In a project that uses
bison, I'm having difficulty specifying that the compiled grammar
grammar.tab.c depends on the grammar input
grammar.y, that each object file depends on a corresponding source file (including
grammar.tab.o), and that the executable depends on all object files.
The problem is that running
make when grammar.tab.c does not yet exist means that there is no attempt to build it, and when the executable is built the
yyparse function is missing.
CFLAGS = -g -Wall YACC = bison -d -r all OBJ=$(patsubst %.c, %.o, $(wildcard *.c)) HEADERS=grammar.tab.h hex.h compiler.h types.h all: grammar.tab.h c clean: rm -f $(OBJ) *.tab.c *.tab.h c c.exe *.output c: $(OBJ) $(CC) -o $@ $(OBJ) $(CFLAGS) grammar.tab.c: grammar.y $(YACC) grammar.y grammar.tab.h: grammar.y $(YACC) grammar.y %.o: %.c $(HEADERS) $(CC) -c $< $(CFLAGS)
If I change it with:
OBJ=$(patsubst %.c, %.o, $(wildcard *.c)) grammar.tab.o
Then it will build the compiled grammar if it doesn't already exist. But if it does already exist, then
when building the executable, there will be an error about
yyparse being provided twice (presumably because
What I'm aiming for is a Makefile that:
- Will correctly build the executable on a
makecommand, rebuilding intermediate files as necessary.
- Will pick up all
*.cfiles in the directory (i.e. doesn't need to be changed when new source files are added).
- Is easy to read and understand. I don't mind learning new
makefeatures as long as it's only one or two at a time.
How do others' grammar-building Makefiles work?
Edit Ok, those are great answers. I went with the filter-out one, since it was the smallest change. I'm really glad that everyone seemed to know exactly what I'm talking about -- I was apprehensive about being told to use something byzantine like automake ;-).