动态链接库( libjthread也是工程内的一个子项目)找不着,怎么回事?
make install安装的时候,是把动态链接库和执行文件都放在同一个目录下的
在CMP0042更新,也就是Cmake 2.8.1.2之后,如果你声明的cmake_minium_required为2.8以上,MACOSX_RPATH会默认启动,这时候编译的执行文件在查找链接库的时候会往@rpath上搜索,所以就找不到要链接的库(libadk.dylib在同一个目录下)。
商业程序如何加载自己的so库
使用LD_LIBRARY_PATH的缺点是要实现设置LD_LIBRARY_PATH。
什么是RPATH?
在Linux环境下,使用动态链接的程序在运行时会自动链接ld.so这个库(OS X上是dyld),然后通过ld.so来查找链接其它的库。而RPATH就是编译的时候链接到执行文件的链接库路径。OS X在RPATH的设置上和Linux还是有点出入的,OS X的RPATH采用的是绝对路径。
ld.so搜索路径的优先级是这样的:
1.RPATH,编译链接时加入-rpath参数指明所谓的RUNPATH,这样可执行文件(或者依赖其他动态链接库的动态链接库)就能告诉ld.so到哪里去搜索对应的动态链接库了。
2.LD_LIBRARY_PATH,对于没有设定RPATH的可执行文件或者动态链接库,我们可以用LD_LIBRARY_PATH这个环境变量通知ld.so往哪里查找链接库。
3./etc/ld.so.conf,系统对ld.so的路径配置文件。
4./usr/lib、/lib和/usr/local/lib,系统默认路径。
Cmake和RPATH
在分发程序的时候,执行文件使用的链接库在系统内不一定会有,或者自带了的版本不对,一般都会在程序文件夹内都会附带相应的链接库,所以最好还是把RPATH加上。Cmake对RPATH提供了很多选项支持,我们一般只关注这几个变量就好了:CMAKE_SKIP_BUILD_RPATH、CMAKE_BUILD_WITH_INSTALL_RPATH、CMAKE_INSTALL_RPATH和CMAKE_INSTALL_RPATH_USE_LINK_PATH。
默认RPATH设置
set(CMAKE_SKIP_BUILD_RPATH FALSE) # 编译时加上RPATH set(CMAKE_BUILD_WITH_INSTALL_RPATH FALSE) # 编译时RPATH不使用安装的RPATH set(CMAKE_INSTALL_RPATH "") # 安装RPATH为空 set(CMAKE_INSTALL_RPATH_USE_LINK_PATH FALSE)# 安装的执行文件不加上RPATH
Cmake在默认情况下,make install会把安装的执行文件的RPATH删掉的,所以就会出现上面我执行安装好的执行文件报错的问题。
加上完整的RPATH
Cmake的默认设置我们肯定是不能使用的,我们需要一个安装的时候也要带上RPATH的设置。
set(INSTALL_LIB_DIR "${PROJECT_BINARY_DIR}/lib") # 假设安装目录在编译目录的lib子目录内set(CMAKE_SKIP_BUILD_RPATH FALSE) set(CMAKE_BUILD_WITH_INSTALL_RPATH FALSE) set(CMAKE_INSTALL_RPATH "${CMAKE_INSTALL_PREFIX}/lib") set(CMAKE_INSTALL_RPATH_USE_LINK_PATH TRUE)# 确保链接库不在系统默认安装的目录上时更改到项目lib上list(FIND CMAKE_PLATFORM_IMPLICIT_LINK_DIRECTORIES ${CMAKE_INSTALL_RPATH} isSystemDir) if("${isSystemDir}" STREQUAL "-1") set(CMAKE_INSTALL_RPATH "${INSTALL_LIB_DIR}")endif("${isSystemDir}" STREQUAL "-1")
一个cmake文件示例
# CMake要求的最低版本号cmake_minimum_required( VERSION 2.8 )# 项目名称project( ycm_support_libs )# 设置客户端lib和服务端lib的变量名称set( CLIENT_LIB "ycm_client_support" )set( SERVER_LIB "ycm_core" )# 设置Python的版本号变量set( Python_ADDITIONAL_VERSIONS 2.7 2.6 )# 进行Python包的查找,这里是REQUIRED表示必须find_package( PythonLibs 2.6 REQUIRED )# 如果Python版本号低于3.0.0就进行FATAL_ERROR的出错信息if ( NOT PYTHONLIBS_VERSION_STRING VERSION_LESS "3.0.0" )message( FATAL_ERROR"CMake found python3 libs instead of python2 libs. YCM works only with ""python2.\n" )endif()# 各种optionoption( USE_DEV_FLAGS "Use compilation flags meant for YCM developers" OFF )# 这个变量就是我上文讲到的很关键的一个变量,来判断当前用户需要不需要libclangoption( USE_CLANG_COMPLETER "Use Clang semantic completer for C/C++/ObjC" OFF )# install.sh中的--system-libclang就与这个变量进行交互option( USE_SYSTEM_LIBCLANG "Set to ON to use the system libclang library" OFF )# YCM作者推荐的用法,在这里直接写入Clang的相关路径 注意这里的CACHE PATH,表示当用户如果命令行# 进行指定,那优先会去读用户的命令行,而不是用这里的set,并且把相关的值写入Cache中set( PATH_TO_LLVM_ROOT "" CACHE PATH "Path to the root of a LLVM+Clang binary distribution" )# YCM作者推荐的另外一种安装方法,直接将libclang.so全路径写死set( EXTERNAL_LIBCLANG_PATH "" CACHE PATH "Path to the libclang library to use" )# 如果你使用libclang但是没有指定用不用系统的libclang,没有指定llvm_root,没有指定额外的libclang.so,那么就会带你去下载if ( USE_CLANG_COMPLETER ANDNOT USE_SYSTEM_LIBCLANG ANDNOT PATH_TO_LLVM_ROOT ANDNOT EXTERNAL_LIBCLANG_PATH )message( "Downloading Clang 3.4" )# 这就是llvm官网的3.4下载路径set( CLANG_URL "/releases/3.4" )# 如果当前客户端是苹果 Mac OS Xif ( APPLE )# 设置Clang的文件夹名称set( CLANG_DIRNAME "clang+llvm-3.4-x86_64-apple-darwin10.9" )# 设置Clang的MD5校验码set( CLANG_MD5 "4f43ea0e87090ae5e7bec12373ca4927" )# 设置Clang文件名称为之后加上tar.gzset( CLANG_FILENAME "${CLANG_DIRNAME}.tar.gz" )else()# 如果是64位平台if ( 64_BIT_PLATFORM )# 设置Clang的文件夹名称set( CLANG_DIRNAME "clang+llvm-3.4-x86_64-unknown-ubuntu12.04" )# 设置Clang的MD5校验码set( CLANG_MD5 "6077459d20a7ff412eefc6ce3b9f5c85" )# 设置Clang文件名称为之后加上tar.gzset( CLANG_FILENAME "${CLANG_DIRNAME}.tar.xz" )else()# 表示此时为32位的Linux,下载3.3版本message( "No pre-built Clang 3.4 binaries for 32 bit linux, ""downloading Clang 3.3" )set( CLANG_URL "/releases/3.3" )# 设置Clang的文件夹名称set( CLANG_DIRNAME "clang+llvm-3.3-i386-debian6" )# 设置Clang的MD5校验码set( CLANG_MD5 "415d033b60659433d4631df894673802" )# 设置Clang文件名称为之后加上tar.gzset( CLANG_FILENAME "${CLANG_DIRNAME}.tar.bz2" )endif()endif()# 下载命令file(DOWNLOAD "${CLANG_URL}/${CLANG_FILENAME}" "./${CLANG_FILENAME}"SHOW_PROGRESS EXPECTED_MD5 "${CLANG_MD5}")# 文件名正则表达式匹配,进行相应的解压if ( CLANG_FILENAME MATCHES ".+bz2" )# 执行相关的外部命令 tarexecute_process( COMMAND tar -xjf ${CLANG_FILENAME} )elseif( CLANG_FILENAME MATCHES ".+xz" )execute_process( COMMAND tar -xJf ${CLANG_FILENAME} )else()execute_process( COMMAND tar -xzf ${CLANG_FILENAME} )endif()# 设置PATH_TO_LLVM_ROOT的路径为当前CMake二进制路径下的Clang目录set( PATH_TO_LLVM_ROOT "${CMAKE_CURRENT_BINARY_DIR}/../${CLANG_DIRNAME}" )endif()# 如果设置了PATH_TO_LLVM_ROOT或者用户使用系统libclang或者有额外的libclang,就开启USE_CLANG_COMPLETER# 这个变量我上文提过,很关键if ( PATH_TO_LLVM_ROOT OR USE_SYSTEM_LIBCLANG OR EXTERNAL_LIBCLANG_PATH )set( USE_CLANG_COMPLETER TRUE )endif()# 开始使用这个变量,如果用户确定使用libclang,但是没有root没有系统clang没有额外clang,那么# 进行错误性提示if ( USE_CLANG_COMPLETER ANDNOT PATH_TO_LLVM_ROOT ANDNOT USE_SYSTEM_LIBCLANG ANDNOT EXTERNAL_LIBCLANG_PATH )message( FATAL_ERROR"You have not specified which libclang to use. You have several options:\n"" 1. Set PATH_TO_LLVM_ROOT to a path to the root of a LLVM+Clang binary ""distribution. You can download such a binary distro from . This ""is the recommended approach.\n"" 2. Set USE_SYSTEM_LIBCLANG to ON; this makes YCM search for the system ""version of libclang.\n"" 3. Set EXTERNAL_LIBCLANG_PATH to a path to whatever ""libclang.[so|dylib|dll] you wish to use.\n""You HAVE to pick one option. See the docs for more information.")endif()# 进行用户提醒,提醒用户当前是否使用libclangif ( USE_CLANG_COMPLETER )message( "Using libclang to provide semantic completion for C/C++/ObjC" )else()message( "NOT using libclang, no semantic completion for C/C++/ObjC will be ""available" )endif()# 如果设置了root就设置CLANG_INCLUDES_DIR为root下的include# 否则CLANG_INCLUDES_DIR为CMake下llvm/includeif ( PATH_TO_LLVM_ROOT )set( CLANG_INCLUDES_DIR "${PATH_TO_LLVM_ROOT}/include" )else()set( CLANG_INCLUDES_DIR "${CMAKE_SOURCE_DIR}/llvm/include" )endif()# 如果当前的include路径不是绝对路径if ( NOT IS_ABSOLUTE "${CLANG_INCLUDES_DIR}" )# 设置它为绝对路径get_filename_component(CLANG_INCLUDES_DIR"${CMAKE_BINARY_DIR}/${CLANG_INCLUDES_DIR}" ABSOLUTE)endif()# 如果没有额外的libclang,但是有rootif ( NOT EXTERNAL_LIBCLANG_PATH AND PATH_TO_LLVM_ROOT )if ( MINGW ) # 如果是MINGW# 设置libclang的寻找路径(后面的find_library会去寻找)set( LIBCLANG_SEARCH_PATH "${PATH_TO_LLVM_ROOT}/bin" )else()set( LIBCLANG_SEARCH_PATH "${PATH_TO_LLVM_ROOT}/lib" )endif()# 这里TEMP会被find_library去寻找clang,和libclang两个so,并且复制路径给TEMPfind_library( TEMP NAMES clang libclangPATHS ${LIBCLANG_SEARCH_PATH}NO_DEFAULT_PATH )message("temp is ${TEMP}")# 设置额外的libclang为这个路径set( EXTERNAL_LIBCLANG_PATH ${TEMP} )endif()# 如果当前为苹果,设置额外的flagif ( APPLE )set( CMAKE_INCLUDE_SYSTEM_FLAG_CXX "-isystem " )endif()# 如果用户使用系统自带的boostif ( USE_SYSTEM_BOOST )# 进行find boost命令,会用到python,filesystem,system,regex,thread等componentsfind_package( Boost REQUIRED COMPONENTS python filesystem system regex thread )else()# 使用自己的Boostset( Boost_INCLUDE_DIR ${BoostParts_SOURCE_DIR} )set( Boost_LIBRARIES BoostParts )endif()# 相关头文件的加入,Boost,Python和Clanginclude_directories(SYSTEM${Boost_INCLUDE_DIR}${PYTHON_INCLUDE_DIRS}${CLANG_INCLUDES_DIR})# 全局递归查找h,cpp文件给SERVER_SOURCESfile( GLOB_RECURSE SERVER_SOURCES *.h *.cpp )# 全局递归查找测试相关文件file( GLOB_RECURSE to_remove tests/*.h tests/*.cpp CMakeFiles/*.cpp *client* )if( to_remove )# 学习list相关的REMOVE_ITEM命令list( REMOVE_ITEM SERVER_SOURCES ${to_remove} )endif()# 这里就是这个变量最关键的地方,它会去include并且开启宏if ( USE_CLANG_COMPLETER )include_directories(${CMAKE_CURRENT_SOURCE_DIR}"${CMAKE_CURRENT_SOURCE_DIR}/ClangCompleter" )add_definitions( -DUSE_CLANG_COMPLETER )else()# 否则的话寻找所有ClangCompleter下的头和源文件进行删除file( GLOB_RECURSE to_remove_clang ClangCompleter/*.h ClangCompleter/*.cpp )if( to_remove_clang )list( REMOVE_ITEM SERVER_SOURCES ${to_remove_clang} )endif()endif()# 如果用户使用额外的libclang或者使用系统自带的libclangif ( EXTERNAL_LIBCLANG_PATH OR USE_SYSTEM_LIBCLANG )if ( USE_SYSTEM_LIBCLANG ) # 如果是系统自带if ( APPLE )set( ENV_LIB_PATHS ENV DYLD_LIBRARY_PATH ) # 将环境变量下的DYLD_LIBRARY_PATH给ENV_LIB_PATHSelseif ( UNIX )set( ENV_LIB_PATHS ENV LD_LIBRARY_PATH ) # 这也是我之前讲的一定要把你编译的libclang加入到这个环境变量中,因为它会根据这个去寻找elseif ( WIN32 ) set( ENV_LIB_PATHS ENV PATH )else ()set( ENV_LIB_PATHS "" )endif()file( GLOB SYS_LLVM_PATHS "/usr/lib/llvm*/lib" )# 进行相关的libclang查找,在你之前给它指定的环境变量中find_library( TEMP clangPATHS${ENV_LIB_PATHS}/usr/lib/usr/lib/llvm${SYS_LLVM_PATHS}/Library/Developer/CommandLineTools/usr/lib,/Applications/Xcode.app/Contents/Developer/Toolchains/XcodeDefault.xctoolchain/usr/lib )# 将寻找到的变量给EXTERNAL_LIBCLANG_PATHset( EXTERNAL_LIBCLANG_PATH ${TEMP} )else()if ( NOT APPLE )# 设置相关rpathset( CMAKE_BUILD_WITH_INSTALL_RPATH TRUE )# 设置make install之后的rpathset( CMAKE_INSTALL_RPATH "\$ORIGIN" )endif()endif()set( LIBCLANG_TARGET "" )message("Using external libclang: ${EXTERNAL_LIBCLANG_PATH}" )message("libclang_target is ${LIBCLANG_TARGET}")else()set( LIBCLANG_TARGET )endif()# 如果有额外的rpath,在这里进行设置if ( EXTRA_RPATH )set( CMAKE_INSTALL_RPATH "${EXTRA_RPATH}:${CMAKE_INSTALL_RPATH}" )endif()# 如果在Linux下需要额外的rt库if ( UNIX AND NOT APPLE )set( EXTRA_LIBS rt )endif()# 将目录下所有的h和cpp给CLIENT_SOURCESfile( GLOB CLIENT_SOURCES *.h *.cpp )# 相应SERVER_SPECIFIC赋值file( GLOB SERVER_SPECIFIC *ycm_core* )if( SERVER_SPECIFIC )# 移除相关CLIEN_SOURCES下的SERVER_SPECIFIClist( REMOVE_ITEM CLIENT_SOURCES ${SERVER_SPECIFIC} )endif()# 创建client的library,并且是动态库add_library( ${CLIENT_LIB} SHARED${CLIENT_SOURCES})# 将这个库与之前的rt,Boost,Python进行链接target_link_libraries( ${CLIENT_LIB}${Boost_LIBRARIES}${PYTHON_LIBRARIES}${EXTRA_LIBS})# 创建server的library,并且是动态库add_library( ${SERVER_LIB} SHARED${SERVER_SOURCES})# 将这个库与之前的rt,Boost,Python,libclang,而外的server lib进行链接target_link_libraries( ${SERVER_LIB}${Boost_LIBRARIES}${PYTHON_LIBRARIES}${LIBCLANG_TARGET}${EXTRA_LIBS})# 如果定义了LIBCLANG_TARGETif( LIBCLANG_TARGET )if( NOT WIN32 )# 在非WIN32情况下增加自定义命令,将libclang.so/dll拷贝到自己目录下add_custom_command(TARGET ${SERVER_LIB}POST_BUILDCOMMAND ${CMAKE_COMMAND} -E copy "${LIBCLANG_TARGET}" "$<TARGET_FILE_DIR:${SERVER_LIB}>")else()add_custom_command(TARGET ${SERVER_LIB}POST_BUILDCOMMAND ${CMAKE_COMMAND} -E copy "${PATH_TO_LLVM_ROOT}/bin/libclang.dll" "$<TARGET_FILE_DIR:${SERVER_LIB}>")endif()endif()# 建立依赖关系,表示这个项目需要这两个库共同完成add_custom_target( ${PROJECT_NAME}DEPENDS ${CLIENT_LIB} ${SERVER_LIB} )# Mac下的相关设置,如果是利用rpath的话Mac下还是会去寻找系统库,即使用户显示指定# 这里需要改用@loader_pathif ( EXTERNAL_LIBCLANG_PATH AND APPLE )add_custom_command( TARGET ${SERVER_LIB}POST_BUILDCOMMAND install_name_tool"-change""@rpath/libclang.dylib""@loader_path/libclang.dylib""$<TARGET_FILE:${SERVER_LIB}>")endif()# 将这些库的前缀lib去掉,因为会扰乱Python模块的查找set_target_properties( ${CLIENT_LIB} PROPERTIES PREFIX "")set_target_properties( ${SERVER_LIB} PROPERTIES PREFIX "")if ( WIN32 OR CYGWIN )# 进行Windows下相关库的转移存放set_target_properties( ${CLIENT_LIB} PROPERTIESRUNTIME_OUTPUT_DIRECTORY ${PROJECT_SOURCE_DIR}/../.. )set_target_properties( ${SERVER_LIB} PROPERTIESRUNTIME_OUTPUT_DIRECTORY ${PROJECT_SOURCE_DIR}/../.. )foreach( OUTPUTCONFIG ${CMAKE_CONFIGURATION_TYPES} )string( TOUPPER ${OUTPUTCONFIG} OUTPUTCONFIG )set_target_properties( ${CLIENT_LIB} PROPERTIESRUNTIME_OUTPUT_DIRECTORY_${OUTPUTCONFIG} ${PROJECT_SOURCE_DIR}/../.. )set_target_properties( ${SERVER_LIB} PROPERTIESRUNTIME_OUTPUT_DIRECTORY_${OUTPUTCONFIG} ${PROJECT_SOURCE_DIR}/../.. )endforeach()if ( WIN32 )# 建立后缀名.pydset_target_properties( ${CLIENT_LIB} PROPERTIES SUFFIX ".pyd")set_target_properties( ${SERVER_LIB} PROPERTIES SUFFIX ".pyd")elseif ( CYGWIN )# CYGIN下后缀为dllset_target_properties( ${CLIENT_LIB} PROPERTIES SUFFIX ".dll")set_target_properties( ${SERVER_LIB} PROPERTIES SUFFIX ".dll")endif()else()# Mac和Linux下都为.so,虽然Mac下应该默认为.dylib,但Python识别不了dylib,因此这里还是设置成.soset_target_properties( ${CLIENT_LIB} PROPERTIES SUFFIX ".so")set_target_properties( ${SERVER_LIB} PROPERTIES SUFFIX ".so")endif()# 设置相关lib的输出目录set_target_properties( ${CLIENT_LIB} PROPERTIESLIBRARY_OUTPUT_DIRECTORY ${PROJECT_SOURCE_DIR}/../.. )set_target_properties( ${SERVER_LIB} PROPERTIESLIBRARY_OUTPUT_DIRECTORY ${PROJECT_SOURCE_DIR}/../.. )if ( USE_DEV_FLAGS AND ( CMAKE_COMPILER_IS_GNUCXX OR COMPILER_IS_CLANG ) ANDNOT CMAKE_GENERATOR_IS_XCODE )# 增加相应flagset( CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -Wall -Wextra -Werror" )endif()# 提出警告在使用C++11特性下if ( USE_DEV_FLAGS AND COMPILER_IS_CLANG AND NOT CMAKE_GENERATOR_IS_XCODE ANDNOT SYSTEM_IS_FREEBSD )set( CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -Wc++98-compat" )endif()if( SYSTEM_IS_SUNOS )# SunOS需要-pthreads这个flag才能正常使用set( CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -pthreads" )endif()# 增加测试子目录testsadd_subdirectory( tests )
