70

This is an incredibly simple question, but I'm new to makefiles. I am trying to make a makefile that will compile two independent programs:

program1:
    gcc -o prog1 program1.c

program2:
    gcc -o prog2 program2.c

All the examples online go into way more details than I need and are confusing! All I really want it to do is to run the two gcc lines. What am I doing wrong?

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  • 2
    The answers bellow are very clear, but you can also just run the command line: make program1 program2 that will invoke both targets in the very example you gave yourself. If you just want program1, you can run just make (it will run the first target). If you just want program2, run make program2. You have more control. And of course, a target all: program1 program2 will do just that (being it the first, running your 2 other targets). Done. – Dr Beco Jun 16 '16 at 5:31
77

Do it like so

all: program1 program2

program1: program1.c
    gcc -o program1 program1.c

program2: program2.c
    gcc -o program2 program2.c

You said you don't want advanced stuff, but you could also shorten it like this based on some default rules.

all: program1 program2

program1: program1.c
program2: program2.c
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  • 6
    Note that if you want both programs to be built automatically, the all target must appear before the individual programs in the makefile, and be the first target in the makefile. – Randall Cook Jan 8 '14 at 2:15
  • 3
    You can put all or any other target wherever you want and make it the default for target-less (what you called "automatic") runs of make using .DEFAULT_GOAL:=all. – underscore_d Sep 19 '15 at 21:08
28

Pattern rules let you compile multiple c files which require the same compilation commands using make as follows:

objects = program1 program2
all: $(objects)

$(objects): %: %.c
        $(CC) $(CFLAGS) -o $@ $<
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24
############################################################################
# 'A Generic Makefile for Building Multiple main() Targets in $PWD'
# Author:  Robert A. Nader (2012)
# Email: naderra at some g
# Web: xiberix
############################################################################
#  The purpose of this makefile is to compile to executable all C source
#  files in CWD, where each .c file has a main() function, and each object
#  links with a common LDFLAG.
#
#  This makefile should suffice for simple projects that require building
#  similar executable targets.  For example, if your CWD build requires
#  exclusively this pattern:
#
#  cc -c $(CFLAGS) main_01.c
#  cc main_01.o $(LDFLAGS) -o main_01
#
#  cc -c $(CFLAGS) main_2..c
#  cc main_02.o $(LDFLAGS) -o main_02
#
#  etc, ... a common case when compiling the programs of some chapter,
#  then you may be interested in using this makefile.
#
#  What YOU do:
#
#  Set PRG_SUFFIX_FLAG below to either 0 or 1 to enable or disable
#  the generation of a .exe suffix on executables
#
#  Set CFLAGS and LDFLAGS according to your needs.
#
#  What this makefile does automagically:
#
#  Sets SRC to a list of *.c files in PWD using wildcard.
#  Sets PRGS BINS and OBJS using pattern substitution.
#  Compiles each individual .c to .o object file.
#  Links each individual .o to its corresponding executable.
#
###########################################################################
#
PRG_SUFFIX_FLAG := 0
#
LDFLAGS := 
CFLAGS_INC := 
CFLAGS := -g -Wall $(CFLAGS_INC)
#
## ==================- NOTHING TO CHANGE BELOW THIS LINE ===================
##
SRCS := $(wildcard *.c)
PRGS := $(patsubst %.c,%,$(SRCS))
PRG_SUFFIX=.exe
BINS := $(patsubst %,%$(PRG_SUFFIX),$(PRGS))
## OBJS are automagically compiled by make.
OBJS := $(patsubst %,%.o,$(PRGS))
##
all : $(BINS)
##
## For clarity sake we make use of:
.SECONDEXPANSION:
OBJ = $(patsubst %$(PRG_SUFFIX),%.o,$@)
ifeq ($(PRG_SUFFIX_FLAG),0)
        BIN = $(patsubst %$(PRG_SUFFIX),%,$@)
else
        BIN = $@
endif
## Compile the executables
%$(PRG_SUFFIX) : $(OBJS)
    $(CC) $(OBJ)  $(LDFLAGS) -o $(BIN)
##
## $(OBJS) should be automagically removed right after linking.
##
veryclean:
ifeq ($(PRG_SUFFIX_FLAG),0)
    $(RM) $(PRGS)
else
    $(RM) $(BINS)
endif
##
rebuild: veryclean all
##
## eof Generic_Multi_Main_PWD.makefile
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  • 1
    Thanks for the above code. I use it to compile my .c files. But if i change any of my myHeader.h files, then i need to re-save an the .c file before using 'make' or else it shows "make: Nothing to be done for `all'." whereas actually changes have been made in the .h file. Can we modify the make file to compile after any changes in .h files without re-saving the .c file? and thanks for the above code!!! – jatin3893 Feb 3 '13 at 15:09
  • Thanks allot. This was very useful for me :) – SHRI Jul 29 '13 at 14:26
  • Thank you, this is what I was looking for! – ElBaulP Mar 23 '14 at 10:14
  • 4
    "$(OBJS) should be automagically removed right after linking." Doesn't that lead to unnecessary recompilation and, thus, mostly defeat the point of make? – underscore_d Sep 19 '15 at 21:07
  • Why do you nee .SECONDEXPANSION? – crisron Jul 16 '16 at 10:19
10
all: program1 program2

program1:
    gcc -Wall -o prog1 program1.c

program2:
    gcc -Wall -o prog2 program2.c
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2
all: program1 program2

program1:
    gcc -Wall -ansi -pedantic -o prog1 program1.c

program2:
    gcc -Wall -ansi -pedantic -o prog2 program2.c

I rather the ansi and pedantic, a better control for your program. It wont let you compile while you still have warnings !!

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  • 2
    That is not what -pedantic is for. -pedantic will remove any non-ansi features that even -ansi permits. – cnicutar May 10 '11 at 13:15
  • 3
    To add to cnicutar's comment, -Werror will change warnings to errors. – jtniehof May 10 '11 at 14:09
1

A simple program's compilation workflow is simple, I can draw it as a small graph: source -> [compilation] -> object [linking] -> executable. There are files (source, object, executable) in this graph, and rules (make's terminology). That graph is definied in the Makefile.

When you launch make, it reads Makefile, and checks for changed files. If there's any, it triggers the rule, which depends on it. The rule may produce/update further files, which may trigger other rules and so on. If you create a good makefile, only the necessary rules (compiler/link commands) will run, which stands "to next" from the modified file in the dependency path.

Pick an example Makefile, read the manual for syntax (anyway, it's clear for first sight, w/o manual), and draw the graph. You have to understand compiler options in order to find out the names of the result files.

The make graph should be as complex just as you want. You can even do infinite loops (don't do)! You can tell make, which rule is your target, so only the left-standing files will be used as triggers.

Again: draw the graph!.

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1

This will compile all *.c files upon make to executables without the .c extension as in gcc program.c -o program.

make will automatically add any flags you add to CFLAGS like CFLAGS = -g Wall.

If you don't need any flags CFLAGS can be left blank (as below) or omitted completely.

SOURCES = $(wildcard *.c)
EXECS = $(SOURCES:%.c=%)
CFLAGS = 

all: $(EXECS)
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0
SRC = a.cpp b.cpp
BIN = $(patsubst %.cpp,%,$(SRC))

all: $(BIN)

clean:
    rm -f $(BIN)

.PHONY: all clean

make all will do:

c++     a.cpp   -o a
c++     b.cpp   -o b

If you set CXX and CXXFLAGS variables make will use them.

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