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envirius

envirius — universal virtual environments manager.

Table of Contents

Idea

Usually this kind of tools narrowly specialized for a particular programming language. For example:

But there are many cases when in the same environment you must have more than one programming language. For example, to create an environment with python2.6 and node.js 0.10.24. This idea underlies envirius.

Support for new programming languages are implemented as plug-ins (see below).

Features

  • clean design
  • easy extensible
  • test coverage

Installation

At first:

$ git clone https://github.com/ekalinin/envirius.git
$ cd envirius
$ make install

Then youd need to add into your .bashrc the following:

[ -f "$HOME/.envirius/nv" ] && . ~/.envirius/nv

Uninstallation

Just do the following:

$ cd envirius
$ make uninstall

Cache and previously created environments will not be deleted.

Available plugins

You can create environments for the following programming languages:

New languages can be added as plugins (see below).

Usage

Check available plugins

➥ nv ls-plugins
elixir
elixir-prebuilt
erlang
go-prebuilt
haskell
haskell-prebuilt
julia
node
node-prebuilt
python
rust
rust-prebuilt
scala

Here you can see two types of plugins:

  • which downloads & builds from source (elixir, erlang, …)
  • which just downloads prebuilt packages (elixir-prebuilt, node-prebuilt, …)

It's obviously that work with the second option will be much faster because compiling may takes huge amount of time.

Unfortunately, not all languages is available in prebuilt binaries.

Check available versions for each plugin

➥ nv ls-versions --rust --erlang
* rust:
0.1         0.2         0.3         0.4         0.5
0.6         0.7         0.8         0.9
* erlang:
R10B-0    R10B-10   R10B-1a   R10B-2    R10B-3    R10B-4
R10B-5    R10B-6    R10B-7    R10B-8    R10B-9    R11B-0
R11B-1    R11B-2    R11B-3    R11B-4    R11B-5    R12B-0
R12B-1    R12B-2    R12B-3    R12B-4    R12B-5    R13A
R13B      R13B01    R13B02-1  R13B02    R13B03    R13B04
R14A      R14B      R14B01    R14B02    R14B03    R14B04
R15B      R15B01    R15B02    R15B02    R15B03-1  R15B03
R16A      R16B      R16B01    R16B02    R16B03-1  R16B03
17.0-rc1

Create an environment

➥ nv mk mixed-rust-erlang --rust=0.9 --erlang=17.0-rc1
Creating environment: mixed-rust-erlang ...
 * installing rust==0.9 ...
 * done (in 5 secs.)
 * installing erlang==17.0-rc1 ...
 * done (in 11 secs.)

If you want to activate new environment just right after it creation, then do the following:

➥ nv mk mixed-rust-erlang --rust=0.9 --erlang=17.0-rc1 --on
Creating environment: mixed-rust-erlang ...
....
Environment mixed-rust-erlang activated.
(mixed-rust-erlang) ➥

Activate/deactivate environment

Activating in a new shell

By default activating environment executes in a new shell:

echo $$
112
➥ nv on mixed-rust-erlang
Environment mixed-rust-erlang activated.
(mixed-rust-erlang) ➥  echo $$
3437

So for exit just do exit:

(mixed-rust-erlang) ➥  echo $$
3437
(mixed-rust-erlang) ➥  exitecho $$
112

Since version 0.7.2 you can use nv off in all cases to exit from environment.

Activating in the same shell

If you want to activate environment in the same shell do the following:

echo $$
5099
➥ nv on --same-shell mixed-rust-erlang
Environment mixed-rust-erlang activated.
(mixed-rust-erlang) ➥  echo $$
5099

To deactivate this shell don't use exit, use nv off:

(mixed-rust-erlang) ➥  echo $$
5099
(mixed-rust-erlang) ➥ nv off
Environment mixed-rust-erlang was deactivated.
➥  echo $$
5099

Get list of environments

➥ nv ls
Available environment(s):
mixed-rust-erlang
rust-0.9
erl-17-rc1

Get current activated environment

(mixed-rust-erlang) ➥ nv current
mixed-rust-erlang

It will return empty, if environment is not activated:

➥ nv current
➥

Do something in environment without enabling it

➥ nv do node-0.10.26 'npm -g ls'

Get help

➥ nv --help

Get help for a command

For example, for do command:

➥ nv do --help

How to add a plugin?

All plugins are in the directory nv-plugins. If you need to add support for a new language you should add it as plugin inside this directory.

Mandatory elements

If you create a plugin which builds all stuff from source then In a simplest case you need to implement 2 functions in the plugin's body:

plug_list_versions

This function should return list of available versions of the plugin. For example:

plug_list_versions() {
    local versions=$(curl -s "http://nodejs.org/dist" | \
                grep -v "node-" | \
                egrep -o '[0-9]+\.[0-9]+\.[0-9]+' | \
                sort -u -k 1,1n -k 2,2n -k 3,3n -t .)
    echo $versions
}

plug_url_for_download

This function should return full url for downloading tarball. For example:

plug_url_for_download() {
    local version=$1
    echo "http://nodejs.org/dist/v${version}/node-v${version}.tar.gz"
}

plug_build

This function is only need for *-prebuilt-like plugins. It overrides default building proccess. All we need in case of *-prebuilt-like plugin is only copy binaries. For example:

plug_build() {
    local src_path=$1
    local build_path=$2
    cp -r "$src_path"/*/* "$build_path"
}

Typical language installation listed in plug_install_default function in mk command.

If installation is not typical then you should implement plug_install function with yourself. For example: julia.

Optional elements

Variables

  • plug_list_versions_columns_count — number of the columns in the output of the nv ls-version for each plugin
  • plug_list_versions_columns_size — each column width in chars in the output of the nv ls-version for each plugin
  • plug_state — if == disabled then plugin is not active and will not be account in the commands:
    • mk
    • ls-versions
    • ls-plugins

Functions

In execute order:

  • plug_check_deps — check dependencies before plugin building. If it returns not empty string then environment creation stops. Example is in haskell plugin
  • plug_install — overrides the whole installation process
  • plug_download — overrides default downloading sources (archive)
  • plug_unpack — overrides default tar xzf <archive-with-source>
  • plug_configure — overrides default configure --prefix=<path-to-env>
  • plug_build — overrides default make && make install
  • plug_build_env — overrides copying binaries into new environment
  • plug_post_install_actions — executes after installation. For example pip installation in the python plugin

Examples

Example of the usage

Here is an example of building hugo static site generator under envirius with go plugin:

$ whereis go
go:
$ nv mk go-hugo-test --go=1.2.1
Creating environment: go-hugo-test ...
 * installing go==1.2.1 ...
 * done (in 8 secs.)
$ nv ls 
Available environment(s):
go-hugo-test (go==1.2.1)
$ nv on go-hugo-test
(go-hugo-test) $ go get github.com/spf13/hugo
(go-hugo-test) $ cd $GOPATH/src/github.com/spf13/hugo
(go-hugo-test) $ go build -o hugo main.go
(go-hugo-test) $ hugo version
Hugo Static Site Generator v0.11-dev

Dependencies

  • bash / zsh (very basic support)
  • curl / wget
  • tar
  • git
  • gcc
  • bats

Supported OS

  • ubuntu

Tests

Most of the code is covered by tests. For testing bats was used. To run tests:

➥ make tests

With hot cache on Intel(R) Core(TM) i7-3517U CPU @ 1.90GHz with 4 GB of RAM on Ubuntu 13.10 (32-bits) tests takes:

time make tests
...

100 tests, 0 failure

real    8m26.572s
user    1m17.428s
sys     2m25.352s

Version History

See CHANGELOG.md.

License

See LICENSE.

README in another language

RU