Some make implementations, such as Solaris and Tru64,
search for prerequisites in VPATH
and
then rewrite each occurrence as a plain word in the rule.
For instance:
# This isn't portable to GNU make. VPATH = ../pkg/src f.c: if.c cp if.c f.c
executes cp ../pkg/src/if.c f.c
if if.c is
found in ../pkg/src.
However, this rule leads to real problems in practice. For example, if the source directory contains an ordinary file named test that is used in a dependency, Solaris make rewrites commands like ‘if test -r foo; ...’ to ‘if ../pkg/src/test -r foo; ...’, which is typically undesirable. In fact, make is completely unaware of shell syntax used in the rules, so the VPATH rewrite can potentially apply to any whitespace-separated word in a rule, including shell variables, functions, and keywords.
$ mkdir build $ cd build $ cat > Makefile <<'END' VPATH = .. all: arg func for echo func () { for arg in "$$@"; do echo $$arg; done; }; \ func "hello world" END $ touch ../arg ../func ../for ../echo $ make ../func () { ../for ../arg in "$@"; do ../echo $arg; done; }; \ ../func "hello world" sh: syntax error at line 1: `do' unexpected *** Error code 2
To avoid this problem, portable makefiles should never mention a source file or dependency whose name is that of a shell keyword like for or until, a shell command like cat or gcc or test, or a shell function or variable used in the corresponding Makefile recipe.
Because of these problems GNU make and many other make
implementations do not rewrite commands, so portable makefiles should
search VPATH
manually. It is tempting to write this:
# This isn't portable to Solaris make. VPATH = ../pkg/src f.c: if.c cp `test -f if.c || echo $(VPATH)/`if.c f.c
However, the “prerequisite rewriting” still applies here. So if if.c is in ../pkg/src, Solaris and Tru64 make execute
cp `test -f ../pkg/src/if.c || echo ../pkg/src/`if.c f.c
which reduces to
cp if.c f.c
and thus fails. Oops.
A simple workaround, and good practice anyway, is to use ‘$?’ and ‘$@’ when possible:
VPATH = ../pkg/src f.c: if.c cp $? $@
but this does not generalize well to commands with multiple prerequisites. A more general workaround is to rewrite the rule so that the prerequisite if.c never appears as a plain word. For example, these three rules would be safe, assuming if.c is in ../pkg/src and the other files are in the working directory:
VPATH = ../pkg/src f.c: if.c f1.c cat `test -f ./if.c || echo $(VPATH)/`if.c f1.c >$@ g.c: if.c g1.c cat `test -f 'if.c' || echo $(VPATH)/`if.c g1.c >$@ h.c: if.c h1.c cat `test -f "if.c" || echo $(VPATH)/`if.c h1.c >$@
Things get worse when your prerequisites are in a macro.
VPATH = ../pkg/src HEADERS = f.h g.h h.h install-HEADERS: $(HEADERS) for i in $(HEADERS); do \ $(INSTALL) -m 644 \ `test -f $$i || echo $(VPATH)/`$$i \ $(DESTDIR)$(includedir)/$$i; \ done
The above install-HEADERS
rule is not Solaris-proof because for
i in $(HEADERS);
is expanded to for i in f.h g.h h.h;
where f.h
and g.h
are plain words and are hence
subject to VPATH
adjustments.
If the three files are in ../pkg/src, the rule is run as:
for i in ../pkg/src/f.h ../pkg/src/g.h h.h; do \ install -m 644 \ `test -f $i || echo ../pkg/src/`$i \ /usr/local/include/$i; \ done
where the two first install calls fail. For instance,
consider the f.h
installation:
install -m 644 \ `test -f ../pkg/src/f.h || \ echo ../pkg/src/ \ `../pkg/src/f.h \ /usr/local/include/../pkg/src/f.h;
It reduces to:
install -m 644 \ ../pkg/src/f.h \ /usr/local/include/../pkg/src/f.h;
Note that the manual VPATH
search did not cause any problems here;
however this command installs f.h in an incorrect directory.
Trying to quote $(HEADERS)
in some way, as we did for
foo.c
a few makefiles ago, does not help:
install-HEADERS: $(HEADERS) headers='$(HEADERS)'; \ for i in $$headers; do \ $(INSTALL) -m 644 \ `test -f $$i || echo $(VPATH)/`$$i \ $(DESTDIR)$(includedir)/$$i; \ done
Now, headers='$(HEADERS)'
macro-expands to:
headers='f.h g.h h.h'
but g.h
is still a plain word. (As an aside, the idiom
headers='$(HEADERS)'; for i in $$headers;
is a good
idea if $(HEADERS)
can be empty, because some shells diagnose a
syntax error on for i in;
.)
One workaround is to strip this unwanted ../pkg/src/ prefix manually:
VPATH = ../pkg/src HEADERS = f.h g.h h.h install-HEADERS: $(HEADERS) headers='$(HEADERS)'; \ for i in $$headers; do \ i=`expr "$$i" : '$(VPATH)/\(.*\)'`; $(INSTALL) -m 644 \ `test -f $$i || echo $(VPATH)/`$$i \ $(DESTDIR)$(includedir)/$$i; \ done
Automake does something similar. However the above hack works only if
the files listed in HEADERS
are in the current directory or a
subdirectory; they should not be in an enclosing directory. If we had
HEADERS = ../f.h
, the above fragment would fail in a VPATH
build with Tru64 make. The reason is that not only does
Tru64 make rewrite dependencies, but it also simplifies
them. Hence ../f.h
becomes ../pkg/f.h
instead of
../pkg/src/../f.h
. This obviously defeats any attempt to strip
a leading ../pkg/src/ component.
The following example makes the behavior of Tru64 make more apparent.
$ cat Makefile VPATH = sub all: ../foo echo ../foo $ ls Makefile foo $ make echo foo foo
Dependency ../foo was found in sub/../foo, but Tru64 make simplified it as foo. (Note that the sub/ directory does not even exist, this just means that the simplification occurred before the file was checked for.)
For the record here is how SunOS 4 make behaves on this example.
$ make make: Fatal error: Don't know how to make target `../foo' $ mkdir sub $ make echo sub/../foo sub/../foo