# Noe - A simple and extensible project generator Noe is a tool that generates projects from predefined skeletons (aka project/application templates). Skeletons are designed for building specific products (a ruby library, a static or dynamic web site, ...). Noe instantiates them and helps you maintaining your product via meta-information provided by a .noespec yaml file. Noe comes bundled with a skeleton for creating and maintaining a ruby gem. This skeleton is written and maintained to follow ruby best practices and may also be tuned for your own needs. Read more about it and related projects as well as the underlying philosophy in the sections below. ## Getting started [sudo] gem install noe [noe --help] [noe help install] noe install Have a loot at ~/.noerc and ~/.noe for configuration and a default ruby template. To instantiate a ruby project simply execute the following commands in turn: # Given a template ruby under ~/.noe/ruby, install by default noe prepare --template=ruby foo cd foo # Edit the template configuration foo/foo.noespec edit foo/foo.noespec # Launch template instantiation noe go That's it! But also have a look at 'noe help prepare' and 'not help go' for additional options. ## Philosophy Noe is designed to follow a certain number of good principles and helps you following them as well. ### Separation of concerns Noe maintains a strong separation of concerns. In particular one has to make the distinction between a) Noe itself, b) a skeleton and c) an instantiated product. This fact has two main consequences: * Noe itself **is not dedicated to specific products** (like a ruby library). Even if Noe comes bundled with a default skeleton for ruby projects, writing skeletons for something else should not be a problem. In other words, Noe itself is agnostic: the semantics of generated products is the secret of the skeleton, under the responsibility of it's maintainer. * Noe **should not be a runtime dependency** of the product. Good skeletons maintain this separation. As an example the default ruby skeleton is strictly independent of Noe itself. Principles discussed below explain why this is important. ### Master the tools YOU use The separation of concerns described previously also drives what you have to learn and what tools you have to master: * As an ordinary Noe user (vs. skeleton maintainer) and because Noe itself (unlike skeletons is project agnostic, you only have to know **basic Noe commands** (see 'noe --help') and should never have to study Noe's API and internals. In contrast, you have to **master the tools and best practices of your product's ecosystem**. A good skeleton should help you along this task. As an example, the default ruby skeleton is fully documented to help you gaining understanding of ***rake*, *spec*, *yard*, *bundler*** and so on but **not noe itself**. * This explains why Noe itself is not a runtime dependency. Using a particular skeleton already means learning a lot, at least in the long run (see the section about Magic below). Noe avoids interfering with generated products to avoid making the learning curve even worse. * Being a skeleton creator/maintainer is another story of course. To write a skeleton you'll also have to learn **Noe's API and internals**. To write a good/reusable one, you'll certainly have to **master the full ecosystem and best practices of the targetted product**, which is a good opportunity for learning and sharing it! ### Magic Only If Flexible "Don't Repeat Yourself" and "Convention over Configuration" are certainly good principles. However tuning, configuration and options exist, are useful and should certainly not be hidden to the user. Instead configuration and options should come with default values, and should be fully documented. Providing magic is great if there is a user-centric way (in contrast to a developer one) of understanding and controlling the magic and underlying assumptions. As an example, the default ruby template comes with some magic: you can create a project and immediately invoke 'rake test', 'rake yard', ... and not investigating further. You can also have a look at the _tasks_ folder to understand and control the rake tasks that your project will use... In fact, you **must** investigate: the generated product is yours, not mine and YOU have to master your build chain! ## Ruby skeleton and Related projects Noe is inspired by existing projects, mostly from the ruby community. In particular, the default ruby template has been heavily influenced by the projects below as well as feedback of their authors: * [hoe](http://seattlerb.rubyforge.org/hoe/), Ryan Davis and Eric Hodel * [echoe](https://github.com/fauna/echoe), Evan Weaver * [bones](https://github.com/TwP/bones), Tim Pease These projects help you generating and maintaining ruby projects (generally gem libraries, in fact). All provide powerful tools that supports you along the different steps of your ruby software lifecycle (creating, testing, releasing, announcing, and so on.). They mostly differ in the way you can tune/configure the generated project for specific needs. These projects differ from the Ruby skeleton proposed by Noe in that they use a control approach (rake tasks installed in your project via a development/runtime dependency) while Noe uses a generative approach (the generated ruby project and rake tasks do not depend on Noe at all). You'll find more information about the Noe's ruby skeleton in it's own [README](https://github.com/blambeau/noe/blob/master/templates/ruby/README.md). ## Short guide for template maintainers Under ~/.noe, a valid template folder (say xxx) has the following structure xxx # Template name README(.md|.txt|...) # Information about the template and it's usage CHANGELOG(.md|.txt|...) # Change information noespec.yaml # Template specification src # Source folder, contains files to be instantiated ... # [everything that will be instantiated] ### noespec.yaml The noespec.yaml file of a template is used to formally describe the template. When a project (say foo) is created (see 'noe prepare') using a template (say ruby) the file ~/.noe/ruby/noespec.yaml is used to generate foo/foo.noespec. The later is then used by 'noe go' to instantiate the project. The noespec.yaml file should ressemble something like this: # DO NOT TOUCH 'name' entry and specify the other template-info: name: !{template_name} summary: ... description: ... version: ... author: ... # # The following is a hash of template-related variables. They are # used to provide dynamic file names and instantiate file contents. # # Current version of Noe only supports variable names matching /[a-z]+/ # variables: ... Have a look at ~/.noe/ruby/noespec.yaml and ~/.noe/ruby/src for an example. ### Instantiation process The instantiation process is really simple. Given the variables described in the noespec.yaml file (for which values are specified in your .noespec file) templates can use the following meta-constructions: * Template files and directories containing `__variable__` in their name are automatically renamed (`__variable__` is replaced by the corresponding value). * All template files are instantiated by [wlang](https://github.com/blambeau/wlang). You don't have to know wlang in depth. You simply have to know that `!{ruby_expression}` in a file is replaced by the expression evaluation. Variables are automatically in scope of such expressions, so that `!{variable}` is replaced by its value. ## Contributing Fork Noe on github! I'm particularly interested in the following enhancements: * Extend test coverage, which is ugly so far. * Enhance the default ruby template, but remember "documentation matters, not magic!" * Add support for other generators than _wlang_ * Add support for multi-generated files from arrays in .noespec files * ... If you think that your template is worth considering for (ruby, rails, js, latex, or anything else) please let me known and I'll add it to the list below. * ...