nomic-ai/cornstack-python-v1 · Datasets at Hugging Face

query stringlengths 9 3.4k	document stringlengths 9 87.4k	metadata dict	negatives listlengths 4 101	negative_scores listlengths 4 101	document_score stringlengths 3 10	document_rank stringclasses 102 values
List the names of available readers Note that this will import all readers.	def names() -> Tuple[str, ...]: return plugins.list_all(package_name=__name__)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def get_readers():\n return all_readers", "def get_reader_funcs():\n return READERS", "def list_reads(cls) -> list:\n return [cls.FWREAD, cls.RVREAD];", "def namelist(self):\n return self._handle.getnames()", "def namelist(self):\n return self._handle.getnames()", "def list_con...	[ "0.7477495", "0.64536035", "0.63747376", "0.5518427", "0.5518427", "0.5415075", "0.5403663", "0.5381984", "0.5381984", "0.53160554", "0.5299087", "0.527088", "0.52304727", "0.52028954", "0.5191611", "0.5185727", "0.51809806", "0.5179094", "0.5153803", "0.51439035", "0.513742"...	0.47953343	78
Check whether the given reader exists	def exists(reader_name: str) -> bool: return plugins.exists(package_name=__name__, plugin_name=reader_name)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def _haveReadLocks(self): \n readLockFileName = ReadLock.fileName\n for name in os.listdir(self.dir):\n if name.startswith(readLockFileName):\n return True\n return False", "def exists(identifier, network):\n foo = next(load(identifier, network), None)...	[ "0.6164184", "0.5904849", "0.58638656", "0.58638656", "0.5770025", "0.575396", "0.56898904", "0.5686118", "0.56144536", "0.56005126", "0.5580309", "0.5566034", "0.5542885", "0.55397743", "0.5537704", "0.55220896", "0.5509569", "0.54929805", "0.549026", "0.54900736", "0.547761...	0.66304976	0
Get one line documentation for readers If no readers are specified, documentation for all available readers are returned.	def short_docs(*readers: str) -> List[Tuple[str, str]]: if not readers: readers = names() return [(r, plugins.doc(__name__, r, long_doc=False)) for r in readers]	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def get_readers():\n return all_readers", "def get_docs(self):\n return self.retrieve_docstring()", "def get_docs(self):\n return self.retrieve_docstring()", "def get_docs(self):\n return self.retrieve_docstring()", "def read_documentation(self, fid):\r\n\r\n lin = self.read_...	[ "0.6139211", "0.5529351", "0.5529351", "0.5529351", "0.5385095", "0.53439957", "0.52958757", "0.5215697", "0.5117727", "0.49581614", "0.48913068", "0.4863882", "0.48443574", "0.48011702", "0.47767526", "0.47586027", "0.47446275", "0.4685375", "0.46740708", "0.4643249", "0.462...	0.67184293	0
Read a bytes stream with a given reader If the reader is not specified, an attempt to guess at an appropriate reader is made. A NoReaderFound error is raised if no such appropriate reader is found.	def read_stream( input_stream: IO[bytes], reader_name: Optional[str] = None, **reader_args: Any ) -> Reader: if reader_name is None: reader_name = identify(input_stream) reader = plugins.call( package_name=__name__, plugin_name=reader_name, input_stream=input_stream, ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def get_reader(fn):\n if is_bed(fn):\n return BedReader(fn)\n elif is_vcf(fn):\n return VcfReader(fn)\n else:\n raise ValueError(\"Could not get reader for %s\" % fn)", "def read_file(\n file_path: Union[str, pathlib.Path],\n reader_name: Optional[str] = None,\n **reader_ar...	[ "0.6057923", "0.6019735", "0.5995071", "0.59576786", "0.5762868", "0.5712855", "0.5576423", "0.544311", "0.54237616", "0.54231197", "0.5403411", "0.53777176", "0.53776944", "0.52933985", "0.5291875", "0.52114725", "0.5191779", "0.5167444", "0.514691", "0.51206833", "0.510413"...	0.6454055	0
Read a file with a given reader If the reader is not specified, an attempt to guess at an appropriate reader is made. A NoReaderFound error is raised if no such appropriate reader is found.	def read_file( file_path: Union[str, pathlib.Path], reader_name: Optional[str] = None, **reader_args: Any, ) -> Reader: with open(file_path, mode="rb") as input_stream: return read_stream(input_stream, reader_name)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def read(filePath, reader='infer'):\n if isinstance(reader, str):\n if reader == 'infer':\n loader = inferReader(filePath)\n else:\n if reader in READERS:\n loader = READERS[reader]\n else:\n raise SerpentToolsException(\n ...	[ "0.73507124", "0.6649994", "0.6541662", "0.6465156", "0.6096228", "0.5905837", "0.5818582", "0.5808917", "0.57055247", "0.5697342", "0.5619084", "0.5508928", "0.5467147", "0.5462562", "0.5446384", "0.5420934", "0.5397053", "0.5380353", "0.53490704", "0.5324267", "0.53047097",...	0.7362303	0
Identify a reader that can read a given file A NoReaderFound error is raised if no such appropriate reader is found.	def identify(input_stream: IO[bytes]) -> str: import IPython where_am_i = "readers.__init__.identify" IPython.embed() raise exceptions.NoReaderFound( f"Found no reader that can read {input_stream.name}" ) from None	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def get_reader(fn):\n if is_bed(fn):\n return BedReader(fn)\n elif is_vcf(fn):\n return VcfReader(fn)\n else:\n raise ValueError(\"Could not get reader for %s\" % fn)", "def inferReader(filePath):\n for reg, reader in six.iteritems(REGEXES):\n match = re.match(reg, filePat...	[ "0.67069465", "0.6362347", "0.60579586", "0.5630345", "0.54816085", "0.5466467", "0.544671", "0.5360829", "0.53323615", "0.53214943", "0.5317366", "0.5301518", "0.5290404", "0.52551913", "0.52348626", "0.51969", "0.5128019", "0.5122039", "0.5115842", "0.50972366", "0.5093929"...	0.48551324	39
Shortcut for symbol creation to test "function" and "indexed" API.	def symbol(name, dimensions, value=0., mode='function'): assert(mode in ['function', 'indexed']) s = DenseData(name=name, dimensions=dimensions) s.data[:] = value return s.indexify() if mode == 'indexed' else s	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def FakeSymbol(args, _op, kwargs):\n return symbol.Custom(args, _op=_op, op_type=\"_fake\", *kwargs)", "def __call__(fun_name):", "def input_shortcut(symbol, name=None):\n def input_method(self, args, *kwargs):\n return self.input(symbol, args, **kwargs)\n input_method.__nam...	[ "0.6120692", "0.6099593", "0.5789169", "0.5777273", "0.5620227", "0.56047827", "0.55795795", "0.55412346", "0.55109686", "0.54903716", "0.5484314", "0.5438553", "0.5425026", "0.54227895", "0.5353313", "0.5350989", "0.53228265", "0.53207916", "0.5307697", "0.5287561", "0.52811...	0.0	-1
Tests basic pointwise arithmetic on twodimensional data	def test_flat(self, expr, result, mode): i, j = dimify('i j') a = symbol(name='a', dimensions=(i, j), value=2., mode=mode) b = symbol(name='b', dimensions=(i, j), value=3., mode=mode) fa = a.base.function if mode == 'indexed' else a fb = b.base.function if mode == 'indexed' else ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_data():\n x = np.array([8, 67, 79, 10, 52, 53, 98, 34, 15, 58], dtype=float)\n y = np.array([24, 87, 48, 94, 98, 66, 14, 24, 60, 16], dtype=float)\n z = np.array([0.064, 4.489, 6.241, 0.1, 2.704, 2.809, 9.604, 1.156,\n 0.225, 3.364], dtype=float)\n\n return x, y, z", "def Te...	[ "0.6385182", "0.6282518", "0.61600417", "0.61573863", "0.6152449", "0.61160505", "0.60762215", "0.6071223", "0.60207266", "0.6017882", "0.6017163", "0.59854347", "0.59580594", "0.59534204", "0.5947321", "0.591167", "0.5898243", "0.58920926", "0.58749056", "0.58674467", "0.586...	0.0	-1
Tests basic pointwise arithmetic on multidimensional data	def test_deep(self, expr, result, mode): i, j, k, l = dimify('i j k l') a = symbol(name='a', dimensions=(i, j, k, l), value=2., mode=mode) b = symbol(name='b', dimensions=(j, k), value=3., mode=mode) fa = a.base.function if mode == 'indexed' else a fb = b.base.function if mode ==...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_multidimensional_operation(self):\n # start with something (1, 2, 3)\n data = np.array([[[0.0, 1.0, 2.0], [3.0, 4.0, 5.0]]])\n\n # split 1st dim (2, 2, 3)\n coefficients = np.ones((1, 2)) / 2\n expected = np.array(\n [[[0.0, 0.5, 1.0], [1.5, 2.0, 2.5]], [[0.0,...	[ "0.6647943", "0.6466135", "0.6279551", "0.62339604", "0.6172996", "0.61697084", "0.6152088", "0.6150274", "0.6137789", "0.6136748", "0.6109442", "0.6009509", "0.5945426", "0.591577", "0.5912449", "0.590353", "0.5883301", "0.58808935", "0.5876383", "0.587444", "0.58706623", ...	0.0	-1
Tests pointwise increments with stencil offsets in one dimension	def test_indexed_increment(self, expr, result): j, l = dimify('j l') a = symbol(name='a', dimensions=(j, l), value=2., mode='indexed').base fa = a.function fa.data[1:, 1:] = 0 eqn = eval(expr) Operator(eqn)(fa) assert np.allclose(fa.data, result, rtol=1e-12)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def coordination(c, stencil=nn_stencil):\n\n coordination = np.zeros_like(c, dtype=int)\n for dx, dy in stencil:\n tmp = np.array(c, dtype=bool, copy=True)\n if dx != 0:\n tmp = np.roll(tmp, dx, 0)\n if dy != 0:\n tmp = np.roll(tmp, dy, 1)\n coordination += t...	[ "0.65050405", "0.54784226", "0.5474315", "0.5348384", "0.5347258", "0.5336783", "0.53343135", "0.53305495", "0.5314463", "0.52894896", "0.5283575", "0.5209135", "0.52068275", "0.5183291", "0.5156076", "0.5149829", "0.51383203", "0.51378614", "0.5116575", "0.51146805", "0.5108...	0.0	-1
Test pointwise arithmetic with stencil offsets across two functions in indexed expression format	def test_indexed_stencil(self, expr, result): j, l = dimify('j l') a = symbol(name='a', dimensions=(j, l), value=0., mode='indexed').base fa = a.function b = symbol(name='b', dimensions=(j, l), value=2., mode='indexed').base fb = b.function eqn = eval(expr) Opera...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_offsets():\n B = 100\n H = 20\n E = 210000\n sections = ((B, H, 0, E),)\n sections2 = ((B, H, 12.435, E),)\n EI, top, bot = bm.EI(sections, E)\n EI2, top2, bot2 = bm.EI(sections2, E)\n assert 0.99 < EI / EI2 < 1.01\n assert 0.99 < top / top2 < 1.01\n assert 0.99 < bot / bot2 ...	[ "0.54499704", "0.54236096", "0.54200417", "0.54183537", "0.53868484", "0.5386813", "0.5386671", "0.53676295", "0.53601813", "0.5349417", "0.53437924", "0.53436583", "0.5304866", "0.53009784", "0.5292884", "0.52877325", "0.5283028", "0.5282718", "0.5279577", "0.52767044", "0.5...	0.70558316	0
Test pointwise arithmetic with stencil offsets across a single functions with buffering dimension in indexed expression format	def test_indexed_buffered(self, expr, result): i, j, l = dimify('i j l') a = symbol(name='a', dimensions=(i, j, l), value=2., mode='indexed').base fa = a.function eqn = eval(expr) Operator(eqn)(fa) assert np.allclose(fa.data[1, 1:-1, 1:-1], result[1:-1, 1:-1], rtol=1e-12...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_indexed_stencil(self, expr, result):\n j, l = dimify('j l')\n a = symbol(name='a', dimensions=(j, l), value=0., mode='indexed').base\n fa = a.function\n b = symbol(name='b', dimensions=(j, l), value=2., mode='indexed').base\n fb = b.function\n\n eqn = eval(expr)\n...	[ "0.70109046", "0.5731927", "0.5725207", "0.5534058", "0.5485873", "0.54508567", "0.5420271", "0.5402067", "0.53938526", "0.5361206", "0.53606236", "0.5359261", "0.5359202", "0.5320887", "0.5293664", "0.5291382", "0.5265721", "0.52385396", "0.523383", "0.52290106", "0.52282166...	0.5903518	1
Test pointwise arithmetic with stencil offsets and open loop boundaries in indexed expression format	def test_indexed_open_loops(self, expr, result): i, j, l = dimify('i j l') pushed = [d.size for d in [j, l]] j.size = None l.size = None a = DenseData(name='a', dimensions=(i, j, l), shape=(3, 5, 6)).indexed fa = a.function fa.data[0, :, :] = 2. eqn = eva...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_indexed_stencil(self, expr, result):\n j, l = dimify('j l')\n a = symbol(name='a', dimensions=(j, l), value=0., mode='indexed').base\n fa = a.function\n b = symbol(name='b', dimensions=(j, l), value=2., mode='indexed').base\n fb = b.function\n\n eqn = eval(expr)\n...	[ "0.6950202", "0.58628595", "0.56040186", "0.5595086", "0.5519812", "0.54418904", "0.54108006", "0.533119", "0.53181374", "0.53098184", "0.5292402", "0.5292149", "0.5247795", "0.5246134", "0.523379", "0.5228938", "0.5216184", "0.51775336", "0.51391", "0.513825", "0.51371264", ...	0.6362784	1
Test that the calltime overriding of Operator arguments works	def test_override_cache_aliasing(self): i, j, k, l = dimify('i j k l') a = symbol(name='a', dimensions=(i, j, k, l), value=2., mode='indexed').base.function a1 = symbol(name='a', dimensions=(i, j, k, l), value=3., mode='indexed').base.function a2 = ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def __call__(a, b):", "def _OverloadOperator(operator): # pylint: disable=invalid-name\n\n tensor_oper = getattr(ops.Tensor, operator)\n\n def _run_op(a, args):\n # pylint: disable=protected-access\n value = a._AsTensor()\n return tensor_oper(value, args)\n\n ...	[ "0.6805851", "0.6484445", "0.6379259", "0.6364742", "0.6364742", "0.6306603", "0.6228619", "0.61764985", "0.61253047", "0.61219794", "0.6098357", "0.60761136", "0.59945655", "0.5985499", "0.5953652", "0.5947286", "0.59347874", "0.59075207", "0.5906247", "0.590326", "0.5891721...	0.0	-1
Test calltime symbols overrides with other symbols	def test_override_symbol(self): i, j, k, l = dimify('i j k l') a = symbol(name='a', dimensions=(i, j, k, l), value=2.) a1 = symbol(name='a1', dimensions=(i, j, k, l), value=3.) a2 = symbol(name='a2', dimensions=(i, j, k, l), value=4.) op = Operator(Eq(a, a + 3)) op() ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def testSymbolHash(self):\n gScope = pykd.diaLoadPdb( str(target.module.pdb()) )\n symSet = set([ gScope[\"g_structTest\"], gScope[\"EnumWindowsProc1\"], gScope[\"g_structTest\"] ])\n self.assertEqual( 2, len(symSet) )\n self.assertTrue( gScope[\"g_structTest\"] in symSet )\n sel...	[ "0.6088717", "0.5891969", "0.586841", "0.57884955", "0.57511026", "0.5713668", "0.5713668", "0.57010543", "0.5664404", "0.5631575", "0.5563887", "0.55595315", "0.55191725", "0.5508196", "0.54970926", "0.54917103", "0.5480295", "0.54737866", "0.5444322", "0.54287255", "0.54046...	0.58977205	1
Test calltime symbols overrides with numpy arrays	def test_override_array(self): i, j, k, l = dimify('i j k l') shape = tuple(d.size for d in (i, j, k, l)) a = symbol(name='a', dimensions=(i, j, k, l), value=2.) a1 = np.zeros(shape=shape, dtype=np.float32) + 3. a2 = np.zeros(shape=shape, dtype=np.float32) + 4. op = Opera...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_TimeArray_repr():", "def test_format_signature_numpy():", "def test_TimeArray_convert_unit():", "def test_TimeArray_copyflag():\r\n\r\n #These two should both generate a TimeArray, with one picosecond.\r\n #This one holds time_unit='s'\r\n t1 = ts.TimeArray(np.array([1], dtype=np.int64), co...	[ "0.6313198", "0.6234536", "0.61531353", "0.60441715", "0.5897211", "0.58689487", "0.5791092", "0.5729955", "0.5682435", "0.5682435", "0.5633471", "0.55964816", "0.55935395", "0.5578403", "0.5577986", "0.5554115", "0.5551436", "0.555043", "0.554579", "0.5534603", "0.55257624",...	0.6475489	0
Test that the dimension sizes are being inferred correctly	def test_dimension_size_infer(self, nt=100): i, j, k = dimify('i j k') shape = tuple([d.size for d in [i, j, k]]) a = DenseData(name='a', shape=shape).indexed b = TimeData(name='b', shape=shape, save=True, time_dim=nt).indexed eqn = Eq(b[time, x, y, z], a[x, y, z]) op = O...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_size_check(self):\n [x1, y1, s1, g1] = self.data.diffusion_data.shape\n [x2, y2, s2, g2] = module_05.run_module(self.data).diffusion_data.shape\n self.assertEqual(x1, x2)\n self.assertEqual(y1, y2)\n self.assertEqual(s1, s2)\n self.assertEqual(g1, g2)", "def dim...	[ "0.76725674", "0.75539386", "0.74125654", "0.7359512", "0.73051524", "0.72323257", "0.7225344", "0.7185799", "0.71210706", "0.6941943", "0.68519884", "0.6851906", "0.68469083", "0.68195313", "0.6812142", "0.67658305", "0.6746414", "0.6741667", "0.6688384", "0.66588515", "0.66...	0.76781756	0
Test explicit overrides for the leading time dimension	def test_dimension_size_override(self, nt=100): i, j, k = dimify('i j k') a = TimeData(name='a', dimensions=(i, j, k)) one = symbol(name='one', dimensions=(i, j, k), value=1.) op = Operator(Eq(a.forward, a + one)) # Test dimension override via the buffered dimenions a.da...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_general_subset_invalid_time():\n pass", "def test_fix_metadata_correct_time(self):\n fixed_cube = self.fix.fix_metadata([self.cube])[0]\n time_coord = fixed_cube.coord('time')\n np.testing.assert_allclose(time_coord.points, [0, 1])\n assert time_coord.bounds is None", "d...	[ "0.6225104", "0.61606276", "0.60171777", "0.59855527", "0.5899436", "0.5890807", "0.57126755", "0.56421477", "0.5499632", "0.5453681", "0.54009974", "0.53884566", "0.53690064", "0.534088", "0.5325772", "0.5315858", "0.530437", "0.5300429", "0.52890176", "0.5282546", "0.527451...	0.6123395	2
Emulates a potential implementation of boundary condition loops	def test_directly_indexed_expression(self, fa, ti0, t0, exprs): eqs = EVAL(exprs, ti0.base, t0) op = Operator(eqs, dse='noop', dle='noop') trees = retrieve_iteration_tree(op) assert len(trees) == 2 assert trees[0][-1].nodes[0].expr.rhs == eqs[0].rhs assert trees[1][-1].no...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def simulate_boundary(self,print_every=1000,do_F_bound=True):\n n_t = self.t_span.size\n self.n_t = n_t\n x = self.x0.copy()\n self._triangulate(x)\n self.assign_vertices()\n x = self.check_boundary(x)\n self.x = x.copy()\n sel...	[ "0.6390884", "0.633568", "0.63244265", "0.6194868", "0.6181194", "0.6133254", "0.5930542", "0.58581144", "0.58474624", "0.58428305", "0.5813989", "0.5792263", "0.57295126", "0.57068944", "0.5669466", "0.5665661", "0.5663369", "0.56552625", "0.56534404", "0.56359583", "0.56296...	0.0	-1
Test the generation of a specific box profile against a known result.	def test_box(): savedImg = galsim.fits.read(os.path.join(imgdir, "box_1.fits")) myImg = galsim.ImageF(savedImg.bounds, scale=0.2) myImg.setCenter(0,0) test_flux = 1.8 pixel = galsim.Pixel(scale=1, flux=1) pixel.drawImage(myImg, method="sb", use_true_center=False) np.testing.assert_array_alm...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_get_game_boxscore(self):\n pass", "def testProfileCreation(self):\n small_tree1_equality = self.checkProfileEquality(self.profiles[0], self.small_profile1)\n small_tree2_equality = self.checkProfileEquality(self.profiles[1], self.small_profile2)\n known_tree1_equality = self....	[ "0.61851823", "0.58061886", "0.5779419", "0.5712594", "0.5674602", "0.5597677", "0.55736697", "0.5516804", "0.5508091", "0.5494304", "0.5471239", "0.5412909", "0.5381883", "0.5344296", "0.53197837", "0.531884", "0.53139627", "0.52807105", "0.52799165", "0.52634877", "0.525860...	0.5113333	37
Test the generation of a specific tophat profile against a known result.	def test_tophat(): savedImg = galsim.fits.read(os.path.join(imgdir, "tophat_101.fits")) myImg = galsim.ImageF(savedImg.bounds, scale=0.2) myImg.setCenter(0,0) test_flux = 1.8 # There are numerical issues with using radius = 1, since many points are right on the edge # of the circle. e.g. (+-1,...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_run_profile(dpa_model_spec, dpa_init):\n test_times = np.array(\n DateTime(['2019:001:00:00:00', '2019:001:12:00:00', '2019:002:00:00:00', '2019:003:00:00:00']).secs)\n pitch = np.array([150, 90, 156, 156])\n roll = np.array([0, -5, 10, 0])\n test_schedule = {'pitch': pitch, 'roll': rol...	[ "0.60760397", "0.59960103", "0.578803", "0.57689196", "0.56904364", "0.5670949", "0.5598614", "0.5586479", "0.55442274", "0.5540673", "0.5539732", "0.5532514", "0.5515403", "0.55088836", "0.54860824", "0.54771906", "0.54092103", "0.5376669", "0.53727055", "0.53688246", "0.534...	0.0	-1
Test Box with photon shooting. Particularly the flux of the final image.	def test_box_shoot(): rng = galsim.BaseDeviate(1234) obj = galsim.Box(width=1.3, height=2.4, flux=1.e4) im = galsim.Image(100,100, scale=1) im.setCenter(0,0) added_flux, photons = obj.drawPhot(im, poisson_flux=False, rng=rng.duplicate()) print('obj.flux = ',obj.flux) print('added_flux = ',ad...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_box():\n savedImg = galsim.fits.read(os.path.join(imgdir, \"box_1.fits\"))\n myImg = galsim.ImageF(savedImg.bounds, scale=0.2)\n myImg.setCenter(0,0)\n test_flux = 1.8\n\n pixel = galsim.Pixel(scale=1, flux=1)\n pixel.drawImage(myImg, method=\"sb\", use_true_center=False)\n np.testing...	[ "0.6883019", "0.60247976", "0.5729917", "0.5662367", "0.5657805", "0.56022036", "0.5602087", "0.55716115", "0.5532589", "0.5502499", "0.5473831", "0.54660267", "0.54527724", "0.54423535", "0.5430135", "0.5401244", "0.5400176", "0.53518057", "0.53516215", "0.53498757", "0.5337...	0.72881216	0
Test base.py GSObjects for notequals.	def test_ne(): # Define some universal gsps gsp = galsim.GSParams(maxk_threshold=1.1e-3, folding_threshold=5.1e-3) # Pixel. Params include scale, flux, gsparams. # gsparams. # The following should all test unequal: gals = [galsim.Pixel(scale=1.0), galsim.Pixel(scale=1.1), ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_not_equal_on_equal(self):\n a = objects.OpaqueObject(self.bytes_a, enums.OpaqueDataType.NONE)\n b = objects.OpaqueObject(self.bytes_a, enums.OpaqueDataType.NONE)\n self.assertFalse(a != b)\n self.assertFalse(b != a)", "def test_not_equal_on_not_equal_value(self):\n a =...	[ "0.74571276", "0.73648274", "0.73306084", "0.72958326", "0.7260039", "0.72194594", "0.7127766", "0.70569617", "0.7055979", "0.7028425", "0.70240885", "0.7012719", "0.6914279", "0.68538886", "0.68433744", "0.6823976", "0.6806015", "0.6802378", "0.6794009", "0.675546", "0.67511...	0.0	-1
Decide whether to enter hotspot mode or wifi mode and then do so	def set_wifi_mode(args): pass """+ try: if args['mode'] == 'hotspot': logger.info('will enter hotspot mode') #TODO - Need to capture the line that contains interface [some lan id] and uncomment it. change_file_line(path.join('/etc', 'dhcpcd.conf'), ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def _cycle_wifi(mode=None):\n call(['ifdown', settings.WIFI_INTERFACE])\n if mode is not None:\n call(['iwconfig', settings.WIFI_INTERFACE, 'mode', mode])\n call(['ifup', settings.WIFI_INTERFACE])", "def switch_network(self,type = None):\n network_type = self.appconfig(type...	[ "0.6191428", "0.60795987", "0.60477906", "0.5971737", "0.59445924", "0.58588445", "0.57119495", "0.570681", "0.57007", "0.5689363", "0.5664943", "0.5628451", "0.5603096", "0.5597446", "0.55574036", "0.55567616", "0.5528155", "0.55259633", "0.5525236", "0.5521546", "0.5498724"...	0.71384984	0
Get a pointer for function name with provided argtypes and restype	def ptr(self, space, w_name, w_argtypes, w_restype, flags=FUNCFLAG_CDECL): resshape = unpack_resshape(space, w_restype) if resshape is None: w_resshape = space.w_None else: w_resshape = resshape argtypes_w = space.fixedview(w_argtypes) w_argtypes = space.n...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def get_func(name, argtypes=None, restype=c_int, lib=libDE):\n logger.debug(\"Getting NewWordFinder API function: 'name': '{}', 'argtypes': '{}',\"\n \" 'restype': '{}'.\".format(name, argtypes, restype))\n func = getattr(lib, name)\n if argtypes is not None:\n func.argtypes = argty...	[ "0.66590554", "0.61740726", "0.61581415", "0.59001285", "0.5855032", "0.58468574", "0.5705164", "0.5677757", "0.5639868", "0.5615557", "0.5614763", "0.56135756", "0.5601841", "0.55988264", "0.5483516", "0.54684794", "0.5429972", "0.53992546", "0.53571665", "0.53392667", "0.53...	0.6079239	3
Set up a root logger showing all entries in the console.	def logger(request): log = logging.getLogger() hdlr = logging.StreamHandler() fmt = '%(asctime)s %(name)s %(levelname)s %(message)s' formatter = logging.Formatter(fmt) hdlr.setFormatter(formatter) log.addHandler(hdlr) log.setLevel(logging.DEBUG) log.propagate = False return log	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def setup_logger():\n root = logging.getLogger()\n root.setLevel(LOGGING_LEVEL)\n formatter = logging.Formatter('%(asctime)s - %(message)s')\n ch = logging.StreamHandler(sys.stdout)\n ch.setLevel(LOGGING_LEVEL)\n ch.setFormatter(formatter)\n root.addHandler(ch)", "def setup_logging():\n f...	[ "0.7975957", "0.7763486", "0.7686616", "0.75928164", "0.7581792", "0.7508208", "0.73854136", "0.73814046", "0.73402363", "0.7313796", "0.7308403", "0.73038954", "0.7274763", "0.7260364", "0.72556174", "0.7249487", "0.7241462", "0.72125137", "0.71615887", "0.71491545", "0.7109...	0.0	-1
Set up a mongo connection reset and ready to roll.	def mongodb(request): from pp.user.model import db as mongo log = get_log('mongodb') db_name = "testingdb-{}".format(uuid.uuid4().hex) mongo.init(dict(db_name=db_name)) db = mongo.db() db.hard_reset() log.info('database ready for testing "{}"'.format(db_name)) def db_teardown(x=None)...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def mongodb_init(cls, host=\"127.0.0.1\", port=27017, username=\"\", password=\"\", dbname=\"admin\"):\n if username and password:\n uri = \"mongodb://{username}:{password}@{host}:{port}/{dbname}\".format(username=quote_plus(username),\n ...	[ "0.70171124", "0.68669546", "0.6740658", "0.6647585", "0.6619428", "0.6484099", "0.6464825", "0.6440319", "0.6433522", "0.6415763", "0.6397156", "0.6346596", "0.6345212", "0.62915", "0.6224574", "0.61763144", "0.61705923", "0.6150122", "0.6147837", "0.613134", "0.60872823", ...	0.6147428	19
Open a tab delimited file and return links and time	def parser(list_of_text): # Youtube link regex yt_link = re.compile(r"http(s)?:\/\/www\.youtu.") pron_link = re.compile(r".pornhub.") pic_link = re.compile(r"^http(s)?:\/\/.jpg.*") pics = [link.split() for link in list_of_text if re.match(pic_link, link)] found_yt_links = [line.split() ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def readTab(file_name):\n data = []\n meta = []\n l=0\n for line in open(file_name):\n if l<3:\n meta.append(line.strip(\"\\n\").split(\"\\t\"))\n else:\n if len(line.strip(\"\\n\").split(\"\\t\")) == len(meta[0]):\n data.append(line.strip(\"\\n\").spl...	[ "0.6074462", "0.5697214", "0.55812126", "0.55209875", "0.5477201", "0.54759246", "0.544581", "0.5430003", "0.54228246", "0.53985965", "0.5344914", "0.53337824", "0.5330407", "0.53107756", "0.5296276", "0.5268797", "0.5236354", "0.52124465", "0.52045405", "0.51980215", "0.5169...	0.0	-1
Function that returns true if a string contains a number	def hasNumbers(inputString): return any(char.isdigit() for char in inputString)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def __has_numbers(self, input_string):\n return bool(re.search(r'\\d', input_string))", "def has_number(any_string):\n return any(char.isdigit() for char in any_string)", "def has_num(text):\n return any(str.isdigit(c) for c in text)", "def is_number(s):\r\n try:\r\n int(s)\r\n ...	[ "0.86861813", "0.83668447", "0.82383734", "0.7930955", "0.79304606", "0.7924505", "0.78930366", "0.78647584", "0.77653086", "0.7743263", "0.7714202", "0.7706238", "0.77058214", "0.77046204", "0.77044505", "0.7690902", "0.766317", "0.7639565", "0.7527607", "0.7527464", "0.7508...	0.8393111	1
Small function to change time format. Used for make_time func	def tedoius_time(time_string): start = ['start', 'begin', 'beginning', 'head', 'first'] end = ['slut', 'end', 'tail', 'finish', 'finito', 'fin', 'done', 'finished'] if time_string.lower() in start: time_string = "00:00:00" # We need this exact string for later elif time_string.lo...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def format_time(self, time):\n hh = time[0:2]\n mm = time[2:4]\n ss = time[4:]\n return \"%s:%s:%s UTC\" % (hh,mm,ss)", "def time_hack(self):\n now = datetime.datetime.now()\n monthnames = ['jan', 'feb', 'mar', 'apr', 'may', 'jun',\n 'jul', 'aug', 'sep', 'oct', ...	[ "0.7315664", "0.72966367", "0.7183788", "0.7177541", "0.71764636", "0.7169046", "0.7167851", "0.7160244", "0.7139336", "0.7091297", "0.7036572", "0.70216924", "0.6875871", "0.6864549", "0.6824766", "0.6812519", "0.68091184", "0.680905", "0.68039894", "0.67950267", "0.6790418"...	0.0	-1
Function that saves the return_list from make_time to a file called yt_vids.txt Optional, default False	def save_link_time(return_list, path_to_download): # Opens a new file and writes lines to it and saves it at the spot provided with open(os.path.join(path_to_download, "yt_vids.txt"), "w") as w: w.write('\n'.join('{} {} {}'.format( x[0], x[1][0], x[1][1]) for x in return_list))	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_save_list_to_file(self):\n task_list = TaskList()\n task1 = Task()\n output_file_path = self.testing_files[0]\n task1.set_name('Test Task One')\n task1.set_minutes(30)\n task1.set_notes('This is a great test task')\n task_list.add_task(task1)\n\n sel...	[ "0.5606279", "0.54776007", "0.5325414", "0.527905", "0.5232085", "0.5220749", "0.5214294", "0.5194305", "0.5157583", "0.5149266", "0.51426595", "0.51125914", "0.50968117", "0.50955224", "0.50598377", "0.50564367", "0.5056409", "0.5055913", "0.50520384", "0.5035325", "0.503340...	0.7020351	0
Function that downloads a whole video when no interval is supplied Downloaded to the same place where yt_vids is saved to (from save_link_time func)	def download_whole(no_interval): print(os.getcwd()) SAVE_PATH = 'tmp' ydl_opts = {"nocheckcertificate": True, "noplaylist": True, 'outtmpl': f'{SAVE_PATH}/%(title)s.%(ext)s'} with youtube_dl.YoutubeDL(ydl_opts) as ydl: for video in range(len(no_interval)): try: ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def download(df_shorter,folderName):\n os.mkdir(str(folderName))\n path = os.getcwd()+'\\\\'+str(folderName)+'\\\\'\n #add column with video link generated from IDs\n df_shorter['urls'] = df_shorter['id'].apply(lambda x: generateLinkFromId(x))\n vid_dl = []\n i = 1\n for url in df_shorter['url...	[ "0.73994005", "0.72689897", "0.7202489", "0.7171504", "0.7060031", "0.6903402", "0.6774965", "0.67710614", "0.67318517", "0.6675659", "0.66156524", "0.66117424", "0.6610987", "0.6610455", "0.6599049", "0.6573128", "0.6570862", "0.6523697", "0.651439", "0.65080476", "0.6456765...	0.74180853	0
Function to download videos in specified intervals Takes a list (interval_list) and a path as inputs	def download_interval(interval_list): start = ['start', 'begin', 'beginning', 'head', 'first'] end = ['slut', 'end', 'tail', 'finish', 'finito', 'fin', 'done', 'finished'] # Iterate over the list for link in range(len(interval_list)): try: video = pafy.new(interval_list[l...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def download_whole(no_interval):\n print(os.getcwd())\n SAVE_PATH = 'tmp'\n ydl_opts = {\"nocheckcertificate\": True, \"noplaylist\": True,\n 'outtmpl': f'{SAVE_PATH}/%(title)s.%(ext)s'}\n\n with youtube_dl.YoutubeDL(ydl_opts) as ydl:\n for video in range(len(no_interval)):\n ...	[ "0.6634631", "0.6432747", "0.63896453", "0.6305958", "0.60365444", "0.59619087", "0.5885181", "0.5815725", "0.56896555", "0.5573953", "0.5560245", "0.5557694", "0.55472976", "0.5520894", "0.5493748", "0.5459092", "0.54333603", "0.54173565", "0.54105514", "0.54061747", "0.5402...	0.79695	0
Function to download pictures from the input sequence	def download_pics(pics_links): for link in range(len(pics_links)): r = requests.get(pics_links[link][0]) with open(os.path.join("tmp", f"{link}.jpg"), "wb") as dl: dl.write(r.content)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def downloadLocal(url_list,path):\n print(\"You are downloading {} images\".format(parser_arguments().limit),end=\" \");print(\"of {} class.\".format(parser_arguments().classes))\n print(\"Please, be patient :)\")\n for i in range(len(url_list)):\n filename= url_list[i].split(\"/\")[-1] # name of t...	[ "0.66714674", "0.6665392", "0.662957", "0.65895194", "0.6587865", "0.6502355", "0.64724034", "0.64450634", "0.64316654", "0.6391709", "0.6382724", "0.6302078", "0.6292136", "0.6259905", "0.6259636", "0.6252637", "0.6219414", "0.6212664", "0.61892736", "0.61513776", "0.6140734...	0.6981115	0
r""" Calculate drainage curve based on the image produced by the ``porosimetry`` function. Returns	def get_drainage_data(self): im = self.result sizes = sp.unique(im) R = [] Snwp = [] Vp = sp.sum(im > 0) for r in sizes[1:]: R.append(r) Snwp.append(sp.sum(im >= r)) Snwp = [s/Vp for s in Snwp] data = namedtuple('xy_data', ('radius'...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def read_drainage_efficiency(self):#, PLOT, FIGURE, DISTRIBUTION):\n\n print ' Reading drainage efficiency'\n\n self.drainage_efficiency = {}\n\n drainage = np.zeros(self.ATTM_nrows * self.ATTM_ncols)\n\n for i in range(0, self.ATTM_nrows * self.ATTM_ncols):\n if self.ATTM_Total_Fractional_Ar...	[ "0.5753122", "0.56378067", "0.55967945", "0.55486226", "0.5391032", "0.53572434", "0.5309457", "0.52709997", "0.5266623", "0.5236764", "0.5235034", "0.52270055", "0.520521", "0.51976097", "0.5173026", "0.51659435", "0.5153408", "0.51311153", "0.51155776", "0.51090014", "0.510...	0.54940647	4
computes the sigmoid of z z z can be a matrix, vector or scalar sigmoid	def sigmoid(z): g = np.zeros(z.shape) # ====================== YOUR CODE HERE ====================== # Instructions: Compute the sigmoid of each value of z (z can be a matrix, # vector or scalar). return 1/(1+np.exp(-z))	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def sigmoid(z):\r\n \r\n return vSigmoid(z);", "def sigmoid(z): \n return 1/(1 + np.e*(-z))", "def sigmoid(z):\r\n \r\n return 1.0 / (1.0+np.exp(-z))", "def sigmoid(z):\n\treturn 1.0/(1.0+np.exp(-z))", "def sigmoid(z):\n return 1 / (1 + np.exp(-1 z))", "def sigmoid(z):\n\n s = 1...	[ "0.9156451", "0.89855045", "0.89530945", "0.88890535", "0.88774705", "0.8873134", "0.88591874", "0.88549364", "0.8827887", "0.88264954", "0.88236195", "0.8823586", "0.8804889", "0.8797912", "0.87720233", "0.8767488", "0.87623954", "0.87474865", "0.8720549", "0.8660843", "0.86...	0.8674715	19
Parse vistrone image and annotation file	def parse_anno(self, img_path, anno_path) -> dict: anno_obj = dict() img = cv2.imread(img_path) if len(img.shape) == 3: h, w, d = img.shape[:3] anno_obj['size'] = (w, h, d) else: h, w = img.shape[:2] anno_obj['size'] = (w, h, 1) a...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def unpack_annotation(path):\n buffer = []\n with open(path, 'r') as file:\n lines = file.read()\n\n lines = lines.splitlines()\n for line in lines:\n if not line.startswith('#') and line:\n buffer.append(line)\n\n # Filename to match annotation with photo\n filename = ''...	[ "0.66137487", "0.6137905", "0.6088444", "0.60218704", "0.6018169", "0.6017987", "0.6013739", "0.59796065", "0.5911451", "0.58495057", "0.584628", "0.5830778", "0.58306414", "0.5818035", "0.58085626", "0.5796074", "0.57908374", "0.5716362", "0.57042414", "0.5697437", "0.569646...	0.6034063	3
recourse through an attribute chain to get the ultimate value.	def safe_chain_getattr(obj, attr): return reduce(getattr, attr.split('.'), obj)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def next(self):\n nextattr = self.iterobj.next()\n return (nextattr.name, self.attrs[nextattr.name])", "def _get_effective_attribute(self, attribute_name):\n result = []\n tmp = self[attribute_name]\n if tmp != None:\n result.append( tmp )\n if tmp == None or ...	[ "0.594284", "0.59209895", "0.5796574", "0.54958975", "0.54589653", "0.54450005", "0.5416079", "0.53792626", "0.5287629", "0.52547", "0.5249592", "0.5235394", "0.5232", "0.522848", "0.52224046", "0.520934", "0.52058285", "0.51851255", "0.51851255", "0.51851255", "0.51851255", ...	0.5363558	8
Get chain attribute for an object.	def chain_getattr(obj, attr, value=None): try: return _resolve_value(safe_chain_getattr(obj, attr)) except AttributeError: return value	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def safe_chain_getattr(obj, attr):\n return reduce(getattr, attr.split('.'), obj)", "def chained_getattr(obj, path):\n target = obj\n for attr in path:\n target = corner_case_getattr(target, attr)\n return target", "def deepgetattr(obj, attr):\n\t\treturn reduce(getattr, attr.split('.'), obj)", "def...	[ "0.6868703", "0.65075165", "0.6485146", "0.64567274", "0.62154573", "0.61727905", "0.61658573", "0.6000796", "0.5964722", "0.5916216", "0.5916216", "0.5876859", "0.5874207", "0.5869589", "0.5869589", "0.5850275", "0.58463216", "0.58114004", "0.5795329", "0.57904404", "0.57904...	0.7126414	0
trim the list to make total length no more than limit.If split specified,a string is return.	def trim_iterable(iterable, limit, *, split=None, prefix='', postfix=''): if split is None: sl = 0 join = False else: sl = len(split) join = True result = [] rl = 0 for element in iterable: element = prefix + element + postfix el = len(element) ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def trim(self, input_words_list):\n def to_be_trimmed(x):\n if len(x) < 3:\n return False\n else:\n return True\n self.trimmed_words_list = list(filter(to_be_trimmed, input_words_list))\n # print('the filtered words are:')\n # for word...	[ "0.61260587", "0.61242557", "0.60332996", "0.5976751", "0.59576887", "0.59357154", "0.59291357", "0.575979", "0.5731277", "0.56639487", "0.5637736", "0.5636854", "0.5605196", "0.5510604", "0.5455997", "0.54495543", "0.5449324", "0.544276", "0.54360414", "0.5429126", "0.542896...	0.66803694	0
It decrypts encrypted messages.	def test_decrypt_encrypted(self): encrypted = encrypt('message') decrypted = decrypt(encrypted) assert decrypted == 'message'	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def decrypt_message(encrypted_message):", "def decrypt(self, data):", "def decrypt_message(self):\r\n\r\n\t\t#Will not let user input useless messages that cannot be decrypted.\r\n\t\twhile True:\r\n\t\t\tself.message = input(\"Please enter a message you would like to decrypt. --> \")\r\n\t\t\tif self.message ...	[ "0.87886894", "0.7859907", "0.7717388", "0.7570975", "0.7548102", "0.74472094", "0.735235", "0.7315939", "0.73016477", "0.7261866", "0.7248655", "0.72426134", "0.71901", "0.7162575", "0.7121405", "0.7052611", "0.7006807", "0.6988077", "0.6984153", "0.6959311", "0.6911666", ...	0.72249025	12
It decrypts encoded messages as UTF8 strings.	def test_decrypt_encoding(self): encrypted = encrypt('méssåge') decrypted = decrypt(encrypted) assert decrypted == 'méssåge'	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def decrypt_message(encrypted_message):", "def decrypt_message(msg):\n with urllib.request.urlopen(format_url(main_url+\"decrypt.php\",msg)) as f:\n decryptedmessage = f.read().decode('utf-8',\"strict\")\n return decryptedmessage", "def decrypt(self, data):", "def _decrypt(self, msg):\r\n ...	[ "0.7515797", "0.72070503", "0.7080225", "0.70087695", "0.68919706", "0.6883082", "0.6702499", "0.6700832", "0.6643625", "0.6547494", "0.65426725", "0.65246123", "0.65195185", "0.6513772", "0.6512258", "0.6473068", "0.645004", "0.644082", "0.6412383", "0.63955086", "0.6384664"...	0.70483595	3
It raises an error when trying to decrypt a nonencrypted value.	def test_decrypt_format(self): with pytest.raises(EncryptionError): decrypt('message')	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_decrypt_key_invalid(self):\n encrypted = encrypt('message', key=b'0' * 32)\n\n with pytest.raises(EncryptionError):\n decrypt(encrypted, key=b'0' * 31)", "def test_decrypt_key_incorrect(self):\n right_key = b'0' * 32\n wrong_key = b'1' * 32\n\n encrypted = e...	[ "0.7508658", "0.73156184", "0.7232054", "0.6764023", "0.66845644", "0.657834", "0.6562093", "0.65003294", "0.6460941", "0.6459456", "0.6367024", "0.63215554", "0.6274202", "0.62535083", "0.62495065", "0.62276834", "0.6201334", "0.6190526", "0.618059", "0.61519164", "0.6145261...	0.76258427	0
It accepts a custom decryption key.	def test_decrypt_key(self): key = b'0' * 32 encrypted = encrypt('message', key=key) assert decrypt(encrypted, key=key) == 'message'	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def decrypt(ciphertext: str, key: str) -> str:\n return encrypt(ciphertext, key)", "def test_decryption(d, c):\n\n#\td = int(raw_input(\"\\nEnter d from public key\\n\"))\n#\tc = int(raw_input(\"\\nEnter c from public key\\n\"))\n\n x = int(raw_input(\"\\nEnter number to decrypt\\n\"))\n decode(endecryp...	[ "0.6593434", "0.6539305", "0.6523048", "0.65177274", "0.65156114", "0.6480838", "0.645648", "0.63991714", "0.63842076", "0.63480246", "0.634022", "0.6332533", "0.6332092", "0.631312", "0.62985706", "0.6246969", "0.6217749", "0.6211802", "0.6208556", "0.62013805", "0.6200206",...	0.69840544	0
It requires a 32byte key.	def test_decrypt_key_invalid(self): encrypted = encrypt('message', key=b'0' * 32) with pytest.raises(EncryptionError): decrypt(encrypted, key=b'0' * 31)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def __init__(self, key: bytes):\n\n if len(key) != 32:\n raise ValueError('Key must be 32 bytes long')\n self.key = key", "def create_key ():", "def __init__(self, key):\n self.bs = 16\n self.key = hashlib.sha256(key.encode()).digest()", "def load_key():", "def test_l...	[ "0.7998701", "0.7112175", "0.70670855", "0.70627075", "0.7016668", "0.6956229", "0.6922364", "0.69079906", "0.683496", "0.6793663", "0.6758785", "0.6736807", "0.6699168", "0.66464436", "0.66464436", "0.6582861", "0.6575875", "0.6575875", "0.6530098", "0.6464395", "0.64615387"...	0.0	-1
It raises an error when an incorrect key is provided.	def test_decrypt_key_incorrect(self): right_key = b'0' * 32 wrong_key = b'1' * 32 encrypted = encrypt('message', key=right_key) with pytest.raises(EncryptionError): decrypt(encrypted, key=wrong_key)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def _check_key(self, key):\n raise NotImplementedError", "def test_handle_key_error():\n\n @handle_key_error\n def get_item(key):\n data = {\"A\": 1, \"B\": 2}\n return data[key]\n\n value = get_item(\"A\")\n assert value == 1\n\n with pytest.raises(InvalidParameter) as exc:\n...	[ "0.7584052", "0.74336976", "0.7209498", "0.7197816", "0.71823823", "0.71537316", "0.70963115", "0.70610356", "0.7014894", "0.6917326", "0.6872797", "0.68682355", "0.6839676", "0.6820613", "0.6819844", "0.68171906", "0.68070513", "0.67946887", "0.67675406", "0.6766828", "0.668...	0.6123274	82
It gets its default key from settings.	def test_decrypt_key_default(self, settings): settings.CHITON_ENCRYPTION_KEY = b'0' * 32 encrypted = encrypt('message') assert decrypt(encrypted) == 'message' settings.CHITON_ENCRYPTION_KEY = b'1' * 32 with pytest.raises(EncryptionError): decrypt(encrypted)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def default(self, key):\r\n return self.inherited_settings[key.field_name]", "def get(self, key, default=None):\n return self.settings.get(key, default)", "def initial(self):\n from setman import settings\n return getattr(settings, self.name, self.default)", "def get_setting_defau...	[ "0.7820905", "0.76434904", "0.7315344", "0.7273974", "0.7266542", "0.7164663", "0.708993", "0.7069916", "0.7067126", "0.70258087", "0.70121825", "0.69252306", "0.686531", "0.6851818", "0.6849022", "0.6843253", "0.678574", "0.6693812", "0.66881984", "0.664332", "0.6612321", ...	0.0	-1
It encrypts messages as base64encoded strings.	def test_encrypt_encoding(self): encrypted = encrypt('message') assert encrypted assert encrypted != 'message' assert type(encrypted) == str	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def encrypted(data: str) -> str:\n return b64encode(data.encode('ascii')).decode('ascii')", "def encrypt(strings):\r\n rd = ''.join(random.sample(upperchr+lowcarsechr+otherchr+numchr,10))\r\n output = base64.encodestring(strings+mselment+rd)\r\n print output", "def test_encryption_of_string(cipher)...	[ "0.69580686", "0.69413096", "0.6922633", "0.68996924", "0.67965823", "0.6779057", "0.677835", "0.6773155", "0.67529523", "0.67321116", "0.6706291", "0.6699885", "0.66843873", "0.66808355", "0.66681325", "0.6639239", "0.6632102", "0.6602281", "0.6573491", "0.65729386", "0.6543...	0.6409957	33
It accepts a custom encryption key.	def test_encrypt_key(self): encrypted = encrypt('message', key=b'0' * 32) assert encrypted assert encrypted != 'message'	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def encryption_key(self) -> typing.Optional[aws_cdk.aws_kms.IKey]:\n ...", "def set_encryption(key):\n global_scope['enc'] = Encryption(key.encode())", "def encryption_key(self) -> Optional[pulumi.Input[str]]:\n return pulumi.get(self, \"encryption_key\")", "def encryption_key(self) -> Optio...	[ "0.6910627", "0.6908906", "0.6589015", "0.6589015", "0.65658104", "0.64406216", "0.64385355", "0.6403656", "0.6396212", "0.6384059", "0.63731337", "0.6366203", "0.633905", "0.6292146", "0.6261021", "0.62500477", "0.62206835", "0.62103766", "0.61971515", "0.6182859", "0.616854...	0.6712674	2
It requires a 32byte key.	def test_encrypt_key_invalid(self): with pytest.raises(EncryptionError): encrypt('message', key=b'0' * 31)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def __init__(self, key: bytes):\n\n if len(key) != 32:\n raise ValueError('Key must be 32 bytes long')\n self.key = key", "def create_key ():", "def __init__(self, key):\n self.bs = 16\n self.key = hashlib.sha256(key.encode()).digest()", "def load_key():", "def test_l...	[ "0.79996747", "0.71131784", "0.70681524", "0.7063389", "0.70164996", "0.6956813", "0.69228464", "0.69088066", "0.6835613", "0.67935926", "0.6759126", "0.6737713", "0.6699715", "0.66468084", "0.66468084", "0.65837467", "0.65774214", "0.65774214", "0.65307164", "0.6464985", "0....	0.60107034	69
It gets its default key from settings.	def test_encrypt_key_default(self, settings): settings.CHITON_ENCRYPTION_KEY = None with pytest.raises(EncryptionError): encrypt('message')	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def default(self, key):\r\n return self.inherited_settings[key.field_name]", "def get(self, key, default=None):\n return self.settings.get(key, default)", "def initial(self):\n from setman import settings\n return getattr(settings, self.name, self.default)", "def get_setting_defau...	[ "0.7820905", "0.76434904", "0.7315344", "0.7273974", "0.7266542", "0.7164663", "0.708993", "0.7069916", "0.7067126", "0.70258087", "0.70121825", "0.69252306", "0.686531", "0.6851818", "0.6849022", "0.6843253", "0.678574", "0.6693812", "0.66881984", "0.664332", "0.6612321", ...	0.0	-1
It does not produce the same message using the same key.	def test_encrypt_nonce(self): key = b'0' * 32 message = 'message' assert encrypt(message, key=key) != encrypt(message, key=key)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_rekey(self):\n old_key = b'0' * 32\n new_key = b'1' * 32\n\n old_encrypted = encrypt('message', key=old_key)\n new_encrypted = rekey(old_encrypted, old_key=old_key, new_key=new_key)\n\n assert decrypt(new_encrypted, key=new_key) == 'message'", "def create_key(message, ...	[ "0.6353171", "0.6112065", "0.6050746", "0.60195196", "0.60014725", "0.5931781", "0.59107494", "0.58862585", "0.58743024", "0.5822409", "0.5816319", "0.5803703", "0.5773151", "0.57707894", "0.5769746", "0.57522786", "0.5739855", "0.56940407", "0.5691956", "0.5683916", "0.56509...	0.55720454	26
It reencrypts an encrypted message using a new key.	def test_rekey(self): old_key = b'0' * 32 new_key = b'1' * 32 old_encrypted = encrypt('message', key=old_key) new_encrypted = rekey(old_encrypted, old_key=old_key, new_key=new_key) assert decrypt(new_encrypted, key=new_key) == 'message'	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_rekey_defaults(self, settings):\n old_key = b'0' * 32\n new_key = b'1' * 32\n\n settings.CHITON_ENCRYPTION_KEY = new_key\n settings.CHITON_PREVIOUS_ENCRYPTION_KEY = old_key\n\n encrypted = encrypt('message', key=old_key)\n rekeyed = rekey(encrypted)\n\n ass...	[ "0.7298857", "0.7298796", "0.71268785", "0.66500294", "0.6324676", "0.62568414", "0.6190534", "0.6128457", "0.61111814", "0.6098401", "0.60541093", "0.59321904", "0.5931756", "0.5884302", "0.587639", "0.58716655", "0.5832455", "0.58202076", "0.5819175", "0.5817855", "0.580720...	0.7975824	0
It raises an error when trying to rekey a nonencrypted value.	def test_rekey_non_encrypted(self): with pytest.raises(EncryptionError): rekey('message', old_key=b'0' * 32, new_key=b'1' * 32)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_rekey_key_format(self):\n old_key = b'0' * 32\n encrypted = encrypt('message', key=old_key)\n\n with pytest.raises(EncryptionError):\n rekey(encrypted, old_key=old_key, new_key=b'1' * 31)", "def test_encrypt_key_invalid(self):\n with pytest.raises(EncryptionError):...	[ "0.7787494", "0.7165129", "0.7140279", "0.71330994", "0.69257516", "0.6686824", "0.6646899", "0.6348278", "0.6192973", "0.6057841", "0.60305434", "0.6001477", "0.5970502", "0.58401686", "0.5836722", "0.5806258", "0.5804228", "0.57949257", "0.57405263", "0.57361877", "0.571489...	0.82164097	0
It raises an error when given an invalid new key.	def test_rekey_key_format(self): old_key = b'0' * 32 encrypted = encrypt('message', key=old_key) with pytest.raises(EncryptionError): rekey(encrypted, old_key=old_key, new_key=b'1' * 31)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def _newKey(self, key):\n pass", "def _check_key(self, key):\n raise NotImplementedError", "def test_rekey_non_encrypted(self):\n with pytest.raises(EncryptionError):\n rekey('message', old_key=b'0' * 32, new_key=b'1' * 32)", "def test_set_invalid_key(test_file):\n md = OSX...	[ "0.71822304", "0.70056105", "0.69519156", "0.6922246", "0.6791061", "0.6753472", "0.6749198", "0.67076725", "0.66495234", "0.6584771", "0.6557083", "0.65199524", "0.65018636", "0.64907044", "0.6454335", "0.64416265", "0.6438558", "0.6431475", "0.6424363", "0.6396235", "0.6389...	0.7050168	1
It uses the settings for the default old and new key.	def test_rekey_defaults(self, settings): old_key = b'0' * 32 new_key = b'1' * 32 settings.CHITON_ENCRYPTION_KEY = new_key settings.CHITON_PREVIOUS_ENCRYPTION_KEY = old_key encrypted = encrypt('message', key=old_key) rekeyed = rekey(encrypted) assert decrypt(rek...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def update_key(self):\n self.__prev_key = self.__new_key", "def update_dict(new,old):", "def _newKey(self, key):\n pass", "def update_default_from_dict(self, key, value):\n pass", "def test_overwrite(self):\n set_default_for_missing_keys('hello world')\n set_default_for_m...	[ "0.65626293", "0.6550737", "0.6313369", "0.6242143", "0.61064005", "0.60898244", "0.6082216", "0.60713875", "0.5890576", "0.5830049", "0.58023095", "0.5726684", "0.5720197", "0.5707687", "0.56511974", "0.5633935", "0.5569308", "0.54979086", "0.5470096", "0.5455716", "0.545565...	0.62328917	4
Fetches domain by its name	def get_by_name(name): return database.get_all(Domain, name, field="name").all()	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def _get_domain_for_name(self, name):\n domain = self.connection.lookupByName(name)\n return domain", "def lookup(self, domain_name, validate=True):\n try:\n domain = self.get_domain(domain_name, validate)\n except:\n domain = None\n return domain", "def...	[ "0.82388127", "0.7296342", "0.72872925", "0.71128905", "0.70768034", "0.7075855", "0.70597684", "0.69037956", "0.68828833", "0.6841402", "0.6727464", "0.65337366", "0.64684", "0.6401447", "0.63366103", "0.63004", "0.6292597", "0.62468135", "0.62434566", "0.62265456", "0.61929...	0.654201	11
Return True if domain is marked sensitive	def is_domain_sensitive(name): query = database.session_query(Domain) query = query.filter(and_(Domain.sensitive, Domain.name == name)) return database.find_all(query, Domain, {}).all()	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def indomain(url, domain):\n if url and domain:\n return url.startswith(domain)\n return False", "def is_secure_site_enabled(self) -> Optional[pulumi.Input[bool]]:\n return pulumi.get(self, \"is_secure_site_enabled\")", "def is_secure_site_enabled(self) -> Optional[pulumi.Input[bool]]:\n ...	[ "0.5945297", "0.5943389", "0.5943389", "0.58801776", "0.5860374", "0.5823208", "0.58100474", "0.5775172", "0.57475305", "0.57442623", "0.57067436", "0.56709236", "0.56709236", "0.56709236", "0.56595856", "0.56003463", "0.55976045", "0.5583748", "0.5570339", "0.5522135", "0.55...	0.7324499	0
Create a new domain	def create(name, sensitive): domain = Domain(name=name, sensitive=sensitive) return database.create(domain)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def create_domain(DomainName=None):\n pass", "def create_domain(self, domain: str) -> Session:\n uri = f\"{self.uri}/domains\"\n data = {\n \"hostname\": domain\n }\n response = self.request(uri=uri, method=\"POST\", data=data)\n\n return response", "def create_...	[ "0.85276437", "0.7999616", "0.7635129", "0.7572509", "0.745609", "0.7389668", "0.73356265", "0.7306637", "0.72217894", "0.72094274", "0.71779686", "0.71715486", "0.7072683", "0.70593244", "0.7049416", "0.7021447", "0.70118153", "0.6965163", "0.6953879", "0.68060184", "0.67575...	0.743728	5
Update an existing domain	def update(domain_id, name, sensitive): domain = get(domain_id) domain.name = name domain.sensitive = sensitive database.update(domain)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def edit_domain(domain_name):\n\n if request.method == \"POST\":\n domain = session.query(Domain).filter(\n Domain.domain_name == domain_name).first()\n\n # Check if domain.provider object exists to make sure\n # duplicate Provider.provider_url is not created\n provider = ...	[ "0.7216133", "0.6992674", "0.69599164", "0.6770144", "0.6691671", "0.6631902", "0.66250306", "0.66209924", "0.6600841", "0.65592813", "0.6530738", "0.65130335", "0.6412239", "0.63919693", "0.63866", "0.6360199", "0.6326602", "0.6326602", "0.63022065", "0.6297731", "0.62386405...	0.77741724	0
Helper to parse REST Api requests	def render(args): query = database.session_query(Domain) filt = args.pop("filter") certificate_id = args.pop("certificate_id", None) if filt: terms = filt.split(";") query = database.filter(query, Domain, terms) if certificate_id: query = query.join(Certificate, Domain.cert...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def parse (self, request):\n\n data = {}\n body_start = request.find('\\r\\n\\r\\n')\n if body_start == -1:\n data['body'] = None\n else:\n data['body'] = request[body_start+4:]\n parts = request.split(' ', 2)\n data['method'] = parts[0]\n data...	[ "0.6661732", "0.6361013", "0.6351881", "0.63334227", "0.6265376", "0.62463653", "0.61369115", "0.61359483", "0.6097976", "0.6052464", "0.6047303", "0.60433483", "0.59891516", "0.58926797", "0.5875995", "0.5862154", "0.5862154", "0.5862154", "0.5862154", "0.581381", "0.579058"...	0.0	-1
Create a logfile that the rest of the script can write to.	def log_start(): scriptDir = os.path.dirname(os.path.dirname(os.path.abspath(__file__))) scriptName = os.path.splitext(os.path.basename(__file__))[0] log = logging.getLogger('cam_server') hdlr = logging.FileHandler(scriptDir+'/logs/'+scriptName+'.log') formatter = logging.Formatter('%(asctime)s %(l...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def _create_logfile(self):\r\n if not self.console_redirect:\r\n return None\r\n\r\n # PCU_logs.robot need a timestamp for console logs as can be run several times\r\n if self.name == self.log_test.replace('.robot', ''):\r\n return open('{0}\\{1}_console_log_{2}'.format(\...	[ "0.77096045", "0.7498354", "0.70676357", "0.7021383", "0.69633764", "0.69220144", "0.6866777", "0.68400943", "0.6803973", "0.6764277", "0.6756204", "0.6751284", "0.6738857", "0.67022955", "0.66923296", "0.66836953", "0.6674281", "0.66629696", "0.6649449", "0.664781", "0.65934...	0.6588597	24
Establish a TCP connection to the indiserver via port 7624	def connect_to_indi(): indiclient=IndiClient() indiclient.setServer("localhost",7624) # Ensure the indiserver is running if (not(indiclient.connectServer())): print("No indiserver running on "+indiclient.getHost()+":"+str(indiclient.getPort())+" - Try to run") print(" indis...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def SCPI_sock_connect(ipaddress,port=5025):\n\n try:\n session=socket.socket(socket.AF_INET,socket.SOCK_STREAM)\n #session.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 0)\n #session.setsockopt(socket.SOL_SOCKET, socket.SO_LINGER, 0)\n session.connect((ipaddress,port))\n exce...	[ "0.62255913", "0.62050253", "0.6195879", "0.6171926", "0.6135462", "0.6120585", "0.606939", "0.60673463", "0.602371", "0.6017615", "0.60021055", "0.60011834", "0.5976623", "0.5967753", "0.5963107", "0.59526026", "0.59498817", "0.5947324", "0.5940068", "0.5910819", "0.59102845...	0.68877107	0
Connection routine for the CCD (given below in ccd variable). The following CCD properties are accessed. More can be found by going to indilib.org. CONNECTION Switch CCD_EXPOSURE Number CCD1 BLOB CCD_BINNING Number CCD_ABORT_EXPOSURE Number CCD_TEMPERATURE Number CCD_COOLER Switch CCD_FRAME_TYPE Switch	def connect_to_ccd(): ccd="SX CCD SXVR-H694" device_ccd=indiclient.getDevice(ccd) while not(device_ccd): time.sleep(0.5) device_ccd=indiclient.getDevice(ccd) print("Searching for device...") print("Found device") ccd_connect=device_ccd.getSwitch("CONNECTION") whil...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def open_circ():\n\n set_mode(mode_cc) # set operation mode to CC\n time.sleep(.250)\n set_CC_current(cc_current=0) # set CC mode current to 0 amps\n time.sleep(.1)\n \n oc_vals = get_input_values() # read open circuits levels\n oc_data_point = data_point(oc_vals) # create data point for ope...	[ "0.5991389", "0.5908873", "0.563912", "0.5434294", "0.54057074", "0.53454", "0.53262013", "0.5306355", "0.52807844", "0.52574426", "0.5246854", "0.5221757", "0.5210567", "0.51662695", "0.51509064", "0.5141476", "0.51294994", "0.5121288", "0.5110107", "0.5095082", "0.50932145"...	0.7094732	0
Find the last numbered image in the current directory.	def last_image(fileDir): lastNum = 0 lastImg = '' # find the name and number of the last image in the current directory for f in os.listdir(fileDir): if os.path.isfile(os.path.join(fileDir, f)): file_name = os.path.splitext(f)[0] file_name2 = file_name[4:] ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def get_last_counter():\n counter = imageNumStart\n if imageNumOn:\n image_ext = \".jpg\"\n search_str = imagePath + \"/*\" + image_ext\n file_prefix_len = len(imagePath + imageNamePrefix)+1\n try:\n # Scan image folder for most recent jpg file\n # and try to e...	[ "0.7381124", "0.71163946", "0.6752403", "0.65669954", "0.651449", "0.6455671", "0.6257701", "0.62144595", "0.61207634", "0.6083774", "0.60167074", "0.6005787", "0.5981818", "0.59797287", "0.5971447", "0.597075", "0.59043884", "0.5898508", "0.58921754", "0.5875937", "0.581396"...	0.7685043	0
Sends an exposure command to the CCD given the type of frame and exposure time. The received BLOB is of FITS type and is	def exposure(frameType, expTime): blobEvent.clear() # set the specified frame type if frameType.lower() == 'light': ccd_frame[0].s = PyIndi.ISS_ON ccd_frame[1].s = PyIndi.ISS_OFF ccd_frame[2].s = PyIndi.ISS_OFF ccd_frame[3].s = PyIndi.ISS_OFF indiclient.sendNew...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def expose(self, cmd, expTime, expType):\n\n if not expType:\n expType = 'test'\n if cmd:\n cmd.inform('exposureState=\"exposing\"')\n if expType not in ('bias', 'test') and expTime > 0:\n time.sleep(expTime + self._exposureOverheadTime())\n\n if cmd:\n ...	[ "0.66172343", "0.66024214", "0.61997694", "0.6147396", "0.6001152", "0.5911744", "0.5895627", "0.5890128", "0.5692038", "0.5651894", "0.5623061", "0.56096864", "0.54805845", "0.54146963", "0.5291824", "0.5205684", "0.5177268", "0.51427567", "0.51357037", "0.5105987", "0.50998...	0.7639681	0
Changes CCD parameters/settings based on the given arguments	def setParams(commandList): for i in commandList: # set the bin mode (1x1 or 2x2) if 'bin=' in i: try: bin = int(i.replace('bin=','')) if bin >= 1 and bin <= 2: ccd_bin[0].value = bin ccd_bin[1].value = bin ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def setCcdMode(*argv):", "def set_parameter_values(self, c1, c2):\n self.c1 = c1\n self.c2 = c2", "def set_parameters(self, args):\n self.args = args\n\n if args.testing:\n self.delay_close()\n\n if args.source == \"simulation\":\n log.info(\"Create simu...	[ "0.7167858", "0.60452235", "0.60324895", "0.5878222", "0.57493514", "0.5714063", "0.56342685", "0.56257355", "0.5574821", "0.5573054", "0.55587506", "0.55421853", "0.55330527", "0.55330527", "0.55330527", "0.55330527", "0.55330527", "0.55182", "0.5511414", "0.55045736", "0.54...	0.528423	39
Determines what to do with the incoming data, whether it is sending an exposure command or setting a parameter. This is a separate method from handle_client() because it is called as a new thread, so ensure the exposure is nonblocking.	def handle_command(log, writer, data): response = 'BAD: Invalid Command' commandList = data.split() try: if commandList[0] == 'expose': if len(commandList) == 3: if commandList[1] == 'light' or commandList[1] == 'dark' or commandList[1] == 'flat': ex...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def command(self):\n saw_error = False\n try:\n analog_gain = float(self.value_analog.get())\n except:\n print(\"analog must be floating point value\")\n self.value_analog.set(str(self.tcp_comms.tcp_params.analog_gain_target))\n saw_error = True\n ...	[ "0.61772895", "0.6057597", "0.59728074", "0.5919234", "0.57503784", "0.5750175", "0.5683027", "0.5636862", "0.5570763", "0.5540126", "0.5496406", "0.5487305", "0.54842824", "0.5481451", "0.54694", "0.54545176", "0.5411232", "0.54028386", "0.5396897", "0.53862023", "0.5382583"...	0.57042426	6
This is the method that receives the client's data and decides what to do with it. It runs in a loop to always be accepting new connections. If the data is 'status', the CCD status is returned. If the data is 'stop', the current exposure is stopped. If the data is anything else, a new thread is created and the data is ...	async def handle_client(reader, writer): request = None # loop to continually handle incoming data while request != 'quit': request = (await reader.read(255)).decode('utf8') print(request.encode('utf8')) #log.info('COMMAND = '+request) writer.write(('COMMAND = '...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def handleRecvData(self, data):\n\n\t\t#Look for commands\n\t\tif data == 'Hello':\n\t\t\t#Inform client it is 'connected'\n\t\t\tself.transmit(\"Welcome\")\n\n\t\telif data == 'kill':\t\n\t\t\t#Stop the server running\n\t\t\tself.running = False\n\n\t\telif data == 'control':\n\t\t\t#Print out if in control of ca...	[ "0.7136164", "0.66953665", "0.6398843", "0.6384446", "0.63746595", "0.6355251", "0.6276334", "0.62578547", "0.6232429", "0.6153676", "0.61311704", "0.60923487", "0.60865486", "0.6026433", "0.59538", "0.5909406", "0.5902352", "0.58999", "0.58918047", "0.58892024", "0.58742887"...	0.6803808	1
Generates a sample configuration.	def create_default(self): self.database.lifetime = 604800 self.database.path_media = '../data/media.db' self.database.path_playlist = '../data/playlist.db' self.indexing.audio.rules = [IndexerRuleConfig()] self.indexing.audio.rules[0].directory = '/mnt/hdd/Audio' self.in...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def _sample_hyperparameters(self):\n\t\tconfig = {}\n\t\tfor attr, option in self._config_options.items():\n\t\t\tprint('Sampling', attr)\n\t\t\tconfig[attr] = option.sample()\n\t\treturn config", "def random_configuration(self):\n raise NotImplementedError", "def generate_configuration(directory):\n ...	[ "0.65736026", "0.6416811", "0.6385334", "0.6240616", "0.621911", "0.6212363", "0.60647005", "0.60343623", "0.6023183", "0.6003032", "0.5997811", "0.5997811", "0.59653294", "0.59653294", "0.59533024", "0.5914431", "0.5902483", "0.5882451", "0.5871193", "0.5864147", "0.5847218"...	0.0	-1
Find all prime numbers between 0 and n	def get_primes(n): primes = [True] * (n / 2) for i in range(int((n / 2 - 1) / 2) >> 1): for j in range((i * (i + 3) << 1) + 3, n / 2, (i << 1) + 3): primes[j] = False return [2] + [((i << 1) + 3) for i in range(n / 2) if (primes[i])]	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def primes(n):\n return [i for i in xrange(1, n + 1) if mr_prime(i)]", "def find_n_primes(n):\n primes = [ ]\n\n if n < 2:\n return None;\n\n primes.append(2)\n\n for i in range(3, n + 1, 2):\n is_prime = True\n for p in primes:\n if i % p is 0:\n is_prime = False\n continue\n ...	[ "0.8414769", "0.8174812", "0.8154782", "0.8066897", "0.79940116", "0.7972602", "0.7941718", "0.79004717", "0.78921247", "0.7884613", "0.786188", "0.786017", "0.7860028", "0.78575575", "0.78575575", "0.7856777", "0.78546125", "0.78280634", "0.78155655", "0.7812109", "0.7803009...	0.77787405	21
Get all data spread across multiple pages	def _get_all_data(self, resource): response = self._get_raising('{}{}?per_page=100&page=1'.format( self.GH_API_ENDPOINT, resource )) yield from response.json() while 'next' in response.links: response = self._get_raising(response.links['next']['url']) ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def _paginatedRequest(allPages, args):\n data = []\n currentPage = 0\n while True:\n newData = Gw2Spidy._request((args + (str(currentPage),)))\n if not allPages:\n return newData['results']\n data.extend(newData['results'])\n current...	[ "0.75263435", "0.739832", "0.69225633", "0.6902741", "0.6879651", "0.68711656", "0.6810762", "0.67072725", "0.67072725", "0.6681827", "0.66562927", "0.66062623", "0.65945363", "0.6549788", "0.6540712", "0.6535249", "0.6503686", "0.64717466", "0.6464984", "0.6408598", "0.63991...	0.638738	23
Get list of names of accessible repositories (including owner)	def list_repositories(self): data = self._get_all_data('/user/repos') return [repo['full_name'] for repo in data]	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def repositories(self, user_name=None):\n user_name = user_name if user_name else self._auth[0]\n data = self._request('GET', 'users', user_name)\n return data.repositories\n #ret_val = []\n #for repository in data.repositories:\n # ret_val.append(repository.name)\n ...	[ "0.7608418", "0.7267118", "0.7101556", "0.70416945", "0.6976196", "0.69618136", "0.6874849", "0.6862077", "0.68582284", "0.68060064", "0.6804673", "0.6765574", "0.67367995", "0.67278445", "0.67108905", "0.66979", "0.6602462", "0.6571694", "0.65691054", "0.6552383", "0.6520411...	0.78467643	0
Get dict of labels with colors for given repository slug	def list_labels(self, repository): data = self._get_all_data('/repos/{}/labels'.format(repository)) return {l['name']: str(l['color']) for l in data}	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def colors_for_labels():\n colors = [(i * np.array([2 25 - 1, 2 15 - 1, 2 ** 21 - 1]) % 255).astype(np.uint8) for i in range(len(CATEGORY))]\n #colors = np.array(range(len(COCO_INSTANCE_CATEGORY_NAMES))) * np.array([2 25 - 1, 2 15 - 1, 2 ** 21 - 1])\n #colors = (colors % 255).numpy().astype(\"...	[ "0.65194696", "0.5914808", "0.5822218", "0.5784747", "0.57322896", "0.5691123", "0.5686196", "0.5633396", "0.56304544", "0.56205434", "0.55804044", "0.5575821", "0.5575821", "0.5575821", "0.5575821", "0.5560394", "0.55267113", "0.55267113", "0.5519801", "0.5494467", "0.549199...	0.7589527	0
Create new label in given repository	def create_label(self, repository, name, color, **kwargs): data = {'name': name, 'color': color} response = self.session.post( '{}/repos/{}/labels'.format(self.GH_API_ENDPOINT, repository), json=data ) if response.status_code != 201: raise GitHubError(...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def create_label(self, org, name):\n pass", "def test_issue_create_label(self):\n pass", "async def new_label(event, gh, args, *kwargs):\n if event.data[\"label\"][\"name\"] == TRIVIAL_LABEL:\n issue_number_found = ISSUE_RE.search(\n event.data[\"pull_request\"][\"title\"])...	[ "0.7274326", "0.7140176", "0.67611367", "0.6694404", "0.6539713", "0.6458034", "0.64482284", "0.6406368", "0.63728607", "0.6343112", "0.6218493", "0.6180373", "0.6086001", "0.6058881", "0.60423875", "0.6024324", "0.6002186", "0.5988165", "0.5969681", "0.59262604", "0.5906312"...	0.77359784	0
Update existing label in given repository	def update_label(self, repository, name, color, old_name=None, **kwargs): data = {'name': name, 'color': color} response = self.session.patch( '{}/repos/{}/labels/{}'.format( self.GH_API_ENDPOINT, repository, old_name or name ), json=data ) ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def set_labels(repo: Repository, labels: list[Label]):\n\n log.info(f\"Fetching existing labels from {repo.full_name}\")\n existing_labels = {label.name.casefold(): label for label in repo.get_labels()}\n log.info(f\"Found {len(existing_labels)} existing labels\")\n\n for label in labels:\n qual...	[ "0.6681116", "0.6653021", "0.64337254", "0.6265893", "0.62407804", "0.6226869", "0.61520106", "0.6127353", "0.61121166", "0.61037016", "0.6094828", "0.603661", "0.60320926", "0.59240484", "0.59008676", "0.58834106", "0.58732027", "0.5860932", "0.5839947", "0.58363944", "0.580...	0.72466385	0
Delete existing label in given repository	def delete_label(self, repository, name, **kwargs): response = self.session.delete( '{}/repos/{}/labels/{}'.format( self.GH_API_ENDPOINT, repository, name ) ) if response.status_code != 204: raise GitHubError(response)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_issue_delete_label(self):\n pass", "def delete(ctx: click.Context, repository_path):\n root_commands.cmd_delete(ctx.obj, repository_path)", "def repository_delete(ctx: click.Context, repository_name):\n subcommand_repository.cmd_delete(ctx.obj, repository_name)", "def delete_label(id):\...	[ "0.7348744", "0.716896", "0.7127642", "0.6931051", "0.6877669", "0.67660433", "0.67263836", "0.67033213", "0.6610836", "0.6601114", "0.6599512", "0.64673704", "0.64669335", "0.64562386", "0.6455143", "0.63759565", "0.6242319", "0.6198236", "0.61135364", "0.60569805", "0.60212...	0.8369633	0
Ask for a number between low and high until actually given one. Ask for a number, and if the response is outside the bounds keep asking until you get a number that you think is OK	def stubborn_asker(low, high): import random a=random.randint(1,100) for i in range(1,10): n=input('enter the number: ') if n.isdigit(): n=int(n) if n==a: return('Correct') break elif n>a: return('The number ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def ask_number(question, low, high):\n response = None\n while response not in range(low, high, 1):\n response = input(question)\n return response", "def ask_number(question, low, high):\n response = None\n while response not in range (low, high):\n response = int(input(question)...	[ "0.8282392", "0.8165286", "0.8158761", "0.8158761", "0.8125007", "0.7887655", "0.74961793", "0.7476491", "0.7303107", "0.70028126", "0.69437313", "0.69389933", "0.69310325", "0.689875", "0.68148214", "0.67976105", "0.67912346", "0.6782751", "0.66932416", "0.6617285", "0.65194...	0.67488945	18
Extracts feature vectors from a given model and dataset and writes them, along with labels, to a file. This function works for any model whose forward() method returns, on any given input x, the pair (prediction on x, feature vector for x) and more generally, any model whose second return value is a feature vector.	def extract_feature_vectors(model, data_loader, parameters, features_file_path): feature_vectors, label_vectors = [], [] # Set model to evaluation mode model.eval() # Show progress bar while iterating over mini-batches with tqdm(total=len(data_loader)) as progress_bar: for i, (X_batch, Y_b...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def save_vectors (feat_vec = None, labels = None, file_extension = None):\n\n feat_file_name = 'output/' + file_extension + '.feature'\n label_file_name = 'output/' + file_extension + '.label'\n\n prettyPrint('Saving feature vector file: {0} ... \\n'\n 'Saving Labels file: {1} ... '.format(...	[ "0.6803554", "0.6240717", "0.6221068", "0.6063516", "0.6009722", "0.5950848", "0.5824239", "0.58020353", "0.57663727", "0.57563233", "0.5755955", "0.57133436", "0.5701105", "0.5675284", "0.56728137", "0.56672686", "0.56518734", "0.56423616", "0.56261265", "0.56195384", "0.560...	0.6868015	0
Returns the average distance between pairs of vectors in a given list of vectors.	def average_distance_between_vectors(vectors, distance): vectors = numpy.array(vectors) vectors = vectors - numpy.mean(vectors, axis=0) vectors = normalize(vectors) vectors = list(vectors) average_distance = utils.RunningAverage() for vector_1, vector_2 in itertools.combinations(vectors, r=2): #...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def average_vectors(vectors_list):\n return np.mean(vectors_list, axis=0)", "def compute_average(vec_list):\r\n return np.sum(vec_list, axis = 0)/len(vec_list)", "def average(cls, vectors):\n return cls.sum(vectors) / len(vectors)", "def vector_mean(vectors: List[Vector]) -> Vector:\n n = len...	[ "0.7456902", "0.7266837", "0.7161427", "0.66369", "0.66369", "0.6613315", "0.6526983", "0.6526983", "0.652161", "0.652161", "0.652161", "0.6493121", "0.6426592", "0.641932", "0.61453825", "0.6135802", "0.6098236", "0.60969055", "0.60628074", "0.6040219", "0.6035585", "0.601...	0.8062336	0
Reads feature vectors and labels from a file and prints information about their clustering properties. Here, we think of the space of feature vectors, and consider a vector v_i to be in cluster j if j is one of the labels for example i.	def analyze_feature_vector_clusters(features_file_path, distance=utils.L2_distance): feature_vectors, label_vectors = utils.read_feature_and_label_vectors(features_file_path) logging.info('Building clusters...') # Map from (integer j) --> (list of indices i such that feature_vectors[i] is in cluster j) ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def load_vectors (file_extension = None):\n \n feat_file_name = 'output/' + file_extension + '.feature'\n label_file_name = 'output/' + file_extension + '.label'\n \n prettyPrint( \"Loading feature vectors and labels from disk ... \", color.CYAN)\n if not os.path.isfile(feat_file_name) or not os....	[ "0.5931401", "0.58759993", "0.5818201", "0.5670178", "0.55925786", "0.5564548", "0.5553166", "0.5509292", "0.5509292", "0.5505033", "0.55044186", "0.5498727", "0.5490172", "0.54632276", "0.54203254", "0.54109955", "0.5390733", "0.5373782", "0.5334791", "0.5330502", "0.5268046...	0.65529263	0
Make custom attributes and methods to native	def native_methods(self): base_attributes = { dir(TapiAdapter), dir(TapiClientExecutor), *dir(JSONAdapterMixin), "serializer", } a = [ attr for attr in dir(self) if not attr.startswith("_") and attr not in base...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def attributes(self):\n raise NotImplementedError", "def __attrs_post_init__(self):", "def _set_attributes(self):", "def __setattr__(self, args, kwargs): # real signature unknown\n pass", "def __setattr__(self, args, **kwargs): # real signature unknown\n pass", "def __setattr__(self,...	[ "0.6156814", "0.60756165", "0.5929101", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", ...	0.0	-1
Create of url request	def fill_resource_template_url(self, template, params, resource): try: return template.format(*params) except KeyError: all_keys = re.findall(r"{(.[^\}])", template) range_not_set_keys = set(all_keys) - set(params.keys()) not_set_keys = "', '".join(range...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def _create_request_url():\n url = 'http'\n if _config['save']:\n url += 's'\n url += '://{}:{}/move'.format(_config['ip'], _config['port'])\n return url", "def _CreateRequest(self, url, data=None):\r\n logging.debug(\"Creating request for: '%s' with payload:\\n%s\", url, data)\r\n req =...	[ "0.7095145", "0.70785993", "0.7020341", "0.69661885", "0.6836974", "0.67563176", "0.6740314", "0.6718406", "0.6607577", "0.6582395", "0.65728194", "0.65544945", "0.6512967", "0.6509939", "0.6411456", "0.6373932", "0.63712084", "0.63712084", "0.6340278", "0.62835985", "0.62759...	0.0	-1
Adding parameters to a request	def get_request_kwargs(self, api_params, args, *kwargs): serialized = self.serialize_data(kwargs.get("data")) kwargs["data"] = self.format_data_to_request(serialized) return kwargs	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def add_params(self, params: t.Mapping[str, str]) -> 'Request':\n return replace(self, params={self.params, params})", "def additional_access_token_request_parameters(self, parameters, request):", "def get_request_extra_params(self, **kwargs):\n params = self.request_extra_params.copy()\n ...	[ "0.74066496", "0.72835517", "0.6995281", "0.6825499", "0.68013364", "0.65432173", "0.6506432", "0.64661425", "0.6460794", "0.63875496", "0.6370902", "0.6263036", "0.62520313", "0.6237418", "0.6223249", "0.61894953", "0.6144124", "0.61332905", "0.6104013", "0.60877264", "0.607...	0.58247703	53
Get error from response.	def get_error_message(self, data, response=None): return str(data)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def getError(self):\n \n return self.resp[\"error\"]", "def _get_error_message(response):\n try:\n return response.json()[\"detail\"]\n except (KeyError, _JSONDecodeError):\n return response.text", "def error(self):\n error = self._wrapped.error\n ...	[ "0.83358467", "0.78637624", "0.7812136", "0.7469619", "0.74155784", "0.7169605", "0.7166862", "0.7096074", "0.7082572", "0.704426", "0.7022822", "0.69620997", "0.6958218", "0.6933554", "0.6891388", "0.68128866", "0.67896175", "0.67648655", "0.6737759", "0.66620314", "0.664474...	0.6469981	34
Wrapper for throwing custom exceptions. When, for example, the server responds with 200, and errors are passed inside json.	def error_handling( self, tapi_exception, error_message, repeat_number, response, request_kwargs, api_params, **kwargs ): raise tapi_exception	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def make_json_error(ex):\n if isinstance(ex, HTTPException):\n return ex;\n elif isinstance(ex, ResourceException):\n info = ex.to_dict()\n status_code = ex.http_status\n info[\"type\"] = \"exception\"\n else:\n message = \"There was an in...	[ "0.73746616", "0.73421353", "0.73373085", "0.7094187", "0.7060387", "0.70266795", "0.7011387", "0.69837064", "0.69805527", "0.6943718", "0.6921114", "0.6909217", "0.69065756", "0.6879482", "0.67980826", "0.67973834", "0.67954606", "0.678849", "0.6778472", "0.67188394", "0.671...	0.0	-1
Conditions for repeating a request. If it returns True, the request will be repeated.	def retry_request( self, tapi_exception, error_message, repeat_number, response, request_kwargs, api_params, **kwargs ): return False	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def _do_request(self):\n\n if time.time() < self._next_request:\n return False\n else:\n return True", "def valid_in_request(self):\n return self._repeatable[0] is not None", "def valid_multiple_in_request(self):\n return self._repeatable[0] is True", "def va...	[ "0.7024639", "0.6854883", "0.6750136", "0.6601198", "0.6564489", "0.64355195", "0.61150056", "0.60088533", "0.5957636", "0.58485484", "0.57753676", "0.574291", "0.57246184", "0.5706755", "0.55322963", "0.549886", "0.5494331", "0.5449525", "0.5437684", "0.5399534", "0.5398021"...	0.5810275	10
Stuff to do before every test.	def setUp(self): # Get the Flask test client self.client = app.test_client() #Shows Flask errors that happen during tests app.config['TESTING'] = True #To test sessions we need to set Secret key app.config['SECRET_KEY'] = 'key' # Connect to test database ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def before_run_tests(cls):\n pass", "def do_before(self):\r\n pass", "def before_test(self, func, args, *kwargs):\n pass", "def setUp(self):\r\n # nothing to do, all tests use different things\r\n pass", "def setUp(self):\n print(\"New test by Nikolay Melnik\")",...	[ "0.8211315", "0.802689", "0.80261695", "0.7873411", "0.76571673", "0.76434696", "0.76261467", "0.75419456", "0.75174975", "0.7496759", "0.7496759", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0...	0.0	-1
Stuff to do before every test.	def setUp(self): # Get the Flask test client self.client = app.test_client() # Show Flask errors that happen during tests app.config['TESTING'] = True #To test sessions we need to set Secret key app.config['SECRET_KEY'] = 'key' # Connect to test database ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def before_run_tests(cls):\n pass", "def do_before(self):\r\n pass", "def before_test(self, func, args, *kwargs):\n pass", "def setUp(self):\r\n # nothing to do, all tests use different things\r\n pass", "def setUp(self):\n print(\"New test by Nikolay Melnik\")",...	[ "0.8211315", "0.802689", "0.80261695", "0.7873411", "0.76571673", "0.76434696", "0.76261467", "0.75419456", "0.75174975", "0.7496759", "0.7496759", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0...	0.0	-1
Do at end of every test.	def tearDown(self): db.session.close() db.drop_all()	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_finished(self):\n\n # We'll start the next test in an idle, so that the current one is\n # properly terminated, and we do not execute in its context\n\n GLib.idle_add(self._do_test)", "def test_run_ended(self):", "def finished_tests(self):\n self.testing = 0", ...	[ "0.7842646", "0.7775997", "0.77741504", "0.77669877", "0.76620615", "0.7591832", "0.74713165", "0.7361014", "0.73159444", "0.7298099", "0.72939897", "0.72939897", "0.7259042", "0.723601", "0.72323287", "0.7225132", "0.7225132", "0.72186595", "0.720453", "0.720453", "0.720453"...	0.0	-1
Test this page can only be reached if user is in session	def test_user_profile_page(self): result = self.client.get("/profile", follow_redirects=True) self.assertIn(b"User ID", result.data)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_session_not_accessed(self):\n response = self.client.get(\"/auth_processor_no_attr_access/\")\n self.assertContains(response, \"Session not accessed\")", "def test_not_logged_user_cannot_access(self):\n\n utils.test_not_logged_cannot_access(self, self.url)", "def test_not_logged_u...	[ "0.7483035", "0.743996", "0.743996", "0.743996", "0.743996", "0.73823667", "0.7071074", "0.7004314", "0.7000037", "0.69217306", "0.6881494", "0.68084276", "0.68084276", "0.6783943", "0.67708766", "0.67426723", "0.6722217", "0.6721236", "0.6721236", "0.6721236", "0.6698859", ...	0.0	-1
Test this page can only be reached if user is in session	def test_search_page(self): result = self.client.get("/search") self.assertIn(b"Search", result.data)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_session_not_accessed(self):\n response = self.client.get(\"/auth_processor_no_attr_access/\")\n self.assertContains(response, \"Session not accessed\")", "def test_not_logged_user_cannot_access(self):\n\n utils.test_not_logged_cannot_access(self, self.url)", "def test_not_logged_u...	[ "0.7482324", "0.7440397", "0.7440397", "0.7440397", "0.7440397", "0.7383309", "0.707093", "0.7003852", "0.6998608", "0.6921593", "0.68799853", "0.6807848", "0.6807848", "0.6783388", "0.67709535", "0.6742237", "0.67224073", "0.6720221", "0.6720221", "0.6720221", "0.669822", ...	0.0	-1
Test user's if favourite restaurant is added to DB	def test_add_to_fav_(self): result = self.client.post("/add_to_fav", data={"yelp_biz_id":"JA_V9TqDCrkgknqrcUndIQ", "yelp_rest_name":"Siam", "yelp_rating":"4", "yelp_category":"Thai", "yelp_price":"$$", "yelp_image_url":"https://s3-media2.fl.yelpcdn.com/bphoto/1...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_Favourite(self):\n self.assertEquals(self.fav_1.pk, 1)\n self.assertEquals(self.fav_1.date_added, '2019-12-20 09:00:00')\n self.assertEquals(self.fav_1.user.pk, 1)\n self.assertEquals(self.fav_1.product.pk, 1)", "async def create(self, favorite: Favorite) -> Favorite:", "de...	[ "0.72114295", "0.6636154", "0.6632463", "0.65658706", "0.64831656", "0.6482696", "0.6476188", "0.64745235", "0.6445702", "0.6381491", "0.6374218", "0.6319528", "0.6261317", "0.6236881", "0.6179164", "0.6172634", "0.6163744", "0.6161769", "0.6146276", "0.6124457", "0.60840327"...	0.78729564	0
Stuff to do before every test.	def setUp(self): # Get the Flask test client self.client = app.test_client() # Show Flask errors that happen during tests app.config['TESTING'] = True # Connect to test database connect_to_db(app, "postgresql:///testdb") # Create tables and add sample data ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def before_run_tests(cls):\n pass", "def do_before(self):\r\n pass", "def before_test(self, func, args, *kwargs):\n pass", "def setUp(self):\r\n # nothing to do, all tests use different things\r\n pass", "def setUp(self):\n print(\"New test by Nikolay Melnik\")",...	[ "0.8209909", "0.8028296", "0.80253834", "0.7872079", "0.76552856", "0.76427346", "0.7627397", "0.7540311", "0.7515845", "0.74945575", "0.74945575", "0.74365586", "0.74365586", "0.74365586", "0.74365586", "0.74365586", "0.74365586", "0.74365586", "0.74365586", "0.74365586", "0...	0.0	-1
Do at end of every test.	def tearDown(self): db.session.close() db.drop_all()	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def test_finished(self):\n\n # We'll start the next test in an idle, so that the current one is\n # properly terminated, and we do not execute in its context\n\n GLib.idle_add(self._do_test)", "def test_run_ended(self):", "def finished_tests(self):\n self.testing = 0", ...	[ "0.78425974", "0.77754915", "0.77742684", "0.7766872", "0.76616216", "0.75920033", "0.7470884", "0.73606", "0.73159856", "0.7297722", "0.7293865", "0.7293865", "0.72588974", "0.7235985", "0.72320426", "0.7224789", "0.7224789", "0.72181326", "0.72043455", "0.72043455", "0.7204...	0.0	-1
Find restaurant name by zipcode.	def test_process_searchbox_with_mock(self): result = self.client.get('/process_searchbox', data={'zipcode': '94043', 'cuisine': 'indian'}) self.assertIn(b"Dosa Paratha", result.data)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def county_name(zipcode): \n search = SearchEngine(simple_zipcode=True) # set simple_zipcode=False to use rich info database\n zipcode_query = search.by_zipcode(str(zipcode))\n zipcode_query_dict = zipcode_query.to_dict()\n county = zipcode_query_dict['county']\n if county is None:\n print('I...	[ "0.72173095", "0.669443", "0.66253436", "0.66198653", "0.64643675", "0.6446394", "0.6327299", "0.62487876", "0.6163434", "0.6108556", "0.6016015", "0.5976856", "0.59515876", "0.5928086", "0.57584274", "0.57179135", "0.5710414", "0.5634522", "0.56298053", "0.5622634", "0.55962...	0.0	-1
Return the nth Fibonacci number	def fibonacci(n): if n in (0,1): return n return (fibonacci(n-2) + fibonacci(n-1))	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def fibonacci(n):", "def nthFibonacci(n):\n\n # Run some basic error checking\n try:\n n = int(n)\n except: # if this fails not a number inputed\n sys.stderr.write('Incorrect data input\\n')\n return None\n if n < 0:\n sys.stderr.write('Only positive integers allowed\\n')\n return None\n \n ...	[ "0.8549428", "0.83808696", "0.8357446", "0.8267962", "0.82505155", "0.8213346", "0.8213339", "0.8212905", "0.81149447", "0.8098057", "0.80716306", "0.8040074", "0.8032861", "0.8029916", "0.8029916", "0.8019259", "0.8019077", "0.8012156", "0.8007875", "0.8001539", "0.79852134"...	0.78968835	39
Get the eol mode map	def EOLModeMap(): # Maintenance Note: ints must be kept in sync with EDSTC_EOL_* in edstc return { EOL_MODE_CR : _("Old Machintosh (\\r)"), EOL_MODE_LF : _("Unix (\\n)"), EOL_MODE_CRLF : _("Windows (\\r\\n)")}	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def get_eol_for_open(self) -> str:\n map = {\n EOLTypes.CRLF: WINDOWS_EOL,\n EOLTypes.LF: UNIX_EOL,\n EOLTypes.NATIVE: linesep,\n }\n\n return map[self]", "def get_modes(self):\n return [i for i, j in enumerate(self._modemap._map) if j is not None]", ...	[ "0.63044417", "0.6147848", "0.5959693", "0.5748074", "0.57146144", "0.5593236", "0.54169565", "0.54102844", "0.53679585", "0.5359293", "0.5346539", "0.5331634", "0.53012353", "0.5280056", "0.52593654", "0.52485204", "0.51640564", "0.5128611", "0.51207393", "0.51181734", "0.50...	0.808408	0
Base Class for all controls. On its own, this is just a Label in a BoxLayout.	def __init__(self, label:str=None, variable_name:str=None, value:typing.Any=None, parent:QtWidgets.QWidget=None, on_change:typing.Callable=None): QtWidgets.QWidget.__init__(self, parent=parent) if label is None: if variable_name is None: ...	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def create_label(self):\n\n self.pc_label = Label(self.form_box, text=\"Primary Current [A]:\", anchor='nw', width=32,\n bg=self.design.color.secondary, font=('Arial', 15))\n self.sc_label = Label(self.form_box, text=\"Secondary Current [A]:\", anchor='nw', width=32,\n ...	[ "0.68835676", "0.66542274", "0.63613844", "0.6344261", "0.63232493", "0.630243", "0.6290771", "0.61542106", "0.6145763", "0.6128528", "0.60839635", "0.60793793", "0.6052032", "0.60399705", "0.60251766", "0.6019413", "0.5956044", "0.59486943", "0.5947741", "0.5929713", "0.5921...	0.60125613	16
fit le modele puis retourne ses performances en test	def score(self, archi:ArchitectureNN): archi.fit_model(self.train_data, **self.train_params) return archi.compute_test_score(self.test_data)	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "def fit_test(self):", "def experiment_models(train, test, train_target, test_target):\n # Linear models\n linear_models = [(LinearRegression, {\"n_jobs\": -1}),\n (Lasso, {\"alpha\": 3}),\n (Ridge, {\"alpha\": 3}),\n (LinearSVR, {\"random_state\":...	[ "0.70706695", "0.64831716", "0.64393735", "0.6433011", "0.64119494", "0.6411802", "0.6275987", "0.624839", "0.62458396", "0.62132657", "0.62124383", "0.6203546", "0.62026036", "0.6191927", "0.6183838", "0.615125", "0.61467177", "0.61371404", "0.6132172", "0.6127471", "0.61209...	0.0	-1

List the names of available readers Note that this will import all readers.

def names() -> Tuple[str, ...]: return plugins.list_all(package_name=__name__)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def get_readers():\n return all_readers", "def get_reader_funcs():\n return READERS", "def list_reads(cls) -> list:\n return [cls.FWREAD, cls.RVREAD];", "def namelist(self):\n return self._handle.getnames()", "def namelist(self):\n return self._handle.getnames()", "def list_con...

[ "0.7477495", "0.64536035", "0.63747376", "0.5518427", "0.5518427", "0.5415075", "0.5403663", "0.5381984", "0.5381984", "0.53160554", "0.5299087", "0.527088", "0.52304727", "0.52028954", "0.5191611", "0.5185727", "0.51809806", "0.5179094", "0.5153803", "0.51439035", "0.513742"...

0.47953343

78

Check whether the given reader exists

def exists(reader_name: str) -> bool: return plugins.exists(package_name=__name__, plugin_name=reader_name)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def _haveReadLocks(self): \n readLockFileName = ReadLock.fileName\n for name in os.listdir(self.dir):\n if name.startswith(readLockFileName):\n return True\n return False", "def exists(identifier, network):\n foo = next(load(identifier, network), None)...

[ "0.6164184", "0.5904849", "0.58638656", "0.58638656", "0.5770025", "0.575396", "0.56898904", "0.5686118", "0.56144536", "0.56005126", "0.5580309", "0.5566034", "0.5542885", "0.55397743", "0.5537704", "0.55220896", "0.5509569", "0.54929805", "0.549026", "0.54900736", "0.547761...

0.66304976

0

Get one line documentation for readers If no readers are specified, documentation for all available readers are returned.

def short_docs(*readers: str) -> List[Tuple[str, str]]: if not readers: readers = names() return [(r, plugins.doc(__name__, r, long_doc=False)) for r in readers]

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def get_readers():\n return all_readers", "def get_docs(self):\n return self.retrieve_docstring()", "def get_docs(self):\n return self.retrieve_docstring()", "def get_docs(self):\n return self.retrieve_docstring()", "def read_documentation(self, fid):\r\n\r\n lin = self.read_...

[ "0.6139211", "0.5529351", "0.5529351", "0.5529351", "0.5385095", "0.53439957", "0.52958757", "0.5215697", "0.5117727", "0.49581614", "0.48913068", "0.4863882", "0.48443574", "0.48011702", "0.47767526", "0.47586027", "0.47446275", "0.4685375", "0.46740708", "0.4643249", "0.462...

0.67184293

0

Read a bytes stream with a given reader If the reader is not specified, an attempt to guess at an appropriate reader is made. A NoReaderFound error is raised if no such appropriate reader is found.

def read_stream( input_stream: IO[bytes], reader_name: Optional[str] = None, **reader_args: Any ) -> Reader: if reader_name is None: reader_name = identify(input_stream) reader = plugins.call( package_name=__name__, plugin_name=reader_name, input_stream=input_stream, ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def get_reader(fn):\n if is_bed(fn):\n return BedReader(fn)\n elif is_vcf(fn):\n return VcfReader(fn)\n else:\n raise ValueError(\"Could not get reader for %s\" % fn)", "def read_file(\n file_path: Union[str, pathlib.Path],\n reader_name: Optional[str] = None,\n **reader_ar...

[ "0.6057923", "0.6019735", "0.5995071", "0.59576786", "0.5762868", "0.5712855", "0.5576423", "0.544311", "0.54237616", "0.54231197", "0.5403411", "0.53777176", "0.53776944", "0.52933985", "0.5291875", "0.52114725", "0.5191779", "0.5167444", "0.514691", "0.51206833", "0.510413"...

0.6454055

0

Read a file with a given reader If the reader is not specified, an attempt to guess at an appropriate reader is made. A NoReaderFound error is raised if no such appropriate reader is found.

def read_file( file_path: Union[str, pathlib.Path], reader_name: Optional[str] = None, **reader_args: Any, ) -> Reader: with open(file_path, mode="rb") as input_stream: return read_stream(input_stream, reader_name)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def read(filePath, reader='infer'):\n if isinstance(reader, str):\n if reader == 'infer':\n loader = inferReader(filePath)\n else:\n if reader in READERS:\n loader = READERS[reader]\n else:\n raise SerpentToolsException(\n ...

[ "0.73507124", "0.6649994", "0.6541662", "0.6465156", "0.6096228", "0.5905837", "0.5818582", "0.5808917", "0.57055247", "0.5697342", "0.5619084", "0.5508928", "0.5467147", "0.5462562", "0.5446384", "0.5420934", "0.5397053", "0.5380353", "0.53490704", "0.5324267", "0.53047097",...

0.7362303

0

Identify a reader that can read a given file A NoReaderFound error is raised if no such appropriate reader is found.

def identify(input_stream: IO[bytes]) -> str: import IPython where_am_i = "readers.__init__.identify" IPython.embed() raise exceptions.NoReaderFound( f"Found no reader that can read {input_stream.name}" ) from None

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def get_reader(fn):\n if is_bed(fn):\n return BedReader(fn)\n elif is_vcf(fn):\n return VcfReader(fn)\n else:\n raise ValueError(\"Could not get reader for %s\" % fn)", "def inferReader(filePath):\n for reg, reader in six.iteritems(REGEXES):\n match = re.match(reg, filePat...

[ "0.67069465", "0.6362347", "0.60579586", "0.5630345", "0.54816085", "0.5466467", "0.544671", "0.5360829", "0.53323615", "0.53214943", "0.5317366", "0.5301518", "0.5290404", "0.52551913", "0.52348626", "0.51969", "0.5128019", "0.5122039", "0.5115842", "0.50972366", "0.5093929"...

0.48551324

39

Shortcut for symbol creation to test "function" and "indexed" API.

def symbol(name, dimensions, value=0., mode='function'): assert(mode in ['function', 'indexed']) s = DenseData(name=name, dimensions=dimensions) s.data[:] = value return s.indexify() if mode == 'indexed' else s

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def FakeSymbol(*args, _op, **kwargs):\n return symbol.Custom(*args, _op=_op, op_type=\"_fake\", **kwargs)", "def __call__(fun_name):", "def input_shortcut(symbol, name=None):\n def input_method(self, *args, **kwargs):\n return self.input(symbol, *args, **kwargs)\n input_method.__nam...

[ "0.6120692", "0.6099593", "0.5789169", "0.5777273", "0.5620227", "0.56047827", "0.55795795", "0.55412346", "0.55109686", "0.54903716", "0.5484314", "0.5438553", "0.5425026", "0.54227895", "0.5353313", "0.5350989", "0.53228265", "0.53207916", "0.5307697", "0.5287561", "0.52811...

0.0

-1

Tests basic pointwise arithmetic on twodimensional data

def test_flat(self, expr, result, mode): i, j = dimify('i j') a = symbol(name='a', dimensions=(i, j), value=2., mode=mode) b = symbol(name='b', dimensions=(i, j), value=3., mode=mode) fa = a.base.function if mode == 'indexed' else a fb = b.base.function if mode == 'indexed' else ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_data():\n x = np.array([8, 67, 79, 10, 52, 53, 98, 34, 15, 58], dtype=float)\n y = np.array([24, 87, 48, 94, 98, 66, 14, 24, 60, 16], dtype=float)\n z = np.array([0.064, 4.489, 6.241, 0.1, 2.704, 2.809, 9.604, 1.156,\n 0.225, 3.364], dtype=float)\n\n return x, y, z", "def Te...

[ "0.6385182", "0.6282518", "0.61600417", "0.61573863", "0.6152449", "0.61160505", "0.60762215", "0.6071223", "0.60207266", "0.6017882", "0.6017163", "0.59854347", "0.59580594", "0.59534204", "0.5947321", "0.591167", "0.5898243", "0.58920926", "0.58749056", "0.58674467", "0.586...

0.0

-1

Tests basic pointwise arithmetic on multidimensional data

def test_deep(self, expr, result, mode): i, j, k, l = dimify('i j k l') a = symbol(name='a', dimensions=(i, j, k, l), value=2., mode=mode) b = symbol(name='b', dimensions=(j, k), value=3., mode=mode) fa = a.base.function if mode == 'indexed' else a fb = b.base.function if mode ==...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_multidimensional_operation(self):\n # start with something (1, 2, 3)\n data = np.array([[[0.0, 1.0, 2.0], [3.0, 4.0, 5.0]]])\n\n # split 1st dim (2, 2, 3)\n coefficients = np.ones((1, 2)) / 2\n expected = np.array(\n [[[0.0, 0.5, 1.0], [1.5, 2.0, 2.5]], [[0.0,...

[ "0.6647943", "0.6466135", "0.6279551", "0.62339604", "0.6172996", "0.61697084", "0.6152088", "0.6150274", "0.6137789", "0.6136748", "0.6109442", "0.6009509", "0.5945426", "0.591577", "0.5912449", "0.590353", "0.5883301", "0.58808935", "0.5876383", "0.587444", "0.58706623", ...

0.0

-1

Tests pointwise increments with stencil offsets in one dimension

def test_indexed_increment(self, expr, result): j, l = dimify('j l') a = symbol(name='a', dimensions=(j, l), value=2., mode='indexed').base fa = a.function fa.data[1:, 1:] = 0 eqn = eval(expr) Operator(eqn)(fa) assert np.allclose(fa.data, result, rtol=1e-12)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def coordination(c, stencil=nn_stencil):\n\n coordination = np.zeros_like(c, dtype=int)\n for dx, dy in stencil:\n tmp = np.array(c, dtype=bool, copy=True)\n if dx != 0:\n tmp = np.roll(tmp, dx, 0)\n if dy != 0:\n tmp = np.roll(tmp, dy, 1)\n coordination += t...

[ "0.65050405", "0.54784226", "0.5474315", "0.5348384", "0.5347258", "0.5336783", "0.53343135", "0.53305495", "0.5314463", "0.52894896", "0.5283575", "0.5209135", "0.52068275", "0.5183291", "0.5156076", "0.5149829", "0.51383203", "0.51378614", "0.5116575", "0.51146805", "0.5108...

0.0

-1

Test pointwise arithmetic with stencil offsets across two functions in indexed expression format

def test_indexed_stencil(self, expr, result): j, l = dimify('j l') a = symbol(name='a', dimensions=(j, l), value=0., mode='indexed').base fa = a.function b = symbol(name='b', dimensions=(j, l), value=2., mode='indexed').base fb = b.function eqn = eval(expr) Opera...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_offsets():\n B = 100\n H = 20\n E = 210000\n sections = ((B, H, 0, E),)\n sections2 = ((B, H, 12.435, E),)\n EI, top, bot = bm.EI(sections, E)\n EI2, top2, bot2 = bm.EI(sections2, E)\n assert 0.99 < EI / EI2 < 1.01\n assert 0.99 < top / top2 < 1.01\n assert 0.99 < bot / bot2 ...

[ "0.54499704", "0.54236096", "0.54200417", "0.54183537", "0.53868484", "0.5386813", "0.5386671", "0.53676295", "0.53601813", "0.5349417", "0.53437924", "0.53436583", "0.5304866", "0.53009784", "0.5292884", "0.52877325", "0.5283028", "0.5282718", "0.5279577", "0.52767044", "0.5...

0.70558316

0

Test pointwise arithmetic with stencil offsets across a single functions with buffering dimension in indexed expression format

def test_indexed_buffered(self, expr, result): i, j, l = dimify('i j l') a = symbol(name='a', dimensions=(i, j, l), value=2., mode='indexed').base fa = a.function eqn = eval(expr) Operator(eqn)(fa) assert np.allclose(fa.data[1, 1:-1, 1:-1], result[1:-1, 1:-1], rtol=1e-12...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_indexed_stencil(self, expr, result):\n j, l = dimify('j l')\n a = symbol(name='a', dimensions=(j, l), value=0., mode='indexed').base\n fa = a.function\n b = symbol(name='b', dimensions=(j, l), value=2., mode='indexed').base\n fb = b.function\n\n eqn = eval(expr)\n...

[ "0.70109046", "0.5731927", "0.5725207", "0.5534058", "0.5485873", "0.54508567", "0.5420271", "0.5402067", "0.53938526", "0.5361206", "0.53606236", "0.5359261", "0.5359202", "0.5320887", "0.5293664", "0.5291382", "0.5265721", "0.52385396", "0.523383", "0.52290106", "0.52282166...

0.5903518

1

Test pointwise arithmetic with stencil offsets and open loop boundaries in indexed expression format

def test_indexed_open_loops(self, expr, result): i, j, l = dimify('i j l') pushed = [d.size for d in [j, l]] j.size = None l.size = None a = DenseData(name='a', dimensions=(i, j, l), shape=(3, 5, 6)).indexed fa = a.function fa.data[0, :, :] = 2. eqn = eva...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_indexed_stencil(self, expr, result):\n j, l = dimify('j l')\n a = symbol(name='a', dimensions=(j, l), value=0., mode='indexed').base\n fa = a.function\n b = symbol(name='b', dimensions=(j, l), value=2., mode='indexed').base\n fb = b.function\n\n eqn = eval(expr)\n...

[ "0.6950202", "0.58628595", "0.56040186", "0.5595086", "0.5519812", "0.54418904", "0.54108006", "0.533119", "0.53181374", "0.53098184", "0.5292402", "0.5292149", "0.5247795", "0.5246134", "0.523379", "0.5228938", "0.5216184", "0.51775336", "0.51391", "0.513825", "0.51371264", ...

0.6362784

1

Test that the calltime overriding of Operator arguments works

def test_override_cache_aliasing(self): i, j, k, l = dimify('i j k l') a = symbol(name='a', dimensions=(i, j, k, l), value=2., mode='indexed').base.function a1 = symbol(name='a', dimensions=(i, j, k, l), value=3., mode='indexed').base.function a2 = ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def __call__(a, b):", "def _OverloadOperator(operator): # pylint: disable=invalid-name\n\n tensor_oper = getattr(ops.Tensor, operator)\n\n def _run_op(a, *args):\n # pylint: disable=protected-access\n value = a._AsTensor()\n return tensor_oper(value, *args)\n\n ...

[ "0.6805851", "0.6484445", "0.6379259", "0.6364742", "0.6364742", "0.6306603", "0.6228619", "0.61764985", "0.61253047", "0.61219794", "0.6098357", "0.60761136", "0.59945655", "0.5985499", "0.5953652", "0.5947286", "0.59347874", "0.59075207", "0.5906247", "0.590326", "0.5891721...

0.0

-1

Test calltime symbols overrides with other symbols

def test_override_symbol(self): i, j, k, l = dimify('i j k l') a = symbol(name='a', dimensions=(i, j, k, l), value=2.) a1 = symbol(name='a1', dimensions=(i, j, k, l), value=3.) a2 = symbol(name='a2', dimensions=(i, j, k, l), value=4.) op = Operator(Eq(a, a + 3)) op() ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def testSymbolHash(self):\n gScope = pykd.diaLoadPdb( str(target.module.pdb()) )\n symSet = set([ gScope[\"g_structTest\"], gScope[\"EnumWindowsProc1\"], gScope[\"g_structTest\"] ])\n self.assertEqual( 2, len(symSet) )\n self.assertTrue( gScope[\"g_structTest\"] in symSet )\n sel...

[ "0.6088717", "0.5891969", "0.586841", "0.57884955", "0.57511026", "0.5713668", "0.5713668", "0.57010543", "0.5664404", "0.5631575", "0.5563887", "0.55595315", "0.55191725", "0.5508196", "0.54970926", "0.54917103", "0.5480295", "0.54737866", "0.5444322", "0.54287255", "0.54046...

0.58977205

1

Test calltime symbols overrides with numpy arrays

def test_override_array(self): i, j, k, l = dimify('i j k l') shape = tuple(d.size for d in (i, j, k, l)) a = symbol(name='a', dimensions=(i, j, k, l), value=2.) a1 = np.zeros(shape=shape, dtype=np.float32) + 3. a2 = np.zeros(shape=shape, dtype=np.float32) + 4. op = Opera...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_TimeArray_repr():", "def test_format_signature_numpy():", "def test_TimeArray_convert_unit():", "def test_TimeArray_copyflag():\r\n\r\n #These two should both generate a TimeArray, with one picosecond.\r\n #This one holds time_unit='s'\r\n t1 = ts.TimeArray(np.array([1], dtype=np.int64), co...

[ "0.6313198", "0.6234536", "0.61531353", "0.60441715", "0.5897211", "0.58689487", "0.5791092", "0.5729955", "0.5682435", "0.5682435", "0.5633471", "0.55964816", "0.55935395", "0.5578403", "0.5577986", "0.5554115", "0.5551436", "0.555043", "0.554579", "0.5534603", "0.55257624",...

0.6475489

0

Test that the dimension sizes are being inferred correctly

def test_dimension_size_infer(self, nt=100): i, j, k = dimify('i j k') shape = tuple([d.size for d in [i, j, k]]) a = DenseData(name='a', shape=shape).indexed b = TimeData(name='b', shape=shape, save=True, time_dim=nt).indexed eqn = Eq(b[time, x, y, z], a[x, y, z]) op = O...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_size_check(self):\n [x1, y1, s1, g1] = self.data.diffusion_data.shape\n [x2, y2, s2, g2] = module_05.run_module(self.data).diffusion_data.shape\n self.assertEqual(x1, x2)\n self.assertEqual(y1, y2)\n self.assertEqual(s1, s2)\n self.assertEqual(g1, g2)", "def dim...

[ "0.76725674", "0.75539386", "0.74125654", "0.7359512", "0.73051524", "0.72323257", "0.7225344", "0.7185799", "0.71210706", "0.6941943", "0.68519884", "0.6851906", "0.68469083", "0.68195313", "0.6812142", "0.67658305", "0.6746414", "0.6741667", "0.6688384", "0.66588515", "0.66...

0.76781756

0

Test explicit overrides for the leading time dimension

def test_dimension_size_override(self, nt=100): i, j, k = dimify('i j k') a = TimeData(name='a', dimensions=(i, j, k)) one = symbol(name='one', dimensions=(i, j, k), value=1.) op = Operator(Eq(a.forward, a + one)) # Test dimension override via the buffered dimenions a.da...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_general_subset_invalid_time():\n pass", "def test_fix_metadata_correct_time(self):\n fixed_cube = self.fix.fix_metadata([self.cube])[0]\n time_coord = fixed_cube.coord('time')\n np.testing.assert_allclose(time_coord.points, [0, 1])\n assert time_coord.bounds is None", "d...

[ "0.6225104", "0.61606276", "0.60171777", "0.59855527", "0.5899436", "0.5890807", "0.57126755", "0.56421477", "0.5499632", "0.5453681", "0.54009974", "0.53884566", "0.53690064", "0.534088", "0.5325772", "0.5315858", "0.530437", "0.5300429", "0.52890176", "0.5282546", "0.527451...

0.6123395

2

Emulates a potential implementation of boundary condition loops

def test_directly_indexed_expression(self, fa, ti0, t0, exprs): eqs = EVAL(exprs, ti0.base, t0) op = Operator(eqs, dse='noop', dle='noop') trees = retrieve_iteration_tree(op) assert len(trees) == 2 assert trees[0][-1].nodes[0].expr.rhs == eqs[0].rhs assert trees[1][-1].no...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def simulate_boundary(self,print_every=1000,do_F_bound=True):\n n_t = self.t_span.size\n self.n_t = n_t\n x = self.x0.copy()\n self._triangulate(x)\n self.assign_vertices()\n x = self.check_boundary(x)\n self.x = x.copy()\n sel...

[ "0.6390884", "0.633568", "0.63244265", "0.6194868", "0.6181194", "0.6133254", "0.5930542", "0.58581144", "0.58474624", "0.58428305", "0.5813989", "0.5792263", "0.57295126", "0.57068944", "0.5669466", "0.5665661", "0.5663369", "0.56552625", "0.56534404", "0.56359583", "0.56296...

0.0

-1

Test the generation of a specific box profile against a known result.

def test_box(): savedImg = galsim.fits.read(os.path.join(imgdir, "box_1.fits")) myImg = galsim.ImageF(savedImg.bounds, scale=0.2) myImg.setCenter(0,0) test_flux = 1.8 pixel = galsim.Pixel(scale=1, flux=1) pixel.drawImage(myImg, method="sb", use_true_center=False) np.testing.assert_array_alm...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_get_game_boxscore(self):\n pass", "def testProfileCreation(self):\n small_tree1_equality = self.checkProfileEquality(self.profiles[0], self.small_profile1)\n small_tree2_equality = self.checkProfileEquality(self.profiles[1], self.small_profile2)\n known_tree1_equality = self....

[ "0.61851823", "0.58061886", "0.5779419", "0.5712594", "0.5674602", "0.5597677", "0.55736697", "0.5516804", "0.5508091", "0.5494304", "0.5471239", "0.5412909", "0.5381883", "0.5344296", "0.53197837", "0.531884", "0.53139627", "0.52807105", "0.52799165", "0.52634877", "0.525860...

0.5113333

37

Test the generation of a specific tophat profile against a known result.

def test_tophat(): savedImg = galsim.fits.read(os.path.join(imgdir, "tophat_101.fits")) myImg = galsim.ImageF(savedImg.bounds, scale=0.2) myImg.setCenter(0,0) test_flux = 1.8 # There are numerical issues with using radius = 1, since many points are right on the edge # of the circle. e.g. (+-1,...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_run_profile(dpa_model_spec, dpa_init):\n test_times = np.array(\n DateTime(['2019:001:00:00:00', '2019:001:12:00:00', '2019:002:00:00:00', '2019:003:00:00:00']).secs)\n pitch = np.array([150, 90, 156, 156])\n roll = np.array([0, -5, 10, 0])\n test_schedule = {'pitch': pitch, 'roll': rol...

[ "0.60760397", "0.59960103", "0.578803", "0.57689196", "0.56904364", "0.5670949", "0.5598614", "0.5586479", "0.55442274", "0.5540673", "0.5539732", "0.5532514", "0.5515403", "0.55088836", "0.54860824", "0.54771906", "0.54092103", "0.5376669", "0.53727055", "0.53688246", "0.534...

0.0

-1

Test Box with photon shooting. Particularly the flux of the final image.

def test_box_shoot(): rng = galsim.BaseDeviate(1234) obj = galsim.Box(width=1.3, height=2.4, flux=1.e4) im = galsim.Image(100,100, scale=1) im.setCenter(0,0) added_flux, photons = obj.drawPhot(im, poisson_flux=False, rng=rng.duplicate()) print('obj.flux = ',obj.flux) print('added_flux = ',ad...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_box():\n savedImg = galsim.fits.read(os.path.join(imgdir, \"box_1.fits\"))\n myImg = galsim.ImageF(savedImg.bounds, scale=0.2)\n myImg.setCenter(0,0)\n test_flux = 1.8\n\n pixel = galsim.Pixel(scale=1, flux=1)\n pixel.drawImage(myImg, method=\"sb\", use_true_center=False)\n np.testing...

[ "0.6883019", "0.60247976", "0.5729917", "0.5662367", "0.5657805", "0.56022036", "0.5602087", "0.55716115", "0.5532589", "0.5502499", "0.5473831", "0.54660267", "0.54527724", "0.54423535", "0.5430135", "0.5401244", "0.5400176", "0.53518057", "0.53516215", "0.53498757", "0.5337...

0.72881216

0

Test base.py GSObjects for notequals.

def test_ne(): # Define some universal gsps gsp = galsim.GSParams(maxk_threshold=1.1e-3, folding_threshold=5.1e-3) # Pixel. Params include scale, flux, gsparams. # gsparams. # The following should all test unequal: gals = [galsim.Pixel(scale=1.0), galsim.Pixel(scale=1.1), ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_not_equal_on_equal(self):\n a = objects.OpaqueObject(self.bytes_a, enums.OpaqueDataType.NONE)\n b = objects.OpaqueObject(self.bytes_a, enums.OpaqueDataType.NONE)\n self.assertFalse(a != b)\n self.assertFalse(b != a)", "def test_not_equal_on_not_equal_value(self):\n a =...

[ "0.74571276", "0.73648274", "0.73306084", "0.72958326", "0.7260039", "0.72194594", "0.7127766", "0.70569617", "0.7055979", "0.7028425", "0.70240885", "0.7012719", "0.6914279", "0.68538886", "0.68433744", "0.6823976", "0.6806015", "0.6802378", "0.6794009", "0.675546", "0.67511...

0.0

-1

Decide whether to enter hotspot mode or wifi mode and then do so

def set_wifi_mode(args): pass """+ try: if args['mode'] == 'hotspot': logger.info('will enter hotspot mode') #TODO - Need to capture the line that contains interface [some lan id] and uncomment it. change_file_line(path.join('/etc', 'dhcpcd.conf'), ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def _cycle_wifi(mode=None):\n call(['ifdown', settings.WIFI_INTERFACE])\n if mode is not None:\n call(['iwconfig', settings.WIFI_INTERFACE, 'mode', mode])\n call(['ifup', settings.WIFI_INTERFACE])", "def switch_network(self,type = None):\n network_type = self.appconfig(type...

[ "0.6191428", "0.60795987", "0.60477906", "0.5971737", "0.59445924", "0.58588445", "0.57119495", "0.570681", "0.57007", "0.5689363", "0.5664943", "0.5628451", "0.5603096", "0.5597446", "0.55574036", "0.55567616", "0.5528155", "0.55259633", "0.5525236", "0.5521546", "0.5498724"...

0.71384984

0

Get a pointer for function name with provided argtypes and restype

def ptr(self, space, w_name, w_argtypes, w_restype, flags=FUNCFLAG_CDECL): resshape = unpack_resshape(space, w_restype) if resshape is None: w_resshape = space.w_None else: w_resshape = resshape argtypes_w = space.fixedview(w_argtypes) w_argtypes = space.n...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def get_func(name, argtypes=None, restype=c_int, lib=libDE):\n logger.debug(\"Getting NewWordFinder API function: 'name': '{}', 'argtypes': '{}',\"\n \" 'restype': '{}'.\".format(name, argtypes, restype))\n func = getattr(lib, name)\n if argtypes is not None:\n func.argtypes = argty...

[ "0.66590554", "0.61740726", "0.61581415", "0.59001285", "0.5855032", "0.58468574", "0.5705164", "0.5677757", "0.5639868", "0.5615557", "0.5614763", "0.56135756", "0.5601841", "0.55988264", "0.5483516", "0.54684794", "0.5429972", "0.53992546", "0.53571665", "0.53392667", "0.53...

0.6079239

3

Set up a root logger showing all entries in the console.

def logger(request): log = logging.getLogger() hdlr = logging.StreamHandler() fmt = '%(asctime)s %(name)s %(levelname)s %(message)s' formatter = logging.Formatter(fmt) hdlr.setFormatter(formatter) log.addHandler(hdlr) log.setLevel(logging.DEBUG) log.propagate = False return log

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def setup_logger():\n root = logging.getLogger()\n root.setLevel(LOGGING_LEVEL)\n formatter = logging.Formatter('%(asctime)s - %(message)s')\n ch = logging.StreamHandler(sys.stdout)\n ch.setLevel(LOGGING_LEVEL)\n ch.setFormatter(formatter)\n root.addHandler(ch)", "def setup_logging():\n f...

[ "0.7975957", "0.7763486", "0.7686616", "0.75928164", "0.7581792", "0.7508208", "0.73854136", "0.73814046", "0.73402363", "0.7313796", "0.7308403", "0.73038954", "0.7274763", "0.7260364", "0.72556174", "0.7249487", "0.7241462", "0.72125137", "0.71615887", "0.71491545", "0.7109...

0.0

-1

Set up a mongo connection reset and ready to roll.

def mongodb(request): from pp.user.model import db as mongo log = get_log('mongodb') db_name = "testingdb-{}".format(uuid.uuid4().hex) mongo.init(dict(db_name=db_name)) db = mongo.db() db.hard_reset() log.info('database ready for testing "{}"'.format(db_name)) def db_teardown(x=None)...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def mongodb_init(cls, host=\"127.0.0.1\", port=27017, username=\"\", password=\"\", dbname=\"admin\"):\n if username and password:\n uri = \"mongodb://{username}:{password}@{host}:{port}/{dbname}\".format(username=quote_plus(username),\n ...

[ "0.70171124", "0.68669546", "0.6740658", "0.6647585", "0.6619428", "0.6484099", "0.6464825", "0.6440319", "0.6433522", "0.6415763", "0.6397156", "0.6346596", "0.6345212", "0.62915", "0.6224574", "0.61763144", "0.61705923", "0.6150122", "0.6147837", "0.613134", "0.60872823", ...

0.6147428

19

Open a tab delimited file and return links and time

def parser(list_of_text): # Youtube link regex yt_link = re.compile(r"http(s)?:\/\/www\.youtu.*") pron_link = re.compile(r".*pornhub.*") pic_link = re.compile(r"^http(s)?:\/\/.*jpg.*") pics = [link.split() for link in list_of_text if re.match(pic_link, link)] found_yt_links = [line.split() ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def readTab(file_name):\n data = []\n meta = []\n l=0\n for line in open(file_name):\n if l<3:\n meta.append(line.strip(\"\\n\").split(\"\\t\"))\n else:\n if len(line.strip(\"\\n\").split(\"\\t\")) == len(meta[0]):\n data.append(line.strip(\"\\n\").spl...

[ "0.6074462", "0.5697214", "0.55812126", "0.55209875", "0.5477201", "0.54759246", "0.544581", "0.5430003", "0.54228246", "0.53985965", "0.5344914", "0.53337824", "0.5330407", "0.53107756", "0.5296276", "0.5268797", "0.5236354", "0.52124465", "0.52045405", "0.51980215", "0.5169...

0.0

-1

Function that returns true if a string contains a number

def hasNumbers(inputString): return any(char.isdigit() for char in inputString)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def __has_numbers(self, input_string):\n return bool(re.search(r'\\d', input_string))", "def has_number(any_string):\n return any(char.isdigit() for char in any_string)", "def has_num(text):\n return any(str.isdigit(c) for c in text)", "def is_number(s):\r\n try:\r\n int(s)\r\n ...

[ "0.86861813", "0.83668447", "0.82383734", "0.7930955", "0.79304606", "0.7924505", "0.78930366", "0.78647584", "0.77653086", "0.7743263", "0.7714202", "0.7706238", "0.77058214", "0.77046204", "0.77044505", "0.7690902", "0.766317", "0.7639565", "0.7527607", "0.7527464", "0.7508...

0.8393111

1

Small function to change time format. Used for make_time func

def tedoius_time(time_string): start = ['start', 'begin', 'beginning', 'head', 'first'] end = ['slut', 'end', 'tail', 'finish', 'finito', 'fin', 'done', 'finished'] if time_string.lower() in start: time_string = "00:00:00" # We need this exact string for later elif time_string.lo...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def format_time(self, time):\n hh = time[0:2]\n mm = time[2:4]\n ss = time[4:]\n return \"%s:%s:%s UTC\" % (hh,mm,ss)", "def time_hack(self):\n now = datetime.datetime.now()\n monthnames = ['jan', 'feb', 'mar', 'apr', 'may', 'jun',\n 'jul', 'aug', 'sep', 'oct', ...

[ "0.7315664", "0.72966367", "0.7183788", "0.7177541", "0.71764636", "0.7169046", "0.7167851", "0.7160244", "0.7139336", "0.7091297", "0.7036572", "0.70216924", "0.6875871", "0.6864549", "0.6824766", "0.6812519", "0.68091184", "0.680905", "0.68039894", "0.67950267", "0.6790418"...

0.0

-1

Function that saves the return_list from make_time to a file called yt_vids.txt Optional, default False

def save_link_time(return_list, path_to_download): # Opens a new file and writes lines to it and saves it at the spot provided with open(os.path.join(path_to_download, "yt_vids.txt"), "w") as w: w.write('\n'.join('{} {} {}'.format( x[0], x[1][0], x[1][1]) for x in return_list))

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_save_list_to_file(self):\n task_list = TaskList()\n task1 = Task()\n output_file_path = self.testing_files[0]\n task1.set_name('Test Task One')\n task1.set_minutes(30)\n task1.set_notes('This is a great test task')\n task_list.add_task(task1)\n\n sel...

[ "0.5606279", "0.54776007", "0.5325414", "0.527905", "0.5232085", "0.5220749", "0.5214294", "0.5194305", "0.5157583", "0.5149266", "0.51426595", "0.51125914", "0.50968117", "0.50955224", "0.50598377", "0.50564367", "0.5056409", "0.5055913", "0.50520384", "0.5035325", "0.503340...

0.7020351

0

Function that downloads a whole video when no interval is supplied Downloaded to the same place where yt_vids is saved to (from save_link_time func)

def download_whole(no_interval): print(os.getcwd()) SAVE_PATH = 'tmp' ydl_opts = {"nocheckcertificate": True, "noplaylist": True, 'outtmpl': f'{SAVE_PATH}/%(title)s.%(ext)s'} with youtube_dl.YoutubeDL(ydl_opts) as ydl: for video in range(len(no_interval)): try: ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def download(df_shorter,folderName):\n os.mkdir(str(folderName))\n path = os.getcwd()+'\\\\'+str(folderName)+'\\\\'\n #add column with video link generated from IDs\n df_shorter['urls'] = df_shorter['id'].apply(lambda x: generateLinkFromId(x))\n vid_dl = []\n i = 1\n for url in df_shorter['url...

[ "0.73994005", "0.72689897", "0.7202489", "0.7171504", "0.7060031", "0.6903402", "0.6774965", "0.67710614", "0.67318517", "0.6675659", "0.66156524", "0.66117424", "0.6610987", "0.6610455", "0.6599049", "0.6573128", "0.6570862", "0.6523697", "0.651439", "0.65080476", "0.6456765...

0.74180853

0

Function to download videos in specified intervals Takes a list (interval_list) and a path as inputs

def download_interval(interval_list): start = ['start', 'begin', 'beginning', 'head', 'first'] end = ['slut', 'end', 'tail', 'finish', 'finito', 'fin', 'done', 'finished'] # Iterate over the list for link in range(len(interval_list)): try: video = pafy.new(interval_list[l...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def download_whole(no_interval):\n print(os.getcwd())\n SAVE_PATH = 'tmp'\n ydl_opts = {\"nocheckcertificate\": True, \"noplaylist\": True,\n 'outtmpl': f'{SAVE_PATH}/%(title)s.%(ext)s'}\n\n with youtube_dl.YoutubeDL(ydl_opts) as ydl:\n for video in range(len(no_interval)):\n ...

[ "0.6634631", "0.6432747", "0.63896453", "0.6305958", "0.60365444", "0.59619087", "0.5885181", "0.5815725", "0.56896555", "0.5573953", "0.5560245", "0.5557694", "0.55472976", "0.5520894", "0.5493748", "0.5459092", "0.54333603", "0.54173565", "0.54105514", "0.54061747", "0.5402...

0.79695

0

Function to download pictures from the input sequence

def download_pics(pics_links): for link in range(len(pics_links)): r = requests.get(pics_links[link][0]) with open(os.path.join("tmp", f"{link}.jpg"), "wb") as dl: dl.write(r.content)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def downloadLocal(url_list,path):\n print(\"You are downloading {} images\".format(parser_arguments().limit),end=\" \");print(\"of {} class.\".format(parser_arguments().classes))\n print(\"Please, be patient :)\")\n for i in range(len(url_list)):\n filename= url_list[i].split(\"/\")[-1] # name of t...

[ "0.66714674", "0.6665392", "0.662957", "0.65895194", "0.6587865", "0.6502355", "0.64724034", "0.64450634", "0.64316654", "0.6391709", "0.6382724", "0.6302078", "0.6292136", "0.6259905", "0.6259636", "0.6252637", "0.6219414", "0.6212664", "0.61892736", "0.61513776", "0.6140734...

0.6981115

0

r""" Calculate drainage curve based on the image produced by the ``porosimetry`` function. Returns

def get_drainage_data(self): im = self.result sizes = sp.unique(im) R = [] Snwp = [] Vp = sp.sum(im > 0) for r in sizes[1:]: R.append(r) Snwp.append(sp.sum(im >= r)) Snwp = [s/Vp for s in Snwp] data = namedtuple('xy_data', ('radius'...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def read_drainage_efficiency(self):#, PLOT, FIGURE, DISTRIBUTION):\n\n print ' Reading drainage efficiency'\n\n self.drainage_efficiency = {}\n\n drainage = np.zeros(self.ATTM_nrows * self.ATTM_ncols)\n\n for i in range(0, self.ATTM_nrows * self.ATTM_ncols):\n if self.ATTM_Total_Fractional_Ar...

[ "0.5753122", "0.56378067", "0.55967945", "0.55486226", "0.5391032", "0.53572434", "0.5309457", "0.52709997", "0.5266623", "0.5236764", "0.5235034", "0.52270055", "0.520521", "0.51976097", "0.5173026", "0.51659435", "0.5153408", "0.51311153", "0.51155776", "0.51090014", "0.510...

0.54940647

4

computes the sigmoid of z z z can be a matrix, vector or scalar sigmoid

def sigmoid(z): g = np.zeros(z.shape) # ====================== YOUR CODE HERE ====================== # Instructions: Compute the sigmoid of each value of z (z can be a matrix, # vector or scalar). return 1/(1+np.exp(-z))

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def sigmoid(z):\r\n \r\n return vSigmoid(z);", "def sigmoid(z): \n return 1/(1 + np.e**(-z))", "def sigmoid(z):\r\n \r\n return 1.0 / (1.0+np.exp(-z))", "def sigmoid(z):\n\treturn 1.0/(1.0+np.exp(-z))", "def sigmoid(z):\n return 1 / (1 + np.exp(-1 * z))", "def sigmoid(z):\n\n s = 1...

[ "0.9156451", "0.89855045", "0.89530945", "0.88890535", "0.88774705", "0.8873134", "0.88591874", "0.88549364", "0.8827887", "0.88264954", "0.88236195", "0.8823586", "0.8804889", "0.8797912", "0.87720233", "0.8767488", "0.87623954", "0.87474865", "0.8720549", "0.8660843", "0.86...

0.8674715

19

Parse vistrone image and annotation file

def parse_anno(self, img_path, anno_path) -> dict: anno_obj = dict() img = cv2.imread(img_path) if len(img.shape) == 3: h, w, d = img.shape[:3] anno_obj['size'] = (w, h, d) else: h, w = img.shape[:2] anno_obj['size'] = (w, h, 1) a...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def unpack_annotation(path):\n buffer = []\n with open(path, 'r') as file:\n lines = file.read()\n\n lines = lines.splitlines()\n for line in lines:\n if not line.startswith('#') and line:\n buffer.append(line)\n\n # Filename to match annotation with photo\n filename = ''...

[ "0.66137487", "0.6137905", "0.6088444", "0.60218704", "0.6018169", "0.6017987", "0.6013739", "0.59796065", "0.5911451", "0.58495057", "0.584628", "0.5830778", "0.58306414", "0.5818035", "0.58085626", "0.5796074", "0.57908374", "0.5716362", "0.57042414", "0.5697437", "0.569646...

0.6034063

3

recourse through an attribute chain to get the ultimate value.

def safe_chain_getattr(obj, attr): return reduce(getattr, attr.split('.'), obj)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def next(self):\n nextattr = self.iterobj.next()\n return (nextattr.name, self.attrs[nextattr.name])", "def _get_effective_attribute(self, attribute_name):\n result = []\n tmp = self[attribute_name]\n if tmp != None:\n result.append( tmp )\n if tmp == None or ...

[ "0.594284", "0.59209895", "0.5796574", "0.54958975", "0.54589653", "0.54450005", "0.5416079", "0.53792626", "0.5287629", "0.52547", "0.5249592", "0.5235394", "0.5232", "0.522848", "0.52224046", "0.520934", "0.52058285", "0.51851255", "0.51851255", "0.51851255", "0.51851255", ...

0.5363558

8

Get chain attribute for an object.

def chain_getattr(obj, attr, value=None): try: return _resolve_value(safe_chain_getattr(obj, attr)) except AttributeError: return value

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def safe_chain_getattr(obj, attr):\n return reduce(getattr, attr.split('.'), obj)", "def chained_getattr(obj, path):\n target = obj\n for attr in path:\n target = corner_case_getattr(target, attr)\n return target", "def deepgetattr(obj, attr):\n\t\treturn reduce(getattr, attr.split('.'), obj)", "def...

[ "0.6868703", "0.65075165", "0.6485146", "0.64567274", "0.62154573", "0.61727905", "0.61658573", "0.6000796", "0.5964722", "0.5916216", "0.5916216", "0.5876859", "0.5874207", "0.5869589", "0.5869589", "0.5850275", "0.58463216", "0.58114004", "0.5795329", "0.57904404", "0.57904...

0.7126414

0

trim the list to make total length no more than limit.If split specified,a string is return.

def trim_iterable(iterable, limit, *, split=None, prefix='', postfix=''): if split is None: sl = 0 join = False else: sl = len(split) join = True result = [] rl = 0 for element in iterable: element = prefix + element + postfix el = len(element) ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def trim(self, input_words_list):\n def to_be_trimmed(x):\n if len(x) < 3:\n return False\n else:\n return True\n self.trimmed_words_list = list(filter(to_be_trimmed, input_words_list))\n # print('the filtered words are:')\n # for word...

[ "0.61260587", "0.61242557", "0.60332996", "0.5976751", "0.59576887", "0.59357154", "0.59291357", "0.575979", "0.5731277", "0.56639487", "0.5637736", "0.5636854", "0.5605196", "0.5510604", "0.5455997", "0.54495543", "0.5449324", "0.544276", "0.54360414", "0.5429126", "0.542896...

0.66803694

0

It decrypts encrypted messages.

def test_decrypt_encrypted(self): encrypted = encrypt('message') decrypted = decrypt(encrypted) assert decrypted == 'message'

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def decrypt_message(encrypted_message):", "def decrypt(self, data):", "def decrypt_message(self):\r\n\r\n\t\t#Will not let user input useless messages that cannot be decrypted.\r\n\t\twhile True:\r\n\t\t\tself.message = input(\"Please enter a message you would like to decrypt. --> \")\r\n\t\t\tif self.message ...

[ "0.87886894", "0.7859907", "0.7717388", "0.7570975", "0.7548102", "0.74472094", "0.735235", "0.7315939", "0.73016477", "0.7261866", "0.7248655", "0.72426134", "0.71901", "0.7162575", "0.7121405", "0.7052611", "0.7006807", "0.6988077", "0.6984153", "0.6959311", "0.6911666", ...

0.72249025

12

It decrypts encoded messages as UTF8 strings.

def test_decrypt_encoding(self): encrypted = encrypt('méssåge') decrypted = decrypt(encrypted) assert decrypted == 'méssåge'

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def decrypt_message(encrypted_message):", "def decrypt_message(msg):\n with urllib.request.urlopen(format_url(main_url+\"decrypt.php\",msg)) as f:\n decryptedmessage = f.read().decode('utf-8',\"strict\")\n return decryptedmessage", "def decrypt(self, data):", "def _decrypt(self, msg):\r\n ...

[ "0.7515797", "0.72070503", "0.7080225", "0.70087695", "0.68919706", "0.6883082", "0.6702499", "0.6700832", "0.6643625", "0.6547494", "0.65426725", "0.65246123", "0.65195185", "0.6513772", "0.6512258", "0.6473068", "0.645004", "0.644082", "0.6412383", "0.63955086", "0.6384664"...

0.70483595

3

It raises an error when trying to decrypt a nonencrypted value.

def test_decrypt_format(self): with pytest.raises(EncryptionError): decrypt('message')

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_decrypt_key_invalid(self):\n encrypted = encrypt('message', key=b'0' * 32)\n\n with pytest.raises(EncryptionError):\n decrypt(encrypted, key=b'0' * 31)", "def test_decrypt_key_incorrect(self):\n right_key = b'0' * 32\n wrong_key = b'1' * 32\n\n encrypted = e...

[ "0.7508658", "0.73156184", "0.7232054", "0.6764023", "0.66845644", "0.657834", "0.6562093", "0.65003294", "0.6460941", "0.6459456", "0.6367024", "0.63215554", "0.6274202", "0.62535083", "0.62495065", "0.62276834", "0.6201334", "0.6190526", "0.618059", "0.61519164", "0.6145261...

0.76258427

0

It accepts a custom decryption key.

def test_decrypt_key(self): key = b'0' * 32 encrypted = encrypt('message', key=key) assert decrypt(encrypted, key=key) == 'message'

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def decrypt(ciphertext: str, key: str) -> str:\n return encrypt(ciphertext, key)", "def test_decryption(d, c):\n\n#\td = int(raw_input(\"\\nEnter d from public key\\n\"))\n#\tc = int(raw_input(\"\\nEnter c from public key\\n\"))\n\n x = int(raw_input(\"\\nEnter number to decrypt\\n\"))\n decode(endecryp...

[ "0.6593434", "0.6539305", "0.6523048", "0.65177274", "0.65156114", "0.6480838", "0.645648", "0.63991714", "0.63842076", "0.63480246", "0.634022", "0.6332533", "0.6332092", "0.631312", "0.62985706", "0.6246969", "0.6217749", "0.6211802", "0.6208556", "0.62013805", "0.6200206",...

0.69840544

0

It requires a 32byte key.

def test_decrypt_key_invalid(self): encrypted = encrypt('message', key=b'0' * 32) with pytest.raises(EncryptionError): decrypt(encrypted, key=b'0' * 31)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def __init__(self, key: bytes):\n\n if len(key) != 32:\n raise ValueError('Key must be 32 bytes long')\n self.key = key", "def create_key ():", "def __init__(self, key):\n self.bs = 16\n self.key = hashlib.sha256(key.encode()).digest()", "def load_key():", "def test_l...

[ "0.7998701", "0.7112175", "0.70670855", "0.70627075", "0.7016668", "0.6956229", "0.6922364", "0.69079906", "0.683496", "0.6793663", "0.6758785", "0.6736807", "0.6699168", "0.66464436", "0.66464436", "0.6582861", "0.6575875", "0.6575875", "0.6530098", "0.6464395", "0.64615387"...

0.0

-1

It raises an error when an incorrect key is provided.

def test_decrypt_key_incorrect(self): right_key = b'0' * 32 wrong_key = b'1' * 32 encrypted = encrypt('message', key=right_key) with pytest.raises(EncryptionError): decrypt(encrypted, key=wrong_key)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def _check_key(self, key):\n raise NotImplementedError", "def test_handle_key_error():\n\n @handle_key_error\n def get_item(key):\n data = {\"A\": 1, \"B\": 2}\n return data[key]\n\n value = get_item(\"A\")\n assert value == 1\n\n with pytest.raises(InvalidParameter) as exc:\n...

[ "0.7584052", "0.74336976", "0.7209498", "0.7197816", "0.71823823", "0.71537316", "0.70963115", "0.70610356", "0.7014894", "0.6917326", "0.6872797", "0.68682355", "0.6839676", "0.6820613", "0.6819844", "0.68171906", "0.68070513", "0.67946887", "0.67675406", "0.6766828", "0.668...

0.6123274

82

It gets its default key from settings.

def test_decrypt_key_default(self, settings): settings.CHITON_ENCRYPTION_KEY = b'0' * 32 encrypted = encrypt('message') assert decrypt(encrypted) == 'message' settings.CHITON_ENCRYPTION_KEY = b'1' * 32 with pytest.raises(EncryptionError): decrypt(encrypted)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def default(self, key):\r\n return self.inherited_settings[key.field_name]", "def get(self, key, default=None):\n return self.settings.get(key, default)", "def initial(self):\n from setman import settings\n return getattr(settings, self.name, self.default)", "def get_setting_defau...

[ "0.7820905", "0.76434904", "0.7315344", "0.7273974", "0.7266542", "0.7164663", "0.708993", "0.7069916", "0.7067126", "0.70258087", "0.70121825", "0.69252306", "0.686531", "0.6851818", "0.6849022", "0.6843253", "0.678574", "0.6693812", "0.66881984", "0.664332", "0.6612321", ...

0.0

-1

It encrypts messages as base64encoded strings.

def test_encrypt_encoding(self): encrypted = encrypt('message') assert encrypted assert encrypted != 'message' assert type(encrypted) == str

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def encrypted(data: str) -> str:\n return b64encode(data.encode('ascii')).decode('ascii')", "def encrypt(strings):\r\n rd = ''.join(random.sample(upperchr+lowcarsechr+otherchr+numchr,10))\r\n output = base64.encodestring(strings+mselment+rd)\r\n print output", "def test_encryption_of_string(cipher)...

[ "0.69580686", "0.69413096", "0.6922633", "0.68996924", "0.67965823", "0.6779057", "0.677835", "0.6773155", "0.67529523", "0.67321116", "0.6706291", "0.6699885", "0.66843873", "0.66808355", "0.66681325", "0.6639239", "0.6632102", "0.6602281", "0.6573491", "0.65729386", "0.6543...

0.6409957

33

It accepts a custom encryption key.

def test_encrypt_key(self): encrypted = encrypt('message', key=b'0' * 32) assert encrypted assert encrypted != 'message'

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def encryption_key(self) -> typing.Optional[aws_cdk.aws_kms.IKey]:\n ...", "def set_encryption(key):\n global_scope['enc'] = Encryption(key.encode())", "def encryption_key(self) -> Optional[pulumi.Input[str]]:\n return pulumi.get(self, \"encryption_key\")", "def encryption_key(self) -> Optio...

[ "0.6910627", "0.6908906", "0.6589015", "0.6589015", "0.65658104", "0.64406216", "0.64385355", "0.6403656", "0.6396212", "0.6384059", "0.63731337", "0.6366203", "0.633905", "0.6292146", "0.6261021", "0.62500477", "0.62206835", "0.62103766", "0.61971515", "0.6182859", "0.616854...

0.6712674

2

It requires a 32byte key.

def test_encrypt_key_invalid(self): with pytest.raises(EncryptionError): encrypt('message', key=b'0' * 31)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def __init__(self, key: bytes):\n\n if len(key) != 32:\n raise ValueError('Key must be 32 bytes long')\n self.key = key", "def create_key ():", "def __init__(self, key):\n self.bs = 16\n self.key = hashlib.sha256(key.encode()).digest()", "def load_key():", "def test_l...

[ "0.79996747", "0.71131784", "0.70681524", "0.7063389", "0.70164996", "0.6956813", "0.69228464", "0.69088066", "0.6835613", "0.67935926", "0.6759126", "0.6737713", "0.6699715", "0.66468084", "0.66468084", "0.65837467", "0.65774214", "0.65774214", "0.65307164", "0.6464985", "0....

0.60107034

69

It gets its default key from settings.

def test_encrypt_key_default(self, settings): settings.CHITON_ENCRYPTION_KEY = None with pytest.raises(EncryptionError): encrypt('message')

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def default(self, key):\r\n return self.inherited_settings[key.field_name]", "def get(self, key, default=None):\n return self.settings.get(key, default)", "def initial(self):\n from setman import settings\n return getattr(settings, self.name, self.default)", "def get_setting_defau...

[ "0.7820905", "0.76434904", "0.7315344", "0.7273974", "0.7266542", "0.7164663", "0.708993", "0.7069916", "0.7067126", "0.70258087", "0.70121825", "0.69252306", "0.686531", "0.6851818", "0.6849022", "0.6843253", "0.678574", "0.6693812", "0.66881984", "0.664332", "0.6612321", ...

0.0

-1

It does not produce the same message using the same key.

def test_encrypt_nonce(self): key = b'0' * 32 message = 'message' assert encrypt(message, key=key) != encrypt(message, key=key)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_rekey(self):\n old_key = b'0' * 32\n new_key = b'1' * 32\n\n old_encrypted = encrypt('message', key=old_key)\n new_encrypted = rekey(old_encrypted, old_key=old_key, new_key=new_key)\n\n assert decrypt(new_encrypted, key=new_key) == 'message'", "def create_key(message, ...

[ "0.6353171", "0.6112065", "0.6050746", "0.60195196", "0.60014725", "0.5931781", "0.59107494", "0.58862585", "0.58743024", "0.5822409", "0.5816319", "0.5803703", "0.5773151", "0.57707894", "0.5769746", "0.57522786", "0.5739855", "0.56940407", "0.5691956", "0.5683916", "0.56509...

0.55720454

26

It reencrypts an encrypted message using a new key.

def test_rekey(self): old_key = b'0' * 32 new_key = b'1' * 32 old_encrypted = encrypt('message', key=old_key) new_encrypted = rekey(old_encrypted, old_key=old_key, new_key=new_key) assert decrypt(new_encrypted, key=new_key) == 'message'

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_rekey_defaults(self, settings):\n old_key = b'0' * 32\n new_key = b'1' * 32\n\n settings.CHITON_ENCRYPTION_KEY = new_key\n settings.CHITON_PREVIOUS_ENCRYPTION_KEY = old_key\n\n encrypted = encrypt('message', key=old_key)\n rekeyed = rekey(encrypted)\n\n ass...

[ "0.7298857", "0.7298796", "0.71268785", "0.66500294", "0.6324676", "0.62568414", "0.6190534", "0.6128457", "0.61111814", "0.6098401", "0.60541093", "0.59321904", "0.5931756", "0.5884302", "0.587639", "0.58716655", "0.5832455", "0.58202076", "0.5819175", "0.5817855", "0.580720...

0.7975824

0

It raises an error when trying to rekey a nonencrypted value.

def test_rekey_non_encrypted(self): with pytest.raises(EncryptionError): rekey('message', old_key=b'0' * 32, new_key=b'1' * 32)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_rekey_key_format(self):\n old_key = b'0' * 32\n encrypted = encrypt('message', key=old_key)\n\n with pytest.raises(EncryptionError):\n rekey(encrypted, old_key=old_key, new_key=b'1' * 31)", "def test_encrypt_key_invalid(self):\n with pytest.raises(EncryptionError):...

[ "0.7787494", "0.7165129", "0.7140279", "0.71330994", "0.69257516", "0.6686824", "0.6646899", "0.6348278", "0.6192973", "0.6057841", "0.60305434", "0.6001477", "0.5970502", "0.58401686", "0.5836722", "0.5806258", "0.5804228", "0.57949257", "0.57405263", "0.57361877", "0.571489...

0.82164097

0

It raises an error when given an invalid new key.

def test_rekey_key_format(self): old_key = b'0' * 32 encrypted = encrypt('message', key=old_key) with pytest.raises(EncryptionError): rekey(encrypted, old_key=old_key, new_key=b'1' * 31)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def _newKey(self, key):\n pass", "def _check_key(self, key):\n raise NotImplementedError", "def test_rekey_non_encrypted(self):\n with pytest.raises(EncryptionError):\n rekey('message', old_key=b'0' * 32, new_key=b'1' * 32)", "def test_set_invalid_key(test_file):\n md = OSX...

[ "0.71822304", "0.70056105", "0.69519156", "0.6922246", "0.6791061", "0.6753472", "0.6749198", "0.67076725", "0.66495234", "0.6584771", "0.6557083", "0.65199524", "0.65018636", "0.64907044", "0.6454335", "0.64416265", "0.6438558", "0.6431475", "0.6424363", "0.6396235", "0.6389...

0.7050168

1

It uses the settings for the default old and new key.

def test_rekey_defaults(self, settings): old_key = b'0' * 32 new_key = b'1' * 32 settings.CHITON_ENCRYPTION_KEY = new_key settings.CHITON_PREVIOUS_ENCRYPTION_KEY = old_key encrypted = encrypt('message', key=old_key) rekeyed = rekey(encrypted) assert decrypt(rek...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def update_key(self):\n self.__prev_key = self.__new_key", "def update_dict(new,old):", "def _newKey(self, key):\n pass", "def update_default_from_dict(self, key, value):\n pass", "def test_overwrite(self):\n set_default_for_missing_keys('hello world')\n set_default_for_m...

[ "0.65626293", "0.6550737", "0.6313369", "0.6242143", "0.61064005", "0.60898244", "0.6082216", "0.60713875", "0.5890576", "0.5830049", "0.58023095", "0.5726684", "0.5720197", "0.5707687", "0.56511974", "0.5633935", "0.5569308", "0.54979086", "0.5470096", "0.5455716", "0.545565...

0.62328917

4

Fetches domain by its name

def get_by_name(name): return database.get_all(Domain, name, field="name").all()

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def _get_domain_for_name(self, name):\n domain = self.connection.lookupByName(name)\n return domain", "def lookup(self, domain_name, validate=True):\n try:\n domain = self.get_domain(domain_name, validate)\n except:\n domain = None\n return domain", "def...

[ "0.82388127", "0.7296342", "0.72872925", "0.71128905", "0.70768034", "0.7075855", "0.70597684", "0.69037956", "0.68828833", "0.6841402", "0.6727464", "0.65337366", "0.64684", "0.6401447", "0.63366103", "0.63004", "0.6292597", "0.62468135", "0.62434566", "0.62265456", "0.61929...

0.654201

11

Return True if domain is marked sensitive

def is_domain_sensitive(name): query = database.session_query(Domain) query = query.filter(and_(Domain.sensitive, Domain.name == name)) return database.find_all(query, Domain, {}).all()

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def indomain(url, domain):\n if url and domain:\n return url.startswith(domain)\n return False", "def is_secure_site_enabled(self) -> Optional[pulumi.Input[bool]]:\n return pulumi.get(self, \"is_secure_site_enabled\")", "def is_secure_site_enabled(self) -> Optional[pulumi.Input[bool]]:\n ...

[ "0.5945297", "0.5943389", "0.5943389", "0.58801776", "0.5860374", "0.5823208", "0.58100474", "0.5775172", "0.57475305", "0.57442623", "0.57067436", "0.56709236", "0.56709236", "0.56709236", "0.56595856", "0.56003463", "0.55976045", "0.5583748", "0.5570339", "0.5522135", "0.55...

0.7324499

0

Create a new domain

def create(name, sensitive): domain = Domain(name=name, sensitive=sensitive) return database.create(domain)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def create_domain(DomainName=None):\n pass", "def create_domain(self, domain: str) -> Session:\n uri = f\"{self.uri}/domains\"\n data = {\n \"hostname\": domain\n }\n response = self.request(uri=uri, method=\"POST\", data=data)\n\n return response", "def create_...

[ "0.85276437", "0.7999616", "0.7635129", "0.7572509", "0.745609", "0.7389668", "0.73356265", "0.7306637", "0.72217894", "0.72094274", "0.71779686", "0.71715486", "0.7072683", "0.70593244", "0.7049416", "0.7021447", "0.70118153", "0.6965163", "0.6953879", "0.68060184", "0.67575...

0.743728

5

Update an existing domain

def update(domain_id, name, sensitive): domain = get(domain_id) domain.name = name domain.sensitive = sensitive database.update(domain)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def edit_domain(domain_name):\n\n if request.method == \"POST\":\n domain = session.query(Domain).filter(\n Domain.domain_name == domain_name).first()\n\n # Check if domain.provider object exists to make sure\n # duplicate Provider.provider_url is not created\n provider = ...

[ "0.7216133", "0.6992674", "0.69599164", "0.6770144", "0.6691671", "0.6631902", "0.66250306", "0.66209924", "0.6600841", "0.65592813", "0.6530738", "0.65130335", "0.6412239", "0.63919693", "0.63866", "0.6360199", "0.6326602", "0.6326602", "0.63022065", "0.6297731", "0.62386405...

0.77741724

0

Helper to parse REST Api requests

def render(args): query = database.session_query(Domain) filt = args.pop("filter") certificate_id = args.pop("certificate_id", None) if filt: terms = filt.split(";") query = database.filter(query, Domain, terms) if certificate_id: query = query.join(Certificate, Domain.cert...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def parse (self, request):\n\n data = {}\n body_start = request.find('\\r\\n\\r\\n')\n if body_start == -1:\n data['body'] = None\n else:\n data['body'] = request[body_start+4:]\n parts = request.split(' ', 2)\n data['method'] = parts[0]\n data...

[ "0.6661732", "0.6361013", "0.6351881", "0.63334227", "0.6265376", "0.62463653", "0.61369115", "0.61359483", "0.6097976", "0.6052464", "0.6047303", "0.60433483", "0.59891516", "0.58926797", "0.5875995", "0.5862154", "0.5862154", "0.5862154", "0.5862154", "0.581381", "0.579058"...

0.0

-1

Create a logfile that the rest of the script can write to.

def log_start(): scriptDir = os.path.dirname(os.path.dirname(os.path.abspath(__file__))) scriptName = os.path.splitext(os.path.basename(__file__))[0] log = logging.getLogger('cam_server') hdlr = logging.FileHandler(scriptDir+'/logs/'+scriptName+'.log') formatter = logging.Formatter('%(asctime)s %(l...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def _create_logfile(self):\r\n if not self.console_redirect:\r\n return None\r\n\r\n # PCU_logs.robot need a timestamp for console logs as can be run several times\r\n if self.name == self.log_test.replace('.robot', ''):\r\n return open('{0}\\{1}_console_log_{2}'.format(\...

[ "0.77096045", "0.7498354", "0.70676357", "0.7021383", "0.69633764", "0.69220144", "0.6866777", "0.68400943", "0.6803973", "0.6764277", "0.6756204", "0.6751284", "0.6738857", "0.67022955", "0.66923296", "0.66836953", "0.6674281", "0.66629696", "0.6649449", "0.664781", "0.65934...

0.6588597

24

Establish a TCP connection to the indiserver via port 7624

def connect_to_indi(): indiclient=IndiClient() indiclient.setServer("localhost",7624) # Ensure the indiserver is running if (not(indiclient.connectServer())): print("No indiserver running on "+indiclient.getHost()+":"+str(indiclient.getPort())+" - Try to run") print(" indis...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def SCPI_sock_connect(ipaddress,port=5025):\n\n try:\n session=socket.socket(socket.AF_INET,socket.SOCK_STREAM)\n #session.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 0)\n #session.setsockopt(socket.SOL_SOCKET, socket.SO_LINGER, 0)\n session.connect((ipaddress,port))\n exce...

[ "0.62255913", "0.62050253", "0.6195879", "0.6171926", "0.6135462", "0.6120585", "0.606939", "0.60673463", "0.602371", "0.6017615", "0.60021055", "0.60011834", "0.5976623", "0.5967753", "0.5963107", "0.59526026", "0.59498817", "0.5947324", "0.5940068", "0.5910819", "0.59102845...

0.68877107

0

Connection routine for the CCD (given below in ccd variable). The following CCD properties are accessed. More can be found by going to indilib.org. CONNECTION Switch CCD_EXPOSURE Number CCD1 BLOB CCD_BINNING Number CCD_ABORT_EXPOSURE Number CCD_TEMPERATURE Number CCD_COOLER Switch CCD_FRAME_TYPE Switch

def connect_to_ccd(): ccd="SX CCD SXVR-H694" device_ccd=indiclient.getDevice(ccd) while not(device_ccd): time.sleep(0.5) device_ccd=indiclient.getDevice(ccd) print("Searching for device...") print("Found device") ccd_connect=device_ccd.getSwitch("CONNECTION") whil...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def open_circ():\n\n set_mode(mode_cc) # set operation mode to CC\n time.sleep(.250)\n set_CC_current(cc_current=0) # set CC mode current to 0 amps\n time.sleep(.1)\n \n oc_vals = get_input_values() # read open circuits levels\n oc_data_point = data_point(oc_vals) # create data point for ope...

[ "0.5991389", "0.5908873", "0.563912", "0.5434294", "0.54057074", "0.53454", "0.53262013", "0.5306355", "0.52807844", "0.52574426", "0.5246854", "0.5221757", "0.5210567", "0.51662695", "0.51509064", "0.5141476", "0.51294994", "0.5121288", "0.5110107", "0.5095082", "0.50932145"...

0.7094732

0

Find the last numbered image in the current directory.

def last_image(fileDir): lastNum = 0 lastImg = '' # find the name and number of the last image in the current directory for f in os.listdir(fileDir): if os.path.isfile(os.path.join(fileDir, f)): file_name = os.path.splitext(f)[0] file_name2 = file_name[4:] ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def get_last_counter():\n counter = imageNumStart\n if imageNumOn:\n image_ext = \".jpg\"\n search_str = imagePath + \"/*\" + image_ext\n file_prefix_len = len(imagePath + imageNamePrefix)+1\n try:\n # Scan image folder for most recent jpg file\n # and try to e...

[ "0.7381124", "0.71163946", "0.6752403", "0.65669954", "0.651449", "0.6455671", "0.6257701", "0.62144595", "0.61207634", "0.6083774", "0.60167074", "0.6005787", "0.5981818", "0.59797287", "0.5971447", "0.597075", "0.59043884", "0.5898508", "0.58921754", "0.5875937", "0.581396"...

0.7685043

0

Sends an exposure command to the CCD given the type of frame and exposure time. The received BLOB is of FITS type and is

def exposure(frameType, expTime): blobEvent.clear() # set the specified frame type if frameType.lower() == 'light': ccd_frame[0].s = PyIndi.ISS_ON ccd_frame[1].s = PyIndi.ISS_OFF ccd_frame[2].s = PyIndi.ISS_OFF ccd_frame[3].s = PyIndi.ISS_OFF indiclient.sendNew...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def expose(self, cmd, expTime, expType):\n\n if not expType:\n expType = 'test'\n if cmd:\n cmd.inform('exposureState=\"exposing\"')\n if expType not in ('bias', 'test') and expTime > 0:\n time.sleep(expTime + self._exposureOverheadTime())\n\n if cmd:\n ...

[ "0.66172343", "0.66024214", "0.61997694", "0.6147396", "0.6001152", "0.5911744", "0.5895627", "0.5890128", "0.5692038", "0.5651894", "0.5623061", "0.56096864", "0.54805845", "0.54146963", "0.5291824", "0.5205684", "0.5177268", "0.51427567", "0.51357037", "0.5105987", "0.50998...

0.7639681

0

Changes CCD parameters/settings based on the given arguments

def setParams(commandList): for i in commandList: # set the bin mode (1x1 or 2x2) if 'bin=' in i: try: bin = int(i.replace('bin=','')) if bin >= 1 and bin <= 2: ccd_bin[0].value = bin ccd_bin[1].value = bin ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def setCcdMode(*argv):", "def set_parameter_values(self, c1, c2):\n self.c1 = c1\n self.c2 = c2", "def set_parameters(self, args):\n self.args = args\n\n if args.testing:\n self.delay_close()\n\n if args.source == \"simulation\":\n log.info(\"Create simu...

[ "0.7167858", "0.60452235", "0.60324895", "0.5878222", "0.57493514", "0.5714063", "0.56342685", "0.56257355", "0.5574821", "0.5573054", "0.55587506", "0.55421853", "0.55330527", "0.55330527", "0.55330527", "0.55330527", "0.55330527", "0.55182", "0.5511414", "0.55045736", "0.54...

0.528423

39

Determines what to do with the incoming data, whether it is sending an exposure command or setting a parameter. This is a separate method from handle_client() because it is called as a new thread, so ensure the exposure is nonblocking.

def handle_command(log, writer, data): response = 'BAD: Invalid Command' commandList = data.split() try: if commandList[0] == 'expose': if len(commandList) == 3: if commandList[1] == 'light' or commandList[1] == 'dark' or commandList[1] == 'flat': ex...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def command(self):\n saw_error = False\n try:\n analog_gain = float(self.value_analog.get())\n except:\n print(\"analog must be floating point value\")\n self.value_analog.set(str(self.tcp_comms.tcp_params.analog_gain_target))\n saw_error = True\n ...

[ "0.61772895", "0.6057597", "0.59728074", "0.5919234", "0.57503784", "0.5750175", "0.5683027", "0.5636862", "0.5570763", "0.5540126", "0.5496406", "0.5487305", "0.54842824", "0.5481451", "0.54694", "0.54545176", "0.5411232", "0.54028386", "0.5396897", "0.53862023", "0.5382583"...

0.57042426

6

This is the method that receives the client's data and decides what to do with it. It runs in a loop to always be accepting new connections. If the data is 'status', the CCD status is returned. If the data is 'stop', the current exposure is stopped. If the data is anything else, a new thread is created and the data is ...

async def handle_client(reader, writer): request = None # loop to continually handle incoming data while request != 'quit': request = (await reader.read(255)).decode('utf8') print(request.encode('utf8')) #log.info('COMMAND = '+request) writer.write(('COMMAND = '...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def handleRecvData(self, data):\n\n\t\t#Look for commands\n\t\tif data == 'Hello':\n\t\t\t#Inform client it is 'connected'\n\t\t\tself.transmit(\"Welcome\")\n\n\t\telif data == 'kill':\t\n\t\t\t#Stop the server running\n\t\t\tself.running = False\n\n\t\telif data == 'control':\n\t\t\t#Print out if in control of ca...

[ "0.7136164", "0.66953665", "0.6398843", "0.6384446", "0.63746595", "0.6355251", "0.6276334", "0.62578547", "0.6232429", "0.6153676", "0.61311704", "0.60923487", "0.60865486", "0.6026433", "0.59538", "0.5909406", "0.5902352", "0.58999", "0.58918047", "0.58892024", "0.58742887"...

0.6803808

1

Generates a sample configuration.

def create_default(self): self.database.lifetime = 604800 self.database.path_media = '../data/media.db' self.database.path_playlist = '../data/playlist.db' self.indexing.audio.rules = [IndexerRuleConfig()] self.indexing.audio.rules[0].directory = '/mnt/hdd/Audio' self.in...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def _sample_hyperparameters(self):\n\t\tconfig = {}\n\t\tfor attr, option in self._config_options.items():\n\t\t\tprint('Sampling', attr)\n\t\t\tconfig[attr] = option.sample()\n\t\treturn config", "def random_configuration(self):\n raise NotImplementedError", "def generate_configuration(directory):\n ...

[ "0.65736026", "0.6416811", "0.6385334", "0.6240616", "0.621911", "0.6212363", "0.60647005", "0.60343623", "0.6023183", "0.6003032", "0.5997811", "0.5997811", "0.59653294", "0.59653294", "0.59533024", "0.5914431", "0.5902483", "0.5882451", "0.5871193", "0.5864147", "0.5847218"...

0.0

-1

Find all prime numbers between 0 and n

def get_primes(n): primes = [True] * (n / 2) for i in range(int((n / 2 - 1) / 2) >> 1): for j in range((i * (i + 3) << 1) + 3, n / 2, (i << 1) + 3): primes[j] = False return [2] + [((i << 1) + 3) for i in range(n / 2) if (primes[i])]

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def primes(n):\n return [i for i in xrange(1, n + 1) if mr_prime(i)]", "def find_n_primes(n):\n primes = [ ]\n\n if n < 2:\n return None;\n\n primes.append(2)\n\n for i in range(3, n + 1, 2):\n is_prime = True\n for p in primes:\n if i % p is 0:\n is_prime = False\n continue\n ...

[ "0.8414769", "0.8174812", "0.8154782", "0.8066897", "0.79940116", "0.7972602", "0.7941718", "0.79004717", "0.78921247", "0.7884613", "0.786188", "0.786017", "0.7860028", "0.78575575", "0.78575575", "0.7856777", "0.78546125", "0.78280634", "0.78155655", "0.7812109", "0.7803009...

0.77787405

21

Get all data spread across multiple pages

def _get_all_data(self, resource): response = self._get_raising('{}{}?per_page=100&page=1'.format( self.GH_API_ENDPOINT, resource )) yield from response.json() while 'next' in response.links: response = self._get_raising(response.links['next']['url']) ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def _paginatedRequest(allPages, *args):\n data = []\n currentPage = 0\n while True:\n newData = Gw2Spidy._request(*(args + (str(currentPage),)))\n if not allPages:\n return newData['results']\n data.extend(newData['results'])\n current...

[ "0.75263435", "0.739832", "0.69225633", "0.6902741", "0.6879651", "0.68711656", "0.6810762", "0.67072725", "0.67072725", "0.6681827", "0.66562927", "0.66062623", "0.65945363", "0.6549788", "0.6540712", "0.6535249", "0.6503686", "0.64717466", "0.6464984", "0.6408598", "0.63991...

0.638738

23

Get list of names of accessible repositories (including owner)

def list_repositories(self): data = self._get_all_data('/user/repos') return [repo['full_name'] for repo in data]

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def repositories(self, user_name=None):\n user_name = user_name if user_name else self._auth[0]\n data = self._request('GET', 'users', user_name)\n return data.repositories\n #ret_val = []\n #for repository in data.repositories:\n # ret_val.append(repository.name)\n ...

[ "0.7608418", "0.7267118", "0.7101556", "0.70416945", "0.6976196", "0.69618136", "0.6874849", "0.6862077", "0.68582284", "0.68060064", "0.6804673", "0.6765574", "0.67367995", "0.67278445", "0.67108905", "0.66979", "0.6602462", "0.6571694", "0.65691054", "0.6552383", "0.6520411...

0.78467643

0

Get dict of labels with colors for given repository slug

def list_labels(self, repository): data = self._get_all_data('/repos/{}/labels'.format(repository)) return {l['name']: str(l['color']) for l in data}

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def colors_for_labels():\n colors = [(i * np.array([2 ** 25 - 1, 2 ** 15 - 1, 2 ** 21 - 1]) % 255).astype(np.uint8) for i in range(len(CATEGORY))]\n #colors = np.array(range(len(COCO_INSTANCE_CATEGORY_NAMES))) * np.array([2 ** 25 - 1, 2 ** 15 - 1, 2 ** 21 - 1])\n #colors = (colors % 255).numpy().astype(\"...

[ "0.65194696", "0.5914808", "0.5822218", "0.5784747", "0.57322896", "0.5691123", "0.5686196", "0.5633396", "0.56304544", "0.56205434", "0.55804044", "0.5575821", "0.5575821", "0.5575821", "0.5575821", "0.5560394", "0.55267113", "0.55267113", "0.5519801", "0.5494467", "0.549199...

0.7589527

0

Create new label in given repository

def create_label(self, repository, name, color, **kwargs): data = {'name': name, 'color': color} response = self.session.post( '{}/repos/{}/labels'.format(self.GH_API_ENDPOINT, repository), json=data ) if response.status_code != 201: raise GitHubError(...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def create_label(self, org, name):\n pass", "def test_issue_create_label(self):\n pass", "async def new_label(event, gh, *args, **kwargs):\n if event.data[\"label\"][\"name\"] == TRIVIAL_LABEL:\n issue_number_found = ISSUE_RE.search(\n event.data[\"pull_request\"][\"title\"])...

[ "0.7274326", "0.7140176", "0.67611367", "0.6694404", "0.6539713", "0.6458034", "0.64482284", "0.6406368", "0.63728607", "0.6343112", "0.6218493", "0.6180373", "0.6086001", "0.6058881", "0.60423875", "0.6024324", "0.6002186", "0.5988165", "0.5969681", "0.59262604", "0.5906312"...

0.77359784

0

Update existing label in given repository

def update_label(self, repository, name, color, old_name=None, **kwargs): data = {'name': name, 'color': color} response = self.session.patch( '{}/repos/{}/labels/{}'.format( self.GH_API_ENDPOINT, repository, old_name or name ), json=data ) ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def set_labels(repo: Repository, labels: list[Label]):\n\n log.info(f\"Fetching existing labels from {repo.full_name}\")\n existing_labels = {label.name.casefold(): label for label in repo.get_labels()}\n log.info(f\"Found {len(existing_labels)} existing labels\")\n\n for label in labels:\n qual...

[ "0.6681116", "0.6653021", "0.64337254", "0.6265893", "0.62407804", "0.6226869", "0.61520106", "0.6127353", "0.61121166", "0.61037016", "0.6094828", "0.603661", "0.60320926", "0.59240484", "0.59008676", "0.58834106", "0.58732027", "0.5860932", "0.5839947", "0.58363944", "0.580...

0.72466385

0

Delete existing label in given repository

def delete_label(self, repository, name, **kwargs): response = self.session.delete( '{}/repos/{}/labels/{}'.format( self.GH_API_ENDPOINT, repository, name ) ) if response.status_code != 204: raise GitHubError(response)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_issue_delete_label(self):\n pass", "def delete(ctx: click.Context, repository_path):\n root_commands.cmd_delete(ctx.obj, repository_path)", "def repository_delete(ctx: click.Context, repository_name):\n subcommand_repository.cmd_delete(ctx.obj, repository_name)", "def delete_label(id):\...

[ "0.7348744", "0.716896", "0.7127642", "0.6931051", "0.6877669", "0.67660433", "0.67263836", "0.67033213", "0.6610836", "0.6601114", "0.6599512", "0.64673704", "0.64669335", "0.64562386", "0.6455143", "0.63759565", "0.6242319", "0.6198236", "0.61135364", "0.60569805", "0.60212...

0.8369633

0

Ask for a number between low and high until actually given one. Ask for a number, and if the response is outside the bounds keep asking until you get a number that you think is OK

def stubborn_asker(low, high): import random a=random.randint(1,100) for i in range(1,10): n=input('enter the number: ') if n.isdigit(): n=int(n) if n==a: return('Correct') break elif n>a: return('The number ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def ask_number(question, low, high):\n response = None\n while response not in range(low, high, 1):\n response = input(question)\n return response", "def ask_number(question, low, high):\n response = None\n while response not in range (low, high):\n response = int(input(question)...

[ "0.8282392", "0.8165286", "0.8158761", "0.8158761", "0.8125007", "0.7887655", "0.74961793", "0.7476491", "0.7303107", "0.70028126", "0.69437313", "0.69389933", "0.69310325", "0.689875", "0.68148214", "0.67976105", "0.67912346", "0.6782751", "0.66932416", "0.6617285", "0.65194...

0.67488945

18

Extracts feature vectors from a given model and dataset and writes them, along with labels, to a file. This function works for any model whose forward() method returns, on any given input x, the pair (prediction on x, feature vector for x) and more generally, any model whose second return value is a feature vector.

def extract_feature_vectors(model, data_loader, parameters, features_file_path): feature_vectors, label_vectors = [], [] # Set model to evaluation mode model.eval() # Show progress bar while iterating over mini-batches with tqdm(total=len(data_loader)) as progress_bar: for i, (X_batch, Y_b...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def save_vectors (feat_vec = None, labels = None, file_extension = None):\n\n feat_file_name = 'output/' + file_extension + '.feature'\n label_file_name = 'output/' + file_extension + '.label'\n\n prettyPrint('Saving feature vector file: {0} ... \\n'\n 'Saving Labels file: {1} ... '.format(...

[ "0.6803554", "0.6240717", "0.6221068", "0.6063516", "0.6009722", "0.5950848", "0.5824239", "0.58020353", "0.57663727", "0.57563233", "0.5755955", "0.57133436", "0.5701105", "0.5675284", "0.56728137", "0.56672686", "0.56518734", "0.56423616", "0.56261265", "0.56195384", "0.560...

0.6868015

0

Returns the average distance between pairs of vectors in a given list of vectors.

def average_distance_between_vectors(vectors, distance): vectors = numpy.array(vectors) vectors = vectors - numpy.mean(vectors, axis=0) vectors = normalize(vectors) vectors = list(vectors) average_distance = utils.RunningAverage() for vector_1, vector_2 in itertools.combinations(vectors, r=2): #...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def average_vectors(vectors_list):\n return np.mean(vectors_list, axis=0)", "def compute_average(vec_list):\r\n return np.sum(vec_list, axis = 0)/len(vec_list)", "def average(cls, vectors):\n return cls.sum(vectors) / len(vectors)", "def vector_mean(vectors: List[Vector]) -> Vector:\n n = len...

[ "0.7456902", "0.7266837", "0.7161427", "0.66369", "0.66369", "0.6613315", "0.6526983", "0.6526983", "0.652161", "0.652161", "0.652161", "0.6493121", "0.6426592", "0.641932", "0.61453825", "0.6135802", "0.6098236", "0.60969055", "0.60628074", "0.6040219", "0.6035585", "0.601...

0.8062336

0

Reads feature vectors and labels from a file and prints information about their clustering properties. Here, we think of the space of feature vectors, and consider a vector v_i to be in cluster j if j is one of the labels for example i.

def analyze_feature_vector_clusters(features_file_path, distance=utils.L2_distance): feature_vectors, label_vectors = utils.read_feature_and_label_vectors(features_file_path) logging.info('Building clusters...') # Map from (integer j) --> (list of indices i such that feature_vectors[i] is in cluster j) ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def load_vectors (file_extension = None):\n \n feat_file_name = 'output/' + file_extension + '.feature'\n label_file_name = 'output/' + file_extension + '.label'\n \n prettyPrint( \"Loading feature vectors and labels from disk ... \", color.CYAN)\n if not os.path.isfile(feat_file_name) or not os....

[ "0.5931401", "0.58759993", "0.5818201", "0.5670178", "0.55925786", "0.5564548", "0.5553166", "0.5509292", "0.5509292", "0.5505033", "0.55044186", "0.5498727", "0.5490172", "0.54632276", "0.54203254", "0.54109955", "0.5390733", "0.5373782", "0.5334791", "0.5330502", "0.5268046...

0.65529263

0

Make custom attributes and methods to native

def native_methods(self): base_attributes = { *dir(TapiAdapter), *dir(TapiClientExecutor), *dir(JSONAdapterMixin), "serializer", } a = [ attr for attr in dir(self) if not attr.startswith("_") and attr not in base...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def attributes(self):\n raise NotImplementedError", "def __attrs_post_init__(self):", "def _set_attributes(self):", "def __setattr__(self, *args, **kwargs): # real signature unknown\n pass", "def __setattr__(self, *args, **kwargs): # real signature unknown\n pass", "def __setattr__(self,...

[ "0.6156814", "0.60756165", "0.5929101", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", "0.5887519", ...

0.0

-1

Create of url request

def fill_resource_template_url(self, template, params, resource): try: return template.format(**params) except KeyError: all_keys = re.findall(r"{(.[^\}]*)", template) range_not_set_keys = set(all_keys) - set(params.keys()) not_set_keys = "', '".join(range...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def _create_request_url():\n url = 'http'\n if _config['save']:\n url += 's'\n url += '://{}:{}/move'.format(_config['ip'], _config['port'])\n return url", "def _CreateRequest(self, url, data=None):\r\n logging.debug(\"Creating request for: '%s' with payload:\\n%s\", url, data)\r\n req =...

[ "0.7095145", "0.70785993", "0.7020341", "0.69661885", "0.6836974", "0.67563176", "0.6740314", "0.6718406", "0.6607577", "0.6582395", "0.65728194", "0.65544945", "0.6512967", "0.6509939", "0.6411456", "0.6373932", "0.63712084", "0.63712084", "0.6340278", "0.62835985", "0.62759...

0.0

-1

Adding parameters to a request

def get_request_kwargs(self, api_params, *args, **kwargs): serialized = self.serialize_data(kwargs.get("data")) kwargs["data"] = self.format_data_to_request(serialized) return kwargs

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def add_params(self, params: t.Mapping[str, str]) -> 'Request':\n return replace(self, params={**self.params, **params})", "def additional_access_token_request_parameters(self, parameters, request):", "def get_request_extra_params(self, **kwargs):\n params = self.request_extra_params.copy()\n ...

[ "0.74066496", "0.72835517", "0.6995281", "0.6825499", "0.68013364", "0.65432173", "0.6506432", "0.64661425", "0.6460794", "0.63875496", "0.6370902", "0.6263036", "0.62520313", "0.6237418", "0.6223249", "0.61894953", "0.6144124", "0.61332905", "0.6104013", "0.60877264", "0.607...

0.58247703

53

Get error from response.

def get_error_message(self, data, response=None): return str(data)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def getError(self):\n \n return self.resp[\"error\"]", "def _get_error_message(response):\n try:\n return response.json()[\"detail\"]\n except (KeyError, _JSONDecodeError):\n return response.text", "def error(self):\n error = self._wrapped.error\n ...

[ "0.83358467", "0.78637624", "0.7812136", "0.7469619", "0.74155784", "0.7169605", "0.7166862", "0.7096074", "0.7082572", "0.704426", "0.7022822", "0.69620997", "0.6958218", "0.6933554", "0.6891388", "0.68128866", "0.67896175", "0.67648655", "0.6737759", "0.66620314", "0.664474...

0.6469981

34

Wrapper for throwing custom exceptions. When, for example, the server responds with 200, and errors are passed inside json.

def error_handling( self, tapi_exception, error_message, repeat_number, response, request_kwargs, api_params, **kwargs ): raise tapi_exception

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def make_json_error(ex):\n if isinstance(ex, HTTPException):\n return ex;\n elif isinstance(ex, ResourceException):\n info = ex.to_dict()\n status_code = ex.http_status\n info[\"type\"] = \"exception\"\n else:\n message = \"There was an in...

[ "0.73746616", "0.73421353", "0.73373085", "0.7094187", "0.7060387", "0.70266795", "0.7011387", "0.69837064", "0.69805527", "0.6943718", "0.6921114", "0.6909217", "0.69065756", "0.6879482", "0.67980826", "0.67973834", "0.67954606", "0.678849", "0.6778472", "0.67188394", "0.671...

0.0

-1

Conditions for repeating a request. If it returns True, the request will be repeated.

def retry_request( self, tapi_exception, error_message, repeat_number, response, request_kwargs, api_params, **kwargs ): return False

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def _do_request(self):\n\n if time.time() < self._next_request:\n return False\n else:\n return True", "def valid_in_request(self):\n return self._repeatable[0] is not None", "def valid_multiple_in_request(self):\n return self._repeatable[0] is True", "def va...

[ "0.7024639", "0.6854883", "0.6750136", "0.6601198", "0.6564489", "0.64355195", "0.61150056", "0.60088533", "0.5957636", "0.58485484", "0.57753676", "0.574291", "0.57246184", "0.5706755", "0.55322963", "0.549886", "0.5494331", "0.5449525", "0.5437684", "0.5399534", "0.5398021"...

0.5810275

10

Stuff to do before every test.

def setUp(self): # Get the Flask test client self.client = app.test_client() #Shows Flask errors that happen during tests app.config['TESTING'] = True #To test sessions we need to set Secret key app.config['SECRET_KEY'] = 'key' # Connect to test database ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def before_run_tests(cls):\n pass", "def do_before(self):\r\n pass", "def before_test(self, func, *args, **kwargs):\n pass", "def setUp(self):\r\n # nothing to do, all tests use different things\r\n pass", "def setUp(self):\n print(\"New test by Nikolay Melnik\")",...

[ "0.8211315", "0.802689", "0.80261695", "0.7873411", "0.76571673", "0.76434696", "0.76261467", "0.75419456", "0.75174975", "0.7496759", "0.7496759", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0...

0.0

-1

Stuff to do before every test.

def setUp(self): # Get the Flask test client self.client = app.test_client() # Show Flask errors that happen during tests app.config['TESTING'] = True #To test sessions we need to set Secret key app.config['SECRET_KEY'] = 'key' # Connect to test database ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def before_run_tests(cls):\n pass", "def do_before(self):\r\n pass", "def before_test(self, func, *args, **kwargs):\n pass", "def setUp(self):\r\n # nothing to do, all tests use different things\r\n pass", "def setUp(self):\n print(\"New test by Nikolay Melnik\")",...

[ "0.8211315", "0.802689", "0.80261695", "0.7873411", "0.76571673", "0.76434696", "0.76261467", "0.75419456", "0.75174975", "0.7496759", "0.7496759", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0.74386895", "0...

0.0

-1

Do at end of every test.

def tearDown(self): db.session.close() db.drop_all()

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_finished(self):\n\n # We'll start the next test in an idle, so that the current one is\n # properly terminated, and we do not execute in its context\n\n GLib.idle_add(self._do_test)", "def test_run_ended(self):", "def finished_tests(self):\n self.testing = 0", ...

[ "0.7842646", "0.7775997", "0.77741504", "0.77669877", "0.76620615", "0.7591832", "0.74713165", "0.7361014", "0.73159444", "0.7298099", "0.72939897", "0.72939897", "0.7259042", "0.723601", "0.72323287", "0.7225132", "0.7225132", "0.72186595", "0.720453", "0.720453", "0.720453"...

0.0

-1

Test this page can only be reached if user is in session

def test_user_profile_page(self): result = self.client.get("/profile", follow_redirects=True) self.assertIn(b"User ID", result.data)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_session_not_accessed(self):\n response = self.client.get(\"/auth_processor_no_attr_access/\")\n self.assertContains(response, \"Session not accessed\")", "def test_not_logged_user_cannot_access(self):\n\n utils.test_not_logged_cannot_access(self, self.url)", "def test_not_logged_u...

[ "0.7483035", "0.743996", "0.743996", "0.743996", "0.743996", "0.73823667", "0.7071074", "0.7004314", "0.7000037", "0.69217306", "0.6881494", "0.68084276", "0.68084276", "0.6783943", "0.67708766", "0.67426723", "0.6722217", "0.6721236", "0.6721236", "0.6721236", "0.6698859", ...

0.0

-1

Test this page can only be reached if user is in session

def test_search_page(self): result = self.client.get("/search") self.assertIn(b"Search", result.data)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_session_not_accessed(self):\n response = self.client.get(\"/auth_processor_no_attr_access/\")\n self.assertContains(response, \"Session not accessed\")", "def test_not_logged_user_cannot_access(self):\n\n utils.test_not_logged_cannot_access(self, self.url)", "def test_not_logged_u...

[ "0.7482324", "0.7440397", "0.7440397", "0.7440397", "0.7440397", "0.7383309", "0.707093", "0.7003852", "0.6998608", "0.6921593", "0.68799853", "0.6807848", "0.6807848", "0.6783388", "0.67709535", "0.6742237", "0.67224073", "0.6720221", "0.6720221", "0.6720221", "0.669822", ...

0.0

-1

Test user's if favourite restaurant is added to DB

def test_add_to_fav_(self): result = self.client.post("/add_to_fav", data={"yelp_biz_id":"JA_V9TqDCrkgknqrcUndIQ", "yelp_rest_name":"Siam", "yelp_rating":"4", "yelp_category":"Thai", "yelp_price":"$$", "yelp_image_url":"https://s3-media2.fl.yelpcdn.com/bphoto/1...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_Favourite(self):\n self.assertEquals(self.fav_1.pk, 1)\n self.assertEquals(self.fav_1.date_added, '2019-12-20 09:00:00')\n self.assertEquals(self.fav_1.user.pk, 1)\n self.assertEquals(self.fav_1.product.pk, 1)", "async def create(self, favorite: Favorite) -> Favorite:", "de...

[ "0.72114295", "0.6636154", "0.6632463", "0.65658706", "0.64831656", "0.6482696", "0.6476188", "0.64745235", "0.6445702", "0.6381491", "0.6374218", "0.6319528", "0.6261317", "0.6236881", "0.6179164", "0.6172634", "0.6163744", "0.6161769", "0.6146276", "0.6124457", "0.60840327"...

0.78729564

0

Stuff to do before every test.

def setUp(self): # Get the Flask test client self.client = app.test_client() # Show Flask errors that happen during tests app.config['TESTING'] = True # Connect to test database connect_to_db(app, "postgresql:///testdb") # Create tables and add sample data ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def before_run_tests(cls):\n pass", "def do_before(self):\r\n pass", "def before_test(self, func, *args, **kwargs):\n pass", "def setUp(self):\r\n # nothing to do, all tests use different things\r\n pass", "def setUp(self):\n print(\"New test by Nikolay Melnik\")",...

[ "0.8209909", "0.8028296", "0.80253834", "0.7872079", "0.76552856", "0.76427346", "0.7627397", "0.7540311", "0.7515845", "0.74945575", "0.74945575", "0.74365586", "0.74365586", "0.74365586", "0.74365586", "0.74365586", "0.74365586", "0.74365586", "0.74365586", "0.74365586", "0...

0.0

-1

Do at end of every test.

def tearDown(self): db.session.close() db.drop_all()

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def test_finished(self):\n\n # We'll start the next test in an idle, so that the current one is\n # properly terminated, and we do not execute in its context\n\n GLib.idle_add(self._do_test)", "def test_run_ended(self):", "def finished_tests(self):\n self.testing = 0", ...

[ "0.78425974", "0.77754915", "0.77742684", "0.7766872", "0.76616216", "0.75920033", "0.7470884", "0.73606", "0.73159856", "0.7297722", "0.7293865", "0.7293865", "0.72588974", "0.7235985", "0.72320426", "0.7224789", "0.7224789", "0.72181326", "0.72043455", "0.72043455", "0.7204...

0.0

-1

Find restaurant name by zipcode.

def test_process_searchbox_with_mock(self): result = self.client.get('/process_searchbox', data={'zipcode': '94043', 'cuisine': 'indian'}) self.assertIn(b"Dosa Paratha", result.data)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def county_name(zipcode): \n search = SearchEngine(simple_zipcode=True) # set simple_zipcode=False to use rich info database\n zipcode_query = search.by_zipcode(str(zipcode))\n zipcode_query_dict = zipcode_query.to_dict()\n county = zipcode_query_dict['county']\n if county is None:\n print('I...

[ "0.72173095", "0.669443", "0.66253436", "0.66198653", "0.64643675", "0.6446394", "0.6327299", "0.62487876", "0.6163434", "0.6108556", "0.6016015", "0.5976856", "0.59515876", "0.5928086", "0.57584274", "0.57179135", "0.5710414", "0.5634522", "0.56298053", "0.5622634", "0.55962...

0.0

-1

Return the nth Fibonacci number

def fibonacci(n): if n in (0,1): return n return (fibonacci(n-2) + fibonacci(n-1))

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def fibonacci(n):", "def nthFibonacci(n):\n\n # Run some basic error checking\n try:\n n = int(n)\n except: # if this fails not a number inputed\n sys.stderr.write('Incorrect data input\\n')\n return None\n if n < 0:\n sys.stderr.write('Only positive integers allowed\\n')\n return None\n \n ...

[ "0.8549428", "0.83808696", "0.8357446", "0.8267962", "0.82505155", "0.8213346", "0.8213339", "0.8212905", "0.81149447", "0.8098057", "0.80716306", "0.8040074", "0.8032861", "0.8029916", "0.8029916", "0.8019259", "0.8019077", "0.8012156", "0.8007875", "0.8001539", "0.79852134"...

0.78968835

39

Get the eol mode map

def EOLModeMap(): # Maintenance Note: ints must be kept in sync with EDSTC_EOL_* in edstc return { EOL_MODE_CR : _("Old Machintosh (\\r)"), EOL_MODE_LF : _("Unix (\\n)"), EOL_MODE_CRLF : _("Windows (\\r\\n)")}

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def get_eol_for_open(self) -> str:\n map = {\n EOLTypes.CRLF: WINDOWS_EOL,\n EOLTypes.LF: UNIX_EOL,\n EOLTypes.NATIVE: linesep,\n }\n\n return map[self]", "def get_modes(self):\n return [i for i, j in enumerate(self._modemap._map) if j is not None]", ...

[ "0.63044417", "0.6147848", "0.5959693", "0.5748074", "0.57146144", "0.5593236", "0.54169565", "0.54102844", "0.53679585", "0.5359293", "0.5346539", "0.5331634", "0.53012353", "0.5280056", "0.52593654", "0.52485204", "0.51640564", "0.5128611", "0.51207393", "0.51181734", "0.50...

0.808408

0

Base Class for all controls. On its own, this is just a Label in a BoxLayout.

def __init__(self, label:str=None, variable_name:str=None, value:typing.Any=None, parent:QtWidgets.QWidget=None, on_change:typing.Callable=None): QtWidgets.QWidget.__init__(self, parent=parent) if label is None: if variable_name is None: ...

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def create_label(self):\n\n self.pc_label = Label(self.form_box, text=\"Primary Current [A]:\", anchor='nw', width=32,\n bg=self.design.color.secondary, font=('Arial', 15))\n self.sc_label = Label(self.form_box, text=\"Secondary Current [A]:\", anchor='nw', width=32,\n ...

[ "0.68835676", "0.66542274", "0.63613844", "0.6344261", "0.63232493", "0.630243", "0.6290771", "0.61542106", "0.6145763", "0.6128528", "0.60839635", "0.60793793", "0.6052032", "0.60399705", "0.60251766", "0.6019413", "0.5956044", "0.59486943", "0.5947741", "0.5929713", "0.5921...

0.60125613

16

fit le modele puis retourne ses performances en test

def score(self, archi:ArchitectureNN): archi.fit_model(self.train_data, **self.train_params) return archi.compute_test_score(self.test_data)

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "def fit_test(self):", "def experiment_models(train, test, train_target, test_target):\n # Linear models\n linear_models = [(LinearRegression, {\"n_jobs\": -1}),\n (Lasso, {\"alpha\": 3}),\n (Ridge, {\"alpha\": 3}),\n (LinearSVR, {\"random_state\":...

[ "0.70706695", "0.64831716", "0.64393735", "0.6433011", "0.64119494", "0.6411802", "0.6275987", "0.624839", "0.62458396", "0.62132657", "0.62124383", "0.6203546", "0.62026036", "0.6191927", "0.6183838", "0.615125", "0.61467177", "0.61371404", "0.6132172", "0.6127471", "0.61209...

0.0

-1