Version 16 (modified by simonmar, 7 years ago) (diff)

add fast build settings

Video: Getting and Building, layout of the source tree, how to set up (23'43")

Quick start for developers

This section is for those who want to do more than just build & install GHC. It is for those who want to actually modify parts of GHC, and perhaps distribute those modifications to others. This section contains a few nuggets of information that will help get you started right away. For more detailed documentation on the build system, read on to the later sections.

Controlling your build: mk/

mk/ is a GNU makefile that contains all your build settings. By default, this file doesn't exist, and all the parameters are set to their defaults in mk/ (mk/ is the place to look for all the things you might want to tune).

There's an example in mk/, which you can copy to mk/ and edit as required. Alternatively if you want to understand a bit more about what's going on (recommended), read on.

How to make GHC build quickly

The GHC build tree is set up so that, by default, it builds a compiler ready for installing and using. That means full optimisation, and the build can take a long time. If you unpack your source tree and right away say ./configure; make, expect to have to wait a while. For hacking, you want the build to be quick - quick to build in the first place, and quick to rebuild after making changes. Tuning your build setup can make the difference between several hours to build GHC, and less than an hour.

Here are the settings that we use to build fast:

# My build settings for hacking on stage 1 
SRC_HC_OPTS     = -H32m -O -fasm -Rghc-timing
GhcStage1HcOpts = -O0 -DDEBUG -W
GhcLibHcOpts    = -O -fgenerics
GhcLibWays      =
SplitObjs       = NO
GhcBootLibs     = YES

What do these options do?

SRC_HC_OPTS = -H32m -O -fasm -Rghc-timing
These options are added to the command line for all Haskell compilations. We turn on -fasm, because that halves compilation time at the expense of a few percent performance. -Rghc-timing prints out a line of timing info about each compilation. It's handy to keep an eye on. -W turns on some warnings; you probably want to tweak exactly which warnings are turned on, since GHC isn't very warning-clean with -W.
GhcStage1HcOpts = -O0 -DDEBUG
The options for building the stage1 compiler (these come after SRC_HC_OPTS, so you can override settings from there). We turn off optimisation here, assuming you'll be modifying and testing stage1. With optimisation off, rebuilding GHC after modifying it will be much quicker, not only because the individual compilations will be quicker, but also there will be fewer dependencies between modules, so much less stuff is recompiled after each modification.

Also we turn on -DDEBUG, because that enables assertions and debugging code in the compiler itself. Turning on DEBUG makes the compiler about 30% slower.
GhcLibHcOpts = -O -fgenerics
You almost certainly want optimisation on when building libraries, otherwise the code you build with this compiler goes really slowly. -fgenerics add generics support to the libraries - you can turn this off if you like (it'll make the libraries a bit smaller), but you won't be able to use Generics in the code you build against these libraries.
GhcLibWays =
Normally the profiled libs are built. Setting GhcLibWays to empty disables this, so you only build the normal libs.
SplitObjs = NO
Object splitting causes each module to be split into smaller pieces in the final library, to reduce executable sizes when linking against the library. It can be quite time and memory-consuming, so turn it off when you're hacking.
GhcBootLibs = YES
If you're just interested in working on GHC, then you probably don't want to build the "extralibs" libraries that we normally ship with GHC. So when getting the sources, run darcs-all without the --extra option. Alternatively, even if you have the libraries in your tree, you can stop them being built by setting GhcBootLibs in your

The other thing to remember is that for quick re-builds, you don't necessarily want to go through the entire "make boot, make stage1, make libraries, make stage2" sequence, which is the default if you type make in the root directory. Instead, we often say:

  • cd compiler; make stage=1: re-makes the stage-1 compiler only
  • cd libraries; make: re-make the libraries only
  • cd compiler; make stage=2: re-make the stage-2 compiler only

If you do things this way, it's your responsibility to say make boot when necessary to rebuild dependencies.

Actually building the bits

To just build everything, from the top level:

  $ autoreconf
  $ ./configure
  $ make

NB. that's autoreconf, not just autoconf. The former works recursively, which is necessary because the GHC tree contains multiple configure scripts.

(See here for what can go wrong.)

If you just want to build stage 1, then instead you can say

  $ make stage1

but note that the stage 1 compiler doesn't support GHCi or Template Haskell, those are compiled into stage 2 only (see BootstrappingGHC).

To install the compiler you built, you can say

  $ make install

However, you don't need to install GHC to use it. Running ./compiler/stage1/ghc-inplace from the build tree will invoke the stage1 compiler, and ./compiler/stage2/ghc-inplace will invoke the stage2 compiler.

Building individual parts of the tree

The first thing to understand is that the source tree is built in two passes. First make boot builds dependencies and any other tools required as part of the build itself. For example, utils/genprimopcode is built as part of make boot, because it is required to preprocess compiler/prelude/primops.txt.pp.

After make boot, make will build everything.

If you say make from the very top-level, the build system will arrange to do the appropriate 'make boot' steps for you. If you just want to build in a subdirectory (eg. ghc), you have to do make boot yourself. You don't need to make boot after every single change, but you might want to do it to update dependencies, for example.

Refining the setup

If you will be hacking mostly on libraries, then you probably want to build stage1 with optimisation, because you're only building it once but using it many times.

  GhcStage1HcOpts = -O

If you are working on GHCi or Template Haskell, then you will be building and modifying the stage 2 compiler. Hence, you want to build stage 1 with, and stage 2 without, optimisation.

  GhcStage1HcOpts = -O
  GhcStage2HcOpts = -O0 -DDEBUG

Take a look through mk/ for more settings you might want to override in Remember: don't modify directly (it gets overwritten when you run ./configure).

The fastest GHC build

The settings that give you the fastest complete GHC build are these:

  SRC_HC_OPTS     = -H64m -Onot -fasm
  GhcStage1HcOpts = -O -fasm
  GhcStage2HcOpts = -Onot -fasm
  GhcLibHcOpts    = -Onot -fasm
  GhcLibWays      =
  SplitObjs       = NO

However, note that the libraries are built without optimisation, so this build isn't very useful. The stage 2 compiler will be very slow.

Full optimisation

To turn up everything to the max, for running performance tests for example, try these:

  SRC_HC_OPTS  = -H64m -O2 
  GhcLibHcOpts = -O2
  SplitObjs    = YES

You can even add some more aggresive options, such as -fliberate-case-threshold50, -funfolding-use-threshold50.

Here is a roadmap to the source tree.