missing separator error happens because of a non-empty return value of
include_submake, which is a single line feed character in your case. Make only permits whitespace characters (that is, a space or tab) to occur in an expression which is not assumed to be a part of some rule or another directive.
Rewrite your functions using plain-old Make variable assignment and the error should go away:
push_dir = \
pop_dir = \
include_submake = \
$(call push_dir,$1) \
define vs plain old variable assignment
Answering to a question from the first comment. Personally I would prefer using
define directive in several cases.
As the GNU Make manual suggests,
define directive is very useful in conjunction with the
eval function. Example from the manual (emphasis is mine):
PROGRAMS = server client
server_OBJS = server.o server_priv.o server_access.o
server_LIBS = priv protocol
client_OBJS = client.o client_api.o client_mem.o
client_LIBS = protocol
# Everything after this is generic
$(1): $$($(1)_OBJS) $$($(1)_LIBS:%=-l%)
ALL_OBJS += $$($(1)_OBJS)
$(foreach prog,$(PROGRAMS),$(eval $(call PROGRAM_template,$(prog))))
$(LINK.o) $^ $(LDLIBS) -o $@
rm -f $(ALL_OBJS) $(PROGRAMS)
Verbatim variables fit perfectly for cases when you want to generate a file from GNU Make. For example, consider generating a header file based on some information from Makefile.
# 1. Header identifier.
/* This file is generated by GNU Make $(MAKE_VERSION). */
/* Something else... */
#endif /* $(inclusion_guard) */
# 1. Unique header identifier.
inclusion_guard = \
# Shell escape.
sh_quote = \
foo.includes := bar baz
HEADERS := foo.h
$(HEADERS) : %.h :
@printf "%s" $(call sh_quote,$(call header_template,$(*F)))> $@
Extended Make syntax
In our project we use our own build system called Mybuild, and it is implemented entirely on top of GNU Make. As one of low-level hacks that we used to improve the poor syntax of the builtin language of Make, we have developed a special script which allows one to use extended syntax for function definitions. The script itself is written in Make too, so it is a sort of meta-programming in Make.
In particular, one can use such features as:
- Defining multiline functions without the need to use backslash
- Using comments inside functions (in plain-old Make comments can only occur outside variable assignment directives)
- Defining custom macros like
$(assert ...) or
- Inlining simple functions like
$(eq s1,s2) (string equality check)
This is an example of how a function can be written using the extended syntax. Note that it becomes a valid Make function and can be called as usual after a call to
# Reverses the specified list.
# 1. The list
# The list with its elements in reverse order.
# Start from the empty list.
# Prepend each new element ($2) to
# the result of previous computations.
$(lambda $2 $1))
Using these new features we were able to implement some really cool things (well, at least for Make :-) ) including:
- Object-Oriented layer with dynamic object allocation, class inheritance, method invocations and so on
- LALR parser runtime engine for parsers generated by GOLD Parser Builder
- Modelling library with runtime support for models generated with EMF
Feel free to use any part of the code in your own projects!