================================
NimScript
================================
.. default-role:: code .. include:: rstcommon.rst
Strictly speaking, NimScript
is the subset of Nim that can be evaluated
by Nim's builtin virtual machine (VM). This VM is used for Nim's compiletime
function evaluation features.
The nim
:cmd: executable processes the .nims
configuration files in
the following directories (in this order; later files overwrite
previous settings):
1) If environment variable XDG_CONFIG_HOME
is defined,
$XDG_CONFIG_HOME/nim/config.nims
or
~/.config/nim/config.nims
(POSIX) or
%APPDATA%/nim/config.nims
(Windows). This file can be skipped
with the --skipUserCfg
:option: command line option.
2) $parentDir/config.nims
where $parentDir
stands for any
parent directory of the project file's path. These files can be
skipped with the --skipParentCfg
:option: command line option.
3) $projectDir/config.nims
where $projectDir
stands for the
project's path. This file can be skipped with the --skipProjCfg
:option:
command line option.
4) A project can also have a project specific configuration file named
$project.nims
that resides in the same directory as
$project.nim
. This file can be skipped with the same
--skipProjCfg
:option: command line option.
For available procs and implementation details see nimscript.
NimScript is subject to some limitations caused by the implementation of the VM (virtual machine):
Nim's FFI (foreign function interface) is not available in NimScript. This
means that any stdlib module which relies on importc
can not be used in
the VM.
ptr
operations are are hard to emulate with the symbolic representation
the VM uses. They are available and tested extensively but there are bugs left.
var T
function arguments rely on ptr
operations internally and might
also be problematic in some cases.
More than one level of ref
is generally not supported (for example, the type
ref ref int
).
Multimethods are not available.
random.randomize()
requires an int64
explicitly passed as argument, you must pass a Seed integer.
At least the following standard library modules are available:
In addition to the standard Nim syntax (system module), NimScripts support the procs and templates defined in the nimscript module too.
See also:
A command-line switch --FOO
:option: is written as switch("FOO")
in
NimScript. Similarly, command-line --FOO:VAL
:option: translates to
switch("FOO", "VAL")
.
Here are few examples of using the switch
proc:
# command-line: --opt:size
switch("opt", "size")
# command-line: --define:release or -d:release
switch("define", "release")
# command-line: --forceBuild
switch("forceBuild")
NimScripts also support --
:option: templates for convenience, which look
like command-line switches written as-is in the NimScript file. So the
above example can be rewritten as:
--opt:size
--define:release
--forceBuild
Note: In general, the define switches can also be set in
NimScripts using switch
or --
, as shown in above examples. Few
define
switches such as -d:strip
:option:, -d:lto
:option: and
-d:lto_incremental
:option: cannot be set in NimScripts.
The task
template that the system
module defines allows a NimScript
file to be used as a build tool. The following example defines a
task build
that is an alias for the c
:option: command:
task build, "builds an example":
setCommand "c"
In fact, as a convention the following tasks should be available:
========= ===================================================
Task Description
========= ===================================================
help
List all the available NimScript tasks along with their docstrings.
build
Build the project with the required
backend (`c`:option:, `cpp`:option: or `js`:option:).
tests
Runs the tests belonging to the project.
bench
Runs benchmarks belonging to the project.
========= ===================================================
Look at the module distros for some support of the OS's native package managers.
See the Nimble readme for more information.
NimScript can also be used directly as a portable replacement for Bash and
Batch files. Use nim myscript.nims
:cmd: to run myscript.nims
. For example,
installation of Nimble could be accomplished with this simple script:
mode = ScriptMode.Verbose
var id = 0
while dirExists("nimble" & $id):
inc id
exec "git clone https://github.com/nim-lang/nimble.git nimble" & $id
withDir "nimble" & $id & "/src":
exec "nim c nimble"
mvFile "nimble" & $id & "/src/nimble".toExe, "bin/nimble".toExe
On Unix, you can also use the shebang #!/usr/bin/env nim
, as long as your filename
ends with .nims
:
#!/usr/bin/env nim
mode = ScriptMode.Silent
echo "hello world"
Use #!/usr/bin/env -S nim e --hints:off
to disable hints and relax the file extension constraint.
It is a cross-platform scripting language that can run where Nim can run, e.g. you can not run Batch or PowerShell on Linux or Mac, the Bash for Linux might not run on Mac, there are no unit tests tools for Batch, etc.
NimScript can detect on which platform, operating system, architecture, and even which Linux distribution is running on, allowing the same script to support a lot of systems.
See the following (incomplete) example:
import std/distros
# Architectures.
if defined(amd64):
echo "Architecture is x86 64Bits"
elif defined(i386):
echo "Architecture is x86 32Bits"
elif defined(arm):
echo "Architecture is ARM"
# Operating Systems.
if defined(linux):
echo "Operating System is GNU Linux"
elif defined(windows):
echo "Operating System is Microsoft Windows"
elif defined(macosx):
echo "Operating System is Apple OS X"
# Distros.
if detectOs(Ubuntu):
echo "Distro is Ubuntu"
elif detectOs(ArchLinux):
echo "Distro is ArchLinux"
elif detectOs(Debian):
echo "Distro is Debian"
The syntax, style, and rest of the ecosystem is the same as for compiled Nim, that means there is nothing new to learn, no context switch for developers.
NimScript can use Nim's templates, macros, types, concepts, effect tracking system, and more, you can create modules that work on compiled Nim and also on interpreted NimScript.
func
will still check for side effects, debugEcho
also works as expected,
making it ideal for functional scripting metaprogramming.
This is an example of a third party module that uses macros and templates to translate text strings on unmodified NimScript:
import nimterlingua
nimterlingua("translations.cfg")
echo "cat" # Run with -d:RU becomes "kot", -d:ES becomes "gato", ...
translations.cfg
[cat]
ES = gato
IT = gatto
RU = kot
FR = chat
Some features of compiled Nim may not work on NimScript, but often a graceful and seamless fallback degradation is used.
See the following NimScript:
if likely(true):
discard
elif unlikely(false):
discard
proc foo() {.compiletime.} = echo NimVersion
static:
echo CompileDate
likely()
, unlikely()
, static:
and {.compiletime.}
will produce no code at all when run on NimScript,
but still no error nor warning is produced and the code just works.
NimScript evolves together with Nim, occasionally new features might become available on NimScript, adapted from compiled Nim or added as new features on both.
You can create your own modules to be compatible with NimScript, and check Nimble to search for third party modules that may work on NimScript.
You can use NimScript to deploy to production, run tests, build projects, do benchmarks, generate documentation, and all kinds of DevOps/SysAdmin specific tasks.