CMake unable to determine linker language with C++ - c++

I'm attempting to run a cmake hello world program on Windows 7 x64 with both Visual Studio 2010 and Cygwin, but can't seem to get either to work. My directory structure is as follows:
HelloWorld
-- CMakeLists.txt
-- src/
-- -- CMakeLists.txt
-- -- main.cpp
-- build/
I do a cd build followed by a cmake .., and get an error stating that
CMake Error: CMake can not determine linker language for target:helloworld
CMake Error: Cannot determine link language for target "helloworld".
However, if I change the extension of main.cpp to main.c both on my filsystem and in src/CMakeLists.txt everything works as expected. This is the case running from both the Visual Studio Command Prompt (Visual Studio Solution Generator) and the Cygwin Terminal (Unix Makefiles Generator).
Any idea why this code wouldn't work?
CMakeLists.txt
PROJECT(HelloWorld C)
cmake_minimum_required(VERSION 2.8)
# include the cmake modules directory
set(CMAKE_MODULE_PATH ${HelloWorld_SOURCE_DIR}/cmake ${CMAKE_MODULE_PATH})
add_subdirectory(src)
src/CMakeLists.txt
# Include the directory itself as a path to include directories
set(CMAKE_INCLUDE_CURRENT_DIR ON)
# Create a variable called helloworld_SOURCES containing all .cpp files:
set(HelloWorld_SOURCES main.cpp)
# Create an executable file called helloworld from sources:
add_executable(hello ${HelloWorld_SOURCES })
src/main.cpp
int main()
{
return 0;
}

I also got the error you mention:
CMake Error: CMake can not determine linker language for target:helloworld
CMake Error: Cannot determine link language for target "helloworld".
In my case this was due to having C++ files with the .cc extension.
If CMake is unable to determine the language of the code correctly you can use the following:
set_target_properties(hello PROPERTIES LINKER_LANGUAGE CXX)
The accepted answer that suggests appending the language to the project() statement simply adds more strict checking for what language is used (according to the documentation), but it wasn't helpful to me:
Optionally you can specify which languages your project supports.
Example languages are CXX (i.e. C++), C, Fortran, etc. By default C
and CXX are enabled. E.g. if you do not have a C++ compiler, you can
disable the check for it by explicitly listing the languages you want
to support, e.g. C. By using the special language "NONE" all checks
for any language can be disabled. If a variable exists called
CMAKE_PROJECT__INCLUDE_FILE, the file pointed to by that
variable will be included as the last step of the project command.

In my case, it was just because there were no source file in the target. All of my code was a template with the source code in the header file. Adding an empty file.cpp solved the problem.

Try changing
PROJECT(HelloWorld C)
into
PROJECT(HelloWorld C CXX)
or just
PROJECT(HelloWorld)
See: https://cmake.org/cmake/help/latest/command/project.html

Confusing as it might be, the error also happens when a cpp file included in the project does not exist.
If you list your source files in CMakeLists.txt and mistakenly type a file name then you get this error.

I want to add another solution in case a library without any source files shall be build. Such libraries are also known as header only libraries. By default add_library expects at least one source file added or otherwise the mentioned error occurs. Since header only libraries are quite common, cmake has the INTERFACE keyword to build such libraries. The INTERFACE keyword is used as shown below and it eliminates the need for empty source files added to the library.
add_library(myLibrary INTERFACE)
target_include_directories(myLibrary INTERFACE {CMAKE_CURRENT_SOURCE_DIR})
The example above would build a header only library including all header files in the same directory as the CMakeLists.txt. Replace {CMAKE_CURRENT_SOURCE_DIR} with a path in case your header files are in a different directory than the CMakeLists.txt file.
Have a look at this blog post or the cmake documentation for further info regarding header only libraries and cmake.

A bit unrelated answer to OP but for people like me with a somewhat similar problem.
Use Case: Ubuntu (C, Clion, Auto-completion):
I had the same error,
CMake Error: Cannot determine link language for target "hello".
set_target_properties(hello PROPERTIES LINKER_LANGUAGE C) help fixes that problem but the headers aren't included to the project and the autocompletion wont work.
This is what i had
cmake_minimum_required(VERSION 3.5)
project(hello)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++11")
set(SOURCE_FILES ./)
add_executable(hello ${SOURCE_FILES})
set_target_properties(hello PROPERTIES LINKER_LANGUAGE C)
No errors but not what i needed, i realized including a single file as source will get me autocompletion as well as it will set the linker to C.
cmake_minimum_required(VERSION 3.5)
project(hello)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++11")
set(SOURCE_FILES ./1_helloworld.c)
add_executable(hello ${SOURCE_FILES})

I also faced a similar error while compiling my C-based code. I fixed the issue by correcting the source file path in my cmake file. Please check the source file path of each source file mentioned in your cmake file. This might help you too.

Simply check the path to source file. (to the respective cpp)

By default the JNI Native folder is named as jni . Renaming it to cpp fixed the issue

I managed to solve mine, by changing
add_executable(file1.cpp)
to
add_executable(ProjectName file1.cpp)

Related

CMake: How can I specify that .c files are C++? [duplicate]

I have worked on a project where I was using g++ to compile C code in files that end in .c. The reason is that I'm told that g++ has better warning messages.
I am switching the build process for this project to use CMake. I found that initially CMake wanted to use gcc to compile C files. This failed because of things like declaring variables at use time. So I tried to use g++ to compile C files by using the setting
set(CMAKE_C_COMPILER_INIT g++)
in the CMakeLists.txt file. But this results in the error message:
#error "The CMAKE_C_COMPILER is set to a C++ compiler"
I have been renaming my .c files to .cpp to fix this problem as that seems to be the easiest way for me to make things work, and perhaps the best way too. But I was wondering if it is possible to force CMake to use g++ to compile C files.
You should not override the compiler for this purpose. If you really need to compile your C files as C++ then you should teach cmake that your files belong to C++ language:
set_source_files_properties(filename.c PROPERTIES LANGUAGE CXX )
To have cmake treat all C files as C++ files use:
file(GLOB_RECURSE CFILES "${CMAKE_SOURCE_DIR}/*.c")
SET_SOURCE_FILES_PROPERTIES(${CFILES} PROPERTIES LANGUAGE CXX )
If you need to switch the whole project, set it in the project directive:
project(derproject LANGUAGES CXX)
set_source_files_properties
The CMake setting of (my) choice here would be the set_source_files_properties command. https://cmake.org/cmake/help/latest/command/set_source_files_properties.html
set(qpid_dispatch_SOURCES
alloc.c
alloc_pool.c
aprintf.c
amqp.c
atomic.c
# [...]
)
set_source_files_properties(${qpid_dispatch_SOURCES} PROPERTIES LANGUAGE CXX)
add_library(qpid-dispatch OBJECT ${qpid_dispatch_SOURCES})
As described in the linked docs, CMake 3.18 changed the scoped effect of set_source_files_properties. See the DIRECTORY and TARGET_DIRECTORY options. Therefore, to apply source file property recursively to all files in your project, your CMakeLists.txt should look something like this
cmake_minimum_required(VERSION 3.20)
project(qpid-dispatch LANGUAGES C CXX)
# [...]
add_subdirectory(src)
add_subdirectory(tests)
add_subdirectory(router)
# [...]
file(GLOB_RECURSE CFILES "*.c")
set_source_files_properties(${CFILES}
DIRECTORY src tests router
PROPERTIES LANGUAGE CXX)

The target name "C:/path/to/lib/file.lib" is reserved or not valid for certain CMake features

I'm trying to write a simple C++ program and include the library for GLFW.
I'm using the CLion IDE and the following is my CMakeLists.txt:
cmake_minimum_required(VERSION 3.12)
project(Engine)
set(CMAKE_CXX_STANDARD 17)
set(CMAKE_VERBOSE_MAKEFILE TRUE)
include_directories(${CMAKE_CURRENT_SOURCE_DIR}/lib/;)
add_library(${CMAKE_CURRENT_SOURCE_DIR}/lib/GLFW/libraries/glfw3.lib;)
add_executable(Engine main.cpp)
The error CMake throws is:
CMake Error at CMakeLists.txt:8 (add_library):
The target name
"C:/Users/callu/CLionProjects/Engine/lib/GLFW/libraries/glfw3.lib"
is reserved or not valid for certain CMake features, such as generator
expressions, and may result in undefined behavior.
My code is:
#include <iostream>
#include "GLFW/glfw3.h"
int main() {
if (!glfwInit)
std::cout << "Failure" << std::endl;
else
std::cout << "Success!" << std::endl;
return 0;
}
I've looked around and found one possible reason is because the value of the library is used elsewhere by CMake. For example, if I used "test" as a library CMake would complain because test is a predefinied thing. I fail to see how the path to the glfw3 library is predefined by CMake. (If that's the issue.)
If it matters, my directory structure is:
C:/Users/callu/CLionProjects/Engine/
../lib
../GLFW
glfw3.h
glfw3Natives.h
../libraries
glfw3.lib
glfw3dll.lib
glfw3.dll
CMakeLists.txt
main.cpp
Your problem is wrong usage of add_library. This statement is used to create a library (.dll/.lib on Windows or .so/.a on Unix) out of some set of sources, and you are trying to use it to list already compiled/linked libraries to be used for linking of your executable.
If my assumptions are correct, your CMakeLists.txt file should look as follows:
cmake_minimum_required(VERSION 3.12)
project(Engine)
set(CMAKE_CXX_STANDARD 17)
set (CMAKE_CXX_STANDARD_REQUIRED ON)
set(CMAKE_VERBOSE_MAKEFILE TRUE)
include_directories(${CMAKE_CURRENT_SOURCE_DIR}/lib)
add_executable(Engine main.cpp)
target_link_libraries (Engine ${CMAKE_CURRENT_SOURCE_DIR}/lib/GLFW/libraries/glfw3.lib)
Note target_link_libraries statement after add_executable. This is what you need to tell CMake which libraries you will use for linking.
BTW,
in case you want to enforce the C++17 standard, setting just the CMAKE_CXX_STANDARD variable is not enough, since it allows for (quiet) decay. In that case you also need to set variable CMAKE_CXX_STANDARD_REQUIRED.
At the end, I would strongly suggest to read CMake documentation:
cmake-buildsystem(7) - CMake 3.12.3 Documentation
And for your case:
add library - CMake 3.12.3 Documentation
target_link_libraries - CMake 3.12.3 Documentation
If this is a target that you have already built outside the project, you have to import it with add_library(<name> IMPORTED). Besides, add_library's first argument is always <name>. That means you cannot put a path there.
I found a fix! I moved the ../../libraries directory into a common /lib directory. I also replaced lines 6 & 7 in the CMakeLists.txt with
include_directories(${CMAKE_CURRENT_SOURCE_DIR}/include;)
link_directories(${CMAKE_CURRENT_SOURCE_DIR}/lib)

Issues with CMake and custom project structure [duplicate]

I'm attempting to run a cmake hello world program on Windows 7 x64 with both Visual Studio 2010 and Cygwin, but can't seem to get either to work. My directory structure is as follows:
HelloWorld
-- CMakeLists.txt
-- src/
-- -- CMakeLists.txt
-- -- main.cpp
-- build/
I do a cd build followed by a cmake .., and get an error stating that
CMake Error: CMake can not determine linker language for target:helloworld
CMake Error: Cannot determine link language for target "helloworld".
However, if I change the extension of main.cpp to main.c both on my filsystem and in src/CMakeLists.txt everything works as expected. This is the case running from both the Visual Studio Command Prompt (Visual Studio Solution Generator) and the Cygwin Terminal (Unix Makefiles Generator).
Any idea why this code wouldn't work?
CMakeLists.txt
PROJECT(HelloWorld C)
cmake_minimum_required(VERSION 2.8)
# include the cmake modules directory
set(CMAKE_MODULE_PATH ${HelloWorld_SOURCE_DIR}/cmake ${CMAKE_MODULE_PATH})
add_subdirectory(src)
src/CMakeLists.txt
# Include the directory itself as a path to include directories
set(CMAKE_INCLUDE_CURRENT_DIR ON)
# Create a variable called helloworld_SOURCES containing all .cpp files:
set(HelloWorld_SOURCES main.cpp)
# Create an executable file called helloworld from sources:
add_executable(hello ${HelloWorld_SOURCES })
src/main.cpp
int main()
{
return 0;
}
I also got the error you mention:
CMake Error: CMake can not determine linker language for target:helloworld
CMake Error: Cannot determine link language for target "helloworld".
In my case this was due to having C++ files with the .cc extension.
If CMake is unable to determine the language of the code correctly you can use the following:
set_target_properties(hello PROPERTIES LINKER_LANGUAGE CXX)
The accepted answer that suggests appending the language to the project() statement simply adds more strict checking for what language is used (according to the documentation), but it wasn't helpful to me:
Optionally you can specify which languages your project supports.
Example languages are CXX (i.e. C++), C, Fortran, etc. By default C
and CXX are enabled. E.g. if you do not have a C++ compiler, you can
disable the check for it by explicitly listing the languages you want
to support, e.g. C. By using the special language "NONE" all checks
for any language can be disabled. If a variable exists called
CMAKE_PROJECT__INCLUDE_FILE, the file pointed to by that
variable will be included as the last step of the project command.
In my case, it was just because there were no source file in the target. All of my code was a template with the source code in the header file. Adding an empty file.cpp solved the problem.
Try changing
PROJECT(HelloWorld C)
into
PROJECT(HelloWorld C CXX)
or just
PROJECT(HelloWorld)
See: https://cmake.org/cmake/help/latest/command/project.html
Confusing as it might be, the error also happens when a cpp file included in the project does not exist.
If you list your source files in CMakeLists.txt and mistakenly type a file name then you get this error.
I want to add another solution in case a library without any source files shall be build. Such libraries are also known as header only libraries. By default add_library expects at least one source file added or otherwise the mentioned error occurs. Since header only libraries are quite common, cmake has the INTERFACE keyword to build such libraries. The INTERFACE keyword is used as shown below and it eliminates the need for empty source files added to the library.
add_library(myLibrary INTERFACE)
target_include_directories(myLibrary INTERFACE {CMAKE_CURRENT_SOURCE_DIR})
The example above would build a header only library including all header files in the same directory as the CMakeLists.txt. Replace {CMAKE_CURRENT_SOURCE_DIR} with a path in case your header files are in a different directory than the CMakeLists.txt file.
Have a look at this blog post or the cmake documentation for further info regarding header only libraries and cmake.
A bit unrelated answer to OP but for people like me with a somewhat similar problem.
Use Case: Ubuntu (C, Clion, Auto-completion):
I had the same error,
CMake Error: Cannot determine link language for target "hello".
set_target_properties(hello PROPERTIES LINKER_LANGUAGE C) help fixes that problem but the headers aren't included to the project and the autocompletion wont work.
This is what i had
cmake_minimum_required(VERSION 3.5)
project(hello)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++11")
set(SOURCE_FILES ./)
add_executable(hello ${SOURCE_FILES})
set_target_properties(hello PROPERTIES LINKER_LANGUAGE C)
No errors but not what i needed, i realized including a single file as source will get me autocompletion as well as it will set the linker to C.
cmake_minimum_required(VERSION 3.5)
project(hello)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++11")
set(SOURCE_FILES ./1_helloworld.c)
add_executable(hello ${SOURCE_FILES})
I also faced a similar error while compiling my C-based code. I fixed the issue by correcting the source file path in my cmake file. Please check the source file path of each source file mentioned in your cmake file. This might help you too.
Simply check the path to source file. (to the respective cpp)
By default the JNI Native folder is named as jni . Renaming it to cpp fixed the issue
I managed to solve mine, by changing
add_executable(file1.cpp)
to
add_executable(ProjectName file1.cpp)

In CLion, header only library: file "does not belong to any project target, code insight features might not work properly"

I have a header-only library project set up with the cmake command:
add_library(my_library INTERFACE)
and I also added
target_sources(my_library INTERFACE ${MY_LIRBARY_HEADER_FILES})
but when I open a source file, I get the warning:
This file does not belong to any project target, code insight features might not work properly
and I lose a lot of the functionality on things like code completion.
What is the proper way to set this up so CLion provides its usual functionality on a header-only library?
Little background
I was having the same problem, albeit the project was not header-only, nevertheless, the open files from inc folder were throwing the aforementioned warning, even though the CMake file clearly marked that folder to be include_directory.
*.hpp files do not belong to ${SOURCE}
include_directories("${PROJECT_SOURCE_DIR}/inc/")
add_subdirectory(src)
add_executable(${EXECUTABLE_NAME} main.cpp ${SOURCE})
Since this is a perfectly valid CMake file and adding the include files to source files is not idiomatic, I did not want to amend the CMake file.
The solution
As described on the official JetBrains Forum, the CMake file is indeed valid and the warning is shown because of the inability of CLion to properly index header files. The suggested workaround extracted from the link is to right-click the folder and Mark directory as | Library Files/Project Sources and Headers.
So, this header isn't includes in executables and CLion notifies you that some code insight features might not work properly. As workaround you can use "Mark directory as" Library Files/Project Source and Headers for folder.
Clion takes information about source files from CMake build system. When you add any cpp file to sources list CMake automatically tell about header with same name. So if cpp/h names differs (or you don't have cpp file at all) you should include header manually.
set(Sources my_lib.cpp)
set(Headers header_of_my_lib.h)
add_executable(superlib ${Sources} ${Headers})
If you don't have any executable you can omit last line, CLion will still know about files
This warning is an IDE issue that Android Studio cannot recognise the current directory if it does not include any source files.
Workaround
Adding am empty source file, e.g empty_xxx.c under the directory in question and adding below line in your corresponding CMakeList.txt
add_library(${TARGET_NAME_XXX} SHARED ${SOME_DIR_HAVING_THIS_WARNING}/empty_xxx.c)
will help get rid of this warning.
You can add the header files to your project like this:
set(SOURCE_FILES main.cpp MyClass1.cpp MyClass1.h MyClass2.cpp MyClass2.h)
You can also set it in multiple steps like so:
set(SOURCE_FILES main.cpp)
set(SOURCE_FILES ${SOURCE_FILES} MyClass1.cpp MyClass1.h)
set(SOURCE_FILES ${SOURCE_FILES} MyClass2.cpp MyClass2.h)
Though as mentioned in the comments, you probably shouldn't be adding the header files to your project at all.

CMake's equivalent to Visual Studio's Property Sheets (.vsprops)

I'm trying to migrate from Visual Studio towards Jetbrains' (awesome) CLion IDE which uses CMake to organize the projects.
Until now, the transition has been smooth: creating CMake projects and importing them into CLion is easy, and I can begin coding on one plateform then continue on another one without problems.
However, one aspect of Visual Studio that I couldn't find an equivalent to in CMake is property sheets: I use them mainly for holding the include directories' paths and the linking libs for libraries (i.e. one .vsprops file for each library, e.g. OpenCV.vsprops, Boost.vsprops, etc.).
This way, in VS, I could share a library's .vsprops file between different projects without having to configure the paths/libs each time.
Does CMake have a similar mechanism to Visual Studio's property sheets ? How is it possible to store a library's includes/libs in a CMake-parsable file then "import" it in CMakeLists.txt in order to link against the library ?
Basically, what I want to do is:
Create a "cmake property sheet" (for lack of a better name) for a given library.
Then, in CMakeLists.txt, write something like link_target_to_libs(myTarget "path/to/propertySheet1" "path/to/propertySheet2" ...) .
In CMake, libraries can export a package with IMPORTED targets which other buildsystems import using find_package:
http://www.cmake.org/cmake/help/v3.1/manual/cmake-packages.7.html
http://www.cmake.org/cmake/help/v3.0/manual/cmake-buildsystem.7.html
http://www.cmake.org/cmake/help/v3.0/manual/cmake-buildsystem.7.html#imported-targets
Instead of 'linking to property sheets', you link to the IMPORTED targets.
target_link_libraries(myTarget Dep1::Dep1 Dep2::Dep2)
Not all libraries create IMPORTED targets, and not all provide cmake config-file packages. In those cases (including OpenCV and Boost), CMake provides find modules:
http://www.cmake.org/cmake/help/v3.0/manual/cmake-developer.7.html#find-modules
which you use with find_package and link to the contents of variables.
Since I really want to make the libraries' inclusion/linking into a one-line command, and as far as my (basic) knowledge of CMake goes, I think that some compromise should be made -- mainly sharing the target name's variable between CMakeLists.txt and the "property sheets". So this is my solution... until someone proposes a simpler/cleaner one:
A CMake property sheet is a .cmake text file,
A well-known variable name --TARGET-- designates the target (i.e. the first argument of add_executable()),
Aside from library-specific commands, a .cmake file contains a call to target_include_directories(${TARGET} PRIVATE ${PATH_TO_INCLUDE_DIR}) and target_link_libraries(${TARGET} ${LIST_OF_LIBS}),
In order to use/link against a library, call include("path/to/.cmake") in CMakeLists.txt.
I have successfully built and executed a simple program that uses X11 and OpenCV with the following files:
x11.cmake
target_include_directories(${TARGET} PRIVATE "/usr/include/X11")
target_link_libraries(${TARGET} "/usr/lib/x86_64-linux-gnu/libX11.so")
opencv.cmake
# OpenCV-specific stuff
set(OpenCV_DIR "/PATH/TO/OPENCV/INSTALL/DIR/share/OpenCV") # path to OpenCVConfig.cmake
find_package(OpenCV REQUIRED)
# include path
target_include_directories(${TARGET} PRIVATE ${OpenCV_INCLUDE_DIRS})
# linking libs
target_link_libraries(${TARGET} opencv_world opencv_ts)
CMakeLists.txt
cmake_minimum_required(VERSION 2.8.4)
project(hello_clion)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++11")
## hello-clion ##############################
# make a new target name
set(TARGET hello-clion)
# find sources
file(GLOB_RECURSE SOURCE_FILES "src/*.cpp" "src/*.hpp")
# declare a target
add_executable(${TARGET} ${SOURCE_FILES})
# link the libraries (to the last-declared ${TARGET}, which should be the last-added executable)
include("x11.cmake")
include("opencv.cmake")
#############################################
main.cpp
#include <cstdio>
#include <cstdlib>
#include <cstring>
#include <thread>
#include <opencv2/opencv.hpp>
#include <Xlib.h>
int main_x11()
{
// adapted from: http://rosettacode.org/wiki/Window_creation/X11#Xlib
}
int main_ocv()
{
// adapted from: http://docs.opencv.org/doc/tutorials/introduction/display_image/display_image.html#source-code
}
int main()
{
using namespace std;
thread tocv(main_ocv);
thread tx11(main_x11);
tocv.join();
tx11.join();
return 0;
}
Now, each time I want to use OpenCV in a project/program, I just have to put include("opencv.cmake") in the corresponding CMakeLists.txt.
This seems to work great, but there could certainly be problems I haven't discovered. (I was worried multiple macros adding the same target_link_libraries would cause "already defined" linking errors , but at least g++ 5.1.0 handles being given the same library name multiple times without error.)
In root CMakeLists.txt, BEFORE add_subdirectory() calls or globs, include:
macro(USES_WX)
include_directories(SYSTEM /usr/local/include/wx-3.0)
include_directories(SYSTEM /usr/local/lib/wx/include/gtk3-unicode-3.0)
link_directories(/usr/local/lib)
add_definitions(-D_FILE_OFFSET_BITS=64 -DWXUSINGDLL -D__WXGTK__ -pthread)
target_link_libraries(${TARGET} pthread wx_gtk3u_xrc-3.0 wx_gtk3u_html-3.0 wx_gtk3u_qa-3.0 wx_gtk3u_adv-3.0 wx_gtk3u_core-3.0 wx_baseu_xml-3.0 wx_baseu_net-3.0 wx_baseu-3.0)
endmacro()
(You can make the macro more fancy, like checking for if CMAKE_BUILD_TYPE is "Debug" or "Release" to link to the appropriate libraries, vary preprocessor definitions, etc. See http://www.cmake.org/cmake/help/v3.0/command/if.html)
And have your project's CMakeLists.txt be like this:
set(TARGET myProgramName)
add_executable(${TARGET} myProgramName.cpp)
USES_WX()
^^ The macro call MUST be after add_executable()
And, if you want multiple target support, modify the line in the root CMakeLists.txt section shown above to:
...
target_link_libraries(${ARGV0} pthread wx_gtk3u_xrc-3.0 ...)
...
And have your project's CMakeLists.txt be like this (less lines, but more chance for error):
add_executable(myProgramName myProgramName.cpp)
USES_WX(myProgramName)