7.10. GHC Backends¶
GHC supports multiple backend code generators. This is the part of the compiler responsible for taking the last intermediate representation that GHC uses (a form called Cmm that is a simple, C like language) and compiling it to executable code. The backends that GHC support are described below.
7.10.1. Native Code Generator (-fasm
)¶
The default backend for GHC. It is a native code generator, compiling
Cmm all the way to assembly code. It is the fastest backend and
generally produces good performance code. It has the best support for
compiling shared libraries. Select it with the -fasm
flag.
7.10.2. LLVM Code Generator (-fllvm
)¶
This is an alternative backend that uses the LLVM
compiler to produce executable code. It generally produces code as with
performance as good as the native code generator but for some cases can
produce much faster code. This is especially true for numeric, array
heavy code using packages like vector. The penalty is a significant
increase in compilation times. Select the LLVM backend with the
-fllvm
flag.
You must install and have LLVM available on your PATH
for the LLVM code
generator to work. Specifically GHC needs to be able to call the opt
and llc
tools. Secondly, if you are running Mac OS X with LLVM 3.0
or greater then you also need the Clang C
compiler compiler available on your PATH
.
Note
Note that this GHC release expects an LLVM version in the 7 release series.
To install LLVM and Clang:
- Linux: Use your package management tool.
- Mac OS X: Clang is included by default on recent OS X machines when XCode is installed (from 10.6 and later). LLVM is not included. In order to use the LLVM based code generator, you should install the Homebrew package manager for OS X. Alternatively you can download binaries for LLVM and Clang from here.
- Windows: You should download binaries for LLVM and clang from here.
7.10.3. C Code Generator (-fvia-C
)¶
This is the oldest code generator in GHC and is generally not included
any more having been deprecated around GHC 7.0. Select it with the
-fvia-C
flag.
The C code generator is only supported when GHC is built in
unregisterised mode, a mode where GHC produces “portable” C code as
output to facilitate porting GHC itself to a new platform. This mode
produces much slower code though so it’s unlikely your version of GHC
was built this way. If it has then the native code generator probably
won’t be available. You can check this information by calling
ghc --info
(see --info
).
7.10.4. Unregisterised compilation¶
The term “unregisterised” really means “compile via vanilla C”, disabling some of the platform-specific tricks that GHC normally uses to make programs go faster. When compiling unregisterised, GHC simply generates a C file which is compiled via gcc.
When GHC is build in unregisterised mode only the LLVM and C code generators will be available. The native code generator won’t be. LLVM usually offers a substantial performance benefit over the C backend in unregisterised mode.
Unregisterised compilation can be useful when porting GHC to a new
machine, since it reduces the prerequisite tools to gcc
, as
, and
ld
and nothing more, and furthermore the amount of platform-specific
code that needs to be written in order to get unregisterised compilation
going is usually fairly small.
Unregisterised compilation cannot be selected at compile-time; you have to build GHC with the appropriate options set. Consult the GHC Building Guide for details.
You can check if your GHC is unregisterised by calling
ghc --info
(see --info
).