true, _coordPrec.load().hour_prec);
break;
case MccSerializer::CFMT_SGM_DEGS:
sgm = utils::rad2sxg(v, false, _coordPrec.load().deg_prec);
break;
default:
break;
}
auto err = MccSerializer<std::string>{}(output, sgm, std::move(fmt));
if (err) {
return mcc_deduced_err(err, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
}
return MccSerializerErrorCode::ERROR_OK;
}
protected:
// std::atomic<SerializedCoordFormat> _coordFormat{MccSerializer::CFMT_DEGREES};
std::atomic<SerializedCoordFormat> _coordFormat{MccSerializer::CFMT_SGM_DEGS};
std::atomic<SexagesimalCoordPrec> _coordPrec{SexagesimalCoordPrec{.hour_prec = 2, .deg_prec = 1}};
};
template <typename VT>
requires(mcc_coord_epoch_c<VT> ||
(std::ranges::input_range<VT> && mcc_coord_epoch_c<std::remove_cv_t<std::ranges::range_value_t<VT>>>))
class MccSerializer<VT> : public virtual details::MccSerializerBase
{
public:
enum TimePointFormat { TP_FORMAT_DATE, TP_FORMAT_MJD, TP_FORMAT_JEPOCH };
virtual ~MccSerializer() = default;
void setTimePointFormat(TimePointFormat format)
{
_tpFormat = format;
}
TimePointFormat getTimePointFormat() const
{
return _tpFormat;
}
template <typename FmtT = std::nullptr_t>
error_t operator()(traits::mcc_output_char_range auto& output, VT const& value, FmtT fmt = nullptr)
{
if constexpr (std::ranges::input_range<VT>) {
using value_t = std::remove_cv_t<std::ranges::range_value_t<VT>>;
MccSerializer<value_t> sr;
sr.setTimePointFormat(_tpFormat);
return serializingRange<value_t>(sr, value, output, std::move(fmt));
} else {
switch (_tpFormat) {
case TP_FORMAT_DATE: {
auto utc = value.UTC();
auto err = MccSerializer<std::remove_cvref_t<decltype(utc)>>{}(output, utc, std::move(fmt));
if (err) {
return mcc_deduced_err(err, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
} break;
case TP_FORMAT_MJD: {
double mjd = value.MJD();
auto err = MccSerializer<double>{}(output, mjd, std::move(fmt));
if (err) {
return mcc_deduced_err(err, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
} break;
case TP_FORMAT_JEPOCH: {
auto jepoch = value.JEpoch();
auto err = MccSerializer<std::remove_cvref_t<decltype(jepoch)>>{}(output, jepoch, std::move(fmt));
if (err) {
return mcc_deduced_err(err, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
}
default:
break;
}
return MccSerializerErrorCode::ERROR_OK;
}
}
protected:
std::atomic<TimePointFormat> _tpFormat{TP_FORMAT_DATE};
};
template <typename VT>
requires(mcc_coord_pair_c<VT> ||
(std::ranges::input_range<VT> && mcc_coord_pair_c<std::remove_cv_t<std::ranges::range_value_t<VT>>>))
class MccSerializer<VT> : public std::conditional_t<std::ranges::input_range<VT>,
MccSerializer<std::vector<MccCelestialCoordEpoch>>,
MccSerializer<MccCelestialCoordEpoch>>,
public std::conditional_t<std::ranges::input_range<VT>,
MccSerializer<std::vector<MccAngle>>,
MccSerializer<MccAngle>>
// class MccSerializer<VT> : public mcc_serializer_interface_t<MccError>
{
protected:
typedef std::conditional_t<std::ranges::input_range<VT>,
MccSerializer<std::vector<MccCelestialCoordEpoch>>,
MccSerializer<MccCelestialCoordEpoch>>
base_ser_epoch_t;
typedef std::
conditional_t<std::ranges::input_range<VT>, MccSerializer<std::vector<MccAngle>>, MccSerializer<MccAngle>>
base_ser_angle_t;
public:
using typename details::MccSerializerBase::error_t;
template <typename FmtT = std::nullptr_t>
error_t operator()(traits::mcc_output_char_range auto& output, VT const& value, FmtT fmt = nullptr)
{
if constexpr (std::ranges::input_range<VT>) {
using value_t = std::remove_cv_t<std::ranges::range_value_t<VT>>;
MccSerializer<value_t> sr;
sr.setTimePointFormat(this->_tpFormat);
sr.setCoordFormat(this->_coordFormat);
sr.setCoordPrec(this->_coordPrec);
return serializingRange<value_t>(sr, value, output, std::move(fmt));
} else { // scalar: format X[elem-delimiter]Y[elem-delimiter]epoch[elem-delimiter]pair-kind
// WARNING: still ignore format string!!!
error_t err;
// format to sexagesimal form according to celestial coordinate type (general XY-type is skipped)
if (this->_coordFormat != base_ser_angle_t::CFMT_DEGREES) {
auto prev_format = this->_coordFormat.load();
if constexpr (VT::pairKind == MccCoordPairKind::COORDS_KIND_AZZD ||
VT::pairKind == MccCoordPairKind::COORDS_KIND_AZALT) { // azimuth is in degrees
this->setCoordFormat(base_ser_angle_t::CFMT_SGM_DEGS);
err = base_ser_angle_t::operator()(output, MccAngle{(double)value.x()});
} else { // RA or HA are in hours
this->setCoordFormat(base_ser_angle_t::CFMT_SGM_HOURS);
err = base_ser_angle_t::operator()(output, MccAngle{(double)value.x()});
}
this->setCoordFormat(prev_format); // restore previous value
} else { // here all angles in deciamal degrees
err = base_ser_angle_t::operator()(output, MccAngle{(double)value.x()});
}
if (err) {
return err;
}
std::format_to(std::back_inserter(output), "{}", this->_elementDelimiter);
// format to sexagesimal form according to celestial coordinate type (general XY-type is skipped)
// Y-coordinate of the celestial point is always in degrees
if (this->_coordFormat != base_ser_angle_t::CFMT_DEGREES) {
auto prev_format = this->_coordFormat.load();
this->setCoordFormat(base_ser_angle_t::CFMT_SGM_DEGS);
err = base_ser_angle_t::operator()(output, MccAngle{(double)value.y()});
this->setCoordFormat(prev_format); // restore previous value
} else { // here all angles in deciamal degrees
err = base_ser_angle_t::operator()(output, MccAngle{(double)value.y()});
}
if (err) {
return err;
}
std::format_to(std::back_inserter(output), "{}", this->_elementDelimiter);
auto ep = value.epoch();
if constexpr (std::convertible_to<decltype(ep), MccCelestialCoordEpoch>) {
auto err_e = base_ser_epoch_t::operator()(output, MccCelestialCoordEpoch{ep});
if (err_e) {
return err_e;
}
} else {
MccCelestialCoordEpoch ep1;
bool ok = ep1.fromMJD(ep.MJD());
if (!ok) {
return MccSerializerErrorCode::ERROR_INVALID_EPOCH;
}
auto err_e = (*this)(output, ep1);
if (err_e) {
return err_e;
}
}
std::format_to(std::back_inserter(output), "{}", this->_elementDelimiter);
auto err_s = MccSerializer<std::string_view>{}(output, MccCoordPairKindToStr(VT::pairKind));
if (err_s) {
return mcc_deduced_err(err_s, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
}
return MccSerializerErrorCode::ERROR_OK;
}
};
template <typename VT>
requires(mcc_skypoint_c<VT> ||
(std::ranges::input_range<VT> && mcc_skypoint_c<std::remove_cv_t<std::ranges::range_value_t<VT>>>))
class MccSerializer<VT> : public std::conditional_t<std::ranges::input_range<VT>,
MccSerializer<std::vector<MccCelestialCoordEpoch>>,
MccSerializer<MccCelestialCoordEpoch>>,
public std::conditional_t<std::ranges::input_range<VT>,
MccSerializer<std::vector<MccAngle>>,
MccSerializer<MccAngle>>
{
protected:
typedef std::conditional_t<std::ranges::input_range<VT>,
MccSerializer<std::vector<MccCelestialCoordEpoch>>,
MccSerializer<MccCelestialCoordEpoch>>
base_ser_epoch_t;
typedef std::
conditional_t<std::ranges::input_range<VT>, MccSerializer<std::vector<MccAngle>>, MccSerializer<MccAngle>>
base_ser_angle_t;
public:
using typename details::MccSerializerBase::error_t;
enum SkyPointFormat {
SKYPOINT_FORMAT_FULL, // return RA_ICRS, DEC_ICRS, RA_APP, DEC_APP, RA_OBS, DEC_OBS, AZ, ZD, HA_APP,
// TIME-POINT
SKYPOINT_FORMAT_OBS, // return observed coordinates: RA_OBS, DEC_OBS, AZ, ZD, HA_OBS, TIME-POINT
SKYPOINT_FORMAT_APP, // return apparent (in vacuo) coordinates: RA_APP, DEC_APP, HA_APP, TIME-POINT
SKYPOINT_FORMAT_PAIR // return current stored coordinate pair: X, Y, TIME-POINT, PAIR-KIND
};
virtual ~MccSerializer() = default;
void setSkyPointFormat(SkyPointFormat format)
{
_skptFormat = format;
}
SkyPointFormat getSkyPointFormat() const
{
return _skptFormat;
}
template <typename FmtT = std::nullptr_t>
error_t operator()(traits::mcc_output_char_range auto& output, VT const& value, FmtT fmt = nullptr)
{
if constexpr (std::ranges::input_range<VT>) {
using value_t = std::remove_cv_t<std::ranges::range_value_t<VT>>;
MccSerializer<value_t> sr;
sr.setTimePointFormat(this->_tpFormat);
sr.setCoordFormat(this->_coordFormat);
sr.setCoordPrec(this->_coordPrec);
return serializingRange<value_t>(sr, value, output, std::move(fmt));
} else { // scalar
auto serialize_pair_func = [&output, this]<typename PT>(PT const& pt) -> error_t {
MccSerializer<PT> pt_sr;
pt_sr.setTimePointFormat(this->_tpFormat);
pt_sr.setCoordFormat(this->_coordFormat);
pt_sr.setCoordPrec(this->_coordPrec);
auto err = pt_sr(output, pt);
if (err) {
return mcc_deduced_err(err, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
return MccSerializerErrorCode::ERROR_OK;
};
// WARNING: still ignore format string!!!
auto skpt_fmt = _skptFormat.load();
if (skpt_fmt == SKYPOINT_FORMAT_PAIR) {
switch (value.pairKind()) {
case MccCoordPairKind::COORDS_KIND_RADEC_ICRS:
return serialize_pair_func(value.operator MccSkyRADEC_ICRS());
case MccCoordPairKind::COORDS_KIND_RADEC_APP:
return serialize_pair_func(value.operator MccSkyRADEC_APP());
case MccCoordPairKind::COORDS_KIND_RADEC_OBS:
return serialize_pair_func(value.operator MccSkyRADEC_OBS());
case MccCoordPairKind::COORDS_KIND_HADEC_APP:
return serialize_pair_func(value.operator MccSkyHADEC_APP());
case MccCoordPairKind::COORDS_KIND_HADEC_OBS:
return serialize_pair_func(value.operator MccSkyHADEC_OBS());
case MccCoordPairKind::COORDS_KIND_AZZD:
return serialize_pair_func(value.operator MccSkyAZZD());
case MccCoordPairKind::COORDS_KIND_AZALT:
return serialize_pair_func(value.operator MccSkyAZALT());
case MccCoordPairKind::COORDS_KIND_XY:
return serialize_pair_func(value.operator MccGenXY());
default:
return serialize_pair_func(value.operator MccGenXY()); // ???????!!!!!!!!!!!
}
} else {
MccSkyRADEC_ICRS radec_icrs;
MccSkyRADEC_OBS radec_obs;
MccSkyHADEC_OBS hadec_obs;
MccSkyRADEC_APP radec_app;
MccSkyHADEC_APP hadec_app;
MccSkyAZZD azzd;
// MccGenXY xy;
if (value.pairKind() == MccCoordPairKind::COORDS_KIND_RADEC_ICRS) {
auto ep_now = MccCelestialCoordEpoch::now();
radec_obs.setEpoch(ep_now);
radec_app.setEpoch(ep_now);
hadec_obs.setEpoch(ep_now);
hadec_app.setEpoch(ep_now);
azzd.setEpoch(ep_now);
} else {
auto ep = value.epoch();
radec_obs.setEpoch(ep);
radec_app.setEpoch(ep);
hadec_obs.setEpoch(ep);
hadec_app.setEpoch(ep);
azzd.setEpoch(ep);
}
auto prev_format = this->_coordFormat.load();
if (skpt_fmt == SKYPOINT_FORMAT_FULL) { // RA_ICRS, DEC_ICRS, RA_APP, DEC_APP
auto err = value.to(radec_icrs, radec_app);
if (err) {
return mcc_deduced_err(err, MccSerializerErrorCode::ERROR_COORD_TRANSFORM);
}
// RA_ICRS is in sexagesimal hours
if (prev_format != base_ser_angle_t::CFMT_DEGREES) {
this->setCoordFormat(base_ser_angle_t::CFMT_SGM_HOURS);
}
auto err_ang = base_ser_angle_t::operator()(output, MccAngle{(double)radec_icrs.x()});
if (err_ang) {
return mcc_deduced_err(err_ang, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
std::format_to(std::back_inserter(output), "{}", this->_elementDelimiter);
// DEC_ICRS is in sexagesimal degrees
if (prev_format != base_ser_angle_t::CFMT_DEGREES) {
this->setCoordFormat(base_ser_angle_t::CFMT_SGM_DEGS);
}
err_ang = base_ser_angle_t::operator()(output, MccAngle{(double)radec_icrs.y()});
if (err_ang) {
return mcc_deduced_err(err_ang, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
std::format_to(std::back_inserter(output), "{}", this->_elementDelimiter);
// RA_APP is in sexagesimal hours
if (prev_format != base_ser_angle_t::CFMT_DEGREES) {
this->setCoordFormat(base_ser_angle_t::CFMT_SGM_HOURS);
}
err_ang = base_ser_angle_t::operator()(output, MccAngle{(double)radec_app.x()});
if (err_ang) {
return mcc_deduced_err(err_ang, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
std::format_to(std::back_inserter(output), "{}", this->_elementDelimiter);
// DEC_APP is in sexagesimal degrees
if (prev_format != base_ser_angle_t::CFMT_DEGREES) {
this->setCoordFormat(base_ser_angle_t::CFMT_SGM_DEGS);
}
err_ang = base_ser_angle_t::operator()(output, MccAngle{(double)radec_app.y()});
if (err_ang) {
return mcc_deduced_err(err_ang, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
std::format_to(std::back_inserter(output), "{}", this->_elementDelimiter);
}
if (skpt_fmt == SKYPOINT_FORMAT_OBS || skpt_fmt == SKYPOINT_FORMAT_FULL) { // RA_OBS, DEC_OBS, AZ, ZD
auto err = value.to(radec_obs, azzd);
if (err) {
return mcc_deduced_err(err, MccSerializerErrorCode::ERROR_COORD_TRANSFORM);
}
// RA_OBS is in sexagesimal hours
if (prev_format != base_ser_angle_t::CFMT_DEGREES) {
this->setCoordFormat(base_ser_angle_t::CFMT_SGM_HOURS);
}
auto err_ang = base_ser_angle_t::operator()(output, MccAngle{(double)radec_obs.x()});
if (err_ang) {
return mcc_deduced_err(err_ang, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
std::format_to(std::back_inserter(output), "{}", this->_elementDelimiter);
// DEC_OBS, AZ and ZD are in sexagesimal degrees
if (prev_format != base_ser_angle_t::CFMT_DEGREES) {
this->setCoordFormat(base_ser_angle_t::CFMT_SGM_DEGS);
}
err_ang = base_ser_angle_t::operator()(output, MccAngle{(double)radec_obs.y()});
if (err_ang) {
return mcc_deduced_err(err_ang, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
std::format_to(std::back_inserter(output), "{}", this->_elementDelimiter);
err_ang = base_ser_angle_t::operator()(output, MccAngle{(double)azzd.x()});
if (err_ang) {
return mcc_deduced_err(err_ang, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
std::format_to(std::back_inserter(output), "{}", this->_elementDelimiter);
err_ang = base_ser_angle_t::operator()(output, MccAngle{(double)azzd.y()});
if (err_ang) {
return mcc_deduced_err(err_ang, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
std::format_to(std::back_inserter(output), "{}", this->_elementDelimiter);
}
if (skpt_fmt == SKYPOINT_FORMAT_FULL) { // HA_APP
auto err = value.to(hadec_app);
if (err) {
return mcc_deduced_err(err, MccSerializerErrorCode::ERROR_COORD_TRANSFORM);
}
// HA_APP is in sexagesimal hours
if (prev_format != base_ser_angle_t::CFMT_DEGREES) {
this->setCoordFormat(base_ser_angle_t::CFMT_SGM_HOURS);
}
auto err_ang = base_ser_angle_t::operator()(output, MccAngle{(double)hadec_app.x()});
if (err_ang) {
return mcc_deduced_err(err_ang, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
std::format_to(std::back_inserter(output), "{}", this->_elementDelimiter);
}
if (skpt_fmt == SKYPOINT_FORMAT_OBS) { // HA_OBS
auto err = value.to(hadec_obs);
if (err) {
return mcc_deduced_err(err, MccSerializerErrorCode::ERROR_COORD_TRANSFORM);
}
// HA_OBS is in sexagesimal hours
if (prev_format != base_ser_angle_t::CFMT_DEGREES) {
this->setCoordFormat(base_ser_angle_t::CFMT_SGM_HOURS);
}
auto err_ang = base_ser_angle_t::operator()(output, MccAngle{(double)hadec_obs.x()});
if (err_ang) {
return mcc_deduced_err(err_ang, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
std::format_to(std::back_inserter(output), "{}", this->_elementDelimiter);
}
if (skpt_fmt == SKYPOINT_FORMAT_APP) { // RA_APP, DEC_APP, HA_APP
auto err = value.to(radec_app, hadec_app);
if (err) {
return mcc_deduced_err(err, MccSerializerErrorCode::ERROR_COORD_TRANSFORM);
}
// RA_APP is in sexagesimal hours
if (prev_format != base_ser_angle_t::CFMT_DEGREES) {
this->setCoordFormat(base_ser_angle_t::CFMT_SGM_HOURS);
}
auto err_ang = base_ser_angle_t::operator()(output, MccAngle{(double)radec_app.x()});
if (err_ang) {
return mcc_deduced_err(err_ang, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
std::format_to(std::back_inserter(output), "{}", this->_elementDelimiter);
// DEC_APP is in sexagesimal degrees
if (prev_format != base_ser_angle_t::CFMT_DEGREES) {
this->setCoordFormat(base_ser_angle_t::CFMT_SGM_DEGS);
}
err_ang = base_ser_angle_t::operator()(output, MccAngle{(double)radec_app.y()});
if (err_ang) {
return mcc_deduced_err(err_ang, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
std::format_to(std::back_inserter(output), "{}", this->_elementDelimiter);
// HA_APP is in sexagesimal hours
if (prev_format != base_ser_angle_t::CFMT_DEGREES) {
this->setCoordFormat(base_ser_angle_t::CFMT_SGM_HOURS);
}
err_ang = base_ser_angle_t::operator()(output, MccAngle{(double)hadec_app.x()});
if (err_ang) {
return mcc_deduced_err(err_ang, MccSerializerErrorCode::ERROR_UNDERLYING_SERIALIZER);
}
std::format_to(std::back_inserter(output), "{}", this->_elementDelimiter);
}
this->setCoordFormat(prev_format); // restore previous value
// epoch of app/obs coordinates
auto ep = value.epoch();
if constexpr (std::convertible_to<decltype(ep), MccCelestialCoordEpoch>) {
auto err_e = base_ser_epoch_t::operator()(output, MccCelestialCoordEpoch{ep});
if (err_e) {
return err_e;
}
} else {
MccCelestialCoordEpoch ep1;
bool ok = ep1.fromMJD(ep.MJD());
if (!ok) {
return MccSerializerErrorCode::ERROR_INVALID_EPOCH;
}
auto err_e = (*this)(output, ep1);
if (err_e) {
return err_e;
}
}
}
return MccSerializerErrorCode::ERROR_OK;
}
}
protected:
std::atomic<SkyPointFormat> _skptFormat{SKYPOINT_FORMAT_FULL};
};
static_assert(mcc_serializer_c<MccSerializer<float>>, "!!!");
static_assert(mcc_serializer_c<MccSerializer<impl::MccAngle>>, "!!!");
static_assert(std::atomic<MccSerializer<impl::MccAngle>::SerializedCoordFormat>::is_always_lock_free, "!!!");
static_assert(std::atomic<MccSerializer<impl::MccAngle>::SexagesimalCoordPrec>::is_always_lock_free, "!!!");
static_assert(std::formattable<impl::MccAngle, char>, "!!!");
void f()
{
MccSerializer<impl::MccAngle> s;
std::string str;
s(str, impl::MccAngleALT{1.1});
}
} // namespace mcc::impl

8
mcc_telemetry.h
View File

@@ -286,6 +286,14 @@ public:
}
error_t getTarget(mcc_skypoint_c auto* sp)
{
sp = _enteredTargetPos;
return MccTelemetryErrorCode::ERROR_OK;
}
//
// blocks the current thread until telemetry data is received.
// the maximum blocking time is equal to the set timeout (see setTelemetryDataTimeout method)

43
tests/mcc_coord_test.cpp
View File

@@ -1,7 +1,8 @@
#include <iostream>
// #include <mcc_ccte_erfa.h>
#include <mcc_coordinate.h>
// #include <mcc_coordinate.h>
#include <mcc_deserializer.h>
#include <mcc_serializer.h>
using namespace mcc::impl;
@@ -25,15 +26,31 @@ void serialize(VT const& value)
{
MccSerializer<VT> ser;
std::string s;
mcc_serialization_params_t pars{};
pars.norm_sxgm = true;
pars.coordpair_format = mcc::MccSerializedCoordPairFormat::MCC_SERIALIZED_FORMAT_SXGM_HOURDEG;
auto err = ser(s, value);
auto err = ser(s, value, pars);
if (err) {
std::cout << "SERIALIZing ERR: " << err << "\n";
std::cout << "SERIALIZING ERR: " << err.message() << "\n";
} else {
std::cout << "SERIALIZED: " << s << "\n";
}
}
template <typename VT>
void deserialize(mcc::traits::mcc_input_char_range auto const& s, VT& value)
{
MccDeserializer<VT> deser;
auto err = deser(s, value);
if (err) {
std::cout << "DESERIALIZING ERR: " << err << "\n";
} else {
std::cout << "DESERIALIZION IS OK\n";
}
}
int main()
{
skypt_t::cctEngine.setStateERFA(saoras);
@@ -122,6 +139,9 @@ int main()
std::cout << "\tfor 'double' type: ";
serialize(v);
std::cout << "\tfor 'coord pair' type: ";
serialize(icrs);
std::cout << "\tfor 'coord pair' type: ";
serialize(radec_obs);
@@ -141,5 +161,22 @@ int main()
std::cout << "\tfor 'sky point' type: ";
serialize(pt);
std::cout << "\n\nDESERIALIZATION TEST:\n";
v = 0.0;
std::string s = "123.7687";
deserialize(s, v);
std::cout << "\tfor 'double' type: v = " << v << "\n";
s = " 11:22:33.453, -32.19820931,65632.87987987,RADEC-OBS ";
deserialize(s, pt);
pt.toAtSameEpoch(radec_obs);
std::cout << "\tfor 'sky point' type: x = " << radec_obs.x().sexagesimal(true)
<< ", y = " << radec_obs.y().degrees() << ", epoch = " << pt.epoch().MJD()
<< ", kind = " << MccCoordPairKindToStr(pt.pairKind()) << "\n";
return 0;
}

77
tests/mcc_netmsg_test.cpp Normal file
View File

@@ -0,0 +1,77 @@
#include <list>
#include <print>
#include <mcc_netserver_proto.h>
int main()
{
using msg1_t = mcc::network::MccNetMessage<std::string_view>;
using msg2_t = mcc::network::MccNetMessage<std::string>;
mcc::network::MccNetMessage msg3("ACK");
std::string_view sv{"TARGET 11:22:33.212; -0.23876984; RADEC "};
std::vector<char> arr{sv.begin(), sv.end()};
msg1_t msg1;
msg1.fromCharRange(arr);
std::println("msg.key = <{}>", msg1.keyword());
std::println("msg.par[1] = <{}>", msg1.param(1));
std::vector<double> vd{1.1, 2.2, 3.3};
msg2_t msg2("ACK", 12.43298042, "EEE", std::chrono::seconds(10), vd);
// msg2_t msg2("ACK");
std::println("msg.bytes = <{}>", msg2.byteRepr());
std::println("msg.key = <{}>", msg2.keyword());
std::println("msg.par[1] = <{}>", msg2.param(1));
std::println("msg.par[2] = <{}>", msg2.param(2));
auto p2 = msg2.paramValue<std::chrono::seconds>(2);
std::println("msg.parvalue[2] = <{}>", p2.value_or(std::chrono::seconds{}));
std::print("msg.parvalue[3] = <");
auto p3 = msg2.paramValue<decltype(vd)>(3);
if (p3.has_value()) {
for (auto const& el : p3.value()) {
std::print("{} ", el);
}
}
std::println(">");
std::println("msg.par[1-2] joined = <{}>", msg2.params(1, 2));
auto vv = msg2.params<std::list<std::string_view>>(1, 3);
std::print("msg.par[1-3] array = <");
for (auto const& el : vv) {
std::print("{} ", el);
}
std::println(">");
std::println("\n\n");
mcc::impl::MccSkyPoint spt(mcc::impl::MccSkyRADEC_APP{"10:00:00.0"_hms, 12.098687_degs});
msg2.construct("ACK", "MOUNT", mcc::MccSerializedAngleFormatPrec{3, 2}, spt);
std::println("msg2.bytes = <{}>", msg2.byteRepr());
auto spt_d = msg2.paramValue<mcc::impl::MccSkyPoint>(1);
if (spt_d) {
std::println("msg2.parvalue(1).pairKind() = {}", MccCoordPairKindToStr(spt_d->pairKind()));
std::println("msg2.parvalue(1).epoch() = {}", spt_d->epoch().MJD() + mcc::MCC_MJD_ZERO);
} else {
std::println("cannot deserialize MccSkyPoint value!");
}
msg2.construct("ACK", "MOUNT", mcc::MccSerializedCoordPairFormat::MCC_SERIALIZED_FORMAT_DEGREES, spt);
std::println("msg2.bytes = <{}>", msg2.byteRepr());
return 0;
}

41
tests/mcc_telemetry_test.cpp
View File

@@ -3,9 +3,9 @@
#include <random>
#include <mcc_pcm.h>
#include <mcc_serializer.h>
#include <mcc_telemetry.h>
static std::random_device rd;
static std::mt19937 gen(rd());
static std::uniform_int_distribution<long> tm_distrib(100, 700);
@@ -61,6 +61,32 @@ struct hw_t {
}
};
template <>
struct std::formatter<hw_t::hardware_movement_state_t, char> : std::formatter<std::string_view> {
auto format(hw_t::hardware_movement_state_t e, auto& ctx) const
{
return formatter<std::string_view>::format(e == hw_t::hardware_movement_state_t::HW_MOVE_ERROR ? "ERROR"
: e == hw_t::hardware_movement_state_t::HW_MOVE_STOPPED ? "STOPPED"
: e == hw_t::hardware_movement_state_t::HW_MOVE_STOPPING ? "STOPPING"
: e == hw_t::hardware_movement_state_t::HW_MOVE_SLEWING ? "SLEWING"
: e == hw_t::hardware_movement_state_t::HW_MOVE_TRACKING ? "TRACKING"
: "UNKNOWN",
ctx);
}
};
// template <>
// struct std::formatter<hw_t::hardware_movement_state_t, char>
// : std::formatter<std::underlying_type_t<hw_t::hardware_movement_state_t>, char> {
// auto format(hw_t::hardware_movement_state_t e, auto& ctx) const
// {
// return formatter<std::underlying_type_t<hw_t::hardware_movement_state_t>>::format(
// std::underlying_type_t<hw_t::hardware_movement_state_t>(e), ctx);
// }
// };
static_assert(mcc::mcc_hardware_c<hw_t>, "!!!!!");
@@ -86,5 +112,18 @@ int main()
}
}
mcc::impl::MccSerializer<typename t_t::telemetry_data_t> ser;
std::string str;
auto err = ser(str, tdata);
if (err) {
std::cout << "ERR: " << err.message() << "\n";
} else {
std::cout << "\n\n";
std::cout << str << "\n";
}
return 0;
}