I work with C and C++ and thanks to this answer I was able to compile and run my project. Now I am writing a makefile to spare time. But things are getting complicated :

Project structure

  • project
    • makefile
  • client
    • bin
    • src
      • c
      • cc
      • java
  • server
    • ...
# Directories

CLIENT_BIN_DIR      = /client/bin/
CLIENT_SRC_C_DIR    = /client/src/c/
CLIENT_SRC_CC_DIR   = /client/src/cc/
CLIENT_SRC_JAVA_DIR = /client/src/java/
SERVER_BIN_DIR      = /server/bin/
SERVER_SRC_C_DIR    = /server/src/c/
SERVER_SRC_CC_DIR   = /server/src/cc/
SERVER_SRC_JAVA_DIR = /server/src/java/

# Files

CLIENT_BIN          = ${CLIENT_BIN_DIR}client_app
CLIENT_SRC_C        = ${wildcard ${CLIENT_SRC_C_DIR}*.c}
CLIENT_SRC_CC       = ${wildcard ${CLIENT_SRC_CC_DIR}*.cc}
CLIENT_SRC_JAVA     = ${wildcard ${CLIENT_SRC_JAVA_DIR}*.java}

SERVER_BIN          = ${SERVER_BIN_DIR}server_app
SERVER_SRC_C        = ${wildcard ${SERVER_SRC_C_DIR}*.c}
SERVER_SRC_CC       = ${wildcard ${SERVER_SRC_CC_DIR}*.cc}
SERVER_SRC_JAVA     = ${wildcard ${SERVER_SRC_JAVA_DIR}*.java}

# Flags
CFLAGS              = -g -W -Wall
IFLAGS              = -I${INC_DIR}

# Compilers
C                   = gcc
CC                  = g++

# Rules

Now that I have all the sources files, what should I write to the followings steps to every files :

  1. gcc -c -o file.o file.c
  2. g++ -c -o file.o file.cc -I/PATH_TO_C_HEADER
  • 1
    Check out this article. evbergen.home.xs4all.nl/nonrecursive-make.html – dsi Jun 18 '15 at 11:32
  • 3
    I suggest placing a Makefile in each directory with source to be compiled, which is responsible for compiling only the source in that directory. Then all your parent makefile (for the project) needs to do is invoke those other makefiles and worry asbout its own targets (e.g client and source). – Peter Jun 18 '15 at 11:35
  • Make is a pain in the butt and recursive make is a mispattern. Do it with tup ( gittup.org/tup ). It's easier, more advanced, and faster too, and you won't have to worry about header dependencies. – PSkocik Jun 18 '15 at 11:43
  • 2
    If you don't need to use make using something like tup is certainly a reasonable idea. If you do need (or want) make it works just fine. – Etan Reisner Jun 18 '15 at 11:45
  • 2
    @Peter You might want to read that link from dsi about why recursive make is a bad idea. – Etan Reisner Jun 18 '15 at 11:46

If you must use make, this could help get you started (just for C files):

CLIENT_BIN_DIR      = client/bin/
CLIENT_SRC_C_DIR    = client/src/c/

CLIENT_BIN          = $(CLIENT_BIN_DIR)client_app
CLIENT_SRC_C        = $(wildcard $(CLIENT_SRC_C_DIR)*.c)
CLIENT_SRC_C_O      = $(CLIENT_SRC_C:.c=.o)
CLIENT_SRC_C_D      = $(CLIENT_SRC_C:.c=.d)

# Flags
CFLAGS              = -g -W -Wall
IFLAGS              = -I$(INC_DIR)

# Compilers
C                   = gcc

#Create header dependency files (included headers are dependencies too)
%.d: %.c
    $(C) $(CFLAGS) -MM -MF $@ -MT $*.o $<

#include will remake the dependency files if they need to be
-include $(CLIENT_SRC_C_D)

#O files will be created via the implicit rule
    $(C) $(CFLAGS) $(LDFLAGS) $^ -o $(@)

all: $(CLIENT_BIN)

https://www.gnu.org/software/make/manual/make.html is really helpful.

Otherwise, if you can, I recommend tup, which is easier, more flexible, faster, and more advanced than make.

| improve this answer | |

make has built-in rules for compiling C and C++ files into object files, you can use those instead of writing your own by using the built-in flags they expect. Similarly make has a rule for building a binary from object files (as long as the binary matches one of the source files exactly).

Compiling C programs

n.o is made automatically from n.c with a recipe of the form ‘$(CC) $(CPPFLAGS) $(CFLAGS) -c’.

Compiling C++ programs

n.o is made automatically from n.cc, n.cpp, or n.C with a recipe of the form ‘$(CXX) $(CPPFLAGS) $(CXXFLAGS) -c’. We encourage you to use the suffix ‘.cc’ for C++ source files instead of ‘.C’.

Linking a single object file

n is made automatically from n.o by running the linker (usually called ld) via the C compiler. The precise recipe used is ‘$(CC) $(LDFLAGS) n.o $(LOADLIBES) $(LDLIBS)’.

This rule does the right thing for a simple program with only one source file. It will also do the right thing if there are multiple object files (presumably coming from various other source files), one of which has a name matching that of the executable file. Thus,

x: y.o z.o

when x.c, y.c and z.c all exist will execute:

cc -c x.c -o x.o
cc -c y.c -o y.o
cc -c z.c -o z.o
cc x.o y.o z.o -o x
rm -f x.o
rm -f y.o
rm -f z.o

In more complicated cases, such as when there is no object file whose name derives from the executable file name, you must write an explicit recipe for linking.

Each kind of file automatically made into ‘.o’ object files will be automatically linked by using the compiler (‘$(CC)’, ‘$(FC)’ or ‘$(PC)’; the C compiler ‘$(CC)’ is used to assemble ‘.s’ files) without the ‘-c’ option. This could be done by using the ‘.o’ object files as intermediates, but it is faster to do the compiling and linking in one step, so that’s how it’s done.

So just set the right flags (as used in those rules) and add the right .o file prerequisites to your binary targets and you should be done.

| improve this answer | |
# client binary depends on c and c++ .o's
$(CLIENT_BIN): $(CLIENT_SRC_C:.c=.o) $(CLIENT_SRC_CC:.cc=.o)

# server binary depends on c and c++ .o's
$(SERVER_BIN): $(SERVER_SRC_C:.c=.o) $(SERVER_SRC_CC:.cc=.o)

# example header dependency (file.cc depends on file.h and file1.h)

GNU Make has implicit rules for compile C and C++ source files and generating the final binary, so there's no need to rewrite them.

Also, you might want to RTFM.

| improve this answer | |
  • No implicit rules for binaries that are made of multiple *.o files. – PSkocik Jun 18 '15 at 12:30
  • @PSkocik The default implicit rule works as long as the binary has a matching .o and .c file. – Etan Reisner Jun 18 '15 at 12:42

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