Difference between revisions of "Building and hacking LDC on Windows using MSVC"

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m (Running the dmd-testsuite tests)
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* Spawn a new shell and make sure <tt>make --version</tt> prints its banner.
 
* Spawn a new shell and make sure <tt>make --version</tt> prints its banner.
  
Now that we have extended our LDC build environment, you'll need to [https://github.com/ldc-developers/dmd-testsuite/tree/windows patch] the <tt>dmd-testsuite</tt> repository.
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Now that we have extended our LDC build environment, we're able to run the dmd-testsuite tests:
Then we're finally able to run the dmd-testsuite tests:
 
  
 
* <tt>cd C:\LDC\build-ldc-x64</tt>
 
* <tt>cd C:\LDC\build-ldc-x64</tt>

Revision as of 19:27, 26 March 2016

Windows MSVC x86/x64 are now first class targets for LDC. This page documents how to build, test and hack LDC2 on Windows.

LDC binaries

If you just want to download the very latest LDC binaries, head over to Latest LDC binaries for Windows.

Advice

It is hard for us to keep these wiki pages up-to-date. If you run into trouble, have a look at the build scripts for our Continuous Integration platforms: the files .travis.yml (Ubuntu Linux and OSX) and appveyor.yml (Windows) are always up-to-date with the latest build setup.

Building LDC

Required software

  • Windows, of course!
  • Visual Studio ≥ 2013, e.g. VS Community 2015. VS 2015 is greatly encouraged due to improved C99 support. Make sure to install the C++ toolchain.
  • A D compiler (currently only DMD works to build LDC on Windows. LDC 0.17 is the last version that does not need a D compiler to build.)
  • git 1.8+ (I use PortableGit)
  • Python 2.7.x or Python 3.3.x (I use Portable Python)
  • CMake 2.8+
  • Ninja, a neat little and fast build system
  • Curl library (just use a precompiled one)
    • Put the 64/32-bit libcurl.dll in a PATH directory (e.g., C:\LDC\LDC-x64\bin).

Shell environment

I use a little batch file to set up my LDC build environment. It's located in the root of my LDC environment: C:\LDC\shell.cmd. It sets up the PATH environment variable (I've installed the portable tools into C:\LDC\Tools) and then spawns a new VS 2015 x64 Native Tools Command Prompt with a below-normal process priority, so that my system stays responsive while building. I use a shortcut on my desktop to this batch file. Please adjust it to your needs (and note that %~dp0 is the directory containing the script, i.e., C:\LDC\).

@echo off
set PATH=%~dp0LDC-x64\bin;%~dp0LLVM-x64\bin;%~dp0Tools\Ninja 1.6.0;%~dp0Tools\make-3.81\bin;%~dp0Tools\PortableGit-1.8.1.2-preview20130201\bin;%~dp0Tools\cmake-3.3.0-win32-x86\bin;%~dp0Tools\Portable Python 2.7.5.1\App;%PATH%
set DMD=%~dp0dmd2\windows\bin\dmd.exe
if not exist "%TERM%" set TERM=msys
start /belownormal %comspec% /k "C:\Program Files (x86)\Microsoft Visual Studio 14.0\VC\vcvarsall.bat" amd64

Use x86 instead of amd64 as argument to vcvarsall.bat if you want to build a 32-bit LDC.

Open a shell by executing the batch file.

  • Running cl should display the banner from the MS compiler.
  • Running git --version should display the banner from git.
  • Running python --version should display the banner from python.
  • Running cmake --version should display the banner from cmake.
  • Running ninja --version should display the ninja version.

Build LLVM

To build LLVM from the command line, just execute the following steps (from C:\LDC):

  • Get the source: git clone http://llvm.org/git/llvm.git llvm
  • A post-3.8 version is currently required, so you may as well just use the master branch and hope that LDC is still compatible. ;) Commit fa4edb6 is guaranteed to work.
  • Create a build directory: md build-llvm-x64
  • Change into it: cd build-llvm-x64
  • Use a command like this (in one line) to create the Ninja build files:

    cmake -G Ninja -DCMAKE_INSTALL_PREFIX="C:\LDC\LLVM-x64" -DCMAKE_BUILD_TYPE=RelWithDebInfo
          -DPYTHON_EXECUTABLE="C:\LDC\Tools\Portable Python 2.7.5.1\App\python.exe"
          -DLLVM_TARGETS_TO_BUILD=X86 -DLLVM_INCLUDE_TESTS=OFF -DLLVM_INCLUDE_EXAMPLES=OFF
          -DLLVM_ENABLE_ASSERTIONS=ON -DLLVM_APPEND_VC_REV=ON -DLLVM_INSTALL_UTILS=ON ..\llvm

    Omit the CMAKE_BUILD_TYPE definition to build a debug version. The LLVM page on CMake documents other variables you can change. The most common is to add more targets. E.g. to build a target for ARM you change the targets to build to -DLLVM_TARGETS_TO_BUILD="X86;ARM".

  • Build LLVM: ninja
  • Install it: ninja install

Build libconfig

  • cd C:\LDC
  • git clone https://github.com/hyperrealm/libconfig.git libconfig
  • cd libconfig
  • Build the static C library: msbuild lib\libconfig.vcxproj /t:Rebuild /p:Configuration=ReleaseStatic /p:Platform=x64
    • Use configuration DebugStatic for debug LDC builds to ensure we link against the same runtime library

Build LDC

  • cd C:\LDC
  • git clone --recursive git://github.com/ldc-developers/ldc.git ldc
  • md build-ldc-x64
  • cd build-ldc-x64
  • Set environment variable to which D compiler should be used to build LDC:

    set DMD=c:\path\to\dmd\bin\dmd.exe
  • Use a command like this (in one line):

    cmake -G Ninja -DCMAKE_INSTALL_PREFIX="C:\LDC\LDC-x64" -DCMAKE_BUILD_TYPE=RelWithDebInfo
          -DLLVM_ROOT_DIR="C:/LDC/LLVM-x64" -DLIBCONFIG_INCLUDE_DIR="C:/LDC/libconfig/lib"
          -DLIBCONFIG_LIBRARY="C:/LDC/libconfig/lib/x64/ReleaseStatic/libconfig.lib" ..\ldc
  • Build LDC and the runtimes: ninja
  • If you want to install it: ninja install

Tests

Running the LIT-based tests

  • You'll need to have lit installed for Python.
  • cd C:\LDC\build-ldc-x64
  • ctest --output-on-failure -R lit-tests

Running the runtime unit tests

  • cd C:\LDC\build-ldc-x64
  • Build the unit tests: ninja druntime-ldc-unittest druntime-ldc-unittest-debug phobos2-ldc-unittest phobos2-ldc-unittest-debug
  • Run the tests, excluding dmd-testsuite and the LIT tests: ctest --output-on-failure -E "dmd-testsuite|lit-tests"

For troubleshooting be sure to examine the file C:\LDC\build-ldc-x64\Testing\Temporary\LastTest.log.

Running the dmd-testsuite tests

dmd-testsuite requires a minimalistic GNU environment. bash is shipped with git. Additionally, we need GNU make and reasonably recent GNU diffutils and coreutils:

  • Download GNU make for Windows: binary + dependencies
  • Download GNU diffutils for Windows: binaries (same dependencies as make)
  • Download GNU coreutils for Windows: binaries (same dependencies as make)
  • Extract all 4 ZIP archives into a common root folder, e.g., C:\LDC\Tools\make
  • Edit your shell batch script and add the bin subdirectory to your PATH, e.g., set PATH=%~dp0Tools\make\bin;%PATH%
    • Make sure that directory preceeds the git bin directory in the PATH environment variable, so that the more recent executables in C:\LDC\Tools\make\bin are preferred over the (in my case, ancient) versions shipped with git.
  • Spawn a new shell and make sure make --version prints its banner.

Now that we have extended our LDC build environment, we're able to run the dmd-testsuite tests:

  • cd C:\LDC\build-ldc-x64
  • Set your OS environment variable for dmd-testsuite's Makefile:
    • 32-bit: set OS=Win_32
    • 64-bit: set OS=Win_64
  • ctest --verbose -R dmd-testsuite
    • Debug only: ctest --verbose -R dmd-testsuite-debug
    • Release only: ctest --verbose -R dmd-testsuite -E -debug

Developing/debugging LDC/LLVM with Visual Studio

  • cd C:\LDC
  • md vs-ldc-x64
  • cd vs-ldc-x64
  • Use the cmake command from the Build LDC section, but use the VS generator instead of Ninja this time: cmake -G "Visual Studio 14 Win64" ...

This creates the VS 2015 solution C:\LDC\vs-ldc-x64\ldc.sln. A Visual Studio solution for LLVM can be created the same way.

Example

The simple D program hello.d

import std.stdio;

int main()
{
    writefln("Hello LDC2");
    return 0;
}

can be compiled and linked with the commands:

ldc2 -c hello.d
ldc2 hello.obj

or simply with: ldc2 hello.d



Windows MSVC