input stringlengths 11 7.65k | target stringlengths 22 8.26k |
|---|---|
def handler(self):
pass | def test_telemetry_imports_hf(runner, live_mock_server, parse_ctx):
with runner.isolated_filesystem():
run = wandb.init()
with mock.patch.dict("sys.modules", {"transformers": mock.Mock()}):
import transformers
run.finish()
ctx_util = parse_ctx(live_mock_server.get_ctx())
telemetry = ctx_util.telemetry
# hf in finish modules but not in init modules
assert telemetry and 11 not in telemetry.get("1", [])
assert telemetry and 11 in telemetry.get("2", []) |
def handler(self):
pass | def unique_name():
now_time = datetime.datetime.now().strftime("%Y%m%d%H%M%S")
random_num = random.randint(0, 100)
if random_num <= 10:
random_num = str(0) + str(random_num)
unique_num = str(now_time) + str(random_num)
return unique_num |
def handler(self):
pass | def test_telemetry_imports_catboost(runner, live_mock_server, parse_ctx):
with runner.isolated_filesystem():
with mock.patch.dict("sys.modules", {"catboost": mock.Mock()}):
import catboost
run = wandb.init()
run.finish()
ctx_util = parse_ctx(live_mock_server.get_ctx())
telemetry = ctx_util.telemetry
# catboost in both init and finish modules
assert telemetry and 7 in telemetry.get("1", [])
assert telemetry and 7 in telemetry.get("2", []) |
def handler(self):
pass | def image_thumbnail(filename):
filepath = os.path.join(app.config.get('UPLOAD_FOLDER'), filename)
im = Image.open(filepath)
w, h = im.size
if w > h:
im.thumbnail((106, 106*h/w))
else:
im.thumbnail((106*w/h, 106))
im.save(os.path.join(app.config.get('UPLOAD_FOLDER'),
os.path.splitext(filename)[0] + '_thumbnail' + os.path.splitext(filename)[1])) |
def handler(self):
pass | def test_telemetry_imports_jax(runner, live_mock_server, parse_ctx):
with runner.isolated_filesystem():
import jax
wandb.init()
wandb.finish()
ctx_util = parse_ctx(live_mock_server.get_ctx())
telemetry = ctx_util.telemetry
# jax in finish modules but not in init modules
assert telemetry and 12 in telemetry.get("1", [])
assert telemetry and 12 in telemetry.get("2", []) |
def handler(self):
pass | def image_delete(filename):
thumbnail_filepath = os.path.join(app.config.get('UPLOAD_FOLDER'), filename)
filepath = thumbnail_filepath.replace('_thumbnail', '')
os.remove(filepath)
os.remove(thumbnail_filepath) |
def handler(self):
pass | def test_telemetry_run_organizing_init(runner, live_mock_server, parse_ctx):
with runner.isolated_filesystem():
wandb.init(name="test_name", tags=["my-tag"], config={"abc": 123}, id="mynewid")
wandb.finish()
ctx_util = parse_ctx(live_mock_server.get_ctx())
telemetry = ctx_util.telemetry
assert telemetry and 13 in telemetry.get("3", []) # name
assert telemetry and 14 in telemetry.get("3", []) # id
assert telemetry and 15 in telemetry.get("3", []) # tags
assert telemetry and 16 in telemetry.get("3", []) # config |
def handler(self):
pass | def _rematcher(regex):
"""compile the regexp with the best available regexp engine and return a
matcher function"""
m = util.re.compile(regex)
try:
# slightly faster, provided by facebook's re2 bindings
return m.test_match
except AttributeError:
return m.match |
def handler(self):
pass | def refresh():
win.Refresh()
print type(win) |
def handler(self):
pass | def _expandsets(kindpats, ctx):
"""Returns the kindpats list with the 'set' patterns expanded."""
fset = set()
other = []
for kind, pat, source in kindpats:
if kind == "set":
if not ctx:
raise error.ProgrammingError("fileset expression with no " "context")
s = ctx.getfileset(pat)
fset.update(s)
continue
other.append((kind, pat, source))
return fset, other |
def handler(self):
pass | def create_texture():
global rgbtex
rgbtex = glGenTextures(1)
glBindTexture(TEXTURE_TARGET, rgbtex)
glTexImage2D(TEXTURE_TARGET,0,GL_RGB,640,480,0,GL_RGB,GL_UNSIGNED_BYTE,None) |
def handler(self):
pass | def _expandsubinclude(kindpats, root):
"""Returns the list of subinclude matcher args and the kindpats without the
subincludes in it."""
relmatchers = []
other = []
for kind, pat, source in kindpats:
if kind == "subinclude":
sourceroot = pathutil.dirname(util.normpath(source))
pat = util.pconvert(pat)
path = pathutil.join(sourceroot, pat)
newroot = pathutil.dirname(path)
matcherargs = (newroot, "", [], ["include:%s" % path])
prefix = pathutil.canonpath(root, root, newroot)
if prefix:
prefix += "/"
relmatchers.append((prefix, matcherargs))
else:
other.append((kind, pat, source))
return relmatchers, other |
def handler(self):
pass | def EVT_LEFT_DOWN(event):
global _mpos
_mpos = event.Position |
def handler(self):
pass | def _kindpatsalwaysmatch(kindpats):
""" "Checks whether the kindspats match everything, as e.g.
'relpath:.' does.
"""
for kind, pat, source in kindpats:
# TODO: update me?
if pat != "" or kind not in ["relpath", "glob"]:
return False
return True |
def handler(self):
pass | def EVT_LEFT_UP(event):
global _mpos
_mpos = None |
def handler(self):
pass | def normalize(patterns, default, root, cwd, auditor, warn):
kp = _donormalize(patterns, default, root, cwd, auditor, warn)
kindpats = []
for kind, pats, source in kp:
if kind not in ("re", "relre"): # regex can't be normalized
p = pats
pats = dsnormalize(pats)
# Preserve the original to handle a case only rename.
if p != pats and p in dirstate:
kindpats.append((kind, p, source))
kindpats.append((kind, pats, source))
return kindpats |
def handler(self):
pass | def EVT_MOTION(event):
global _mpos
if event.LeftIsDown():
if _mpos:
(x,y),(mx,my) = event.Position,_mpos
rotangles[0] += y-my
rotangles[1] += x-mx
refresh()
_mpos = event.Position |
def handler(self):
pass | def exact(root, cwd, files, badfn=None):
return exactmatcher(root, cwd, files, badfn=badfn) |
def handler(self):
pass | def EVT_MOUSEWHEEL(event):
global zoomdist
dy = event.WheelRotation
zoomdist *= np.power(0.95, -dy)
refresh() |
def handler(self):
pass | def always(root, cwd):
return alwaysmatcher(root, cwd) |
def handler(self):
pass | def mouse_rotate(xAngle, yAngle, zAngle):
glRotatef(xAngle, 1.0, 0.0, 0.0);
glRotatef(yAngle, 0.0, 1.0, 0.0);
glRotatef(zAngle, 0.0, 0.0, 1.0); |
def handler(self):
pass | def never(root, cwd):
return nevermatcher(root, cwd) |
def handler(self):
pass | def playcolors():
while 1:
global clearcolor
clearcolor = [np.random.random(),0,0,0]
time.sleep(0.1)
refresh() |
def handler(self):
pass | def union(matches, root, cwd):
"""Union a list of matchers.
If the list is empty, return nevermatcher.
If the list only contains one non-None value, return that matcher.
Otherwise return a union matcher.
"""
matches = list(filter(None, matches))
if len(matches) == 0:
return nevermatcher(root, cwd)
elif len(matches) == 1:
return matches[0]
else:
return unionmatcher(matches) |
def handler(self):
pass | def update(dt=0):
global projpts, rgb, depth
depth,_ = freenect.sync_get_depth()
rgb,_ = freenect.sync_get_video()
q = depth
X,Y = np.meshgrid(range(640),range(480))
# YOU CAN CHANGE THIS AND RERUN THE PROGRAM!
# Point cloud downsampling
d = 4
projpts = calibkinect.depth2xyzuv(q[::d,::d],X[::d,::d],Y[::d,::d])
refresh() |
def handler(self):
pass | def badmatch(match, badfn):
"""Make a copy of the given matcher, replacing its bad method with the given
one.
"""
m = copy.copy(match)
m.bad = badfn
return m |
def handler(self):
pass | def update_join():
update_on()
try:
_thread.join()
except:
update_off() |
def handler(self):
pass | def _donormalize(patterns, default, root, cwd, auditor, warn):
"""Convert 'kind:pat' from the patterns list to tuples with kind and
normalized and rooted patterns and with listfiles expanded."""
kindpats = []
for kind, pat in [_patsplit(p, default) for p in patterns]:
if kind in cwdrelativepatternkinds:
pat = pathutil.canonpath(root, cwd, pat, auditor)
elif kind in ("relglob", "path", "rootfilesin"):
pat = util.normpath(pat)
elif kind in ("listfile", "listfile0"):
try:
files = decodeutf8(util.readfile(pat))
if kind == "listfile0":
files = files.split("\0")
else:
files = files.splitlines()
files = [f for f in files if f]
except EnvironmentError:
raise error.Abort(_("unable to read file list (%s)") % pat)
for k, p, source in _donormalize(files, default, root, cwd, auditor, warn):
kindpats.append((k, p, pat))
continue
elif kind == "include":
try:
fullpath = os.path.join(root, util.localpath(pat))
includepats = readpatternfile(fullpath, warn)
for k, p, source in _donormalize(
includepats, default, root, cwd, auditor, warn
):
kindpats.append((k, p, source or pat))
except error.Abort as inst:
raise error.Abort("%s: %s" % (pat, inst[0]))
except IOError as inst:
if warn:
warn(
_("skipping unreadable pattern file '%s': %s\n")
% (pat, inst.strerror)
)
continue
# else: re or relre - which cannot be normalized
kindpats.append((kind, pat, ""))
return kindpats |
def handler(self):
pass | def update_on():
global _updating
if not '_updating' in globals(): _updating = False
if _updating: return |
def handler(self):
pass | def _testrefastpath(repat):
"""Test if a re pattern can use fast path.
That is, for every "$A/$B" path the pattern matches, "$A" must also be
matched,
Return True if we're sure it is. Return False otherwise.
"""
# XXX: It's very hard to implement this. These are what need to be
# supported in production and tests. Very hacky. But we plan to get rid
# of re matchers eventually.
# Rules like "(?!experimental/)"
if repat.startswith("(?!") and repat.endswith(")") and repat.count(")") == 1:
return True
# Rules used in doctest
if repat == "(i|j)$":
return True
return False |
def handler(self):
pass | def _run():
while _updating:
update() |
def handler(self):
pass | def _globpatsplit(pat):
"""Split a glob pattern. Return a list.
A naive version is "path.split("/")". This function handles more cases, like
"{*,{a,b}*/*}".
>>> _globpatsplit("*/**/x/{a,b/c}")
['*', '**', 'x', '{a,b/c}']
"""
result = []
buf = ""
parentheses = 0
for ch in pat:
if ch == "{":
parentheses += 1
elif ch == "}":
parentheses -= 1
if parentheses == 0 and ch == "/":
if buf:
result.append(buf)
buf = ""
else:
buf += ch
if buf:
result.append(buf)
return result |
def handler(self):
pass | def update_off():
global _updating
_updating = False |
def handler(self):
pass | def __init__(self, *args, **kwargs):
# If True, avoid entering subdirectories, and match everything recursively,
# unconditionally.
self.matchrecursive = False
# If True, avoid entering subdirectories, and return "unsure" for
# everything. This is set to True when complex re patterns (potentially
# including "/") are used.
self.unsurerecursive = False
# Patterns for matching paths in this directory.
self._kindpats = []
# Glob patterns used to match parent directories of another glob
# pattern.
self._globdirpats = []
super(_tree, self).__init__(*args, **kwargs) |
def handler(self):
pass | def loopcv():
import cv
while 1:
cv.ShowImage('hi',get_depth().astype(np.uint8))
cv.WaitKey(10) |
def handler(self):
pass | def insert(self, path, matchrecursive=True, globpats=None, repats=None):
"""Insert a directory path to this tree.
If matchrecursive is True, mark the directory as unconditionally
include files and subdirs recursively.
If globpats or repats are specified, append them to the patterns being
applied at this directory. The tricky part is those patterns can match
"x/y/z" and visit("x"), visit("x/y") need to return True, while we
still want visit("x/a") to return False.
"""
if path == "":
self.matchrecursive |= matchrecursive
if globpats:
# Need to match parent directories too.
for pat in globpats:
components = _globpatsplit(pat)
parentpat = ""
for comp in components:
if parentpat:
parentpat += "/"
parentpat += comp
if "/" in comp:
# Giving up - fallback to slow paths.
self.unsurerecursive = True
self._globdirpats.append(parentpat)
if any("**" in p for p in globpats):
# Giving up - "**" matches paths including "/"
self.unsurerecursive = True
self._kindpats += [("glob", pat, "") for pat in globpats]
if repats:
if not all(map(_testrefastpath, repats)):
# Giving up - fallback to slow paths.
self.unsurerecursive = True
self._kindpats += [("re", pat, "") for pat in repats]
return
subdir, rest = self._split(path)
self.setdefault(subdir, _tree()).insert(rest, matchrecursive, globpats, repats) |
def handler(self):
pass | def visitdir(self, path):
"""Similar to matcher.visitdir"""
path = normalizerootdir(path, "visitdir")
if self.matchrecursive:
return "all"
elif self.unsurerecursive:
return True
elif path == "":
return True
if self._kindpats and self._compiledpats(path):
# XXX: This is incorrect. But re patterns are already used in
# production. We should kill them!
# Need to test "if every string starting with 'path' matches".
# Obviously it's impossible to test *every* string with the
# standard regex API, therefore pick a random strange path to test
# it approximately.
if self._compiledpats("%s/*/_/-/0/*" % path):
return "all"
else:
return True
if self._globdirpats and self._compileddirpats(path):
return True
subdir, rest = self._split(path)
subtree = self.get(subdir)
if subtree is None:
return False
else:
return subtree.visitdir(rest) |
def handler(self):
pass | def _compiledpats(self):
pat, matchfunc = _buildregexmatch(self._kindpats, "")
return matchfunc |
def handler(self):
pass | def _compileddirpats(self):
pat, matchfunc = _buildregexmatch(
[("glob", p, "") for p in self._globdirpats], "$"
)
return matchfunc |
def handler(self):
pass | def _split(self, path):
if "/" in path:
subdir, rest = path.split("/", 1)
else:
subdir, rest = path, ""
if not subdir:
raise error.ProgrammingError("path cannot be absolute")
return subdir, rest |
def handler(self):
pass | def _remainingpats(pat, prefix):
"""list of patterns with prefix stripped
>>> _remainingpats("a/b/c", "")
['a/b/c']
>>> _remainingpats("a/b/c", "a")
['b/c']
>>> _remainingpats("a/b/c", "a/b")
['c']
>>> _remainingpats("a/b/c", "a/b/c")
[]
>>> _remainingpats("", "")
[]
"""
if prefix:
if prefix == pat:
return []
else:
assert pat[len(prefix)] == "/"
return [pat[len(prefix) + 1 :]]
else:
if pat:
return [pat]
else:
return [] |
def handler(self):
pass | def _buildvisitdir(kindpats):
"""Try to build an efficient visitdir function
Return a visitdir function if it's built. Otherwise return None
if there are unsupported patterns.
>>> _buildvisitdir([('include', 'foo', '')])
>>> _buildvisitdir([('relglob', 'foo', '')])
>>> t = _buildvisitdir([
... ('glob', 'a/b', ''),
... ('glob', 'c/*.d', ''),
... ('glob', 'e/**/*.c', ''),
... ('re', '^f/(?!g)', ''), # no "$", only match prefix
... ('re', '^h/(i|j)$', ''),
... ('glob', 'i/a*/b*/c*', ''),
... ('glob', 'i/a5/b7/d', ''),
... ('glob', 'j/**.c', ''),
... ])
>>> t('a')
True
>>> t('a/b')
'all'
>>> t('a/b/c')
'all'
>>> t('c')
True
>>> t('c/d')
False
>>> t('c/rc.d')
'all'
>>> t('c/rc.d/foo')
'all'
>>> t('e')
True
>>> t('e/a')
True
>>> t('e/a/b.c')
True
>>> t('e/a/b.d')
True
>>> t('f')
True
>>> t('f/g')
False
>>> t('f/g2')
False
>>> t('f/g/a')
False
>>> t('f/h')
'all'
>>> t('f/h/i')
'all'
>>> t('h/i')
True
>>> t('h/i/k')
False
>>> t('h/k')
False
>>> t('i')
True
>>> t('i/a1')
True
>>> t('i/b2')
False
>>> t('i/a/b2/c3')
'all'
>>> t('i/a/b2/d4')
False
>>> t('i/a5/b7/d')
'all'
>>> t('j/x/y')
True
>>> t('z')
False
"""
tree = _tree()
for kind, pat, _source in kindpats:
if kind == "glob":
components = []
for p in pat.split("/"):
if "[" in p or "{" in p or "*" in p or "?" in p:
break
components.append(p)
prefix = "/".join(components)
matchrecursive = prefix == pat
tree.insert(
prefix,
matchrecursive=matchrecursive,
globpats=_remainingpats(pat, prefix),
)
elif kind == "re":
# Still try to get a plain prefix from the regular expression so we
# can still have fast paths.
if pat.startswith("^"):
# "re" already matches from the beginning, unlike "relre"
pat = pat[1:]
components = []
for p in pat.split("/"):
if re.escape(p) != p:
# contains special characters
break
components.append(p)
prefix = "/".join(components)
tree.insert(
prefix, matchrecursive=False, repats=_remainingpats(pat, prefix)
)
else:
# Unsupported kind
return None
return tree.visitdir |
def handler(self):
pass | def __init__(self, root, cwd, badfn=None, relativeuipath=True):
self._root = root
self._cwd = cwd
if badfn is not None:
self.bad = badfn
self._relativeuipath = relativeuipath |
def handler(self):
pass | def __repr__(self):
return "<%s>" % self.__class__.__name__ |
def handler(self):
pass | def __call__(self, fn):
return self.matchfn(fn) |
def handler(self):
pass | def __iter__(self):
for f in self._files:
yield f |
def handler(self):
pass | def bad(self, f, msg):
"""Callback from dirstate.walk for each explicit file that can't be
found/accessed, with an error message.""" |
def handler(self):
pass | def abs(self, f):
"""Convert a repo path back to path that is relative to the root of the
matcher."""
return f |
def handler(self):
pass | def rel(self, f):
"""Convert repo path back to path that is relative to cwd of matcher."""
return util.pathto(self._root, self._cwd, f) |
def handler(self):
pass | def uipath(self, f):
"""Convert repo path to a display path. If patterns or -I/-X were used
to create this matcher, the display path will be relative to cwd.
Otherwise it is relative to the root of the repo."""
return (self._relativeuipath and self.rel(f)) or self.abs(f) |
def handler(self):
pass | def files(self):
"""Explicitly listed files or patterns or roots:
if no patterns or .always(): empty list,
if exact: list exact files,
if not .anypats(): list all files and dirs,
else: optimal roots"""
return self._files |
def handler(self):
pass | def _fileset(self):
return set(self._files) |
def handler(self):
pass | def exact(self, f):
"""Returns True if f is in .files()."""
return f in self._fileset |
def handler(self):
pass | def matchfn(self, f):
return False |
def handler(self):
pass | def visitdir(self, dir):
"""Decides whether a directory should be visited based on whether it
has potential matches in it or one of its subdirectories. This is
based on the match's primary, included, and excluded patterns.
Returns the string 'all' if the given directory and all subdirectories
should be visited. Otherwise returns True or False indicating whether
the given directory should be visited.
"""
return True |
def handler(self):
pass | def always(self):
"""Matcher will match everything and .files() will be empty --
optimization might be possible."""
return False |
def handler(self):
pass | def isexact(self):
"""Matcher will match exactly the list of files in .files() --
optimization might be possible."""
return False |
def handler(self):
pass | def prefix(self):
"""Matcher will match the paths in .files() recursively --
optimization might be possible."""
return False |
def handler(self):
pass | def anypats(self):
"""None of .always(), .isexact(), and .prefix() is true --
optimizations will be difficult."""
return not self.always() and not self.isexact() and not self.prefix() |
def handler(self):
pass | def __init__(self, root, cwd, badfn=None, relativeuipath=False):
super(alwaysmatcher, self).__init__(
root, cwd, badfn, relativeuipath=relativeuipath
) |
def handler(self):
pass | def always(self):
return True |
def handler(self):
pass | def matchfn(self, f):
return True |
def handler(self):
pass | def visitdir(self, dir):
return "all" |
def handler(self):
pass | def __repr__(self):
return "<alwaysmatcher>" |
def handler(self):
pass | def __init__(self, root, cwd, badfn=None):
super(nevermatcher, self).__init__(root, cwd, badfn) |
def handler(self):
pass | def isexact(self):
return True |
def handler(self):
pass | def visitdir(self, dir):
return False |
def handler(self):
pass | def __repr__(self):
return "<nevermatcher>" |
def handler(self):
pass | def __init__(self, root, cwd, badfn=None, gitignorepaths=None):
super(gitignorematcher, self).__init__(root, cwd, badfn)
gitignorepaths = gitignorepaths or []
self._matcher = pathmatcher.gitignorematcher(root, gitignorepaths) |
def handler(self):
pass | def matchfn(self, f):
# XXX: is_dir is set to True here for performance.
# It should be set to whether "f" is actually a directory or not.
return self._matcher.match_relative(f, True) |
def handler(self):
pass | def explain(self, f):
return self._matcher.explain(f, True) |
def handler(self):
pass | def visitdir(self, dir):
dir = normalizerootdir(dir, "visitdir")
matched = self._matcher.match_relative(dir, True)
if matched:
# Everything in the directory is selected (ignored)
return "all"
else:
# Not sure
return True |
def handler(self):
pass | def __repr__(self):
return "<gitignorematcher>" |
def handler(self):
pass | def __init__(self, root, cwd, badfn=None, rules=[]):
super(treematcher, self).__init__(root, cwd, badfn)
rules = list(rules)
self._matcher = pathmatcher.treematcher(rules)
self._rules = rules |
def handler(self):
pass | def matchfn(self, f):
return self._matcher.matches(f) |
def handler(self):
pass | def visitdir(self, dir):
matched = self._matcher.match_recursive(dir)
if matched is None:
return True
elif matched is True:
return "all"
else:
assert matched is False
return False |
def handler(self):
pass | def __repr__(self):
return "<treematcher rules=%r>" % self._rules |
def handler(self):
pass | def normalizerootdir(dir, funcname):
if dir == ".":
util.nouideprecwarn(
"match.%s() no longer accepts '.', use '' instead." % funcname, "20190805"
)
return ""
return dir |
def handler(self):
pass | def _kindpatstoglobs(kindpats, recursive=False):
"""Attempt to convert 'kindpats' to glob patterns that can be used in a
treematcher.
kindpats should be already normalized to be relative to repo root.
If recursive is True, `glob:a*` will match both `a1/b` and `a1`, otherwise
`glob:a*` will only match `a1` but not `a1/b`.
Return None if there are unsupported patterns (ex. regular expressions).
"""
if not _usetreematcher:
return None
globs = []
for kindpat in kindpats:
kind, pat = kindpat[0:2]
if kind == "re":
# Attempt to convert the re pat to globs
reglobs = _convertretoglobs(pat)
if reglobs is not None:
globs += reglobs
else:
return None
elif kind == "glob":
# The treematcher (man gitignore) does not support csh-style
# brackets (ex. "{a,b,c}"). Expand the brackets to patterns.
for subpat in pathmatcher.expandcurlybrackets(pat):
normalized = pathmatcher.normalizeglob(subpat)
if recursive:
normalized = _makeglobrecursive(normalized)
globs.append(normalized)
elif kind == "path":
if pat == ".":
# Special case. Comes from `util.normpath`.
pat = ""
else:
pat = pathmatcher.plaintoglob(pat)
pat = _makeglobrecursive(pat)
globs.append(pat)
else:
return None
return globs |
def handler(self):
pass | def _makeglobrecursive(pat):
"""Make a glob pattern recursive by appending "/**" to it"""
if pat.endswith("/") or not pat:
return pat + "**"
else:
return pat + "/**" |
def handler(self):
pass | def _convertretoglobs(repat):
"""Attempt to convert a regular expression pattern to glob patterns.
A single regular expression pattern might be converted into multiple
glob patterns.
Return None if conversion is unsupported.
>>> _convertretoglobs("abc*") is None
True
>>> _convertretoglobs("xx/yy/(?!zz/kk)")
['xx/yy/**', '!xx/yy/zz/kk/**']
>>> _convertretoglobs("x/y/(?:.*/)?BUCK")
['x/y/**/BUCK']
"""
m = _repat1.match(repat)
if m:
prefix, excluded = m.groups()
return ["%s/**" % prefix, "!%s/%s/**" % (prefix, excluded)]
m = _repat2.match(repat)
if m:
prefix, name = m.groups()
return ["%s/**/%s" % (prefix, name)]
return None |
def handler(self):
pass | def __init__(self, root, cwd, kindpats, ctx=None, badfn=None):
super(patternmatcher, self).__init__(root, cwd, badfn)
# kindpats are already normalized to be relative to repo-root.
# Can we use tree matcher?
rules = _kindpatstoglobs(kindpats, recursive=False)
fallback = True
if rules is not None:
try:
matcher = treematcher(root, cwd, badfn=badfn, rules=rules)
# Replace self to 'matcher'.
self.__dict__ = matcher.__dict__
self.__class__ = matcher.__class__
fallback = False
except ValueError:
# for example, Regex("Compiled regex exceeds size limit of 10485760 bytes.")
pass
if fallback:
self._prefix = _prefix(kindpats)
self._pats, self.matchfn = _buildmatch(ctx, kindpats, "$", root)
self._files = _explicitfiles(kindpats) |
def handler(self):
pass | def _dirs(self):
return set(util.dirs(self._fileset)) |
def handler(self):
pass | def visitdir(self, dir):
dir = normalizerootdir(dir, "visitdir")
if self._prefix and dir in self._fileset:
return "all"
if not self._prefix:
return True
return (
dir in self._fileset
or dir in self._dirs
or any(parentdir in self._fileset for parentdir in util.finddirs(dir))
) |
def handler(self):
pass | def prefix(self):
return self._prefix |
def handler(self):
pass | def __repr__(self):
return "<patternmatcher patterns=%r>" % self._pats |
def handler(self):
pass | def __init__(self, root, cwd, kindpats, ctx=None, badfn=None):
super(includematcher, self).__init__(root, cwd, badfn)
# Can we use tree matcher?
rules = _kindpatstoglobs(kindpats, recursive=True)
fallback = True
if rules is not None:
try:
matcher = treematcher(root, cwd, badfn=badfn, rules=rules)
# Replace self to 'matcher'.
self.__dict__ = matcher.__dict__
self.__class__ = matcher.__class__
fallback = False
except ValueError:
# for example, Regex("Compiled regex exceeds size limit of 10485760 bytes.")
pass
if fallback:
self._pats, self.matchfn = _buildmatch(ctx, kindpats, "(?:/|$)", root)
# prefix is True if all patterns are recursive, so certain fast paths
# can be enabled. Unfortunately, it's too easy to break it (ex. by
# using "glob:*.c", "re:...", etc).
self._prefix = _prefix(kindpats)
roots, dirs = _rootsanddirs(kindpats)
# roots are directories which are recursively included.
# If self._prefix is True, then _roots can have a fast path for
# visitdir to return "all", marking things included unconditionally.
# If self._prefix is False, then that optimization is unsound because
# "roots" might contain entries that is not recursive (ex. roots will
# include "foo/bar" for pattern "glob:foo/bar/*.c").
self._roots = set(roots)
# dirs are directories which are non-recursively included.
# That is, files under that directory are included. But not
# subdirectories.
self._dirs = set(dirs)
# Try to use a more efficient visitdir implementation
visitdir = _buildvisitdir(kindpats)
if visitdir:
self.visitdir = visitdir |
def handler(self):
pass | def visitdir(self, dir):
dir = normalizerootdir(dir, "visitdir")
if self._prefix and dir in self._roots:
return "all"
return (
dir in self._roots
or dir in self._dirs
or any(parentdir in self._roots for parentdir in util.finddirs(dir))
) |
def handler(self):
pass | def __repr__(self):
return "<includematcher includes=%r>" % self._pats |
def handler(self):
pass | def __init__(self, root, cwd, files, badfn=None):
super(exactmatcher, self).__init__(root, cwd, badfn)
if isinstance(files, list):
self._files = files
else:
self._files = list(files) |
def handler(self):
pass | def visitdir(self, dir):
dir = normalizerootdir(dir, "visitdir")
return dir in self._dirs |
def handler(self):
pass | def __repr__(self):
return "<exactmatcher files=%r>" % self._files |
def handler(self):
pass | def __init__(self, m1, m2):
super(differencematcher, self).__init__(m1._root, m1._cwd)
self._m1 = m1
self._m2 = m2
self.bad = m1.bad
self.traversedir = m1.traversedir |
def handler(self):
pass | def matchfn(self, f):
return self._m1(f) and (not self._m2(f) or self._m1.exact(f)) |
def handler(self):
pass | def _files(self):
if self.isexact():
return [f for f in self._m1.files() if self(f)]
# If m1 is not an exact matcher, we can't easily figure out the set of
# files, because its files() are not always files. For example, if
# m1 is "path:dir" and m2 is "rootfileins:.", we don't
# want to remove "dir" from the set even though it would match m2,
# because the "dir" in m1 may not be a file.
return self._m1.files() |
def handler(self):
pass | def visitdir(self, dir):
dir = normalizerootdir(dir, "visitdir")
if not self._m2.visitdir(dir):
return self._m1.visitdir(dir)
if self._m2.visitdir(dir) == "all":
# There's a bug here: If m1 matches file 'dir/file' and m2 excludes
# 'dir' (recursively), we should still visit 'dir' due to the
# exception we have for exact matches.
return False
return bool(self._m1.visitdir(dir)) |
def handler(self):
pass | def isexact(self):
return self._m1.isexact() |
def handler(self):
pass | def __repr__(self):
return "<differencematcher m1=%r, m2=%r>" % (self._m1, self._m2) |
def handler(self):
pass | def intersectmatchers(m1, m2):
"""Composes two matchers by matching if both of them match.
The second matcher's non-matching-attributes (root, cwd, bad, traversedir)
are ignored.
"""
if m1 is None or m2 is None:
return m1 or m2
if m1.always():
m = copy.copy(m2)
# TODO: Consider encapsulating these things in a class so there's only
# one thing to copy from m1.
m.bad = m1.bad
m.traversedir = m1.traversedir
m.abs = m1.abs
m.rel = m1.rel
m._relativeuipath |= m1._relativeuipath
return m
if m2.always():
m = copy.copy(m1)
m._relativeuipath |= m2._relativeuipath
return m
return intersectionmatcher(m1, m2) |
def handler(self):
pass | def __init__(self, m1, m2):
super(intersectionmatcher, self).__init__(m1._root, m1._cwd)
self._m1 = m1
self._m2 = m2
self.bad = m1.bad
self.traversedir = m1.traversedir |
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