Skip to content

Latest commit

 

History

History
897 lines (696 loc) · 42.1 KB

README.md

File metadata and controls

897 lines (696 loc) · 42.1 KB

The definitive guide of setting up C/C++ development environment on Windows

I know a lot of you are having troubles of getting it to work on Windows and complaining a shiton. I will admit, that most C++ programming books do NOT actually tell you how to set things up. And I think that's hilarious, because how are you supposed to program without a working development environment? Although some books do mention it, they usually target Unix operating systems.

You can just use Visual Studio, which is the best and beginner-friendly solution and has really good documentation from Microsoft, but for some reason you are just a boomer and don't want to use it and you are dumb to set up the alternatives.

Now, you have found the right guide! This guide aims to provide the fullest list of every possible main-stream IDEs/text editors you might want to use and its respective configuration on Windows.

Follow the guide and screenshot carefully. The screenshot are from Windows Sandbox, which is a clean install of Windows 10. If you followed everything, and can't get it work, open an issue. Let me see how that's even possible!!

A visual summary of this guide:

flowchart TD
    A[Start]
    A-->Compiler{Compiler}
    A-->VisualStudio
    Compiler-->MSYS2{MSYS2}
    MSYS2--->GCC
    MSYS2--->Clang
    Compiler-->MSVC

    GCC-->CMake
    Clang-->CMake
    MSVC-->CMake

    CMake-->IDE{IDE}
    IDE-->VisualStudio
    IDE-->QtCreator
    IDE-->CLion

    CMake-->Editor{Text Editor}
    Editor-->Vim
    Editor-->VSCode[Visual Studio Code]
    
    GTest[Google test & Doxygen]-. integrate .->VisualStudio
    GTest[Google test & Doxygen]-. integrate .->VSCode
    GTest[Google test & Doxygen]-. integrate .->CLion
    GTest[Google test & Doxygen]-. integrate .->CMake

    subgraph tooling
    Additional[Additional tooling]---ReSharper
    Additional---ClangTidy
    Additional---ClangFormat
    Additional---Incredibuild
    end
Loading

Setting up development environment

This section describes the steps to

  1. Download & Install a C++ compiler
  2. Download & Install CMake
  3. Download & Install an IDE/text editor
  4. Create a project in various IDEs/text editors and start writing code

Download & Install a C++ compiler

This guide will cover the installation of GCC, Clang and MSVC.

GCC & Clang

Download & Install MSYS2

Download here

Just launch the installer and keep clicking "Next"

Install GCC

If you also want to install clang, skip this part and go directly to Install Clang, because GCC is a dependency of Clang (on MSYS2) and will be automatically installed when you install clang.

  1. Run MSYS2, type the following command:
pacman -Syu

pacman is the package manager used by MSYS2. -S means "sync". -y means "download fresh package databases from the server". -u means "upgrade installed packages".

This command will update the packages info, so you get the latest packages. It will prompt you like this, and you type y and hit enter.

  1. Then it will prompt you To complete this update all MSYS2 processes including this terminal will be closed. Confirm to proceed [Y/n], type y and hit enter, and it will close the window after the update is done.
  2. Relaunch MSYS2 from your start menu. Type:
pacman -S mingw-w64-x86_64-gcc

like this, type y and hit enter to install gcc

And then type:

pacman -S mingw-w64-x86_64-make

And type y to also install make.

And then type:

pacman -S mingw-w64-x86_64-gdb

And type y to also install gdb.

  1. Now search for environment variable and open it

  2. Click Environment Variables, find Path in System variables, double click to open the setting.

  3. Click New and copy C:\msys64\mingw64\bin to the new entry.

  4. Click OK to close all windows. Now you finished installing GCC. Open any shell such as cmd and type in gcc --version and you shall see the following:

Install Clang

Installing Clang will also automatically install GCC (on MSYS2).

  1. Run MSYS2, type the following command:
pacman -Syu

pacman is the package manager used by MSYS2. -S means "sync". -y means "download fresh package databases from the server". -u means "upgrade installed packages".

This command will update the packages info, so you get the latest packages. It will prompt you like this, and you type y and hit enter.

  1. Then it will prompt you To complete this update all MSYS2 processes including this terminal will be closed. Confirm to proceed [Y/n], type y and hit enter, and it will close the window after the update is done.

  2. Relaunch MSYS2 from your start menu. Type:

pacman -S mingw-w64-x86_64-clang mingw-w64-x86_64-clang-tools-extra

like this, type y and hit enter to install clang

And then type:

pacman -S mingw-w64-x86_64-make

And type y to also install make.

And then type:

pacman -S mingw-w64-x86_64-gdb

And type y to also install gdb.

  1. Now search for environment variable and open it

  2. Click Environment Variables, find Path in System variables, double click to open the setting.

  3. Click New and copy C:\msys64\mingw64\bin to the new entry.

  4. Click OK to close all windows. Now you finished installing clang. Open any shell such as cmd and type in clang --version and you shall see the following:

(9. Optional): If you want to get clang's implementation of the C++ standard library (ie. the STL), type this command: pacman -S mingw-w64-x86_64-libc++ When invoking clang++, add the flag -stdlib=libc++. The header files of libc++ will be stored at C:\msys64\mingw64\include\c++\v1.

Note: Clang and GCC is installed to the same directory, eg. under C:\msys64\mingw64\bin. Don't be confused by the directory C:\msys64\clang64. It is an empty folder.

What is MSYS2 and Why?

MSYS2 is a collection of tools and libraries providing you with an easy-to-use environment for building, installing and running native Windows software.

But basically, we use its implementation of MingW(Minimalist GNU for Windows), which is a collection of common developing tools seen on GNU/Linux operating systems.

Warning

Please DO NOT use this Mingw-w64 installer, because it uses out-dated GCC toolchain, and is no longer maintained

MSYS2 (in this guide) is actively maintained and provides an up-to-date GCC toolchain as well as many others, is the prefered choice.

What's the difference between /usr/bin and /mingw64/bin

Copied from this stackoverflow answer

The GCC compiler in /usr/bin produces executables that use msys-2.0.dll as a runtime dependency. That DLL is basically a fork of Cygwin, and it provides emulation of POSIX commands not normally available on Windows. That environment is mainly for running programs from the Linux world (like bash) which need POSIX commands and cannot be easily ported to a native Windows environment.

The GCC compilers in /mingw32/bin and /mingw64/bin produce native Windows executables targeting the 32-bit or 64-bit versions of Windows respectively. The 32-bit executables can actually run on 32-bit or 64-bit Windows. These executables are easier to distribute; you generally just copy all the DLLs that they depend on from the /mingw*/bin folder to the same directory as your executable, and then you have something that will run successfully on other computers. Since the main purpose of MSYS2 is to help write native Windows software, you'll find a much wider variety of libraries in the MinGW environments than in the msys-2.0.dll environment.

MSVC

MSVC is Microsoft Visual C++ compiler. And you know what? You do NOT have to install Visual Studio in order to get MSVC. However, if you also want Visual Studio, skip to setting up visual studio directly.

  1. Download MSVC, select Build Tools for Visual Studio 2019
  2. Launch the installer and select these workflows
  3. You have finished installing MSVC. Click Launch and type cl and you should see this:

Do NOT try to add MSVC directly to system PATH because each compiler toolchain for different architecture has its own version.

This command prompt is specific to 64bit Windows architecture and has set some temporary environment variables. You can find it in Start -> Visual Studio 2019 -> Developer Command Prompt for VS 2019 like this:

After MSVC is installed, cmake can detect it as a compiler.

Download & Install CMake

You can either install CMake by using the official installer or using a package manager like MSYS2, which you used to install GCC and Clang.

  • Using the installer:
    1. Download here, choose the Windows win64-x64 Installer option

    2. Launch the insatller, when you see this screen, choose Add CMake to the system PATH for all users Now you finished installing cmake.

  • Using MSYS2:
    1. Run MSYS2 and type this command and type Y to install
    pacman -S mingw-w64-x86_64-cmake
    
    1. Search for environment variable and open it -> Environment Variables, find Path in System variables, double click to open the setting -> click New and copy C:\msys64\usr\bin to the new entry.

What is CMake and Why?

CMake is a cross-platform build-system generator, which generates build files (some files dictating how your source files should be built) for your platform.

For example, on Windows by default, it generate Visual Studio Solutions (which is some files dicating how your source files should be built, native to Visual Studio) if you have Visual Studio installed. On Linux by default, it generates Unix Makefiles (which is some files dictating how your source files should be built, native to make).

And because:

It is a bug if your C/C++ project does NOT provide CMake support.

In reality, some of the most loved IDEs/text editors really just provide good CMake support out-of-the-box. So don't argue that Meson is better or some nonsense. To be considered "better", you really have to get good tool chain support.

IDEs

This guide will cover setting up Visual Studio, CLion, QtCreator, Cevelop (based on Eclipse) and Eclipse.

Setting up CLion

  1. Download clion

  2. Launch the installer, keep clicking "Next". When you see the following screen, I strongly recommend you to select Add "Open Folder as Project".

  3. Run clion, set up the appearance as you like, login your account or free trial.

  4. After those, it will prompt this window for setting up compilers, it should be all correct and no need to change.

  5. Create a new C++ executable or C executable on the left

  6. Clion will auto generate a "Hello world" project and everything should be working.

Setting up QT creator

  1. Download QT installer here
  2. Launch the installer and you will need to either sign in or create a qt account
  3. When you see this, click Custom Install.
  4. When you see this, click Deselect All, because we only intend to use it as a standalone IDE, aka Qt Creator. If you want to do Qt development, select the component to your need.
  5. After the installation, run Qt Creator -> New File or Project -> Non-Qt Project -> Plain C++ Application (this actually doesn't matter, you can always change to a C application in the CMakeLists.txt file) -> Choose CMake as the build system -> select all kits (this will include the different build types in CMake). Qt Creator should create a simple "Hello world" program for you, like this:
  6. Click the Run button, and it should run

Note: If there is error during CMake's configure, go to Tools -> Options -> Kits -> Desktop(default), and make sure the C and C++ compiler is in C:\msys64\mingw64\bin instead of C:\msys64\usr\bin.

If you installed Clang you shall see it in the compiler selection menu:

Setting up Visual Studio

You can install Visual Studio as a standalone IDE or as a whole package including compiler, toolchain and windows sdk.

Full package
  1. Download Visual studio. Choose the Community option.

  2. Run the installer, select these workflows

  3. After installation, you are prompt to restart your computer. And then you will need to register a Microsoft Account to continue using Visual Studio.

  4. Run Visual Studio, select Create a new project -> Empty Project/Console App, and select Place solution and project in the same directory. The only difference between Empty Project and Console App is the latter will provide you with a "Hello world" program and that's it! All the default include directories and default linked runtime libraries are the same!

  • If you choose to create Empty Project, right click on the <Project Name> -> Add -> New item -> C++ source file -> Add, like this: Then write a simple "Hello world" program and hit ctrl+f5 to compile and run it, and you shall see this:

  • If you choose to create Console App, you shall see the already created "Hello world". Hit ctrl+f5 to compile and run the program and you shall see this:

Standalone IDE

If you install Visual Studio as a standalone IDE without installing MSVC compiler toolchains, you can use it with CMake. If you have installed MSVC compiler toolchain, you can use it with Visual Studio solution just as it's a full install like above. Here I introduce how to use it with CMake, without MSVC.

  1. Download Visual studio. Choose the Community option.

  2. Run the installer, select these workflows and deselect all the optionals on the right, like this

  3. After installation, you need to register a Microsoft Account to continue using Visual Studio.

  4. Run Visual Studio, select Create a new project -> CMake Project -> select Place Project under the same directory -> Create, like this:

  5. Visual Studio will auto generate a "Hello world" project for you, and it can successfully configure the project and compile because CMake can detect the installed GCC. However, it will have incorrect include errors.

  6. To solve this error, click on the configuration menu -> Manage Configurations -> click the add button -> select Mingw64-Debug -> click on the previous old configuration and click delete button

  7. Hit ctrl+s to save this configuration, then the include error should go away.

Note: If for some reason, Visual Studio doesn't detect the right MingW version, you will still get include errors. You need to edit the CMakeSettings.json and correct the MingW version, like this:

Text editors

Setting up VSCode

  1. Download vscode

  2. Launch the installer, when you see this screen, I strongly recommend you follow this setting

  3. Run vscode, in the extension tab, search and install the following extensions

  • Install Microsoft C/C++ extension, It is a Language Server by Microsoft. You can also install llvm's LSP clangd. clangd will have limitions when using with Visual Studio as CMake's generator. See the discussion here.
  • And 2 extensions for cmake. The first one in the list is for syntax highlighting when writing cmake scirpts.
  • The second one in the list is for actually running Cmake.
  1. Go to settings, search generator. And set Cmake:Generator to MinGW Makefiles, like this:

  2. Create a folder, open it in vscode. Use ctrl + shift + p to open the command menu, type cmake and choose CMake: Quick Start, like this:

  3. The cmake tool will scan the kits and there will be 2 kits. Select the first one.

  4. Type a name for your project, select Executable, CMake tool will automatically generate a helloworld project for you. And you probably don't want to enable ctest for now, so delete everything excpet the following 3 lines:

cmake_minimum_required(VERSION 3.5.0)
project(helloworld VERSION 0.1.0)

add_executable(helloworld main.cpp)

Important

Rememeber to click Allow when cmake want to configure the intellisense.

  1. And now you can run it and debug it, and have everything working (syntax highlighting, auto complete, header files...).

Setting up Vim

Using MSYS2
  1. If you install vim in MSYS2, your .vimrc file should be placed in
    C:\msys64\home\<UserName>\.vimrc
    
  2. Create new folders along this path
    C:\msys64\home\<UserName>\.vim\autoload
    
    and then open powershell here.
  3. Type the following command to install vim-plug, a simple vim plugin manager
    iwr -useb https://raw.githubusercontent.com/junegunn/vim-plug/master/plug.vim |`
        ni plug.vim -Force
    
Standalone

Download and install Vim here. It can be installed by keep clicking "Next" in the installer. (Note: Recommended method to install vim is through a package manager, see here)

  1. Install vim-plug
iwr -useb https://raw.githubusercontent.com/junegunn/vim-plug/master/plug.vim |`
    ni $HOME/vimfiles/autoload/plug.vim -Force

Open .vimrc, add these following lines:

filetype plugin indent on
set tabstop=4 " show existing tab with 4 spaces width
set shiftwidth=4 " when indenting with '>', use 4 spaces width
set expandtab " On pressing tab, insert 4 spaces
syntax on
set nu " Enable line numbers 
set smartindent

call plug#begin('~/.vim/plugged') " List all the plugins to be installed

Plug 'neoclide/coc.nvim'

call plug#end() " End of plugins
  1. Install coc-clangd, the C++ language client extension

    Open whatever C++ file, and type command :CocCommand clangd.install

  2. Install clangd, the actual C++ language server.

    Type command :CocCommand clangd.install.

  3. Now you should have auto-complete working.

Optional plugins

All the plugins listed below can be installed by adding Plug '<plugin-repo>' betweeen the call plug and call plug lines in the .vimrc file.

  1. vim-airline An enhanced status line.
Plug 'vim-airline/vim-airline'
Plug 'vim-airline/vim-airline-themes' 

2. nerd-tree A file explorer.

Plug 'preservim/nerdtree'
Plug 'Xuyuanp/nerdtree-git-plugin'
Plug 'tiagofumo/vim-nerdtree-syntax-highlight'
Plug 'ryanoasis/vim-devicons'

  1. startify A welcome screen for quick opening recent folders and projects
    Plug 'mhinz/vim-startify'

Debugging

This section describes how to debug in various IDEs/text editors.

Debugging in VSCode

To launch the debugger in VSCode, click the cmake project menu -> right click on the <target name> -> Debug like this:

See more documentation for VSCode's debugging UI here, except for the part that sets launch.json because the CMake tools already handles everything :)

Debugging in CLion

Click here

For more, see documentation here

Debugging in Visual Studio

Click here

For more, see documentation here

Debugging in QT

Click here


Using libraries

Setting up vcpkg

vcpkg is a C/C++ package manager, which makes using libraries much easier (almost as easy as using pip in python).

You HAVE TO install MSVC or Visual Studio on Windows to use vcpkg. (Mingw GCC CAN NOT be used to build vcpkg on Windows at the time being). After MSVC is installed, you can follow the guide here to set it up.

Starting from this commit, vcpkg binary can be directly downloaded by running bootstrap-vcpkg.bat, you no longer need to install MSVC to build it!

  1. Open a shell(cmd) and go to the directory where you want vcpkg to be installed. (Something like C:\ or C:\dev)
  2. Type this command:
    git clone https://github.com/microsoft/vcpkg
    
  3. Type this command:
    .\vcpkg\bootstrap-vcpkg.bat
    
  4. Type this command:
    .\vcpkg\vcpkg.exe integrate install
    

Finding and Installing a library

  • To find a library, use vcpkg search <library>
  • To install a library, use vcpkg install <library>:x64-windows or vcpkg install <library>:x86-windows

Note

vcpkg will build 32 bit libraries by default on Windows (although it's 64 bit on Linux by default,Microsoft fix it please), which is NOT probably what you want, so you want to speficy the architecture by adding :x64-windows.

Using a library

After you install the library in vcpkg, you either:

  • Use Visual Studio without ANY ADDITIONAL CONFIGURATION
  • Use cmake with the instruction provided by vcpkg when you install the library.

Below is a complete example of using vcpkg to install and use the boost library.

  1. Install the library in vcpkg with vcpkg install <Library Name>, like this:

    vcpkg install boost:x64-windows
    

    And you should see the following

  2. Note that on Windows, vcpkg builds libraries using MSVC, so you should also use MSVC in order to link sucessfully. Header-only libraries like boost may be used with other compilers like GCC.

Afrer the library finishes installing, you can either:

  • Use it in Visual Studio without doing any additional configuration Note: Configure the solution achitectural target correctly according to your library. Visual Studio empty project defaults to x86 but you may installed x64 library.

  • Or use it in VSCode/CLion with cmake and cmake tool chain file. See the docs here


Unit Testing

What is unit testing?

Google Test

google test is a famous and widely supported by IDEs/text editors unit testing framework for C++.

You can get google test by these ways

  • Using vcpkg: Following setting up vcpkg, we can easily install the library by

    vcpkg install gtest:x64-windows
    

    Note that if your application is targeted to 32 bit, use this command instead

    vcpkg install gtest
    
  • Using MSYS2: Note that this can only be used with GCC & Clang compiler from MSYS2.

    pacman -S pacman -S mingw-w64-x86_64-gtest
    

After installing the library,

  • If you use Visual Studio (MSBuild Project), you just need to #include <gtest/gtest.h> like a normal C++ source file and either:

    • Provide a main function at the bottom of your source file

      int main(int argc, char **argv) 
      {
          ::testing::InitGoogleTest(&argc, argv);
          return RUN_ALL_TESTS();
      }

    • Don't provide a main function, then you need to link additional libraries in the linker settings.

      1. Right click on your project -> Properties -> Linker -> AdditionalDependencies, Make sure this configuration is Debug and x64 (or x86 depend on the architect or your installed Gtest library) and add these 2 lines
      gtestd.lib
      $(VcpkgRoot)installed\$(VcpkgTriplet)\debug\lib\manual-link\gtest_maind.lib
      

      1. Click the configuration menu to Release and also add these 2 lines, like this
      gtest.lib
      $(VcpkgRoot)installed\$(VcpkgTriplet)\lib\manual-link\gtest_main.lib
      

      Then you should be able to write the test source file without the main function, and build in both configurations like this

      • Debug build
      • Release build
  • If you use CMake, regardless of whether you installed Google Test library from vcpkg or MSYS2, you can make use of CTest built-in to Cmake as a test runner to run your google test, which is supported by most IDE/editors you will see below. A minimum CMakeLists.txt is like:

cmake_minimum_required(VERSION 3.10.0)

project(<project name> VERSION 0.1.0)

find_package(GTest CONFIG REQUIRED)
enable_testing()
include(GoogleTest) #for gtest_discover_tests() function

add_executable(<test target name> test.cpp) #This is the testing executable
target_link_libraries(<test target name> PRIVATE GTest::gtest GTest::gtest_main) #Link it to the google test library
gtest_discover_tests(<test target name>)  #integrate google test with ctest to this testing executable
  • Or you simply want a testing executable, so you don't bother with CTest.
cmake_minimum_required(VERSION 3.10.0)

project(<project name> VERSION 0.1.0)

find_package(GTest CONFIG REQUIRED)
add_executable(<test target name> test.cpp) #This is the testing executable
target_link_libraries(<test target name> PRIVATE GTest::gtest GTest::gtest_main) #Link it to the google test library

Integration with Visual Studio

Integration with CLion

CLion has test adaptors built-in so it should automatically detect the test whether you are using CTest as runner or just simply compiling a testing executable.

  • With CTest
  • Without CTest

You can click the run button on the left of each TEST() macro to run individual test, or click ctrl+shift+f10 to run all test.

See here for more documentation.

Integration with VSCode

You need to use CTest (the first version of the minimum CMakeLists.txt) as your test runner to get the integration working.

  1. Install the CMake Test Explorer extension (proud contributor)
  2. Open VSCode settings, go to Extension -> CMake Test Explorer section, and change these following settings:
    • Build Config: ${buildType}
    • Build Dir: ${buildDirectory}
    • Select Cmake Integration
  3. After that, build your project once and then click the refresh test button, this plugin should find all the testing suites and test cases in your test files.
  4. Then you can easily manage or debug all your test cases or each individual test in this panel.

Microsoft Unit Test

CTest

Documentation

Setting up doxygen

Writing good documentation is also an essential part of development. The most commonly used documentation generator is doxygen. Download the binary distribution for Windows and then install it. After it is installed, there will be a GUI frontend called doxywizard, which looks like this: To write good documentation, install these plugins:

Learn the syntax for documentation here

After you documment your code, any decent IDEs/text editors should be able to show the documentation, helping you better understand your own code as well as others.

Using doxygen is straight-forward using the GUI, just specify the root directory of your project, configure some settings to your liking, then run it.

Doxygen generated documentation too ugly? Follow the guide here to use doxygen with sphinx for a more beautiful documentation.

Integrate doxygen with CMake

You can set up an automatic documentation generation step within CMake, so that each time you build your cmake project, the docs would be generated or updated. To do that, assuming you have a doc directory in your project, something like this

MyProject
|--doc
|--README.md
|--CMakeLists.txt
|...

add the following snippet to your root CMakeLists.txt

find_package(Doxygen)
if(DOXYGEN_FOUND)
    set(DOXYGEN_USE_MDFILE_AS_MAINPAGE "${CMAKE_SOURCE_DIR}/README.md")
    set(DOXYGEN_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/doc")
    set(DOXYGEN_EXCLUDE_PATTERNS "<your binaries or other files generated by your IDE>")
    doxygen_add_docs(doc ${CMAKE_SOURCE_DIR} ALL) #this will create a target called "doc"
    #You can either manually run the target or it will automatically run when "cmake --build ." is called
endif()

Source control

Most if not all of the development workflow involves using Git. Also, some of CMake's functionalities requires Git to be installed. And you also need Git to install vcpkg. You can install Git either by using the installer or using a package manager, like MSYS2 which we just used above to install GCC and Clang.

  • Install by using the installer
    1. Download the installer here and then it can be installed by keep clicking Next.
  • Install by using a package manager
    • chocolatey: choco install git
    • scoop: scoop install git
    • winget: winget install git

Setting up a system-wide package manager

Package manager makes it easier to install and update softwares, allowing you to use one single command to update all installed softwares.

On Windows, there is built-in winget on a reasonably new build of Windows 10.

I recommend installing those frequently updated software that doesn't have a built-in updater (like cmake, vim...) using a package manager.

Winget

Install and docs here

Chocolatey

Install and docs here

Scoop

Install and docs here


Setting up WSL

Setting up WSL is the same as setting up a pure linux environment, therefore it is not discussed here.


Addtional Tooling

Resharper

is a non-free extension for Visual Studio that can greatly benefit your productivity. Download here.

Clang-tidy

Clang-tidy is a C++ "linter" that provides extra warnings and style checks to your C++ compiler.

Integration with Visual Studio

Clang-Tidy support is available starting in Visual Studio 2019 version 16.4. It's included automatically when you choose a C++ workload in the Visual Studio Installer. More info.

MSBuild Project
  1. Right click on project -> Properties -> Code Analysis -> Clang-tidy
  2. In Checks to Enable or Disable, you can configure checks to be enabled or disabled using supported flags. To enable a check, add the flag name directly. To disable a check, prefix with a -. Flags are separated by comma. For example: * enables all checks. -clang-analyzer-* disables all checks named clang-analyzer....
  3. Build your project, and you should see warnings provided by clang-tidy.
CMake Project
  1. Click on build configuration menu -> Manage Configuration -> Edit JSON
  2. Add a key named enableClangTidyCodeAnalysis and set value to true. Optionally control which checks to be enabled or disabled by adding a key named clangTidyChecks
  3. Save and exit. Now you should see warnings provided by clang-tidy.

Integration with CLion

Integration with VSCode

Install this plugin.

ClangFormat

ClangFormat is a code formatting tool to help your code follow some pre-defined formatting rules.

In all IDE/editors, the actual ClangFormat executable needs to be installed first.

Integration with Visual Studio

  1. Install this plugin at the bottom "Visual Studio plugin installer"
  2. Then you can find settings in Tools -> Options -> LLVM/Clang -> ClangFormat

Integration with VSCode

ClangFormat is supported by VSCode C++ extension out-of-the-box. ClangFormat settings can be found in C++ extension settings.

Incredibuild

is a free-for-personal-use build tool that accelerate visual studio's project building. It also provides a nice graph to visualize the building process and time consumption of individual files.

incredibuild

It can be installed when installing visual studio. Download the license here.

C/C++ include guard (proud contributor)

is a VSCode extension that automatically add include guard for you so that you no longer need to remember it. Download here.

include-info (proud maker)

is a VSCode extension that shows the included header file size and provide a fast way to jump to those included files. Download here

VSCode Font switcher (proud contributor)

is a VSCode extension that provide a fast way to switch between different fonts. Download here.