How to set compiler standard in CMake - c++11

I want to use a timer as advised in
How can I measure the execution time of one thread?
However, I receive the error message
In file included from /usr/include/c++/5/thread:35:0,
/usr/include/c++/5/bits/c++0x_warning.h:32:2: error: #error This file requires compiler and library support for the ISO C++ 2011 standard. This support must be enabled with the -std=c++11 or -std=gnu++11 compiler options.
#error This file requires compiler and library support \
^
The CMake output of
message("${CMAKE_CXX_FLAGS}" and "${CMAKE_C_FLAGS}")
is
-std=c++11 -fPIC -Wall;and; -std=c++11
What is wrong?

If you would like your project to require C++11, I suggest you do something like this:
cmake_minimum_required(VERSION 3.10)
set(CMAKE_CXX_STANDARD 11)
set(CMAKE_CXX_STANDARD_REQUIRED ON)
set(CMAKE_CXX_EXTENSIONS OFF)
project(test)
[...]
If you are building a library, and you would like user of your library to transitively use the correct flags, you could look into https://cmake.org/cmake/help/latest/manual/cmake-compile-features.7.html#requiring-language-standards

Related

setting g++ mode to C++11

I am trying to build cmake source, which requires C++11.
The build halts and apparently the complaint is that C++11 is not detected. The g++ mode is actually set to -std=gnu++17
This is part of the console log
---------------------------------------------
CMake 3.18.20200919, Copyright 2000-2020 Kitware, Inc. and Contributors
Found GNU toolchain
C compiler on this system is: gcc
C++ compiler on this system is: g++ -std=gnu++17
Makefile processor on this system is: make
g++ has setenv
g++ has unsetenv
g++ does not have environ in stdlib.h
g++ has stl wstring
g++ has <ext/stdio_filebuf.h>
---------------------------------------------
g++ -std=gnu++17 -DCMAKE_BOOTSTRAP -DCMake_HAVE_CXX_MAKE_UNIQUE=1 -c $HOME/Apps/CMake-master/Source/cmAddCustomCommandCommand.cxx -o cmAddCustomCommandCommand.o
This is part of the error in the log file...
In file included from /usr/include/c++/5/unordered_map:35:0,
from cmake_bootstrap_11920_test.cxx:4:
/usr/include/c++/5/bits/c++0x_warning.h:32:2: error: #error This file requires compiler and library support for the ISO C++ 2011 standard. This support must be enabled with the -std=c++11 or -std=gnu++11 compiler options.
#error This file requires compiler and library support \
^
cmake_bootstrap_11920_test.cxx:7:2: error: #error "Compiler is not in a mode aware of C++11."
#error "Compiler is not in a mode aware of C++11."
^
cmake_bootstrap_11920_test.cxx:70:16: warning: non-static data member initializers only available with -std=c++11 or -std=gnu++11
int Member = 1;
Looking around on the web, I noticed that C++11 is only available after gcc version 4.6.
I checked my version, and it seems to be above.
g++ --version
g++ (Ubuntu 5.4.0-6ubuntu1~16.04.12) 5.4.0 20160609
I understand the -std=c++11 flag is used to enable the C++11 features in g++, but I don't seem to know what I am doing in this case.
I tried editing the CompileFlags.cmake file, but no change occurs.
I came upon this page which points to the cmake source I am using.
It says...
bootstrap: Require compiler mode aware of C++11
Some compilers have enough features enabled in their default modes to
pass our simple C++11 unique_ptr check but do not enable enough to build
CMake. Poison this case so that we choose one of the explicit `-std=`
options for such compilers.
Not sure what that means exactly.
How exactly do I change the g++ mode, to C++11, so that on running the bootstrap command, C++11 is used?
Or, in other words, how do I change std to point to C++11 (-std=c++11)?
First of all, you have g++ version 5.4.0 in your host PC installed, which is good, cause it means this is also supports the C++11, which you want to use.
To set it up, you could define it in your CMakeList.txt file:
set (CMAKE_CXX_STANDARD 11)
that should do the trick.
Please also check the documentation:
https://cmake.org/cmake/help/v3.1/variable/CMAKE_CXX_STANDARD.html
Usually, I would suggest to use the latest standard that you compiler is supporting (https://gcc.gnu.org/projects/cxx-status.html), cause you'll get also the latest features introduced in that standard. Exception for this rather in case you are working with legacy codes.

CMake: different compiler flags during configuration?

CMake 3.9, arm-gcc 5.4.1, Linux / OSX:
I'm enabling stack smashing protection by adding -fstack-protector-strong to my compiler flags. This instructs gcc to look for specially-named symbols in the hard-coded libraries libssp.a and libssp_nonshared.a.
These libraries exist in my application as part of the build, but they do not yet exist when CMake is interrogating my compiler during the configuration phase.
This causes CMake to fail, which makes sense:
[2/2] Linking CXX executable cmTC_0f43d
FAILED: cmTC_0f43d
/path/to/arm-none-eabi-g++ -fstack-protector-strong
CMakeFiles/cmTC_0f43d.dir/testCXXCompiler.cxx.obj -o cmTC_0f43d
/path/to/arm-none-eabi/bin/ld: cannot find -lssp_nonshared
/path/to/arm-none-eabi/bin/ld: cannot find -lssp
Is there any way to:
Tell CMake to not use -fstack-protector-strong during compiler interrogation?
Provide an empty "dummy" version of libssp and libssp_nonshared during interrogation?
Skip compiler interrogation entirely? (This is a custom toolchain.)
Or any other way to work around this?
Tell CMake to not use -fstack-protector-strong during compiler interrogation?
Just add this compiler flag after the project() call, when CMake checks a compiler.
project(MyProject)
# ...
set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -fstack-protector-strong")
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fstack-protector-strong")
Instead of appending the flag to CMAKE_*_FLAGS variable, you may also add it via add_compile_options command:
project(MyProject)
# ...
add_compile_options("-fstack-protector-strong")
In my case, option 3 turned out to be easy. In my toolchain CMake file, I simply added:
set(CMAKE_C_COMPILER_WORKS ON)
set(CMAKE_CXX_COMPILER_WORKS ON)
And now CMake doesn't waste any time interrogating the features of my compiler.
This works in my specific case (embedded systems firmware), but it would be nice how to get CMake and -fstack-protector-strong to work on non-embedded programs as well.

How to create a makefile for Keystone library using cmake? [duplicate]

Work on Ubuntu 16
I used g++ main.cpp -lpq command for compiler my small project. Now I use Clion and wanna do same what I do with g++. But I can't add compiler flags in cmake file and get compile error.
cmake_minimum_required(VERSION 3.5.1)
project(day_g)
set(CMAKE_CXX_FLAGS "-lpq")
add_definitions(-lpq)
message("CMAKE_CXX_FLAGS is ${CMAKE_CXX_FLAGS}")
set(CMAKE_CXX_STANDARD 11)
set(SOURCE_FILES main.cpp)
add_executable(day_g ${SOURCE_FILES})
Also I run only cmake file and get CMAKE_CXX_FLAGS with -lpq flag.
CMAKE_CXX_FLAGS is -lpq
-- Configuring done
-- Generating done
How properly add compiler flags to cmake file?
Flag -l is for linker, not for compiler. This flag is used for link with libraries. CMake has special command target_link_libraries for that purpose:
target_link_libraries(day_g pq)
-lq is not a compiler flag (CFLAGS) but a linker flag.
To pass a library in a CMake project you should use:
target_link_libraries(target_name libraries...)
Note that if you specify 'q' as library the project will link with libq.a or, if you are on windows q.dll.
... in your CMakeLists.txt the correct line to add is:
target_link_libraries(day_g pq)
Note also that when you add a CFLAG you should also "remember" the previous ones that may be added by libraries or by your platform, ie:
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -O3")
To check the exact flags cmake is passing to compiler or linker you can always run, from the build directory, the following command:
make VERBOSE=1

Triggering C++11 support in NVCC with CMake

I'm running Ubuntu 15.10 with CUDA 7.5. CMmake is v3.2.2, NVCC is release 7.5, v7.5.17; GCC is Ubuntu 5.2.1-22ubuntu2 v5.2.1
Triggering C++11 in regular projects is easy with:
project(foo CXX)
set(TARGET foo CMAKE_CXX_STANDARD 11)
I'm defining my CUDA project with:
find_package(CUDA REQUIRED)
CUDA_ADD_EXECUTABLE(foo ${foo_src} ${foo_hdr} ${foo_cu})
But the C++11 support doesn't get propagated to NVCC. I have to add:
list(APPEND CUDA_NVCC_FLAGS "-std=c++11")
This seems like a kludge. There was evidently work on this recently according to this task, but I haven't been able to find the results.
How do I get CMake to automatically set the C++11 flags when declaring the project as C++11?
EDIT: I've retuned to to this question with CUDA 8.0 and CMake 3.5.1.
From the documentation, set(CUDA_PROPAGATE_HOST_FLAGS ON) will propagate the contents of CMAKE_CXX_FLAGS, so the following triggers C++11 for both cpp and nvcc:
set (CMAKE_CXX_FLAGS "--std=c++11")
set (CUDA_PROPAGATE_HOST_FLAGS ON)
However, set(CMAKE_CXX_STANDARD 11) does not impact CMAKE_CXX_FLAGS, so the following gives compiler errors for C++11 device code, as there's nothing to propagate:
set (CMAKE_CXX_STANDARD 11)
set (CUDA_PROPAGATE_HOST_FLAGS ON)
I can't seem to find a combination of CMake commands that avoids explicitly setting --std=c++11 in either CXX or CUDA flags.
Since CMake 3.8 (since CMake supports CUDA as a language) there is a new target property CUDA_STANDARD. Although its name is quite confusing, it adds the -std=XXX to the nvcc compile command.
With a recent CMake version the proper way would be
cmake_minimum_required(VERSION 3.8.2)
enable_language(CUDA)
add_executable(foo ${foo_src} ${foo_cu})
set_property(TARGET foo PROPERTY CUDA_STANDARD 11)

How do I activate C++ 11 in CMake?

When I try to run a CMake generated makefile to compile my program, I get the error that
range based for loops are not supported in C++ 98 mode.
I tried adding add_definitions(-std=c++0x) to my CMakeLists.txt, but it did not help.
I tried this too:
if(CMAKE_COMPILER_IS_GNUCXX)
add_definitions(-std=gnu++0x)
endif()
When I do g++ --version, I get:
g++ (Ubuntu/Linaro 4.6.1-9ubuntu3) 4.6.1
I have also tried SET(CMAKE_CXX_FLAGS "-std=c++0x"), which also does not work.
I do not understand how I can activate C++ 11 features using CMake.
CMake 3.1 introduced the CMAKE_CXX_STANDARD variable that you can use. If you know that you will always have CMake 3.1 or later available, you can just write this in your top-level CMakeLists.txt file, or put it right before any new target is defined:
set (CMAKE_CXX_STANDARD 11)
If you need to support older versions of CMake (quite unlikely these days), here is a macro I came up with that you can use:
macro(use_cxx11)
if (CMAKE_VERSION VERSION_LESS "3.1")
if (CMAKE_CXX_COMPILER_ID STREQUAL "GNU")
set (CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=gnu++11")
endif ()
else ()
set (CMAKE_CXX_STANDARD 11)
endif ()
endmacro(use_cxx11)
The macro only supports GCC right now, but it should be straight-forward to expand it to other compilers.
Then you could write use_cxx11() at the top of any CMakeLists.txt file that defines a target that uses C++11.
CMake issue #15943 for clang users targeting macOS
If you are using CMake and clang to target macOS there is a bug that can cause the CMAKE_CXX_STANDARD feature to simply not work (not add any compiler flags). Make sure that you do one of the following things:
Use cmake_minimum_required to require CMake 3.0 or later, or
Set policy CMP0025 to NEW with the following code at the top of your CMakeLists.txt file before the project command:
# Fix behavior of CMAKE_CXX_STANDARD when targeting macOS.
if (POLICY CMP0025)
cmake_policy(SET CMP0025 NEW)
endif ()
The CMake command target_compile_features() is used to specify the required C++ feature cxx_range_for. CMake will then induce the C++ standard to be used.
cmake_minimum_required(VERSION 3.1.0 FATAL_ERROR)
project(foobar CXX)
add_executable(foobar main.cc)
target_compile_features(foobar PRIVATE cxx_range_for)
There is no need to use add_definitions(-std=c++11) or to modify the CMake variable CMAKE_CXX_FLAGS, because CMake will make sure the C++ compiler is invoked with the appropriate command line flags.
Maybe your C++ program uses other C++ features than cxx_range_for. The CMake global property CMAKE_CXX_KNOWN_FEATURES lists the C++ features you can choose from.
Instead of using target_compile_features() you can also specify the C++ standard explicitly by setting the CMake properties
CXX_STANDARD
and
CXX_STANDARD_REQUIRED for your CMake target.
See also my more detailed answer.
I am using
include(CheckCXXCompilerFlag)
CHECK_CXX_COMPILER_FLAG("-std=c++11" COMPILER_SUPPORTS_CXX11)
CHECK_CXX_COMPILER_FLAG("-std=c++0x" COMPILER_SUPPORTS_CXX0X)
if(COMPILER_SUPPORTS_CXX11)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++11")
elseif(COMPILER_SUPPORTS_CXX0X)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++0x")
else()
message(STATUS "The compiler ${CMAKE_CXX_COMPILER} has no C++11 support. Please use a different C++ compiler.")
endif()
But if you want to play with C++11, g++ 4.6.1 is pretty old.
Try to get a newer g++ version.
The easiest way to set the Cxx standard is:
set_property(TARGET tgt PROPERTY CXX_STANDARD 11)
See the CMake documentation for more details.
On modern CMake (>= 3.1) the best way to set global requirements is:
set(CMAKE_CXX_STANDARD 11)
set(CMAKE_CXX_STANDARD_REQUIRED ON)
set(CMAKE_CXX_EXTENSIONS OFF)
It translates to "I want C++11 for all targets, it's not optional, I don’t want to use any GNU or Microsoft extensions."
As of C++17, this still is IMHO the best way.
Source: Enabling C++11 And Later In CMake
As it turns out, SET(CMAKE_CXX_FLAGS "-std=c++0x") does activate many C++11 features. The reason it did not work was that the statement looked like this:
set(CMAKE_CXX_FLAGS "-std=c++0x ${CMAKE_CXX_FLAGS} -g -ftest-coverage -fprofile-arcs")
Following this approach, somehow the -std=c++0x flag was overwritten and it did not work. Setting the flags one by one or using a list method is working.
list( APPEND CMAKE_CXX_FLAGS "-std=c++0x ${CMAKE_CXX_FLAGS} -g -ftest-coverage -fprofile-arcs")
For CMake 3.8 and newer you can use
target_compile_features(target PUBLIC cxx_std_11)
If you want the generation step to fail if the toolchain cannot adhere to this standard, you can make this required.
set_target_properties(target PROPERTIES CXX_STANDARD_REQUIRED ON)
If you want strict adherence to standard C++ i.e. avoid C++ extensions offered by your compiler (like GCC's -std=gnu++17), additionally set
set_target_properties(target PROPERTIES CXX_EXTENSIONS OFF)
This is documented in detail at An Introduction to Modern CMake -> Adding Features -> C++11 and Beyond. It also offers advice on how to achieve this on older versions of CMake if you're constrained to those.
The easiest way:
add_compile_options(-std=c++11)
This is another way of enabling C++11 support,
ADD_DEFINITIONS(
-std=c++11 # Or -std=c++0x
# Other flags
)
I have encountered instances where only this method works and other methods fail. Maybe it has something to do with the latest version of CMake.
Modern cmake offers simpler ways to configure compilers to use a specific version of C++. The only thing anyone needs to do is set the relevant target properties. Among the properties supported by cmake, the ones that are used to determine how to configure compilers to support a specific version of C++ are the following:
CXX_STANDARD sets the C++ standard whose features are requested to build the target. Set this as 11 to target C++11.
CXX_EXTENSIONS, a boolean specifying whether compiler specific extensions are requested. Setting this as Off disables support for any compiler-specific extension.
To demonstrate, here is a minimal working example of a CMakeLists.txt.
cmake_minimum_required(VERSION 3.1)
project(testproject LANGUAGES CXX )
set(testproject_SOURCES
main.c++
)
add_executable(testproject ${testproject_SOURCES})
set_target_properties(testproject
PROPERTIES
CXX_STANDARD 11
CXX_EXTENSIONS off
)
In case you want to always activate the latest C++ standard, here's my extension of David Grayson's answer, in light of the recent (CMake 3.8 and CMake 3.11) additions of values of 17 and 20 for CMAKE_CXX_STANDARD):
IF (CMAKE_VERSION VERSION_LESS "3.8")
SET(CMAKE_CXX_STANDARD 14)
ELSEIF (CMAKE_VERSION VERSION_LESS "3.11")
SET(CMAKE_CXX_STANDARD 17)
ELSE()
SET(CMAKE_CXX_STANDARD 20)
ENDIF()
# Typically, you'll also want to turn off compiler-specific extensions:
SET(CMAKE_CXX_EXTENSIONS OFF)
(Use that code in the place of set (CMAKE_CXX_STANDARD 11) in the linked answer.)
What works for me is to set the following line in your CMakeLists.txt:
set (CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++11")
Setting this command activates the C++11 features for the compiler and after executing the cmake .. command, you should be able to use range based for loops in your code and compile it without any errors.
I think just these two lines are enough.
set(CMAKE_CXX_STANDARD 11)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++11")
The modern way is to specify the minimum required standard to C++11 with:
target_compile_features(foo PUBLIC cxx_std_11)
This way:
CMake can honor default C++ standard of the compiler if it's greater than C++11
You can clearly specify whether C++ standard is required at build time, consume time, or both. This is nice for libraries.
Public compile features are propagated to downstream targets, so it comes for free in those targets even if they don't directly use this feature.
Users can externally set another C++ standard (more recent basically), with CMAKE_CXX_STANDARD, either from command line or CMake presets. If you hardcode CMAKE_CXX_STANDARD in a CMakeLists, nobody can override the C++ standard without editing your CMakeLists, which is not very pleasant.
It requires CMake >= 3.8
You can use the following. This automatically modifies the feature based on your environment.
target_compile_features(your_target INTERFACE cxx_std_20)
For example,
on Gnu/Linux the following adds -std=gnu++20
on Windows with Clang/Ninja it becomes -std=c++20
on Windows with MSVC it becomes /std=c++20
So you support as many as environments possible.
In case you stumble on that same error using cmake as i did.
You need to set
set (CMAKE_CXX_STANDARD 11)
to activate threading because it is only supported from c++11 ++
hope that helps
OS X and Homebrew LLVM related:
Don't forget to call cmake_minimum_required(VERSION 3.3) and project() after it!
Or CMake will insert project() implicitly before line 1, causing trouble with Clang version detection and possibly other sorts of troubles. Here is a related issue.

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