1 subdirmk - assistance for non-recursive use of make
2 ===================================================
7 Peter Miller's 1997 essay _Recursive Make Considered Harmful_
8 persuasively argues that it is better to arrange to have a single
9 make invocation with the project's complete dependency tree, rather
10 than the currently conventional `$(MAKE) -C subdirectory' approach.
12 However, actually writing a project's build system in a non-recursive
13 style is not very ergonomic. The main difficulties are:
14 - constantly having to write out long file and directory names
15 - the lack of a per-directory make variable namespace means
16 long make variables (or namespace clashes)
17 - it is difficult to arrange that one can cd to a subdirectory
18 and say `make all' and have something reasonable happen
19 (to wit, build an appropriate subset)
21 `subdirmk' is an attempt to solve these problems (and it also slightly
22 alleviates some of the boilerplate needed to support out-of-tree
23 builds well, and helps a bit with metaprogramming and rule writing).
28 The developer is expected to write a makefile fragment, in each
29 relevant subdirectory, called `Dir.sd.mk'.
31 These fragments may contain ordinary make language. Unqualified
32 filenames are relative to the build toplevel, and all commands all run
35 However, the sigil & is treated specially. By and large, it refers to
36 `the build directory corresponding to this .sd.mk file', etc.
37 There are a variety of convenient constructions.
39 The result is that to a large extent, the Dir.sd.mk has an easy way
40 to namespace its "local" make variables, and an easy way to refer to
41 its "local" filenames (and filenames in general).
43 The Dir.sd.mk's are filtered, fed through autoconf in the usual way
44 (for @..@-substitutions) and included by one autogenerated toplevel
47 So all of the input is combined and passed to one make invocation.
48 (A corollary is that there is no enforcement of the namespacing:
49 discipline is required to prefix relevant variable names with &, etc.)
51 Each subdirectory is also provided with an autogenerated `Makefile'
52 which exists purely to capture ordinary make invocations and arrange
53 for something suitable to happen.
55 Where there are dependencies between subdirectories, each Dir.sd.mk
56 can simply refer to files in other subdirectories directly.
58 Invocation, "recursive" per-directory targets
59 ---------------------------------------------
61 Arrangements are made so that when you run `make foo' in a
62 subdirectory, it is like running the whole toplevel makefile, from the
63 toplevel, as `make subdir/foo'. If `subdir/foo' is a file that might
64 be built, that builds it.
66 But `foo' can also be a conventional target like `all'.
68 Each subdirectory has its own `all' target. For example a
69 subdirectory `src' has a target `src/all'. The rules for these are
70 automatically generated from the settings of the per-directory
71 &TARGETS variables. &TARGETS is magic in this way. (In
72 src/Dir.sd.mk, &TARGETS of course refers to a make variable called
75 The `all' target in a parent directory is taken to imply the `all'
76 targets in all of its subdirectories, recursively. And in the
77 autogenerated stub Makefiles, `all' is the default target. So if you
78 just type `make' in the toplevel, you are asking for `&all'
79 (<subdir>/all) for every directory in the project.
81 In a parallel build, the rules for all these various subdirectory
82 targets may be in run in parallel: there is only one `make' invocation
83 at a time. There is no sequencing between subdirectories, only been
84 individual targets (as specified according to their dependencies).
86 You can define other per-directory recursive targets too: set the
87 variable &TARGETS_zonk, or whatever (being sure to write &TARGETS_zonk
88 at the start of a line). This will create a src/zonk target (for
89 appropriate value of src/). Unlike `all', these other targets only
90 exist in areas of the project where at least something mentions them.
91 So for example, if &TARGETS_zonk is set in src but not lib, `make
92 zonk' in lib will fail. If you want to make a target exist
93 everywhere, += it with nothing in Prefix.sd.mk or Suffix.sd.mk (see
96 Prefix.sd.mk, Suffix.sd.mk, Final.sd.mk, inclusion
97 --------------------------------------------------
99 The files Prefix.sd.mk and Suffix.sd.mk in the toplevel of the source
100 are automatically processed before and after each individual
101 directory's Dir.sd.mk, and the &-substituted contents therefore
102 appear once for each subdirectory.
104 This lets you do per-directory boilerplate. Some useful boilerplate
105 is already provided in subdirmk, for you to reference like this:
106 &:include subdirmk/cdeps.sd.mk
107 &:include subdirmk/clean.sd.mk
108 For example you could put that in Suffix.sd.mk.
110 The top-level Dir.sd.mk is the first makefile included after the
111 autogenerated `main.mk' which merely has some basic settings and
112 includes. So if you want to get in early and set global variables,
113 put them near the top of Dir.sd.mk.
115 The file Final.sd.mk in the toplevel directory is processed and
116 included after all the other files.
118 subdirmk's filter script itself sets (only) these variables:
123 You are likely to want to define $(PWD), and shorter names for
124 top_srdir and abs_top_srcdir (we suggest $(src) and $(abs_src)).
129 If want to set global variables, such as CC, that should only be done
130 once. You can put them in your top-level Dir.sd.mk, or a separate
131 file you `include' and declare using SUBDIRMK_MAKEFILES.
133 If you need different settings of variables like CC for different
134 subdirectories, you should probably do that with target-specific
135 variable settings. See the info node `(make) Target-specific'.
137 Directory templates `.sd.mk' vs plain autoconf templates `.mk.in'
138 --------------------------------------------------------------------
140 There are two kinds of template files.
142 Filename .sd.mk .mk.in
144 Processed by &-substitution, autoconf only
147 Instantiated Usu. once per subdir Once only
149 Need to be mentioned No, but Dir.sd.mk All not in subdirmk/
150 in configure.ac? via SUBDIRMK_SUBDIRS via SUBDIRMK_MAKEFILES
152 How to include `&:include foo.sd.mk' `include foo.mk'
153 in all relevant .sd.mk in only one
154 (but not needed for Dir.sd.mk
155 Prefix, Suffix, Final)
157 If you `include subdirmk/regen.mk', dependency management and
158 automatic regeneration for all of this template substitution, and for
159 config.status etc. is done for you.
164 In general & expands to the subdirectory name when used for a
165 filename, and to the subdirectory name with / replaced with _ for
166 variable names. (If your variables start with capital letters and
167 your filenames with lowercase. Otherwise, use &/ or &_.)
169 Note that & is processed *even in makefile comments*. The substitutor
170 does not understand make syntax, or shell syntax, at all. However,
171 the substitution rules are chosen to work well with constructs which
172 are common in makefiles.
174 In the notation below, we suppose that the substitution is being in
175 done in a subdirectory sub/dir of the source tree. In the RH column
176 we describe the expansion at the top level, which is often a special
177 case (in general in variable names we call that TOP rather than the
180 &CAPS => sub_dir_CAPS or TOP_CAPS
181 &lc => sub/dir/lc or lc
182 Here CAPS is any ASCII letter A-Z and lc is a-z.
183 The assumption is that filenames are usually lowercase and
184 variables usually uppercase. Otherwise, use another syntax:
186 &/ => sub/dir/ or nothing
187 &_ => sub_dir_ or TOP_
189 (This implies that `&./' works roughly like `&/', although
190 it can produce a needless `./')
194 &^lc => $(top_srcdir)/sub/dir/lc
195 &^/ => $(top_srcdir)/sub/dir/
196 &^. => $(top_srcdir)/sub/dir
198 &~lc => $(top_srcdir)/lc
199 &~/ => $(top_srcdir)/
203 ^ pathname of this subdirectory in source tree
204 ~ pathname of top level of source tree
205 / terminates the path escape } needed if next is
206 _ terminates the var escape } not letter or space)
207 . terminates path escape giving dir name (excluding /)
208 = terminates var escape giving only prefix part (rarely needed)
209 lwsp starts multi-word processing (see below)
211 So pathname syntax is a subset of:
212 '&' [ '^' | '~' ] [ lc | '/' | '.' ]
214 && => && for convenience in shell runes
216 &\& => & general escaping mechanism
217 &\$ => $ provided for $-doubling regimes
218 &\NEWLINE eats the newline and vanishes
220 &$VARIABLE => $(sub_dir_VARIABLE) or $(TOP_VARIABLE)
221 VARIABLE is ASCII starting with a letter and matching \w+
226 Convenience syntax for prefixing multiple filenames.
227 Introduced by & followed by lwsp where lc could go.
228 Each lwsp-separated non-ws word is prefixed by &/ etc.
229 etc. respectively. No other & escapes are recognised.
230 This processing continues until & preceded by lwsp,
231 or until EOL (the end of the line), or \ then EOL.
233 &:<directive> <args>....
234 recognised at start of line only (possibly after lwsp)
236 &:include filename filename should usually be [&]foo.sd.mk
237 &:-include filename tolerate nonexistent file
238 RHS is &-expanded but filenames are relative to the top
239 srcdir. This implies that unqualified names are like &~/
240 whereas &/ is like &^/. &^ and &~ do not work here because
241 they expand to constructions involving literally
242 `$(top_srcdir)', but the RHS is not make-expanded.
244 &!<lwsp> disables & until EOL (and then disappears)
246 &# delete everything to end of line
247 (useful if the RHS contains unrecognised & constructions)
250 Handled specially. If mentioned at the start of a line
251 (possibly following whitespace), declares that this
252 subdir ought to have a target `things'. The rule will be
253 &/things:: $(&TARGETS_things)
255 You may extend it by adding more :: rules for the target,
256 but the preferred style is to do things like this:
257 &TARGETS_check += & test-passed.stamp
259 It is important to mention &TARGETS_things at least once in
260 the context of each applicable directory, because doing so
261 arranges that the *parent* will also have a `things' target
262 which recursively implies this directory's `things'.
264 Must be spelled exactly &TARGETS_things. &_TARGETS_things,
265 for example, is not magic. To make the target exist
266 without providing any prerequisites for it, write a line
267 containing just `&TARGETS_things +='.
269 `all' is extra special: every directory has an `all'
270 target, which corresponds to &TARGETS.
272 &:changequote NEWQUOTE
273 changes the escape sequence from & to literally NEWQUOTE
274 NEWQUOTE may be any series of of non-whitespace characters,
275 and is terminated by EOL or lwsp. The whole line is
278 After this, write NEWQUOTE instead of &, everywhere.
279 The effect is unscoped and lasts until the next setting,
280 or until the end of the current directory's Suffix.sd.mk.
281 It takes effect on &:include'd files too, so maybe set
282 it back before using &:include.
285 NEWQUOTENEWQUOTE => NEWQUOTENEWQUOTE
286 NEWQUOTE\NEWQUOTE => NEWQUOTE
288 NEWQUOTE:changequote & set escape back to &
291 Dollar doubling and macro assistance
292 ------------------------------------
294 &$+ Starts dollar-doubling
295 &$- Stops dollar-doubling
296 Both are idempotent and local to the file or context.
298 Sometimes we will show $'s being doubled inside another construct.
299 This means the content of the construct is $-doubled: $-doubling is
300 locally enabled, and restored afterwards.
302 &:macro NAME => define NAME
303 STUFF $ THINGS .. STUFF $$ THINGS
305 NAME is processed for &
307 &${..$..} => ${eval ${call ..$$..}}
308 (matches { } pairs to find the end)
309 content is $-doubled (unless it contains $- to turn that off)
311 Together &:macro and &${...} provide a more reasonable macro
312 facility than raw make. They solve the problem that make
313 expansions cannot directly generate multiple rules, variable,
314 etc.; instead, `$(eval )' must be used, but that re-expands
315 the argument, meaning that all the literal text must be
316 $-doubled. This applies to the macro text and to the
317 arguments. Also `$(eval $(call ...))' is an unfortunate syntax.
318 Hence &:macro and &${...}.
320 While dollar-doubling:
321 - - - - - - - - - - -
323 $ => $$ including $'s produced by other
324 &-expansions not mentioned here
327 &$NN => $(NN) where N are digits
330 A few contexts do not support $-doubling, such as directive arguments
331 or places where this might imply $-quadrupling. (There is no way to
335 Tables of file reference syntaxes
336 ---------------------------------
338 In a nonrecursive makefile supporting out of tree builds there are
339 three separate important distinctions between different file
342 (i) In the build tree, or in the source tree ?
344 (ii) In (or relative to) the subdirectory to which this Dir.sd.mk
345 relates, or relative to the project's top level ?
347 (iii) Absolute or relative pathname ? Usually relative pathnames
348 suffice. Where an absolute pathname is needed, it can be built
349 out of &/ and an appropriate make variable such as $(PWD).
351 Path construction &-expansions are built from the following:
359 In more detail, with all the various options laid out:
361 Recommended Relative paths in... Absolute paths in...
362 for build source build source
364 This lc &file &^file $(PWD)/&file $(abs_src)/&file
365 directory any &/file &^/file $(PWD)/&/file $(abs_src)/&/file
366 several & f g h &^ f g h $(addprefix...)
369 level any file &~/file $(PWD)/file $(abs_src)/file
370 .mk.in file $(src)/file $(PWD)/file $(abs_src)/file
371 several f g h &~ f g h $(addprefix...)
373 (This assumes you have appropriate make variables src, PWD and
376 Subdirectory and variable naming
377 --------------------------------
379 The simple variable decoration scheme does not enforce a strict
380 namespace distinction between parts of variable names which come from
381 subdirectory names, and parts that mean something else.
383 So it is a good idea to be a bit careful with your directory naming.
384 `TOP', names that contain `_', and names that are similar to parts of
385 make variables (whether conventional ones, or ones used in your
386 project) are best avoided.
388 If you name your variables in ALL CAPS and your subdirectories in
389 lower case with `-' rather than `_', there will be no confusion.
391 Incorporating this into your project
392 ------------------------------------
394 Use `git-subtree' to merge the subdirmk/ directory. You may find it
395 useful to symlink the DEVELOPER-CERTIFICATE file (git can store
396 symlinks as symlinks - just `git add' the link). And you probably
397 want to mention the situation in your top-level COPYING and HACKING.
399 Symlink autogen.sh into your project toplevel.
401 In your configure.ac, say
403 m4_include([subdirmk/subdirmk.ac])
404 SUBDIRMK_SUBDIRS([...list of subdirectories in relative syntax...])
406 Write a Dir.sd.mk in each directory. The toplevel one should
409 include subdirmk/usual.mk
410 include subdirmk/regen.mk
412 Write a Suffix.sd.mk in the toplevel, if you want. It should probably
415 &:include subdirmk/cdeps.sd.mk
416 &:include subdirmk/clean.sd.mk
421 You can convert your project incrementally. Start with the top-level
422 Makefile.in and rename it to Dir.sd.mk, and add the appropriate
423 stuff to configure.ac, and fix everything up. Leave the existing
424 $(MAKE) -C for your existing subdirectories alone. Then you can
425 convert individual subdirectories, or classes of subdirectories, at
426 your leisure. (You must be /sure/ that each recursive (non-subdirmk)
427 subdirectory will be entered only once at a time, but your existing
428 recursive make descent system should already do that or you already
429 have concurrency bugs.)
431 Aside from this, be very wary of any invocation of $(MAKE) anywhere.
432 This is a frequent source of concurrency bugs in recursive make build
433 systems. When combined with nonrecursive make it's all in the same
434 directory and there is nothing stopping the different invocations
435 ending up trying to make the same targets at the same time. That
436 causes hideous racy lossage. There are ways to get this to work
437 reliably but it is advanced stuff.
439 If you make syntax errors, or certain kinds of other errors, in your
440 makefiles, you may find that just `make' is broken now and cannot get
441 far enough to regenerate a working set of makefiles. If this happens
442 just rerun ./config.status by hand.
444 If you go back and forth between different versions of your code you
445 can sometimes find that `make' complains that one of your Subdir.sd.mk
446 files is missing: typically, if iot was used and therefore a
447 dependency in some other version of your code. If you run `make
448 clean' (or `make realclean') these dependencies are suppressed, which
449 will clear up the problem.
456 Copyright 2019 Mark Wooding
457 Copyright 2019 Ian Jackson
459 subdirmk and its example is free software; you can redistribute it
460 and/or modify it under the terms of the GNU Library General Public
461 License as published by the Free Software Foundation; either
462 version 2 of the License, or (at your option) any later version.
464 This is distributed in the hope that it will be useful, but
465 WITHOUT ANY WARRANTY; without even the implied warranty of
466 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
467 Library General Public License for more details.
469 You should have received a copy of the GNU Library General Public
470 License along with this library as the file LGPL-2.
471 If not, see https://www.gnu.org/.
473 Individual files generally contain the following tag in the copyright
474 notice, instead of the full licence grant text:
475 SPDX-License-Identifier: LGPL-2.0-or-later
476 As is conventional, this should be read as a licence grant.
478 Contributions are accepted based on the git commit Signed-off-by
479 convention, by which the contributors' certify their contributions
480 according to the Developer Certificate of Origin version 1.1 - see
481 the file DEVELOPER-CERTIFICATE.
483 Where subdirmk is used by and incorporated into another project (eg
484 via git subtree), the directory subdirmk/ is under GNU LGPL-2.0+, and
485 the rest of the project are under that other project's licence(s).
486 (The project's overall licence must be compatible with LGPL-2.0+.)