你还在学CMake的过程中毫无头绪吗?你还在为复杂程序库依赖发愁吗?你是否觉得原生CMake的编写冗余而低效?那就快来学习和使用PICMake吧!只需要一行,无论是可执行,动态库还是静态库,轻松搞定!同时高效支持多目标,复杂库的编译安装,从此告别大量冗余CMake代码,专注开发核心应用程序,编译不再愁! 例如下面是使用PICMake编译一个依赖OpenGL的可执行文件,只需要一行!(第一行是加载PICMake,好吧,如果也要算那就是两行):
include(PICMake)
pi_add_target(demo BIN src main.cpp REQUIRED OpenGL)
从此告别一堆罗嗦的find_package和其他冗余代码!
那么如何做到的呢?这一切的秘密都在PICMake.cmake这一个文件中哦,稍微啃一啃这个代码,绝对瞬间提高你对CMake的认识水平哦~好啦好啦,源码我们留给大家自己去深究,小编先给大家介绍PICMake的使用吧!
注释: 由于CMake仍然有很多弹性,不够统一的风格可能导致相互之间的支持较差,因此导致用户的工作量增大。 可以认为PICMake其实是规定了一个使用CMake的标准,当用户按照此标准来使用CMake时,可以大大简化工作流程。PICMake目前主要针对Linux下的C++工程,目前主要集成了CV领域的常用库支持,我们将持续对其进行改进更新,也欢迎更多开发者提出更多的意见!
好啦好啦,安装PICMake与使用CMake的过程完全一致,相信编译过CMake项目的娃子们一定不会陌生(嘿嘿~~),同时我们也建议大家使用下面的习惯来编译CMake项目哦:
mkdir build
cd build
cmake ..
make
sudo make install
实际上,PICMake本身核心只有一个文件,那就是cmake目录下面的那个,用户可以直接将它放在自己的项目中!为了让大家了解到PICMake的使用方式,我们把项目本身设计成了一个cmake工程,工程本身就是一个使用的例子哦~
对于安装后的PICMake,可使用sudo make uninstall
进行卸载,不要问我卸载是在哪里支持的,这是PICMake的秘密~~
PICMake的目录结构如下:
+- PICMake
++- CMakeLists -- PICMake安装文件与库示例
++- README.md -- PICMake介绍文件
++- cmake -- cmake相关
+++- PICMake.cmake.in -- 安装支持文件
+++- PICMake.cmake -- PICMake的主体文档
+++- CMake.md -- CMake学习文档
+++- learn -- 辅助学习的文件夹
+++- Find*.cmake -- 依赖包寻找脚本
++- src -- 库框架示例
++- examples -- 使用示例
新的PICMake支持自动生成CMakeList.txt文件啦,如下项目只需要一行命令自动生成:
picmake -m shared -src showImage.cpp -require OpenCV
在前面我们已经简单提到,使用PICMake只需要一行即可完成可执行和库编译,而实际上我们建议在加上固定的两行,标准的写法应该如下(例子详见examples/0_simple_app
):
cmake_minimum_required(VERSION 2.8) # 添加原因: 新版本的cmake规定第一行应该声明版本需求
include(PICMake) # 加载PICMake支持,也可以直接include(cmake/PICMake.cmake)
pi_add_target(simple_library SHARED showImage.cpp REQUIRED OpenCV)# 编译依赖OpenCV的简单库
pi_report_target() # 添加原因: PICMake建议加上用于报告最终将被编译的目标
可以看到添加的两行基本上是比较固定的,第一行是CMake的规定,最后一行是用于报告将会被编译的目标文件。
这里用到的一个核心函数是pi_add_target
,其用法是:
pi_add_target(<name> <BIN/STATIC/SHARED> <src1/dir1 ...>
[MODULES module1 ...]
[REQUIRED module1 ...]
[DEPENDENCY target1 ...])
第一个参数是目标名称,第二个参数是编译目标类型,第三个参数是要添加的源文件或文件夹,MODULES
代表的是非必须第三方库列表,程序里可通过#ifdef HAS_QT
宏选择性编译相关代码,REQUIRED
代表必须的第三方库列表, DEPENDENCY
代表当前目标所依赖的target。
对于较大一些的工程,往往包含多个目标和库,同时可能包含需要安装的目标,而本项目本身就展示了这样一个工程的PICMake写法(详见本工程"CMakeLists.txt"):
cmake_minimum_required(VERSION 2.6)
project(PICMake)
include(${CMAKE_CURRENT_LIST_DIR}/cmake/PICMake.cmake)# Use PICMake
if(FALSE) # Tree style
add_subdirectory(src)
else() # All in one
pi_add_target(StaticLibDemo STATIC src/StaticLibDemo) # 静态库示例
pi_add_target(SharedLibDemo SHARED src/SharedLibDemo) # 动态库示例
pi_add_target(AppDemo BIN src/AppDemo DEPENDENCY StaticLibDemo SharedLibDemo REQUIRED OpenCV) # 依赖前两个库的可执行文件
pi_add_target(ConditionalApp BIN src/ConditionalApp MODULES PIL Qt System REQUIRED OpenCV) #条件编译示例
endif()
pi_install(CMAKE ${PROJECT_SOURCE_DIR}/cmake/PICMake.cmake.in)# 安装文件示例,其中自动支持卸载
pi_report_target()
这里添加了一个pi_install
函数,其详细用法为:
pi_install([HEADERS header1/dir1 ...]
[TARGETS target1 ...]
[CMAKE cmake_config]
[BIN_DESTINATION dir]
[LIB_DESTINATION dir]
[HEADER_DESTINATION dir])
对于MODULES和REQUIRED中设定的每一个PACKAGE,PICMake都会调用find_package
函数去寻找对应的FindPackge.cmake文档。其中FindPackage.cmake文档需要去寻找PACKAGE的头文件路径和库文件模块。
下表列出了FindPackage的主要输入变量:
变量名 | 变量说明 |
---|---|
PACKAGE_FIND_NAME | 需要寻找的包名字 |
PACKAGE_FIND_VERSION | 需要寻找的包版本 |
PACKAGE_FIND_VERSION_MAJOR | 需要寻找的主版本号 |
PACKAGE_FIND_VERSION_MINOR | 需要寻找的次版本号 |
PACKAGE_FIND_VERSION_PATCH | 需要寻找的版本补丁号 |
PACKAGE_FIND_COMPONENTS | 需要寻找的组件 |
对于指令find_package(PIL 1.1.0 REQUIRED base cv)
, PIL_FIND_NAME
即为PIL, PIL_FIND_VERSION
为1.1.0, 其中PIL_FIND_VERSION_MAJOR
为1, PIL_FIND_VERSION_MINOR
为1, PIL_FIND_VERSION_PATCH
为0, PIL_FIND_COMPONENTS
为base和cv。
下表列出了FindPackage.cmake中需要给定的一些参数:
变量名 | 变量说明 |
---|---|
PACKAGE_FOUND | 判断包PACKAGE是否被成功找到(TRUE,FALSE) |
PACKAGE_VERSION | 返回包PACKAGE的版本号字符串 |
PACKAGE_VERSION_MAJOR | 查找到的主版本号 |
PACKAGE_VERSION_MINOR | 查找到的次版本号 |
PACKAGE_VERSION_PATCH | 查找到的版本补丁号 |
PACKAGE_INCLUDES | 同PACKAGE_INCLUDE_DIR,返回包的头文件地址 |
PACKAGE_LIBRARIES | 同PACKAGE_LIBRARY,PACKAGE_LIBS,返回包的库依赖 |
PACKAGE_DEFINITIONS | 返回包中需要的预编译定义 |
其详细实现可参考FindPIL.cmake。
函数(宏)名 | 函数说明 |
---|---|
pi_collect_packagenames(<RESULT_NAME> [VERBOSE] [path1 ...] ) |
Collect all available packages from "Find*.cmake" files and put the result to RESULT_NAME. |
pi_removesource(<VAR_NAME> <regex>) |
Remove all source files with name matches <regex> . |
pi_hasmainfunc(<RESULT_NAME> source1 ...) |
Look for the source files with main function. |
pi_add_target(<name> <BIN/STATIC/SHARED> <src1/dir1 ...> [MODULES module1 ...] [REQUIRED module1 ...] [DEPENDENCY target1 ...]) |
A combination of add_executable , add_library , add_definitions and target_link_libraries , MODULES includes packges or targets inessential and REQUIRED includes packages or target required,DEPENDENCY is used to include targets not defined and will be added after. |
pi_add_targets([name1 ...]) |
Add one or more targets, if one, please set TARGET_NAME , TARGET_TYPE , TARGET_SRCS , TARGET_MODULES , TARGET_REQUIRED and so on. If more than one target, replace TARGET with ${TARGET_NAME} . |
pi_report_target([LIBS2COMPILE] [APPS2COMPILE]) |
Report all targets added. |
pi_install([HEADERS header1/dir1 ...] [TARGETS target1 ...] [CMAKE cmake_config] [BIN_DESTINATION dir] [LIB_DESTINATION dir] [HEADER_DESTINATION dir]) |
A combination of multi install commands and auto support make install and make uninstall . |
pi_collect_packages(<RESULT_NAME> [VERBOSE] [MODULES package1 ...] [REQUIRED package1 package2 ...]) |
Find multi packages with find_package() and collect available packages to RESULT_NAME . All packages will be checked and once with VERBOSE ON, all information will be reported. |
pi_check_modules(module1 [module2 ...]) |
Let module name to upper and make valid _FOUND , _INCLUDES , _LIBRARIES , _DEFINITIONS . |
pi_report_modules(module1 [module2 ...]) |
Report packages information summary. |
变量名 | 变量说明 |
---|---|
PROJECT_NAME | 返回通过PROJECT指令定义的项目名称 |
PROJECT_SOURCE_DIR | CMake源码地址,即cmake命令后指定的地址 |
PROJECT_BINARY_DIR | 运行cmake命令的目录,通常是PROJECT_SOURCE_DIR下的build目录 |
CMAKE_MODULE_PATH | 定义自己的cmake模块所在的路径 |
CMAKE_CURRENT_SOURCE_DIR | 当前处理的CMakeLists.txt所在的路径 |
CMAKE_CURRENT_LIST_DIR | 当前文件夹路径 |
CMAKE_CURRENT_LIST_FILE | 输出调用这个变量的CMakeLists.txt的完整路径 |
CMAKE_CURRENT_LIST_LINE | 输出这个变量所在的行 |
CMAKE_RUNTIME_OUTPUT_DIRECTORY | 生成可执行文件路径 |
CMAKE_LIBRARY_OUTPUT_DIRECTORY | 生成库的文件夹路径 |
CMAKE_BUILD_TYPE | 指定基于make的产生器的构建类型(Release,Debug) |
CMAKE_C_FLAGS | *.C文件编译选项,如 -std=c99 -O3 -march=native |
CMAKE_CXX_FLAGS | *.CPP文件编译选项,如 -std=c++11 -O3 -march=native |
CMAKE_CURRENT_BINARY_DIR | target编译目录 |
CMAKE_INCLUDE_PATH | 环境变量,非cmake变量 |
CMAKE_LIBRARY_PATH | 环境变量 |
CMAKE_STATIC_LIBRARY_PREFIX | 静态库前缀, Linux下默认为lib |
CMAKE_STATIC_LIBRARY_SUFFIX | 静态库后缀,Linux下默认为.a |
CMAKE_SHARED_LIBRARY_PREFIX | 动态库前缀,Linux下默认为lib |
CMAKE_SHARED_LIBRARY_SUFFIX | 动态库后缀,Linux下默认为.so |
BUILD_SHARED_LIBS | 如果为ON,则add_library默认创建共享库 |
CMAKE_INSTALL_PREFIX | 配置安装路径,默认为/usr/local |
CMAKE_ABSOLUTE_DESTINATION_FILES | 安装文件列表时使用ABSOLUTE DESTINATION 路径 |
CMAKE_AUTOMOC_RELAXED_MODE | 在严格和宽松的automoc模式间切换 |
CMAKE_BACKWARDS_COMPATIBILITY | 构建工程所需要的CMake版本 |
CMAKE_COLOR_MAKEFILE | 开启时,使用Makefile产生器会产生彩色输出 |
CMAKE_ALLOW_LOOSE_LOOP_CONSTRUCTS | 用来控制IF ELSE语句的书写方式 |
命令名 |
---|
project(<PROJECT-NAME> [LANGUAGES] [<language-name>...]) project(<PROJECT-NAME> [VERSION <major>[.<minor>[.<patch>[.<tweak>]]]] [LANGUAGES <language-name>...]) |
set(<variable> <value> [[CACHE <type> <docstring> [FORCE]] | PARENT_SCOPE]) set(<variable> <value1> ... <valueN>) |
unset(<variable> [CACHE | PARENT_SCOPE]) unset(ENV{LD_LIBRARY_PATH}) |
include(<file|module> [OPTIONAL] [RESULT_VARIABLE <VAR>] [NO_POLICY_SCOPE]) |
cmake_minimum_required(VERSION major[.minor[.patch[.tweak]]] [FATAL_ERROR]) cmake_policy(VERSION major[.minor[.patch[.tweak]]]) |
message([<mode>] "message to display" ...) STATUS , WARNING , AUTHOR_WARNING , SEND_ERROR , FATAL_ERROR , DEPRECATION |
list(LENGTH <list> <output variable>) list(GET <list> <element index> [<element index> ...] <output variable>) list(APPEND <list> [<element> ...]) list(FIND <list> <value> <output variable>) list(INSERT <list> <element_index> <element> [<element> ...]) list(REMOVE_ITEM <list> <value> [<value> ...]) list(REMOVE_AT <list> <index> [<index> ...]) list(REMOVE_DUPLICATES <list>) list(REVERSE <list>) list(SORT <list>) |
include_directories([AFTER|BEFORE] [SYSTEM] dir1 [dir2 ...]) |
file(WRITE filename "message to write"... ) file(APPEND filename "message to write"... ) file(READ filename variable [LIMIT numBytes] [OFFSET offset] [HEX]) file(<MD5|SHA1|SHA224|SHA256|SHA384|SHA512> filename variable) file(STRINGS filename variable [LIMIT_COUNT num] [LIMIT_INPUT numBytes] [LIMIT_OUTPUT numBytes] [LENGTH_MINIMUM numBytes] [LENGTH_MAXIMUM numBytes] [NEWLINE_CONSUME] [REGEX regex] [NO_HEX_CONVERSION]) file(GLOB variable [RELATIVE path] [globbing expressions]...) file(GLOB_RECURSE variable [RELATIVE path] [FOLLOW_SYMLINKS] [globbing expressions]...) file(RENAME <oldname> <newname>) file(REMOVE [file1 ...]) file(REMOVE_RECURSE [file1 ...]) file(MAKE_DIRECTORY [directory1 directory2 ...]) file(RELATIVE_PATH variable directory file) file(TO_CMAKE_PATH path result) file(TO_NATIVE_PATH path result) file(DOWNLOAD url file [INACTIVITY_TIMEOUT timeout] [TIMEOUT timeout] [STATUS status] [LOG log] [SHOW_PROGRESS] [EXPECTED_HASH ALGO=value] [EXPECTED_MD5 sum] [TLS_VERIFY on|off] [TLS_CAINFO file]) file(UPLOAD filename url [INACTIVITY_TIMEOUT timeout] [TIMEOUT timeout] [STATUS status] [LOG log] [SHOW_PROGRESS]) file(TIMESTAMP filename variable [<format string>] [UTC]) file(GENERATE OUTPUT output_file <INPUT input_file|CONTENT input_content> [CONDITION expression]) |
get_filename_component(<VAR> <FileName> <COMP> [CACHE]) DIRECTORY = Directory without file nameNAME = File name without directoryEXT = File name longest extension (.b.c from d/a.b.c)NAME_WE = File name without directory or longest extensionABSOLUTE = Full path to fileREALPATH = Full path to existing file with symlinks resolvedPATH = Legacy alias for DIRECTORY (use for CMake <= 2.8.11) |
string(REGEX MATCH <regular_expression> <output variable> <input> [<input>...]) string(REGEX MATCHALL <regular_expression> <output variable> <input> [<input>...]) string(REGEX REPLACE <regular_expression> <replace_expression> <output variable> <input> [<input>...]) string(REPLACE <match_string> <replace_string> <output variable> <input> [<input>...]) string(CONCAT <output variable> [<input>...]) string(<MD5|SHA1|SHA224|SHA256|SHA384|SHA512> <output variable> <input>) string(COMPARE EQUAL <string1> <string2> <output variable>) string(COMPARE NOTEQUAL <string1> <string2> <output variable>) string(COMPARE LESS <string1> <string2> <output variable>) string(COMPARE GREATER <string1> <string2> <output variable>) string(ASCII <number> [<number> ...] <output variable>) string(CONFIGURE <string1> <output variable> [@ONLY] [ESCAPE_QUOTES]) string(TOUPPER <string1> <output variable>) string(TOLOWER <string1> <output variable>) string(LENGTH <string> <output variable>) string(SUBSTRING <string> <begin> <length> <output variable>) string(STRIP <string> <output variable>) string(RANDOM [LENGTH <length>] [ALPHABET <alphabet>] [RANDOM_SEED <seed>] <output variable>) string(FIND <string> <substring> <output variable> [REVERSE]) string(TIMESTAMP <output variable> [<format string>] [UTC]) string(MAKE_C_IDENTIFIER <input string> <output variable>) |
add_executable(<name> [WIN32] [MACOSX_BUNDLE] [EXCLUDE_FROM_ALL] source1 [source2 ...]) add_executable(<name> IMPORTED [GLOBAL]) add_executable(<name> ALIAS <target>) |
add_library(<name> [STATIC | SHARED | MODULE] [EXCLUDE_FROM_ALL] source1 [source2 ...]) add_library(<name> <SHARED|STATIC|MODULE|UNKNOWN> IMPORTED [GLOBAL]) add_library(<name> OBJECT <src>...) add_library(<name> ALIAS <target>) add_library(<name> INTERFACE [IMPORTED [GLOBAL]]) |
target_link_libraries(<target> [item1 [item2 [...]]] [[debug|optimized|general] <item>] ...) target_link_libraries(<target> <PRIVATE|PUBLIC|INTERFACE> <lib> ... [<PRIVATE|PUBLIC|INTERFACE> <lib> ... ] ...]) |
find_package(<package> [version] [EXACT] [QUIET] [MODULE]
[REQUIRED] [[COMPONENTS] [components...]]
[OPTIONAL_COMPONENTS components...]
[NO_POLICY_SCOPE])
set_property(<GLOBAL |
DIRECTORY [dir] |
TARGET [target1 [target2 ...]] |
SOURCE [src1 [src2 ...]] |
TEST [test1 [test2 ...]] |
CACHE [entry1 [entry2 ...]]>
[APPEND] [APPEND_STRING]
PROPERTY <name> [value1 [value2 ...]])
get_property(<variable>
<GLOBAL |
DIRECTORY [dir] |
TARGET <target> |
SOURCE <source> |
TEST <test> |
CACHE <entry> |
VARIABLE>
PROPERTY <name>
[SET | DEFINED | BRIEF_DOCS | FULL_DOCS])
add_subdirectory(source_dir [binary_dir]
[EXCLUDE_FROM_ALL])
- set(Foo a b c)
- set(Foo "a b c")
- $ENV{VAR}
- set(ENV{VAR} /home}
True if the constant is 1, ON, YES, TRUE, Y, or a non-zero number. False if the constant is 0, OFF, NO, FALSE, N, IGNORE, NOTFOUND, the empty string, or ends in the suffix -NOTFOUND. Named boolean constants are case-insensitive. If the argument is not one of these constants, it is treated as a variable.
判断表达式中常用的指令:
命令名 | 变量说明 |
---|---|
NOT | True if the expression is not true |
AND | True if both expressions would be considered true individually |
OR | True if either expression would be considered true individually |
COMMAND | True if the given name is a command, macro or function that can be invoked |
POLICY | True if the given name is an existing policy |
TARGET | True if the given name is an existing logical target name such as those created by the add_executable(), add_library(), or add_custom_target() commands} |
EXISTS | True if the named file or directory exists. Behavior is well-defined only for full paths |
IS_DIRECTORY | True if the given name is a directory. Behavior is well-defined only for full paths |
IS_SYMLINK | True if the given name is a symbolic link. Behavior is well-defined only for full paths |
IS_ABSOLUTE | True if the given path is an absolute path |
MATCHES | if(<variable|string> MATCHES regex) True if the given string or variable’s value matches the given regular expression |
LESS | True if the given string or variable’s value is a valid number and less than that on the right |
GREATER | True if the given string or variable’s value is a valid number and greater than that on the right |
EQUAL | True if the given string or variable’s value is a valid number and equal to that on the right |
STRLESS | True if the given string or variable’s value is lexicographically less than the string or variable on the right |
STRGREATER | True if the given string or variable’s value is lexicographically greater than the string or variable on the right |
STREQUAL | True if the given string or variable’s value is lexicographically equal to the string or variable on the right |
VERSION_LESS | Component-wise integer version number comparison (version format is major[.minor[.patch[.tweak]]] |
VERSION_EQUAL | Component-wise integer version number comparison (version format is major[.minor[.patch[.tweak]]]) |
VERSION_GREATER | Component-wise integer version number comparison (version format is major[.minor[.patch[.tweak]]]) |
DEFINED | True if the given variable is defined. It does not matter if the variable is true or false just if it has been set. (Note macro arguments are not variables.) |
函数可以返回,可以用 return()命令返回。如果要从函数中返回值,只能通过参数返回:
#定义函数 get_lib从给定的目录查找指定的库,并把它传回到参数 lib_FILE中
function(get_lib lib_FILE lib_NAME lib_PATH)
#message("lib_name:""${lib_NAME}")
set(__LIB "__LIB-NOTFOUND")
#message("__LIB:""${__LIB}")
find_library(__LIB ${lib_NAME} ${lib_PATH})
if(__LIB STREQUAL "__LIB-NOTFOUND")
message("don't find ${lib_NAME} librarys in ${lib_PATH}")
return()
endif()
#message("__LIB:""${__LIB}")
set(${lib_FILE} ${__LIB}PARENT_SCOPE)
endfunction(get_lib)
set命令中 PARENT_SCOPE表示传递给函数调用者所拥有的变量