Copyright (c) 2014-2018 The Brenwill Workshop Ltd.
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- About This Document
- Introduction
- Installing MoltenVK
- Third-Party Libraries
- Building MoltenVK
- Using MoltenVK in Your Application
- Third-Party Credits
This document describes how to use the MoltenVK open-source repository to build a MoltenVK runtime distribution package.
To learn how to integrate the MoltenVK runtime into a game or application, see the
MoltenVK Runtime User Guide document in the Docs directory.
MoltenVK contains two products:
-
MoltenVK is an implementation of the Vulkan graphics and compute API, that runs on Apple's Metal graphics and compute framework on both iOS and macOS.
-
MoltenVKShaderConverter converts SPIR-V shader code to Metal Shading Language (MSL) shader source code, and converts GLSL shader source code to SPIR-V shader code and/or Metal Shading Language (MSL) shader source code, for use with MoltenVK. The converter can run at runtime as a component of the MoltenVK runtime, or it can be packaged into a stand-alone command-line macOS tool. The Xcode project contains several targets, reflecting this multi-use capability.
MoltenVK relies on several third-party open-source libraries, which are described in the
next section. The easiest way to install MoltenVK is to recursively clone
this MoltenVK repository, and then run the External/makeAll script to create necessary
components within the third-party libraries.
-
Ensure you have
python3andasciidoctorinstalled:brew install python3 sudo gem install asciidoctor -
Recursively clone the
MoltenVKrepository:git clone --recursive https://github.com/KhronosGroup/MoltenVK.git -
Run the third-party build script:
cd MoltenVK/External ./makeAll
See the next section for more information about the third-party libraries, and how to work with them within the MoltenVK development environment.
MoltenVK makes use of several third-party open-source libraries. Development of some of these components is managed separately, and are retrieved into MoltenVK as submodule repositories.
If you used the --recursive option when cloning this repository, as described
above, all third party libraries will have been retrieved.
If you did not use the --recursive option when cloning this repository, you can retrieve
and install these libraries into your MoltenVK repository environment as follows from within
the MoltenVK repository:
git submodule update --init --recursive
cd External
./makeAll
If you are developing enhancements to MoltenVK, you can update the versions of the
Third-Party libraries used by MoltenVK to the latest versions available by re-cloning
and re-building the submodules using the getLatestAll script:
cd External
./getLatestAll
The updated versions will then be "locked in" the next time the MoltenVK repository is committed to git.
This procdure updates all of the Third-Party library submodules. To update only a single submodule, or for more information about the various Third-Party libraries and submodules used by MoltenVK, please refer to the following documents:
Note: Before attempting to build MoltenVK, be sure you have followed the instructions in the Third-Party Components section above to retrieve and install the required third-party components.
Note: At runtime, MoltenVK can run on iOS 9 and macOS 10.11 devices, but it does reference advanced OS frameworks during building. Xcode 9 or above is required to build MoltenVK, and build and link MoltenVK projects.
The MoltenVKPackaging.xcodeproj Xcode project contains targets and schemes to build
and package the entire MoltenVK runtime distribution package, or to build individual
MoltenVK or MoltenVKShaderConverter components.
To build a MoltenVK runtime distribution package, suitable for testing and integrating into an app,
open MoltenVKPackaging.xcodeproj in Xcode, and use one of the following Xcode Schemes:
- MoltenVK (Release) - build the entire MoltenVK runtime distribution package using the Release configuration.
- MoltenVK (Debug) - build the entire MoltenVK runtime distribution package using the Debug configuration.
Each of theseMoltenVKPackaging.xcodeproj Xcode project Schemes puts the resulting packages in the
Package directory, creating it if necessary. This directory contains separate Release and Debug
directories, holding the most recent Release and Debug builds, respectively.
A separate Latest directory links to the most recent build, regardless of whether it was a Release
or Debug build. Effectively, the Package/Latest directory points to whichever of the Package/Release
or Package/Debug directories was most recently updated.
With this packaging structure, you can follow the instructions below to link your application
to the MoltenVK frameworks in the Package/Latest directory, to provide the flexibility to test your
app with either a Debug build, or a higher-performance Release build.
Once you have built the MoltenVK runtime distribution package, the MoltenVK demo apps can be
accessed from the Demos/Demos.xcworkspace Xcode workspace. This is the same workspace that is
included in the MoltenVK runtime distribution package, and you can use it to build and run the
MoltenVK demo apps, or to add new demos to this MoltenVK repository.
Once you have compiled and built the MoltenVK runtime distribution package from this MoltenVK
repository, as described in the previous section, follow the instructions in the installation
section of the MoltenVK Runtime User Guide document in the
Docs directory of the MoltenVK runtime distribution package found in the Package/Latest directory,
to link the MoltenVK frameworks and libraries in the Package/Latest directory to your application.
The runtime distribution package in the Package/Latest directory is a stand-alone package, and you can copy
the contents of that directory out of this MoltenVK repository into your own application building environment.
MoltenVK uses technology from the following open-source frameworks:
MoltenVKShaderConverter uses technology from the following open-source frameworks: