bugged stringlengths 4 228k | fixed stringlengths 0 96.3M | __index_level_0__ int64 0 481k |
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def __init__(self, sqlite_filename, overwrite=False): log.init("gtfsdb") self.dbname = sqlite_filename if overwrite: try: os.remove(sqlite_filename) except: pass self.conn = sqlite3.connect( sqlite_filename ) | def __init__(self, sqlite_filename, overwrite=False): self.dbname = sqlite_filename if overwrite: try: os.remove(sqlite_filename) except: pass self.conn = sqlite3.connect( sqlite_filename ) | 464,800 |
for tablename, table_def in self.GTFS_DEF: if tables is not None and tablename not in tables: log.debug( "skipping table %s - not included in 'tables' list"%tablename ) continue | for tablename, table_def in self.GTFS_DEF: if tables is not None and tablename not in tables: print( "skipping table %s - not included in 'tables' list"%tablename ) continue | 464,801 |
for tablename, table_def in self.GTFS_DEF: if tables is not None and tablename not in tables: log.debug( "skipping table %s - not included in 'tables' list"%tablename ) continue | for tablename, table_def in self.GTFS_DEF: if tables is not None and tablename not in tables: log.debug( "skipping table %s - not included in 'tables' list"%tablename ) continue | 464,802 |
create_table( c, tablename, table_def ) | create_table( c, tablename, table_def ) | 464,803 |
create_table( c, tablename, table_def ) | create_table( c, tablename, table_def ) | 464,804 |
def main_inspect_gtfsdb(): from sys import argv if len(argv) < 2: log.debug("usage: python gtfsdb.py gtfsdb_filename [query]") exit() gtfsdb_filename = argv[1] gtfsdb = GTFSDatabase( gtfsdb_filename ) if len(argv) == 2: for table_name, fields in gtfsdb.GTFS_DEF: log.debug("Table: %s"%table_name) for field_name, fiel... | def main_inspect_gtfsdb(): from sys import argv if len(argv) < 2: print("usage: python gtfsdb.py gtfsdb_filename [query]") exit() gtfsdb_filename = argv[1] gtfsdb = GTFSDatabase( gtfsdb_filename ) if len(argv) == 2: for table_name, fields in gtfsdb.GTFS_DEF: log.debug("Table: %s"%table_name) for field_name, field_ty... | 464,805 |
def main_inspect_gtfsdb(): from sys import argv if len(argv) < 2: log.debug("usage: python gtfsdb.py gtfsdb_filename [query]") exit() gtfsdb_filename = argv[1] gtfsdb = GTFSDatabase( gtfsdb_filename ) if len(argv) == 2: for table_name, fields in gtfsdb.GTFS_DEF: log.debug("Table: %s"%table_name) for field_name, fiel... | def main_inspect_gtfsdb(): from sys import argv if len(argv) < 2: log.debug("usage: python gtfsdb.py gtfsdb_filename [query]") exit() gtfsdb_filename = argv[1] gtfsdb = GTFSDatabase( gtfsdb_filename ) if len(argv) == 2: for table_name, fields in gtfsdb.GTFS_DEF: print("Table: %s"%table_name) for field_name, field_ty... | 464,806 |
def main_inspect_gtfsdb(): from sys import argv if len(argv) < 2: log.debug("usage: python gtfsdb.py gtfsdb_filename [query]") exit() gtfsdb_filename = argv[1] gtfsdb = GTFSDatabase( gtfsdb_filename ) if len(argv) == 2: for table_name, fields in gtfsdb.GTFS_DEF: log.debug("Table: %s"%table_name) for field_name, fiel... | def main_inspect_gtfsdb(): from sys import argv if len(argv) < 2: log.debug("usage: python gtfsdb.py gtfsdb_filename [query]") exit() gtfsdb_filename = argv[1] gtfsdb = GTFSDatabase( gtfsdb_filename ) if len(argv) == 2: for table_name, fields in gtfsdb.GTFS_DEF: log.debug("Table: %s"%table_name) for field_name, fiel... | 464,807 |
def main_inspect_gtfsdb(): from sys import argv if len(argv) < 2: log.debug("usage: python gtfsdb.py gtfsdb_filename [query]") exit() gtfsdb_filename = argv[1] gtfsdb = GTFSDatabase( gtfsdb_filename ) if len(argv) == 2: for table_name, fields in gtfsdb.GTFS_DEF: log.debug("Table: %s"%table_name) for field_name, fiel... | def main_inspect_gtfsdb(): from sys import argv if len(argv) < 2: log.debug("usage: python gtfsdb.py gtfsdb_filename [query]") exit() gtfsdb_filename = argv[1] gtfsdb = GTFSDatabase( gtfsdb_filename ) if len(argv) == 2: for table_name, fields in gtfsdb.GTFS_DEF: log.debug("Table: %s"%table_name) for field_name, fiel... | 464,808 |
def main_inspect_gtfsdb(): from sys import argv if len(argv) < 2: log.debug("usage: python gtfsdb.py gtfsdb_filename [query]") exit() gtfsdb_filename = argv[1] gtfsdb = GTFSDatabase( gtfsdb_filename ) if len(argv) == 2: for table_name, fields in gtfsdb.GTFS_DEF: log.debug("Table: %s"%table_name) for field_name, fiel... | def main_inspect_gtfsdb(): from sys import argv if len(argv) < 2: log.debug("usage: python gtfsdb.py gtfsdb_filename [query]") exit() gtfsdb_filename = argv[1] gtfsdb = GTFSDatabase( gtfsdb_filename ) if len(argv) == 2: for table_name, fields in gtfsdb.GTFS_DEF: log.debug("Table: %s"%table_name) for field_name, fiel... | 464,809 |
def main_inspect_gtfsdb(): from sys import argv if len(argv) < 2: log.debug("usage: python gtfsdb.py gtfsdb_filename [query]") exit() gtfsdb_filename = argv[1] gtfsdb = GTFSDatabase( gtfsdb_filename ) if len(argv) == 2: for table_name, fields in gtfsdb.GTFS_DEF: log.debug("Table: %s"%table_name) for field_name, fiel... | def main_inspect_gtfsdb(): from sys import argv if len(argv) < 2: log.debug("usage: python gtfsdb.py gtfsdb_filename [query]") exit() gtfsdb_filename = argv[1] gtfsdb = GTFSDatabase( gtfsdb_filename ) if len(argv) == 2: for table_name, fields in gtfsdb.GTFS_DEF: log.debug("Table: %s"%table_name) for field_name, fiel... | 464,810 |
def main_inspect_gtfsdb(): from sys import argv if len(argv) < 2: log.debug("usage: python gtfsdb.py gtfsdb_filename [query]") exit() gtfsdb_filename = argv[1] gtfsdb = GTFSDatabase( gtfsdb_filename ) if len(argv) == 2: for table_name, fields in gtfsdb.GTFS_DEF: log.debug("Table: %s"%table_name) for field_name, fiel... | def main_inspect_gtfsdb(): from sys import argv if len(argv) < 2: log.debug("usage: python gtfsdb.py gtfsdb_filename [query]") exit() gtfsdb_filename = argv[1] gtfsdb = GTFSDatabase( gtfsdb_filename ) if len(argv) == 2: for table_name, fields in gtfsdb.GTFS_DEF: log.debug("Table: %s"%table_name) for field_name, fiel... | 464,811 |
def main_build_gtfsdb(): parser = OptionParser() parser.add_option("-t", "--table", dest="tables", action="append", default=[], help="copy over only the given tables") parser.add_option("-v", "--verbose", action="store_true", dest="verbose", default=False, help="make a bunch of noise" ) (options, args) = parser.parse_... | def main_build_gtfsdb(): parser = OptionParser() parser.add_option("-t", "--table", dest="tables", action="append", default=[], help="copy over only the given tables") parser.add_option("-v", "--verbose", action="store_true", dest="verbose", default=False, help="make a bunch of noise" ) (options, args) = parser.parse_... | 464,812 |
def store(self, name, obj, c=None): cc = self.conn.cursor() if c is None else c resource_count = list(c.execute( "SELECT count(*) FROM resources WHERE name = ?", (name,) ))[0][0] if resource_count == 0: cc.execute( "INSERT INTO resources VALUES (?, ?)", (name, cPickle.dumps( obj )) ) if not c: self.conn.commit() if not... | def store(self, name, obj, c=None): cc = self.conn.cursor() if c is None else c resource_count = list(cc.execute( "SELECT count(*) FROM resources WHERE name = ?", (name,) ))[0][0] if resource_count == 0: cc.execute( "INSERT INTO resources VALUES (?, ?)", (name, cPickle.dumps( obj )) ) if not c: self.conn.commit() if no... | 464,813 |
def _declare(fun, restype, argtypes): fun.argtypes = argtypes fun.restype = restype fun.safe = True | def _declare(fun, restype, argtypes): fun.argtypes = argtypes fun.restype = restype fun.safe = True | 464,814 |
def walk_back(self, state, walk_options): return State.from_pointer(self._cwalk_back(self.soul, state.soul, walk_options.soul)) | def walk_back(self, state, walk_options): return State.from_pointer(self._cwalk_back(self.soul, state.soul, walk_options.soul)) | 464,815 |
def expand(self, amount): lgs.vecExpand( addressof(address), amount ) | def expand(self, amount): lgs.vecExpand( addressof(self), amount ) | 464,816 |
def add(self, element): lgs.vecAdd( addressof(address), element ) | def add(self, element): lgs.vecAdd( addressof(self), element ) | 464,817 |
def gtfsdb_to_transfer_edges( self ): # load transfers if self.reporter: self.reporter.write( "Loading transfers to graph...\n" ) # keep track to avoid redundancies # this assumes that transfer relationships are bi-directional. # TODO this implementation is also incomplete - it's theoretically possible that # a trans... | def gtfsdb_to_transfer_edges( self ): # load transfers if self.reporter: self.reporter.write( "Loading transfers to graph...\n" ) # keep track to avoid redundancies # this assumes that transfer relationships are bi-directional. # TODO this implementation is also incomplete - it's theoretically possible that # a trans... | 464,818 |
def gtfsdb_to_transfer_edges( self ): # load transfers if self.reporter: self.reporter.write( "Loading transfers to graph...\n" ) # keep track to avoid redundancies # this assumes that transfer relationships are bi-directional. # TODO this implementation is also incomplete - it's theoretically possible that # a trans... | def gtfsdb_to_transfer_edges( self ): # load transfers if self.reporter: self.reporter.write( "Loading transfers to graph...\n" ) # keep track to avoid redundancies # this assumes that transfer relationships are bi-directional. # TODO this implementation is also incomplete - it's theoretically possible that # a trans... | 464,819 |
def gtfsdb_to_transfer_edges( self ): # load transfers if self.reporter: self.reporter.write( "Loading transfers to graph...\n" ) # keep track to avoid redundancies # this assumes that transfer relationships are bi-directional. # TODO this implementation is also incomplete - it's theoretically possible that # a trans... | def gtfsdb_to_transfer_edges( self ): # load transfers if self.reporter: self.reporter.write( "Loading transfers to graph...\n" ) # keep track to avoid redundancies # this assumes that transfer relationships are bi-directional. # TODO this implementation is also incomplete - it's theoretically possible that # a trans... | 464,820 |
def gtfsdb_to_transfer_edges( self ): # load transfers if self.reporter: self.reporter.write( "Loading transfers to graph...\n" ) # keep track to avoid redundancies # this assumes that transfer relationships are bi-directional. # TODO this implementation is also incomplete - it's theoretically possible that # a trans... | def gtfsdb_to_transfer_edges( self ): # load transfers if self.reporter: self.reporter.write( "Loading transfers to graph...\n" ) # keep track to avoid redundancies # this assumes that transfer relationships are bi-directional. # TODO this implementation is also incomplete - it's theoretically possible that # a trans... | 464,821 |
def add_edge(self, from_v_label, to_v_label, payload, outside_c=None): c = outside_c or self.conn.cursor() c.execute( "INSERT INTO edges VALUES (?, ?, ?, ?)", (from_v_label, to_v_label, cPickle.dumps( payload.__class__ ), cPickle.dumps( payload.__getstate__() ) ) ) if hasattr(payload, "__resources__"): for name, reso... | def add_edge(self, from_v_label, to_v_label, payload, outside_c=None): c = outside_c or self.conn.cursor() epid = self.put_edge_payload( payload, c ) c.execute( "INSERT INTO edges VALUES (?, ?, ?)", (from_v_label, to_v_label, epid) ) if hasattr(payload, "__resources__"): for name, resource in payload.__resources__():... | 464,822 |
def add_edge(self, from_v_label, to_v_label, payload, outside_c=None): c = outside_c or self.conn.cursor() c.execute( "INSERT INTO edges VALUES (?, ?, ?, ?)", (from_v_label, to_v_label, cPickle.dumps( payload.__class__ ), cPickle.dumps( payload.__getstate__() ) ) ) if hasattr(payload, "__resources__"): for name, reso... | def add_edge(self, from_v_label, to_v_label, payload, outside_c=None): c = outside_c or self.conn.cursor() c.execute( "INSERT INTO edges VALUES (?, ?, ?, ?)", (from_v_label, to_v_label, cPickle.dumps( payload.__class__ ), cPickle.dumps( payload.__getstate__() ) ) ) if hasattr(payload, "__resources__"): for name, reso... | 464,823 |
def getVertex( self, i ): vertex_soul = lgs.pathGetVertex( addressof(self), i ) # reinterpret the error code as an exception if vertex_soul == NULL: raise IndexError("%d is out of bounds"%i) return Vertex.from_pointer( vertex_soul ) | def getVertex( self, i ): vertex_soul = lgs.pathGetVertex( addressof(self), i ) # reinterpret the error code as an exception if vertex_soul is None: raise IndexError("%d is out of bounds"%i) return Vertex.from_pointer( vertex_soul ) | 464,824 |
def getEdge( self, i ): edge_soul = lgs.pathGetEdge( addressof(self), i ) # reinterpret the error code as an exception if edge_soul == NULL: raise IndexError("%d is out of bounds"%i) return Edge.from_pointer( edge_soul ) | def getEdge( self, i ): edge_soul = lgs.pathGetEdge( addressof(self), i ) # reinterpret the error code as an exception if edge_soul is None: raise IndexError("%d is out of bounds"%i) return Edge.from_pointer( edge_soul ) | 464,825 |
def applies_to(vertex1, edge, vertex2): return edge is not None and isinstance(edge.state, graphserver.core.TripAlight) | def applies_to(vertex1, edge, vertex2): return edge is not None and isinstance(edge.payload, graphserver.core.TripAlight) | 464,826 |
def vertices(self): self.check_destroyed() count = c_int() p_va = lgs.gVertices(self.soul, byref(count)) verts = [] arr = cast(p_va, POINTER(c_void_p)) # a bit of necessary voodoo for i in range(count.value): v = Vertex.from_pointer(arr[i]) verts.append(v) del arr libc.free(p_va) return verts | def vertices(self): self.check_destroyed() count = c_long() p_va = lgs.gVertices(self.soul, byref(count)) verts = [] arr = cast(p_va, POINTER(c_void_p)) # a bit of necessary voodoo for i in range(count.value): v = Vertex.from_pointer(arr[i]) verts.append(v) del arr libc.free(p_va) return verts | 464,827 |
def main(): usage = """usage: python dedupe.py <graphdb_filename>""" parser = OptionParser(usage=usage) (options, args) = parser.parse_args() if len(args) != 1: parser.print_help() exit(-1) graphdb_filename = args[0] gtfsdb = GTFSDatabase( graphdb_filename ) query = """ SELECT count(*), monday, tuesday, wednesday,... | defmain() main():main() usagemain() =main() """usage:main() pythonmain() dedupe.pymain() <graphdb_filename>"""main() parsermain() =main() OptionParser(usage=usage)main() main() (options,main() args)main() =main() parser.parse_args()main() main() ifmain() len(args)main() !=main() 1:main() parser.pri... | 464,828 |
def _declare(fun, restype, argtypes): fun.argtypes = argtypes fun.restype = restype fun.safe = True | def _declare(fun, restype, argtypes): fun.argtypes = argtypes fun.restype = restype fun.safe = True | 464,829 |
def normalize(self): self.b *= 1.0 / sqrt(sqmag(self.b)) | def normalize(self): self.b.x *= 1.0 / sqrt(sqmag(self.b.x)) | 464,830 |
def frame(self): if self.framepos == -1: raise Exception('call next before the first frame!') format = self.format img = hg.cvQueryFrame(self.cap) nchannels = 1 if format == FORMAT_GRAY else 3 shape = \ (img.height, img.width) if nchannels == 1 else \ (img.height, img.width, nchannels) if format == FORMAT_BGR: # defa... | def frame(self): if self.framepos == -1: raise Exception('call next before the first frame!') format = self.format img = hg.cvRetrieveFrame(self.cap) nchannels = 1 if format == FORMAT_GRAY else 3 shape = \ (img.height, img.width) if nchannels == 1 else \ (img.height, img.width, nchannels) if format == FORMAT_BGR: # d... | 464,831 |
def __init__(self, *args): self.create_capture = hg.cvCreateFileCapture super(video_file, self).__init__(*args) | def __init__(self, fname, format=FORMAT_RGB): self.create_capture = hg.cvCreateFileCapture super(video_file, self).__init__(*args) | 464,832 |
def __init__(self, *args): self.create_capture = hg.cvCreateFileCapture super(video_file, self).__init__(*args) | def __init__(self, *args): self.create_capture = hg.cvCreateFileCapture super(video_file, self).__init__(*args) | 464,833 |
def seek(self, pos): #if pos < self.pos: # self._destr_cap() # self._init_cap() if pos < self.pos: hg.cvSetCaptureProperty(self.cap, hg.CV_CAP_PROP_POS_FRAMES, 0.0) self.framepos = -1 return super(video_file, self).seek(pos) | def seek(self, pos): #if pos < self.pos: # self._destr_cap() # self._init_cap() if pos < self.pos: hg.cvSetCaptureProperty(self.cap, hg.CV_CAP_PROP_POS_FRAMES, 0.0) self.framepos = -1 return super(video_file, self).seek(pos) | 464,834 |
def seek(self, pos): #if pos < self.pos: # self._destr_cap() # self._init_cap() if pos < self.pos: hg.cvSetCaptureProperty(self.cap, hg.CV_CAP_PROP_POS_FRAMES, 0.0) self.framepos = -1 return super(video_file, self).seek(pos) | def seek(self, pos): #if pos < self.framepos: # self._destr_cap() # self._init_cap() if pos < self.framepos: hg.cvSetCaptureProperty(self.cap, hg.CV_CAP_PROP_POS_FRAMES, 0.0) self.framepos = -1 return super(video_file, self).seek(pos) | 464,835 |
def correlate(input, kernel, output=None, accumulate=False): y = sig_correlate(input, kernel, 'valid') if output is None: output = y elif accumulate: output += y else: output[:] = y return output | def correlate(input, kernel, output=None, accumulate=False): y = sig_correlate(input, kernel, 'valid') if output is None: output = y elif accumulate: output += y else: output[:] = y return output | 464,836 |
def seek(self, pos): #if pos < self.framepos: # self._destr_cap() # self._init_cap() if pos < self.framepos: hg.cvSetCaptureProperty(self.cap, hg.CV_CAP_PROP_POS_FRAMES, 0.0) self.framepos = -1 return super(video_file, self).seek(pos) | def seek(self, pos): #if pos < self.framepos: # self._destr_cap() # self._init_cap() if pos < self.framepos: hg.cvSetCaptureProperty(self.cap, hg.CV_CAP_PROP_POS_FRAMES, 0.0) self.framepos = -1 return super(video_file, self).seek(pos) | 464,837 |
def seek(self, pos): #if pos < self.framepos: # self._destr_cap() # self._init_cap() if pos < self.framepos: hg.cvSetCaptureProperty(self.cap, hg.CV_CAP_PROP_POS_FRAMES, 0.0) self.framepos = -1 return super(video_file, self).seek(pos) | def seek(self, pos): #if pos <= self.framepos: # self._destr_cap() # self._init_cap() if pos <= self.framepos: hg.cvSetCaptureProperty(self.cap, hg.CV_CAP_PROP_POS_FRAMES, 0.0) self.framepos = -1 return super(video_file, self).seek(pos) | 464,838 |
def __init__(self, kernel_shape, conn_table): super(back_convolution, self).__init__(kernel_shape, conn_table) | def __init__(self, kernel_shape, conn_table): super(back_convolution, self).__init__(kernel_shape, conn_table) | 464,839 |
def iterstats(self): return {'grad norm': self.cur_grad_norm} | def iterstats(self): return {'grad norm': self.cur_grad_norm} | 464,840 |
def step(self, p): grad, step_coeff = self._step_direction(p) states = p.states for (g, state) in zip(grad,states): state.x += step_coeff * g | def step(self, p): grad, step_coeff = self._step_direction(p, dostep = True) states = p.states for (g, state) in zip(grad,states): state.x += step_coeff * g | 464,841 |
def step(self, p): grad, step_coeff = self._step_direction(p) states = p.states for (g, state) in zip(grad,states): state.x += step_coeff * g | def step(self, p): grad, step_coeff = self._step_direction(p) states = p.states for (g, state) in zip(grad,states): state.x += step_coeff * g | 464,842 |
def __init__(self, feval, max_line_steps=10, quiet=True, **kwargs): ''' Gradient-descent parameter update strategy, performing a line-search to select the step size | def __init__(self, feval, max_line_steps=10, quiet=True, **kwargs): ''' Gradient-descent parameter update strategy, performing a line-search to select the step size | 464,843 |
def reset(self): self.linesearch_stop_code = None self.cur_num_steps = -1 super(gd_linesearch_update, self).reset() | def reset(self): self.cur_num_steps = -1 super(gd_linesearch_update, self).reset() | 464,844 |
def _step_direction(self, p): grad, step_coeff = \ super(gd_linesearch_update, self)._step_direction(p) feval = self.feval states = p.states bup = p.backup() stop = self.max_line_steps step = 0 cur_energy = feval() new_energy = np.infty while new_energy > cur_energy and step != stop: for (g, state) in zip(gr... | def _step_direction(self, p, dostep=True): grad, step_coeff = \ super(gd_linesearch_update, self)._step_direction(p) feval = self.feval states = p.states bup = p.backup() stop = self.max_line_steps step = 0 cur_energy = feval() new_energy = np.infty while new_energy > cur_energy and step != stop: for (g, sta... | 464,845 |
def _step_direction(self, p): grad, step_coeff = \ super(gd_linesearch_update, self)._step_direction(p) feval = self.feval states = p.states bup = p.backup() stop = self.max_line_steps step = 0 cur_energy = feval() new_energy = np.infty while new_energy > cur_energy and step != stop: for (g, state) in zip(gr... | def _step_direction(self, p): grad, step_coeff = \ super(gd_linesearch_update, self)._step_direction(p, False) feval = self.feval states = p.states bup = p.backup() stop = self.max_line_steps step = 0 cur_energy = feval() new_energy = np.infty while new_energy > cur_energy and step != stop: for (g, state) in... | 464,846 |
def _step_direction(self, p): grad, step_coeff = \ super(gd_linesearch_update, self)._step_direction(p) feval = self.feval states = p.states bup = p.backup() stop = self.max_line_steps step = 0 cur_energy = feval() new_energy = np.infty while new_energy > cur_energy and step != stop: for (g, state) in zip(gr... | def _step_direction(self, p): grad, step_coeff = \ super(gd_linesearch_update, self)._step_direction(p) feval = self.feval states = p.states bup = p.backup() stop = self.max_line_steps step = 0 cur_energy = feval() new_energy = np.infty while step != stop: step += 1 self._perform_step(p, grad, step_coeff) ne... | 464,847 |
def _step_direction(self, p): grad, step_coeff = \ super(gd_linesearch_update, self)._step_direction(p) feval = self.feval states = p.states bup = p.backup() stop = self.max_line_steps step = 0 cur_energy = feval() new_energy = np.infty while new_energy > cur_energy and step != stop: for (g, state) in zip(gr... | def _step_direction(self, p): grad, step_coeff = \ super(gd_linesearch_update, self)._step_direction(p) feval = self.feval states = p.states bup = p.backup() stop = self.max_line_steps step = 0 cur_energy = feval() new_energy = np.infty while new_energy > cur_energy and step != stop: for (g, state) in zip(gr... | 464,848 |
def _step_direction(self, p): grad, step_coeff = \ super(gd_linesearch_update, self)._step_direction(p) feval = self.feval states = p.states bup = p.backup() stop = self.max_line_steps step = 0 cur_energy = feval() new_energy = np.infty while new_energy > cur_energy and step != stop: for (g, state) in zip(gr... | def _step_direction(self, p): grad, step_coeff = \ super(gd_linesearch_update, self)._step_direction(p) feval = self.feval states = p.states bup = p.backup() stop = self.max_line_steps step = 0 cur_energy = feval() new_energy = np.infty while new_energy > cur_energy and step != stop: for (g, state) in zip(gr... | 464,849 |
def _step_direction(self, p): grad, step_coeff = \ super(gd_linesearch_update, self)._step_direction(p) feval = self.feval states = p.states bup = p.backup() stop = self.max_line_steps step = 0 cur_energy = feval() new_energy = np.infty while new_energy > cur_energy and step != stop: for (g, state) in zip(gr... | def _step_direction(self, p): grad, step_coeff = \ super(gd_linesearch_update, self)._step_direction(p) feval = self.feval states = p.states bup = p.backup() stop = self.max_line_steps step = 0 cur_energy = feval() new_energy = np.infty while new_energy > cur_energy and step != stop: for (g, state) in zip(gr... | 464,850 |
def _step_direction(self, p): grad, step_coeff = \ super(gd_linesearch_update, self)._step_direction(p) feval = self.feval states = p.states bup = p.backup() stop = self.max_line_steps step = 0 cur_energy = feval() new_energy = np.infty while new_energy > cur_energy and step != stop: for (g, state) in zip(gr... | def _step_direction(self, p): grad, step_coeff = \ super(gd_linesearch_update, self)._step_direction(p) feval = self.feval states = p.states bup = p.backup() stop = self.max_line_steps step = 0 cur_energy = feval() new_energy = np.infty while new_energy > cur_energy and step != stop: for (g, state) in zip(gr... | 464,851 |
def __new__(cls, shape, dtype=rtype): shape = ensure_tuple(shape) if shape[0] == 1: return degen_rolling_average(shape, dtype) return object.__new__(cls) | def __new__(cls, *args): if len(args) == 0: return object.__new__(cls) shape = ensure_tuple(args[0]) dtype = rtype if len(args) < 2 else args[1] if shape[0] == 1: return degen_rolling_average(shape, dtype) return object.__new__(cls) | 464,852 |
def __new__(cls, shape, dtype=rtype): return object.__new__(cls) | def __new__(cls, *args): return object.__new__(cls) | 464,853 |
def make_wrapper(inner_name, around_fn): return lambda self, *args, **kwargs: \ around_fn(self, getattr(self, inner_name), *args, **kwargs) | def make_wrapper(inner_name, around_fn): return lambda self, *args, **kwargs: \ around_fn(self, getattr(self, inner_name), *args, **kwargs) | 464,854 |
def __new__(self, cls, *args): if not hasattr(cls, '__renames__') or not args: return base_super(cls, *args) return object.__new__(self) | def __new__(self, cls, *args): if not hasattr(cls, '__renames__') or not args: return _base_super(cls, *args) return object.__new__(self) | 464,855 |
def __init__(self, cls, obj): self.__sup = base_super(cls, obj) self.__renames = cls.__renames__ | def __init__(self, cls, obj): self.__sup = _base_super(cls, obj) self.__renames = cls.__renames__ | 464,856 |
def __getattribute__(self, name): if name.startswith('_around_super__'): return object.__getattribute__(self, name) sup = self.__sup renames = self.__renames if name in renames: name = renames[name] return getattr(sup, name) | def __getattribute__(self, name): if name.startswith('_around_super__'): return object.__getattribute__(self, name) sup = self.__sup renames = self.__renames if name in renames: name = renames[name] return getattr(sup, name) | 464,857 |
def __getattribute__(self, name): if name.startswith('_around_super__'): return object.__getattribute__(self, name) sup = self.__sup renames = self.__renames if name in renames: name = renames[name] return getattr(sup, name) | def __getattribute__(self, name): if name.startswith('_around_super__'): return object.__getattribute__(self, name) sup = self.__sup renames = self.__renames if name in renames: name = renames[name] return getattr(sup, name) | 464,858 |
def plot(ds, machine): shape_in, shape_out = ds.shape() assert (shape_in == shape_out == (1,)) inp = state((1,)); out = state((1,)); des = state((1,)) ds.seek(0) size = ds.size() coords = empty(size); outputs = empty(size); targets = empty(size) for i in xrange(size): ds.fprop(inp, des) machine.fprop(inp, out) coords[... | def plot(ds, machine): shape_in, shape_out = ds.shape() assert (shape_in == shape_out == (1,)) inp = state((1,)); out = state((1,)); des = state((1,)) ds.seek(0) size = ds.size() coords = empty(size); outputs = empty(size); targets = empty(size) for i in xrange(size): ds.fprop(inp, des) machine.fprop(inp, out) coords[... | 464,859 |
def plot(ds, machine): shape_in, shape_out = ds.shape() assert (shape_in == shape_out == (1,)) inp = state((1,)); out = state((1,)); des = state((1,)) ds.seek(0) size = ds.size() coords = empty(size); outputs = empty(size); targets = empty(size) for i in xrange(size): ds.fprop(inp, des) machine.fprop(inp, out) coords[... | def plot(ds, machine): shape_in, shape_out = ds.shape() assert (shape_in == shape_out == (1,)) inp = state((1,)); out = state((1,)); des = state((1,)) ds.seek(0) size = ds.size() coords = empty(size); outputs = empty(size); targets = empty(size) for i in xrange(size): ds.fprop(inp, des) machine.fprop(inp, out) coords[... | 464,860 |
def make_wrapper(inner_name, around_fn): return lambda self, *args, **kwargs: \ around_fn(self, getattr(self, inner_name), *args, **kwargs) | def make_wrapper(inner_name, around_fn): return lambda self, *args, **kwargs: \ around_fn(self, getattr(self, inner_name), *args, **kwargs) | 464,861 |
def __getattribute__(self, name): if name.startswith('_around_super__'): return object.__getattribute__(self, name) sup = self.__sup renames = self.__renames if name in renames: name = renames[name] return getattr(sup, name) | def __getattribute__(self, name): if name.startswith('_around_super__'): return object.__getattribute__(self, name) sup = self.__sup renames = self.__renames if name in renames: name = renames[name] return getattr(sup, name) | 464,862 |
def __getattribute__(self, name): if name.startswith('_around_super__'): return object.__getattribute__(self, name) sup = self.__sup renames = self.__renames if name in renames: name = renames[name] return getattr(sup, name) | def __getattribute__(self, name): if name.startswith('_around_super__'): return object.__getattribute__(self, name) sup = self.__sup renames = self.__renames if name in renames: name = renames[name] return getattr(sup, name) | 464,863 |
def train_online(self, niters = -1): if not self.quiet: print 'Starting training on %s%s' % \ (time.asctime(), ' (max %d iterations)' % (niters,) if niters >= 0 else '') parameter = self.parameter age = self.age msg = self.msg hess_interval = self.hess_interval report_interval = self.r... | def train_online(self, niters = -1): if not self.quiet: print 'Starting training on %s%s' % \ (time.asctime(), ' (max %d iterations)' % (niters,) if niters >= 0 else '') parameter = self.parameter age = self.age msg = self.msg hess_interval = self.hess_interval report_interval = self.r... | 464,864 |
def plot_reconstructions(ds, machine, n = 1000, orig_x=5, orig_y=5, max_x=795, scale = 1.0): shape_in, shape_out = ds.shape() assert (len(shape_in) == len(shape_out) == 2) ensure_window(title = 'PSD Reconstructions') spacing, padding = 2, 5 pic = empty((max(shape_in[0], shape_out[0]), shape_in[1] + spacing + shape_out[... | def plot_reconstructions(ds, machine, n = 1000, orig_x=5, orig_y=5, max_x=795, scale = 1.0): shape_in, shape_out = ds.shape() assert (len(shape_in) == len(shape_out) == 2) ensure_window(title = 'PSD Reconstructions') spacing, padding = 2, 5 pic = empty((max(shape_in[0], shape_out[0]), shape_in[1] + spacing + shape_out[... | 464,865 |
def plot_reconstructions(ds, machine, n = 1000, orig_x=5, orig_y=5, max_x=795, scale = 1.0): shape_in, shape_out = ds.shape() assert (len(shape_in) == len(shape_out) == 2) ensure_window(title = 'PSD Reconstructions') spacing, padding = 2, 5 pic = empty((max(shape_in[0], shape_out[0]), shape_in[1] + spacing + shape_out[... | def plot_reconstructions(ds, machine, n = 1000, orig_x=5, orig_y=5, max_x=795, scale = 1.0): shape_in, shape_out = ds.shape() assert (len(shape_in) == len(shape_out) == 2) ensure_window(title = 'PSD Reconstructions') spacing, padding = 2, 5 pic = empty((max(shape_in[0], shape_out[0]), shape_in[1] + spacing + shape_out[... | 464,866 |
def plot_reconstructions(ds, machine, n = 1000, orig_x=5, orig_y=5, max_x=795, scale = 1.0): shape_in, shape_out = ds.shape() assert (len(shape_in) == len(shape_out) == 2) ensure_window(title = 'PSD Reconstructions') spacing, padding = 2, 5 pic = empty((max(shape_in[0], shape_out[0]), shape_in[1] + spacing + shape_out[... | def plot_reconstructions(ds, machine, n = 1000, orig_x=5, orig_y=5, max_x=795, scale = 1.0): shape_in, shape_out = ds.shape() assert (len(shape_in) == len(shape_out) == 2) ensure_window(title = 'PSD Reconstructions') spacing, padding = 2, 5 pic = empty((max(shape_in[0], shape_out[0]), shape_in[1] + spacing + shape_out[... | 464,867 |
def __init__ (self): Package.__init__ (self, 'banshee-1', '1.5.3') | def __init__ (self): Package.__init__ (self, 'banshee-1', '1.5.3') | 464,868 |
def __init__ (self): Package.__init__ (self, 'mono', '2.6.1', sources = [ 'http://ftp.novell.com/pub/%{name}/sources/%{name}/%{name}-%{version}.tar.bz2' ], configure_flags = [ '--with-jit=yes', '--with-ikvm=no', '--with-mcs-docs=no', '--with-moonlight=no', '--enable-quiet-build' ] ) | def __init__ (self): Package.__init__ (self, 'mono', '2.6.1', sources = [ 'http://ftp.novell.com/pub/%{name}/sources/%{name}/%{name}-%{version}.tar.bz2', 'patches/mono-runtime-relocation.patch' ], configure_flags = [ '--with-jit=yes', '--with-ikvm=no', '--with-mcs-docs=no', '--with-moonlight=no', '--enable-quiet-build'... | 464,869 |
def __init__ (self): Package.__init__ (self, 'mono', '2.6.1', sources = [ 'http://ftp.novell.com/pub/%{name}/sources/%{name}/%{name}-%{version}.tar.bz2' ], configure_flags = [ '--with-jit=yes', '--with-ikvm=no', '--with-mcs-docs=no', '--with-moonlight=no', '--enable-quiet-build' ] ) | def def prep (self): Package.prep (self) self.sh ('patch -p1 < "%{sources[1]}"') __init__ def prep (self): Package.prep (self) self.sh ('patch -p1 < "%{sources[1]}"') (self): def prep (self): Package.prep (self) self.sh ('patch -p1 < "%{sources[1]}"') Package.__init__ def prep (self): Package.prep (self) self.sh ('p... | 464,870 |
def __init__ (self): Package.__init__ (self, 'mono', '2.6.3', sources = [ 'http://ftp.novell.com/pub/%{name}/sources/%{name}/%{name}-%{version}.tar.bz2', 'patches/mono-runtime-relocation.patch' ], configure_flags = [ '--with-jit=yes', '--with-ikvm=no', '--with-mcs-docs=no', '--with-moonlight=no', '--enable-quiet-build'... | def __init__ (self): Package.__init__ (self, 'mono', '2.6.3', sources = [ 'http://ftp.novell.com/pub/%{name}/sources/%{name}/%{name}-%{version}.tar.bz2', 'patches/mono-runtime-relocation.patch' ], configure_flags = [ '--with-jit=yes', '--with-ikvm=no', '--with-mcs-docs=no', '--with-moonlight=no', '--enable-quiet-build'... | 464,871 |
def make_app_bundle (self): plist_path = os.path.join (self.bundle_skeleton_dir, 'Contents', 'Info.plist') app_name = 'Unknown.app' plist = None if os.path.exists (plist_path): plist = Plist.fromFile (plist_path) app_name = plist['CFBundleExecutable'] else: print 'Warning: no Contents/Info.plist in .app skeleton' | def make_app_bundle (self): plist_path = os.path.join (self.bundle_skeleton_dir, 'Contents', 'Info.plist') app_name = 'Unknown.app' plist = None if os.path.exists (plist_path): plist = Plist.fromFile (plist_path) app_name = plist['CFBundleExecutable'] else: print 'Warning: no Contents/Info.plist in .app skeleton' | 464,872 |
def make_app_bundle (self): plist_path = os.path.join (self.bundle_skeleton_dir, 'Contents', 'Info.plist') app_name = 'Unknown.app' plist = None if os.path.exists (plist_path): plist = Plist.fromFile (plist_path) app_name = plist['CFBundleExecutable'] else: print 'Warning: no Contents/Info.plist in .app skeleton' | def make_app_bundle (self): plist_path = os.path.join (self.bundle_skeleton_dir, 'Contents', 'Info.plist') app_name = 'Unknown.app' plist = None if os.path.exists (plist_path): plist = Plist.fromFile (plist_path) app_name = plist['CFBundleExecutable'] else: print 'Warning: no Contents/Info.plist in .app skeleton' | 464,873 |
def __init__ (self): Package.__init__ (self, 'banshee-1', '1.5.4') | def __init__ (self): Package.__init__ (self, 'banshee-1', '1.5.4') | 464,874 |
def __init__ (self): Package.__init__ (self, 'banshee-1', '1.5.4') | def __init__ (self): Package.__init__ (self, 'banshee-1', '1.5.4') | 464,875 |
def __init__ (self): Package.__init__ (self, 'banshee-1', '1.7.3') | def __init__ (self): Package.__init__ (self, 'banshee-1', '1.7.3') | 464,876 |
def __init__ (self): Package.__init__ (self, 'banshee-1', '1.7.3') | def __init__ (self): Package.__init__ (self, 'banshee-1', '1.7.3') | 464,877 |
def __init__ (self): Package.__init__ (self, 'banshee-1', '1.7.3') | def __init__ (self): Package.__init__ (self, 'banshee-1', '1.7.3') | 464,878 |
def __init__ (self): Package.__init__ (self, 'banshee-1', '1.7.3') | def __init__ (self): Package.__init__ (self, 'banshee-1', '1.7.3') | 464,879 |
def build (self): packages_to_build = self.cmd_args self.verbose = self.cmd_options.verbose self.run_phases = self.default_run_phases | def build (self): packages_to_build = self.cmd_args self.verbose = self.cmd_options.verbose self.run_phases = self.default_run_phases | 464,880 |
def main(source, writer='mediawiki', mediaxml=False, docTitle=None): settings_overrides = { #'halt_level': 2, 'report_level': 5, #'input_encoding': 'utf-8', #'output_encoding': 'utf-8', } kw = {}; kw.setdefault('writer', WikiWriter(visitor=writer)) kw.setdefault('settings_overrides', {}) kw['settings_overrides'].upda... | def main(source, writer='mediawiki', mediaxml=False, docTitle=None): settings_overrides = { #'halt_level': 2, 'report_level': 5, #'input_encoding': 'utf-8', #'output_encoding': 'utf-8', } kw = {}; kw.setdefault('writer', WikiWriter(visitor=writer)) kw.setdefault('settings_overrides', {}) kw['settings_overrides'].upda... | 464,881 |
def compute(self, cursor, user, price_list, party, product, unit_price, quantity, uom, pattern=None, context=None): ''' Compute price based on price list of party | def compute(self, cursor, user, price_list, party, product, unit_price, quantity, uom, pattern=None, context=None): ''' Compute price based on price list of party | 464,882 |
def compute(self, price_list, party, product, unit_price, quantity, uom, pattern=None): ''' Compute price based on price list of party | def compute(self, price_list, party, product, unit_price, quantity, uom, pattern=None): ''' Compute price based on price list of party | 464,883 |
def compute(self, price_list, party, product, unit_price, quantity, uom, pattern=None): ''' Compute price based on price list of party | def compute(self, price_list, party, product, unit_price, quantity, uom, pattern=None): ''' Compute price based on price list of party | 464,884 |
def compute(self, cursor, user, price_list, party, product, unit_price, quantity, uom, pattern=None, context=None): ''' Compute price based on price list of party | def compute(self, cursor, user, price_list, party, product, unit_price, quantity, uom, pattern=None, context=None): ''' Compute price based on price list of party | 464,885 |
def run(self): # Advance state of probes that are ready for probe in self.probes: now = time.time() if not probe.next_ts <= now: continue if probe.waiting: # Last ping timed out, so back off a TTL if probe.mapping_tries == probe.max_mapping_tries: probe.mapped = True probe.max_ttl -= 1 probe.log("MAPPED mapped_ip=%s ma... | def run(self): # Advance state of probes that are ready for probe in self.probes: now = time.time() if not probe.next_ts <= now: continue if probe.waiting: # Last ping timed out, so back off a TTL if probe.mapping_tries == probe.max_mapping_tries: probe.mapped = True probe.max_ttl -= 1 probe.log("MAPPED mapped_ip=%s ma... | 464,886 |
def ping(self, addr, id=1, seq=1, ttl=255, verbose = False): addr = socket.gethostbyname(addr) packet = self.create_packet(addr, id, seq) if verbose: print "Pinging %s (id=%s seq=%s ttl=%s)" % (addr, id, seq, ttl) self.sock.setsockopt(socket.SOL_IP, socket.IP_TTL, ttl) # Python requires a tuple of (addr, port), but the... | def ping(self, addr, id=1, seq=1, ttl=255, verbose = False): addr = socket.gethostbyname(addr) packet = self.create_packet(addr, id, seq) if verbose: print "Pinging %s (id=%s seq=%s ttl=%s)" % (addr, id, seq, ttl) self.sock.setsockopt(socket.SOL_IP, socket.IP_TTL, ttl) # Python requires a tuple of (addr, port), but the... | 464,887 |
def _search_options(self): for k,v in self.search_options.items(): if callable(v): self.search_options[k]=v(self.context) return self.search_options | def _search_options(self): for k,v in self.search_options.items(): if callable(v): self.search_options[k]=v(self.context) return self.search_options | 464,888 |
def search(self, kwargs={}): self.search_util = queryUtility(ISearch) parameters = {} query = self.build_query() flares = self.search_util(query, **parameters) self.contents = [PloneFlare(f) for f in flares] | def search(self, kwargs={}): parameters = {} query = self.build_query() flares = self.search_util(query, **parameters) self.contents = [PloneFlare(f) for f in flares] | 464,889 |
def search(self, kwargs={}): self.search_util = queryUtility(ISearch) parameters = {} query = self.build_query() flares = self.search_util(query, **parameters) self.contents = [PloneFlare(f) for f in flares] | def search(self, kwargs={}): self.search_util = queryUtility(ISearch) parameters = {} query = self.build_query() flares = self.search_util(query, **parameters) self.contents = [PloneFlare(f) for f in flares] | 464,890 |
def filters(self): return [] | def filters(self): return [] | 464,891 |
def filters(self): return [] | def filters(self): return [] | 464,892 |
def filters(self): return [] | def filters(self): return [] | 464,893 |
def render_listing(self): generator = queryUtility(ITableGenerator, 'ftw.tablegenerator') return generator.generate(self.batch, self.columns, sortable=True, selected=(self.sort_on, self.sort_order), template = self.table ) | def render_listing(self): generator = queryUtility(ITableGenerator, 'ftw.tablegenerator') return generator.generate(self.batch, self.columns, sortable=True, selected=(self.sort_on, self.sort_order), template = self.table, auto_count = self.auto_count, ) | 464,894 |
def available_actions(self): """ Returns a list of available action ids """ ai_tool = getToolByName(self.context, 'portal_actions') actions = ai_tool.listActionInfos(object=self.context,categories=('folder_buttons',)) available_action_ids = [a['id'] for a in actions if a['available'] and a['visible'] and a['allowed'] ]... | def available_actions(self): """ Returns a list of available action ids """ ai_tool = getToolByName(self.context, 'portal_actions') actions = ai_tool.listActionInfos(object=self.context, categories=('folder_buttons',)) available_action_ids = [a['id'] for a in actions if a['available'] and a['visible'] and a['allowed'] ... | 464,895 |
def update(self): self.pas_tool = getToolByName(self.context, 'acl_users') kwargs = {} | defupdate(self):self.pas_tool=getToolByName(self.context,'acl_users')kwargs={} | 464,896 |
def post_search(self, kwargs): #when we're searching recursively we have to remove the current item if its in self.types if self.depth != 1 and self.context.portal_type in self.types: index = 0 current_path = '/'.join(self.context.getPhysicalPath()) for result in self.contents: if current_path == result.getPath(): sel... | defpost_search(self,kwargs):#whenwe'researchingrecursivelywehavetoremovethecurrentitemifitsinself.typesifself.depth!=1andself.context.portal_typeinself.types:index=0current_path='/'.join(self.context.getPhysicalPath())forresultinself.contents:ifcurrent_path==result.getPath():self.contents=list(self.contents)self.conten... | 464,897 |
def load_grid_state(self): """Loads the stored grid state - if any is stored. """ # get the key from the key generator generator = queryMultiAdapter((self.context, self, self.request), IGridStateStorageKeyGenerator) key = generator.get_key() | def load_grid_state(self): """Loads the stored grid state - if any is stored. """ # get the key from the key generator generator = queryMultiAdapter((self.context, self, self.request), IGridStateStorageKeyGenerator) key = generator.get_key() | 464,898 |
def load_grid_state(self): """Loads the stored grid state - if any is stored. """ # get the key from the key generator generator = queryMultiAdapter((self.context, self, self.request), IGridStateStorageKeyGenerator) key = generator.get_key() | def load_grid_state(self): """Loads the stored grid state - if any is stored. """ # get the key from the key generator generator = queryMultiAdapter((self.context, self, self.request), IGridStateStorageKeyGenerator) key = generator.get_key() | 464,899 |
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