Yes, both static pattern rules and implicit pattern rules can have multiple prerequisites that contain a
% reference to the pattern stem.
Implicit pattern rules are different from static pattern rules, or ordinary non-pattern rules in that they only apply when they either have no prerequisites ("unconditionally make this thing") or else the prerequisites exist.
That is to say, if a target that needs to be built, like
sip84fp.sas7bdat needs to be updated, then indeed the pattern rule
%.sas7bdat: %.sas %.dat is a candidate. But a check is made: the
sip84fp stem is inserted into the prerequisite patterns to generate
sip84fp.sas sip84fp.dat. These both have to exist. If they do not exist, then the rule is removed from consideration, and the search continues for some other rule.
This is why in the end you get a message about "no rule": it really means that no rule was left after ignoring all the implicit rules that didn't apply.
By contrast, under a static pattern rule or ordinary rule, if a target matches a rule, and a prerequisite doesn't exist, the prerequisite must be updated. For instance if you have
foo.o: foo.c and
foo.c doesn't exist, the rule cannot be thrown away because it's not implicit: that rule must be used for
foo.o. Make will then look for a rule which builds
foo.c (and probably not find one: the error will then be that there is no rule to make
See the topic Implicit Rule Search Algorithm in the GNU Make Manual.
If it is an expected behavior that the
.dat file might not exist, you have to express that in some other way. For instance, one way is to use some external dependency generation to make numerous concrete rules of the form:
Put that into a
foo.d file, and
include it into the
Makefile. If you have a variable called
TARGETS which holds the names of all
.sas7bdat files, you can include all their
.d dependency files like this:
-include $(patsubst %.sas7bdat,%.d,$(TARGETS))
This is the same as for compiling C. We wouldn't write a pattern rule like this for C programs:
%.o: %.c %.h
# ... build steps
This is because not every
foo.c has a
foo.h, and so the rule would not apply to such cases. Rather, we have:
and then any additional dependencies, like
foo.o depending on
foo.h are expressed elsewhere. The implicit rule only matches the principal deliverables: the object file and the "root" file of the translation unit.