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GKenn edited this page Apr 23, 2021 · 56 revisions

Prerequisites

  • JDK7+
  • C++
    • Linux: gcc, clang or equivalent
    • macOS: XCode with Command Line Utilities
    • Windows: Microsoft Visual C++ or mingw-w64
  • Maven, CMake
    • Linux: sudo apt install maven cmake g++
    • macOS: brew install maven cmake
    • Windows:

Setting up the Visual Studio Build environment

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Steps

mvn                # compile for current system - default compile for native host
mvn -P mingw64     # cross-compile using mingw-w64 for Windows
mvn -P m32         # cross-compile using multi-lib for 32-bit Linux/Unix
     *please see* **"Setting up a Windows Development Environment"** *for more details for MSVC Cmake compilation*
mvn -P win64       # cross-compile using MVSC for x86_64 Windows   
mvn -P win32       # cross-compile using MVSC for x86 Windows   
mvn -P winaarch64  # cross-compile using MVSC for Aarch64 Windows  (Pending/Unofficial; See pull request 84)

                                                                   
mvn -P intelmac      # cross-compile using Xcode for X86_64 MacOS  
mvn -P armmac      # cross-compile using Xcode for Aarch64 MacOS (Pending/unofficial; See #84)
  • Important: Call mvn clean between different compiler profiles.
  • Note: For other cross-compilation profiles or platforms search for CMAKE_TOOLCHAIN_FILE in pom.xml. Each has a respective CMake toolchain file.
  • Note: When compiling for Windows Arm64 target, make sure MSVC Arm64 Build Tools C++ # 'preferably the latest one' # tttt
  • Prefer to skip maven? The project is configured to allow calling cmake -DCMAKE_TOOLCHAIN_FILE=<...> directly but the javah generated header file must be present.

Package

Without recompiling native libraries

mvn -P package,jar-with-dependencies

Advanced

machine-dependent artifact

The build will output two .jar files in the target/ directory. One archive, which is build by the maven-jar-plugin, has a classifier which maches the machine's classifier (unless you are doing a cross-compile). This one will contain a freshly compiled library, like libjssc.so for Linux or a jssc.dll if you are on Windows. They go into a directory /natives/os_bitness.

»Uber-jar« artifact

The other .jar artifact which is generated by the build doesn't use the library compiled by cmake. It uses the checked-in libraries form the directory src/main/resources-precompiled/natives/. This jar is the artifact we are going to publish to maven central. It will contain a broader varieties of OSes and architectures in just one .jar file, but the libraries checked in into this git repository need to stay updated.

Creating just the »uber-jar« artifact

If you do not need a freshly compiled library, you can just execute mvn package -P package to skip the cmake compilation and the unit tests.

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