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# Hello, and welcome to makefile basics. | |
# | |
# You will learn why `make` is so great, and why, despite its "weird" syntax, | |
# it is actually a highly expressive, efficient, and powerful way to build | |
# programs. | |
# | |
# Once you're done here, go to | |
# http://www.gnu.org/software/make/manual/make.html | |
# to learn SOOOO much more. | |
# To do stuff with make, you type `make` in a directory that has a file called | |
# "Makefile". You can also type `make -f <makefile>` to use a different | |
# filename. | |
# | |
# A Makefile is a collection of rules. Each rule is a recipe to do a specific | |
# thing, sort of like a grunt task or an npm package.json script. | |
# | |
# A rule looks like this: | |
# | |
# <target>: <prerequisites...> | |
# <commands> | |
# | |
# The "target" is required. The prerequisites are optional, and the commands | |
# are also optional, but you have to have one or the other. | |
# | |
# Type "make" and see what happens: | |
tutorial: | |
@# todo: have this actually run some kind of tutorial wizard? | |
@echo "Please read the 'Makefile' file to go through this tutorial" | |
# By default, the first target is run if you don't specify one. So, in this | |
# dir, typing "make" is the same as typing "make tutorial" | |
# | |
# By default, make prints out the command before it runs it, so you can see | |
# what it's doing. This is a departure from the "success should be silent" | |
# UNIX dogma, but without that default, it'd be very difficult to see what | |
# build logs etc are actually doing. | |
# | |
# To suppress the output, we've added @ signs before each line, above. | |
# | |
# Each line of the command list is run as a separate invocation of the shell. | |
# So, if you set a variable, it won't be available in the next line! To see | |
# this in action, try running `make var-lost` | |
var-lost: | |
export foo=bar | |
echo "foo=[$$foo]" | |
# Notice that we have to use a double-$ in the command line. That is because | |
# each line of a makefile is parsed first using the makefile syntax, and THEN | |
# the result is passed to the shell. | |
# Let's try running both of the commands in the *same* shell invocation, by | |
# escaping the \n character. Run `make var-kept` and note the difference. | |
var-kept: | |
export foo=bar; \ | |
echo "foo=[$$foo]" | |
# Now let's try making something that depends on something else. In this case, | |
# we're going to create a file called "result.txt" which depends on | |
# "source.txt". | |
result.txt: source.txt | |
@echo "building result.txt from source.txt" | |
cp source.txt result.txt | |
# When we type `make result.txt`, we get an error! | |
# $ make result.txt | |
# make: *** No rule to make target `source.txt', needed by `result.txt'. Stop. | |
# | |
# The problem here is that we've told make to create result.txt from | |
# source.txt, but we haven't told it how to get source.txt, and the file is | |
# not in our tree right now. | |
# | |
# Un-comment the next ruleset to fix the problem. | |
# | |
#source.txt: | |
# @echo "building source.txt" | |
# echo "this is the source" > source.txt | |
# | |
# Run `make result.txt` and you'll see it first creates source.txt, and then | |
# copies it to result.txt. Try running `make result.txt` again, and you'll see | |
# that nothing happens! That's because the dependency, source.txt, hasn't | |
# changed, so there's no need to re-build result.txt. | |
# | |
# Run `touch source.txt`, or edit the file, and you'll see that | |
# `make result.txt` re-builds the file. | |
# | |
# | |
# Let's say that we were working on a project with 100 .c files, and each of | |
# those .c files we wanted to turn into a corresponding .o file, and then link | |
# all the .o files into a binary. (This is effectively the same if you have | |
# 100 .styl files to turn into .css files, and then link together into a big | |
# single concatenated main.min.css file.) | |
# | |
# It would be SUPER TEDIOUS to create a rule for each one of those. Luckily, | |
# make makes this easy for us. We can create one generic rule that handles | |
# any files matching a specific pattern, and declare that we're going to | |
# transform it into the corresponding file of a different pattern. | |
# | |
# Within the ruleset, we can use some special syntax to refer to the input | |
# file and the output file. Here are the special variables: | |
# | |
# $@ The file that is being made right now by this rule (aka the "target") | |
# You can remember this because it's like the "$@" list in a | |
# shell script. @ is like a letter "a" for "arguments. | |
# When you type "make foo", then "foo" is the argument. | |
# | |
# $< The input file (that is, the first prerequisite in the list) | |
# You can remember this becasue the < is like a file input | |
# pipe in bash. `head <foo.txt` is using the contents of | |
# foo.txt as the input. Also the < points INto the $ | |
# | |
# $^ This is the list of ALL input files, not just the first one. | |
# You can remember it because it's like $<, but turned up a notch. | |
# If a file shows up more than once in the input list for some reason, | |
# it's still only going to show one time in $^. | |
# | |
# $? All the input files that are newer than the target | |
# It's like a question. "Wait, why are you doing this? What | |
# files changed to make this necessary?" | |
# | |
# $$ A literal $ character inside of the rules section | |
# More dollar signs equals more cash money equals dollar sign. | |
# | |
# $* The "stem" part that matched in the rule definition's % bit | |
# You can remember this because in make rules, % is like * on | |
# the shell, so $* is telling you what matched the pattern. | |
# | |
# You can also use the special syntax $(@D) and $(@F) to refer to | |
# just the dir and file portions of $@, respectively. $(<D) and | |
# $(<F) work the same way on the $< variable. You can do the D/F | |
# trick on any variable that looks like a filename. | |
# | |
# There are a few other special variables, and we can define our own | |
# as well. Most of the other special variables, you'll never use, so | |
# don't worry about them. | |
# | |
# So, our rule for result.txt could've been written like this | |
# instead: | |
result-using-var.txt: source.txt | |
@echo "buildling result-using-var.txt using the $$< and $$@ vars" | |
cp $< $@ | |
# Let's say that we had 100 source files, that we want to convert | |
# into 100 result files. Rather than list them out one by one in the | |
# makefile, we can use a bit of shell scripting to generate them, and | |
# save them in a variable. | |
# | |
# Note that make uses := for assignment instead of = | |
# I don't know why that is. The sooner you accept that this isn't | |
# bash/sh, the better. | |
# | |
# Also, usually you'd use `$(wildcard src/*.txt)` instead, since | |
# probably the files would already exist in your project. Since this | |
# is a tutorial, though we're going to generate them using make. | |
# | |
# This will execute the shell program to generate a list of files. | |
srcfiles := $(shell echo src/{00..99}.txt) | |
# How do we make a text file in the src dir? | |
# We define the filename using a "stem" with the % as a placeholder. | |
# What this means is "any file named src/*.txt", and it puts whatever | |
# matches the "%" bit into the $* variable. | |
src/%.txt: | |
@# First things first, create the dir if it doesn't exist. | |
@# Prepend with @ because srsly who cares about dir creation | |
@[ -d src ] || mkdir src | |
@# then, we just echo some data into the file | |
@# The $* expands to the "stem" bit matched by % | |
@# So, we get a bunch of files with numeric names, containing their number | |
echo $* > $@ | |
# Try running `make src/00.txt` and `make src/01.txt` now. | |
# To not have to run make for each file, we define a "phony" target that | |
# depends on all of the srcfiles, and has no other rules. It's good | |
# practice to define your phony rules in a .PHONY declaration in the file. | |
# (See the .PHONY entry at the very bottom of this file.) | |
# | |
# Running `make source` will make ALL of the files in the src/ dir. Before | |
# it can make any of them, it'll first make the src/ dir itself. Then | |
# it'll copy the "stem" value (that is, the number in the filename matched | |
# by the %) into the file, like the rule says above. | |
# | |
# Try typing "make source" to make all this happen. | |
source: $(srcfiles) | |
# So, to make a dest file, let's copy a source file into its destination. | |
# Also, it has to create the destination folder first. | |
# | |
# The destination of any dest/*.txt file is the src/*.txt file with | |
# the matching stem. You could just as easily say that %.css depends | |
# on %.styl | |
dest/%.txt: src/%.txt | |
@[ -d dest ] || mkdir dest | |
cp $< $@ | |
# So, this is great and all, but we don't want to type `make dest/#.txt` | |
# 100 times! | |
# | |
# Let's create a "phony" target that depends on all the destination files. | |
# We can use the built-in pattern substitution "patsubst" so we don't have | |
# to re-build the list. This patsubst function uses the same "stem" | |
# concept explained above. | |
destfiles := $(patsubst src/%.txt,dest/%.txt,$(srcfiles)) | |
destination: $(destfiles) | |
# Since "destination" isn't an actual filename, we define that as a .PHONY | |
# as well (see below). This way, Make won't bother itself checking to see | |
# if the file named "destination" exists if we have something that depends | |
# on it later. | |
# | |
# Let's say that all of these dest files should be gathered up into a | |
# proper compiled program. Since this is a tutorial, we'll use the | |
# venerable feline compiler called "cat", which is included in every | |
# posix system because cats are wonderful and a core part of UNIX. | |
kitty: $(destfiles) | |
@# Remember, $< is the input file, but $^ is ALL the input files. | |
@# Cat them into the kitty. | |
cat $^ > kitty | |
# Note what's happening here: | |
# | |
# kitty -> (all of the dest files) | |
# Then, each destfile depends on a corresponding srcfile | |
# | |
# If you `make kitty` again, it'll say "kitty is up to date" | |
# | |
# NOW TIME FOR MAGIC! | |
# | |
# Let's update just ONE of the source files, and see what happens | |
# | |
# Run this: touch src/25.txt; make kitty | |
# | |
# Note that it is smart enough to re-build JUST the single destfile that | |
# corresponds to the 25.txt file, and then concats them all to kitty. It | |
# *doesn't* re-generate EVERY source file, and then EVERY dest file, | |
# every time | |
# It's good practice to have a `test` target, because people will come to | |
# your project, and if there's a Makefile, then they'll expect `make test` | |
# to do something. | |
# | |
# We can't test the kitty unless it exists, so we have to depend on that. | |
test: kitty | |
@echo "miao" && echo "tests all pass!" | |
# Last but not least, `make clean` should always remove all of the stuff | |
# that your makefile created, so that we can remove bad stuff if anything | |
# gets corrupted or otherwise screwed up. | |
clean: | |
rm -rf *.txt src dest kitty | |
# What happens if there's an error!? Let's say you're building stuff, and | |
# one of the commands fails. Make will abort and refuse to proceed if any | |
# of the commands exits with a non-zero error code. | |
# To demonstrate this, we'll use the `false` program, which just exits with | |
# a code of 1 and does nothing else. | |
badkitty: | |
$(MAKE) kitty # The special var $(MAKE) means "the make currently in use" | |
false # <-- this will fail | |
echo "should not get here" | |
.PHONY: source destination clean test badkitty |
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