missing separator error happens because of non-empty return value of
include_submake, which is a single line feed character in your case. Make only permits whitespace characters (that is, 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 GNU Make manual suggests,
define directive is very useful in conjunction with
eval function. Example from the manual:
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 builtin language of Make, we have developed a special script which allows to use an 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 occur only 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!