Functions
Last updated on 2023-04-24 | Edit this page
Overview
Questions
- How else can I eliminate redundancy in my Makefiles?
Objectives
- Write Makefiles that use functions to match and transform sets of files.
At this point, we have the following Makefile:
include config.mk
# Generate summary table.
results.txt : $(ZIPF_SRC) isles.dat abyss.dat last.dat
$(LANGUAGE) $^ > $@
# Count words.
.PHONY : dats
dats : isles.dat abyss.dat last.dat
%.dat : $(COUNT_SRC) books/%.txt
$(LANGUAGE) $^ $@
.PHONY : clean
clean :
rm -f *.dat
rm -f results.txt
Make has many functions which
can be used to write more complex rules. One example is
wildcard
. wildcard
gets a list of files
matching some pattern, which we can then save in a variable. So, for
example, we can get a list of all our text files (files ending in
.txt
) and save these in a variable by adding this at the
beginning of our makefile:
TXT_FILES=$(wildcard books/*.txt)
We can add a .PHONY
target and rule to show the
variable’s value:
.PHONY : variables
variables:
@echo TXT_FILES: $(TXT_FILES)
@echo
Make prints actions as it executes them. Using @
at the
start of an action tells Make not to print this action. So, by using
@echo
instead of echo
, we can see the result
of echo
(the variable’s value being printed) but not the
echo
command itself.
If we run Make:
We get:
OUTPUT
TXT_FILES: books/abyss.txt books/isles.txt books/last.txt books/sierra.txt
Note how sierra.txt
is now included too.
patsubst
(‘pattern substitution’) takes a pattern, a
replacement string and a list of names in that order; each name in the
list that matches the pattern is replaced by the replacement string.
Again, we can save the result in a variable. So, for example, we can
rewrite our list of text files into a list of data files (files ending
in .dat
) and save these in a variable:
DAT_FILES=$(patsubst books/%.txt, %.dat, $(TXT_FILES))
We can extend variables
to show the value of
DAT_FILES
too:
.PHONY : variables
variables:
@echo TXT_FILES: $(TXT_FILES)
@echo DAT_FILES: $(DAT_FILES)
If we run Make,
then we get:
OUTPUT
TXT_FILES: books/abyss.txt books/isles.txt books/last.txt books/sierra.txt
DAT_FILES: abyss.dat isles.dat last.dat sierra.dat
Now, sierra.txt
is processed too.
With these we can rewrite clean
and
dats
:
.PHONY : dats
dats : $(DAT_FILES)
.PHONY : clean
clean :
rm -f $(DAT_FILES)
rm -f results.txt
Let’s check:
We get:
OUTPUT
python countwords.py books/abyss.txt abyss.dat
python countwords.py books/isles.txt isles.dat
python countwords.py books/last.txt last.dat
python countwords.py books/sierra.txt sierra.dat
We can also rewrite results.txt
:
results.txt : $(ZIPF_SRC) $(DAT_FILES)
$(LANGUAGE) $^ > $@
If we re-run Make:
We get:
OUTPUT
python countwords.py books/abyss.txt abyss.dat
python countwords.py books/isles.txt isles.dat
python countwords.py books/last.txt last.dat
python countwords.py books/sierra.txt sierra.dat
python testzipf.py last.dat isles.dat abyss.dat sierra.dat > results.txt
Let’s check the results.txt
file:
OUTPUT
Book First Second Ratio
abyss 4044 2807 1.44
isles 3822 2460 1.55
last 12244 5566 2.20
sierra 4242 2469 1.72
So the range of the ratios of occurrences of the two most frequent words in our books is indeed around 2, as predicted by Zipf’s Law, i.e., the most frequently-occurring word occurs approximately twice as often as the second most frequent word. Here is our final Makefile:
include config.mk
TXT_FILES=$(wildcard books/*.txt)
DAT_FILES=$(patsubst books/%.txt, %.dat, $(TXT_FILES))
# Generate summary table.
results.txt : $(ZIPF_SRC) $(DAT_FILES)
$(LANGUAGE) S^ > $@
# Count words.
.PHONY : dats
dats : $(DAT_FILES)
%.dat : $(COUNT_SRC) books/%.txt
$(LANGUAGE) $^ $@
.PHONY : clean
clean :
rm -f $(DAT_FILES)
rm -f results.txt
.PHONY : variables
variables:
@echo TXT_FILES: $(TXT_FILES)
@echo DAT_FILES: $(DAT_FILES)
Remember, the config.mk
file contains:
# Count words script.
LANGUAGE=python
COUNT_SRC=countwords.py
# Test Zipf's rule
ZIPF_SRC=testzipf.py
The following figure shows the dependencies embodied within our
Makefile, involved in building the results.txt
target, now
we have introduced our function:
Where We Are
This Makefile and its accompanying
config.mk
contain all of our work so far.
Adding more books
We can now do a better job at testing Zipf’s rule by adding more books. The books we have used come from the Project Gutenberg website. Project Gutenberg offers thousands of free ebooks to download.
Exercise instructions:
- go to Project Gutenberg and use the search box to find another book, for example ‘The Picture of Dorian Gray’ from Oscar Wilde.
- download the ‘Plain Text UTF-8’ version and save it to the
books
folder; choose a short name for the file (that doesn’t include spaces) e.g. “dorian_gray.txt” because the filename is going to be used in theresults.txt
file - optionally, open the file in a text editor and remove extraneous
text at the beginning and end (look for the phrase
END OF THE PROJECT GUTENBERG EBOOK [title]
) - run
make
and check that the correct commands are run, given the dependency tree - check the results.txt file to see how this book compares to the others
Key Points
- Make is actually a small programming language with many built-in functions.
- Use
wildcard
function to get lists of files matching a pattern. - Use
patsubst
function to rewrite file names.