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      2 Getting Started with the LLVM System using Microsoft Visual Studio
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      4 
      5 .. contents::
      6    :local:
      7 
      8 
      9 Overview
     10 ========
     11 Welcome to LLVM on Windows! This document only covers LLVM on Windows using
     12 Visual Studio, not mingw or cygwin. In order to get started, you first need to
     13 know some basic information.
     14 
     15 There are many different projects that compose LLVM. The first piece is the
     16 LLVM suite. This contains all of the tools, libraries, and header files needed
     17 to use LLVM. It contains an assembler, disassembler, bitcode analyzer and
     18 bitcode optimizer. It also contains basic regression tests that can be used to
     19 test the LLVM tools and the Clang front end.
     20 
     21 The second piece is the `Clang <http://clang.llvm.org/>`_ front end.  This
     22 component compiles C, C++, Objective C, and Objective C++ code into LLVM
     23 bitcode. Clang typically uses LLVM libraries to optimize the bitcode and emit
     24 machine code. LLVM fully supports the COFF object file format, which is
     25 compatible with all other existing Windows toolchains.
     26 
     27 The last major part of LLVM, the execution Test Suite, does not run on Windows,
     28 and this document does not discuss it.
     29 
     30 Additional information about the LLVM directory structure and tool chain
     31 can be found on the main :doc:`GettingStarted` page.
     32 
     33 
     34 Requirements
     35 ============
     36 Before you begin to use the LLVM system, review the requirements given
     37 below.  This may save you some trouble by knowing ahead of time what hardware
     38 and software you will need.
     39 
     40 Hardware
     41 --------
     42 Any system that can adequately run Visual Studio 2013 is fine. The LLVM
     43 source tree and object files, libraries and executables will consume
     44 approximately 3GB.
     45 
     46 Software
     47 --------
     48 You will need Visual Studio 2013 or higher, with the latest Update installed. 
     49 
     50 You will also need the `CMake <http://www.cmake.org/>`_ build system since it
     51 generates the project files you will use to build with. CMake 2.8.12.2 is the
     52 minimum required version for building with Visual Studio, though the latest
     53 version of CMake is recommended.
     54 
     55 If you would like to run the LLVM tests you will need `Python
     56 <http://www.python.org/>`_. Version 2.7 and newer are known to work. You will
     57 need `GnuWin32 <http://gnuwin32.sourceforge.net/>`_ tools, too.
     58 
     59 Do not install the LLVM directory tree into a path containing spaces (e.g.
     60 ``C:\Documents and Settings\...``) as the configure step will fail.
     61 
     62 
     63 Getting Started
     64 ===============
     65 Here's the short story for getting up and running quickly with LLVM:
     66 
     67 1. Read the documentation.
     68 2. Seriously, read the documentation.
     69 3. Remember that you were warned twice about reading the documentation.
     70 4. Get the Source Code
     71 
     72    * With the distributed files:
     73 
     74       1. ``cd <where-you-want-llvm-to-live>``
     75       2. ``gunzip --stdout llvm-VERSION.tar.gz | tar -xvf -``
     76          (*or use WinZip*)
     77       3. ``cd llvm``
     78 
     79    * With anonymous Subversion access:
     80 
     81       1. ``cd <where-you-want-llvm-to-live>``
     82       2. ``svn co http://llvm.org/svn/llvm-project/llvm/trunk llvm``
     83       3. ``cd llvm``
     84 
     85 5. Use `CMake <http://www.cmake.org/>`_ to generate up-to-date project files:
     86 
     87    * Once CMake is installed then the simplest way is to just start the
     88      CMake GUI, select the directory where you have LLVM extracted to, and
     89      the default options should all be fine.  One option you may really
     90      want to change, regardless of anything else, might be the
     91      ``CMAKE_INSTALL_PREFIX`` setting to select a directory to INSTALL to
     92      once compiling is complete, although installation is not mandatory for
     93      using LLVM.  Another important option is ``LLVM_TARGETS_TO_BUILD``,
     94      which controls the LLVM target architectures that are included on the
     95      build.
     96    * If CMake complains that it cannot find the compiler, make sure that
     97      you have the Visual Studio C++ Tools installed, not just Visual Studio
     98      itself (trying to create a C++ project in Visual Studio will generally
     99      download the C++ tools if they haven't already been).
    100    * See the :doc:`LLVM CMake guide <CMake>` for detailed information about
    101      how to configure the LLVM build.
    102    * CMake generates project files for all build types. To select a specific
    103      build type, use the Configuration manager from the VS IDE or the 
    104      ``/property:Configuration`` command line option when using MSBuild.
    105 
    106 6. Start Visual Studio
    107 
    108    * In the directory you created the project files will have an ``llvm.sln``
    109      file, just double-click on that to open Visual Studio.
    110 
    111 7. Build the LLVM Suite:
    112 
    113    * The projects may still be built individually, but to build them all do
    114      not just select all of them in batch build (as some are meant as
    115      configuration projects), but rather select and build just the
    116      ``ALL_BUILD`` project to build everything, or the ``INSTALL`` project,
    117      which first builds the ``ALL_BUILD`` project, then installs the LLVM
    118      headers, libs, and other useful things to the directory set by the
    119      ``CMAKE_INSTALL_PREFIX`` setting when you first configured CMake.
    120    * The Fibonacci project is a sample program that uses the JIT. Modify the
    121      project's debugging properties to provide a numeric command line argument
    122      or run it from the command line.  The program will print the
    123      corresponding fibonacci value.
    124 
    125 8. Test LLVM in Visual Studio:
    126 
    127    * If ``%PATH%`` does not contain GnuWin32, you may specify
    128      ``LLVM_LIT_TOOLS_DIR`` on CMake for the path to GnuWin32.
    129    * You can run LLVM tests by merely building the project "check". The test
    130      results will be shown in the VS output window.
    131 
    132 9. Test LLVM on the command line:
    133 
    134    * The LLVM tests can be run by changing directory to the llvm source
    135      directory and running:
    136 
    137      .. code-block:: bat
    138 
    139         C:\..\llvm> python ..\build\bin\llvm-lit --param build_config=Win32 --param build_mode=Debug --param llvm_site_config=../build/test/lit.site.cfg test
    140 
    141      This example assumes that Python is in your PATH variable, you
    142      have built a Win32 Debug version of llvm with a standard out of
    143      line build. You should not see any unexpected failures, but will
    144      see many unsupported tests and expected failures.
    145 
    146      A specific test or test directory can be run with:
    147 
    148      .. code-block:: bat
    149 
    150         C:\..\llvm> python ..\build\bin\llvm-lit --param build_config=Win32 --param build_mode=Debug --param llvm_site_config=../build/test/lit.site.cfg test/path/to/test
    151 
    152 
    153 An Example Using the LLVM Tool Chain
    154 ====================================
    155 
    156 1. First, create a simple C file, name it '``hello.c``':
    157 
    158    .. code-block:: c
    159 
    160       #include <stdio.h>
    161       int main() {
    162         printf("hello world\n");
    163         return 0;
    164       }
    165 
    166 2. Next, compile the C file into an LLVM bitcode file:
    167 
    168    .. code-block:: bat
    169 
    170       C:\..> clang -c hello.c -emit-llvm -o hello.bc
    171 
    172    This will create the result file ``hello.bc`` which is the LLVM bitcode
    173    that corresponds the compiled program and the library facilities that
    174    it required.  You can execute this file directly using ``lli`` tool,
    175    compile it to native assembly with the ``llc``, optimize or analyze it
    176    further with the ``opt`` tool, etc.
    177 
    178    Alternatively you can directly output an executable with clang with:
    179 
    180    .. code-block:: bat
    181 
    182       C:\..> clang hello.c -o hello.exe
    183 
    184    The ``-o hello.exe`` is required because clang currently outputs ``a.out``
    185    when neither ``-o`` nor ``-c`` are given.
    186 
    187 3. Run the program using the just-in-time compiler:
    188 
    189    .. code-block:: bat
    190 
    191       C:\..> lli hello.bc
    192 
    193 4. Use the ``llvm-dis`` utility to take a look at the LLVM assembly code:
    194 
    195    .. code-block:: bat
    196 
    197       C:\..> llvm-dis < hello.bc | more
    198 
    199 5. Compile the program to object code using the LLC code generator:
    200 
    201    .. code-block:: bat
    202 
    203       C:\..> llc -filetype=obj hello.bc
    204 
    205 6. Link to binary using Microsoft link:
    206 
    207    .. code-block:: bat
    208 
    209       C:\..> link hello.obj -defaultlib:libcmt
    210 
    211 7. Execute the native code program:
    212 
    213    .. code-block:: bat
    214 
    215       C:\..> hello.exe
    216 
    217 
    218 Common Problems
    219 ===============
    220 If you are having problems building or using LLVM, or if you have any other
    221 general questions about LLVM, please consult the :doc:`Frequently Asked Questions
    222 <FAQ>` page.
    223 
    224 
    225 Links
    226 =====
    227 This document is just an **introduction** to how to use LLVM to do some simple
    228 things... there are many more interesting and complicated things that you can
    229 do that aren't documented here (but we'll gladly accept a patch if you want to
    230 write something up!).  For more information about LLVM, check out:
    231 
    232 * `LLVM homepage <http://llvm.org/>`_
    233 * `LLVM doxygen tree <http://llvm.org/doxygen/>`_
    234 
    235