jw-pkg/README.md

# JW-Build

## Features

The JW-Build package is basically a bunch of scripts and GNU makefile snippets
for organizing software builds and releases.

You can install it to its standard location `/opt/jw-build`, or put it anywhere
you want in your file system, typically next to your own projects in the same
directory. To organize their respective builds, you can then include JW-Build's
makefile snippets from your own projects' makefiles, like so:

```gmake
include $(JWBDIR)/make/cpp.mk
```

where `JWBDIR` needs to point to JW-Build's installation directory. In this
example, the snippet `cpp.mk` would by default take all C++ files it finds in
the directory where its included, compile them and and add them to a shared
package library. `js.mk` would by default minify all JavaSript it finds,
`java.mk` jar up .java files into classes and jar-files, and so on. JW-Build
also handles installation and packaging of all of these files, to customizable
locations with standardish defaults.

JW-Build is small. It's small enough to be self-documenting. Well, okay,
somewhat self-documenting. You have to know GNU Makefile syntax to understand
what it does, and dig into its code, ideally with a working example. You can
install it with your distribution's package manager, or you can keep it within
your code versioning system, alongside your own code. It's also designed to be
the lightest possible touch on any given source code package, in terms of code
you need to add to a package you want to build with it, and also in terms of
needed prerequisite software packages. This way, it's easily introduced - and
it's also easy to get rid of, should you choose to do so at some point in time.
You will then have all your settings like file system path definitions and
compiler flags in well-defined places already.

JW-Build runs a recursive make, so, with a few exceptions such as submodules,
you will need a makefile in every directory with source code. Most, if not all
of these makefiles can be three-liners. This buys you convenience, minimal,
clean, humanly digestable code, and a structured way to customize builds
involving multiple packages - as centrally or as locally as you want. You can
override any of JW-Build's default variables - for many packages, for an entire
package, or for any subdirectory of a given package, at your option. You can
write your own snippets and reuse them in multiple places. You can keep
overrides in your versioning system or add them to `local.mk`-files as needed,
which only your machine knows about. Or you can use environment variables, of
course. JW-Build avoids makefile code generation as seen with CMake or GNU
Autotools. This keeps the code small and readable for easy debugging. Okay, for
relatively easy debugging. To achieve this, JW-Build has to detect a couple of
things in every directory it enters, but it uses various caching mechanisms to
keep builds still reasonably fast.

JW-Build has makefile snippets for building libraries and executables, snippets
that output code compiled from C/C++, Python, Java, JavaScript and LaTeX, and
it's easily extendible to support any given programming language or task. It's
in use at janware for managing sub-builds of Maven, Ant, CMake and others, and
for packaging the results. It provides targets to flash binaries onto MCUs,
produce Debian, RPM and IPK packages, install them locally or remotely, or feed
them into a DevOps pipeline, taking note of released versions within GIT, SVN
or CVS. It detects if a package needs to be re-released because its source code
changed. Or because a package it depends on has changed incompatibly. JW-Build
has built-in support for collaboration over well-defined sets of remote Git
repositories. It supports a simple configuration file per package for
specifying package metadata, e.g. its dependencies, license, description, pre-
and postinstall scriptlets, and so on. It has a SAT-solver built in, for
building multiple packages in the right order, including packages that are not
organized with JW-Build, based on that metadata. With the same metadata, it can
also automatically generate BitBake recipes and run Yocto-builds incorporating
your software. It generates runtime, development and source code package
variants. It supports cross compilation with MinGW and the GNU toolchain. It's
tested on Debian, Ubuntu, OpenSUSE, Fedora / CentOS / RHEL, and many Unices.

JW-Build is designed to be friendly to both developers and integrators.
Developers can cd into any given directory, edit the source code, run `make`,
and expect the resulting binaries to work and be immediately testable, for a
workflow that lets you focus on coding in your target language. For integrators
on the other hand, a hotfix on a server or an embedded host can be as simple as

```
TARGET_HOST=myserver.acme.com make pkg-remote-install
```

And of course, it can build, package and release itself. Without being
installed, which is a Good Thing (TM).

## Usage

See https://janware.com/wiki/pub/sw/build/ for documentation on how to get
and use JW-Build within the janware build tree.

If you want to use it standalone, OTOH, do the following to get a minimal
working example:

First, add a `make` subdirectory to the toplevel directory of your package,
containing two files:

1. `proj.mk`, containing a definition of `JWBDIR`, pointing to the JW-Build
  installation directory, e.g. like so:

   ```gmake
   JWBDIR ?= $(firstword $(wildcard $(addsuffix /jw-build,$(TOPDIR)/.. /opt)))
   ```

   `TOPDIR` points to, you guessed it, the toplevel directory of your package.
   You will have defined it yourself, see the next point. Note that all
   directory paths can be relative, which is nice if you want to organize
   multiple packages in a fixed tree layout.

2. `project.conf`, containing

   ```
   [description]
   A frobnicator library
   ```

Then, add files named `Makefile` to the directories of your project,
containing, e.g., in a C++ directory:

```gmake
TOPDIR = ../..

include $(TOPDIR)/make/proj.mk
include $(JWBDIR)/make/cpp.mk
```

Done. Well, in principle. Other notable snippets are `topdir.mk` for the
toplevel directory, `dirs.mk` for other directories with subdirectories,
`lib.mk` for `$(TOPDIR)/lib`, `include.mk` for `$(TOPDIR)/include`, and
`make.mk` for `$(TOPDIR)/make`. You should add them in the same manner. Once
you add those makefiles, running `make` will do - something. Try and see what
happens. Every snippet supports at least the targets `all`, `install`, `clean`
and `distclean`. `make echo-makefiles` shows you all included snippets,
`make cat-makefiles` concatenates them. Hitting TAB should show you all targets
supported in a particular directory. Good luck!

[logo]: https://janware.com/janware/images/logo-janware/logo-janware-200.png