Jim Pivarski
Step 1: Scrape the dependents graph for numba/numba on GitHub (the repositories, not the packages).
Web-scraping script in step1.py.
When I did it, there were 62903 of these.
Step 2: For each of those repos, get the repo metadata using the GitHub API, taking care to not exceed the rate limit.
My list has 62900 of these. (I guess 3 were lost.)
My copy of the repo info can be found in https://pivarski-princeton.s3.amazonaws.com/GitHub-numba-user-nonfork-REPO-INFO.tgz (32.1 MB).
My copy of the user info, also from GitHub API (for bios) can be found in https://pivarski-princeton.s3.amazonaws.com/GitHub-numba-user-nonfork-USER-INFO.tgz (2.0 MB).
Step 3: For the repos in which "fork": false (users created the repo themselves), download all of the repos.
59233 repos from my previous list are non-fork.
I have the final results on a 380 GB disk, but I think I used a 1 TB disk during the process (all on AWS).
The step3.py script performs the giant git clone of all these repos. It's a parallized pipeline (ProcessPoolExecutor with max_workers=24 on a computer with 4 CPU cores... it's I/O limited) with the following steps:
git clonewith--depth 1to get the latest snapshot, but not the history.- Do a
grep -ifor\bnumba\bto cross-check GitHub's identification of these as depending on Numba and keep the result in a*.grepfile beside the final tarball. - Drop any files that are greater than 1 MB (some GitHub repos contain large data files) if they do not have an interesting file suffix:
py,PY,ipynb,IPYNB,c,cc,cpp,cp,cxx,c++,C,CC,CPP,CP,CXX,C++,h,hpp,hp,hh,H,HPP,HP,HH,cu,cuh,CU,CUH. - Tarball-and-compress what remains.
Occasionally, one of the 24 workers would get stuck with a large download, but the others moved past it. In the end, I think there were only a couple that couldn't be downloaded after a few attempts. (The script does not re-download, so it can be used to clean up after failed attempts.)
Step 4: Further select only the repos that actually contain
\b(import\s+([A-Za-z_][A-Za-z_0-9]*\s*,\s*)*numba|from\s+numba\s+import)\bin some file. After this selection, only 13512 repos were kept (22.8%). Some of the repos that GitHub identified mentioned Numba in text or used it in markdown examples, but didn't import it: GitHub's interpretation of a "dependent repo" is very broad.
Finally, tarball (without compression!) the directory full of gzipped tarballs. My copy is at https://pivarski-princeton.s3.amazonaws.com/GitHub-numba-user-nonfork-raw-data-1Mcut-imports.tar (179.4 GB).
Step 5: Do a static code analysis on all of the Python and Jupyter notebook files. This is another ProcessPoolExecutor pipeline, which results in a JSON file that will be used in interactive analysis. The steps of the pipeline are:
- Identify programming language by file extension, to learn which programming languages are used alongside Numba.
- For all C/C++/CUDA files,
- try to parse it as a pure C file using pycparser (mostly to distinguish between C and C++),
- look for CUDA's triple angle brackets, and
- regex-search it for
\s*#include [<\"](.*)[>\"]to get a list of includes (and identify if the include-file name matches the name of a file in the repo, so that locally defined files can be excluded).
- For all Python and Jupyter notebook files, parse the file with Python 3 (3.10.12) and indicate if parsing failed. For Jupyter, use jupytext to transform the Jupyter JSON into an in-memory pure Python, with IPython magics removed. Then, walk the Python AST to
- collect all information on top-level imports and nested imports, keeping track of how imported modules or symbols are renamed,
- if any of these are under the
numbamodule, collect all symbol references and argument lists of function calls, including whether or not a function was used as a decorator, and - pay close attention to JIT-compilation functions/decorators:
numba.jit,numba.njit,numba.generated_jit,numba.vectorize,numba.guvectorize,numba.cfunc.
My copy of the static analysis results is at https://pivarski-princeton.s3.amazonaws.com/GitHub-numba-user-nonfork-static-analysis-results.jsons.gz (77.0 MB).
import json
from collections import Counter
import matplotlib.pyplot as plt
import numpy as np
import pandas as pdresults = []
with open("static-analysis-results.jsons") as file:
for line in file:
results.append(json.loads(line))len(results)13511
df = pd.DataFrame([{"suffix": cfile["suffix"], "is_c": cfile["data"]["is_c"], "is_cuda": cfile["data"]["num_cuda"] > 0} for result in results for cfile in result["c"]])
df| suffix | is_c | is_cuda | |
|---|---|---|---|
| 0 | cpp | True | False |
| 1 | c | False | False |
| 2 | c | False | False |
| 3 | cpp | False | False |
| 4 | cpp | False | False |
| ... | ... | ... | ... |
| 897086 | h | False | False |
| 897087 | h | False | False |
| 897088 | h | False | False |
| 897089 | h | False | False |
| 897090 | c | False | False |
897091 rows Ă— 3 columns
The file extension is useless for determining if something is pure C versus C++.
df["suffix"][df["is_c"]].value_counts()suffix
h 9157
cpp 3236
c 3024
hpp 2311
cxx 160
cc 106
cuh 49
cu 20
hh 6
hxx 5
Name: count, dtype: int64
df["suffix"][~df["is_c"]].value_counts()suffix
h 401378
cpp 194933
c 85414
cc 73949
hpp 45596
cu 40778
cxx 24752
cuh 6170
hh 3046
hxx 2982
c++ 13
cp 3
hp 3
Name: count, dtype: int64
But it's a pretty good indicator that a CUDA file is a CUDA file (unless it's a header file, but then my method of checking for <<< >>> doesn't work, either).
df["suffix"][df["is_cuda"]].value_counts()suffix
cu 18197
h 1274
cuh 962
c 101
cpp 85
hpp 82
cc 73
hxx 2
hh 1
Name: count, dtype: int64
df["suffix"][~df["is_cuda"]].value_counts()suffix
h 409261
cpp 198084
c 88337
cc 73982
hpp 47825
cxx 24912
cu 22601
cuh 5257
hh 3051
hxx 2985
c++ 13
cp 3
hp 3
Name: count, dtype: int64
languages = []
for result in results:
for pyfile in result["python"]:
if pyfile["data"] is not None and any(x == "numba" or x.startswith("numba.") for x in list(pyfile["data"]["top"]) + list(pyfile["data"]["nested"])):
break
else:
continue
username, reponame = result["name"].split("/", 1)
languages.append({"user": username, "repo": reponame})
for cfile in result["c"]:
if cfile["data"]["num_cuda"] > 0 or cfile["suffix"] in ("cu", "cuh"):
languages[-1]["CUDA"] = True
elif cfile["data"]["is_c"]:
languages[-1]["C"] = True
else:
languages[-1]["C++"] = True
for k, v in result["other_language"].items():
if v > 0:
languages[-1][k] = True
df = pd.DataFrame(languages).fillna(False)
df/tmp/ipykernel_76379/2710413475.py:21: FutureWarning: Downcasting object dtype arrays on .fillna, .ffill, .bfill is deprecated and will change in a future version. Call result.infer_objects(copy=False) instead. To opt-in to the future behavior, set `pd.set_option('future.no_silent_downcasting', True)`
df = pd.DataFrame(languages).fillna(False)
| user | repo | C | C++ | Cython | Julia | Swift | Go | CUDA | Java | ... | R | Rust | MATLAB | Fortran | Groovy | Scala | Kotlin | F# | Haskell | Ada | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 0 | JeffreyMinucci | ht_occupational | False | False | False | False | False | False | False | False | ... | False | False | False | False | False | False | False | False | False | False |
| 1 | dreamento | dreamento | False | False | False | False | False | False | False | False | ... | False | False | False | False | False | False | False | False | False | False |
| 2 | nitin7478 | Backorder_Prediction | False | False | False | False | False | False | False | False | ... | False | False | False | False | False | False | False | False | False | False |
| 3 | exafmm | pyexafmm | False | False | False | False | False | False | False | False | ... | False | False | False | False | False | False | False | False | False | False |
| 4 | astro-informatics | sleplet | False | False | False | False | False | False | False | False | ... | False | False | False | False | False | False | False | False | False | False |
| ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... |
| 13087 | haowen-xu | tensorkit | False | False | False | False | False | False | False | False | ... | False | False | False | False | False | False | False | False | False | False |
| 13088 | WONDER-project | OASYS1-WONDER | False | False | False | False | False | False | False | False | ... | False | False | False | False | False | False | False | False | False | False |
| 13089 | WONDER-project | Orange3-WONDER | False | False | False | False | False | False | False | False | ... | False | False | False | False | False | False | False | False | False | False |
| 13090 | maciej-sypetkowski | autoascend | False | False | False | False | False | False | False | False | ... | False | False | False | False | False | False | False | False | False | False |
| 13091 | FS-CSCI150-F21 | FS-CSCI150-F21-Team4 | True | True | True | False | False | False | False | False | ... | False | False | True | True | False | False | False | False | False | False |
13092 rows Ă— 24 columns
len(df) / len(results)0.9689882318111168
In the following, "C++" and "C" are mutually exclusive categories of file ("does it compile in pycparser or not?"), but the bars are not mutually exclusive because a repo can contain a C++ file and also a pure C file.
"CUDA" is not exclusive with respect to "C++" and "C"; it corresponds to any C-like file with <<< >>> in it.
fig, ax = plt.subplots(figsize=(6, 4.5))
(df.drop(columns=["user", "repo"]).sum(axis=0).sort_values() / len(df)).plot.barh(ax=ax)
ax.set_xlabel("fraction of non-fork repos that contain 'import numba'")
ax.set_title("non-Python languages (represented by at least one file)")
None
fig, ax = plt.subplots(figsize=(9, 4))
(df.drop(columns=["repo"]).groupby("user").any().sum(axis=0).sort_values()[4:] * 100 / len(df)).plot.barh(ax=ax)
ax.set_xlabel("Percentage of GitHub users who 'import numba' or 'from numba import' in Python")
ax.set_ylabel("Other language used (at least one file)")
ax.xaxis.grid(linestyle="--")
ax.set_axisbelow(True)
# fig.savefig("numba-users-other-language.svg")
# fig.savefig("numba-users-other-language.pdf")
df.drop(columns=["repo"]).groupby("user").any().sum(axis=0).sort_values()Ada 1
Haskell 13
F# 14
Kotlin 24
Swift 29
Groovy 32
Scala 43
Ruby 90
Rust 91
Julia 92
Go 93
C# 115
Perl 177
Java 300
R 317
Fortran 465
MATLAB 533
Mathematica 692
CUDA 1270
Cython 1406
C 1511
C++ 2850
dtype: int64
STDLIB_MODULES = {
"__main__",
"string",
"re",
"difflib",
"textwrap",
"unicodedata",
"stringprep",
"readline",
"rlcompleter",
"struct",
"codecs",
"datetime",
"calendar",
"collections",
"heapq",
"bisect",
"array",
"weakref",
"types",
"copy",
"pprint",
"reprlib",
"enum",
"numbers",
"math",
"cmath",
"decimal",
"fractions",
"random",
"statistics",
"itertools",
"functools",
"operator",
"pathlib",
"fileinput",
"stat",
"filecmp",
"tempfile",
"glob",
"fnmatch",
"linecache",
"shutil",
"macpath",
"pickle",
"copyreg",
"shelve",
"marshal",
"dbm",
"sqlite3",
"zlib",
"gzip",
"bz2",
"lzma",
"zipfile",
"tarfile",
"csv",
"configparser",
"netrc",
"xdrlib",
"plistlib",
"hashlib",
"hmac",
"secrets",
"os",
"io",
"time",
"argparse",
"getopt",
"logging",
"getpass",
"curses",
"platform",
"errno",
"ctypes",
"threading",
"multiprocessing",
"concurrent",
"subprocess",
"sched",
"queue",
"_thread",
"_dummy_thread",
"dummy_threading",
"contextvars",
"asyncio",
"socket",
"ssl",
"select",
"selectors",
"asyncore",
"asynchat",
"signal",
"mmap",
"email",
"json",
"mailcap",
"mailbox",
"mimetypes",
"base64",
"binhex",
"binascii",
"quopri",
"uu",
"html",
"xml",
"webbrowser",
"cgi",
"cgitb",
"wsgiref",
"urllib",
"ftplib",
"poplib",
"imaplib",
"nntplib",
"smtplib",
"smtpd",
"telnetlib",
"uuid",
"socketserver",
"xmlrpc",
"ipaddress",
"audioop",
"aifc",
"sunau",
"wave",
"chunk",
"colorsys",
"imghdr",
"sndhdr",
"ossaudiodev",
"gettext",
"locale",
"turtle",
"cmd",
"shlex",
"tkinter",
"typing",
"pydoc",
"doctest",
"unittest",
"lib2to3",
"test",
"bdb",
"faulthandler",
"pdb",
"timeit",
"trace",
"tracemalloc",
"distutils",
"ensurepip",
"venv",
"zipapp",
"sys",
"sysconfig",
"builtins",
"warnings",
"dataclasses",
"contextlib",
"abc",
"atexit",
"traceback",
"__future__",
"gc",
"inspect",
"site",
"code",
"codeop",
"zipimport",
"pkgutil",
"modulefinder",
"runpy",
"importlib",
"parser",
"ast",
"symtable",
"symbol",
"token",
"keyword",
"tokenize",
"tabnanny",
"pyclbr",
"py_compile",
"compileall",
"dis",
"pickletools",
"formatter",
"msilib",
"msvcrt",
"winreg",
"winsound",
"posix",
"pwd",
"spwd",
"grp",
"crypt",
"termios",
"tty",
"pty",
"fcntl",
"pipes",
"resource",
"nis",
"syslog",
"optparse",
"imp",
"posixpath",
"ntpath",
}# https://stackoverflow.com/a/2029106/1623645
C_STDLIB_MODULES = set([
"aio.h",
"algorithm",
"any",
"arpa/inet.h",
"array",
"assert.h",
"atomic",
"barrier",
"bit",
"bitset",
"cassert",
"ccomplex",
"cctype",
"cerrno",
"cfenv",
"cfloat",
"charconv",
"chrono",
"cinttypes",
"ciso646",
"climits",
"clocale",
"cmath",
"codecvt",
"compare",
"complex",
"complex.h",
"concepts",
"condition_variable",
"coroutine",
"cpio.h",
"csetjmp",
"csignal",
"cstdalign",
"cstdarg",
"cstdbool",
"cstddef",
"cstdint",
"cstdio",
"cstdlib",
"cstring",
"ctgmath",
"ctime",
"ctype.h",
"cuchar",
"curses.h",
"cwchar",
"cwctype",
"deque",
"dirent.h",
"dlfcn.h",
"errno.h",
"exception",
"execution",
"expected",
"fcntl.h",
"fenv.h",
"filesystem",
"flat_map",
"flat_set",
"float.h",
"fmtmsg.h",
"fnmatch.h",
"format",
"forward_list",
"fstream",
"ftw.h",
"functional",
"future",
"generator",
"glob.h",
"grp.h",
"iconv.h",
"initializer_list",
"inttypes.h",
"iomanip",
"ios",
"iosfwd",
"iostream",
"iso646.h",
"istream",
"iterator",
"langinfo.h",
"latch",
"libgen.h",
"limits",
"limits.h",
"list",
"locale",
"locale.h",
"map",
"math.h",
"mdspan",
"memory",
"memory_resource",
"monetary.h",
"mqueue.h",
"mutex",
"ndbm.h",
"netdb.h",
"net/if.h",
"netinet/in.h",
"netinet/tcp.h",
"new",
"nl_types.h",
"numbers",
"numeric",
"optional",
"ostream",
"poll.h",
"print",
"pthread.h",
"pwd.h",
"queue",
"random",
"ranges",
"ratio",
"regex",
"regex.h",
"sched.h",
"scoped_allocator",
"search.h",
"semaphore",
"semaphore.h",
"set",
"setjmp.h",
"shared_mutex",
"signal.h",
"source_location",
"span",
"spanstream",
"spawn.h",
"sstream",
"stack",
"stacktrace",
"stdalign.h",
"stdarg.h",
"stdatomic.h",
"stdbit.h",
"stdbool.h",
"stdckdint.h",
"stddef.h",
"stdexcept",
"stdfloat",
"stdint.h",
"stdio.h",
"stdlib.h",
"stdnoreturn.h",
"stop_token",
"streambuf",
"string",
"string.h",
"strings.h",
"string_view",
"stropts.h",
"strstream",
"syncstream",
"sys/ipc.h",
"syslog.h",
"sys/mman.h",
"sys/msg.h",
"sys/resource.h",
"sys/select.h",
"sys/sem.h",
"sys/shm.h",
"sys/socket.h",
"sys/stat.h",
"sys/statvfs.h",
"system_error",
"sys/time.h",
"sys/times.h",
"sys/types.h",
"sys/uio.h",
"sys/un.h",
"sys/utsname.h",
"sys/wait.h",
"tar.h",
"term.h",
"termios.h",
"tgmath.h",
"thread",
"threads.h",
"time.h",
"trace.h",
"tuple",
"typeindex",
"typeinfo",
"type_traits",
"uchar.h",
"ulimit.h",
"uncntrl.h",
"unistd.h",
"unordered_map",
"unordered_set",
"utility",
"utime.h",
"utmpx.h",
"valarray",
"variant",
"vector",
"version",
"wchar.h",
"wctype.h",
"wordexp.h",
])num_with_numba = 0
python_imports = Counter()
c_imports = Counter()
for result in results:
for pyfile in result["python"]:
if pyfile["data"] is not None and any(x == "numba" or x.startswith("numba.") for x in list(pyfile["data"]["top"]) + list(pyfile["data"]["nested"])):
break
else:
continue
num_with_numba += 1
counter = Counter()
for pyfile in result["python"]:
if pyfile["data"] is not None:
for x in list(pyfile["data"]["top"]) + list(pyfile["data"]["nested"]):
if x not in STDLIB_MODULES and x != "numba":
counter[x] += 1
for x in counter:
python_imports[x] += 1
counter = Counter()
for cfile in result["c"]:
if cfile["data"] is not None:
for x in list(cfile["data"]["global"]) + list(cfile["data"]["local"]):
if x not in C_STDLIB_MODULES and x != "numba":
counter[x] += 1
for x in counter:
c_imports[x] += 1
python_imports = sorted(python_imports.items(), key=lambda x: -x[1])
c_imports = sorted(c_imports.items(), key=lambda x: -x[1])fig, (ax1, ax2) = plt.subplots(1, 2, figsize=(11, 9))
(pd.Series(dict(python_imports[:50])).sort_values() / num_with_numba).plot.barh(ax=ax1)
ax1.set_xlabel("fraction of non-fork repos that contain 'import numba'")
ax1.set_title("top Python imports (not standard library)")
ax1.set_xlim(0, 1)
(pd.Series(dict(c_imports[:50])).sort_values() / num_with_numba).plot.barh(ax=ax2)
ax2.set_xlabel("fraction of non-fork repos that contain 'import numba'")
ax2.set_title("top C and C++ includes (not standard library)")
# ax2.set_xlim(0, 1)
plt.subplots_adjust(wspace=0.8)
None
num_with_numba = 0
numba_references = Counter()
for result in results:
for pyfile in result["python"]:
if pyfile["data"] is not None and any(x == "numba" or x.startswith("numba.") for x in list(pyfile["data"]["top"]) + list(pyfile["data"]["nested"])):
break
else:
continue
num_with_numba += 1
counter = Counter()
for pyfile in result["python"]:
if pyfile["data"] is not None:
for x in pyfile["data"]["numba"]:
y = x.lstrip("@").split("(")[0]
if x.startswith("numba.jit") and "nopython=True" in x:
y = "numba.njit"
counter[y] += 1
for x in counter:
numba_references[x] += 1
numba_references = sorted(numba_references.items(), key=lambda x: -x[1])fig, ax = plt.subplots(figsize=(6, 9))
(pd.Series(dict(numba_references[:50])).sort_values() / num_with_numba).plot.barh(ax=ax)
ax.set_xlabel("fraction of non-fork repos that contain 'import numba'")
ax.set_title("top Numba API calls")
# ax1.set_xlim(0, 1)
None
JIT_FUNCTIONS = {"numba.jit", "numba.njit", "numba.generated_jit", "numba.vectorize", "numba.guvectorize", "numba.cfunc", "numba.cuda.jit"}fig, ax = plt.subplots(figsize=(6, 2))
(pd.Series({k: v for k, v in numba_references if k in JIT_FUNCTIONS}).sort_values() / num_with_numba).plot.barh(ax=ax)
ax.set_xlabel("fraction of non-fork repos that contain 'import numba'")
ax.set_title("Numba JIT API calls")
# ax1.set_xlim(0, 1)
None
num_with_numba = 0
jit_arguments = Counter()
for result in results:
for pyfile in result["python"]:
if pyfile["data"] is not None and any(x == "numba" or x.startswith("numba.") for x in list(pyfile["data"]["top"]) + list(pyfile["data"]["nested"])):
break
else:
continue
num_with_numba += 1
counter = Counter()
for pyfile in result["python"]:
if pyfile["data"] is not None:
for x in pyfile["data"]["numba"]:
if "(" in x and (x.lstrip("@").startswith("numba.jit") or x.lstrip("@").startswith("numba.njit")):
for arg in x.split("(", 1)[1].rstrip(")").split(","):
if "=" in arg:
counter[arg.strip()] += 1
if x.lstrip("@").startswith("numba.njit"):
counter["nopython=True"] += 1
for x in counter:
jit_arguments[x] += 1
jit_arguments = sorted(jit_arguments.items(), key=lambda x: -x[1])fig, ax = plt.subplots(figsize=(6, 4.5))
(pd.Series(dict(jit_arguments[:17])).sort_values() / num_with_numba).plot.barh(ax=ax)
ax.set_xlabel("fraction of non-fork repos that contain 'import numba'")
ax.set_title("top numba.jit arguments")
# ax1.set_xlim(0, 1)
None
num_with_numba = 0
num_with_numba_cuda = 0
for result in results:
for pyfile in result["python"]:
if pyfile["data"] is not None and any(x == "numba" or x.startswith("numba.") for x in list(pyfile["data"]["top"]) + list(pyfile["data"]["nested"])):
break
else:
continue
num_with_numba += 1
any_cuda = False
for pyfile in result["python"]:
if pyfile["data"] is not None:
for x in pyfile["data"]["numba"]:
if x.startswith("numba.cuda"):
any_cuda = True
if any_cuda:
num_with_numba_cuda += 1
num_with_numba_cuda / num_with_numba0.13978001833180567