bugged stringlengths 4 228k | fixed stringlengths 0 96.3M | __index_level_0__ int64 0 481k |
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def calibrate (links, latency, bandwidth, sizes, timings): assert len(sizes) == len(timings) if len(sizes) < 2: return None S_XY = cov(sizes, timings) S_X2 = variance(sizes) a = S_XY / S_X2 b = avg(timings) - a * avg(sizes) return (b * 1e-6) / (latency * links), 1e6 / (a * bandwidth) | def calibrate (links, latency, bandwidth, sizes, timings): assert len(sizes) == len(timings) if len(sizes) < 2: return None S_XY = cov(sizes, timings) S_X2 = variance(sizes) a = S_XY / S_X2 b = avg(timings) - a * avg(sizes) return (b * 1e-6) / (latency * links), 1e6 / (a * bandwidth) | 480,700 |
def calibrate (links, latency, bandwidth, sizes, timings): assert len(sizes) == len(timings) if len(sizes) < 2: return None S_XY = cov(sizes, timings) S_X2 = variance(sizes) a = S_XY / S_X2 b = avg(timings) - a * avg(sizes) return (b * 1e-6) / (latency * links), 1e6 / (a * bandwidth) | def calibrate (links, latency, bandwidth, sizes, timings): assert len(sizes) == len(timings) if len(sizes) < 2: return None S_XY = cov(sizes, timings) S_X2 = variance(sizes) a = S_XY / S_X2 b = avg(timings) - a * avg(sizes) return (b * 1e-6) / (latency * links), 1e6 / (a * bandwidth) | 480,701 |
def run(self): """Build tarballs and create additional files.""" if os.path.isfile("ChangeLog"): os.remove("ChangeLog") os.system("tools/generate-change-log > ChangeLog") assert os.path.isfile("ChangeLog") assert open("ChangeLog", "r").read().strip() distutils.command.sdist.sdist.run(self) basename = "nfoview-%s" % sel... | def run(self): """Build tarballs and create additional files.""" if os.path.isfile("ChangeLog"): os.remove("ChangeLog") os.system("tools/generate-change-log > ChangeLog") assert os.path.isfile("ChangeLog") assert open("ChangeLog", "r").read().strip() distutils.command.sdist.sdist.run(self) basename = "nfoview-%s" % sel... | 480,702 |
def _read_file(self, path, encoding=None): """Read and return the text of the NFO file. | def _read_file(self, path, encoding=None): """Read and return the text of the NFO file. | 480,703 |
def run_command_or_exit(command): """Run command in shell and raise SystemExit if it fails.""" if subprocess.call(command) != 0: log.error("command %s failed" % repr(command)) raise SystemExit(1) | def run_command_or_exit(command): """Run command in shell and raise SystemExit if it fails.""" if os.system(command) != 0: log.error("command %s failed" % repr(command)) raise SystemExit(1) | 480,704 |
def run_command_or_warn(command): """Run command in shell and raise SystemExit if it fails.""" if subprocess.call(command) != 0: log.warn("command %s failed" % repr(command)) | def run_command_or_warn(command): """Run command in shell and raise SystemExit if it fails.""" if os.system(command) != 0: log.warn("command %s failed" % repr(command)) | 480,705 |
def run(self): """Install everything and update the desktop file database.""" install.run(self) get_command_obj = self.distribution.get_command_obj root = get_command_obj("install").root data_dir = get_command_obj("install_data").install_dir # Assume we're actually installing if --root was not given. if (root is not No... | def run(self): """Install everything and update the desktop file database.""" install.run(self) get_command_obj = self.distribution.get_command_obj root = get_command_obj("install").root data_dir = get_command_obj("install_data").install_dir # Assume we're actually installing if --root was not given. if (root is not No... | 480,706 |
def calc_cross_points(self,cross=None): sizes = self.sizes() hasc = self.houses[0] nnode = self.planets[10] h = 0 hn = self.which_house(nnode) while hn > h: #if h == 0 and hn == 1: if hn - h == 1 and hn < self.which_house((nnode - 30) % 360): break h = (h+1)%12 hasc = self.houses[h] nnode = (nnode - 30) % 360 hn = self... | defcalc_cross_points(self,cross=None):sizes=self.sizes()hasc=self.houses[0]nnode=self.planets[10]h=0hn=self.which_house(nnode)whilehn>h:#ifh==0andhn==1:ifhn-h==1andhn<self.which_house((nnode-30)%360):breakh=(h+1)%12hasc=self.houses[h]nnode=(nnode-30)%360hn=self.which_house(nnode)dist=nnode-hasc | 480,707 |
def tap(self, x=None, y=None, z=None, zretract=None, depth=None, standoff=None, dwell_bottom=None, pitch=None, stoppos=None, spin_in=None, spin_out=None, tap_mode=None, direction=None): self.original.tap( x=x, y=y, z=self.z2(z), self.z2(zretract), depth, standoff, dwell_bottom, pitch, stoppos, spin_in, spin_out, tap_mo... | def tap(self, x=None, y=None, z=None, zretract=None, depth=None, standoff=None, dwell_bottom=None, pitch=None, stoppos=None, spin_in=None, spin_out=None, tap_mode=None, direction=None): self.original.tap( x=x, y=y, z=self.z2(z), self.z2(zretract), depth, standoff, dwell_bottom, pitch, stoppos, spin_in, spin_out, tap_mo... | 480,708 |
def Parse(self, name, oname=None): self.files_open(name,oname) #self.begin_ncblock() #self.begin_path(None) #self.add_line(z=500) #self.end_path() #self.end_ncblock() path_col = None f = None arc = 0 | def Parse(self, name, oname=None): self.files_open(name,oname) #self.begin_ncblock() #self.begin_path(None) #self.add_line(z=500) #self.end_path() #self.end_ncblock() path_col = None f = None arc = 0 | 480,709 |
def Parse(self, name, oname=None): self.files_open(name,oname) #self.begin_ncblock() #self.begin_path(None) #self.add_line(z=500) #self.end_path() #self.end_ncblock() path_col = None f = None arc = 0 | def Parse(self, name, oname=None): self.files_open(name,oname) #self.begin_ncblock() #self.begin_path(None) #self.add_line(z=500) #self.end_path() #self.end_ncblock() path_col = None f = None arc = 0 | 480,710 |
def Parse(self, name, oname=None): self.files_open(name,oname) #self.begin_ncblock() #self.begin_path(None) #self.add_line(z=500) #self.end_path() #self.end_ncblock() path_col = None f = None arc = 0 | def Parse(self, name, oname=None): self.files_open(name,oname) #self.begin_ncblock() #self.begin_path(None) #self.add_line(z=500) #self.end_path() #self.end_ncblock() path_col = None f = None arc = 0 | 480,711 |
def Parse(self, name, oname=None): self.files_open(name,oname) #self.begin_ncblock() #self.begin_path(None) #self.add_line(z=500) #self.end_path() #self.end_ncblock() path_col = None f = None arc = 0 | def Parse(self, name, oname=None): self.files_open(name,oname) #self.begin_ncblock() #self.begin_path(None) #self.add_line(z=500) #self.end_path() #self.end_ncblock() path_col = None f = None arc = 0 | 480,712 |
def Parse(self, name, oname=None): self.files_open(name,oname) #self.begin_ncblock() #self.begin_path(None) #self.add_line(z=500) #self.end_path() #self.end_ncblock() path_col = None f = None arc = 0 | def Parse(self, name, oname=None): self.files_open(name,oname) #self.begin_ncblock() #self.begin_path(None) #self.add_line(z=500) #self.end_path() #self.end_ncblock() path_col = None f = None arc = 0 | 480,713 |
def Parse(self, name, oname=None): self.files_open(name,oname) #self.begin_ncblock() #self.begin_path(None) #self.add_line(z=500) #self.end_path() #self.end_ncblock() path_col = None f = None arc = 0 | def Parse(self, name, oname=None): self.files_open(name,oname) #self.begin_ncblock() #self.begin_path(None) #self.add_line(z=500) #self.end_path() #self.end_ncblock() path_col = None f = None arc = 0 | 480,714 |
def add_roll_on(k, roll_on_k, direction, roll_radius, offset_extra, roll_on): if direction == "on": return if roll_on == None: return num_spans = kurve.num_spans(k) if num_spans == 0: return if roll_on == 'auto': sp, sx, sy, ex, ey, cx, cy = kurve.get_span(k, 0) vx, vy = kurve.get_span_dir(k, 0, 0) # get start directi... | def add_roll_on(k, roll_on_k, direction, roll_radius, offset_extra, roll_on): if direction == "on": roll_on = None num_spans = kurve.num_spans(k) if num_spans == 0: return if roll_on == 'auto': sp, sx, sy, ex, ey, cx, cy = kurve.get_span(k, 0) vx, vy = kurve.get_span_dir(k, 0, 0) # get start direction if direction == ... | 480,715 |
def add_roll_on(k, roll_on_k, direction, roll_radius, offset_extra, roll_on): if direction == "on": return if roll_on == None: return num_spans = kurve.num_spans(k) if num_spans == 0: return if roll_on == 'auto': sp, sx, sy, ex, ey, cx, cy = kurve.get_span(k, 0) vx, vy = kurve.get_span_dir(k, 0, 0) # get start directi... | def add_roll_on(k, roll_on_k, direction, roll_radius, offset_extra, roll_on): if direction == "on": return if roll_on == None: return num_spans = kurve.num_spans(k) if num_spans == 0: return sp, sx, sy, ex, ey, cx, cy = kurve.get_span(k, 0) if roll_on == None: rollstartx = sx rollstarty = sy elif roll_on == 'auto': v... | 480,716 |
def add_roll_on(k, roll_on_k, direction, roll_radius, offset_extra, roll_on): if direction == "on": return if roll_on == None: return num_spans = kurve.num_spans(k) if num_spans == 0: return if roll_on == 'auto': sp, sx, sy, ex, ey, cx, cy = kurve.get_span(k, 0) vx, vy = kurve.get_span_dir(k, 0, 0) # get start directi... | def add_roll_on(k, roll_on_k, direction, roll_radius, offset_extra, roll_on): if direction == "on": return if roll_on == None: return num_spans = kurve.num_spans(k) if num_spans == 0: return if roll_on == 'auto': sp, sx, sy, ex, ey, cx, cy = kurve.get_span(k, 0) vx, vy = kurve.get_span_dir(k, 0, 0) # get start directi... | 480,717 |
def cutcone(x_cen, y_cen, z_cen, top_r, bottom_r, depth, step_over): if top_r >= bottom_r: step_count = math.pi * top_r * 2 / step_over else: step_count = math.pi * bottom_r * 2 / step_over loop_count = 0 while (loop_count < 360): top_x = math.sin(loop_count * math.pi / 180) * top_r top_y = math.cos(loop_count * math... | def cutcone(x_cen, y_cen, z_cen, top_r, bottom_r, depth, step_over): if top_r >= bottom_r: step_count = math.pi * top_r * 2 / step_over else: step_count = math.pi * bottom_r * 2 / step_over loop_count = 0 while (loop_count < 360): top_x = math.sin(loop_count * math.pi / 180) * top_r top_y = math.cos(loop_count * math... | 480,718 |
def cutcone(x_cen, y_cen, z_cen, top_r, bottom_r, depth, step_over): if top_r >= bottom_r: step_count = math.pi * top_r * 2 / step_over else: step_count = math.pi * bottom_r * 2 / step_over loop_count = 0 while (loop_count < 360): top_x = math.sin(loop_count * math.pi / 180) * top_r top_y = math.cos(loop_count * math... | def cutcone(x_cen, y_cen, z_cen, top_r, bottom_r, depth, step_over): if top_r >= bottom_r: step_count = math.pi * top_r * 2 / step_over else: step_count = math.pi * bottom_r * 2 / step_over loop_count = 0 while (loop_count < 360): top_x = math.sin(loop_count * math.pi / 180) * top_r top_y = math.cos(loop_count * math... | 480,719 |
def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | 480,720 |
def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | 480,721 |
def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | 480,722 |
def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | 480,723 |
def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | 480,724 |
def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | 480,725 |
def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | 480,726 |
def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | 480,727 |
def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | 480,728 |
def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | 480,729 |
def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | def cone(x_cen, y_cen, z_cen, tool_id, tooldiameter, spindle_speed, horizontal_feedrate, vertical_feedrate, depth, diameter, angle, z_safe, step_over, step_down): | 480,730 |
def drill(self, x=None, y=None, z=None, depth=None, standoff=None, dwell=None, peck_depth=None, retract_mode=None, spindle_mode=None): | def drill(self, x=None, y=None, z=None, depth=None, standoff=None, dwell=None, peck_depth=None, retract_mode=None, spindle_mode=None): | 480,731 |
def cut_curve(curve, need_rapid, p, rapid_down_to_height, final_depth): prev_p = p first = True for vertex in curve.getVertices(): if need_rapid and first: # rapid across rapid(vertex.p.x, vertex.p.y) ##rapid down rapid(z = rapid_down_to_height) #feed down feed(z = final_depth) first = False else: dc = vertex.c - p... | def cut_curve(curve, need_rapid, p, rapid_down_to_height, current_start_depth, final_depth): prev_p = p first = True for vertex in curve.getVertices(): if need_rapid and first: # rapid across rapid(vertex.p.x, vertex.p.y) ##rapid down rapid(z = rapid_down_to_height) #feed down feed(z = final_depth) first = False el... | 480,732 |
def cut_curve(curve, need_rapid, p, rapid_down_to_height, final_depth): prev_p = p first = True for vertex in curve.getVertices(): if need_rapid and first: # rapid across rapid(vertex.p.x, vertex.p.y) ##rapid down rapid(z = rapid_down_to_height) #feed down feed(z = final_depth) first = False else: dc = vertex.c - p... | def cut_curve(curve, need_rapid, p, rapid_down_to_height, final_depth): prev_p = p first = True for vertex in curve.getVertices(): if need_rapid and first: # rapid across rapid(vertex.p.x, vertex.p.y) ##rapid down rapid(z = current_start_depth + rapid_down_to_height) #feed down feed(z = final_depth) first = False e... | 480,733 |
def cut_curvelist(curve_list, rapid_down_to_height, depth, clearance_height, keep_tool_down_if_poss): p = area.Point(0, 0) first = True for curve in curve_list: need_rapid = True if first == False: s = curve.FirstVertex().p if keep_tool_down_if_poss == True: # see if we can feed across if feed_possible(p, s): need_rapi... | def cut_curvelist(curve_list, rapid_down_to_height, current_start_depth, depth, clearance_height, keep_tool_down_if_poss): p = area.Point(0, 0) first = True for curve in curve_list: need_rapid = True if first == False: s = curve.FirstVertex().p if keep_tool_down_if_poss == True: # see if we can feed across if feed_poss... | 480,734 |
def cut_curvelist(curve_list, rapid_down_to_height, depth, clearance_height, keep_tool_down_if_poss): p = area.Point(0, 0) first = True for curve in curve_list: need_rapid = True if first == False: s = curve.FirstVertex().p if keep_tool_down_if_poss == True: # see if we can feed across if feed_possible(p, s): need_rapi... | def cut_curvelist(curve_list, rapid_down_to_height, depth, clearance_height, keep_tool_down_if_poss): p = area.Point(0, 0) first = True for curve in curve_list: need_rapid = True if first == False: s = curve.FirstVertex().p if keep_tool_down_if_poss == True: # see if we can feed across if feed_possible(p, s): need_rapi... | 480,735 |
def tools_run_tests(self): self.addStep(ShellCommand( workdir='tools/release/signing', command=['python', 'tests.py'], name='release_signing_tests', )) self.addStep(ShellCommand( workdir='tools/lib/python', env={'PYTHONPATH': WithProperties('%(topdir)s/tools/lib/python')}, name='run_lib_nosetests', command=['nosetests'... | def tools_run_tests(self): self.addStep(ShellCommand( workdir='tools/release/signing', command=['python', 'tests.py'], name='release_signing_tests', )) self.addStep(ShellCommand( workdir='tools/lib/python', env={'PYTHONPATH': WithProperties('%(topdir)s/tools/lib/python')}, name='run_lib_nosetests', command=['nosetests'... | 480,736 |
def createSummary(self, log): self.parent_class.createSummary(self, log) key = 'pylint-%s' % self.project if not self.build.getProperties().has_key(key): self.setProperty(key, {}) props = self.getProperty(key) for msg, fullmsg in self.MESSAGES.items(): props[fullmsg] = self.getProperty('pylint-%s' % fullmsg) props['tot... | def createSummary(self, log): self.parent_class.createSummary(self, log) key = 'pylint-%s' % self.project if not self.build.getProperties().has_key(key): self.setProperty(key, {}) props = self.getProperty(key) for msg, fullmsg in self.MESSAGES.items(): props[fullmsg] = self.getProperty('pylint-%s' % fullmsg) props['tot... | 480,737 |
def __init__(self, hgHost, **kwargs): self.parent_class = BuildFactory self.parent_class.__init__(self, **kwargs) self.hgHost = hgHost self.addStep(SetProperty(name='set_topdir', command=['pwd'], property='topdir', workdir='.', )) self.addStep(RemovePYCs(workdir=".")) | def __init__(self, hgHost, **kwargs): self.parent_class = BuildFactory self.parent_class.__init__(self, **kwargs) self.hgHost = hgHost self.addStep(SetProperty(name='set_topdir', command=['pwd'], property='topdir', workdir='.', )) self.addStep(RemovePYCs(workdir=".")) | 480,738 |
def __init__(self, hgHost, **kwargs): self.parent_class = BuildFactory self.parent_class.__init__(self, **kwargs) #self.addFactoryArguments(hgHost=hgHost) self.hgHost = hgHost self.addStep(SetProperty(name='set_topdir', command=['pwd'], property='topdir', workdir='.', )) self.addStep(ShellCommand(name='rm_pyc', command... | def__init__(self,hgHost,**kwargs):self.parent_class=BuildFactoryself.parent_class.__init__(self,**kwargs)#self.addFactoryArguments(hgHost=hgHost)self.hgHost=hgHostself.addStep(SetProperty(name='set_topdir',command=['pwd'],property='topdir',workdir='.',))self.addStep(ShellCommand(name='rm_pyc',command=['bash','-c','find... | 480,739 |
def test_masters(self): self.addStep(ShellCommand(name='test_masters', command=['./test-masters.sh', '-8'], env = { 'PYTHONPATH': WithProperties('%(topdir)s'), 'PATH': WithProperties('%(topdir)s/sandbox/bin:/bin:/usr/bin'), }, workdir="buildbot-configs", )) | def test_masters(self): self.addStep(ShellCommand(name='test_masters', command=['./test-masters.sh', '-8'], env = { 'PYTHONPATH': WithProperties('%(topdir)s:%(topdir)s/tools/lib/python'), 'PATH': WithProperties('%(topdir)s/sandbox/bin:/bin:/usr/bin'), }, workdir="buildbot-configs", )) | 480,740 |
def tools_pylint(self): # TODO: move pylintrc to tools self.addStep(PyLintExtended( command='../../../sandbox/bin/pylint --rcfile=../../.pylintrc *', workdir='tools/lib/python', flunkOnFailure=False, name='tools_lib_pylint', project='tools_lib', )) self.addStep(PyLintExtended( command='find buildbot-helpers buildfarm \... | def tools_pylint(self): # TODO: move pylintrc to tools self.addStep(PyLintExtended( command='../../../sandbox/bin/pylint --rcfile=../../.pylintrc *', workdir='tools/lib/python', name='tools_lib_pylint', project='tools_lib', )) self.addStep(PyLintExtended( command='find buildbot-helpers buildfarm \ clobberer release sta... | 480,741 |
def _get_eval(self): values = {} for field, definition in self._fields.iteritems(): if definition['type'] in ('one2many', 'many2many'): values[field] = [x.id for x in getattr(self, field) or []] else: values[field] = getattr(self, field) values['id'] = self.id return values | def _get_eval(self): values = {} for field, definition in self._fields.iteritems(): if definition['type'] in ('one2many', 'many2many'): values[field] = [x.id for x in getattr(self, field) or []] else: values[field] = getattr(self, field) values['id'] = self.id return values | 480,742 |
def generate_image(d): """ Generates an image accoording to given configuration. """ logging.debug(repr(d)) if d['imagebuilder'] not in IMAGEBUILDERS: raise Exception("Invalid imagebuilder specified!") x = OpenWrtConfig() x.setUUID(d['uuid']) x.setOpenwrtVersion(d['openwrt_ver']) x.setArch(d['arch']) x.setPortLayout(... | def generate_image(d): """ Generates an image accoording to given configuration. """ logging.debug(repr(d)) if d['imagebuilder'] not in IMAGEBUILDERS: raise Exception("Invalid imagebuilder specified!") x = OpenWrtConfig() x.setUUID(d['uuid']) x.setOpenwrtVersion(d['openwrt_ver']) x.setArch(d['arch']) x.setPortLayout(... | 480,743 |
def process_node(node_ip, ping_results, is_duped, peers, varsize_results): """ Processes a single node. @param node_ip: Node's IP address @param ping_results: Results obtained from ICMP ECHO tests @param is_duped: True if duplicate echos received @param peers: Peering info from routing daemon @param varsize_results: R... | def process_node(node_ip, ping_results, is_duped, peers, varsize_results): """ Processes a single node. @param node_ip: Node's IP address @param ping_results: Results obtained from ICMP ECHO tests @param is_duped: True if duplicate echos received @param peers: Peering info from routing daemon @param varsize_results: R... | 480,744 |
def __init__(self): """ Class constructor. """ NodeConfig.__init__(self) # Add some basic services self.addService('S35', 'misc') self.addService('K35', 'misc') | def __init__(self): """ Class constructor. """ NodeConfig.__init__(self) # Add some basic services self.addService('S46', 'misc') self.addService('K46', 'misc') | 480,745 |
def __generateMiscScript(self, f): f.write('#!/bin/sh /etc/rc.common\n') f.write('START=35') f.write('\n') f.write('STOP=35') f.write('\n') f.write('start() {\n') # Prevent the time from reseting to far into the past t = datetime.today() f.write('\tif [ ! -f /etc/datetime.save ]; then\n') f.write('\t echo -n "%02d%02... | def __generateMiscScript(self, f): f.write('#!/bin/sh /etc/rc.common\n') f.write('START=46\n') f.write('STOP=46\n') f.write('start() {\n') # Prevent the time from reseting to far into the past t = datetime.today() f.write('\tif [ ! -f /etc/datetime.save ]; then\n') f.write('\t echo -n "%02d%02d%02d%02d%04d" > /etc/da... | 480,746 |
def save(self, user): """ Completes node registration. """ ip = self.cleaned_data.get('ip') project = self.cleaned_data.get('project') pool = self.cleaned_data.get('pool') subnet = None | def save(self, user): """ Completes node registration. """ ip = self.cleaned_data.get('ip') project = self.cleaned_data.get('project') pool = self.cleaned_data.get('pool') subnet = None | 480,747 |
def to_help_string(code): """ A helper method for transforming a warning code to a human readable help string. | def to_help_string(code): """ A helper method for transforming a warning code to a human readable help string. | 480,748 |
def __generateOlsrdConfig(self, f): # Subnet configuration if self.subnets: f.write('Hna4\n') f.write('{\n') for subnet in self.subnets: if subnet['olsr'] and subnet['cidr'] < 29: f.write(' %(subnet)s %(mask)s\n' % subnet) f.write('}\n\n') # General configuration (static) f.write('AllowNoInt yes\n') f.write('UseHy... | def __generateOlsrdConfig(self, f): # Subnet configuration if self.subnets: f.write('Hna4\n') f.write('{\n') for subnet in self.subnets: if subnet['olsr'] and subnet['cidr'] < 29: f.write(' %(subnet)s %(mask)s\n' % subnet) f.write('}\n\n') # General configuration (static) f.write('AllowNoInt yes\n') f.write('UseHy... | 480,749 |
def interfaceConfiguration(name, ip): f.write('Interface "{0}"\n'.format(name)) f.write('{\n') f.write(' IPv4Multicast 255.255.255.255\n') if ip is not None: f.write(' IPv4Src {0}\n'.format(ip)) f.write(' HelloInterval 5.0\n') f.write(' HelloValidityTime 40.0\n') f.write(' TcInterval 7.0\n') f.write(' TcValidityT... | def interfaceConfiguration(name): f.write('Interface "{0}"\n'.format(name)) f.write('{\n') f.write(' IPv4Multicast 255.255.255.255\n') if ip is not None: f.write(' IPv4Src {0}\n'.format(ip)) f.write(' HelloInterval 5.0\n') f.write(' HelloValidityTime 40.0\n') f.write(' TcInterval 7.0\n') f.write(' TcValidityTime ... | 480,750 |
def interfaceConfiguration(name, ip): f.write('Interface "{0}"\n'.format(name)) f.write('{\n') f.write(' IPv4Multicast 255.255.255.255\n') if ip is not None: f.write(' IPv4Src {0}\n'.format(ip)) f.write(' HelloInterval 5.0\n') f.write(' HelloValidityTime 40.0\n') f.write(' TcInterval 7.0\n') f.write(' TcValidityT... | def interfaceConfiguration(name, ip): f.write('Interface "{0}"\n'.format(name)) f.write('{\n') f.write(' IPv4Multicast 255.255.255.255\n') f.write(' HelloInterval 5.0\n') f.write(' HelloValidityTime 40.0\n') f.write(' TcInterval 7.0\n') f.write(' TcValidityTime 161.0\n') f.write(' MidInterval 18.0\n') f.write(' ... | 480,751 |
def interfaceConfiguration(name, ip): f.write('Interface "{0}"\n'.format(name)) f.write('{\n') f.write(' IPv4Multicast 255.255.255.255\n') if ip is not None: f.write(' IPv4Src {0}\n'.format(ip)) f.write(' HelloInterval 5.0\n') f.write(' HelloValidityTime 40.0\n') f.write(' TcInterval 7.0\n') f.write(' TcValidityT... | def interfaceConfiguration(name, ip): f.write('Interface "{0}"\n'.format(name)) f.write('{\n') f.write(' IPv4Multicast 255.255.255.255\n') if ip is not None: f.write(' IPv4Src {0}\n'.format(ip)) f.write(' HelloInterval 5.0\n') f.write(' HelloValidityTime 40.0\n') f.write(' TcInterval 7.0\n') f.write(' TcValidityT... | 480,752 |
def __generateNetworkConfig(self, f): # VLAN configuration layout = portLayouts[self.portLayout] if isinstance(layout, tuple): f.write('#### VLAN configuration\n') f.write('config switch %s\n' % ("eth0" if not self.portLayout in switchIds else switchIds[self.portLayout])) f.write('\toption vlan0 "%s"\n' % layout[0]) f... | def __generateNetworkConfig(self, f): # VLAN configuration layout = portLayouts[self.portLayout] if isinstance(layout, tuple): f.write('#### VLAN configuration\n') f.write('config switch %s\n' % ("eth0" if not self.portLayout in switchIds else switchIds[self.portLayout])) f.write('\toption vlan0 "%s"\n' % layout[0]) f... | 480,753 |
def adapt_to_router_type(self): """ Ensures that new router type is compatible with current configuration. """ if not self.profile: return for entry in self.profile.template.adaptation_chain.all().order_by("priority"): cls = load_plugin(entry.class_name, required_super = RouterTransition) transition = cls() transition... | def adapt_to_router_type(self): """ Ensures that new router type is compatible with current configuration. """ from wlanlj.generator.models import Profile try: self.profile except Profile.DoesNotExist: return for entry in self.profile.template.adaptation_chain.all().order_by("priority"): cls = load_plugin(entry.class... | 480,754 |
def ensure_success(errcode): if errcode != 0: print "ERROR: Command failed to execute, aborting!" exit(1) | def ensure_success(errcode): if errcode != 0: print "ERROR: Command failed to execute, aborting!" exit(1) | 480,755 |
def ensure_success(errcode): if errcode != 0: print "ERROR: Command failed to execute, aborting!" exit(1) | def ensure_success(errcode): if errcode != 0: print "ERROR: Command failed to execute, aborting!" exit(1) | 480,756 |
def ensure_success(errcode): if errcode != 0: print "ERROR: Command failed to execute, aborting!" exit(1) | def ensure_success(errcode): if errcode != 0: print "ERROR: Command failed to execute, aborting!" exit(1) | 480,757 |
def node_type_as_string_plural(self): """ Returns node type as string. """ if self.node_type == NodeType.Mesh: return _("Mesh nodes") elif self.node_type == NodeType.Server: return _("Server nodes") elif self.node_type == NodeType.Test: return _("Test nodes") elif self.node_type == NodeType.Mobile: return _("Mobile nod... | def node_type_as_string_plural(self): """ Returns node type as string. """ if self.node_type == NodeType.Mesh: return _("Mesh nodes") elif self.node_type == NodeType.Server: return _("Server nodes") elif self.node_type == NodeType.Test: return _("Test nodes") elif self.node_type == NodeType.Mobile: return _("Mobile nod... | 480,758 |
def generate_new_node_tweet(node): if not tweets_enabled(): return try: bit_api = bitly.Api(login=settings.BITLY_LOGIN, apikey=settings.BITLY_API_KEY) twitter_api = twitter.Api(username=settings.TWITTER_USERNAME, settings.TWITTER_PASSWORD) node_link = bit_api.shorten(node.get_url()) msg = "A new node %s has just connec... | def generate_new_node_tweet(node): if not tweets_enabled(): return try: bit_api = bitly.Api(login=settings.BITLY_LOGIN, apikey=settings.BITLY_API_KEY) twitter_api = twitter.Api(username = settings.TWITTER_USERNAME, password = settings.TWITTER_PASSWORD) node_link = bit_api.shorten(node.get_url()) msg = "A new node %s ha... | 480,759 |
def process_node(node_ip, ping_results, is_duped, peers, varsize_results): """ Processes a single node. @param node_ip: Node's IP address @param ping_results: Results obtained from ICMP ECHO tests @param is_duped: True if duplicate echos received @param peers: Peering info from routing daemon @param varsize_results: R... | def process_node(node_ip, ping_results, is_duped, peers, varsize_results): """ Processes a single node. @param node_ip: Node's IP address @param ping_results: Results obtained from ICMP ECHO tests @param is_duped: True if duplicate echos received @param peers: Peering info from routing daemon @param varsize_results: R... | 480,760 |
def parse_tables(data): """ Parses the OLSR routing tables. """ isTable = False isTableHead = False currentTable = '' nodes = {} hna = {} for line in data.splitlines(): line = line.strip() if line[0:6] == 'Table:' and line[7:] in ('Topology', 'HNA', 'MID'): isTable = True isTableHead = True currentTable = line[7:] co... | def parse_tables(data): """ Parses the OLSR routing tables. """ isTable = False isTableHead = False currentTable = '' nodes = {} hna = {} for line in data.splitlines(): line = line.strip() if line[0:6] == 'Table:' and line[7:] in ('Topology', 'HNA', 'MID'): isTable = True isTableHead = True currentTable = line[7:] co... | 480,761 |
def item_link(self, item): return item.get_full_url() | def item_link(self, item): return item.get_full_url() | 480,762 |
def __str__(self): return "DS:%s:%s:%s:U:U" % (self.name, self.type, self.heartbeat) | def __str__(self): return "DS:%s:%s:%s:U:U" % (self.name, self.type, self.heartbeat) | 480,763 |
def __str__(self): return "DS:%s:%s:%s:U:U" % (self.name, self.type, self.heartbeat) | def __str__(self): return "DS:%s:%s:%s:U:U" % (self.name, self.type, self.heartbeat) | 480,764 |
def process_node(node_ip, ping_results, is_duped, peers): """ Processes a single node. @param node_ip: Node's IP address @param ping_results: Results obtained from ICMP ECHO tests @param is_duped: True if duplicate echos received @param peers: Peering info from routing daemon """ transaction.set_dirty() try: n = Node... | def process_node(node_ip, ping_results, is_duped, peers): """ Processes a single node. @param node_ip: Node's IP address @param ping_results: Results obtained from ICMP ECHO tests @param is_duped: True if duplicate echos received @param peers: Peering info from routing daemon """ transaction.set_dirty() try: n = Node... | 480,765 |
def draw_graph(graph_id, timespan): """ Draws the specified graph. @param graph_id: Graph primary key @param timespan: Timespan to draw the graph for @return: True on success, False on failure """ logger = draw_graph.get_logger() # First check that we haven't drawn this graph already result = cache.get('nodewatcher.g... | def draw_graph(graph_id, timespan): """ Draws the specified graph. @param graph_id: Graph primary key @param timespan: Timespan to draw the graph for @return: True on success, False on failure """ logger = draw_graph.get_logger() # First check that we haven't drawn this graph already result = cache.get('nodewatcher.g... | 480,766 |
def process_node(node_ip, ping_results, is_duped, peers, varsize_results): """ Processes a single node. @param node_ip: Node's IP address @param ping_results: Results obtained from ICMP ECHO tests @param is_duped: True if duplicate echos received @param peers: Peering info from routing daemon @param varsize_results: R... | def process_node(node_ip, ping_results, is_duped, peers, varsize_results): """ Processes a single node. @param node_ip: Node's IP address @param ping_results: Results obtained from ICMP ECHO tests @param is_duped: True if duplicate echos received @param peers: Peering info from routing daemon @param varsize_results: R... | 480,767 |
def check_mesh_status(): """ Performs a mesh status check. """ # Initialize the state of nodes and subnets, remove out of date ap clients and graph items Node.objects.all().update(visible = False) Subnet.objects.all().update(visible = False) APClient.objects.filter(last_update__lt = datetime.now() - timedelta(minutes ... | def check_mesh_status(): """ Performs a mesh status check. """ # Initialize the state of nodes and subnets, remove out of date ap clients and graph items Node.objects.all().update(visible = False) Subnet.objects.all().update(visible = False) APClient.objects.filter(last_update__lt = datetime.now() - timedelta(minutes ... | 480,768 |
def __init__(self, user, node, *args, **kwargs): """ Class constructor. """ super(RenumberForm, self).__init__(*args, **kwargs) self.__node = node # Use renumber with subnet only when this is possible self.fields['primary_ip'] = forms.ChoiceField( choices = [ (RenumberAction.SetManually, _("Set manually")) ], initial ... | def __init__(self, user, node, *args, **kwargs): """ Class constructor. """ super(RenumberForm, self).__init__(*args, **kwargs) self.__node = node # Use renumber with subnet only when this is possible self.fields['primary_ip'] = forms.ChoiceField( choices = [ (RenumberAction.SetManually, _("Set manually")) ], initial ... | 480,769 |
def to_help_string(code): """ A helper method for transforming a warning code to a human readable help string. | def to_help_string(code): """ A helper method for transforming a warning code to a human readable help string. | 480,770 |
def process_node(node_ip, ping_results, is_duped, peers, varsize_results): """ Processes a single node. @param node_ip: Node's IP address @param ping_results: Results obtained from ICMP ECHO tests @param is_duped: True if duplicate echos received @param peers: Peering info from routing daemon @param varsize_results: R... | def for key, value in info['solar'].iteritems(): if not value.strip(): info['solar'][key] = None process_node(node_ip, for key, value in info['solar'].iteritems(): if not value.strip(): info['solar'][key] = None ping_results, for key, value in info['solar'].iteritems(): if not value.strip(): info['solar'][key] = None... | 480,771 |
def process_node(node_ip, ping_results, is_duped, peers, varsize_results): """ Processes a single node. @param node_ip: Node's IP address @param ping_results: Results obtained from ICMP ECHO tests @param is_duped: True if duplicate echos received @param peers: Peering info from routing daemon @param varsize_results: R... | def process_node(node_ip, ping_results, is_duped, peers, varsize_results): """ Processes a single node. @param node_ip: Node's IP address @param ping_results: Results obtained from ICMP ECHO tests @param is_duped: True if duplicate echos received @param peers: Peering info from routing daemon @param varsize_results: R... | 480,772 |
def generate_image(d): """ Generates an image accoording to given configuration. """ logging.debug(repr(d)) if d['imagebuilder'] not in IMAGEBUILDERS: raise Exception("Invalid imagebuilder specified!") x = OpenWrtConfig() x.setUUID(d['uuid']) x.setOpenwrtVersion(d['openwrt_ver']) x.setArch(d['arch']) x.setPortLayout(... | def generate_image(d): """ Generates an image accoording to given configuration. """ logging.debug(repr(d)) if d['imagebuilder'] not in IMAGEBUILDERS: raise Exception("Invalid imagebuilder specified!") x = OpenWrtConfig() x.setUUID(d['uuid']) x.setOpenwrtVersion(d['openwrt_ver']) x.setArch(d['arch']) x.setPortLayout(... | 480,773 |
def setcontext(parser, token): """ Sets (updates) current template context with the rendered output of the block inside tags. """ nodelist = parser.parse(('endsetcontext',)) args = list(token.split_contents()) if len(args) != 3 or args[1] != "as": raise TemplateSyntaxError("'%s' tag expected format is 'as name'" % arg... | def setcontext(parser, token): """ Sets (updates) current template context with the rendered output of the block inside tags. """ nodelist = parser.parse(('endsetcontext',)) args = list(token.split_contents()) if len(args) != 3 or args[1] != "as": raise template.TemplateSyntaxError("'%s' tag expected format is 'as nam... | 480,774 |
def notice(parser, token): """ Renders notice. """ nodelist = parser.parse(('endnotice',)) args = list(token.split_contents()) if len(args) > 3: raise TemplateSyntaxError("'%s' tag requires at most two arguments" % args[0]) classes = args[2] if len(args) > 2 else '""' notice_type = args[1] if len(args) > 1 else '""' ... | def notice(parser, token): """ Renders notice. """ nodelist = parser.parse(('endnotice',)) args = list(token.split_contents()) if len(args) > 3: raise template.TemplateSyntaxError("'%s' tag requires at most two arguments" % args[0]) classes = args[2] if len(args) > 2 else '""' notice_type = args[1] if len(args) > 1 el... | 480,775 |
def sticker(request): """ Display a form for generating an info sticker. """ user = UserAccount.for_user(request.user) # We want disabled error to show only after POST (to be same as image generation behavior) disabled = False if request.method == 'POST': form = InfoStickerForm(request.POST) if form.is_valid(): if get... | def sticker(request): """ Display a form for generating an info sticker. """ user = UserAccount.for_user(request.user) # We want disabled error to show only after POST (to be same as image generation behavior) disabled = False if request.method == 'POST': form = InfoStickerForm(request.POST) if form.is_valid(): if get... | 480,776 |
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