|author||Sylvain Defresne <email@example.com>||Mon Feb 08 15:08:39 2021 +0100|
|committer||Commit Bot <firstname.lastname@example.org>||Tue Feb 09 09:48:40 2021 +0000|
[xcode] Fix detection of XCTests by Xcode 12.0+ For Xcode to detect the XCTests automatically in a project, the source files used by the tests needs to be listed in the project. However, if the files are listed, then Xcode tries to build them. With version of Xcode prior to 12.0, the project was configured so that Xcode would do nothing while trying to compile them (by passing `--help` flag to the compiler). This stopped working with Xcode 12.0 which started to expect the compilation to produce some output. Instead of configuring the compilation to be a no-op, instead configure Xcode so that those files are not compiled by setting a pattern matching all files for "Excluded Source File Names". This works with all version of Xcode and both "legacy" and "new" build system. Bug: chromium:1103230 Change-Id: I44eb0df32ca9c8d57b2dc5b378878c5eb308bf38 Reviewed-on: https://gn-review.googlesource.com/c/gn/+/11162 Reviewed-by: Justin Cohen <email@example.com> Reviewed-by: Brett Wilson <firstname.lastname@example.org> Commit-Queue: Sylvain Defresne <email@example.com>
GN is a meta-build system that generates build files for Ninja.
GN is currently used as the build system for Chromium, Fuchsia, and related projects. Some strengths of GN are:
It is designed for large projects and large teams. It scales efficiently to many thousands of build files and tens of thousands of source files.
It has a readable, clean syntax. Once a build is set-up, it is generally easy for people with no backround in GN to make basic edits to the build.
It is designed for multi-platform projects. It can cleanly express many complicated build variants across different platforms. A single build invocation can target multiple platforms.
It supports multiple parallel output directories, each with their own configuration. This allows a developer to maintain builds targeting debug, release, or different platforms in parallel without forced rebuilds when switching.
It has a focus on correctness. GN checks for the correct dependencies, inputs, and outputs to the extent possible, and has a number of tools to allow developers to ensure the build evolves as desired (for example,
It has comprehensive build-in help available from the command-line.
Although small projects successfully use GN, the focus on large projects has some disadvanages:
GN has the goal of being minimally expressive. Although it can be quite flexible, a design goal is to direct members of a large team (who may not have much knowledge about the build) down an easy-to-understand, well-lit path. This isn't necessarily the correct trade-off for smaller projects.
The minimal build configuration is relatively heavyweight. There are several files required and the exact way all compilers are linkers are run must be specified in the configuration (see “Examples” below). There is no default compiler configuration.
It is not easily composable. GN is designed to compile a single large project with relatively uniform settings and rules. Projects like Chromium do bring together multiple repositories from multiple teams, but the projects must agree on some conventions in the build files to allow this to work.
GN is designed with the expectation that the developers building a project want to compile an identical configuration. So while builds can integrate with the user‘s environment like the CXX and CFLAGS variables if they want, this is not the default and most project’s builds do not do this. The result is that many GN projects do not integrate well with other systems like ebuild.
There is no simple release scheme (see “Versioning and distribution” below). Projects are expected to manage the version of GN they require. Getting an appropriate GN binary can be a hurdle for new contributors to a project. Since it is relatively uncommon, it can be more difficult to find information and examples.
GN can generate Ninja build files for C, C++, Rust, Objective C, and Swift source on most popular platforms. Other languages can be compiled using the general “action” rules which are executed by Python or another scripting language (Google does this to compile Java and Go). But because this is not as clean, generally GN is only used when the bulk of the build is in one of the main built-in languages.
Alternatively, you can build GN from source with a C++17 compiler:
git clone https://gn.googlesource.com/gn cd gn python build/gen.py ninja -C out # To run tests: out/gn_unittests
On Windows, it is expected that
lib.exe can be found in
PATH, so you'll want to run from a Visual Studio command prompt, or similar.
On Linux and Mac, the default compiler is
clang++, a recent version is expected to be found in
PATH. This can be overridden by setting
There is a simple example in examples/simple_build directory that is a good place to get started with the minimal configuration.
To build and run the simple example with the default gcc compiler:
cd examples/simple_build ../../out/gn gen -C out ninja -C out ./out/hello
For a maximal configuration see the Chromium setup:
and the Fuchsia setup:
If you find a bug, you can see if it is known or report it in the bug database.
GN uses Gerrit for code review. The short version of how to patch is:
Register at https://gn-review.googlesource.com. ... edit code ... ninja -C out && out/gn_unittests
Then, to upload a change for review:
git commit git push origin HEAD:refs/for/master
The first time you do this you'll get an error from the server about a missing change-ID. Follow the directions in the error message to install the change-ID hook and run
git commit --amend to apply the hook to the current commit.
When revising a change, use:
git commit --amend git push origin HEAD:refs/for/master
which will add the new changes to the existing code review, rather than creating a new one.
We ask that all contributors sign Google's Contributor License Agreement (either individual or corporate as appropriate, select ‘any other Google project’).
You may ask questions and follow along with GN‘s development on Chromium’s gn-dev@ Google Group.
Most open-source projects are designed to use the developer‘s computer’s current toolchain such as compiler, linker, and build tool. But the large centrally controlled projects that GN is designed for typically want a more hermetic environment. They will ensure that developers are using a specific compatible toolchain that is versioned with the code
As a result, GN expects that the project choose the appropriate version of GN that will work with each version of the project. There is no “current stable version” of GN that is expected to work for all projects.
As a result, the GN developers to not maintain any packages in any of the various packaging systems (Debian, RedHat, HomeBrew, etc.). Some of these systems to have GN packages, but they are maintained by third parties and you should use at your own risk. Instead, we recommend you refer your checkout tooling to download binaries for a specific hash from Google's build infrastructure or compile your own.
GN does not guarantee the backwards-compatibility of new versions and has no branches or versioning scheme beyond the sequence of commits to the master git branch (which is expected to be stable).
In practice, however, GN is very backwards-compatible. The core functionality has been stable for many years and there is enough GN code at Google alone to make non-backwards-compatible changes very difficult, even if they were desirable.
There have been discussions about adding a versioning scheme with some guarantees about backwards-compatibility, but nothing has yet been implemented.