4b1950f798
* Add port files for crashrpt * Fix x64 output paths and fail port install if architecture is not x86 or x64 * Use vcpkg_fail_port_install * Add patch for CMakeLists.txt add install target for CrashRpt and CrashSender * Replace vendored dependencies for minizip, png, and zlib with packages from vcpkg * Fix 002-find-minizip-png-zlib.patch, accidentally included folder move/renaming in previous commit * Add vcpkg_copy_tool_dependencies so that dlls for CrashSender .exe will be copied to tools folder * Add install for crprober.exe tool * Replace libogg and libtheora vendored dependencies using find_library() and find_path() * Replace vendored tinyxml library * Replace vendored wtl library * Replace vendored JPEG library with libjpeg-turbo from vcpkg * Add patch to install demos and test applications to tools directory and add vcpkg port features to enable building the tests and demos * Add port of dbghelp that copies files from Windows 10 SDK. Use this crashrpt to replace vendored dependency of dbghelp. * [dbghelp] Improve portfile.cmake * Update baseline * update CONTROL file * Update ci.baseline.txt to skip dbghelp on Windows platforms * * Combined patch files * Use vendored minizip since it has modifications to support Unicode file paths using wchar_t* which CrashRpt depends on * Add feature "probe" in order to allow excluding the CrashRptProbe library * Use VERSION_GREATER instead of MATCHES to compare WINDOWS_SDK version in dbghelp portfile.cmake. Remove redundant check of WINDOWS_SDK version later in script. Co-authored-by: Travis Drake <tdrake@qsrautomations.com> Co-authored-by: JackBoosY <yuzaiyang@beyondsoft.com> |
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.github | ||
docs | ||
ports | ||
scripts | ||
toolsrc | ||
triplets | ||
.gitattributes | ||
.gitignore | ||
.vcpkg-root | ||
CHANGELOG.md | ||
CONTRIBUTING.md | ||
LICENSE.txt | ||
NOTICE.txt | ||
README.md | ||
README_zh_CN.md | ||
bootstrap-vcpkg.bat | ||
bootstrap-vcpkg.sh |
README.md
Vcpkg: Overview
Vcpkg helps you manage C and C++ libraries on Windows, Linux and MacOS. This tool and ecosystem are constantly evolving, and we always appreciate contributions!
If you've never used vcpkg before, or if you're trying to figure out how to use vcpkg, check out our Getting Started section for how to start using vcpkg.
For short description of available commands, once you've installed vcpkg,
you can run vcpkg help
, or vcpkg help [command]
for command-specific help.
- Github: https://github.com/microsoft/vcpkg
- Slack: https://cppalliance.org/slack/, the #vcpkg channel
- Discord: #include <C++>, the #🌏vcpkg channel
- Docs: Documentation
Table of Contents
- Vcpkg: Overview
- Table of Contents
- Getting Started
- Tab-Completion/Auto-Completion
- Examples
- Contributing
- License
- Telemetry
Getting Started
First, follow the quick start guide for either Windows, or macOS and Linux, depending on what you're using.
For more information, see Installing and Using Packages. If a library you need is not present in the vcpkg catalog, you can open an issue on the GitHub repo where the vcpkg team and community can see it, and potentially add the port to vcpkg.
After you've gotten vcpkg installed and working, you may wish to add tab completion to your shell.
Finally, if you're interested in the future of vcpkg, check out the manifest guide! This is an experimental feature and will likely have bugs, so try it out and open all the issues!
Quick Start: Windows
Prerequisites:
- Windows 7 or newer
- Git
- Visual Studio 2015 Update 3 or greater with the English language pack
First, download and bootstrap vcpkg itself; it can be installed anywhere,
but generally we recommend using vcpkg as a submodule for CMake projects,
and installing it globally for Visual Studio projects.
We recommend somewhere like C:\src\vcpkg
or C:\dev\vcpkg
,
since otherwise you may run into path issues for some port build systems.
> git clone https://github.com/microsoft/vcpkg
> .\vcpkg\bootstrap-vcpkg.bat
To install the libraries for your project, run:
> .\vcpkg\vcpkg install [packages to install]
You can also search for the libraries you need with the search
subcommand:
> .\vcpkg\vcpkg search [search term]
In order to use vcpkg with Visual Studio, run the following command (may require administrator elevation):
> .\vcpkg\vcpkg integrate install
After this, you can now create a New non-CMake Project (or open an existing one).
All installed libraries are immediately ready to be #include
'd and used
in your project without additional configuration.
If you're using CMake with Visual Studio, continue here.
In order to use vcpkg with CMake outside of an IDE, you can use the toolchain file:
> cmake -B [build directory] -S . -DCMAKE_TOOLCHAIN_FILE=[path to vcpkg]/scripts/buildsystems/vcpkg.cmake
> cmake --build [build directory]
With CMake, you will still need to find_package
and the like to use the libraries.
Check out the CMake section for more information,
including on using CMake with an IDE.
For any other tools, including Visual Studio Code, check out the integration guide.
Quick Start: Unix
Prerequisites for Linux:
Prerequisites for macOS:
- Apple Developer Tools
- On macOS 10.14 or below, you will also need:
First, download and bootstrap vcpkg itself; it can be installed anywhere, but generally we recommend using vcpkg as a submodule for CMake projects.
$ git clone https://github.com/microsoft/vcpkg
$ ./vcpkg/bootstrap-vcpkg.sh
To install the libraries for your project, run:
$ ./vcpkg/vcpkg install [packages to install]
You can also search for the libraries you need with the search
subcommand:
$ ./vcpkg/vcpkg search [search term]
In order to use vcpkg with CMake, you can use the toolchain file:
$ cmake -B [build directory] -S . -DCMAKE_TOOLCHAIN_FILE=[path to vcpkg]/scripts/buildsystems/vcpkg.cmake
$ cmake --build [build directory]
With CMake, you will still need to find_package
and the like to use the libraries.
Check out the CMake section
for more information on how best to use vcpkg with CMake,
and CMake Tools for VSCode.
For any other tools, check out the integration guide.
Installing Linux Developer Tools
Across the different distros of Linux, there are different packages you'll need to install:
- Debian, Ubuntu, popOS, and other Debian-based distributions:
$ sudo apt-get update
$ sudo apt-get install build-essential tar curl zip unzip
- CentOS
$ sudo yum install centos-release-scl
$ sudo yum install devtoolset-7
$ scl enable devtoolset-7 bash
For any other distributions, make sure you're installing g++ 6 or above. If you want to add instructions for your specific distro, please open a PR!
Installing macOS Developer Tools
On macOS 10.15, the only thing you should need to do is run the following in your terminal:
$ xcode-select --install
Then follow along with the prompts in the windows that comes up.
On macOS 10.14 and previous, you'll also need to install g++ from homebrew; follow the instructions in the following section.
Installing GCC for macOS before 10.15
This will only be necessary if you're using a macOS version from before 10.15. Installing homebrew should be very easy; check out <brew.sh> for more information, but at its simplest, run the following command:
$ /bin/bash -c "$(curl -fsSL https://raw.githubusercontent.com/Homebrew/install/master/install.sh)"
Then, in order to grab an up-to-date version of gcc, run the following:
$ brew install gcc
You'll then be able to bootstrap vcpkg along with the quick start guide
Using vcpkg with CMake
If you're using vcpkg with CMake, the following may help!
Visual Studio Code with CMake Tools
Adding the following to your workspace settings.json
will make
CMake Tools automatically use vcpkg for libraries:
{
"cmake.configureSettings": {
"CMAKE_TOOLCHAIN_FILE": "[vcpkg root]/scripts/buildsystems/vcpkg.cmake"
}
}
Vcpkg with Visual Studio CMake Projects
Open the CMake Settings Editor, and under CMake toolchain file
,
add the path to the vcpkg toolchain file:
[vcpkg root]/scripts/buildsystems/vcpkg.cmake
Vcpkg with CLion
Open the Toolchains settings
(File > Settings on Windows and Linux, CLion > Preferences on macOS),
and go to the CMake settings (Build, Execution, Deployment > CMake).
Finally, in CMake options
, add the following line:
-DCMAKE_TOOLCHAIN_FILE=C:/Users/nimazzuc/src/vcpkg/scripts/buildsystems/vcpkg.cmake
Unfortunately, you'll have to add this to each profile.
Vcpkg as a Submodule
When using vcpkg as a submodule of your project,
you can add the following to your CMakeLists.txt before the first project()
call,
instead of passing CMAKE_TOOLCHAIN_FILE
to the cmake invocation.
set(CMAKE_TOOLCHAIN_FILE ${CMAKE_CURRENT_SOURCE_DIR}/vcpkg/scripts/buildsystems/vcpkg.cmake
CACHE STRING "Vcpkg toolchain file")
This will still allow people to not use vcpkg,
by passing the CMAKE_TOOLCHAIN_FILE
directly,
but it will make the configure-build step slightly easier.
Quick Start: Manifests
So, you want to look at what the future of vcpkg is going to be like! We really appreciate it 😄. First, though, a warning: manifest support in vcpkg is still in beta! Mostly, it should just work, but there are no guarantees and it's likely you'll hit at least a bug or two while you're using vcpkg in this mode. Additionally, we will likely break behavior before stabilizing, so be forewarned. Please open issues if you hit any bugs!
First, install vcpkg as normal for Windows or Unix. You may wish to install vcpkg in a central place, as the installed directory exists locally, and it's fine to run multiple vcpkg commands from the same vcpkg directory at the same time.
Then, we must turn on the manifests
vcpkg feature flag by adding
manifests
to the comma-separated --feature-flags
option,
or by adding it to the comma-separated VCPKG_FEATURE_FLAGS
environment variable.
You may also want to add vcpkg to the PATH
.
Then, all one has to do is create a manifest;
create a file called vcpkg.json
, and type the following:
{
"name": "<name of your project>",
"version-string": "<version of your project>",
"dependencies": [
"abseil",
"boost"
]
}
The libraries will be installed into the vcpkg_installed
directory, in the same directory as your vcpkg.json
.
If you can use the regular CMake toolchain,
or the Visual Studio/MSBuild integration,
it will install the dependencies automatically,
although you will need to set VcpkgManifestEnabled
to On
for MSBuild.
If you wish to install your dependencies without using either CMake or MSBuild,
you may use a simple vcpkg install --feature-flags=manifests
For more information, check out the manifest specification.
Tab-Completion/Auto-Completion
vcpkg
supports auto-completion of commands, package names,
and options in both powershell and bash.
To enable tab-completion in the shell of your choice, run:
> .\vcpkg integrate powershell
or
$ ./vcpkg integrate bash
depending on the shell you use, then restart your console.
Examples
See the documentation for specific walkthroughs, including installing and using a package, adding a new package from a zipfile, and adding a new package from a GitHub repo.
Our docs are now also available online at ReadTheDocs: https://vcpkg.readthedocs.io/!
See a 4 minute video demo.
Contributing
Vcpkg is an open source project, and is thus built with your contributions. Here are some ways you can contribute:
- Submit Issues in vcpkg or existing packages
- Submit Fixes and New Packages
Please refer to our Contributing Guide for more details.
This project has adopted the Microsoft Open Source Code of Conduct. For more information see the Code of Conduct FAQ or email opencode@microsoft.com with any additional questions or comments.
License
The code in this repository is licensed under the MIT License.
Telemetry
vcpkg collects usage data in order to help us improve your experience. The data collected by Microsoft is anonymous. You can opt-out of telemetry by re-running the bootstrap-vcpkg script with -disableMetrics, passing --disable-metrics to vcpkg on the command line, or by setting the VCPKG_DISABLE_METRICS environment variable.
Read more about vcpkg telemetry at docs/about/privacy.md