clj
is a collection of functions to work with lazy iterators in Python.
It’s a module for those times when you did too much Clojure and came back to Python wondering where are all these
distinct
, drop-while
, cycle
, first
, etc.
The library is oriented toward laziness and performance. Functions are implemented with as little overhead as possible.
pip install clj
Python requirement:
- 0.4.x: Python 3.9+
- 0.3.x: Python 3.7+
- 0.2.x: Python 3.7+
- 0.1.x: Python 2.7, 3.3+
The library is considered stable and is used in production.
;; Clojure
(->> coll (map inc) (filter even?) distinct count println)
; which expands to:
(println (count (distinct (filter even? (map inc coll)))))
# Python
from clj import count, distinct, inc, is_even
print(count(distinct(filter(is_even, map(inc, coll)))))
Note that count()
works on both sequences in generators; in the latter case it doesn’t load everything in memory like
e.g. len(list(g))
would do.
- Lazy by default. All functions should work on arbitrary iterators and return generators.
- This is Python. We keep Python’s semantics instead of trying to reproduce Clojure in Python (e.g.
0
and[]
are logically true in Clojure but false in Python;None
is not equivalent to an empty collection). - Don’t Reinvent the Wheel. We don’t reimplement built-in functions unless they miss something, like
range
that can’t be called without argument to yield an infinite sequence.
The general naming scheme is: use underscores instead of hyphens; start the function with is_
if its Clojure
counterparts ends with a ?
.
We aim to implement all Clojure functions that operate on sequences (see the list here). They all work on iterables and return generators by default (Python’s closest equivalent of lazy seqs). We don’t support transducers.
Clojure | clj |
Comment |
---|---|---|
distinct |
distinct |
|
filter |
filter |
Alias to Python’s built-in filter . |
remove |
remove |
|
keep |
keep |
|
keep-indexed |
keep_indexed |
|
cons |
cons |
|
concat |
concat |
Equivalent to itertools.chain . |
lazy-cat |
- | Use Python’s itertools.chain . |
mapcat |
mapcat |
|
cycle |
cycle |
|
interleave |
interleave |
|
interpose |
interpose |
|
rest |
rest |
|
next |
- | Use rest . |
fnext |
- | Use second . |
nnext |
- | Use rest(rest(…)) |
drop |
drop |
|
drop-while |
drop_while |
Equivalent to itertools.dropwhile . |
nthnext |
- | Use drop . |
take |
take |
|
take-nth |
take_nth |
|
take-while |
take_while |
Equivalent to itertools.takewhile . |
butlast |
butlast |
|
drop-last |
drop_last |
|
flatten |
flatten |
|
reverse |
reverse |
|
sort |
- | Use Python’s built-in sort . |
sort-by |
- | Use sort(…, key=your_function) . |
shuffle |
shuffle |
|
split-at |
split_at |
|
split-with |
split_with |
|
partition |
partition |
(partition n step pad coll) becomes partition(coll, n, step, pad) . Only the case step=n is supported for now. |
partition-all |
||
partition-by |
partition_by |
|
map |
map |
Alias to Python’s built-in map . |
pmap |
- | |
replace |
replace |
|
reductions |
reductions |
(reductions f i c) becomes reductions(f, c, i) . |
map-indexed |
map_indexed |
|
seque |
- | |
first |
first |
None is not a valid parameter. |
ffirst |
ffirst |
None is not a valid parameter. |
nfirst |
nfirst |
|
second |
second |
|
nth |
nth |
|
last |
last |
|
rand-nth |
- | Use Python’s random.choice . |
zipmap |
zipmap |
|
into |
- | |
reduce |
- | Use Python’s functools.reduce . |
set |
- | Use Python’s set . |
vec |
- | Use Python’s list . |
into-array |
- | Use Python’s list . |
to-array-2d |
- | |
frequencies |
- | Use Python’s collections.Counter . |
group-by |
group_by |
|
apply |
- | Use the f(*args) construct. |
not-empty |
- | |
some |
some |
|
seq? |
is_seq |
|
every? |
every |
|
not-every? |
not_every |
|
not-any? |
not_any |
|
empty? |
- | |
empty |
empty |
|
doseq |
- | Use for … in . |
dorun |
dorun |
|
doall |
- | Use Python’s list . |
realized? |
- | |
seq |
- | Use Python’s list . |
vals |
- | Use Python’s dict.values . |
keys |
- | Use Python’s dict.keys . |
rseq |
- | |
subseq |
- | |
rsubseq |
- | |
repeatedly |
repeatedly |
|
iterate |
iterate |
|
repeat |
repeat |
(repeat n x) becomes repeat(x, n) . Equivalent to itertools.repeat . |
range |
range |
Prefer Python’s range for everything but infinite generators. |
line-seq |
- | Loop over an io.BufferedReader . |
resultset-seq |
- | |
re-seq |
- | Use Python’s re.finditer . |
tree-seq |
tree_seq |
|
file-seq |
- | Use Python’s os.walk . |
xml-seq |
- | |
iterator-seq |
- | |
enumeration-seq |
- | |
hash-map |
- | Use Python’s dict . |
array-map |
- | Use Python’s dict . |
sorted-map |
- | Use collections.OrderedDict . |
sorted-map-by |
- | |
hash-set |
- | Use Python’s set . |
set |
- | Use Python’s set . |
sorted-set |
- | |
sorted-set-by |
- | |
dedupe |
dedupe |
We also implemented count
, which uses Python’s len
when possible and fallbacks on a for
loop for other cases.
We also provide miscellaneous functions as well as functions that work on functions.
Clojure | clj |
Comment |
---|---|---|
identity |
identity |
|
partial |
- | Use Python’s functools.partial |
comp |
comp |
|
complement |
complement |
|
constantly |
constantly |
|
juxt |
juxt |
|
distinct? |
is_distinct |
Clojure | clj |
Comment |
---|---|---|
inc |
inc |
|
dec |
dec |