5.1. Quickstart¶
Suppose that you are in a directory containing a single Cabal package which you wish to build. You can configure and build it using Nix-style local builds with this command (configuring is not necessary):
$ cabal new-build
To open a GHCi shell with this package, use this command:
$ cabal new-repl
5.1.1. Developing multiple packages¶
Many Cabal projects involve multiple packages which need to be built
together. To build multiple Cabal packages, you need to first create a
cabal.project
file which declares where all the local package
directories live. For example, in the Cabal repository, there is a root
directory with a folder per package, e.g., the folders Cabal
and
cabal-install
. The cabal.project
file specifies each folder as
part of the project:
packages: Cabal/
cabal-install/
The expectation is that a cabal.project
is checked into your source
control, to be used by all developers of a project. If you need to make
local changes, they can be placed in cabal.project.local
(which
should not be checked in.)
Then, to build every component of every package, from the top-level directory, run the command: (Warning: cabal-install-1.24 does NOT have this behavior; you will need to upgrade to HEAD.)
$ cabal new-build
To build a specific package, you can either run new-build
from the
directory of the package in question:
$ cd cabal-install
$ cabal new-build
or you can pass the name of the package as an argument to
cabal new-build
(this works in any subdirectory of the project):
$ cabal new-build cabal-install
You can also specify a specific component of the package to build. For
example, to build a test suite named package-tests
, use the command:
$ cabal new-build package-tests
Targets can be qualified with package names. So to request
package-tests
from the Cabal
package, use
Cabal:package-tests
.
Unlike sandboxes, there is no need to setup a sandbox or add-source
projects; just check in cabal.project
to your repository and
new-build
will just work.
5.2. Cookbook¶
5.2.1. How can I profile my library/application?¶
First, make sure you have HEAD; 1.24 is affected by #3790, which means that if any project which transitively depends on a package which has a Custom setup built against Cabal 1.22 or earlier will silently not work.
Create or edit your cabal.project.local
, adding the following
line:
profiling: True
Now, cabal new-build
will automatically build all libraries and
executables with profiling. You can fine-tune the profiling settings
for each package using profiling-detail
:
package p
profiling-detail: toplevel-functions
Alternately, you can call cabal new-build --enable-profiling
to
temporarily build with profiling.
5.3. How it works¶
5.3.1. Local versus external packages¶
One of the primary innovations of Nix-style local builds is the distinction between local packages, which users edit and recompile and must be built per-project, versus external packages, which can be cached across projects. To be more precise:
- A local package is one that is listed explicitly in the
packages
,optional-packages
orextra-packages
field of a project. Usually, these refer to packages whose source code lives directly in a folder in your project (although, you can list an arbitrary Hackage package inextra-packages
to force it to be treated as local).
Local packages, as well as the external packages (below) which depend on them, are built inplace, meaning that they are always built specifically for the project and are not installed globally. Inplace packages are not cached and not given unique hashes, which makes them suitable for packages which you want to edit and recompile.
- An external package is any package which is not listed in the
packages
field. The source code for external packages is usually retrieved from Hackage.
When an external package does not depend on an inplace package, it can be built and installed to a global store, which can be shared across projects. These build products are identified by a hash that over all of the inputs which would influence the compilation of a package (flags, dependency selection, etc.). Just as in Nix, these hashes uniquely identify the result of a build; if we compute this identifier and we find that we already have this ID built, we can just use the already built version.
The global package store is ~/.cabal/store
(configurable via
global store-dir option); if you need to clear your store for
whatever reason (e.g., to reclaim disk space or because the global
store is corrupted), deleting this directory is safe (new-build
will just rebuild everything it needs on its next invocation).
This split motivates some of the UI choices for Nix-style local build
commands. For example, flags passed to cabal new-build
are only
applied to local packages, so that adding a flag to
cabal new-build
doesn’t necessitate a rebuild of every transitive
dependency in the global package store.
In cabal-install HEAD, Nix-style local builds also take advantage of a new Cabal library feature, per-component builds, where each component of a package is configured and built separately. This can massively speed up rebuilds of packages with lots of components (e.g., a package that defines multiple executables), as only one executable needs to be rebuilt. Packages that use Custom setup scripts are not currently built on a per-component basis.
5.3.2. Where are my build products?¶
A major deficiency in the current implementation of new-build is that
there is no programmatic way to access the location of build products.
The location of the build products is intended to be an internal
implementation detail of new-build, but we also understand that many
unimplemented features (e.g., new-test
) can only be reasonably
worked around by accessing build products directly.
The location where build products can be found varies depending on the version of cabal-install:
- In cabal-install-1.24, the dist directory for a package
p-0.1
is stored indist-newstyle/build/p-0.1
. For example, if you built an executable or test suite namedpexe
, it would be located atdist-newstyle/build/p-0.1/build/pexe/pexe
. - In cabal-install HEAD, the dist directory for a package
p-0.1
defining a library built with GHC 8.0.1 on 64-bit Linux isdist-newstyle/build/x86_64-linux/ghc-8.0.1/p-0.1
. When per-component builds are enabled (any non-Custom package), a subcomponent like an executable or test suite namedpexe
will be stored atdist-newstyle/build/x86_64-linux/ghc-8.0.1/p-0.1/c/pexe
; thus, the full path of the executable isdist-newstyle/build/x86_64-linux/ghc-8.0.1/p-0.1/c/pexe/build/pexe/pexe
(you can see why we want this to be an implementation detail!)
The paths are a bit longer in HEAD but the benefit is that you can transparently have multiple builds with different versions of GHC. We plan to add the ability to create aliases for certain build configurations, and more convenient paths to access particularly useful build products like executables.
5.3.3. Caching¶
Nix-style local builds sport a robust caching system which help reduce
the time it takes to execute a rebuild cycle. While the details of how
cabal-install
does caching are an implementation detail and may
change in the future, knowing what gets cached is helpful for
understanding the performance characteristics of invocations to
new-build
. The cached intermediate results are stored in
dist-newstyle/cache
; this folder can be safely deleted to clear the
cache.
The following intermediate results are cached in the following files in this folder (the most important two are first):
solver-plan
(binary)- The result of calling the dependency solver, assuming that the
Hackage index, local
cabal.project
file, and localcabal
files are unmodified. (Notably, we do NOT have to dependency solve again if new build products are stored in the global store; the invocation of the dependency solver is independent of what is already available in the store.) source-hashes
(binary)- The hashes of all local source files. When all local source files of
a local package are unchanged,
cabal new-build
will skip invokingsetup build
entirely (saving us from a possibly expensive call toghc --make
). The full list of source files participating in compilation are determined usingsetup sdist --list-sources
(thus, if you do not list all your source files in a Cabal file, you may fail to recompile when you edit them.) config
(same format ascabal.project
)- The full project configuration, merged from
cabal.project
(and friends) as well as the command line arguments. compiler
(binary)- The configuration of the compiler being used to build the project.
improved-plan
(binary)- Like
solver-plan
, but with all non-inplace packages improved into pre-existing copies from the store.
Note that every package also has a local cache managed by the Cabal
build system, e.g., in $distdir/cache
.
There is another useful file in dist-newstyle/cache
, plan.json
,
which is a JSON serialization of the computed install plan. (TODO: docs)
5.4. Commands¶
We now give an in-depth description of all the commands, describing the arguments and flags they accept.
5.4.1. cabal new-configure¶
cabal new-configure
takes a set of arguments and writes a
cabal.project.local
file based on the flags passed to this command.
cabal new-configure FLAGS; cabal new-build
is roughly equivalent to
cabal new-build FLAGS
, except that with new-configure
the flags
are persisted to all subsequent calls to new-build
.
cabal new-configure
is intended to be a convenient way to write out
a cabal.project.local
for simple configurations; e.g.,
cabal new-configure -w ghc-7.8
would ensure that all subsequent
builds with cabal new-build
are performed with the compiler
ghc-7.8
. For more complex configuration, we recommend writing the
cabal.project.local
file directly (or placing it in
cabal.project
!)
cabal new-configure
inherits options from Cabal
. semantics:
- Any flag accepted by
./Setup configure
. - Any flag accepted by
cabal configure
beyond./Setup configure
, namely--cabal-lib-version
,--constraint
,--preference
and--solver.
- Any flag accepted by
cabal install
beyond./Setup configure
. - Any flag accepted by
./Setup haddock
.
The options of all of these flags apply only to local packages in a
project; this behavior is different than that of cabal install
,
which applies flags to every package that would be built. The motivation
for this is to avoid an innocuous addition to the flags of a package
resulting in a rebuild of every package in the store (which might need
to happen if a flag actually applied to every transitive dependency). To
apply options to an external package, use a package
stanza in a
cabal.project
file.
5.4.2. cabal new-build¶
cabal new-build
takes a set of targets and builds them. It
automatically handles building and installing any dependencies of these
targets.
A target can take any of the following forms:
A package target:
package
, which specifies that all enabled components of a package to be built. By default, test suites and benchmarks are not enabled, unless they are explicitly requested (e.g., via--enable-tests
.)A component target:
[package:][ctype:]component
, which specifies a specific component (e.g., a library, executable, test suite or benchmark) to be built.All packages:
all
, which specifies all packages within the project.Components of a particular type:
package:ctypes
,all:ctypes
: which specifies all components of the given type. Where validctypes
are:libs
,libraries
,flibs
,foreign-libraries
,exes
,executables
,tests
,benches
,benchmarks
.
In component targets, package:
and ctype:
(valid component types
are lib
, flib
, exe
, test
and bench
) can be used to
disambiguate when multiple packages define the same component, or the
same component name is used in a package (e.g., a package foo
defines both an executable and library named foo
). We always prefer
interpreting a target as a package name rather than as a component name.
Some example targets:
$ cabal new-build lib:foo-pkg # build the library named foo-pkg
$ cabal new-build foo-pkg:foo-tests # build foo-tests in foo-pkg
(There is also syntax for specifying module and file targets, but it doesn’t currently do anything.)
Beyond a list of targets, cabal new-build
accepts all the flags that
cabal new-configure
takes. Most of these flags are only taken into
consideration when building local packages; however, some flags may
cause extra store packages to be built (for example,
--enable-profiling
will automatically make sure profiling libraries
for all transitive dependencies are built and installed.)
5.4.3. cabal new-repl¶
cabal new-repl TARGET
loads all of the modules of the target into
GHCi as interpreted bytecode. It takes the same flags as
cabal new-build
.
Currently, it is not supported to pass multiple targets to new-repl
(new-repl
will just successively open a separate GHCi session for
each target.)
5.4.4. cabal new-freeze¶
cabal new-freeze
writes out a cabal.project.freeze
file which
records all of the versions and flags which that are picked by the
solver under the current index and flags. A cabal.project.freeze
file has the same syntax as cabal.project
and looks something like
this:
constraints: HTTP ==4000.3.3,
HTTP +warp-tests -warn-as-error -network23 +network-uri -mtl1 -conduit10,
QuickCheck ==2.9.1,
QuickCheck +templatehaskell,
-- etc...
For end-user executables, it is recommended that you distribute the
cabal.project.freeze
file in your source repository so that all
users see a consistent set of dependencies. For libraries, this is not
recommended: users often need to build against different versions of
libraries than what you developed against.
5.4.5. Unsupported commands¶
The following commands are not currently supported:
cabal new-test
(#3638)- Workaround: run the test executable directly (see Where are my build products?)
cabal new-bench
(#3638)- Workaround: run the benchmark executable directly (see Where are my build products?)
cabal new-run
(#3638)- Workaround: run the executable directly (see Where are my build products?)
cabal new-exec
- Workaround: if you wanted to execute GHCi, consider using
cabal new-repl
instead. Otherwise, use-v
to find the list of flags GHC is being invoked with and pass it manually. cabal new-haddock
(#3535)- Workaround: run
cabal act-as-setup -- haddock --builddir=dist-newstyle/build/pkg-0.1
(or execute the Custom setup script directly). cabal new-install
(#3737)- Workaround: no good workaround at the moment. (But note that you no longer need to install libraries before building!)
5.5. Configuring builds with cabal.project¶
cabal.project
files support a variety of options which configure the
details of your build. The general syntax of a cabal.project
file is
similar to that of a Cabal file: there are a number of fields, some of
which live inside stanzas:
packages: */*.cabal
with-compiler: /opt/ghc/8.0.1/bin/ghc
package cryptohash
optimization: False
In general, the accepted field names coincide with the accepted command
line flags that cabal install
and other commands take. For example,
cabal new-configure --enable-profiling
will write out a project
file with profiling: True
.
The full configuration of a project is determined by combining the following sources (later entries override earlier ones):
~/.cabal/config
(the user-wide global configuration)cabal.project
(the project configuratoin)cabal.project.freeze
(the output ofcabal new-freeze
)cabal.project.local
(the output ofcabal new-configure
)
5.5.1. Specifying the local packages¶
The following top-level options specify what the local packages of a project are:
-
packages
:
package location list (space or comma separated)¶ Default value: ./*.cabal
Specifies the list of package locations which contain the local packages to be built by this project. Package locations can take the following forms:
- They can specify a Cabal file, or a directory containing a Cabal
file, e.g.,
packages: Cabal cabal-install/cabal-install.cabal
. - They can specify a glob-style wildcards, which must match one or
more (a) directories containing a (single) Cabal file, (b) Cabal
files (extension
.cabal
), or (c) [STRIKEOUT:tarballs which contain Cabal packages (extension.tar.gz
)] (not implemented yet). For example, to match all Cabal files in all subdirectories, as well as the Cabal projects in the parent directoriesfoo
andbar
, usepackages: */*.cabal ../{foo,bar}/
- [STRIKEOUT:They can specify an
http
,https
orfile
URL, representing the path to a remote tarball to be downloaded and built.] (not implemented yet)
There is no command line variant of this field; see #3585.
- They can specify a Cabal file, or a directory containing a Cabal
file, e.g.,
-
optional-packages
:
package location list (space or comma-separated)¶ Default value: ./*/*.cabal
Like
packages
, specifies a list of package locations containing local packages to be built. Unlikepackages
, if we glob for a package, it is permissible for the glob to match against zero packages. The intended use-case foroptional-packages
is to make it so that vendored packages can be automatically picked up if they are placed in a subdirectory, but not error if there aren’t any.There is no command line variant of this field.
-
extra-packages
:
package list with version bounds (comma separated)¶ [STRIKEOUT:Specifies a list of external packages from Hackage which should be considered local packages.] (Not implemented)
There is no command line variant of this field.
[STRIKEOUT:There is also a stanza source-repository-package
for
specifying packages from an external version control.] (Not
implemented.)
All local packages are vendored, in the sense that if other packages (including external ones from Hackage) depend on a package with the name of a local package, the local package is preferentially used. This motivates the default settings:
packages: ./*.cabal
optional-packages: ./*/*.cabal
…any package can be vendored simply by making a checkout in the top-level project directory, as might be seen in this hypothetical directory layout:
foo.cabal
foo-helper/ # local package
unix/ # vendored external package
All of these options support globs. cabal new-build
has its own glob
format:
- Anywhere in a path, as many times as you like, you can specify an
asterisk
*
wildcard. E.g.,*/*.cabal
matches all.cabal
files in all immediate subdirectories. Like in glob(7), asterisks do not match hidden files unless there is an explicit period, e.g.,.*/foo.cabal
will match.private/foo.cabal
(but*/foo.cabal
will not). - You can use braces to specify specific directories; e.g.,
{vendor,pkgs}/*.cabal
matches all Cabal files in thevendor
andpkgs
subdirectories.
Formally, the format described by the following BNF:
FilePathGlob ::= FilePathRoot FilePathGlobRel
FilePathRoot ::= {- empty -} # relative to cabal.project
| "/" # Unix root
| [a-zA-Z] ":" [/\\] # Windows root
| "~" # home directory
FilePathGlobRel ::= Glob "/" FilePathGlobRel # Unix directory
| Glob "\\" FilePathGlobRel # Windows directory
| Glob # file
| {- empty -} # trailing slash
Glob ::= GlobPiece *
GlobPiece ::= "*" # wildcard
| [^*{},/\\] * # literal string
| "\\" [*{},] # escaped reserved character
| "{" Glob "," ... "," Glob "}" # union (match any of these)
5.5.2. Global configuration options¶
The following top-level configuration options are not specific to any package, and thus apply globally:
-
verbose
:
nat¶ -
--verbose
=n
,
-vn
Default value: 1 Control the verbosity of
cabal
commands, valid values are from 0 to 3.The command line variant of this field is
--verbose=2
; a short form-v2
is also supported.
-
jobs
:
nat or $ncpus¶ -
--jobs
=n
,
-jn
,
--jobs
=$ncpus
¶ Default value: 1 Run nat jobs simultaneously when building. If
$ncpus
is specified, run the number of jobs equal to the number of CPUs. Package building is often quite parallel, so turning on parallelism can speed up build times quite a bit!The command line variant of this field is
--jobs=2
; a short form-j2
is also supported; a bare--jobs
or-j
is equivalent to--jobs=$ncpus
.
-
keep-going
:
boolean¶ -
--keep-going
Default value: False If true, after a build failure, continue to build other unaffected packages.
The command line variant of this field is
--keep-going
.
-
--builddir
=DIR
¶ Specifies the name of the directory where build products for build will be stored; defaults to
dist-newstyle
. If a relative name is specified, this directory is resolved relative to the root of the project (i.e., where thecabal.project
file lives.)This option cannot be specified via a
cabal.project
file.
-
--project-file
=FILE
¶ Specifies the name of the project file used to specify the rest of the top-level configuration; defaults to
cabal.project
. This name not only specifies the name of the main project file, but also the auxiliary project filescabal.project.freeze
andcabal.project.local
; for example, if you specify--project-file=my.project
, then the other files that will be probed aremy.project.freeze
andmy.project.local
.If the specified project file is a relative path, we will look for the file relative to the current working directory, and then for the parent directory, until the project file is found or we have hit the top of the user’s home directory.
This option cannot be specified via a
cabal.project
file.
-
--store-dir
=DIR
¶ Specifies the name of the directory of the global package store.
5.5.3. Solver configuration options¶
The following settings control the behavior of the dependency solver:
-
constraints
:
constraints list (comma separated)¶ -
--constraint
="pkg > 2.0"
¶ Add extra constraints to the version bounds, flag settings, and other properties a solver can pick for a package. For example:
constraints: bar == 2.1
A package can be specified multiple times in
constraints
, in which case the specified constraints are intersected. This is useful, since the syntax does not allow you to specify multiple constraints at once. For example, to specify both version bounds and flag assignments, you would write:constraints: bar == 2.1, bar +foo -baz
Valid constraints take the same form as for the constraint command line option.
-
preferences
:
preference (comma separated)¶ -
--preference
="pkg > 2.0"
¶ Like
constraints
, but the solver will attempt to satisfy these preferences on a best-effort basis. The resulting install is locally optimal with respect to preferences; specifically, no single package could be replaced with a more preferred version that still satisfies the hard constraints.Operationally, preferences can cause the solver to attempt certain version choices of a package before others, which can improve dependency solver runtime.
One way to use
preferences
is to take a known working set of constraints (e.g., viacabal new-freeze
) and record them as preferences. In this case, the solver will first attempt to use this configuration, and if this violates hard constraints, it will try to find the minimal number of upgrades to satisfy the hard constraints again.The command line variant of this field is
--preference="pkg >= 2.0"
; to specify multiple preferences, pass the flag multiple times.
-
allow-newer
:
none, all or list of scoped package names (space or comma separated)¶ -
--allow-newer
,
--allow-newer
=[none
,
all
,
pkg]
Default value: none
Allow the solver to pick an newer version of some packages than would normally be permitted by than the
build-depends
bounds of packages in the install plan. This option may be useful if the dependency solver cannot otherwise find a valid install plan.For example, to relax
pkg
sbuild-depends
upper bound ondep-pkg
, write a scoped package name of the form:allow-newer: pkg:dep-pkg
This syntax is recommended, as it is often only a single package whose upper bound is misbehaving. In this case, the upper bounds of other packages should still be respected; indeed, relaxing the bound can break some packages which test the selected version of packages.
However, in some situations (e.g., when attempting to build packages on a new version of GHC), it is useful to disregard all upper-bounds, with respect to a package or all packages. This can be done by specifying just a package name, or using the keyword
all
to specify all packages:-- Disregard upper bounds involving the dependencies on -- packages bar, baz and quux allow-newer: bar, baz, quux -- Disregard all upper bounds when dependency solving allow-newer: all
allow-newer
is often used in conjunction with a constraint (in the cfg-field:constraints field) forcing the usage of a specific, newer version of a package.The command line variant of this field is
--allow-newer=bar
. A bare--allow-newer
is equivalent to--allow-newer=all
.
-
allow-older
:
none, all, list of scoped package names (space or comma separated)¶ -
--allow-older
,
--allow-older
=[none
,
all
,
pkg]
Default value: none
Like
allow-newer
, but applied to lower bounds rather than upper bounds.The command line variant of this field is
--allow-older=all
. A bare--allow-older
is equivalent to--allow-older=all
.
-
index-state
:
HEAD, unix-timestamp, ISO8601 UTC timestamp.¶ Since: Cabal 2.0 Default value: HEAD
This allows to change the source package index state the solver uses to compute install-plans. This is particularly useful in combination with freeze-files in order to also freeze the state the package index was in at the time the install-plan was frozen.
-- UNIX timestamp format example index-state: @1474739268 -- ISO8601 UTC timestamp format example -- This format is used by 'cabal new-configure' -- for storing `--index-state` values. index-state: 2016-09-24T17:47:48Z
5.5.4. Package configuration options¶
Package options affect the building of specific packages. There are two ways a package option can be specified:
- They can be specified at the top-level, in which case they apply only to local package, or
- They can be specified inside a
package
stanza, in which case they apply to the build of the package, whether or not it is local or external.
For example, the following options specify that optimization
should be turned off for all local packages, and that bytestring
(possibly
an external dependency) should be built with -fno-state-hack
:
optimization: False
package bytestring
ghc-options: -fno-state-hack
ghc-options
is not specifically described in this documentation,
but is one of many fields for configuring programs. They take the form
progname-options
and progname-location
, and
can only be set inside package stanzas. (TODO: They are not supported
at top-level, see #3579.)
At the moment, there is no way to specify an option to apply to all external packages or all inplace packages. Additionally, it is only possible to specify these options on the command line for all local packages (there is no per-package command line interface.)
Some flags were added by more recent versions of the Cabal library. This means that they are NOT supported by packages which use Custom setup scripts that require a version of the Cabal library older than when the feature was added.
-
flags
:
list of +flagname or -flagname (space separated)¶ -
--flags
="+foo -bar"
,
-ffoo
,
-f-bar
Force all flags specified as
+flagname
to be true, and all flags specified as-flagname
to be false. For example, to enable the flagfoo
and disablebar
, set:flags: +foo -bar
If there is no leading punctuation, it is assumed that the flag should be enabled; e.g., this is equivalent:
flags: foo -bar
Flags are per-package, so it doesn’t make much sense to specify flags at the top-level, unless you happen to know that all of your local packages support the same named flags. If a flag is not supported by a package, it is ignored.
See also the solver configuration field
constraints
.The command line variant of this flag is
--flags
. There is also a shortened form-ffoo -f-bar
.A common mistake is to say
cabal new-build -fhans
, wherehans
is a flag for a transitive dependency that is not in the local package; in this case, the flag will be silently ignored. Ifhaskell-tor
is the package you want this flag to apply to, try--constraint="haskell-tor +hans"
instead.
-
with-compiler
:
executable¶ -
--with-compiler
=executable
¶ Specify the path to a particular compiler to be used. If not an absolute path, it will be resolved according to the
PATH
environment. The type of the compiler (GHC, GHCJS, etc) must be consistent with the setting of thecompiler
field.The most common use of this option is to specify a different version of your compiler to be used; e.g., if you have
ghc-7.8
in your path, you can specifywith-compiler: ghc-7.8
to use it.This flag also sets the default value of
with-hc-pkg
, using the heuristic that it is namedghc-pkg-7.8
(if your executable name is suffixed with a version number), or is the executable namedghc-pkg
in the same directory as theghc
directory. If this heuristic does not work, setwith-hc-pkg
explicitly.For inplace packages,
cabal new-build
maintains a separate build directory for each version of GHC, so you can maintain multiple build trees for different versions of GHC without clobbering each other.At the moment, it’s not possible to set
with-compiler
on a per-package basis, but eventually we plan on relaxing this restriction. If this is something you need, give us a shout.The command line variant of this flag is
--with-compiler=ghc-7.8
; there is also a short version-w ghc-7.8
.
-
with-hc-pkg
:
executable¶ -
--with-hc-pkg
=executable
¶ Specify the path to the package tool, e.g.,
ghc-pkg
. This package tool must be compatible with the compiler specified bywith-compiler
(generally speaking, it should be precisely the tool that was distributed with the compiler). If this option is omitted, the default value is determined fromwith-compiler
.The command line variant of this flag is
--with-hc-pkg=ghc-pkg-7.8
.
-
optimization
:
nat¶ -
--enable-optimization
-
--disable-optimization
Default value: 1
Build with optimization. This is appropriate for production use, taking more time to build faster libraries and programs.
The optional nat value is the optimisation level. Some compilers support multiple optimisation levels. The range is 0 to 2. Level 0 disables optimization, level 1 is the default. Level 2 is higher optimisation if the compiler supports it. Level 2 is likely to lead to longer compile times and bigger generated code. If you are not planning to run code, turning off optimization will lead to better build times and less code to be rebuilt when a module changes.
We also accept
True
(equivalent to 1) andFalse
(equivalent to 0).Note that as of GHC 8.0, GHC does not recompile when optimization levels change (see GHC #10923), so if you change the optimization level for a local package you may need to blow away your old build products in order to rebuild with the new optimization level.
The command line variant of this flag is
-O2
(with-O1
equivalent to-O
). There are also long-form variants--enable-optimization
and--disable-optimization
.
-
configure-options
:
args (space separated)¶ -
--configure-option
=arg
¶ A list of extra arguments to pass to the external
./configure
script, if one is used. This is only useful for packages which have theConfigure
build type. See also the section on system-dependent parameters.The command line variant of this flag is
--configure-option=arg
, which can be specified multiple times to pass multiple options.
-
compiler
:
ghc, ghcjs, jhc, lhc, uhc or haskell-suite¶ -
--compiler
=compiler
¶ Default value: ghc
Specify which compiler toolchain to be used. This is independent of
with-compiler
, because the choice of toolchain affects Cabal’s build logic.The command line variant of this flag is
--compiler=ghc
.
-
tests
:
boolean¶ -
--enable-tests
-
--disable-tests
Default value: False
Force test suites to be enabled. For most users this should not be needed, as we always attempt to solve for test suite dependencies, even when this value is
False
; furthermore, test suites are automatically enabled if they are requested as a built target.The command line variant of this flag is
--enable-tests
and--disable-tests
.
-
benchmarks
:
boolean¶ -
--enable-benchmarks
-
--disable-benchmarks
Default value: False
Force benchmarks to be enabled. For most users this should not be needed, as we always attempt to solve for benchmark dependencies, even when this value is
False
; furthermore, benchmarks are automatically enabled if they are requested as a built target.The command line variant of this flag is
--enable-benchmarks
and--disable-benchmarks
.
-
extra-prog-path
:
paths (newline or comma separated)¶ -
--extra-prog-path
=PATH
¶ Since: Cabal 1.18 A list of directories to search for extra required programs. Most users should not need this, as programs like
happy
andalex
will automatically be installed and added to the path. This can be useful if aCustom
setup script relies on an exotic extra program.The command line variant of this flag is
--extra-prog-path=PATH
, which can be specified multiple times.
-
run-tests
:
boolean¶ -
--run-tests
Default value: False
Run the package test suite upon installation. This is useful for saying “When this package is installed, check that the test suite passes, terminating the rest of the build if it is broken.”
Warning
One deficiency: the
run-tests
setting of a package is NOT recorded as part of the hash, so if you install something withoutrun-tests
and then turn onrun-tests
, we won’t subsequently test the package. If this is causing you problems, give us a shout.The command line variant of this flag is
--run-tests
.
5.5.4.1. Object code options¶
-
debug-info
:
boolean¶ -
--enable-debug-info
-
--disable-debug-info
Since: Cabal 1.22 Default value: False If the compiler (e.g., GHC 7.10 and later) supports outputing OS native debug info (e.g., DWARF), setting
debug-info: True
will instruct it to do so. See the GHC wiki page on DWARF for more information about this feature.(This field also accepts numeric syntax, but as of GHC 8.0 this doesn’t do anything.)
The command line variant of this flag is
--enable-debug-info
and--disable-debug-info
.
-
split-objs
:
boolean¶ -
--enable-split-objs
-
--disable-split-objs
Default value: False Use the GHC
-split-objs
feature when building the library. This reduces the final size of the executables that use the library by allowing them to link with only the bits that they use rather than the entire library. The downside is that building the library takes longer and uses considerably more memory.The command line variant of this flag is
--enable-split-objs
and--disable-split-objs
.
-
executable-stripping
:
boolean¶ -
--enable-executable-stripping
-
--disable-executable-stripping
Default value: True When installing binary executable programs, run the
strip
program on the binary. This can considerably reduce the size of the executable binary file. It does this by removing debugging information and symbols.Not all Haskell implementations generate native binaries. For such implementations this option has no effect.
(TODO: Check what happens if you combine this with
debug-info
.)The command line variant of this flag is
--enable-executable-stripping
and--disable-executable-stripping
.
-
library-stripping
:
boolean¶ -
--enable-library-stripping
-
--disable-library-stripping
Since: Cabal 1.19 When installing binary libraries, run the
strip
program on the binary, saving space on the file system. See alsoexecutable-stripping
.The command line variant of this flag is
--enable-library-stripping
and--disable-library-stripping
.
5.5.4.2. Executable options¶
-
program-prefix
:
prefix¶ -
--program-prefix
=prefix
¶ [STRIKEOUT:Prepend prefix to installed program names.] (Currently implemented in a silly and not useful way. If you need this to work give us a shout.)
prefix may contain the following path variables:
$pkgid
,$pkg
,$version
,$compiler
,$os
,$arch
,$abi
,$abitag
The command line variant of this flag is
--program-prefix=foo-
.
-
program-suffix
:
suffix¶ -
--program-suffix
=suffix
¶ [STRIKEOUT:Append suffix to installed program names.] (Currently implemented in a silly and not useful way. If you need this to work give us a shout.)
The most obvious use for this is to append the program’s version number to make it possible to install several versions of a program at once:
program-suffix: $version
.suffix may contain the following path variables:
$pkgid
,$pkg
,$version
,$compiler
,$os
,$arch
,$abi
,$abitag
The command line variant of this flag is
--program-suffix='$version'
.
5.5.4.3. Dynamic linking options¶
Default value: False Build shared library. This implies a separate compiler run to generate position independent code as required on most platforms.
The command line variant of this flag is
--enable-shared
and--disable-shared
.
-
executable-dynamic
:
boolean¶ -
--enable-executable-dynamic
-
--disable-executable-dynamic
Default value: False Link executables dynamically. The executable’s library dependencies should be built as shared objects. This implies
shared: True
unlessshared: False
is explicitly specified.The command line variant of this flag is
--enable-executable-dynamic
and--disable-executable-dynamic
.
-
library-for-ghci
:
boolean¶ -
--enable-library-for-ghci
-
--disable-library-for-ghci
Default value: True Build libraries suitable for use with GHCi. This involves an extra linking step after the build.
Not all platforms support GHCi and indeed on some platforms, trying to build GHCi libs fails. In such cases, consider setting
library-for-ghci: False
.The command line variant of this flag is
--enable-library-for-ghci
and--disable-library-for-ghci
.
5.5.4.4. Foreign function interface options¶
-
extra-include-dirs
:
directories (comma or newline separated list)¶ -
--extra-include-dirs
=DIR
¶ An extra directory to search for C header files. You can use this flag multiple times to get a list of directories.
You might need to use this flag if you have standard system header files in a non-standard location that is not mentioned in the package’s
.cabal
file. Using this option has the same affect as appending the directory dir to theinclude-dirs
field in each library and executable in the package’s.cabal
file. The advantage of course is that you do not have to modify the package at all. These extra directories will be used while building the package and for libraries it is also saved in the package registration information and used when compiling modules that use the library.The command line variant of this flag is
--extra-include-dirs=DIR
, which can be specified multiple times.
-
extra-lib-dirs
:
directories (comma or newline separated list)¶ -
--extra-lib-dirs
=DIR
¶ An extra directory to search for system libraries files.
The command line variant of this flag is
--extra-lib-dirs=DIR
, which can be specified multiple times.
-
extra-framework-dirs
:
directories (comma or newline separated list)¶ -
--extra-framework-dirs
=DIR
¶ An extra directory to search for frameworks (OS X only).
You might need to use this flag if you have standard system libraries in a non-standard location that is not mentioned in the package’s
.cabal
file. Using this option has the same affect as appending the directory dir to theextra-lib-dirs
field in each library and executable in the package’s.cabal
file. The advantage of course is that you do not have to modify the package at all. These extra directories will be used while building the package and for libraries it is also saved in the package registration information and used when compiling modules that use the library.The command line variant of this flag is
--extra-framework-dirs=DIR
, which can be specified multiple times.
5.5.4.5. Profiling options¶
-
profiling
:
boolean¶ -
--enable-profiling
-
--disable-profiling
Since: Cabal 1.21 Default value: False Build libraries and executables with profiling enabled (for compilers that support profiling as a separate mode). It is only necessary to specify
profiling
for the specific package you want to profile;cabal new-build
will ensure that all of its transitive dependencies are built with profiling enabled.To enable profiling for only libraries or executables, see
library-profiling
andexecutable-profiling
.For useful profiling, it can be important to control precisely what cost centers are allocated; see
profiling-detail
.The command line variant of this flag is
--enable-profiling
and--disable-profiling
.
-
profiling-detail
:
level¶ -
--profiling-detail
=level
¶ Since: Cabal 1.23 Some compilers that support profiling, notably GHC, can allocate costs to different parts of the program and there are different levels of granularity or detail with which this can be done. In particular for GHC this concept is called “cost centers”, and GHC can automatically add cost centers, and can do so in different ways.
This flag covers both libraries and executables, but can be overridden by the
library-profiling-detail
field.Currently this setting is ignored for compilers other than GHC. The levels that cabal currently supports are:
- default
- For GHC this uses
exported-functions
for libraries andtoplevel-functions
for executables. - none
- No costs will be assigned to any code within this component.
- exported-functions
- Costs will be assigned at the granularity of all top level
functions exported from each module. In GHC, this
is for non-inline functions. Corresponds to
-fprof-auto-exported
. - toplevel-functions
- Costs will be assigned at the granularity of all top level
functions in each module, whether they are exported from the
module or not. In GHC specifically, this is for non-inline
functions. Corresponds to
-fprof-auto-top
. - all-functions
- Costs will be assigned at the granularity of all functions in
each module, whether top level or local. In GHC specifically,
this is for non-inline toplevel or where-bound functions or
values. Corresponds to
-fprof-auto
.
The command line variant of this flag is
--profiling-detail=none
.
-
library-profiling-detail
:
level¶ -
--library-profiling-detail
=level
¶ Since: Cabal 1.23 Like
profiling-detail
, but applied only to librariesThe command line variant of this flag is
--library-profiling-detail=none
.
-
library-vanilla
:
boolean¶ -
--enable-library-vanilla
-
--disable-library-vanilla
Default value: True Build ordinary libraries (as opposed to profiling libraries). Mostly, you can set this to False to avoid building ordinary libraries when you are profiling.
The command line variant of this flag is
--enable-library-vanilla
and--disable-library-vanilla
.
-
library-profiling
:
boolean¶ -
--enable-library-profiling
-
--disable-library-profiling
Since: Cabal 1.21 Default value: False Build libraries with profiling enabled. You probably want to use
profiling
instead.The command line variant of this flag is
--enable-library-profiling
and--disable-library-profiling
.
-
executable-profiling
:
boolean¶ -
--enable-executable-profiling
-
--disable-executable-profiling
Since: Cabal 1.21 Default value: False Build executables with profiling enabled. You probably want to use
profiling
instead.The command line variant of this flag is
--enable-executable-profiling
and--disable-executable-profiling
.
5.5.4.6. Coverage options¶
-
coverage
:
boolean¶ -
--enable-coverage
-
--disable-coverage
Since: Cabal 1.21 Default value: False Build libraries and executables (including test suites) with Haskell Program Coverage enabled. Running the test suites will automatically generate coverage reports with HPC.
The command line variant of this flag is
--enable-coverage
and--disable-coverage
.
5.5.4.7. Haddock options¶
Documentation building support is fairly sparse at the moment. Let us know if it’s a priority for you!
-
documentation
:
boolean¶ -
--enable-documentation
-
--disable-documentation
Default value: False Enables building of Haddock documentation
The command line variant of this flag is
--enable-documentation
and--disable-documentation
.
-
doc-index-file
:
templated path¶ -
--doc-index-file
=TEMPLATE
¶ A central index of Haddock API documentation (template cannot use
$pkgid
), which should be updated as documentation is built.The command line variant of this flag is
--doc-index-file=TEMPLATE
The following commands are equivalent to ones that would be passed when
running setup haddock
. (TODO: Where does the documentation get put.)
-
haddock-hoogle
:
boolean¶ Default value: False Generate a text file which can be converted by Hoogle into a database for searching. This is equivalent to running
haddock
with the--hoogle
flag.The command line variant of this flag is
--hoogle
(for thehaddock
command).
-
haddock-html
:
boolean¶ Default value: True Build HTML documentation.
The command line variant of this flag is
--html
(for thehaddock
command).
-
haddock-html-location
:
templated path¶ Specify a template for the location of HTML documentation for prerequisite packages. The substitutions are applied to the template to obtain a location for each package, which will be used by hyperlinks in the generated documentation. For example, the following command generates links pointing at [Hackage] pages:
html-location: 'http://hackage.haskell.org/packages/archive/$pkg/latest/doc/html'
Here the argument is quoted to prevent substitution by the shell. If this option is omitted, the location for each package is obtained using the package tool (e.g.
ghc-pkg
).The command line variant of this flag is
--html-location
(for thehaddock
subcommand).
-
haddock-executables
:
boolean¶ Default value: False Run haddock on all executable programs.
The command line variant of this flag is
--executables
(for thehaddock
subcommand).
-
haddock-tests
:
boolean¶ Default value: False Run haddock on all test suites.
The command line variant of this flag is
--tests
(for thehaddock
subcommand).
-
haddock-benchmarks
:
boolean¶ Default value: False Run haddock on all benchmarks.
The command line variant of this flag is
--benchmarks
(for thehaddock
subcommand).
-
haddock-all
:
boolean¶ Default value: False Run haddock on all components.
The command line variant of this flag is
--all
(for thehaddock
subcommand).
-
haddock-internal
:
boolean¶ Default value: False Build haddock documentation which includes unexposed modules and symbols.
The command line variant of this flag is
--internal
(for thehaddock
subcommand).
-
haddock-css
:
path¶ The CSS file that should be used to style the generated documentation (overriding haddock’s default.)
The command line variant of this flag is
--css
(for thehaddock
subcommand).
-
haddock-hyperlink-source
:
boolean¶ Default value: False Generated hyperlinked source code using HsColour, and have Haddock documentation link to it.
The command line variant of this flag is
--hyperlink-source
(for thehaddock
subcommand).
-
haddock-hscolour-css
:
path¶ The CSS file that should be used to style the generated hyperlinked source code (from HsColour).
The command line variant of this flag is
--hscolour-css
(for thehaddock
subcommand).
-
haddock-contents-location
:
URL¶ A baked-in URL to be used as the location for the contents page.
The command line variant of this flag is
--contents-location
(for thehaddock
subcommand).
-
haddock-keep-temp-files
:
boolean¶ Keep temporary files.
The command line variant of this flag is
--keep-temp-files
(for thehaddock
subcommand).
5.5.5. Advanced global configuration options¶
-
http-transport
:
curl, wget, powershell, or plain-http¶ -
--http-transport
=transport
¶ Default value: curl
Set a transport to be used when making http(s) requests.
The command line variant of this field is
--http-transport=curl
.
-
ignore-expiry
:
boolean¶ -
--ignore-expiry
Default value: False If
True
, we will ignore expiry dates on metadata from Hackage.In general, you should not set this to
True
as it will leave you vulnerable to stale cache attacks. However, it may be temporarily useful if the main Hackage server is down, and we need to rely on mirrors which have not been updated for longer than the expiry period on the timestamp.The command line variant of this field is
--ignore-expiry
.
-
remote-repo-cache
:
directory¶ -
--remote-repo-cache
=DIR
¶ Default value: ~/.cabal/packages
[STRIKEOUT:The location where packages downloaded from remote repositories will be cached.] Not implemented yet.
The command line variant of this flag is
--remote-repo-cache=DIR
.
-
logs-dir
:
directory¶ -
--logs-dir
=DIR
¶ Default value: ~/.cabal/logs
[STRIKEOUT:The location where build logs for packages are stored.] Not implemented yet.
The command line variant of this flag is
--logs-dir=DIR
.
-
build-summary
:
template filepath¶ -
--build-summary
=TEMPLATE
¶ Default value: ~/.cabal/logs/build.log
[STRIKEOUT:The file to save build summaries. Valid variables which can be used in the path are
$pkgid
,$compiler
,$os
and$arch
.] Not implemented yet.The command line variant of this flag is
--build-summary=TEMPLATE
.
-
local-repo
:
directory¶ -
--local-repo
=DIR
¶ Deprecated: [STRIKEOUT:The location of a local repository.] Deprecated. See “Legacy repositories.”
The command line variant of this flag is
--local-repo=DIR
.
-
world-file
:
path¶ -
--world-file
=FILE
¶ Deprecated: [STRIKEOUT:The location of the world file.] Deprecated.
The command line variant of this flag is
--world-file=FILE
.
Undocumented fields: root-cmd
, symlink-bindir
, build-log
,
remote-build-reporting
, report-planned-failure
, one-shot
,
offline
.
5.5.5.1. Advanced solver options¶
Most users generally won’t need these.
-
solver
:
modular¶ -
--solver
=modular
¶ This field is reserved to allow the specification of alternative dependency solvers. At the moment, the only accepted option is
modular
.The command line variant of this field is
--solver=modular
.
-
max-backjumps
:
nat¶ -
--max-backjumps
=N
¶ Default value: 2000 Maximum number of backjumps (backtracking multiple steps) allowed while solving. Set -1 to allow unlimited backtracking, and 0 to disable backtracking completely.
The command line variant of this field is
--max-backjumps=2000
.
-
reorder-goals
:
boolean¶ -
--reorder-goals
-
--no-reorder-goals
Default value: False When enabled, the solver will reorder goals according to certain heuristics. Slows things down on average, but may make backtracking faster for some packages. It’s unlikely to help for small projects, but for big install plans it may help you find a plan when otherwise this is not possible. See #1780 for more commentary.
The command line variant of this field is
--(no-)reorder-goals
.
-
count-conflicts
:
boolean¶ -
--count-conflicts
-
--no-count-conflicts
Default value: True Try to speed up solving by preferring goals that are involved in a lot of conflicts.
The command line variant of this field is
--(no-)count-conflicts
.
-
strong-flags
:
boolean¶ -
--strong-flags
-
--no-strong-flags
Default value: False Do not defer flag choices. (TODO: Better documentation.)
The command line variant of this field is
--(no-)strong-flags
.
-
allow-boot-library-installs
:
boolean¶ -
--allow-boot-library-installs
-
--no-allow-boot-library-installs
Default value: False By default, the dependency solver doesn’t allow
base
,ghc-prim
,integer-simple
,integer-gmp
, andtemplate-haskell
to be installed or upgraded. This flag removes the restriction.The command line variant of this field is
--(no-)allow-boot-library-installs
.
-
cabal-lib-version
:
version¶ -
--cabal-lib-version
=version
¶ This field selects the version of the Cabal library which should be used to build packages. This option is intended primarily for internal development use (e.g., forcing a package to build with a newer version of Cabal, to test a new version of Cabal.) (TODO: Specify its semantics more clearly.)
The command line variant of this field is
--cabal-lib-version=1.24.0.1
.