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f1x1t:myx-cmake
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compare: f1x1t:87f4c854d859116337cd1dc4da820c9494e9e78e
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f1x1t:myx-cmake
f1x1t:master

3 Commits
94616ba6bc ... 87f4c854d8

Author SHA1 Message Date
Andrey Astafyev
87f4c854d8 Обновление подмодулей 2020-05-06 17:59:39 +03:00
Andrey Astafyev
00be8cd00f Математические функции перенесены в отдельную библиотеку 2020-04-27 11:13:15 +03:00
Andrey Astafyev
d264077648 Обновление 2020-04-27 10:25:29 +03:00
47 changed files with 540 additions and 1412 deletions
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1
CMakeLists.txt
View File

@ -43,7 +43,6 @@ find_package(Qt5 COMPONENTS Core Network REQUIRED)
add_subdirectory(src/myx/base)
add_subdirectory(src/myx/filesystem)
add_subdirectory(src/myx/qt)
add_subdirectory(src/myx/math)
# Примеры
if(MYXLIB_BUILD_EXAMPLES OR MYXLIB_BUILD_EXAMPLES_HO)

2
cmake/cmlib

@ -1 +1 @@
Subproject commit 9df188963e5980d305dd50d721978ccdd997a8c3
Subproject commit 23be253a8db87d51c25a67ffc41c452e5b8f58d5

2
cmake/etc/uncrustify

@ -1 +1 @@
Subproject commit 0cd764fc187ab3b66cb31a5549f13b3336858894
Subproject commit 959608f6b5d8c6e4add9f9e7422109bc6b795a5f

2
cmake/find

@ -1 +1 @@
Subproject commit d0bc6e71e9c613eaaecca62eaf445d647f5216ed
Subproject commit 00bbf686cdb5bd32ba7105bec1234c85aee6f0aa

4
examples/filesystem/01_minimal/minimal.cpp
View File

@ -11,8 +11,8 @@
namespace MF = myx::filesystem;
// Переменные для защиты экземпляра класса MF::PathsMT
std::atomic< MF::PathsMT* > MF::PathsMT::mInstance;
std::mutex MF::PathsMT::mMutex;
std::atomic< MF::PathsMT* > MF::PathsMT::sInstance;
std::mutex MF::PathsMT::sMutex;
int main( int argc, char** argv )

13
l10n/example-qt-translators_ru_RU.ts
View File

@ -1,17 +1,4 @@
<?xml version="1.0" encoding="utf-8"?>
<!DOCTYPE TS>
<TS version="2.1" language="ru_RU">
<context>
<name>QObject</name>
<message>
<location filename="../examples/qt/01_translators/translators.cpp" line="16"/>
<source>Yes</source>
<translation>Да</translation>
</message>
<message>
<location filename="../examples/qt/01_translators/translators.cpp" line="18"/>
<source>Cancel</source>
<translation>Отмена</translation>
</message>
</context>
</TS>

3
src/myx/base/CMakeLists.txt
View File

@ -9,7 +9,6 @@ set(TRGT_cpp
# Список заголовочных файлов
set(TRGT_hpp
${CMAKE_CURRENT_SOURCE_DIR}/config.hpp
${CMAKE_CURRENT_SOURCE_DIR}/config-inl.hpp
${CMAKE_CURRENT_SOURCE_DIR}/limits.hpp
${CMAKE_CURRENT_SOURCE_DIR}/enum_bitmask_operations.hpp)
@ -47,6 +46,8 @@ if(MYXLIB_BUILD_LIBRARIES)
if(BUILD_SHARED_LIBS)
install(TARGETS ${TRGT}_shared COMPONENT main LIBRARY DESTINATION ${CMAKE_INSTALL_LIBDIR})
endif()
else()
install(FILES ${TRGT_cpp} COMPONENT base-dev DESTINATION ${CMAKE_INSTALL_INCLUDEDIR}/${PROJECT_NAME}/${TRGT})
endif()
generate_pkgconfig(myx-${TRGT} COMPONENT base-dev INSTALL_LIBRARY ${MYXLIB_BUILD_LIBRARIES})

10
src/myx/base/config-inl.hpp
View File

@ -1,10 +0,0 @@
#ifndef MYX_BASE_CONFIG_INL_HPP_
#define MYX_BASE_CONFIG_INL_HPP_
#pragma once
#ifndef MYXLIB_HEADER_ONLY
#include <myx/base/config.hpp>
#endif
#endif // MYX_BASE_CONFIG_INL_HPP_

11
src/myx/base/config.cpp
View File

@ -1,5 +1,10 @@
#ifndef MYXLIB_BUILD_LIBRARIES
#error Define MYXLIB_BUILD_LIBRARIES to compile this file.
#ifndef MYX_BASE_CONFIG_CPP_
#define MYX_BASE_CONFIG_CPP_
#ifndef MYXLIB_HEADER_ONLY
#include <myx/base/config.hpp>
#else
#pragma once
#endif
#include <myx/base/config-inl.hpp>
#endif // MYX_BASE_CONFIG_CPP_

2
src/myx/base/config.hpp
View File

@ -23,7 +23,7 @@
#endif // ifdef MYXLIB_BUILD_LIBRARIES
#ifdef MYXLIB_HEADER_ONLY
#include "config-inl.hpp"
#include "config.cpp"
#endif
#endif // MYX_BASE_CONFIG_HPP_

5
src/myx/base/enum_bitmask_operations.hpp
View File

@ -12,7 +12,7 @@ namespace base {
template< typename Enum >
struct EnableBitMaskOperators
{
static const bool k_Enable = false;
static const bool kEnable = false;
};
template< typename Enum >
@ -47,11 +47,12 @@ operator |( Enum lhs, Enum rhs )
* ENABLE_BITMASK_OPERATORS(ns::Permissions)
*/
// NOLINTNEXTLINE(cppcoreguidelines-macro-usage)
#define ENABLE_BITMASK_OPERATORS( x ) \
template<> \
struct myx::base::EnableBitMaskOperators< x > \
{ \
static const bool k_Enable = true; \
static const bool kEnable = true; \
};
#endif // ifndef MYX_BASE_ENUM_BITWISE_OPERATIONS_HPP_

6
src/myx/base/limits.hpp
View File

@ -12,17 +12,17 @@ namespace base {
/**
* @brief Константа, представляющая значение, не являющееся числом, для типа float
*/
constexpr float k_FloatNAN { std::numeric_limits< float >::quiet_NaN() };
constexpr float kFloatNAN { std::numeric_limits< float >::quiet_NaN() };
/**
* @brief Константа, представляющая значение, не являющееся числом, для типа double
*/
constexpr double k_DoubleNAN { std::numeric_limits< double >::quiet_NaN() };
constexpr double kDoubleNAN { std::numeric_limits< double >::quiet_NaN() };
/**
* @brief Константа, представляющая значение, не являющееся числом, для типа long double
*/
constexpr double k_LongDoubleNAN { std::numeric_limits< long double >::quiet_NaN() };
constexpr double kLongDoubleNAN { std::numeric_limits< long double >::quiet_NaN() };
} // namespace base

7
src/myx/filesystem/CMakeLists.txt
View File

@ -12,10 +12,7 @@ set(TRGT_cpp
set(TRGT_hpp
${CMAKE_CURRENT_SOURCE_DIR}/current_executable.hpp
${CMAKE_CURRENT_SOURCE_DIR}/paths.hpp
${CMAKE_CURRENT_SOURCE_DIR}/paths_mt.hpp
${CMAKE_CURRENT_SOURCE_DIR}/current_executable-inl.hpp
${CMAKE_CURRENT_SOURCE_DIR}/paths-inl.hpp
${CMAKE_CURRENT_SOURCE_DIR}/paths_mt-inl.hpp)
${CMAKE_CURRENT_SOURCE_DIR}/paths_mt.hpp)
set(TRGT_headers ${TRGT_hpp})
# cmake-format: on
@ -54,6 +51,8 @@ if(MYXLIB_BUILD_LIBRARIES)
if(BUILD_SHARED_LIBS)
install(TARGETS ${TRGT}_shared COMPONENT main LIBRARY DESTINATION ${CMAKE_INSTALL_LIBDIR})
endif()
else()
install(FILES ${TRGT_cpp} COMPONENT base-dev DESTINATION ${CMAKE_INSTALL_INCLUDEDIR}/${PROJECT_NAME}/${TRGT})
endif()
generate_pkgconfig(myx-${TRGT} COMPONENT base-dev INSTALL_LIBRARY ${MYXLIB_BUILD_LIBRARIES})

41
src/myx/filesystem/current_executable-inl.hpp
View File

@ -1,41 +0,0 @@
#ifndef MYX_BASE_CURRENT_EXECUTABLE_INL_HPP_
#define MYX_BASE_CURRENT_EXECUTABLE_INL_HPP_
#pragma once
#ifndef MYXLIB_HEADER_ONLY
#include <myx/filesystem/current_executable.hpp>
#endif
#include <myx/base/config.hpp>
#include <paths.h>
#include <QCoreApplication>
#include <QString>
namespace myx {
namespace filesystem {
#if !defined ( __linux__ )
error "Class CurrentExecutable is supported only in Linux"
#endif
MYXLIB_INLINE CurrentExecutable::CurrentExecutable() :
m_procFilePath( QStringLiteral( "/proc/self/exe" ) )
{
m_canonicalFilePath = m_procFilePath.canonicalFilePath();
}
MYXLIB_INLINE const QFileInfo& CurrentExecutable::canonicalFilePath() const
{
return( m_canonicalFilePath );
}
} // namespace filesystem
} // namespace myx
#endif // MYX_BASE_CURRENT_EXECUTABLE_INL_HPP_

42
src/myx/filesystem/current_executable.cpp
View File

@ -1,5 +1,41 @@
#ifndef MYXLIB_BUILD_LIBRARIES
#error Define MYXLIB_BUILD_LIBRARIES to compile this file.
#ifndef MYX_BASE_CURRENT_EXECUTABLE_CPP_
#define MYX_BASE_CURRENT_EXECUTABLE_CPP_
#ifndef MYXLIB_HEADER_ONLY
#include <myx/filesystem/current_executable.hpp>
#else
#pragma once
#endif
#include <myx/filesystem/current_executable-inl.hpp>
#include <myx/base/config.hpp>
#include <paths.h>
#include <QCoreApplication>
#include <QString>
namespace myx {
namespace filesystem {
#if !defined ( __linux__ )
error "Class CurrentExecutable is supported only in Linux"
#endif
MYXLIB_INLINE CurrentExecutable::CurrentExecutable() :
m_procFilePath( QStringLiteral( "/proc/self/exe" ) )
{
m_canonicalFilePath = m_procFilePath.canonicalFilePath();
}
MYXLIB_INLINE const QFileInfo& CurrentExecutable::canonicalFilePath() const
{
return( m_canonicalFilePath );
}
} // namespace filesystem
} // namespace myx
#endif // MYX_BASE_CURRENT_EXECUTABLE_CPP_

2
src/myx/filesystem/current_executable.hpp
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@ -45,7 +45,7 @@ public:
} // namespace myx
#ifdef MYXLIB_HEADER_ONLY
#include "current_executable-inl.hpp"
#include "current_executable.cpp"
#endif
#endif // MYX_FILESYSTEM_CURRENT_EXECUTABLE_HPP_

359
src/myx/filesystem/paths-inl.hpp
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@ -1,359 +0,0 @@
#ifndef MYX_BASE_PATHS_INL_HPP_
#define MYX_BASE_PATHS_INL_HPP_
#pragma once
#ifndef MYXLIB_HEADER_ONLY
#include <myx/filesystem/paths.hpp>
#endif
#include <myx/base/config.hpp>
#include <myx/filesystem/current_executable.hpp>
#include <paths.h>
#include <QCoreApplication>
#include <QString>
namespace myx {
namespace filesystem {
MYXLIB_INLINE Paths::Paths() = default;
MYXLIB_INLINE Paths::HierarchyType Paths::getHierarchyType()
{
QRegExp binUnityRegexp( "/s*bin/unity$" );
QRegExp binRegexp( "/s*bin$" );
auto binaryDir = m_currentExecutable.m_canonicalFilePath.canonicalPath();
if ( binUnityRegexp.indexIn( binaryDir ) >= 0 )
{
binaryDir.remove( binUnityRegexp );
QFileInfo etcDirInfo { binaryDir + "/etc" };
if ( !etcDirInfo.isDir() || !etcDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo constDataDirInfo { binaryDir + "/files/data" };
if ( !constDataDirInfo.isDir() || !constDataDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo varDataDirInfo { binaryDir + "/files/lib" };
if ( !varDataDirInfo.isDir() || !varDataDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
QFileInfo logDirInfo { binaryDir + "/files/log" };
if ( !logDirInfo.isDir() || !logDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
m_systemConfigDirectory = etcDirInfo.canonicalFilePath();
m_systemConstDataDirectory = constDataDirInfo.canonicalFilePath();
m_systemVarDataDirectory = varDataDirInfo.canonicalFilePath();
m_systemLogDirectory = logDirInfo.canonicalFilePath();
return ( HierarchyType::kDevelopment );
}
if ( binRegexp.indexIn( binaryDir ) == -1 )
{
return ( HierarchyType::kFlat );
}
QRegExp optRegexp( "^/opt(/|/.+/)" + m_projectName + "/" );
if ( optRegexp.indexIn( binaryDir ) >= 0 )
{
binaryDir.remove( binRegexp );
QFileInfo etcDirInfo { binaryDir + "/etc" };
if ( !etcDirInfo.isDir() || !etcDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo constDataDirInfo { binaryDir + "/files/data" };
if ( !constDataDirInfo.isDir() || !constDataDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo varDataDirInfo { binaryDir + "/files/lib" };
if ( !varDataDirInfo.isDir() || !varDataDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
QFileInfo logDirInfo { binaryDir + "/files/log" };
if ( !logDirInfo.isDir() || !logDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
m_systemConfigDirectory = etcDirInfo.canonicalFilePath();
m_systemConstDataDirectory = constDataDirInfo.canonicalFilePath();
m_systemVarDataDirectory = varDataDirInfo.canonicalFilePath();
m_systemLogDirectory = logDirInfo.canonicalFilePath();
return ( HierarchyType::kOpt );
}
if ( binaryDir.startsWith( QStringLiteral( "/usr/local" ) ) )
{
QFileInfo etcDirInfo { "/usr/local/etc/" + m_projectName };
if ( !etcDirInfo.isDir() || !etcDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo constDataDirInfo { "/usr/local/share/" + m_projectName };
if ( !constDataDirInfo.isDir() || !constDataDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo varDataDirInfo { "/var/lib/" + m_projectName };
if ( !varDataDirInfo.isDir() || !varDataDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
QFileInfo logDirInfo { "/var/log/" + m_projectName };
if ( !logDirInfo.isDir() || !logDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
m_systemConfigDirectory = etcDirInfo.canonicalFilePath();
m_systemConstDataDirectory = constDataDirInfo.canonicalFilePath();
m_systemVarDataDirectory = varDataDirInfo.canonicalFilePath();
m_systemLogDirectory = logDirInfo.canonicalFilePath();
return ( HierarchyType::kUsr );
}
if ( binaryDir.startsWith( QStringLiteral( "/usr" ) ) )
{
QFileInfo etcDirInfo { "/etc/" + m_projectName };
if ( !etcDirInfo.isDir() || !etcDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo constDataDirInfo { "/usr/share/" + m_projectName };
if ( !constDataDirInfo.isDir() || !constDataDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo varDataDirInfo { "/var/lib/" + m_projectName };
if ( !varDataDirInfo.isDir() || !varDataDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
QFileInfo logDirInfo { "/var/log/" + m_projectName };
if ( !logDirInfo.isDir() || !logDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
m_systemConfigDirectory = etcDirInfo.canonicalFilePath();
m_systemConstDataDirectory = constDataDirInfo.canonicalFilePath();
m_systemVarDataDirectory = varDataDirInfo.canonicalFilePath();
m_systemLogDirectory = logDirInfo.canonicalFilePath();
return ( HierarchyType::kUsr );
}
if ( binaryDir.startsWith( m_homeDirectory.canonicalPath() + "/.local/bin" ) ||
binaryDir.startsWith( m_homeDirectory.canonicalPath() + "/bin" ) )
{
QFileInfo etcDirInfo { m_userConfigDirectory.canonicalPath() };
if ( !etcDirInfo.isDir() || !etcDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo constDataDirInfo { m_userConstDataDirectory.canonicalPath() };
if ( !constDataDirInfo.isDir() || !constDataDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo varDataDirInfo { m_userVarDataDirectory.canonicalPath() };
if ( !varDataDirInfo.isDir() || !varDataDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
QFileInfo logDirInfo { m_userLogDirectory.canonicalPath() };
if ( !logDirInfo.isDir() || !logDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
m_systemConfigDirectory = etcDirInfo.canonicalFilePath();
m_systemConstDataDirectory = constDataDirInfo.canonicalFilePath();
m_systemVarDataDirectory = varDataDirInfo.canonicalFilePath();
m_systemLogDirectory = logDirInfo.canonicalFilePath();
return( HierarchyType::kHome );
}
binaryDir.remove( binRegexp );
QFileInfo etcDirInfo { binaryDir + "/etc" };
if ( !etcDirInfo.isDir() || !etcDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo constDataDirInfo { binaryDir + "/files/data" };
if ( !constDataDirInfo.isDir() || !constDataDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo varDataDirInfo { binaryDir + "/files/lib" };
if ( !varDataDirInfo.isDir() || !varDataDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
QFileInfo logDirInfo { binaryDir + "/files/log" };
if ( !logDirInfo.isDir() || !logDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
m_systemConfigDirectory = etcDirInfo.canonicalFilePath();
m_systemConstDataDirectory = constDataDirInfo.canonicalFilePath();
m_systemVarDataDirectory = varDataDirInfo.canonicalFilePath();
m_systemLogDirectory = logDirInfo.canonicalFilePath();
return ( HierarchyType::kDevelopment );
} // Paths::getHierarchyType
MYXLIB_INLINE bool Paths::init( const QString& projectDir, const QString& configFileExtension )
{
m_projectName = projectDir.isEmpty() ? m_currentExecutable.m_canonicalFilePath.fileName()
: projectDir;
m_configFileExtension = configFileExtension.isEmpty() ? QStringLiteral( "conf" )
: configFileExtension;
m_configFileName = m_projectName + "." + m_configFileExtension;
m_homeDirectory = QDir::homePath();
m_tempDirectory = QDir::tempPath();
auto configHome = QString::fromLocal8Bit( qgetenv( "XDG_CONFIG_HOME" ) );
if ( configHome.isEmpty() )
{
configHome = m_homeDirectory.canonicalPath() + "/.config";
}
m_userConfigDirectory = configHome + "/" + m_projectName;
auto dataHome = QString::fromLocal8Bit( qgetenv( "XDG_DATA_HOME" ) );
if ( dataHome.isEmpty() )
{
dataHome = m_homeDirectory.canonicalPath() + "/.local/share";
}
dataHome += "/" + m_projectName;
m_userConstDataDirectory = dataHome + "/data";
m_userVarDataDirectory = dataHome + "/lib";
m_userLogDirectory = dataHome + "/log";
m_hierarchyType = getHierarchyType();
if ( m_hierarchyType == HierarchyType::kFlat )
{
m_systemConstDataDirectory = m_currentExecutable.m_canonicalFilePath.canonicalPath();
m_systemVarDataDirectory = m_currentExecutable.m_canonicalFilePath.canonicalPath();
m_systemConfigDirectory = m_currentExecutable.m_canonicalFilePath.canonicalPath();
m_systemLogDirectory = m_currentExecutable.m_canonicalFilePath.canonicalPath();
}
m_configFilePath = m_systemConfigDirectory.canonicalPath() + "/" + m_configFileName;
return( true );
} // Paths::updatePaths
MYXLIB_INLINE bool Paths::makeDefaultDirectories()
{
bool status = true;
if ( !m_userConfigDirectory.mkpath( m_userConfigDirectory.absolutePath() ) ) { status = false; }
if ( !m_userVarDataDirectory.mkpath( m_userVarDataDirectory.absolutePath() ) ) { status = false; }
if ( !m_userConstDataDirectory.mkpath( m_userConstDataDirectory.absolutePath() ) ) { status = false; }
if ( !m_userLogDirectory.mkpath( m_userLogDirectory.absolutePath() ) ) { status = false; }
return( status );
}
MYXLIB_INLINE QString Paths::findConfigFile( const QString& defaultConfigFile )
{
if ( !defaultConfigFile.isEmpty() && QFileInfo( defaultConfigFile ).isReadable() )
{
m_configFilePath = defaultConfigFile;
return( defaultConfigFile );
}
auto fileName = QString::fromLocal8Bit( qgetenv( QCoreApplication::applicationName()
.toUpper().toUtf8() + "_CONFIG" ) );
if ( QFileInfo( fileName ).isReadable() )
{
m_configFilePath = fileName;
return( fileName );
}
if ( QFileInfo( m_configFilePath ).isReadable() )
{
return( m_configFilePath.absoluteFilePath() );
}
return( QString() );
} // Paths::findConfigFile
MYXLIB_INLINE QDir Paths::executableFileDirectory() const
{
return( m_currentExecutable.m_canonicalFilePath.dir() );
}
MYXLIB_INLINE const QDir& Paths::userConfigDirectory() const
{
return( m_userConfigDirectory );
}
MYXLIB_INLINE const QDir& Paths::systemConfigDirectory() const
{
return( m_systemConfigDirectory );
}
MYXLIB_INLINE const QFileInfo& Paths::configFilePath() const
{
return( m_configFilePath );
}
MYXLIB_INLINE const QString& Paths::configFileName() const
{
return( m_configFileName );
}
MYXLIB_INLINE const QString& Paths::configFileExtension() const
{
return( m_configFileExtension );
}
MYXLIB_INLINE const QDir& Paths::userVarDataDirectory() const
{
return( m_userVarDataDirectory );
}
MYXLIB_INLINE const QDir& Paths::systemVarDataDirectory() const
{
return( m_systemVarDataDirectory );
}
MYXLIB_INLINE const QDir& Paths::userConstDataDirectory() const
{
return( m_userConstDataDirectory );
}
MYXLIB_INLINE const QDir& Paths::systemConstDataDirectory() const
{
return( m_systemConstDataDirectory );
}
MYXLIB_INLINE const QDir& Paths::userLogDirectory() const
{
return( m_userLogDirectory );
}
MYXLIB_INLINE const QDir& Paths::systemLogDirectory() const
{
return( m_systemLogDirectory );
}
MYXLIB_INLINE const QDir& Paths::tempDirectory() const
{
return( m_tempDirectory );
}
MYXLIB_INLINE const QDir& Paths::homeDirectory() const
{
return( m_homeDirectory );
}
MYXLIB_INLINE const QString& Paths::projectName() const
{
return( m_projectName );
}
MYXLIB_INLINE QString Paths::executableFileName() const
{
return( m_currentExecutable.m_canonicalFilePath.fileName() );
}
MYXLIB_INLINE const QFileInfo& Paths::executableFilePath() const
{
return( m_currentExecutable.m_canonicalFilePath );
}
} // namespace filesystem
} // namespace myx
#endif // MYX_BASE_PATHS_INL_HPP_

360
src/myx/filesystem/paths.cpp
View File

@ -1,5 +1,359 @@
#ifndef MYXLIB_BUILD_LIBRARIES
#error Define MYXLIB_BUILD_LIBRARIES to compile this file.
#ifndef MYX_BASE_PATHS_CPP_
#define MYX_BASE_PATHS_CPP_
#ifndef MYXLIB_HEADER_ONLY
#include <myx/filesystem/paths.hpp>
#else
#pragma once
#endif
#include <myx/filesystem/paths-inl.hpp>
#include <myx/base/config.hpp>
#include <myx/filesystem/current_executable.hpp>
#include <paths.h>
#include <QCoreApplication>
#include <QString>
namespace myx {
namespace filesystem {
MYXLIB_INLINE Paths::Paths() = default;
MYXLIB_INLINE Paths::HierarchyType Paths::getHierarchyType() // V2008
{
QRegExp binUnityRegexp( "/s*bin/unity$" );
QRegExp binRegexp( "/s*bin$" );
auto binaryDir = m_currentExecutable.m_canonicalFilePath.canonicalPath();
if ( binUnityRegexp.indexIn( binaryDir ) >= 0 )
{
binaryDir.remove( binUnityRegexp );
QFileInfo etcDirInfo { binaryDir + "/etc" };
if ( !etcDirInfo.isDir() || !etcDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo constDataDirInfo { binaryDir + "/files/data" };
if ( !constDataDirInfo.isDir() || !constDataDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo varDataDirInfo { binaryDir + "/files/lib" };
if ( !varDataDirInfo.isDir() || !varDataDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
QFileInfo logDirInfo { binaryDir + "/files/log" };
if ( !logDirInfo.isDir() || !logDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
m_systemConfigDirectory = etcDirInfo.canonicalFilePath();
m_systemConstDataDirectory = constDataDirInfo.canonicalFilePath();
m_systemVarDataDirectory = varDataDirInfo.canonicalFilePath();
m_systemLogDirectory = logDirInfo.canonicalFilePath();
return ( HierarchyType::kDevelopment );
}
if ( binRegexp.indexIn( binaryDir ) == -1 )
{
return ( HierarchyType::kFlat );
}
QRegExp optRegexp( "^/opt(/|/.+/)" + m_projectName + "/" );
if ( optRegexp.indexIn( binaryDir ) >= 0 )
{
binaryDir.remove( binRegexp );
QFileInfo etcDirInfo { binaryDir + "/etc" };
if ( !etcDirInfo.isDir() || !etcDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo constDataDirInfo { binaryDir + "/files/data" };
if ( !constDataDirInfo.isDir() || !constDataDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo varDataDirInfo { binaryDir + "/files/lib" };
if ( !varDataDirInfo.isDir() || !varDataDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
QFileInfo logDirInfo { binaryDir + "/files/log" };
if ( !logDirInfo.isDir() || !logDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
m_systemConfigDirectory = etcDirInfo.canonicalFilePath();
m_systemConstDataDirectory = constDataDirInfo.canonicalFilePath();
m_systemVarDataDirectory = varDataDirInfo.canonicalFilePath();
m_systemLogDirectory = logDirInfo.canonicalFilePath();
return ( HierarchyType::kOpt );
}
if ( binaryDir.startsWith( QStringLiteral( "/usr/local" ) ) )
{
QFileInfo etcDirInfo { "/usr/local/etc/" + m_projectName };
if ( !etcDirInfo.isDir() || !etcDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo constDataDirInfo { "/usr/local/share/" + m_projectName };
if ( !constDataDirInfo.isDir() || !constDataDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo varDataDirInfo { "/var/lib/" + m_projectName };
if ( !varDataDirInfo.isDir() || !varDataDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
QFileInfo logDirInfo { "/var/log/" + m_projectName };
if ( !logDirInfo.isDir() || !logDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
m_systemConfigDirectory = etcDirInfo.canonicalFilePath();
m_systemConstDataDirectory = constDataDirInfo.canonicalFilePath();
m_systemVarDataDirectory = varDataDirInfo.canonicalFilePath();
m_systemLogDirectory = logDirInfo.canonicalFilePath();
return ( HierarchyType::kUsr );
}
if ( binaryDir.startsWith( QStringLiteral( "/usr" ) ) )
{
QFileInfo etcDirInfo { "/etc/" + m_projectName };
if ( !etcDirInfo.isDir() || !etcDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo constDataDirInfo { "/usr/share/" + m_projectName };
if ( !constDataDirInfo.isDir() || !constDataDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo varDataDirInfo { "/var/lib/" + m_projectName };
if ( !varDataDirInfo.isDir() || !varDataDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
QFileInfo logDirInfo { "/var/log/" + m_projectName };
if ( !logDirInfo.isDir() || !logDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
m_systemConfigDirectory = etcDirInfo.canonicalFilePath();
m_systemConstDataDirectory = constDataDirInfo.canonicalFilePath();
m_systemVarDataDirectory = varDataDirInfo.canonicalFilePath();
m_systemLogDirectory = logDirInfo.canonicalFilePath();
return ( HierarchyType::kUsr );
}
if ( binaryDir.startsWith( m_homeDirectory.canonicalPath() + "/.local/bin" ) ||
binaryDir.startsWith( m_homeDirectory.canonicalPath() + "/bin" ) )
{
QFileInfo etcDirInfo { m_userConfigDirectory.canonicalPath() };
if ( !etcDirInfo.isDir() || !etcDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo constDataDirInfo { m_userConstDataDirectory.canonicalPath() };
if ( !constDataDirInfo.isDir() || !constDataDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo varDataDirInfo { m_userVarDataDirectory.canonicalPath() };
if ( !varDataDirInfo.isDir() || !varDataDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
QFileInfo logDirInfo { m_userLogDirectory.canonicalPath() };
if ( !logDirInfo.isDir() || !logDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
m_systemConfigDirectory = etcDirInfo.canonicalFilePath();
m_systemConstDataDirectory = constDataDirInfo.canonicalFilePath();
m_systemVarDataDirectory = varDataDirInfo.canonicalFilePath();
m_systemLogDirectory = logDirInfo.canonicalFilePath();
return( HierarchyType::kHome );
}
binaryDir.remove( binRegexp );
QFileInfo etcDirInfo { binaryDir + "/etc" };
if ( !etcDirInfo.isDir() || !etcDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo constDataDirInfo { binaryDir + "/files/data" };
if ( !constDataDirInfo.isDir() || !constDataDirInfo.isReadable() ) { return( HierarchyType::kFlat ); }
QFileInfo varDataDirInfo { binaryDir + "/files/lib" };
if ( !varDataDirInfo.isDir() || !varDataDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
QFileInfo logDirInfo { binaryDir + "/files/log" };
if ( !logDirInfo.isDir() || !logDirInfo.isWritable() ) { return( HierarchyType::kFlat ); }
m_systemConfigDirectory = etcDirInfo.canonicalFilePath();
m_systemConstDataDirectory = constDataDirInfo.canonicalFilePath();
m_systemVarDataDirectory = varDataDirInfo.canonicalFilePath();
m_systemLogDirectory = logDirInfo.canonicalFilePath();
return ( HierarchyType::kDevelopment );
} // Paths::getHierarchyType
MYXLIB_INLINE bool Paths::init( const QString& projectDir, const QString& configFileExtension )
{
m_projectName = projectDir.isEmpty() ? m_currentExecutable.m_canonicalFilePath.fileName()
: projectDir;
m_configFileExtension = configFileExtension.isEmpty() ? QStringLiteral( "conf" )
: configFileExtension;
m_configFileName = m_projectName + "." + m_configFileExtension;
m_homeDirectory = QDir::homePath();
m_tempDirectory = QDir::tempPath();
auto configHome = QString::fromLocal8Bit( qgetenv( "XDG_CONFIG_HOME" ) );
if ( configHome.isEmpty() )
{
configHome = m_homeDirectory.canonicalPath() + "/.config";
}
m_userConfigDirectory = configHome + "/" + m_projectName;
auto dataHome = QString::fromLocal8Bit( qgetenv( "XDG_DATA_HOME" ) );
if ( dataHome.isEmpty() )
{
dataHome = m_homeDirectory.canonicalPath() + "/.local/share";
}
dataHome += "/" + m_projectName;
m_userConstDataDirectory = dataHome + "/data";
m_userVarDataDirectory = dataHome + "/lib";
m_userLogDirectory = dataHome + "/log";
m_hierarchyType = getHierarchyType();
if ( m_hierarchyType == HierarchyType::kFlat )
{
m_systemConstDataDirectory = m_currentExecutable.m_canonicalFilePath.canonicalPath();
m_systemVarDataDirectory = m_currentExecutable.m_canonicalFilePath.canonicalPath();
m_systemConfigDirectory = m_currentExecutable.m_canonicalFilePath.canonicalPath();
m_systemLogDirectory = m_currentExecutable.m_canonicalFilePath.canonicalPath();
}
m_configFilePath = m_systemConfigDirectory.canonicalPath() + "/" + m_configFileName;
return( true );
} // Paths::updatePaths
MYXLIB_INLINE bool Paths::makeDefaultDirectories()
{
bool status = true;
if ( !m_userConfigDirectory.mkpath( m_userConfigDirectory.absolutePath() ) ) { status = false; }
if ( !m_userVarDataDirectory.mkpath( m_userVarDataDirectory.absolutePath() ) ) { status = false; }
if ( !m_userConstDataDirectory.mkpath( m_userConstDataDirectory.absolutePath() ) ) { status = false; }
if ( !m_userLogDirectory.mkpath( m_userLogDirectory.absolutePath() ) ) { status = false; }
return( status );
}
MYXLIB_INLINE QString Paths::findConfigFile( const QString& defaultConfigFile )
{
if ( !defaultConfigFile.isEmpty() && QFileInfo( defaultConfigFile ).isReadable() )
{
m_configFilePath = defaultConfigFile;
return( defaultConfigFile );
}
auto fileName = QString::fromLocal8Bit( qgetenv( QCoreApplication::applicationName()
.toUpper().toUtf8() + "_CONFIG" ) );
if ( QFileInfo( fileName ).isReadable() )
{
m_configFilePath = fileName;
return( fileName );
}
if ( QFileInfo( m_configFilePath ).isReadable() )
{
return( m_configFilePath.absoluteFilePath() );
}
return( QString() );
} // Paths::findConfigFile
MYXLIB_INLINE QDir Paths::executableFileDirectory() const
{
return( m_currentExecutable.m_canonicalFilePath.dir() );
}
MYXLIB_INLINE const QDir& Paths::userConfigDirectory() const
{
return( m_userConfigDirectory );
}
MYXLIB_INLINE const QDir& Paths::systemConfigDirectory() const
{
return( m_systemConfigDirectory );
}
MYXLIB_INLINE const QFileInfo& Paths::configFilePath() const
{
return( m_configFilePath );
}
MYXLIB_INLINE const QString& Paths::configFileName() const
{
return( m_configFileName );
}
MYXLIB_INLINE const QString& Paths::configFileExtension() const
{
return( m_configFileExtension );
}
MYXLIB_INLINE const QDir& Paths::userVarDataDirectory() const
{
return( m_userVarDataDirectory );
}
MYXLIB_INLINE const QDir& Paths::systemVarDataDirectory() const
{
return( m_systemVarDataDirectory );
}
MYXLIB_INLINE const QDir& Paths::userConstDataDirectory() const
{
return( m_userConstDataDirectory );
}
MYXLIB_INLINE const QDir& Paths::systemConstDataDirectory() const
{
return( m_systemConstDataDirectory );
}
MYXLIB_INLINE const QDir& Paths::userLogDirectory() const
{
return( m_userLogDirectory );
}
MYXLIB_INLINE const QDir& Paths::systemLogDirectory() const
{
return( m_systemLogDirectory );
}
MYXLIB_INLINE const QDir& Paths::tempDirectory() const
{
return( m_tempDirectory );
}
MYXLIB_INLINE const QDir& Paths::homeDirectory() const
{
return( m_homeDirectory );
}
MYXLIB_INLINE const QString& Paths::projectName() const
{
return( m_projectName );
}
MYXLIB_INLINE QString Paths::executableFileName() const
{
return( m_currentExecutable.m_canonicalFilePath.fileName() );
}
MYXLIB_INLINE const QFileInfo& Paths::executableFilePath() const
{
return( m_currentExecutable.m_canonicalFilePath );
}
} // namespace filesystem
} // namespace myx
#endif // MYX_BASE_PATHS_CPP_

6
src/myx/filesystem/paths.hpp
View File

@ -102,8 +102,8 @@ public:
*/
static Paths& instance()
{
static Paths p;
return( p );
static Paths sPaths;
return( sPaths );
}
@ -223,7 +223,7 @@ public:
} // namespace myx
#ifdef MYXLIB_HEADER_ONLY
#include "paths-inl.hpp"
#include "paths.cpp"
#endif
#endif // MYX_FILESYSTEM_PATHS_HPP_

44
src/myx/filesystem/paths_mt-inl.hpp
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@ -1,44 +0,0 @@
#ifndef MYX_BASE_PATHS_MT_INL_HPP_
#define MYX_BASE_PATHS_MT_INL_HPP_
#pragma once
#ifndef MYXLIB_HEADER_ONLY
#include <myx/filesystem/paths_mt.hpp>
#endif
#include <myx/base/config.hpp>
#include <myx/filesystem/current_executable.hpp>
#include <paths.h>
#include <QCoreApplication>
#include <QString>
namespace myx {
namespace filesystem {
MYXLIB_INLINE PathsMT::PathsMT() = default;
MYXLIB_INLINE PathsMT& PathsMT::instance()
{
volatile PathsMT* localInstance = mInstance.load( std::memory_order_acquire );
if ( localInstance == nullptr )
{
std::lock_guard< std::mutex > myLock( mMutex );
localInstance = mInstance.load( std::memory_order_relaxed );
if ( localInstance == nullptr ) // -V1036
{
localInstance = new PathsMT();
mInstance.store( const_cast< PathsMT* >( localInstance ), std::memory_order_release ); // NOLINT
}
}
return( const_cast< PathsMT& >( *localInstance ) ); // NOLINT
}
} // namespace filesystem
} // namespace myx
#endif // MYX_BASE_PATHS_MT_INL_HPP_

45
src/myx/filesystem/paths_mt.cpp
View File

@ -1,5 +1,44 @@
#ifndef MYXLIB_BUILD_LIBRARIES
#error Define MYXLIB_BUILD_LIBRARIES to compile this file.
#ifndef MYX_BASE_PATHS_MT_CPP_
#define MYX_BASE_PATHS_MT_CPP_
#ifndef MYXLIB_HEADER_ONLY
#include <myx/filesystem/paths_mt.hpp>
#else
#pragma once
#endif
#include <myx/filesystem/paths_mt-inl.hpp>
#include <myx/base/config.hpp>
#include <myx/filesystem/current_executable.hpp>
#include <paths.h>
#include <QCoreApplication>
#include <QString>
namespace myx {
namespace filesystem {
MYXLIB_INLINE PathsMT::PathsMT() = default;
MYXLIB_INLINE PathsMT& PathsMT::instance()
{
volatile PathsMT* localInstance = sInstance.load( std::memory_order_acquire );
if ( localInstance == nullptr )
{
std::lock_guard< std::mutex > myLock( sMutex );
localInstance = sInstance.load( std::memory_order_relaxed );
if ( localInstance == nullptr ) // -V1036
{
localInstance = new PathsMT();
sInstance.store( const_cast< PathsMT* >( localInstance ), std::memory_order_release ); // NOLINT
}
}
return( const_cast< PathsMT& >( *localInstance ) ); // NOLINT
}
} // namespace filesystem
} // namespace myx
#endif // MYX_BASE_PATHS_MT_CPP_

6
src/myx/filesystem/paths_mt.hpp
View File

@ -31,8 +31,8 @@ class PathsMT : public Paths
PathsMT();
~PathsMT() = default;
static std::atomic< PathsMT* > mInstance;
static std::mutex mMutex;
static std::atomic< PathsMT* > sInstance;
static std::mutex sMutex;
public:
@ -53,7 +53,7 @@ public:
} // namespace myx
#ifdef MYXLIB_HEADER_ONLY
#include "paths_mt-inl.hpp"
#include "paths_mt.cpp"
#endif
#endif // MYX_FILESYSTEM_PATHS_MT_HPP_

75
src/myx/math/CMakeLists.txt
View File

@ -1,75 +0,0 @@
# Название основной цели и имя библиотеки в текущем каталоге
set(TRGT math)
# cmake-format: off
# Список файлов исходных текстов
set(TRGT_cpp
${CMAKE_CURRENT_SOURCE_DIR}/almost_equal_relative.cpp
${CMAKE_CURRENT_SOURCE_DIR}/almost_equal_relative_and_abs.cpp
${CMAKE_CURRENT_SOURCE_DIR}/almost_equal_ulps.cpp
${CMAKE_CURRENT_SOURCE_DIR}/almost_equal_ulps_and_abs.cpp
${CMAKE_CURRENT_SOURCE_DIR}/constants.cpp)
# Список заголовочных файлов
set(TRGT_hpp
${CMAKE_CURRENT_SOURCE_DIR}/all.hpp
${CMAKE_CURRENT_SOURCE_DIR}/almost_equal_relative.hpp
${CMAKE_CURRENT_SOURCE_DIR}/almost_equal_relative-inl.hpp
${CMAKE_CURRENT_SOURCE_DIR}/almost_equal_relative_and_abs.hpp
${CMAKE_CURRENT_SOURCE_DIR}/almost_equal_relative_and_abs-inl.hpp
${CMAKE_CURRENT_SOURCE_DIR}/almost_equal_ulps.hpp
${CMAKE_CURRENT_SOURCE_DIR}/almost_equal_ulps-inl.hpp
${CMAKE_CURRENT_SOURCE_DIR}/almost_equal_ulps_and_abs.hpp
${CMAKE_CURRENT_SOURCE_DIR}/almost_equal_ulps_and_abs-inl.hpp
${CMAKE_CURRENT_SOURCE_DIR}/constants.hpp
${CMAKE_CURRENT_SOURCE_DIR}/constants-inl.hpp
${CMAKE_CURRENT_SOURCE_DIR}/float_cmp_types.hpp
${CMAKE_CURRENT_SOURCE_DIR}/functions.hpp
${CMAKE_CURRENT_SOURCE_DIR}/radar.hpp
${CMAKE_CURRENT_SOURCE_DIR}/units.hpp)
set(TRGT_headers ${TRGT_hpp})
# cmake-format: on
add_library(${TRGT}-header-only INTERFACE)
target_sources(${TRGT}-header-only INTERFACE ${TRGT_headers})
target_include_directories(
${TRGT}-header-only SYSTEM INTERFACE "$<BUILD_INTERFACE:${CMAKE_CURRENT_LIST_DIR}/include>"
"$<INSTALL_INTERFACE:${CMAKE_INSTALL_INCLUDEDIR}>")
if(MYXLIB_BUILD_LIBRARIES)
add_common_library(${TRGT} OUTPUT_NAME myx-${TRGT} SOURCES ${TRGT_cpp} ${TRGT_headers})
common_target_properties(${TRGT})
# Создание цели для проверки утилитой clang-tidy
add_clang_tidy_check(${TRGT} ${TRGT_sources} ${TRGT_headers})
# Создание цели для проверки утилитой clang-analyze
add_clang_analyze_check(${TRGT} ${TRGT_sources} ${TRGT_headers})
# Создание цели для проверки утилитой clazy
add_clazy_check(${TRGT} ${TRGT_sources} ${TRGT_headers})
# Создание цели для проверки утилитой pvs-studio
add_pvs_check(${TRGT})
# Создание цели для автоматического форматирования кода
add_format_sources(${TRGT} ${TRGT_sources} ${TRGT_headers})
target_compile_definitions(${TRGT} PUBLIC MYXLIB_BUILD_LIBRARIES)
target_include_directories(${TRGT} SYSTEM PRIVATE ${CMAKE_SOURCE_DIR}/src)
cotire(${TRGT})
install(TARGETS ${TRGT}_static COMPONENT libs-dev ARCHIVE DESTINATION ${CMAKE_INSTALL_LIBDIR})
if(BUILD_SHARED_LIBS)
install(TARGETS ${TRGT}_shared COMPONENT main LIBRARY DESTINATION ${CMAKE_INSTALL_LIBDIR})
endif()
endif()
generate_pkgconfig(myx-${TRGT} COMPONENT base-dev INSTALL_LIBRARY ${MYXLIB_BUILD_LIBRARIES})
install(FILES ${TRGT_headers} COMPONENT base-dev DESTINATION ${CMAKE_INSTALL_INCLUDEDIR}/${PROJECT_NAME}/${TRGT})
# Цель, используемая только для установки заголовочных файлов без компиляции проекта
add_custom_target(${TRGT}-install-headers COMMAND "${CMAKE_COMMAND}" -DCMAKE_INSTALL_COMPONENT=base -P
"${CMAKE_BINARY_DIR}/cmake_install.cmake")

15
src/myx/math/all.hpp
View File

@ -1,15 +0,0 @@
#ifndef MYX_MATH_ALL_HPP_
#define MYX_MATH_ALL_HPP_
#pragma once
#include <myx/math/almost_equal_relative.hpp>
#include <myx/math/almost_equal_relative_and_abs.hpp>
#include <myx/math/almost_equal_ulps.hpp>
#include <myx/math/almost_equal_ulps_and_abs.hpp>
#include <myx/math/constants.hpp>
#include <myx/math/functions.hpp>
#include <myx/math/radar.hpp>
#include <myx/math/units.hpp>
#endif

51
src/myx/math/almost_equal_relative-inl.hpp
View File

@ -1,51 +0,0 @@
#ifndef MYX_MATH_ALMOST_EQUAL_RELATIVE_INL_HPP_
#define MYX_MATH_ALMOST_EQUAL_RELATIVE_INL_HPP_
#pragma once
#ifndef MYXLIB_HEADER_ONLY
#include <myx/math/almost_equal_relative.hpp>
#endif
#include <cmath>
namespace myx {
namespace math {
MYXLIB_INLINE bool almost_equal_relative( const float a, const float b,
const float maxRelDiff )
{
float diff = fabsf( a - b );
float aN = fabsf( a );
float bN = fabsf( b );
float largest = ( bN > aN ) ? bN : aN;
if ( diff <= largest * maxRelDiff )
{
return( true );
}
return( false );
}
MYXLIB_INLINE bool almost_equal_relative( const double a, const double b,
const double maxRelDiff )
{
double diff = fabs( a - b );
double aN = fabs( a );
double bN = fabs( b );
double largest = ( bN > aN ) ? bN : aN;
if ( diff <= largest * maxRelDiff )
{
return( true );
}
return( false );
}
} // namespace math
} // namespace myx
#endif // ifndef MYX_MATH_ALMOST_EQUAL_RELATIVE_INL_HPP_

5
src/myx/math/almost_equal_relative.cpp
View File

@ -1,5 +0,0 @@
#ifndef MYXLIB_BUILD_LIBRARIES
#error Define MYXLIB_BUILD_LIBRARIES to compile this file.
#endif
#include <myx/math/almost_equal_relative-inl.hpp>

39
src/myx/math/almost_equal_relative.hpp
View File

@ -1,39 +0,0 @@
#ifndef MYX_MATH_ALMOST_EQUAL_RELATIVE_HPP_
#define MYX_MATH_ALMOST_EQUAL_RELATIVE_HPP_
#pragma once
#include <myx/base/config.hpp>
#include <cfloat>
// https://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/
namespace myx {
namespace math {
/**
* @brief Проверка на равенство двух аргументов типа float.
* Параметр maxRelDiff определяет максимальную относительную допустимую разницу,
* при которой аргументы считаются равными.
*/
bool almost_equal_relative( float a, float b,
float maxRelDiff = FLT_EPSILON );
/**
* @brief Проверка на равенство двух аргументов типа double.
* Параметр maxRelDiff определяет максимальную относительную допустимую разницу,
* при которой аргументы считаются равными.
*/
bool almost_equal_relative( double a, double b,
double maxRelDiff = DBL_EPSILON );
} // namespace math
} // namespace myx
#ifdef MYXLIB_HEADER_ONLY
#include "almost_equal_relative-inl.hpp"
#endif
#endif // MYX_MATH_ALMOST_EQUAL_RELATIVE_HPP_

65
src/myx/math/almost_equal_relative_and_abs-inl.hpp
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@ -1,65 +0,0 @@
#ifndef MYX_MATH_ALMOST_EQUAL_RELATIVE_AND_ABS_INL_HPP_
#define MYX_MATH_ALMOST_EQUAL_RELATIVE_AND_ABS_INL_HPP_
#pragma once
#ifndef MYXLIB_HEADER_ONLY
#include <myx/math/almost_equal_relative_and_abs.hpp>
#endif
#include <cmath>
namespace myx {
namespace math {
MYXLIB_INLINE bool almost_equal_relative_and_abs( const float a, const float b,
const float maxAbsDiff, const float maxRelDiff )
{
// Check if the numbers are really close -- needed
// when comparing numbers near zero.
float diff = fabsf( a - b );
if ( diff <= maxAbsDiff )
{
return( true );
}
float aN = fabsf( a );
float bN = fabsf( b );
float largest = ( bN > aN ) ? bN : aN;
if ( diff <= largest * maxRelDiff )
{
return( true );
}
return( false );
}
MYXLIB_INLINE bool almost_equal_relative_and_abs( const double a, const double b,
const double maxAbsDiff, const double maxRelDiff )
{
// Check if the numbers are really close -- needed
// when comparing numbers near zero.
double diff = fabs( a - b );
if ( diff <= maxAbsDiff )
{
return( true );
}
double aN = fabs( a );
double bN = fabs( b );
double largest = ( bN > aN ) ? bN : aN;
if ( diff <= largest * maxRelDiff )
{
return( true );
}
return( false );
}
} // namespace math
} // namespace myx
#endif // ifndef MYX_MATH_ALMOST_EQUAL_RELATIVE_AND_ABS_INL_HPP_

5
src/myx/math/almost_equal_relative_and_abs.cpp
View File

@ -1,5 +0,0 @@
#ifndef MYXLIB_BUILD_LIBRARIES
#error Define MYXLIB_BUILD_LIBRARIES to compile this file.
#endif
#include <myx/math/almost_equal_relative_and_abs-inl.hpp>

39
src/myx/math/almost_equal_relative_and_abs.hpp
View File

@ -1,39 +0,0 @@
#ifndef MYX_MATH_ALMOST_EQUAL_RELATIVE_AND_ABS_HPP_
#define MYX_MATH_ALMOST_EQUAL_RELATIVE_AND_ABS_HPP_
#pragma once
#include <myx/base/config.hpp>
#include <cfloat>
namespace myx {
namespace math {
/**
* @brief Проверка на равенство двух аргументов типа float.
* Параметр maxAbsDiff определяет максимальную абсолютную допустимую разницу.
* Параметр maxRelDiff определяет максимальную относительную допустимую разницу,
* при которой аргументы считаются равными.
*/
bool almost_equal_relative_and_abs( float a, float b,
float maxAbsDiff, float maxRelDiff = FLT_EPSILON );
/**
* @brief Проверка на равенство двух аргументов типа double.
* Параметр maxAbsDiff определяет максимальную абсолютную допустимую разницу.
* Параметр maxRelDiff определяет максимальную относительную допустимую разницу,
* при которой аргументы считаются равными.
*/
bool almost_equal_relative_and_abs( double a, double b,
double maxAbsDiff, double maxRelDiff = DBL_EPSILON );
} // namespace math
} // namespace myx
#ifdef MYXLIB_HEADER_ONLY
#include "almost_equal_relative_and_abs-inl.hpp"
#endif
#endif // MYX_MATH_ALMOST_EQUAL_RELATIVE_AND_ABS_HPP_

93
src/myx/math/almost_equal_ulps-inl.hpp
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@ -1,93 +0,0 @@
#ifndef MYX_MATH_ALMOST_EQUAL_ULPS_INL_HPP_
#define MYX_MATH_ALMOST_EQUAL_ULPS_INL_HPP_
#pragma once
#ifndef MYXLIB_HEADER_ONLY
#include <myx/math/almost_equal_ulps.hpp>
#endif
#include <myx/math/float_cmp_types.hpp>
#include <cmath>
namespace myx {
namespace math {
MYXLIB_INLINE bool almost_equal_ulps( const float a, const float b,
const int maxUlpsDiff )
{
FloatCmp uA( a );
FloatCmp uB( b );
// Если знаки разные, то числа не равны.
// NOLINTNEXTLINE(cppcoreguidelines-pro-type-union-access)
if ( uA.negative() != uB.negative() )
{
// Кроме случая, когда +0==-0
#ifdef __GNUC__
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wfloat-equal"
#endif
if ( a == b ) // -V550
#ifdef __GNUC__
#pragma GCC diagnostic pop
#endif
{
return( true );
}
return( false );
}
// Разница в младших битах.
// NOLINTNEXTLINE(cppcoreguidelines-pro-type-union-access)
auto ulpsDiff = std::abs( uA.i - uB.i );
if ( ulpsDiff <= maxUlpsDiff )
{
return( true );
}
return( false );
} // almost_equal_ulps
MYXLIB_INLINE bool almost_equal_ulps( const double a, const double b,
const int maxUlpsDiff )
{
DoubleCmp uA( a );
DoubleCmp uB( b );
// Если знаки разные, то числа не равны.
// NOLINTNEXTLINE(cppcoreguidelines-pro-type-union-access)
if ( uA.negative() != uB.negative() )
{
// Кроме случая, когда +0==-0
#ifdef __GNUC__
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wfloat-equal"
#endif
if ( a == b ) // -V550
#ifdef __GNUC__
#pragma GCC diagnostic pop
#endif
{
return( true );
}
return( false );
}
// Разница в младших битах.
// NOLINTNEXTLINE(cppcoreguidelines-pro-type-union-access)
auto ulpsDiff = std::abs( uA.i - uB.i );
if ( ulpsDiff <= maxUlpsDiff )
{
return( true );
}
return( false );
} // almost_equal_ulps
} // namespace math
} // namespace myx
#endif // ifndef MYX_MATH_ALMOST_EQUAL_ULPS_INL_HPP_

5
src/myx/math/almost_equal_ulps.cpp
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@ -1,5 +0,0 @@
#ifndef MYXLIB_BUILD_LIBRARIES
#error Define MYXLIB_BUILD_LIBRARIES to compile this file.
#endif
#include <myx/math/almost_equal_ulps-inl.hpp>

38
src/myx/math/almost_equal_ulps.hpp
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@ -1,38 +0,0 @@
#ifndef MYX_MATH_ALMOST_EQUAL_ULPS_HPP_
#define MYX_MATH_ALMOST_EQUAL_ULPS_HPP_
#pragma once
#include <myx/base/config.hpp>
#include <myx/math/float_cmp_types.hpp>
#include <cmath>
namespace myx {
namespace math {
/**
* @brief Проверка на равенство двух аргументов типа float.
* Параметр maxUlpsDiff определяет максимальную разницу между аргументами,
* при которой они считаются равными.
*/
bool almost_equal_ulps( float a, float b,
int maxUlpsDiff );
/**
* @brief Проверка на равенство двух аргументов типа double.
* Параметр maxUlpsDiff определяет максимальную разницу между аргументами,
* при которой они считаются равными.
*/
bool almost_equal_ulps( double a, double b,
int maxUlpsDiff );
} // namespace math
} // namespace myx
#ifdef MYXLIB_HEADER_ONLY
#include "almost_equal_ulps-inl.hpp"
#endif
#endif // MYX_MATH_ALMOST_EQUAL_ULPS_HPP_

87
src/myx/math/almost_equal_ulps_and_abs-inl.hpp
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@ -1,87 +0,0 @@
#ifndef MYX_MATH_ALMOST_EQUAL_ULPS_INL_HPP_
#define MYX_MATH_ALMOST_EQUAL_ULPS_INL_HPP_
#pragma once
#ifndef MYXLIB_HEADER_ONLY
#include <myx/math/almost_equal_ulps_and_abs.hpp>
#endif
#include <myx/math/float_cmp_types.hpp>
#include <cmath>
namespace myx {
namespace math {
MYXLIB_INLINE bool almost_equal_ulps_and_abs( const float a, const float b,
const float maxAbsDiff, const int maxUlpsDiff )
{
// Check if the numbers are really close -- needed
// when comparing numbers near zero.
float absDiff = fabsf( a - b );
if ( absDiff <= maxAbsDiff )
{
return( true );
}
FloatCmp uA( a );
FloatCmp uB( b );
// Different signs means they do not match.
// NOLINTNEXTLINE(cppcoreguidelines-pro-type-union-access)
if ( uA.negative() != uB.negative() )
{
return( false );
}
// Find the difference in ULPs.
// NOLINTNEXTLINE(cppcoreguidelines-pro-type-union-access)
int ulpsDiff = std::abs( uA.i - uB.i );
if ( ulpsDiff <= maxUlpsDiff )
{
return( true );
}
return( false );
} // almost_equal_ulps_and_abs
MYXLIB_INLINE bool almost_equal_ulps_and_abs( const double a, const double b,
const double maxAbsDiff, const int maxUlpsDiff )
{
// Check if the numbers are really close -- needed
// when comparing numbers near zero.
double absDiff = fabs( a - b );
if ( absDiff <= maxAbsDiff )
{
return( true );
}
DoubleCmp uA( a );
DoubleCmp uB( b );
// Different signs means they do not match.
// NOLINTNEXTLINE(cppcoreguidelines-pro-type-union-access)
if ( uA.negative() != uB.negative() )
{
return( false );
}
// Find the difference in ULPs.
// NOLINTNEXTLINE(cppcoreguidelines-pro-type-union-access)
auto ulpsDiff = std::abs( uA.i - uB.i );
if ( ulpsDiff <= maxUlpsDiff )
{
return( true );
}
return( false );
} // almost_equal_ulps_and_abs
} // namespace math
} // namespace myx
#endif // ifndef MYX_MATH_ALMOST_EQUAL_ULPS_INL_HPP_

5
src/myx/math/almost_equal_ulps_and_abs.cpp
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@ -1,5 +0,0 @@
#ifndef MYXLIB_BUILD_LIBRARIES
#error Define MYXLIB_BUILD_LIBRARIES to compile this file.
#endif
#include <myx/math/almost_equal_ulps_and_abs-inl.hpp>

37
src/myx/math/almost_equal_ulps_and_abs.hpp
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@ -1,37 +0,0 @@
#ifndef MYX_MATH_ALMOST_EQUAL_ULPS_HPP_
#define MYX_MATH_ALMOST_EQUAL_ULPS_HPP_
#pragma once
#include <myx/base/config.hpp>
namespace myx {
namespace math {
/**
* @brief Проверка на равенство двух аргументов типа float.
* Параметр maxAbsDiff определяет максимальную абсолютную допустимую разницу.
* Параметр maxUlpsDiff определяет максимальную разницу между аргументами,
* при которой они считаются равными.
*/
bool almost_equal_ulps_and_abs( float a, float b,
float maxAbsDiff, int maxUlpsDiff );
/**
* @brief Проверка на равенство двух аргументов типа double.
* Параметр maxAbsDiff определяет максимальную абсолютную допустимую разницу.
* Параметр maxUlpsDiff определяет максимальную разницу между аргументами,
* при которой они считаются равными.
*/
bool almost_equal_ulps_and_abs( double a, double b,
double maxAbsDiff, int maxUlpsDiff );
} // namespace math
} // namespace myx
#ifdef MYXLIB_HEADER_ONLY
#include "almost_equal_ulps_and_abs-inl.hpp"
#endif
#endif // MYX_MATH_ALMOST_EQUAL_ULPS_HPP_

18
src/myx/math/constants-inl.hpp
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@ -1,18 +0,0 @@
#ifndef MYX_MATH_CONSTANTS_INL_HPP_
#define MYX_MATH_CONSTANTS_INL_HPP_
#pragma once
#ifndef MYXLIB_HEADER_ONLY
#include <myx/math/constants.hpp>
#endif
namespace myx {
namespace math {
} // namespace math
} // namespace myx
#endif // ifndef MYX_MATH_CONSTANTS_INL_HPP_

5
src/myx/math/constants.cpp
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@ -1,5 +0,0 @@
#ifndef MYXLIB_BUILD_LIBRARIES
#error Define MYXLIB_BUILD_LIBRARIES to compile this file.
#endif
#include <myx/math/constants-inl.hpp>

25
src/myx/math/constants.hpp
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@ -1,25 +0,0 @@
#ifndef MYX_MATH_CONSTANTS_HPP_
#define MYX_MATH_CONSTANTS_HPP_
#pragma once
#include <myx/base/config.hpp>
#include <cmath>
#include <type_traits>
namespace myx {
namespace math {
const auto ImpedanceOfFreeSpace = ( M_PI * 119.9169832 );
} // namespace math
} // namespace myx
#ifdef MYXLIB_HEADER_ONLY
#include "constants-inl.hpp"
#endif
#endif // MYX_MATH_CONSTANTS_HPP_

56
src/myx/math/float_cmp_types.hpp
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@ -1,56 +0,0 @@
#ifndef MYX_MATH_FLOAT_CMP_TYPES_HPP_
#define MYX_MATH_FLOAT_CMP_TYPES_HPP_
#pragma once
#include <cstdint>
/**
* @brief Объединение для получения знака аргумента типа float.
*/
union FloatCmp
{
int32_t i;
float f;
/**
* @brief Инициализация.
*/
explicit FloatCmp( float num = 0.0F ) : f( num )
{
}
/**
* @brief Функция, возращающая true, если значение отрицательное
*/
bool negative() const
{
return( i < 0 );
}
};
/**
* @brief Объединение для получения знака аргумента типа double.
*/
union DoubleCmp
{
int64_t i;
double d;
/**
* @brief Инициализация.
*/
explicit DoubleCmp( double num = 0.0L ) : d( num )
{
}
/**
* @brief Функция, возращающая true, если значение отрицательное
*/
bool negative() const
{
return( i < 0 );
}
};
#endif // MYX_MATH_FLOAT_CMP_TYPES_HPP_

30
src/myx/math/functions.hpp
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@ -1,30 +0,0 @@
#ifndef MYX_MATH_FUNCTIONS_HPP_
#define MYX_MATH_FUNCTIONS_HPP_
#pragma once
#include <boost/math/special_functions/pow.hpp>
#include <cmath>
#include <type_traits>
namespace myx {
namespace math {
/*!
* \brief pow2 Возведение в квадрат
* \param value Значение
* \return Квадрат значения
*/
template < typename T >
auto pow2( T const& value ) -> decltype( boost::math::pow< 2 >( value ) )
{
return( boost::math::pow< 2 >( value ) );
}
} // namespace math
} // namespace myx
#endif // MYX_MATH_FUNCTIONS_HPP_

48
src/myx/math/radar.hpp
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@ -1,48 +0,0 @@
#ifndef MYX_MATH_RADAR_HPP_
#define MYX_MATH_RADAR_HPP_
#pragma once
#include <cmath>
#include <type_traits>
namespace myx {
namespace math {
/*!
* \brief geometric_target_visibility Геометрическая видимость цели
* \param earthRadius Радиус Земли
* \param antennaHeight Высота антенны
* \param targetHeight Высота цели
* \return Максимальная дальность видимости цели
*/
template < typename T >
T geometric_target_visibility( const T& earthRadius, const T& antennaHeight, const T& targetHeight )
{
// static_assert( std::is_arithmetic< T >::value || std::is_same< T, quantity< length_d > >::value, "Arithmetic type is required." );
static_assert( std::is_arithmetic< T >::value, "Arithmetic type is required." );
return ( sqrt( 2 * earthRadius * antennaHeight ) + sqrt( 2 * earthRadius * targetHeight ) );
}
/*!
* \brief radar_target_visibility Видимость цели по лучу
* \param earthRadius Радиус Земли
* \param antennaHeight Высота антенны
* \param targetHeight Высота цели
* \return Максимальная дальность видимости цели
*/
template < typename T >
T radar_target_visibility( T effectiveEarthRadius, T antennaHeight, T targetHeight )
{
// static_assert( std::is_arithmetic< T >::value || std::is_same< T, quantity< length_d > >::value, "Arithmetic type is required." );
static_assert( std::is_arithmetic< T >::value, "Arithmetic type is required." );
return ( sqrt( 2 * effectiveEarthRadius * antennaHeight ) + sqrt( 2 * effectiveEarthRadius * targetHeight ) );
}
} // namespace math
} // namespace myx
#endif // MYX_MATH_RADAR_HPP_

93
src/myx/math/units.hpp
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@ -1,93 +0,0 @@
#ifndef MYX_MATH_UNITS_HPP_
#define MYX_MATH_UNITS_HPP_
#pragma once
#include <cmath>
#include <type_traits>
namespace myx {
namespace math {
/*!
* \brief radians_to_degrees Перевод из радиан в градусы
* \param radians Значение в радианах
* \return Значение в градусах
*/
template < typename T >
T radians_to_degrees( const T& radians, typename std::enable_if< std::is_floating_point< T >::value >::type* /*unused*/ = 0 )
{
static_assert( std::is_arithmetic< T >::value, "Arithmetic type is required." );
return( radians * M_1_PI * 180.0 );
}
/*!
* \brief degrees_to_radians Перевод из градусов в радианы
* \param degrees Значение в градусах
* \return Значение в радианах
*/
template < typename T >
T degrees_to_radians( const T& degrees, typename std::enable_if< std::is_floating_point< T >::value >::type* /*unused*/ = 0 )
{
static_assert( std::is_arithmetic< T >::value, "Arithmetic type is required." );
return( degrees * M_PI / 180.0 );
}
/*!
* \brief decibel_to_power Перевод из децибелов в мощность $y = 10^{db / 10}$
* \param db Децибелы
* \return Мощность
*/
template < typename T >
T decibel_to_power( T const& db )
{
static_assert( std::is_arithmetic< T >::value, "Arithmetic type is required." );
return( std::pow( 10, db / 10.0 ) );
}
/*!
* \brief power_to_decibel Перевод из мощности в децибелы по формуле $y = 10 * \log(x)$
* \param power Мощность
* \return Децибелы
*/
template < typename T >
T power_to_decibel( T const& power )
{
static_assert( std::is_arithmetic< T >::value, "Arithmetic type is required." );
return( 10 * std::log( power ) );
}
/*!
* \brief decibel_to_power Перевод из децибелов в амплитуду $y = 10^{db / 20}$
* \param db Децибелы
* \return Амплитуда
*/template < typename T >
T decibel_to_magnitude( T const& db )
{
static_assert( std::is_arithmetic< T >::value, "Arithmetic type is required." );
return( std::pow( 10, db / 20.0 ) );
}
/*!
* \brief magnitude_to_decibel Перевод из амплитуды в децибелы по формуле $y = 20 * \log(x)$
* \param magnitude Амплитуда
* \return Децибелы
*/
template < typename T >
T magnitude_to_decibel( T const& magnitude )
{
static_assert( std::is_arithmetic< T >::value, "Arithmetic type is required." );
return( 20 * std::log( magnitude ) );
}
} // namespace math
} // namespace myx
#endif // MYX_MATH_UNITS_HPP_

8
src/myx/qt/CMakeLists.txt
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@ -9,8 +9,7 @@ set(TRGT_cpp
# Список заголовочных файлов (используется для установки)
set(TRGT_hpp
${CMAKE_CURRENT_SOURCE_DIR}/backports.hpp
${CMAKE_CURRENT_SOURCE_DIR}/translators.hpp
${CMAKE_CURRENT_SOURCE_DIR}/translators-inl.hpp)
${CMAKE_CURRENT_SOURCE_DIR}/translators.hpp)
set(TRGT_headers ${TRGT_hpp})
# cmake-format: on
@ -48,11 +47,12 @@ if(MYXLIB_BUILD_LIBRARIES)
if(BUILD_SHARED_LIBS)
install(TARGETS ${TRGT}_shared COMPONENT main LIBRARY DESTINATION ${CMAKE_INSTALL_LIBDIR})
endif()
else()
install(FILES ${TRGT_cpp} COMPONENT base-dev DESTINATION ${CMAKE_INSTALL_INCLUDEDIR}/${PROJECT_NAME}/${TRGT})
endif()
generate_pkgconfig(myx-${TRGT} COMPONENT base-dev INSTALL_LIBRARY ${MYXLIB_BUILD_LIBRARIES})
install(FILES ${TRGT_headers} COMPONENT base-dev
DESTINATION ${CMAKE_INSTALL_INCLUDEDIR}/${PROJECT_NAME}/${TRGT})
install(FILES ${TRGT_headers} COMPONENT base-dev DESTINATION ${CMAKE_INSTALL_INCLUDEDIR}/${PROJECT_NAME}/${TRGT})
# Цель, используемая только для установки заголовочных файлов без компиляции проекта
add_custom_target(${TRGT}-install-headers COMMAND "${CMAKE_COMMAND}" -DCMAKE_INSTALL_COMPONENT=base-dev -P

67
src/myx/qt/translators-inl.hpp
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@ -1,67 +0,0 @@
#ifndef MYX_QT_TRANSLATORS_INL_HPP_
#define MYX_QT_TRANSLATORS_INL_HPP_
#pragma once
#include <myx/base/config.hpp>
#ifndef MYXLIB_HEADER_ONLY
#include <myx/qt/translators.hpp>
#endif
#include <QCoreApplication>
#include <QLibraryInfo>
#include <QLocale>
namespace myx {
namespace qt {
MYXLIB_INLINE void append_translators( QTranslatorsList& translators, const QString& appName )
{
auto* translator = new QTranslator( qApp );
if ( translator->load( QLocale(),
appName, QStringLiteral( "_" ), QStringLiteral( ":/qm" ) ) )
{
translators.append( translator );
}
else
{
translator->deleteLater();
}
translator = new QTranslator( qApp );
if ( translator->load( QLocale::system(),
QStringLiteral( "qt" ), QStringLiteral( "_" ),
QLibraryInfo::location( QLibraryInfo::TranslationsPath ) ) )
{
translators.append( translator );
}
else
{
translator->deleteLater();
}
translator = new QTranslator( qApp );
if ( translator->load( "qtbase_" + QLocale::system().name(),
QLibraryInfo::location( QLibraryInfo::TranslationsPath ) ) )
{
translators.append( translator );
}
else
{
translator->deleteLater();
}
for ( auto* i : qAsConst( translators ) )
{
qApp->installTranslator( i );
}
} // append_translators
} // namespace qt
} // namespace myx
#endif // MYX_QT_TRANSLATORS_INL_HPP_

68
src/myx/qt/translators.cpp
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@ -1,5 +1,67 @@
#ifndef MYXLIB_BUILD_LIBRARIES
#error Define MYXLIB_BUILD_LIBRARIES to compile this file.
#ifndef MYX_QT_TRANSLATORS_CPP_
#define MYX_QT_TRANSLATORS_CPP_
#include <myx/base/config.hpp>
#ifndef MYXLIB_HEADER_ONLY
#include <myx/qt/translators.hpp>
#else
#pragma once
#endif
#include <myx/qt/translators-inl.hpp>
#include <QCoreApplication>
#include <QLibraryInfo>
#include <QLocale>
namespace myx {
namespace qt {
MYXLIB_INLINE void append_translators( QTranslatorsList& translators, const QString& appName )
{
auto* translator = new QTranslator( qApp );
if ( translator->load( QLocale(),
appName, QStringLiteral( "_" ), QStringLiteral( ":/qm" ) ) )
{
translators.append( translator );
}
else
{
translator->deleteLater();
}
translator = new QTranslator( qApp );
if ( translator->load( QLocale::system(),
QStringLiteral( "qt" ), QStringLiteral( "_" ),
QLibraryInfo::location( QLibraryInfo::TranslationsPath ) ) )
{
translators.append( translator );
}
else
{
translator->deleteLater();
}
translator = new QTranslator( qApp );
if ( translator->load( "qtbase_" + QLocale::system().name(),
QLibraryInfo::location( QLibraryInfo::TranslationsPath ) ) )
{
translators.append( translator );
}
else
{
translator->deleteLater();
}
for ( auto* i : qAsConst( translators ) )
{
qApp->installTranslator( i );
}
} // append_translators
} // namespace qt
} // namespace myx
#endif // MYX_QT_TRANSLATORS_CPP_

2
src/myx/qt/translators.hpp
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@ -21,7 +21,7 @@ void append_translators( QTranslatorsList& translators, const QString& appName )
} // namespace myx
#ifdef MYXLIB_HEADER_ONLY
#include "translators-inl.hpp"
#include "translators.cpp"
#endif
#endif // ifndef MYX_QT_TRANSLATORS_HPP_