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{
    title       : mbld: How To Use It
    description : Care and feeding of bld.proj
}

Mbld: A Simple Build System for Myrddin
---------------------------------------

Mbld is a build system put together to avoid the inadequacies of traditional
`make`, which, although it's great, does not have a way of scanning for
dependencies ahead of time, and would require additional tooling to generate
makefiles.

Mbld knows enough about typical project structures and input files to know
how to build, install, uninstall, clean, and test a project. It is aware of
paths within a project, and while the project looks like it is recursively
structured, it can refer to files in sibling directories painlessly.

The build files are split into two different kinds: Project files, which are
named `bld.proj`, and subfiles, named `bld.sub`, which have identical
contents, but affect the paths referenced in the build files differently.

This will be explained in more depth later.

An Trivial Example
----------

To start off, we will show a trivial example for mbld:

    bin hello-world =
        hello-world.myr
    ;;

This produces a binary target called 'hello-world', using the input file
'hello-world.myr'. You may notice that no libraries are listed. This is
becasue 'mbld' will find installed libraries, and add them to the dependency
list for the binaries. Local libraries will still need to be added manually.

To build, install, and test this binary, the following commands can be run:

    mbld                # builds everything
    mbld gen            # generates 'gen' targets
    mbld install        # installs
    mbld uninstall      # uninstalls
    mbld test           # runs tests
    mbld clean          # removes generated files

A More Complete Example
----------------------

This example covers most of the useful features that are available in a single
directory mbld project:

    # This is a comment
    bin demo =
        main.myr
        demosrc.myr
        lib convenience
    ;;

    # Attributes go in '{' '}'
    lib convenience {noinst} =
        convenience.myr
        asmstuff+x64.s
        portglue+linux-x64.myr
        portglue+plan9.myr
        portglue.myr
    ;;

    test extratests =
        test.myr
    ;;

Starting off at the top, we have the 'demo' program. This program is composed
of two source files: `main.myr` and `demosrc.myr`. It also pulls in the
library `convenience`, or whatever your platform names it. This is
similar to the trivial example above.

Next, there is the definition for the library `convenience`. This is a
library which is not installed, hence the `noinst` attribute. It contains
a Myrddin source file, an assembly file for x86-64, and a bit of portability
glue. This showcases a few interesting features of the build system, which
were inspired a bit by Plan 9 and Go: System tags.  Files twhich have an identical
stem, but end with a "+tag-list" will be filtered by the tags, and the one
most appropriate for the system will be selected.

File Layout
-----------

Mbld files, as mentioned before, come in two flavors: There is `bld.proj`,
which defines a top level project, and `bld.sub`, which defines a subproject.
We will call the most recent directory in the heirarchy containing a
'bld.proj' file the project root.

When `mbld` is run, it will walk up the directory tree to the first `bld.proj`
file that it can find, and treat that as the root of the build. This means
that any references to local libraries listed in the bldfile may not escape
the project, and the absolute paths (ie, those which start with `@/`) are
all relative to the project root.

Mbld will accept projects inside projects, but references to files may not
escape a single project. So, for example:

    bld.proj
    foo/bld.sub
    bar/bld.proj
    bar/baz/bld.sub

The root `bld.proj` may refer to any files in this heirarchy. So, for example,
it could have a target:

    bin b =
        main.myr
        lib @/foo:foo
        lib @/bar:bar
        lib bar/baz:baz
    ;;

Similarly, foo.sub may refer to other libraries:

    bin foo =
        foo.myr
        @/bar:bar
        ../bar/baz:baz
    ;;

However, any attempts to use members of foo/ as part of the build from
within bar/ will raise an error, as you are attempting to reference a
build from outside of the project.

Flags
-----

	-T	list all targets
	-t	build with build tag 't

Commands
--------

mbld supports a number of commands to run builds. The comprehensive list is
below:

====all====

This is the default target, although it can be specified explicitly. It runs
every command needed to generate a compiled build. It will run the gen and
cmd code, but does not run tests or install the code.

====gen====

This will run all 'gen' rules in the entire project. It will not run any other
commands.

====clean====

This will remove all files that were automatically created by mbld in the
build process, including any files generated by 'gen' commands that do not
have the 'durable' attribute. Generated files with the durable attribute
are preserved.

====install====

This copies the files of interest to their final homes. If the installed files
are not yet built, it will run 'mbld all' to compile them. If the DESTDIR
environment is set

====uninstall====

This is the converse of install, removing all installed binaries from their
final homes. It does not currently remove empty directories that were created.

====test====

This command runs unit tests. By default, if the input list
contain a file named `foo.myr`, and there exists a file `test/foo.myr`, then
the latter will be assumed to be a unit test for the former. In addition,
all of the explicit test targets will be run.

====targ/path:target====

This is an explicit build target. It's equivalent to what 'all' does, only
it does it for one specific target. I'm not sure it's useful.

Target Types
------------

mbld supports a small number of top level targets:

====bin====

The `bin` target represents a single binary. By default, on Unix-like systems,
this binary is installed to `$prefix/bin`. For input files, it will accept
Myrddin or assembly sources. The binary name does not include any system
specific prefixes or suffixes. For example, building with a custom runtime:

    bin foo {rt=custom_runtime.o} = input.myr list.s ;;

The bin target can include libraries, including libraries from siblings. It
may not reach outside of the current project, though. In other words, it may
not 

====lib====

The `lib` target is similar to the `bin` target, accepting the exact same
inputs. By default, on Unix-like systems, this library is installed to
`$prefix/lib/myr`. This prefix is chosen both to make listing and removing
Myrddin code easier, and to prevent conflicts with other system libraries.

The library name used does not include the system specific prefixes or
suffixes. For example, to produce `libfoo.a`:

    lib foo = input.myr list.s ;;

====test====

The `test` target is an explicit test. It's equivalent to a `bin` target, only
it is not installed. Instead, it is run from mbld as a unit test. A successful
exit is interpreted as a successful test run. For example:

    test foo = testfoo.myr

====man====

The `man` target is a list of man pages to install. Eventually it should
probably be deprecated, and replaced with a 'doc' target that can handle
generation from a number of sources. It takes a list of manpages, which
are named with the section that they go into. For example:

    man = apiref.3 cmdref.1 ;;

====gen====

The `gen` target generates a file or list of files from a command. It will
run the command every time `gen` is run, or if the output files do not exist.

If there is a `dep` attribute set, it will also rerun the gen command whenever
at least one of outputs is older than any of the inputs. The `dep` attribute
is necessary for this behavior because the `gen` command doesn't know anything
about the structure of the command that it runs.

A notable thing about the command is that it is not run in a shell. This is
done to maximize portability and avoid accidental environmental dependencies.
Commands are instead run using `std.execvp`, and are therefore resolved using
`$PATH`, or `$path` on Plan 9. For example, if you had a configure script
which takes a `--redo` option to rerun while preserving variables, you may run
it like this:

    gen config.myr {durable,dep=configure} = ./configure --redo ;;

The `durable` attribute keeps it around even after a `mbld clean` is run,
and the `dep` attribute reruns the command after the `configure` file changes.

====sub====

The `sub` target includes the subdirectories listed in the file to 

System Tags
-----------

Mbld supports system specific file versions. These are selected via the
tags in the file name: Given a set of files with the same stem, and 0
or more tags, then the file with the best match for the system will be
selected for the build, and all others ignored.

Tags in the file name follow the first '+', and are a '-' separated group
of words, which mbld will match against. So, for example, if I am building
on x86-64 linux, and I have the following set of files listed in my build:

    foo+osx-x64.myr
    foo.myr
    foo+posixy.myr
    foo+linux.myr
    foo+linux-x64.myr

the match will proceed as follows:

- First, `foo+osx-x64.myr` will be rejected. The 'osx' tag does not match
  the current system.

- Second, `foo.myr` will be recorded as having zero matches.

- Third, `foo+posixy.myr` will be recorded as having one match.

- Fourth, `foo+linux.myr` will be recorded as having one match

- Fifth, `foo+linux-x64.myr` will be recorded as having two matches.

Since there is one file with 2 matches, there is a clear winner, and
foo+linux-x64.myr is selected for the build.

If the build did not list foo+linux-x64.myr, then there would be an ambiguity,
and the build would fail, as both foo+posixy.myr and foo+linux.myr have one
match. There is no weighting for tags.

And finally, if there were no matching files -- for example, a linux build
with only foo+osx-x64.myr listed -- then the build would fail due to a lack
of matching inputs.

Attributes
------------

Various targets support different sets of attributes in mbld; This is a list
of all attribtues and which build targets they apply to:

====dep=file====

Explicitly adds a dependency for the target. When the file listed in the
dependency attribute changes, the rule will be rerun. This attribute may be
repeated to list multiple files as dependencies. Valid on gen and cmd targets.

====durable====

Makes the outputs of this rule exempt from cleaning on an 'mbld clean'.  This
is useful for outputs that are expensive to generate, or created on the output
of user commands, such as 'configure' scripts. Valid on gen and cmd targets.

====inc=path====

Adds an entry to the include path when running 6m. This can be useful for
nonstandard include, although a `lib` directive should already include the use
path for the library. This should only be rarely needed. Valid on bin, test,
and lib targets.

====ldscript=script====

Uses a linker script when linking binaries, instead of going for the default
linker behavior. This is useful when linking binaries with strange linker
requirements -- for example, when linking a kernel. Valid on bin and test
targets.

====noinst====

Tells mbld that a file should not be installed. Valid on bin, test, and lib
targets.

====runtime=rtpath====

Tells mbld to link with a custom runtime; This is the code that handles the
startup of the binary, various low level abortions, and emulation of certain
unsupported operations. If you need to build a kernel, you will probably want
to write your own custom runtime. Valid on bin and test targets.

====sys====

(UNIMPLEMENTED): This adds system tagging to targets, allowing them to be
built or not on various platforms. Allowed on gen, cmd, bin, lib and test
targets.

Semiformal Syntax
-----------------

The full syntax is below, in pseudo-yacc:

A bldfile is a list of targets:

    bldfile: target 
           | bldfile target

A target is a target type, followed by the target information.

    target: "bin" myrtarget
          | "lib" myrtarget
          | "test" myrtarget
          | "gen" cmdtarget
          | "cmd" cmdtarget
          | "man" anontarget
          | "sub" anontarget

The target information generally either takes the form `name {attrs} = inputs
;;` or ` = inputs ;;`. Command targets take a list of output files.

    myrtarget: name attrs "=" inputlist ";;"
    cmdtarget: wordlist attrs "=" cmd ";;"
    subtarget: attrs "=" wordlist ";;"
    inputlist: input
             | inputlist input

The inputs are generally a list of names. Myrddin targets can also include
dependency tags, in the form of `lib libraryname`.

    input: name
         | "lib" name
    namelist: name
         | namelist name

Rules also accept a set of attributes, in the form of a brace-enclosed list
of key-value pairs, for example, "{noinst,inc=local-path}"

    kvplist: name
           | name "=" val
    attrs : "{" kvplist "}"

All names are fairly liberal in what they accept. Any alphanumeric character
and a large amount of punctuation is acceptable. A quoted string is also a
word, in case the usual word characters are too restrictive.

    name: wordchar*
        | "(\"|[^"])*"
    wordchar: any unicode alphanumeric character
            | "." |"_" |"$" |"-" | "/" | "@" | "!" 
            | "~" | "+" |"%" |"&" |"(" | ")" | "["
            | "]" | ":"

Options
-------

To see the most current list of options for mbld, run it with the '-h' option.
For the sake of completeness, here's a dump of the options that are accepted.

	-?	print this help message
	-h	print this help message
	-t	list all available targets
	-S	generate assembly when building
	-d	dump debugging information for mbld
	-I inc	add 'inc' to your include path
	-R root	install into 'root'
	-b bin	compile binary named 'bin' from inputs
	-l lib	compile lib named 'lib' from inputs
	-r rt	link against runtime 'rt' instead of default
	-C mc	compile with 'mc' instead of the default compiler
	-M mu	merge uses with 'mu' instead of the default muse