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def soma(n1, n2): return n1 + n2 def subtracao(n1,n2): return n1 - n2 def multiplicacao(n1, n2): return n1 * n2 def divisao(n1, n2): return n1 / n2	def soma(n1, n2): return n1 + n2 def subtracao(n1, n2): return n1 - n2 def multiplicacao(n1, n2): return n1 * n2 def divisao(n1, n2): return n1 / n2
# noinspection PyUnusedLocal # skus = unicode string price_table = { 'A': {'Price': 50, 'Offers': ['3A', 130]}, 'B': {'Price': 30, 'Offers': ['2b', 45]}, 'C': {'Price': 20, 'Offers': []}, 'D': {'Price': 15, 'Offers': []} } def checkout(skus): if ((skus.isalpha() and skus.isupper()) or skus == ''): order_dict = build_orders(skus) running_total = 0 for order in order_dict: cur_total = get_price(order, order_dict[order]) running_total += cur_total return running_total else: return -1 def get_price(stock, units): try: item = price_table.get(stock) running_total = 0 offers = item.get('Offers', []) if item.get('Offers', []) != []: offer = int(offers[0][0]) if units >= offer: offer_quantity = int(units / int(offer)) running_total += (offers[1] * offer_quantity) units -= int(offer_quantity * offer) amount = units * item['Price'] running_total += amount return running_total except Exception as e: return 0 def build_orders(orders): order_dict = {} for order in orders: quantity = order_dict.get(order.upper(), 0) quantity += 1 order_dict.update({order.upper(): quantity}) return order_dict	price_table = {'A': {'Price': 50, 'Offers': ['3A', 130]}, 'B': {'Price': 30, 'Offers': ['2b', 45]}, 'C': {'Price': 20, 'Offers': []}, 'D': {'Price': 15, 'Offers': []}} def checkout(skus): if skus.isalpha() and skus.isupper() or skus == '': order_dict = build_orders(skus) running_total = 0 for order in order_dict: cur_total = get_price(order, order_dict[order]) running_total += cur_total return running_total else: return -1 def get_price(stock, units): try: item = price_table.get(stock) running_total = 0 offers = item.get('Offers', []) if item.get('Offers', []) != []: offer = int(offers[0][0]) if units >= offer: offer_quantity = int(units / int(offer)) running_total += offers[1] * offer_quantity units -= int(offer_quantity * offer) amount = units * item['Price'] running_total += amount return running_total except Exception as e: return 0 def build_orders(orders): order_dict = {} for order in orders: quantity = order_dict.get(order.upper(), 0) quantity += 1 order_dict.update({order.upper(): quantity}) return order_dict
def first_non_consecutive(arr: list) -> int: ''' This function returns the first element of an array that is not consecutive. ''' if len(arr) < 2: return None non_consecutive = [] for i in range(len(arr) - 1): if arr[i+1] - arr[i] != 1: non_consecutive.append(arr[i+1]) if len(non_consecutive) == 0: return None return int(''.join(map(str, non_consecutive[:1])))	def first_non_consecutive(arr: list) -> int: """ This function returns the first element of an array that is not consecutive. """ if len(arr) < 2: return None non_consecutive = [] for i in range(len(arr) - 1): if arr[i + 1] - arr[i] != 1: non_consecutive.append(arr[i + 1]) if len(non_consecutive) == 0: return None return int(''.join(map(str, non_consecutive[:1])))
try: print('enter try statement') raise Exception() print('exit try statement') except Exception as inst: print(inst.__class__.__name__)	try: print('enter try statement') raise exception() print('exit try statement') except Exception as inst: print(inst.__class__.__name__)
def solution(M, A): # write your code in Python 3.6 seen = [0] * (M + 1) count = 0 i,j = 0,0 while(i < len(A) and j < len(A)): if seen[A[j]]: seen[A[i]] = 0 i += 1 else: seen[A[j]] = 1 count += j - i + 1 j += 1 if count > 1e9: return int(1e9) return count	def solution(M, A): seen = [0] * (M + 1) count = 0 (i, j) = (0, 0) while i < len(A) and j < len(A): if seen[A[j]]: seen[A[i]] = 0 i += 1 else: seen[A[j]] = 1 count += j - i + 1 j += 1 if count > 1000000000.0: return int(1000000000.0) return count
# # PySNMP MIB module Wellfleet-DS1-MIB (http://snmplabs.com/pysmi) # ASN.1 source file:///Users/davwang4/Dev/mibs.snmplabs.com/asn1/Wellfleet-DS1-MIB # Produced by pysmi-0.3.4 at Wed May 1 15:39:54 2019 # On host DAVWANG4-M-1475 platform Darwin version 18.5.0 by user davwang4 # Using Python version 3.7.3 (default, Mar 27 2019, 09:23:15) # ObjectIdentifier, Integer, OctetString = mibBuilder.importSymbols("ASN1", "ObjectIdentifier", "Integer", "OctetString") NamedValues, = mibBuilder.importSymbols("ASN1-ENUMERATION", "NamedValues") ValueRangeConstraint, ConstraintsIntersection, ConstraintsUnion, SingleValueConstraint, ValueSizeConstraint = mibBuilder.importSymbols("ASN1-REFINEMENT", "ValueRangeConstraint", "ConstraintsIntersection", "ConstraintsUnion", "SingleValueConstraint", "ValueSizeConstraint") ModuleCompliance, NotificationGroup = mibBuilder.importSymbols("SNMPv2-CONF", "ModuleCompliance", "NotificationGroup") iso, Gauge32, Counter64, MibIdentifier, Unsigned32, Integer32, ModuleIdentity, NotificationType, ObjectIdentity, Counter32, mgmt, MibScalar, MibTable, MibTableRow, MibTableColumn, mib_2, NotificationType, IpAddress, Bits, enterprises, Opaque, TimeTicks = mibBuilder.importSymbols("SNMPv2-SMI", "iso", "Gauge32", "Counter64", "MibIdentifier", "Unsigned32", "Integer32", "ModuleIdentity", "NotificationType", "ObjectIdentity", "Counter32", "mgmt", "MibScalar", "MibTable", "MibTableRow", "MibTableColumn", "mib-2", "NotificationType", "IpAddress", "Bits", "enterprises", "Opaque", "TimeTicks") TextualConvention, DisplayString = mibBuilder.importSymbols("SNMPv2-TC", "TextualConvention", "DisplayString") wfDs1Group, = mibBuilder.importSymbols("Wellfleet-COMMON-MIB", "wfDs1Group") wfDs1Config = MibTable((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1), ) if mibBuilder.loadTexts: wfDs1Config.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1Config.setDescription('The DS1 Configuration table') wfDs1ConfigEntry = MibTableRow((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1), ).setIndexNames((0, "Wellfleet-DS1-MIB", "wfDs1LineIndex")) if mibBuilder.loadTexts: wfDs1ConfigEntry.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1ConfigEntry.setDescription('per circuit DS1 configuration objects; wfDs1LineIndex corresponds to Wellfleet circuit number') wfDs1LineIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 1024))).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1LineIndex.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1LineIndex.setDescription('this corresponds to the Wellfleet circuit number') wfDs1TimeElapsed = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1, 2), Integer32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1TimeElapsed.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1TimeElapsed.setDescription('1..900 seconds within the current 15-minute interval') wfDs1ValidIntervals = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1, 3), Integer32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1ValidIntervals.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1ValidIntervals.setDescription('0..96 previous intervals that valid data were collected. This is 96 unless the CSU device was brought on line within the last 24 hours.') wfDs1LineType = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1, 4), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(4))).clone(namedValues=NamedValues(("ds1ansi-esf", 4)))).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1LineType.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1LineType.setDescription('the variety of DS1 implementing this circuit') wfDs1ZeroCoding = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1, 5), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(2, 5))).clone(namedValues=NamedValues(("ds1b8zs", 2), ("ds1zbtsi", 5)))).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1ZeroCoding.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1ZeroCoding.setDescription('the variety of Zero Code Suppression used on the link') wfDs1SendCode = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1, 6), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(2))).clone(namedValues=NamedValues(("ds1sendnocode", 2)))).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1SendCode.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1SendCode.setDescription('the type of code being sent across the DS1 circuit by the CSU') wfDs1CircuitIdentifier = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1, 7), DisplayString()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1CircuitIdentifier.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1CircuitIdentifier.setDescription("the transmission vendor's circuit identifier") wfDs1LoopbackConfig = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1, 8), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6))).clone(namedValues=NamedValues(("ds1noloop", 1), ("ds1mgrpayloadloop", 2), ("ds1mgrlineloop", 3), ("ds1netreqpayloadloop", 4), ("ds1netreqlineloop", 5), ("ds1otherloop", 6)))).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1LoopbackConfig.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1LoopbackConfig.setDescription('the loopback state of the CSU') wfDs1LineStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1, 9), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2, 4, 8, 16, 32))).clone(namedValues=NamedValues(("ds1noalarm", 1), ("ds1farendalarm", 2), ("ds1alarmindicationsignal", 4), ("ds1lossofframe", 8), ("ds1lossofsignal", 16), ("ds1loopbackstate", 32)))).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1LineStatus.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1LineStatus.setDescription('the state of the DS1 line') wfDs1Current = MibTable((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 2), ) if mibBuilder.loadTexts: wfDs1Current.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1Current.setDescription('The DS1 Current table') wfDs1CurrentEntry = MibTableRow((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 2, 1), ).setIndexNames((0, "Wellfleet-DS1-MIB", "wfDs1CurrentIndex")) if mibBuilder.loadTexts: wfDs1CurrentEntry.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1CurrentEntry.setDescription('per circuit DS1 current objects - wfDs1CurrentIndex corresponds to Wellfleet circuit number') wfDs1CurrentIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 2, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 1024))).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1CurrentIndex.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1CurrentIndex.setDescription('this corresponds to the Wellfleet circuit number') wfDs1CurrentESs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 2, 1, 2), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1CurrentESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1CurrentESs.setDescription('the count of errored seconds in the current interval') wfDs1CurrentSESs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 2, 1, 3), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1CurrentSESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1CurrentSESs.setDescription('the count of severely errored seconds in the current interval') wfDs1CurrentSEFs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 2, 1, 4), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1CurrentSEFs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1CurrentSEFs.setDescription('the count of severely errored framing seconds in the current interval') wfDs1CurrentUASs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 2, 1, 5), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1CurrentUASs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1CurrentUASs.setDescription('the number of unavailable seconds in the current interval') wfDs1CurrentBPVs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 2, 1, 6), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1CurrentBPVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1CurrentBPVs.setDescription('the count of bipolar violations in the current interval') wfDs1CurrentCVs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 2, 1, 7), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1CurrentCVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1CurrentCVs.setDescription('the count of code violation error events in the current interval') wfDs1Interval = MibTable((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3), ) if mibBuilder.loadTexts: wfDs1Interval.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1Interval.setDescription('The DS1 Interval table') wfDs1IntervalEntry = MibTableRow((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3, 1), ).setIndexNames((0, "Wellfleet-DS1-MIB", "wfDs1IntervalIndex"), (0, "Wellfleet-DS1-MIB", "wfDs1IntervalNumber")) if mibBuilder.loadTexts: wfDs1IntervalEntry.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1IntervalEntry.setDescription('per circuit DS1 interval objects - wfDs1IntervalIndex corresponds to Wellfleet circuit number, wfDs1IntervalNumber is the numbered previous 15-minute interval') wfDs1IntervalIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 1024))).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1IntervalIndex.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1IntervalIndex.setDescription('this corresponds to the Wellfleet circuit number') wfDs1IntervalNumber = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3, 1, 2), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 96))).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1IntervalNumber.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1IntervalNumber.setDescription('1..96 where 1 is the most recent 15-minute interval and 96 is the least') wfDs1IntervalESs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3, 1, 3), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1IntervalESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1IntervalESs.setDescription('the count of errored seconds in the specified interval') wfDs1IntervalSESs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3, 1, 4), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1IntervalSESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1IntervalSESs.setDescription('the count of severely errored seconds in the specified interval') wfDs1IntervalSEFs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3, 1, 5), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1IntervalSEFs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1IntervalSEFs.setDescription('the count of severely errored framing seconds in the specified interval') wfDs1IntervalUASs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3, 1, 6), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1IntervalUASs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1IntervalUASs.setDescription('the number of unavailable seconds in the specified interval') wfDs1IntervalBPVs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3, 1, 7), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1IntervalBPVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1IntervalBPVs.setDescription('the count of bipolar violations in the specified interval') wfDs1IntervalCVs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3, 1, 8), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1IntervalCVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1IntervalCVs.setDescription('the count of code violation error events in the specified interval') wfDs1Total = MibTable((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 4), ) if mibBuilder.loadTexts: wfDs1Total.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1Total.setDescription('The DS1 Total table') wfDs1TotalEntry = MibTableRow((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 4, 1), ).setIndexNames((0, "Wellfleet-DS1-MIB", "wfDs1TotalIndex")) if mibBuilder.loadTexts: wfDs1TotalEntry.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1TotalEntry.setDescription('per circuit DS1 total objects - wfDs1TotalIndex corresponds to Wellfleet circuit number') wfDs1TotalIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 4, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 1024))).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1TotalIndex.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1TotalIndex.setDescription('this corresponds to the Wellfleet circuit number') wfDs1TotalESs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 4, 1, 2), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1TotalESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1TotalESs.setDescription('total count of errored seconds') wfDs1TotalSESs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 4, 1, 3), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1TotalSESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1TotalSESs.setDescription('total count of severely errored seconds') wfDs1TotalSEFs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 4, 1, 4), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1TotalSEFs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1TotalSEFs.setDescription('total count of severely errored framing seconds') wfDs1TotalUASs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 4, 1, 5), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1TotalUASs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1TotalUASs.setDescription('total number of unavailable seconds') wfDs1TotalBPVs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 4, 1, 6), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1TotalBPVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1TotalBPVs.setDescription('total count of bipolar violations') wfDs1TotalCVs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 4, 1, 7), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1TotalCVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1TotalCVs.setDescription('total count of code violation error events') wfDs1FeCurrent = MibTable((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 5), ) if mibBuilder.loadTexts: wfDs1FeCurrent.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeCurrent.setDescription('The DS1 Far End Current table') wfDs1FeCurrentEntry = MibTableRow((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 5, 1), ).setIndexNames((0, "Wellfleet-DS1-MIB", "wfDs1FeCurrentIndex")) if mibBuilder.loadTexts: wfDs1FeCurrentEntry.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeCurrentEntry.setDescription('per circuit DS1 far end current objects wfDs1CurrentIndex corresponds to Wellfleet circuit number') wfDs1FeCurrentIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 5, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 1024))).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeCurrentIndex.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeCurrentIndex.setDescription('this corresponds to the Wellfleet circuit number') wfDs1FeCurrentESs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 5, 1, 2), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeCurrentESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeCurrentESs.setDescription('the count of errored seconds in the current interval') wfDs1FeCurrentSESs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 5, 1, 3), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeCurrentSESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeCurrentSESs.setDescription('the count of severely errored seconds in the current interval') wfDs1FeCurrentSEFs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 5, 1, 4), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeCurrentSEFs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeCurrentSEFs.setDescription('the count of severely errored framing seconds in the current interval') wfDs1FeCurrentBPVs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 5, 1, 5), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeCurrentBPVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeCurrentBPVs.setDescription('the count of bipolar violations in the current interval') wfDs1FeCurrentCVs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 5, 1, 6), Counter32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeCurrentCVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeCurrentCVs.setDescription('the count of code violation error events in the current interval') wfDs1FeInterval = MibTable((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 6), ) if mibBuilder.loadTexts: wfDs1FeInterval.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeInterval.setDescription('The DS1 Far End Interval table') wfDs1FeIntervalEntry = MibTableRow((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 6, 1), ).setIndexNames((0, "Wellfleet-DS1-MIB", "wfDs1FeIntervalIndex"), (0, "Wellfleet-DS1-MIB", "wfDs1FeIntervalNumber")) if mibBuilder.loadTexts: wfDs1FeIntervalEntry.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeIntervalEntry.setDescription('per circuit DS1 far end interval objects - wfDs1FeIntervalIndex corresponds to Wellfleet circuit number, wfDs1FeIntervalNumber is the numbered previous 15-minute interval') wfDs1FeIntervalIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 6, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 1024))).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeIntervalIndex.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeIntervalIndex.setDescription('this corresponds to the Wellfleet circuit number') wfDs1FeIntervalNumber = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 6, 1, 2), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 96))).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeIntervalNumber.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeIntervalNumber.setDescription('1..96 where 1 is the most recent 15-minute interval and 96 is the least') wfDs1FeIntervalESs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 6, 1, 3), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeIntervalESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeIntervalESs.setDescription('the count of errored seconds in the specified interval') wfDs1FeIntervalSESs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 6, 1, 4), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeIntervalSESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeIntervalSESs.setDescription('the count of severely errored seconds in the specified interval') wfDs1FeIntervalSEFs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 6, 1, 5), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeIntervalSEFs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeIntervalSEFs.setDescription('the count of severely errored framing seconds in the specified interval') wfDs1FeIntervalBPVs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 6, 1, 6), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeIntervalBPVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeIntervalBPVs.setDescription('the count of bipolar violations in the specified interval') wfDs1FeIntervalCVs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 6, 1, 7), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeIntervalCVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeIntervalCVs.setDescription('the count of code violation error events in the specified interval') wfDs1FeTotal = MibTable((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 7), ) if mibBuilder.loadTexts: wfDs1FeTotal.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeTotal.setDescription('The DS1 Far End Total table') wfDs1FeTotalEntry = MibTableRow((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 7, 1), ).setIndexNames((0, "Wellfleet-DS1-MIB", "wfDs1FeTotalIndex")) if mibBuilder.loadTexts: wfDs1FeTotalEntry.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeTotalEntry.setDescription('per circuit DS1 far end total objects - wfDs1FeTotalIndex corresponds to Wellfleet circuit number') wfDs1FeTotalIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 7, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 1024))).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeTotalIndex.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeTotalIndex.setDescription('this corresponds to the Wellfleet circuit number') wfDs1FeTotalESs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 7, 1, 2), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeTotalESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeTotalESs.setDescription('total count of errored seconds') wfDs1FeTotalSESs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 7, 1, 3), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeTotalSESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeTotalSESs.setDescription('total count of severely errored seconds') wfDs1FeTotalSEFs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 7, 1, 4), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeTotalSEFs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeTotalSEFs.setDescription('total count of severely errored framing seconds') wfDs1FeTotalBPVs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 7, 1, 5), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeTotalBPVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeTotalBPVs.setDescription('total count of bipolar violations') wfDs1FeTotalCVs = MibTableColumn((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 7, 1, 6), Gauge32()).setMaxAccess("readonly") if mibBuilder.loadTexts: wfDs1FeTotalCVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeTotalCVs.setDescription('total count of code violation error events') mibBuilder.exportSymbols("Wellfleet-DS1-MIB", wfDs1FeIntervalNumber=wfDs1FeIntervalNumber, wfDs1Config=wfDs1Config, wfDs1CurrentIndex=wfDs1CurrentIndex, wfDs1TotalSESs=wfDs1TotalSESs, wfDs1FeIntervalIndex=wfDs1FeIntervalIndex, wfDs1IntervalUASs=wfDs1IntervalUASs, wfDs1FeTotalIndex=wfDs1FeTotalIndex, wfDs1FeTotalEntry=wfDs1FeTotalEntry, wfDs1IntervalESs=wfDs1IntervalESs, wfDs1CurrentEntry=wfDs1CurrentEntry, wfDs1CurrentCVs=wfDs1CurrentCVs, wfDs1FeTotalESs=wfDs1FeTotalESs, wfDs1LineStatus=wfDs1LineStatus, wfDs1CurrentBPVs=wfDs1CurrentBPVs, wfDs1FeIntervalSEFs=wfDs1FeIntervalSEFs, wfDs1TotalEntry=wfDs1TotalEntry, wfDs1ValidIntervals=wfDs1ValidIntervals, wfDs1IntervalCVs=wfDs1IntervalCVs, wfDs1FeCurrentEntry=wfDs1FeCurrentEntry, wfDs1IntervalNumber=wfDs1IntervalNumber, wfDs1Interval=wfDs1Interval, wfDs1TotalCVs=wfDs1TotalCVs, wfDs1FeTotal=wfDs1FeTotal, wfDs1CurrentSEFs=wfDs1CurrentSEFs, wfDs1TotalSEFs=wfDs1TotalSEFs, wfDs1CurrentESs=wfDs1CurrentESs, wfDs1LineIndex=wfDs1LineIndex, wfDs1SendCode=wfDs1SendCode, wfDs1IntervalIndex=wfDs1IntervalIndex, wfDs1ZeroCoding=wfDs1ZeroCoding, wfDs1IntervalSESs=wfDs1IntervalSESs, wfDs1CircuitIdentifier=wfDs1CircuitIdentifier, wfDs1FeTotalCVs=wfDs1FeTotalCVs, wfDs1Total=wfDs1Total, wfDs1FeCurrentESs=wfDs1FeCurrentESs, wfDs1FeInterval=wfDs1FeInterval, wfDs1FeTotalSESs=wfDs1FeTotalSESs, wfDs1FeCurrent=wfDs1FeCurrent, wfDs1FeCurrentBPVs=wfDs1FeCurrentBPVs, wfDs1FeTotalSEFs=wfDs1FeTotalSEFs, wfDs1CurrentSESs=wfDs1CurrentSESs, wfDs1IntervalBPVs=wfDs1IntervalBPVs, wfDs1FeIntervalSESs=wfDs1FeIntervalSESs, wfDs1FeIntervalBPVs=wfDs1FeIntervalBPVs, wfDs1FeIntervalCVs=wfDs1FeIntervalCVs, wfDs1FeIntervalEntry=wfDs1FeIntervalEntry, wfDs1ConfigEntry=wfDs1ConfigEntry, wfDs1TimeElapsed=wfDs1TimeElapsed, wfDs1FeTotalBPVs=wfDs1FeTotalBPVs, wfDs1FeCurrentIndex=wfDs1FeCurrentIndex, wfDs1Current=wfDs1Current, wfDs1TotalESs=wfDs1TotalESs, wfDs1CurrentUASs=wfDs1CurrentUASs, wfDs1FeIntervalESs=wfDs1FeIntervalESs, wfDs1FeCurrentSESs=wfDs1FeCurrentSESs, wfDs1LineType=wfDs1LineType, wfDs1TotalUASs=wfDs1TotalUASs, wfDs1TotalIndex=wfDs1TotalIndex, wfDs1IntervalSEFs=wfDs1IntervalSEFs, wfDs1IntervalEntry=wfDs1IntervalEntry, wfDs1FeCurrentSEFs=wfDs1FeCurrentSEFs, wfDs1FeCurrentCVs=wfDs1FeCurrentCVs, wfDs1LoopbackConfig=wfDs1LoopbackConfig, wfDs1TotalBPVs=wfDs1TotalBPVs)	(object_identifier, integer, octet_string) = mibBuilder.importSymbols('ASN1', 'ObjectIdentifier', 'Integer', 'OctetString') (named_values,) = mibBuilder.importSymbols('ASN1-ENUMERATION', 'NamedValues') (value_range_constraint, constraints_intersection, constraints_union, single_value_constraint, value_size_constraint) = mibBuilder.importSymbols('ASN1-REFINEMENT', 'ValueRangeConstraint', 'ConstraintsIntersection', 'ConstraintsUnion', 'SingleValueConstraint', 'ValueSizeConstraint') (module_compliance, notification_group) = mibBuilder.importSymbols('SNMPv2-CONF', 'ModuleCompliance', 'NotificationGroup') (iso, gauge32, counter64, mib_identifier, unsigned32, integer32, module_identity, notification_type, object_identity, counter32, mgmt, mib_scalar, mib_table, mib_table_row, mib_table_column, mib_2, notification_type, ip_address, bits, enterprises, opaque, time_ticks) = mibBuilder.importSymbols('SNMPv2-SMI', 'iso', 'Gauge32', 'Counter64', 'MibIdentifier', 'Unsigned32', 'Integer32', 'ModuleIdentity', 'NotificationType', 'ObjectIdentity', 'Counter32', 'mgmt', 'MibScalar', 'MibTable', 'MibTableRow', 'MibTableColumn', 'mib-2', 'NotificationType', 'IpAddress', 'Bits', 'enterprises', 'Opaque', 'TimeTicks') (textual_convention, display_string) = mibBuilder.importSymbols('SNMPv2-TC', 'TextualConvention', 'DisplayString') (wf_ds1_group,) = mibBuilder.importSymbols('Wellfleet-COMMON-MIB', 'wfDs1Group') wf_ds1_config = mib_table((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1)) if mibBuilder.loadTexts: wfDs1Config.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1Config.setDescription('The DS1 Configuration table') wf_ds1_config_entry = mib_table_row((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1)).setIndexNames((0, 'Wellfleet-DS1-MIB', 'wfDs1LineIndex')) if mibBuilder.loadTexts: wfDs1ConfigEntry.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1ConfigEntry.setDescription('per circuit DS1 configuration objects; wfDs1LineIndex corresponds to Wellfleet circuit number') wf_ds1_line_index = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 1024))).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1LineIndex.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1LineIndex.setDescription('this corresponds to the Wellfleet circuit number') wf_ds1_time_elapsed = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1, 2), integer32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1TimeElapsed.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1TimeElapsed.setDescription('1..900 seconds within the current 15-minute interval') wf_ds1_valid_intervals = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1, 3), integer32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1ValidIntervals.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1ValidIntervals.setDescription('0..96 previous intervals that valid data were collected. This is 96 unless the CSU device was brought on line within the last 24 hours.') wf_ds1_line_type = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1, 4), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(4))).clone(namedValues=named_values(('ds1ansi-esf', 4)))).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1LineType.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1LineType.setDescription('the variety of DS1 implementing this circuit') wf_ds1_zero_coding = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1, 5), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(2, 5))).clone(namedValues=named_values(('ds1b8zs', 2), ('ds1zbtsi', 5)))).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1ZeroCoding.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1ZeroCoding.setDescription('the variety of Zero Code Suppression used on the link') wf_ds1_send_code = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1, 6), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(2))).clone(namedValues=named_values(('ds1sendnocode', 2)))).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1SendCode.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1SendCode.setDescription('the type of code being sent across the DS1 circuit by the CSU') wf_ds1_circuit_identifier = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1, 7), display_string()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1CircuitIdentifier.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1CircuitIdentifier.setDescription("the transmission vendor's circuit identifier") wf_ds1_loopback_config = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1, 8), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2, 3, 4, 5, 6))).clone(namedValues=named_values(('ds1noloop', 1), ('ds1mgrpayloadloop', 2), ('ds1mgrlineloop', 3), ('ds1netreqpayloadloop', 4), ('ds1netreqlineloop', 5), ('ds1otherloop', 6)))).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1LoopbackConfig.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1LoopbackConfig.setDescription('the loopback state of the CSU') wf_ds1_line_status = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 1, 1, 9), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2, 4, 8, 16, 32))).clone(namedValues=named_values(('ds1noalarm', 1), ('ds1farendalarm', 2), ('ds1alarmindicationsignal', 4), ('ds1lossofframe', 8), ('ds1lossofsignal', 16), ('ds1loopbackstate', 32)))).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1LineStatus.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1LineStatus.setDescription('the state of the DS1 line') wf_ds1_current = mib_table((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 2)) if mibBuilder.loadTexts: wfDs1Current.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1Current.setDescription('The DS1 Current table') wf_ds1_current_entry = mib_table_row((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 2, 1)).setIndexNames((0, 'Wellfleet-DS1-MIB', 'wfDs1CurrentIndex')) if mibBuilder.loadTexts: wfDs1CurrentEntry.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1CurrentEntry.setDescription('per circuit DS1 current objects - wfDs1CurrentIndex corresponds to Wellfleet circuit number') wf_ds1_current_index = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 2, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 1024))).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1CurrentIndex.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1CurrentIndex.setDescription('this corresponds to the Wellfleet circuit number') wf_ds1_current_e_ss = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 2, 1, 2), counter32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1CurrentESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1CurrentESs.setDescription('the count of errored seconds in the current interval') wf_ds1_current_se_ss = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 2, 1, 3), counter32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1CurrentSESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1CurrentSESs.setDescription('the count of severely errored seconds in the current interval') wf_ds1_current_se_fs = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 2, 1, 4), counter32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1CurrentSEFs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1CurrentSEFs.setDescription('the count of severely errored framing seconds in the current interval') wf_ds1_current_ua_ss = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 2, 1, 5), counter32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1CurrentUASs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1CurrentUASs.setDescription('the number of unavailable seconds in the current interval') wf_ds1_current_bp_vs = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 2, 1, 6), counter32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1CurrentBPVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1CurrentBPVs.setDescription('the count of bipolar violations in the current interval') wf_ds1_current_c_vs = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 2, 1, 7), counter32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1CurrentCVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1CurrentCVs.setDescription('the count of code violation error events in the current interval') wf_ds1_interval = mib_table((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3)) if mibBuilder.loadTexts: wfDs1Interval.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1Interval.setDescription('The DS1 Interval table') wf_ds1_interval_entry = mib_table_row((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3, 1)).setIndexNames((0, 'Wellfleet-DS1-MIB', 'wfDs1IntervalIndex'), (0, 'Wellfleet-DS1-MIB', 'wfDs1IntervalNumber')) if mibBuilder.loadTexts: wfDs1IntervalEntry.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1IntervalEntry.setDescription('per circuit DS1 interval objects - wfDs1IntervalIndex corresponds to Wellfleet circuit number, wfDs1IntervalNumber is the numbered previous 15-minute interval') wf_ds1_interval_index = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 1024))).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1IntervalIndex.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1IntervalIndex.setDescription('this corresponds to the Wellfleet circuit number') wf_ds1_interval_number = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3, 1, 2), integer32().subtype(subtypeSpec=value_range_constraint(1, 96))).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1IntervalNumber.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1IntervalNumber.setDescription('1..96 where 1 is the most recent 15-minute interval and 96 is the least') wf_ds1_interval_e_ss = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3, 1, 3), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1IntervalESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1IntervalESs.setDescription('the count of errored seconds in the specified interval') wf_ds1_interval_se_ss = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3, 1, 4), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1IntervalSESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1IntervalSESs.setDescription('the count of severely errored seconds in the specified interval') wf_ds1_interval_se_fs = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3, 1, 5), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1IntervalSEFs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1IntervalSEFs.setDescription('the count of severely errored framing seconds in the specified interval') wf_ds1_interval_ua_ss = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3, 1, 6), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1IntervalUASs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1IntervalUASs.setDescription('the number of unavailable seconds in the specified interval') wf_ds1_interval_bp_vs = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3, 1, 7), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1IntervalBPVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1IntervalBPVs.setDescription('the count of bipolar violations in the specified interval') wf_ds1_interval_c_vs = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 3, 1, 8), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1IntervalCVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1IntervalCVs.setDescription('the count of code violation error events in the specified interval') wf_ds1_total = mib_table((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 4)) if mibBuilder.loadTexts: wfDs1Total.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1Total.setDescription('The DS1 Total table') wf_ds1_total_entry = mib_table_row((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 4, 1)).setIndexNames((0, 'Wellfleet-DS1-MIB', 'wfDs1TotalIndex')) if mibBuilder.loadTexts: wfDs1TotalEntry.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1TotalEntry.setDescription('per circuit DS1 total objects - wfDs1TotalIndex corresponds to Wellfleet circuit number') wf_ds1_total_index = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 4, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 1024))).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1TotalIndex.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1TotalIndex.setDescription('this corresponds to the Wellfleet circuit number') wf_ds1_total_e_ss = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 4, 1, 2), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1TotalESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1TotalESs.setDescription('total count of errored seconds') wf_ds1_total_se_ss = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 4, 1, 3), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1TotalSESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1TotalSESs.setDescription('total count of severely errored seconds') wf_ds1_total_se_fs = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 4, 1, 4), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1TotalSEFs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1TotalSEFs.setDescription('total count of severely errored framing seconds') wf_ds1_total_ua_ss = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 4, 1, 5), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1TotalUASs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1TotalUASs.setDescription('total number of unavailable seconds') wf_ds1_total_bp_vs = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 4, 1, 6), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1TotalBPVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1TotalBPVs.setDescription('total count of bipolar violations') wf_ds1_total_c_vs = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 4, 1, 7), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1TotalCVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1TotalCVs.setDescription('total count of code violation error events') wf_ds1_fe_current = mib_table((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 5)) if mibBuilder.loadTexts: wfDs1FeCurrent.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeCurrent.setDescription('The DS1 Far End Current table') wf_ds1_fe_current_entry = mib_table_row((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 5, 1)).setIndexNames((0, 'Wellfleet-DS1-MIB', 'wfDs1FeCurrentIndex')) if mibBuilder.loadTexts: wfDs1FeCurrentEntry.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeCurrentEntry.setDescription('per circuit DS1 far end current objects wfDs1CurrentIndex corresponds to Wellfleet circuit number') wf_ds1_fe_current_index = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 5, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 1024))).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeCurrentIndex.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeCurrentIndex.setDescription('this corresponds to the Wellfleet circuit number') wf_ds1_fe_current_e_ss = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 5, 1, 2), counter32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeCurrentESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeCurrentESs.setDescription('the count of errored seconds in the current interval') wf_ds1_fe_current_se_ss = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 5, 1, 3), counter32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeCurrentSESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeCurrentSESs.setDescription('the count of severely errored seconds in the current interval') wf_ds1_fe_current_se_fs = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 5, 1, 4), counter32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeCurrentSEFs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeCurrentSEFs.setDescription('the count of severely errored framing seconds in the current interval') wf_ds1_fe_current_bp_vs = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 5, 1, 5), counter32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeCurrentBPVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeCurrentBPVs.setDescription('the count of bipolar violations in the current interval') wf_ds1_fe_current_c_vs = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 5, 1, 6), counter32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeCurrentCVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeCurrentCVs.setDescription('the count of code violation error events in the current interval') wf_ds1_fe_interval = mib_table((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 6)) if mibBuilder.loadTexts: wfDs1FeInterval.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeInterval.setDescription('The DS1 Far End Interval table') wf_ds1_fe_interval_entry = mib_table_row((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 6, 1)).setIndexNames((0, 'Wellfleet-DS1-MIB', 'wfDs1FeIntervalIndex'), (0, 'Wellfleet-DS1-MIB', 'wfDs1FeIntervalNumber')) if mibBuilder.loadTexts: wfDs1FeIntervalEntry.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeIntervalEntry.setDescription('per circuit DS1 far end interval objects - wfDs1FeIntervalIndex corresponds to Wellfleet circuit number, wfDs1FeIntervalNumber is the numbered previous 15-minute interval') wf_ds1_fe_interval_index = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 6, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 1024))).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeIntervalIndex.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeIntervalIndex.setDescription('this corresponds to the Wellfleet circuit number') wf_ds1_fe_interval_number = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 6, 1, 2), integer32().subtype(subtypeSpec=value_range_constraint(1, 96))).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeIntervalNumber.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeIntervalNumber.setDescription('1..96 where 1 is the most recent 15-minute interval and 96 is the least') wf_ds1_fe_interval_e_ss = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 6, 1, 3), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeIntervalESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeIntervalESs.setDescription('the count of errored seconds in the specified interval') wf_ds1_fe_interval_se_ss = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 6, 1, 4), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeIntervalSESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeIntervalSESs.setDescription('the count of severely errored seconds in the specified interval') wf_ds1_fe_interval_se_fs = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 6, 1, 5), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeIntervalSEFs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeIntervalSEFs.setDescription('the count of severely errored framing seconds in the specified interval') wf_ds1_fe_interval_bp_vs = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 6, 1, 6), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeIntervalBPVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeIntervalBPVs.setDescription('the count of bipolar violations in the specified interval') wf_ds1_fe_interval_c_vs = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 6, 1, 7), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeIntervalCVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeIntervalCVs.setDescription('the count of code violation error events in the specified interval') wf_ds1_fe_total = mib_table((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 7)) if mibBuilder.loadTexts: wfDs1FeTotal.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeTotal.setDescription('The DS1 Far End Total table') wf_ds1_fe_total_entry = mib_table_row((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 7, 1)).setIndexNames((0, 'Wellfleet-DS1-MIB', 'wfDs1FeTotalIndex')) if mibBuilder.loadTexts: wfDs1FeTotalEntry.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeTotalEntry.setDescription('per circuit DS1 far end total objects - wfDs1FeTotalIndex corresponds to Wellfleet circuit number') wf_ds1_fe_total_index = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 7, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 1024))).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeTotalIndex.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeTotalIndex.setDescription('this corresponds to the Wellfleet circuit number') wf_ds1_fe_total_e_ss = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 7, 1, 2), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeTotalESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeTotalESs.setDescription('total count of errored seconds') wf_ds1_fe_total_se_ss = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 7, 1, 3), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeTotalSESs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeTotalSESs.setDescription('total count of severely errored seconds') wf_ds1_fe_total_se_fs = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 7, 1, 4), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeTotalSEFs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeTotalSEFs.setDescription('total count of severely errored framing seconds') wf_ds1_fe_total_bp_vs = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 7, 1, 5), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeTotalBPVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeTotalBPVs.setDescription('total count of bipolar violations') wf_ds1_fe_total_c_vs = mib_table_column((1, 3, 6, 1, 4, 1, 18, 3, 4, 12, 7, 1, 6), gauge32()).setMaxAccess('readonly') if mibBuilder.loadTexts: wfDs1FeTotalCVs.setStatus('mandatory') if mibBuilder.loadTexts: wfDs1FeTotalCVs.setDescription('total count of code violation error events') mibBuilder.exportSymbols('Wellfleet-DS1-MIB', wfDs1FeIntervalNumber=wfDs1FeIntervalNumber, wfDs1Config=wfDs1Config, wfDs1CurrentIndex=wfDs1CurrentIndex, wfDs1TotalSESs=wfDs1TotalSESs, wfDs1FeIntervalIndex=wfDs1FeIntervalIndex, wfDs1IntervalUASs=wfDs1IntervalUASs, wfDs1FeTotalIndex=wfDs1FeTotalIndex, wfDs1FeTotalEntry=wfDs1FeTotalEntry, wfDs1IntervalESs=wfDs1IntervalESs, wfDs1CurrentEntry=wfDs1CurrentEntry, wfDs1CurrentCVs=wfDs1CurrentCVs, wfDs1FeTotalESs=wfDs1FeTotalESs, wfDs1LineStatus=wfDs1LineStatus, wfDs1CurrentBPVs=wfDs1CurrentBPVs, wfDs1FeIntervalSEFs=wfDs1FeIntervalSEFs, wfDs1TotalEntry=wfDs1TotalEntry, wfDs1ValidIntervals=wfDs1ValidIntervals, wfDs1IntervalCVs=wfDs1IntervalCVs, wfDs1FeCurrentEntry=wfDs1FeCurrentEntry, wfDs1IntervalNumber=wfDs1IntervalNumber, wfDs1Interval=wfDs1Interval, wfDs1TotalCVs=wfDs1TotalCVs, wfDs1FeTotal=wfDs1FeTotal, wfDs1CurrentSEFs=wfDs1CurrentSEFs, wfDs1TotalSEFs=wfDs1TotalSEFs, wfDs1CurrentESs=wfDs1CurrentESs, wfDs1LineIndex=wfDs1LineIndex, wfDs1SendCode=wfDs1SendCode, wfDs1IntervalIndex=wfDs1IntervalIndex, wfDs1ZeroCoding=wfDs1ZeroCoding, wfDs1IntervalSESs=wfDs1IntervalSESs, wfDs1CircuitIdentifier=wfDs1CircuitIdentifier, wfDs1FeTotalCVs=wfDs1FeTotalCVs, wfDs1Total=wfDs1Total, wfDs1FeCurrentESs=wfDs1FeCurrentESs, wfDs1FeInterval=wfDs1FeInterval, wfDs1FeTotalSESs=wfDs1FeTotalSESs, wfDs1FeCurrent=wfDs1FeCurrent, wfDs1FeCurrentBPVs=wfDs1FeCurrentBPVs, wfDs1FeTotalSEFs=wfDs1FeTotalSEFs, wfDs1CurrentSESs=wfDs1CurrentSESs, wfDs1IntervalBPVs=wfDs1IntervalBPVs, wfDs1FeIntervalSESs=wfDs1FeIntervalSESs, wfDs1FeIntervalBPVs=wfDs1FeIntervalBPVs, wfDs1FeIntervalCVs=wfDs1FeIntervalCVs, wfDs1FeIntervalEntry=wfDs1FeIntervalEntry, wfDs1ConfigEntry=wfDs1ConfigEntry, wfDs1TimeElapsed=wfDs1TimeElapsed, wfDs1FeTotalBPVs=wfDs1FeTotalBPVs, wfDs1FeCurrentIndex=wfDs1FeCurrentIndex, wfDs1Current=wfDs1Current, wfDs1TotalESs=wfDs1TotalESs, wfDs1CurrentUASs=wfDs1CurrentUASs, wfDs1FeIntervalESs=wfDs1FeIntervalESs, wfDs1FeCurrentSESs=wfDs1FeCurrentSESs, wfDs1LineType=wfDs1LineType, wfDs1TotalUASs=wfDs1TotalUASs, wfDs1TotalIndex=wfDs1TotalIndex, wfDs1IntervalSEFs=wfDs1IntervalSEFs, wfDs1IntervalEntry=wfDs1IntervalEntry, wfDs1FeCurrentSEFs=wfDs1FeCurrentSEFs, wfDs1FeCurrentCVs=wfDs1FeCurrentCVs, wfDs1LoopbackConfig=wfDs1LoopbackConfig, wfDs1TotalBPVs=wfDs1TotalBPVs)
# args - arguments - it returns tuple # kwargs - keyword arguments - it returns dictionary def myfunc(args): print(args) myfunc(1,2,3,4,5,6,7,8,9,0) def myfunc1(**kwargs): print(kwargs) if 'fruit' in kwargs: print('my fruit of choice is {}'.format(kwargs['fruit'])) else: print('I did not find any fruit here') myfunc1(fruit='apple',veggie='lettuce')	def myfunc(args): print(args) myfunc(1, 2, 3, 4, 5, 6, 7, 8, 9, 0) def myfunc1(*kwargs): print(kwargs) if 'fruit' in kwargs: print('my fruit of choice is {}'.format(kwargs['fruit'])) else: print('I did not find any fruit here') myfunc1(fruit='apple', veggie='lettuce')
def test_get_topics(client): response = client.get("/topics/") contents = response.get_json() assert contents["status"] == "OK" assert type(contents["payload"]) is dict assert type(contents["payload"]["topics"]) is list assert type(contents["payload"]["subtopics"]) is dict assert response.status_code == 200	def test_get_topics(client): response = client.get('/topics/') contents = response.get_json() assert contents['status'] == 'OK' assert type(contents['payload']) is dict assert type(contents['payload']['topics']) is list assert type(contents['payload']['subtopics']) is dict assert response.status_code == 200
# https://practice.geeksforgeeks.org/problems/number-of-palindromic-paths-in-a-matrix0819/1# # at each node recursively call itself and at bottom,left cornet determine it its a palindrome class Solution: def rec(self, matrix, it, jt, ib, jb, cache): if it > ib or jt > jb: cache[(it, jt, ib, jb)] = 0 return 0 if matrix[it][jt] != matrix[ib][jb]: cache[(it, jt, ib, jb)] = 0 return 0 if abs(it - ib) + abs(jt - jb) < 2: cache[(it, jt, ib, jb)] = 1 return 1 coun1, count2, count3, count4 = 0,0,0,0 if cache.__contains__((it+1, jt, ib-1, jb)): count1 = cache[(it+1, jt, ib-1, jb)] else: count1 = self.rec(matrix, it+1, jt, ib-1, jb, cache) if cache.__contains__((it+1, jt, ib, jb-1)): count2 = cache[(it+1, jt, ib, jb-1)] else: count2 = self.rec(matrix, it+1, jt, ib, jb-1, cache) if cache.__contains__((it, jt+1, ib-1, jb)): count3 = cache[(it, jt+1, ib-1, jb)] else: count3 = self.rec(matrix, it, jt+1, ib-1, jb, cache) if cache.__contains__((it, jt+1, ib, jb-1)): count4 = cache[(it, jt+1, ib, jb-1)] else: count4 = self.rec(matrix, it, jt+1, ib, jb-1, cache) count = count1+count2+count3+count4 cache[(it, jt, ib, jb)] = count return count def countOfPalindromicPaths(self, matrix): return self.rec(matrix, 0, 0, len(matrix)-1, len(matrix[0])-1, {}) if __name__ == '__main__': T = int(input()) for i in range(T): n, m = input().split() n = int(n); m = int(m); matrix = [] for _ in range(n): cur = input() temp = [] for __ in cur: temp.append(__) matrix.append(temp) obj = Solution() ans = obj.countOfPalindromicPaths(matrix) print(ans)	class Solution: def rec(self, matrix, it, jt, ib, jb, cache): if it > ib or jt > jb: cache[it, jt, ib, jb] = 0 return 0 if matrix[it][jt] != matrix[ib][jb]: cache[it, jt, ib, jb] = 0 return 0 if abs(it - ib) + abs(jt - jb) < 2: cache[it, jt, ib, jb] = 1 return 1 (coun1, count2, count3, count4) = (0, 0, 0, 0) if cache.__contains__((it + 1, jt, ib - 1, jb)): count1 = cache[it + 1, jt, ib - 1, jb] else: count1 = self.rec(matrix, it + 1, jt, ib - 1, jb, cache) if cache.__contains__((it + 1, jt, ib, jb - 1)): count2 = cache[it + 1, jt, ib, jb - 1] else: count2 = self.rec(matrix, it + 1, jt, ib, jb - 1, cache) if cache.__contains__((it, jt + 1, ib - 1, jb)): count3 = cache[it, jt + 1, ib - 1, jb] else: count3 = self.rec(matrix, it, jt + 1, ib - 1, jb, cache) if cache.__contains__((it, jt + 1, ib, jb - 1)): count4 = cache[it, jt + 1, ib, jb - 1] else: count4 = self.rec(matrix, it, jt + 1, ib, jb - 1, cache) count = count1 + count2 + count3 + count4 cache[it, jt, ib, jb] = count return count def count_of_palindromic_paths(self, matrix): return self.rec(matrix, 0, 0, len(matrix) - 1, len(matrix[0]) - 1, {}) if __name__ == '__main__': t = int(input()) for i in range(T): (n, m) = input().split() n = int(n) m = int(m) matrix = [] for _ in range(n): cur = input() temp = [] for __ in cur: temp.append(__) matrix.append(temp) obj = solution() ans = obj.countOfPalindromicPaths(matrix) print(ans)
# Numbers 0 to 10 print(list(range(0,11))) print() # Even numbers 0 to 10 print(list(range(0,11,2))) print() # Odd numbers 0 to 10 print(list(range(1,11,2))) print() # Numbers 20 to 10 print(list(range(20,9,-1))) print() # Numbers 45 to 75 divisable by 5 print(list(range(45, 76, 5)))	print(list(range(0, 11))) print() print(list(range(0, 11, 2))) print() print(list(range(1, 11, 2))) print() print(list(range(20, 9, -1))) print() print(list(range(45, 76, 5)))
term_mappings = { 'Cell': 'csvw:Cell', 'Column': 'csvw:Column', 'Datatype': 'csvw:Datatype', 'Dialect': 'csvw:Dialect', 'Direction': 'csvw:Direction', 'ForeignKey': 'csvw:ForeignKey', 'JSON': 'csvw:JSON', 'NCName': 'xsd:NCName', 'NMTOKEN': 'xsd:NMTOKEN', 'Name': 'xsd:Name', 'NumericFormat': 'csvw:NumericFormat', 'QName': 'xsd:QName', 'Row': 'csvw:Row', 'Schema': 'csvw:Schema', 'Table': 'csvw:Table', 'TableGroup': 'csvw:TableGroup', 'TableReference': 'csvw:TableReference', 'Transformation': 'csvw:Transformation', 'aboutUrl': 'csvw:aboutUrl', 'any': 'xsd:anyAtomicType', 'anyAtomicType': 'xsd:anyAtomicType', 'anyURI': 'xsd:anyURI', 'as': 'https://www.w3.org/ns/activitystreams#', 'base': 'csvw:base', 'base64Binary': 'xsd:base64Binary', 'binary': 'xsd:base64Binary', 'boolean': 'xsd:boolean', 'byte': 'xsd:byte', 'cc': 'http://creativecommons.org/ns#', 'columnReference': 'csvw:columnReference', 'columns': 'csvw:column', 'commentPrefix': 'csvw:commentPrefix', 'csvw': 'http://www.w3.org/ns/csvw#', 'ctag': 'http://commontag.org/ns#', 'datatype': 'csvw:datatype', 'date': 'xsd:date', 'dateTime': 'xsd:dateTime', 'dateTimeStamp': 'xsd:dateTimeStamp', 'datetime': 'xsd:dateTime', 'dayTimeDuration': 'xsd:dayTimeDuration', 'dc': 'http://purl.org/dc/terms/', 'dc11': 'http://purl.org/dc/elements/1.1/', 'dcat': 'http://www.w3.org/ns/dcat#', 'dcterms': 'http://purl.org/dc/terms/', 'dctypes': 'http://purl.org/dc/dcmitype/', 'decimal': 'xsd:decimal', 'decimalChar': 'csvw:decimalChar', 'default': 'csvw:default', 'delimiter': 'csvw:delimiter', 'describedby': 'wrds:describedby', 'describes': 'csvw:describes', 'dialect': 'csvw:dialect', 'double': 'xsd:double', 'doubleQuote': 'csvw:doubleQuote', 'dqv': 'http://www.w3.org/ns/dqv#', 'duration': 'xsd:duration', 'duv': 'https://www.w3.org/TR/vocab-duv#', 'encoding': 'csvw:encoding', 'float': 'xsd:float', 'foaf': 'http://xmlns.com/foaf/0.1/', 'foreignKeys': 'csvw:foreignKey', 'format': 'csvw:format', 'gDay': 'xsd:gDay', 'gMonth': 'xsd:gMonth', 'gMonthDay': 'xsd:gMonthDay', 'gYear': 'xsd:gYear', 'gYearMonth': 'xsd:gYearMonth', 'gr': 'http://purl.org/goodrelations/v1#', 'grddl': 'http://www.w3.org/2003/g/data-view#', 'groupChar': 'csvw:groupChar', 'header': 'csvw:header', 'headerRowCount': 'csvw:headerRowCount', 'hexBinary': 'xsd:hexBinary', 'html': 'rdf:HTML', 'ical': 'http://www.w3.org/2002/12/cal/icaltzd#', 'int': 'xsd:int', 'integer': 'xsd:integer', 'json': 'csvw:JSON', 'lang': 'csvw:lang', 'language': 'xsd:language', 'ldp': 'http://www.w3.org/ns/ldp#', 'length': 'csvw:length', 'license': 'xhv:license', 'lineTerminators': 'csvw:lineTerminators', 'long': 'xsd:long', 'ma': 'http://www.w3.org/ns/ma-ont#', 'maxExclusive': 'csvw:maxExclusive', 'maxInclusive': 'csvw:maxInclusive', 'maxLength': 'csvw:maxLength', 'maximum': 'csvw:maxInclusive', 'minExclusive': 'csvw:minExclusive', 'minInclusive': 'csvw:minInclusive', 'minLength': 'csvw:minLength', 'minimum': 'csvw:minInclusive', 'name': 'csvw:name', 'negativeInteger': 'xsd:negativeInteger', 'nonNegativeInteger': 'xsd:nonNegativeInteger', 'nonPositiveInteger': 'xsd:nonPositiveInteger', 'normalizedString': 'xsd:normalizedString', 'notes': 'csvw:note', 'null': 'csvw:null', 'number': 'xsd:double', 'oa': 'http://www.w3.org/ns/oa#', 'og': 'http://ogp.me/ns#', 'ordered': 'csvw:ordered', 'org': 'http://www.w3.org/ns/org#', 'owl': 'http://www.w3.org/2002/07/owl#', 'pattern': 'csvw:pattern', 'positiveInteger': 'xsd:positiveInteger', 'primaryKey': 'csvw:primaryKey', 'propertyUrl': 'csvw:propertyUrl', 'prov': 'http://www.w3.org/ns/prov#', 'qb': 'http://purl.org/linked-data/cube#', 'quoteChar': 'csvw:quoteChar', 'rdf': 'http://www.w3.org/1999/02/22-rdf-syntax-ns#', 'rdfa': 'http://www.w3.org/ns/rdfa#', 'rdfs': 'http://www.w3.org/2000/01/rdf-schema#', 'reference': 'csvw:reference', 'referencedRows': 'csvw:referencedRow', 'required': 'csvw:required', 'resource': 'csvw:resource', 'rev': 'http://purl.org/stuff/rev#', 'rif': 'http://www.w3.org/2007/rif#', 'role': 'xhv:role', 'row': 'csvw:row', 'rowTitles': 'csvw:rowTitle', 'rownum': 'csvw:rownum', 'rr': 'http://www.w3.org/ns/r2rml#', 'schema': 'http://schema.org/', 'schemaReference': 'csvw:schemaReference', 'scriptFormat': 'csvw:scriptFormat', 'sd': 'http://www.w3.org/ns/sparql-service-description#', 'separator': 'csvw:separator', 'short': 'xsd:short', 'sioc': 'http://rdfs.org/sioc/ns#', 'skipBlankRows': 'csvw:skipBlankRows', 'skipColumns': 'csvw:skipColumns', 'skipInitialSpace': 'csvw:skipInitialSpace', 'skipRows': 'csvw:skipRows', 'skos': 'http://www.w3.org/2004/02/skos/core#', 'skosxl': 'http://www.w3.org/2008/05/skos-xl#', 'source': 'csvw:source', 'string': 'xsd:string', 'suppressOutput': 'csvw:suppressOutput', 'tableDirection': 'csvw:tableDirection', 'tableSchema': 'csvw:tableSchema', 'tables': 'csvw:table', 'targetFormat': 'csvw:targetFormat', 'textDirection': 'csvw:textDirection', 'time': 'xsd:time', 'titles': 'csvw:title', 'token': 'xsd:token', 'transformations': 'csvw:transformations', 'trim': 'csvw:trim', 'unsignedByte': 'xsd:unsignedByte', 'unsignedInt': 'xsd:unsignedInt', 'unsignedLong': 'xsd:unsignedLong', 'unsignedShort': 'xsd:unsignedShort', 'uriTemplate': 'csvw:uriTemplate', 'url': 'csvw:url', 'v': 'http://rdf.data-vocabulary.org/#', 'valueUrl': 'csvw:valueUrl', 'vcard': 'http://www.w3.org/2006/vcard/ns#', 'virtual': 'csvw:virtual', 'void': 'http://rdfs.org/ns/void#', 'wdr': 'http://www.w3.org/2007/05/powder#', 'wrds': 'http://www.w3.org/2007/05/powder-s#', 'xhv': 'http://www.w3.org/1999/xhtml/vocab#', 'xml': 'rdf:XMLLiteral', 'xsd': 'http://www.w3.org/2001/XMLSchema#', 'yearMonthDuration': 'xsd:yearMonthDuration', } core_group_of_tables_annotations = ['id', 'notes', 'tables'] core_table_annotations = ['columns', 'tableDirection', 'foreignKeys', 'id', 'notes', 'rows', 'schema', 'suppressOutput', 'transformations', 'url'] core_column_annotations = ['aboutUrl', 'cells', 'datatype', 'default', 'lang', 'name', 'null', 'number', 'ordered', 'propertyUrl', 'required', 'separator', 'sourceNumber', 'suppressOutput', 'table', 'textDirection', 'titles', 'valueUrl', 'virtual'] core_row_annotations = ['cells', 'number', 'primaryKey', 'titles', 'referencedRows', 'sourceNumber', 'table'] schema_description = ['columns', 'foreignKeys', 'primaryKey', 'rowTitles', '@type', '@id'] def is_non_core_annotation(name): return name not in core_group_of_tables_annotations \ and name not in core_table_annotations \ and name not in core_column_annotations \ and name not in core_row_annotations \ and name not in schema_description CONST_STANDARD_MODE = 'standard' CONST_MINIMAL_MODE = 'minimal' core_group_of_tables_properties = ['tables', 'dialect', 'notes', 'tableDirection', 'tableSchema', 'transformations', '@id', '@type', '@context'] core_table_properties = ['url', 'dialect', 'notes', 'suppressOutput', 'tableDirection', 'tableSchema', 'transformations', '@id', '@type'] inherited_properties = ['aboutUrl', 'datatype', 'default', 'lang', 'null', 'ordered', 'propertyUrl', 'required', 'separator', 'textDirection', 'valueUrl'] array_properties = ['tables', 'transformations', '@context', 'notes', 'foreignKeys', 'columns', 'lineTerminators'] array_property_item_types = { 'columns': dict, 'foreignKeys': dict, 'lineTerminators': str, 'notes': dict, 'transformations': dict, 'tables': dict, } number_datatypes = ['decimal', 'integer', 'integer', 'long', 'int', 'short', 'byte', 'nonNegativeInteger', 'positiveInteger', 'unsignedLong', 'unsignedInt', 'unsignedShort', 'unsignedByte', 'nonPositiveInteger', 'negativeInteger', 'double', 'number', 'duration', 'dayTimeDuration', 'yearMonthDuration', 'float'] date_datatypes = ['date', 'dateTime', 'datetime', 'dateTimeStamp'] fields_properties = { 'transformations': {'url': True, 'scriptFormat': True, 'targetFormat': True, 'source': False, 'titles': False, '@id': False, '@type': True}, 'tableGroup': {'tables': True, 'dialect': False, 'notes': False, 'tableDirection': False, 'tableSchema': False, 'transformations': False, '@id': False, '@type': False, '@context': True}, 'tables': {'url': True, 'dialect': False, 'notes': False, 'suppressOutput': False, 'tableDirection': False, 'transformations': False, 'tableSchema': False, '@id': False, '@type': False}, 'columns': {'name': False, 'suppressOutput': False, 'titles': False, 'virtual': False, '@id': False, '@type': False, } }	term_mappings = {'Cell': 'csvw:Cell', 'Column': 'csvw:Column', 'Datatype': 'csvw:Datatype', 'Dialect': 'csvw:Dialect', 'Direction': 'csvw:Direction', 'ForeignKey': 'csvw:ForeignKey', 'JSON': 'csvw:JSON', 'NCName': 'xsd:NCName', 'NMTOKEN': 'xsd:NMTOKEN', 'Name': 'xsd:Name', 'NumericFormat': 'csvw:NumericFormat', 'QName': 'xsd:QName', 'Row': 'csvw:Row', 'Schema': 'csvw:Schema', 'Table': 'csvw:Table', 'TableGroup': 'csvw:TableGroup', 'TableReference': 'csvw:TableReference', 'Transformation': 'csvw:Transformation', 'aboutUrl': 'csvw:aboutUrl', 'any': 'xsd:anyAtomicType', 'anyAtomicType': 'xsd:anyAtomicType', 'anyURI': 'xsd:anyURI', 'as': 'https://www.w3.org/ns/activitystreams#', 'base': 'csvw:base', 'base64Binary': 'xsd:base64Binary', 'binary': 'xsd:base64Binary', 'boolean': 'xsd:boolean', 'byte': 'xsd:byte', 'cc': 'http://creativecommons.org/ns#', 'columnReference': 'csvw:columnReference', 'columns': 'csvw:column', 'commentPrefix': 'csvw:commentPrefix', 'csvw': 'http://www.w3.org/ns/csvw#', 'ctag': 'http://commontag.org/ns#', 'datatype': 'csvw:datatype', 'date': 'xsd:date', 'dateTime': 'xsd:dateTime', 'dateTimeStamp': 'xsd:dateTimeStamp', 'datetime': 'xsd:dateTime', 'dayTimeDuration': 'xsd:dayTimeDuration', 'dc': 'http://purl.org/dc/terms/', 'dc11': 'http://purl.org/dc/elements/1.1/', 'dcat': 'http://www.w3.org/ns/dcat#', 'dcterms': 'http://purl.org/dc/terms/', 'dctypes': 'http://purl.org/dc/dcmitype/', 'decimal': 'xsd:decimal', 'decimalChar': 'csvw:decimalChar', 'default': 'csvw:default', 'delimiter': 'csvw:delimiter', 'describedby': 'wrds:describedby', 'describes': 'csvw:describes', 'dialect': 'csvw:dialect', 'double': 'xsd:double', 'doubleQuote': 'csvw:doubleQuote', 'dqv': 'http://www.w3.org/ns/dqv#', 'duration': 'xsd:duration', 'duv': 'https://www.w3.org/TR/vocab-duv#', 'encoding': 'csvw:encoding', 'float': 'xsd:float', 'foaf': 'http://xmlns.com/foaf/0.1/', 'foreignKeys': 'csvw:foreignKey', 'format': 'csvw:format', 'gDay': 'xsd:gDay', 'gMonth': 'xsd:gMonth', 'gMonthDay': 'xsd:gMonthDay', 'gYear': 'xsd:gYear', 'gYearMonth': 'xsd:gYearMonth', 'gr': 'http://purl.org/goodrelations/v1#', 'grddl': 'http://www.w3.org/2003/g/data-view#', 'groupChar': 'csvw:groupChar', 'header': 'csvw:header', 'headerRowCount': 'csvw:headerRowCount', 'hexBinary': 'xsd:hexBinary', 'html': 'rdf:HTML', 'ical': 'http://www.w3.org/2002/12/cal/icaltzd#', 'int': 'xsd:int', 'integer': 'xsd:integer', 'json': 'csvw:JSON', 'lang': 'csvw:lang', 'language': 'xsd:language', 'ldp': 'http://www.w3.org/ns/ldp#', 'length': 'csvw:length', 'license': 'xhv:license', 'lineTerminators': 'csvw:lineTerminators', 'long': 'xsd:long', 'ma': 'http://www.w3.org/ns/ma-ont#', 'maxExclusive': 'csvw:maxExclusive', 'maxInclusive': 'csvw:maxInclusive', 'maxLength': 'csvw:maxLength', 'maximum': 'csvw:maxInclusive', 'minExclusive': 'csvw:minExclusive', 'minInclusive': 'csvw:minInclusive', 'minLength': 'csvw:minLength', 'minimum': 'csvw:minInclusive', 'name': 'csvw:name', 'negativeInteger': 'xsd:negativeInteger', 'nonNegativeInteger': 'xsd:nonNegativeInteger', 'nonPositiveInteger': 'xsd:nonPositiveInteger', 'normalizedString': 'xsd:normalizedString', 'notes': 'csvw:note', 'null': 'csvw:null', 'number': 'xsd:double', 'oa': 'http://www.w3.org/ns/oa#', 'og': 'http://ogp.me/ns#', 'ordered': 'csvw:ordered', 'org': 'http://www.w3.org/ns/org#', 'owl': 'http://www.w3.org/2002/07/owl#', 'pattern': 'csvw:pattern', 'positiveInteger': 'xsd:positiveInteger', 'primaryKey': 'csvw:primaryKey', 'propertyUrl': 'csvw:propertyUrl', 'prov': 'http://www.w3.org/ns/prov#', 'qb': 'http://purl.org/linked-data/cube#', 'quoteChar': 'csvw:quoteChar', 'rdf': 'http://www.w3.org/1999/02/22-rdf-syntax-ns#', 'rdfa': 'http://www.w3.org/ns/rdfa#', 'rdfs': 'http://www.w3.org/2000/01/rdf-schema#', 'reference': 'csvw:reference', 'referencedRows': 'csvw:referencedRow', 'required': 'csvw:required', 'resource': 'csvw:resource', 'rev': 'http://purl.org/stuff/rev#', 'rif': 'http://www.w3.org/2007/rif#', 'role': 'xhv:role', 'row': 'csvw:row', 'rowTitles': 'csvw:rowTitle', 'rownum': 'csvw:rownum', 'rr': 'http://www.w3.org/ns/r2rml#', 'schema': 'http://schema.org/', 'schemaReference': 'csvw:schemaReference', 'scriptFormat': 'csvw:scriptFormat', 'sd': 'http://www.w3.org/ns/sparql-service-description#', 'separator': 'csvw:separator', 'short': 'xsd:short', 'sioc': 'http://rdfs.org/sioc/ns#', 'skipBlankRows': 'csvw:skipBlankRows', 'skipColumns': 'csvw:skipColumns', 'skipInitialSpace': 'csvw:skipInitialSpace', 'skipRows': 'csvw:skipRows', 'skos': 'http://www.w3.org/2004/02/skos/core#', 'skosxl': 'http://www.w3.org/2008/05/skos-xl#', 'source': 'csvw:source', 'string': 'xsd:string', 'suppressOutput': 'csvw:suppressOutput', 'tableDirection': 'csvw:tableDirection', 'tableSchema': 'csvw:tableSchema', 'tables': 'csvw:table', 'targetFormat': 'csvw:targetFormat', 'textDirection': 'csvw:textDirection', 'time': 'xsd:time', 'titles': 'csvw:title', 'token': 'xsd:token', 'transformations': 'csvw:transformations', 'trim': 'csvw:trim', 'unsignedByte': 'xsd:unsignedByte', 'unsignedInt': 'xsd:unsignedInt', 'unsignedLong': 'xsd:unsignedLong', 'unsignedShort': 'xsd:unsignedShort', 'uriTemplate': 'csvw:uriTemplate', 'url': 'csvw:url', 'v': 'http://rdf.data-vocabulary.org/#', 'valueUrl': 'csvw:valueUrl', 'vcard': 'http://www.w3.org/2006/vcard/ns#', 'virtual': 'csvw:virtual', 'void': 'http://rdfs.org/ns/void#', 'wdr': 'http://www.w3.org/2007/05/powder#', 'wrds': 'http://www.w3.org/2007/05/powder-s#', 'xhv': 'http://www.w3.org/1999/xhtml/vocab#', 'xml': 'rdf:XMLLiteral', 'xsd': 'http://www.w3.org/2001/XMLSchema#', 'yearMonthDuration': 'xsd:yearMonthDuration'} core_group_of_tables_annotations = ['id', 'notes', 'tables'] core_table_annotations = ['columns', 'tableDirection', 'foreignKeys', 'id', 'notes', 'rows', 'schema', 'suppressOutput', 'transformations', 'url'] core_column_annotations = ['aboutUrl', 'cells', 'datatype', 'default', 'lang', 'name', 'null', 'number', 'ordered', 'propertyUrl', 'required', 'separator', 'sourceNumber', 'suppressOutput', 'table', 'textDirection', 'titles', 'valueUrl', 'virtual'] core_row_annotations = ['cells', 'number', 'primaryKey', 'titles', 'referencedRows', 'sourceNumber', 'table'] schema_description = ['columns', 'foreignKeys', 'primaryKey', 'rowTitles', '@type', '@id'] def is_non_core_annotation(name): return name not in core_group_of_tables_annotations and name not in core_table_annotations and (name not in core_column_annotations) and (name not in core_row_annotations) and (name not in schema_description) const_standard_mode = 'standard' const_minimal_mode = 'minimal' core_group_of_tables_properties = ['tables', 'dialect', 'notes', 'tableDirection', 'tableSchema', 'transformations', '@id', '@type', '@context'] core_table_properties = ['url', 'dialect', 'notes', 'suppressOutput', 'tableDirection', 'tableSchema', 'transformations', '@id', '@type'] inherited_properties = ['aboutUrl', 'datatype', 'default', 'lang', 'null', 'ordered', 'propertyUrl', 'required', 'separator', 'textDirection', 'valueUrl'] array_properties = ['tables', 'transformations', '@context', 'notes', 'foreignKeys', 'columns', 'lineTerminators'] array_property_item_types = {'columns': dict, 'foreignKeys': dict, 'lineTerminators': str, 'notes': dict, 'transformations': dict, 'tables': dict} number_datatypes = ['decimal', 'integer', 'integer', 'long', 'int', 'short', 'byte', 'nonNegativeInteger', 'positiveInteger', 'unsignedLong', 'unsignedInt', 'unsignedShort', 'unsignedByte', 'nonPositiveInteger', 'negativeInteger', 'double', 'number', 'duration', 'dayTimeDuration', 'yearMonthDuration', 'float'] date_datatypes = ['date', 'dateTime', 'datetime', 'dateTimeStamp'] fields_properties = {'transformations': {'url': True, 'scriptFormat': True, 'targetFormat': True, 'source': False, 'titles': False, '@id': False, '@type': True}, 'tableGroup': {'tables': True, 'dialect': False, 'notes': False, 'tableDirection': False, 'tableSchema': False, 'transformations': False, '@id': False, '@type': False, '@context': True}, 'tables': {'url': True, 'dialect': False, 'notes': False, 'suppressOutput': False, 'tableDirection': False, 'transformations': False, 'tableSchema': False, '@id': False, '@type': False}, 'columns': {'name': False, 'suppressOutput': False, 'titles': False, 'virtual': False, '@id': False, '@type': False}}
expected_number_of_transactions = [ 2650, 2543, 1395, 2751, 2398, 2827, 2737, 3084, 1998, 2997, 976, 1929, 3268, 1904, 1772, 776, 2553, 2547, 2581, 2226, 2307, 2812, 2618, 177, 1538, 1990, 2323, 2613, 2503, 2140, 2542, 2291, 2782, 1994, 2513, 2773, 1359, 1744, 868, 896, 2228, 2300, 2349, 2440, 2562, 2123, 3150, 2564, 1590, 349, 2049, 1978, 2687, 2330, 1492, 1968, 2610, 2228, 1581, 2204, 1837, 2565, 2375, 2422, 1808, 2662, 2760, 1507, 2753, 2067, 2786, 1677, 2622, 2319, 17, 2144, 922, 2123, 2379, 2798, 2197, 2060, 2081, 2257, 2728, 2689, 2103, 2218, 960, 1397, 479, 913, 87, 1682, 2032, 2307, 2579, 229, 817, 1457, 1822, 1353, 907, 912, 1413, 2469, 2293, 2396, 1087, 970, 1363, 2305, 2319, 2192, 2320, 2804, 2936, 2627, 2242, 2068, 2630, 2366, 2494, 2191, 2598, 1933, 1236, 1380, 985, 2507, 2003, 586, 1223, 1120, 2119, 2401, 1706, 739, 1378, 960, 1751, 2553, 2312, 2392 ] expected_block_sizes = [ 1340282.0, 1171564.8, 1290236.0, 1374338.4, 1306336.8333333333, 1114189.7272727273, 1334556.3333333333, 1072760.4, 1190087.0, 1316951.0, 1258290.5, 1263454.6666666667, 1261141.25, 1350125.8, 1387607.0, 1215300.1666666667, 828290.3333333334, 1227950.5, 1287358.3333333333, 925557.1666666666, 1215318.111111111, 1523156.4444444445, 1278528.75, 1411428.0, 1315790.6666666667, 1019578.3, 990839.5 ] expected_hourly_transactions = [ 2650, 11914, 7819, 11074, 12455, 23563, 7067, 9257, 18048, 2564, 10983, 6070, 7850, 11832, 2760, 13412, 4480, 12479, 14076, 5518, 13503, 15208, 19508, 7490, 6722, 15560, 13791 ] expected_times_between_blocks = [ 1612, 93, 242, 1294, 1704, 586, 789, 1969, 403, 228, 116, 23, 2398, 850, 864, 340, 185, 24, 1802, 812, 203, 887, 677, 45, 194, 73, 366, 125, 76, 456, 1035, 236, 1450, 1123, 872, 1669, 110, 725, 186, 10, 85, 291, 252, 279, 1380, 180, 3919, 1201, 218, 102, 791, 257, 233, 1721, 773, 433, 2865, 343, 410, 2042, 285, 121, 1515, 851, 135, 977, 4108, 43, 1585, 177, 249, 759, 1361, 2200, 2, 530, 23, 496, 626, 459, 1125, 1305, 639, 45, 884, 47, 1069, 813, 158, 1963, 122, 239, 21, 443, 158, 1002, 807, 65, 66, 525, 461, 284, 170, 63, 172, 714, 1043, 815, 259, 184, 98, 521, 582, 922, 40, 430, 181, 431, 526, 1225, 829, 1015, 1220, 2161, 175, 1224, 347, 372, 253, 224, 699, 152, 388, 204, 162, 1277, 483, 178, 337, 68, 452, 75, 701 ] expected_transaction_values = [ 11383.94878785999, 17308.05367398, 3622.7728769900023, 9633.670801730033, 14826.62779696996, 7259.995884540011, 11203.150786679953, 29506.748038190017, 16576.26348286996, 13175.761536749957, 8641.552318090005, 4003.4319120199984, 25662.060170189954, 10444.260513739988, 7554.059845370009, 4268.25902016, 2472.864963509989, 4077.0395888499947, 12750.97627863001, 12355.883847110006, 2393.240527540009, 8622.960466979994, 5447.26763365, 87.38996292999992, 2605.2993410000067, 1471.356488039999, 3053.277851210003, 2625.0749443800064, 1072.1113604599975, 5041.109816149992, 9713.188765789986, 3266.108440949993, 11768.000924819953, 13569.830664560017, 7538.576938960003, 13569.767463059985, 844.6543596399998, 5331.023938179994, 848.165141919999, 967.1358015199999, 1010.1064013400085, 5567.299901390007, 1625.9675534700016, 2253.125553860004, 7658.386822249995, 8384.54668757001, 19206.147882259953, 4469.351264000007, 1315.0544174199972, 432.19316666, 6127.310503930018, 2066.3867831300004, 1872.9193954999962, 8815.472050029986, 2843.420696440003, 4687.6417044999835, 16042.92928003998, 1382.5175280100018, 8815.100493969989, 14234.330114909988, 1557.5183457699975, 685.3837385100013, 8590.53198090003, 4053.731241960002, 4720.6605097500005, 9639.943570420017, 11608.579181260073, 988.918982430001, 6871.058338240004, 989.8308203200012, 1580.3052625199962, 10245.606500710022, 5184.384621690003, 11088.598342719983, 8.966610300000001, 3152.560446030012, 194.15356827999992, 1916.1249402400003, 2332.781637169996, 1904.5502168199978, 4478.237747329994, 3766.84221378, 2647.122554909998, 1194.9242250000002, 3695.6209336000006, 1154.9818379700005, 9400.906267190016, 6496.324190000008, 1501.6140470199998, 19201.642837140032, 1197.2633540199993, 1833.1202640199983, 78.32123893999999, 1376.2240791900024, 976.7801730400008, 3321.5335948599977, 3486.9283997099947, 129.03544430000005, 1922.221544139999, 2939.189555250006, 5593.631477060008, 2429.757580759996, 2298.759065579999, 703.1883488999998, 1117.6024098399996, 5161.379796689989, 5459.422803130007, 4495.1067846999795, 4045.725931109999, 1516.9282807899995, 854.3813730699983, 1992.721841120003, 4143.047950169987, 5249.556289420004, 1518.8253502700004, 4252.785797819985, 1540.4489411699933, 3430.193032909998, 4144.407905429995, 6595.714538640011, 6396.9363644500345, 9235.605561159991, 8098.343213619993, 11370.341906110016, 1631.5964133900047, 7494.17682190998, 1991.0408088299973, 1646.4867985599997, 5561.463178049983, 1584.26847222, 4428.548573870004, 510.3291968700005, 1558.24513197, 2942.867825329997, 1391.3934453300005, 7026.66253513999, 3573.887328660006, 1833.9685547500019, 4669.513988809994, 587.4164939700005, 2331.6464144200054, 1765.9344505200047, 6876.602656040003, 11012.55110367002 ]	expected_number_of_transactions = [2650, 2543, 1395, 2751, 2398, 2827, 2737, 3084, 1998, 2997, 976, 1929, 3268, 1904, 1772, 776, 2553, 2547, 2581, 2226, 2307, 2812, 2618, 177, 1538, 1990, 2323, 2613, 2503, 2140, 2542, 2291, 2782, 1994, 2513, 2773, 1359, 1744, 868, 896, 2228, 2300, 2349, 2440, 2562, 2123, 3150, 2564, 1590, 349, 2049, 1978, 2687, 2330, 1492, 1968, 2610, 2228, 1581, 2204, 1837, 2565, 2375, 2422, 1808, 2662, 2760, 1507, 2753, 2067, 2786, 1677, 2622, 2319, 17, 2144, 922, 2123, 2379, 2798, 2197, 2060, 2081, 2257, 2728, 2689, 2103, 2218, 960, 1397, 479, 913, 87, 1682, 2032, 2307, 2579, 229, 817, 1457, 1822, 1353, 907, 912, 1413, 2469, 2293, 2396, 1087, 970, 1363, 2305, 2319, 2192, 2320, 2804, 2936, 2627, 2242, 2068, 2630, 2366, 2494, 2191, 2598, 1933, 1236, 1380, 985, 2507, 2003, 586, 1223, 1120, 2119, 2401, 1706, 739, 1378, 960, 1751, 2553, 2312, 2392] expected_block_sizes = [1340282.0, 1171564.8, 1290236.0, 1374338.4, 1306336.8333333333, 1114189.7272727273, 1334556.3333333333, 1072760.4, 1190087.0, 1316951.0, 1258290.5, 1263454.6666666667, 1261141.25, 1350125.8, 1387607.0, 1215300.1666666667, 828290.3333333334, 1227950.5, 1287358.3333333333, 925557.1666666666, 1215318.111111111, 1523156.4444444445, 1278528.75, 1411428.0, 1315790.6666666667, 1019578.3, 990839.5] expected_hourly_transactions = [2650, 11914, 7819, 11074, 12455, 23563, 7067, 9257, 18048, 2564, 10983, 6070, 7850, 11832, 2760, 13412, 4480, 12479, 14076, 5518, 13503, 15208, 19508, 7490, 6722, 15560, 13791] expected_times_between_blocks = [1612, 93, 242, 1294, 1704, 586, 789, 1969, 403, 228, 116, 23, 2398, 850, 864, 340, 185, 24, 1802, 812, 203, 887, 677, 45, 194, 73, 366, 125, 76, 456, 1035, 236, 1450, 1123, 872, 1669, 110, 725, 186, 10, 85, 291, 252, 279, 1380, 180, 3919, 1201, 218, 102, 791, 257, 233, 1721, 773, 433, 2865, 343, 410, 2042, 285, 121, 1515, 851, 135, 977, 4108, 43, 1585, 177, 249, 759, 1361, 2200, 2, 530, 23, 496, 626, 459, 1125, 1305, 639, 45, 884, 47, 1069, 813, 158, 1963, 122, 239, 21, 443, 158, 1002, 807, 65, 66, 525, 461, 284, 170, 63, 172, 714, 1043, 815, 259, 184, 98, 521, 582, 922, 40, 430, 181, 431, 526, 1225, 829, 1015, 1220, 2161, 175, 1224, 347, 372, 253, 224, 699, 152, 388, 204, 162, 1277, 483, 178, 337, 68, 452, 75, 701] expected_transaction_values = [11383.94878785999, 17308.05367398, 3622.7728769900023, 9633.670801730033, 14826.62779696996, 7259.995884540011, 11203.150786679953, 29506.748038190017, 16576.26348286996, 13175.761536749957, 8641.552318090005, 4003.4319120199984, 25662.060170189954, 10444.260513739988, 7554.059845370009, 4268.25902016, 2472.864963509989, 4077.0395888499947, 12750.97627863001, 12355.883847110006, 2393.240527540009, 8622.960466979994, 5447.26763365, 87.38996292999992, 2605.2993410000067, 1471.356488039999, 3053.277851210003, 2625.0749443800064, 1072.1113604599975, 5041.109816149992, 9713.188765789986, 3266.108440949993, 11768.000924819953, 13569.830664560017, 7538.576938960003, 13569.767463059985, 844.6543596399998, 5331.023938179994, 848.165141919999, 967.1358015199999, 1010.1064013400085, 5567.299901390007, 1625.9675534700016, 2253.125553860004, 7658.386822249995, 8384.54668757001, 19206.147882259953, 4469.351264000007, 1315.0544174199972, 432.19316666, 6127.310503930018, 2066.3867831300004, 1872.9193954999962, 8815.472050029986, 2843.420696440003, 4687.6417044999835, 16042.92928003998, 1382.5175280100018, 8815.100493969989, 14234.330114909988, 1557.5183457699975, 685.3837385100013, 8590.53198090003, 4053.731241960002, 4720.6605097500005, 9639.943570420017, 11608.579181260073, 988.918982430001, 6871.058338240004, 989.8308203200012, 1580.3052625199962, 10245.606500710022, 5184.384621690003, 11088.598342719983, 8.966610300000001, 3152.560446030012, 194.15356827999992, 1916.1249402400003, 2332.781637169996, 1904.5502168199978, 4478.237747329994, 3766.84221378, 2647.122554909998, 1194.9242250000002, 3695.6209336000006, 1154.9818379700005, 9400.906267190016, 6496.324190000008, 1501.6140470199998, 19201.642837140032, 1197.2633540199993, 1833.1202640199983, 78.32123893999999, 1376.2240791900024, 976.7801730400008, 3321.5335948599977, 3486.9283997099947, 129.03544430000005, 1922.221544139999, 2939.189555250006, 5593.631477060008, 2429.757580759996, 2298.759065579999, 703.1883488999998, 1117.6024098399996, 5161.379796689989, 5459.422803130007, 4495.1067846999795, 4045.725931109999, 1516.9282807899995, 854.3813730699983, 1992.721841120003, 4143.047950169987, 5249.556289420004, 1518.8253502700004, 4252.785797819985, 1540.4489411699933, 3430.193032909998, 4144.407905429995, 6595.714538640011, 6396.9363644500345, 9235.605561159991, 8098.343213619993, 11370.341906110016, 1631.5964133900047, 7494.17682190998, 1991.0408088299973, 1646.4867985599997, 5561.463178049983, 1584.26847222, 4428.548573870004, 510.3291968700005, 1558.24513197, 2942.867825329997, 1391.3934453300005, 7026.66253513999, 3573.887328660006, 1833.9685547500019, 4669.513988809994, 587.4164939700005, 2331.6464144200054, 1765.9344505200047, 6876.602656040003, 11012.55110367002]
files_c=[ 'C/Threads.c', ] files_cpp=[ 'CPP/7zip/UI/P7ZIP/wxP7ZIP.cpp', 'CPP/Common/IntToString.cpp', 'CPP/Common/MyString.cpp', 'CPP/Common/MyVector.cpp', 'CPP/Common/StringConvert.cpp', 'CPP/Windows/FileDir.cpp', 'CPP/Windows/FileFind.cpp', 'CPP/Windows/FileIO.cpp', 'CPP/Windows/FileName.cpp', 'CPP/Common/MyWindows.cpp', 'CPP/myWindows/wine_date_and_time.cpp', ]	files_c = ['C/Threads.c'] files_cpp = ['CPP/7zip/UI/P7ZIP/wxP7ZIP.cpp', 'CPP/Common/IntToString.cpp', 'CPP/Common/MyString.cpp', 'CPP/Common/MyVector.cpp', 'CPP/Common/StringConvert.cpp', 'CPP/Windows/FileDir.cpp', 'CPP/Windows/FileFind.cpp', 'CPP/Windows/FileIO.cpp', 'CPP/Windows/FileName.cpp', 'CPP/Common/MyWindows.cpp', 'CPP/myWindows/wine_date_and_time.cpp']
# Medium # https://leetcode.com/problems/spiral-matrix/ # Time Complexity: O(N) # Space Complexity: 0(1) class Solution: def spiralOrder(self, matrix: List[List[int]]) -> List[int]: return Solution.spiralsol(matrix, []) @staticmethod def spiralsol(matrix, res): m = len(matrix) if m == 0: return res n = len(matrix[0]) if n == 0: return res res += matrix[0] if m > 1: res += [matrix[i][n - 1] for i in range(1, m - 1)] res += matrix[m - 1][::-1] if n > 1: res += [matrix[i][0] for i in range(m - 2, 0, -1)] matrix = matrix[1:m - 1] for index, row in enumerate(matrix): matrix[index] = row[1:n-1] Solution.spiralsol(matrix, res) return res	class Solution: def spiral_order(self, matrix: List[List[int]]) -> List[int]: return Solution.spiralsol(matrix, []) @staticmethod def spiralsol(matrix, res): m = len(matrix) if m == 0: return res n = len(matrix[0]) if n == 0: return res res += matrix[0] if m > 1: res += [matrix[i][n - 1] for i in range(1, m - 1)] res += matrix[m - 1][::-1] if n > 1: res += [matrix[i][0] for i in range(m - 2, 0, -1)] matrix = matrix[1:m - 1] for (index, row) in enumerate(matrix): matrix[index] = row[1:n - 1] Solution.spiralsol(matrix, res) return res
# https://www.reddit.com/wiki/bottiquette omit /r/suicidewatch and /r/depression # note: lowercase for case insensitive match blacklist = [ # https://www.reddit.com/r/Bottiquette/wiki/robots_txt_json "anime", "asianamerican", "askhistorians", "askscience", "askreddit", "aww", "chicagosuburbs", "cosplay", "cumberbitches", "d3gf", "deer", "depression", "depthhub", "drinkingdollars", "forwardsfromgrandma", "geckos", "giraffes", "grindsmygears", "indianfetish", "me_irl", "misc", "movies", "mixedbreeds", "news", "newtotf2", "omaha", "petstacking", "pics", "pigs", "politicaldiscussion", "politics", "programmingcirclejerk", "raerthdev", "rants", "runningcirclejerk", "salvia", "science", "seiko", "shoplifting", "sketches", "sociopath", "suicidewatch", "talesfromtechsupport", "torrent", "torrents", "trackers", "tr4shbros", "unitedkingdom", "crucibleplaybook", "cassetteculture", "italy_SS", "DimmiOuija", # no bots allowed but not on bottiquette "todayilearned", # non-english speaking "hololive", "internetbrasil", "puebla", "chile", "saintrampalji", # needs more karma "centrist", "conspiracy", # handle timestamp in youtube title "dauntless", # timestamps usually not a skip point "speedrun", ] min_karma_dict = {"superstonk": 1200}	blacklist = ['anime', 'asianamerican', 'askhistorians', 'askscience', 'askreddit', 'aww', 'chicagosuburbs', 'cosplay', 'cumberbitches', 'd3gf', 'deer', 'depression', 'depthhub', 'drinkingdollars', 'forwardsfromgrandma', 'geckos', 'giraffes', 'grindsmygears', 'indianfetish', 'me_irl', 'misc', 'movies', 'mixedbreeds', 'news', 'newtotf2', 'omaha', 'petstacking', 'pics', 'pigs', 'politicaldiscussion', 'politics', 'programmingcirclejerk', 'raerthdev', 'rants', 'runningcirclejerk', 'salvia', 'science', 'seiko', 'shoplifting', 'sketches', 'sociopath', 'suicidewatch', 'talesfromtechsupport', 'torrent', 'torrents', 'trackers', 'tr4shbros', 'unitedkingdom', 'crucibleplaybook', 'cassetteculture', 'italy_SS', 'DimmiOuija', 'todayilearned', 'hololive', 'internetbrasil', 'puebla', 'chile', 'saintrampalji', 'centrist', 'conspiracy', 'dauntless', 'speedrun'] min_karma_dict = {'superstonk': 1200}
load("//bazel/rules/cpp:object.bzl", "cpp_object") load("//bazel/rules/hcp:hcp.bzl", "hcp") load("//bazel/rules/hcp:hcp_hdrs_derive.bzl", "hcp_hdrs_derive") def string_tree_to_static_tree_parser(name): #the file names to use target_name = name + "_string_tree_parser_dat" in_file = name + ".dat" outfile = name + "_string_tree_parser.hcp" #converting hcp to hpp/cpp native.genrule( name = target_name, srcs = [in_file], outs = [outfile], tools = ["//code/programs/transcompilers/tree_hcp/string_tree_to_static_tree_parser:string_tree_to_static_tree_parser"], cmd = "$(location //code/programs/transcompilers/tree_hcp/string_tree_to_static_tree_parser:string_tree_to_static_tree_parser) -i $(SRCS) -o $@", ) #compile hcp file #unique dep (TODO: dynamically decide) static_struct_dep = "//code/utilities/code:concept_static_tree_structs" deps = [ "//code/utilities/data_structures/tree/generic:string_tree", "//code/utilities/data_structures/tree/generic:string_to_string_tree", "//code/utilities/types/strings/transformers/appending:lib", "//code/utilities/data_structures/tree/generic/tokens:tree_token", "//code/utilities/types/vectors/observers:lib", static_struct_dep, ] hcp(name + "_string_tree_parser", deps)	load('//bazel/rules/cpp:object.bzl', 'cpp_object') load('//bazel/rules/hcp:hcp.bzl', 'hcp') load('//bazel/rules/hcp:hcp_hdrs_derive.bzl', 'hcp_hdrs_derive') def string_tree_to_static_tree_parser(name): target_name = name + '_string_tree_parser_dat' in_file = name + '.dat' outfile = name + '_string_tree_parser.hcp' native.genrule(name=target_name, srcs=[in_file], outs=[outfile], tools=['//code/programs/transcompilers/tree_hcp/string_tree_to_static_tree_parser:string_tree_to_static_tree_parser'], cmd='$(location //code/programs/transcompilers/tree_hcp/string_tree_to_static_tree_parser:string_tree_to_static_tree_parser) -i $(SRCS) -o $@') static_struct_dep = '//code/utilities/code:concept_static_tree_structs' deps = ['//code/utilities/data_structures/tree/generic:string_tree', '//code/utilities/data_structures/tree/generic:string_to_string_tree', '//code/utilities/types/strings/transformers/appending:lib', '//code/utilities/data_structures/tree/generic/tokens:tree_token', '//code/utilities/types/vectors/observers:lib', static_struct_dep] hcp(name + '_string_tree_parser', deps)
class BaseServerException(Exception): def __init__(self, detail, status_code, message): super().__init__(message) self.detail = detail self.status_code = status_code class SearchFieldRequiered(BaseServerException): def __init__(self): super().__init__(detail='entity', status_code=404, message='Search field required')	class Baseserverexception(Exception): def __init__(self, detail, status_code, message): super().__init__(message) self.detail = detail self.status_code = status_code class Searchfieldrequiered(BaseServerException): def __init__(self): super().__init__(detail='entity', status_code=404, message='Search field required')
class Solution: def nextGreaterElement(self, n: int) -> int: s = list(str(n)) i = len(s) - 1 while i - 1 >= 0 and s[i - 1] >= s[i]: i -= 1 if i == 0: return -1 j = len(s) - 1 while s[j] <= s[i - 1]: j -= 1 s[i - 1], s[j] = s[j], s[i - 1] s[i:] = s[i:][::-1] res = int(''.join(s)) if res <= 2 ** 31 - 1: return res return -1	class Solution: def next_greater_element(self, n: int) -> int: s = list(str(n)) i = len(s) - 1 while i - 1 >= 0 and s[i - 1] >= s[i]: i -= 1 if i == 0: return -1 j = len(s) - 1 while s[j] <= s[i - 1]: j -= 1 (s[i - 1], s[j]) = (s[j], s[i - 1]) s[i:] = s[i:][::-1] res = int(''.join(s)) if res <= 2 ** 31 - 1: return res return -1
class MyrialCompileException(Exception): pass class MyrialUnexpectedEndOfFileException(MyrialCompileException): def __str__(self): return "Unexpected end-of-file" class MyrialParseException(MyrialCompileException): def __init__(self, token): self.token = token def __str__(self): return 'Parse error at token %s on line %d' % (self.token.value, self.token.lineno) class MyrialScanException(MyrialCompileException): def __init__(self, token): self.token = token def __str__(self): return 'Illegal token string %s on line %d' % (self.token.value, self.token.lineno) class DuplicateFunctionDefinitionException(MyrialCompileException): def __init__(self, funcname, lineno): self.funcname = funcname self.lineno = lineno def __str__(self): return 'Duplicate function definition for %s on line %d' % (self.funcname, # noqa self.lineno) # noqa class NoSuchFunctionException(MyrialCompileException): def __init__(self, funcname, lineno): self.funcname = funcname self.lineno = lineno def __str__(self): return 'No such function definition for %s on line %d' % (self.funcname, # noqa self.lineno) # noqa class ReservedTokenException(MyrialCompileException): def __init__(self, token, lineno): self.token = token self.lineno = lineno def __str__(self): return 'The token "%s" on line %d is reserved.' % (self.token, self.lineno) # noqa class InvalidArgumentList(MyrialCompileException): def __init__(self, funcname, expected_args, lineno): self.funcname = funcname self.expected_args = expected_args self.lineno = lineno def __str__(self): return "Incorrect number of arguments for %s(%s) on line %d" % ( self.funcname, ','.join(self.expected_args), self.lineno) class UndefinedVariableException(MyrialCompileException): def __init__(self, funcname, var, lineno): self.funcname = funcname self.var = var self.lineno = lineno def __str__(self): return "Undefined variable %s in function %s at line %d" % ( self.var, self.funcname, self.lineno) class DuplicateVariableException(MyrialCompileException): def __init__(self, funcname, lineno): self.funcname = funcname self.lineno = lineno def __str__(self): return "Duplicately defined in function %s at line %d" % ( self.funcname, self.lineno) class BadApplyDefinitionException(MyrialCompileException): def __init__(self, funcname, lineno): self.funcname = funcname self.lineno = lineno def __str__(self): return "Bad apply definition for in function %s at line %d" % ( self.funcname, self.lineno) class UnnamedStateVariableException(MyrialCompileException): def __init__(self, funcname, lineno): self.funcname = funcname self.lineno = lineno def __str__(self): return "Unnamed state variable in function %s at line %d" % ( self.funcname, self.lineno) class IllegalWildcardException(MyrialCompileException): def __init__(self, funcname, lineno): self.funcname = funcname self.lineno = lineno def __str__(self): return "Illegal use of wildcard in function %s at line %d" % ( self.funcname, self.lineno) class NestedTupleExpressionException(MyrialCompileException): def __init__(self, lineno): self.lineno = lineno def __str__(self): return "Illegal use of tuple expression on line %d" % self.lineno class InvalidEmitList(MyrialCompileException): def __init__(self, function, lineno): self.function = function self.lineno = lineno def __str__(self): return "Wrong number of emit arguments in %s at line %d" % ( self.function, self.lineno) class IllegalColumnNamesException(MyrialCompileException): def __init__(self, lineno): self.lineno = lineno def __str__(self): return "Invalid column names on line %d" % self.lineno class ColumnIndexOutOfBounds(Exception): pass class SchemaMismatchException(MyrialCompileException): def __init__(self, op_name): self.op_name = op_name def __str__(self): return "Incompatible input schemas for %s operation" % self.op_name class NoSuchRelationException(MyrialCompileException): def __init__(self, relname): self.relname = relname def __str__(self): return "No such relation: %s" % self.relname	class Myrialcompileexception(Exception): pass class Myrialunexpectedendoffileexception(MyrialCompileException): def __str__(self): return 'Unexpected end-of-file' class Myrialparseexception(MyrialCompileException): def __init__(self, token): self.token = token def __str__(self): return 'Parse error at token %s on line %d' % (self.token.value, self.token.lineno) class Myrialscanexception(MyrialCompileException): def __init__(self, token): self.token = token def __str__(self): return 'Illegal token string %s on line %d' % (self.token.value, self.token.lineno) class Duplicatefunctiondefinitionexception(MyrialCompileException): def __init__(self, funcname, lineno): self.funcname = funcname self.lineno = lineno def __str__(self): return 'Duplicate function definition for %s on line %d' % (self.funcname, self.lineno) class Nosuchfunctionexception(MyrialCompileException): def __init__(self, funcname, lineno): self.funcname = funcname self.lineno = lineno def __str__(self): return 'No such function definition for %s on line %d' % (self.funcname, self.lineno) class Reservedtokenexception(MyrialCompileException): def __init__(self, token, lineno): self.token = token self.lineno = lineno def __str__(self): return 'The token "%s" on line %d is reserved.' % (self.token, self.lineno) class Invalidargumentlist(MyrialCompileException): def __init__(self, funcname, expected_args, lineno): self.funcname = funcname self.expected_args = expected_args self.lineno = lineno def __str__(self): return 'Incorrect number of arguments for %s(%s) on line %d' % (self.funcname, ','.join(self.expected_args), self.lineno) class Undefinedvariableexception(MyrialCompileException): def __init__(self, funcname, var, lineno): self.funcname = funcname self.var = var self.lineno = lineno def __str__(self): return 'Undefined variable %s in function %s at line %d' % (self.var, self.funcname, self.lineno) class Duplicatevariableexception(MyrialCompileException): def __init__(self, funcname, lineno): self.funcname = funcname self.lineno = lineno def __str__(self): return 'Duplicately defined in function %s at line %d' % (self.funcname, self.lineno) class Badapplydefinitionexception(MyrialCompileException): def __init__(self, funcname, lineno): self.funcname = funcname self.lineno = lineno def __str__(self): return 'Bad apply definition for in function %s at line %d' % (self.funcname, self.lineno) class Unnamedstatevariableexception(MyrialCompileException): def __init__(self, funcname, lineno): self.funcname = funcname self.lineno = lineno def __str__(self): return 'Unnamed state variable in function %s at line %d' % (self.funcname, self.lineno) class Illegalwildcardexception(MyrialCompileException): def __init__(self, funcname, lineno): self.funcname = funcname self.lineno = lineno def __str__(self): return 'Illegal use of wildcard in function %s at line %d' % (self.funcname, self.lineno) class Nestedtupleexpressionexception(MyrialCompileException): def __init__(self, lineno): self.lineno = lineno def __str__(self): return 'Illegal use of tuple expression on line %d' % self.lineno class Invalidemitlist(MyrialCompileException): def __init__(self, function, lineno): self.function = function self.lineno = lineno def __str__(self): return 'Wrong number of emit arguments in %s at line %d' % (self.function, self.lineno) class Illegalcolumnnamesexception(MyrialCompileException): def __init__(self, lineno): self.lineno = lineno def __str__(self): return 'Invalid column names on line %d' % self.lineno class Columnindexoutofbounds(Exception): pass class Schemamismatchexception(MyrialCompileException): def __init__(self, op_name): self.op_name = op_name def __str__(self): return 'Incompatible input schemas for %s operation' % self.op_name class Nosuchrelationexception(MyrialCompileException): def __init__(self, relname): self.relname = relname def __str__(self): return 'No such relation: %s' % self.relname
#punto 1 #entradas n=int(input("Escriba el primer digito ")) k=int(input("Escriba el primer digito ")) #caja negra y salidas while True: n=0 if(k<n): n=n-1 print(n) elif(n==k): print(k) break	n = int(input('Escriba el primer digito ')) k = int(input('Escriba el primer digito ')) while True: n = 0 if k < n: n = n - 1 print(n) elif n == k: print(k) break
class CandeError(Exception): pass class CandeSerializationError(CandeError): pass class CandeDeserializationError(CandeError): pass class CandeReadError(CandeError): pass class CandePartError(CandeError): pass class CandeFormatError(CandePartError): pass	class Candeerror(Exception): pass class Candeserializationerror(CandeError): pass class Candedeserializationerror(CandeError): pass class Candereaderror(CandeError): pass class Candeparterror(CandeError): pass class Candeformaterror(CandePartError): pass
items = ['T-Shirt','Sweater'] print("*** Note: If you want to quit this program, simply type 'quit' or 'QUIT'.") print("" 20) while True: action = (input("Welcome to our shop, what do you want (C, R, U, D)? ")).upper() if action == "R": print("Our items: ", end='') print(items,sep=', ') elif action == "C": new_item = input("Enter new item: ") items.append(new_item) print("Our items: ", end='') print(items,sep=', ') elif action == "U": update_pos = int(input("Update position? ")) - 1 if update_pos in range(0,len(items)): update_item = input("New item? ") items[update_pos] = update_item print("Our items: ", end='') print(items,sep=', ') else: print("Not found.") elif action == "D": delete_pos = int(input("Delete position? ")) - 1 if delete_pos in range(0,len(items)): items.pop(delete_pos) print("Our items: ", end='') print(items,sep=', ') else: print("Not found.") elif action == "QUIT": break else: print("Wrong command. Type again please!")	items = ['T-Shirt', 'Sweater'] print("*** Note: If you want to quit this program, simply type 'quit' or 'QUIT'.") print('' 20) while True: action = input('Welcome to our shop, what do you want (C, R, U, D)? ').upper() if action == 'R': print('Our items: ', end='') print(items, sep=', ') elif action == 'C': new_item = input('Enter new item: ') items.append(new_item) print('Our items: ', end='') print(items, sep=', ') elif action == 'U': update_pos = int(input('Update position? ')) - 1 if update_pos in range(0, len(items)): update_item = input('New item? ') items[update_pos] = update_item print('Our items: ', end='') print(items, sep=', ') else: print('Not found.') elif action == 'D': delete_pos = int(input('Delete position? ')) - 1 if delete_pos in range(0, len(items)): items.pop(delete_pos) print('Our items: ', end='') print(items, sep=', ') else: print('Not found.') elif action == 'QUIT': break else: print('Wrong command. Type again please!')
''' Catalan numbers (Cn) are a sequence of natural numbers that occur in many places. The most important ones being that Cn gives the number of Binary Search Trees possible with n values. Cn is the number of full Binary Trees with n + 1 leaves. Cn is the number of different ways n + 1 factors can be completely parenthesized. ''' # n denotes the nth Catalan Number that we want to compute n = int(input()) # Catalan array stores the catalan numbers from 1....n Catalan = [0] * (n + 1) # The first two values are 1 for this series Catalan[0] = 1 Catalan[1] = 1 ''' For e.g if n = 5, then Cn = (Catalan(0) * Catalan(4)) + (Catalan(1) * Catalan(3)) + (Catalan(2) * Catalan(2)) + (Catalan(3) * Catalan(1)) + (Catalan(4)* Catalan(0)) We can see here that Catalan numbers form a recursive relation i.e for nth term, the Catalan number Cn is the sum of Catalan(i) * Catalan(n-i-1) where i goes from 0...n-1. We can also observe that several values are getting repeated and hence we optimise the performance by applying memoization. ''' for i in range(2, n + 1): for j in range(0, i): Catalan[i] = Catalan[i] + (Catalan[j] * Catalan[i - j - 1]) # nth Catalan number is given by n - 1th index print("The Catalan Number (Cn) is: " + str(Catalan[n - 1])) ''' Input: 10 Output: The Catalan Number (Cn) is: 4862 Input: 5 Output: The Catalan Number (Cn) is: 14 '''	""" Catalan numbers (Cn) are a sequence of natural numbers that occur in many places. The most important ones being that Cn gives the number of Binary Search Trees possible with n values. Cn is the number of full Binary Trees with n + 1 leaves. Cn is the number of different ways n + 1 factors can be completely parenthesized. """ n = int(input()) catalan = [0] * (n + 1) Catalan[0] = 1 Catalan[1] = 1 '\n For e.g if n = 5, then\n Cn = (Catalan(0) * Catalan(4)) + (Catalan(1) * Catalan(3))\n + (Catalan(2) * Catalan(2)) + (Catalan(3) * Catalan(1)) +\n (Catalan(4)* Catalan(0))\n We can see here that Catalan numbers form a recursive\n relation i.e for nth term, the Catalan number Cn is\n the sum of Catalan(i) * Catalan(n-i-1) where i goes from\n 0...n-1. We can also observe that several values are getting\n repeated and hence we optimise the performance by applying\n memoization.\n' for i in range(2, n + 1): for j in range(0, i): Catalan[i] = Catalan[i] + Catalan[j] * Catalan[i - j - 1] print('The Catalan Number (Cn) is: ' + str(Catalan[n - 1])) '\n Input:\n 10\n Output:\n The Catalan Number (Cn) is: 4862\n\n Input:\n 5\n Output:\n The Catalan Number (Cn) is: 14\n'
# operador logico print("Ingrese el valor de a") a = float(input()) print("Ingrese el valor de b") b = float(input()) print("b es mayor que a") print(b > a) print(type(b > a)) print("b es menor que a") print(b < a) print("b es mayor o igual que a") print(b >= a) print("b es menor o igual que a") print(b <= a) print("b es diferente de a") print(b != a) var = b == a print("b = a? ", var)	print('Ingrese el valor de a') a = float(input()) print('Ingrese el valor de b') b = float(input()) print('b es mayor que a') print(b > a) print(type(b > a)) print('b es menor que a') print(b < a) print('b es mayor o igual que a') print(b >= a) print('b es menor o igual que a') print(b <= a) print('b es diferente de a') print(b != a) var = b == a print('b = a? ', var)
class d_linked_node: def __init__(self, initData, initNext, initPrevious): # constructs a new node and initializes it to contain # the given object (initData) and links to the given next # and previous nodes. self.__data = initData self.__next = initNext self.__previous = initPrevious if (initPrevious != None): initPrevious.__next = self if (initNext != None): initNext.__previous = self def getData(self): return self.__data def getNext(self): return self.__next def getPrevious(self): return self.__previous def setData(self, newData): self.__data = newData def setNext(self, newNext): self.__next= newNext def setPrevious(self, newPrevious): self.__previous= newPrevious	class D_Linked_Node: def __init__(self, initData, initNext, initPrevious): self.__data = initData self.__next = initNext self.__previous = initPrevious if initPrevious != None: initPrevious.__next = self if initNext != None: initNext.__previous = self def get_data(self): return self.__data def get_next(self): return self.__next def get_previous(self): return self.__previous def set_data(self, newData): self.__data = newData def set_next(self, newNext): self.__next = newNext def set_previous(self, newPrevious): self.__previous = newPrevious
#python program to subtract two numbers using function def subtraction(x,y): #function definifion for subtraction sub=x-y return sub num1=int(input("please enter first number: "))#input from user to num1 num2=int(input("please enter second number: "))#input from user to num2 print("Subtraction is: ",subtraction(num1,num2))#call the function	def subtraction(x, y): sub = x - y return sub num1 = int(input('please enter first number: ')) num2 = int(input('please enter second number: ')) print('Subtraction is: ', subtraction(num1, num2))
''' Package to read and process material export data. To use, initiate an endomaterial object and start exploring! --------- Examples: ## Init from ukw_intelli_store import EndoMaterial em = EndoMaterial(path, path) ## To explore all used materials: em.mat_info ## To explore specific material id em.get_mat_info_for_id(material_id) ## To get all logged dgvs keys: em.get_dgvs_keys() ## To explore a single dgvs key: em.get_dgvs_key_summary() ''' __version__ = '0.0.0'	""" Package to read and process material export data. To use, initiate an endomaterial object and start exploring! --------- Examples: ## Init from ukw_intelli_store import EndoMaterial em = EndoMaterial(path, path) ## To explore all used materials: em.mat_info ## To explore specific material id em.get_mat_info_for_id(material_id) ## To get all logged dgvs keys: em.get_dgvs_keys() ## To explore a single dgvs key: em.get_dgvs_key_summary() """ __version__ = '0.0.0'
# Source: https://www.geeksforgeeks.org/sets-in-python/ # Python program to # demonstrate intersection # of two sets set1 = [0,1,2,3,4,5] set2 = [3,4,5,6,7,8,9] set3 = set1 + set2 unique_set3 = [] for i in set3: if i not in unique_set3: unique_set3.append(i) print("Intersection using intersection() function") print(set3) print(unique_set3)	set1 = [0, 1, 2, 3, 4, 5] set2 = [3, 4, 5, 6, 7, 8, 9] set3 = set1 + set2 unique_set3 = [] for i in set3: if i not in unique_set3: unique_set3.append(i) print('Intersection using intersection() function') print(set3) print(unique_set3)
class Validator: PLUS_CHAR = 43 AT_CHAR = 64 def __init__(self): self.validation_results = None self.sequence_symbols = list() for symbol in "ACTGN.": self.sequence_symbols.append(ord(symbol)) self.quality_score_symbols = list() for symbol in "!\"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ\ [\]^_`abcdefghijklmnopqrstuvwxyz{\|}~": self.quality_score_symbols.append(ord(symbol)) def validate(self, file_path): valid = True with open(file_path, 'rb') as source: record = list() for line in source: if not valid: break line = line.rstrip() line_is_not_empty = line # added for readability if line_is_not_empty: record.append(line) record_is_ready = len(record) == 4 if record_is_ready: valid = valid and self._validate_record(record) record.clear() else: valid = False valid = valid and len(record) == 0 return valid def _validate_record(self, record): valid_identifier = self._validate_identifier_line(record[0]) valid_bases = self._validate_bases(record[1]) valid_plus = self._validate_plus(record[2]) valid_quality_scores = self._validate_quality_scores(record[3]) equal_lengths = self._validate_bases_length_equals_qc_length(record[1], record[3]) return valid_identifier and valid_bases and valid_plus and valid_quality_scores \ and equal_lengths def _validate_identifier_line(self, line): # is the first char @ ? has_at_char = line[0] == Validator.AT_CHAR # all ascii chars? all_ascii = Validator._all_ascii(line) return has_at_char and all_ascii #TODO implement case insensitive check def _validate_bases(self, line): valid = False has_n_char = False has_period = False for symbol in line: valid = symbol in self.sequence_symbols if valid: if symbol == ord("N"): has_n_char = True if symbol == ord("."): has_period = True return valid and not has_n_char or not has_period def _validate_plus(self, line): # is the first char a plus sign? has_plus_char = line[0] == Validator.PLUS_CHAR return has_plus_char def _validate_quality_scores(self, line): for symbol in line: if symbol not in self.quality_score_symbols: return False; return True def _validate_bases_length_equals_qc_length(self, base_line, qc_line): base_length = len(base_line) quality_length = len(qc_line) return base_length == quality_length @staticmethod def _all_ascii(line): for char in line: if char > 128: return False return True	class Validator: plus_char = 43 at_char = 64 def __init__(self): self.validation_results = None self.sequence_symbols = list() for symbol in 'ACTGN.': self.sequence_symbols.append(ord(symbol)) self.quality_score_symbols = list() for symbol in '!"#$%&\'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ [\\]^_`abcdefghijklmnopqrstuvwxyz{\|}~': self.quality_score_symbols.append(ord(symbol)) def validate(self, file_path): valid = True with open(file_path, 'rb') as source: record = list() for line in source: if not valid: break line = line.rstrip() line_is_not_empty = line if line_is_not_empty: record.append(line) record_is_ready = len(record) == 4 if record_is_ready: valid = valid and self._validate_record(record) record.clear() else: valid = False valid = valid and len(record) == 0 return valid def _validate_record(self, record): valid_identifier = self._validate_identifier_line(record[0]) valid_bases = self._validate_bases(record[1]) valid_plus = self._validate_plus(record[2]) valid_quality_scores = self._validate_quality_scores(record[3]) equal_lengths = self._validate_bases_length_equals_qc_length(record[1], record[3]) return valid_identifier and valid_bases and valid_plus and valid_quality_scores and equal_lengths def _validate_identifier_line(self, line): has_at_char = line[0] == Validator.AT_CHAR all_ascii = Validator._all_ascii(line) return has_at_char and all_ascii def _validate_bases(self, line): valid = False has_n_char = False has_period = False for symbol in line: valid = symbol in self.sequence_symbols if valid: if symbol == ord('N'): has_n_char = True if symbol == ord('.'): has_period = True return valid and (not has_n_char) or not has_period def _validate_plus(self, line): has_plus_char = line[0] == Validator.PLUS_CHAR return has_plus_char def _validate_quality_scores(self, line): for symbol in line: if symbol not in self.quality_score_symbols: return False return True def _validate_bases_length_equals_qc_length(self, base_line, qc_line): base_length = len(base_line) quality_length = len(qc_line) return base_length == quality_length @staticmethod def _all_ascii(line): for char in line: if char > 128: return False return True
#work in prgress - This creates a skelatal mods file for the givne set of files templateFile = "C:\\python-scripts\\xml-file-output\\aids_skeletalmods.xml" def createXmlFiles(idList): print("create xml file list") for id in idList: #print("processing id " + id ) tree = ElementTree() tree.parse(templateFile) root = tree.getroot() nameElement = tree.find('titleInfo/title') nameElement.text = id apElement = tree.find('identifier') apElement.text = id root.attrib = {"xmlns:xlink":"http://www.w3.org/1999/xlink", "xmlns:xsi":"http://www.w3.org/2001/XMLSchema-instance", "xmlns":"http://www.loc.gov/mods/v3", "version":"3.5", "xsi:schemaLocation":"http://www.loc.gov/mods/v3 http://www.loc.gov/standards/mods/v3/mods-3-5.xsd"} #print("writing file " + xmlOutputDir + id + ".xml") tree.write(xmlOutputDir + id + ".xml") def createXmlFiles(idList): print("create xml file list") for id in idList: #print("processing id " + id ) tree = ElementTree() tree.parse(templateFile) root = tree.getroot() nameElement = tree.find('titleInfo/title') nameElement.text = id apElement = tree.find('identifier') apElement.text = id root.attrib = {"xmlns:xlink":"http://www.w3.org/1999/xlink", "xmlns:xsi":"http://www.w3.org/2001/XMLSchema-instance", "xmlns":"http://www.loc.gov/mods/v3", "version":"3.5", "xsi:schemaLocation":"http://www.loc.gov/mods/v3 http://www.loc.gov/standards/mods/v3/mods-3-5.xsd"} #print("writing file " + xmlOutputDir + id + ".xml") tree.write(xmlOutputDir + id + ".xml") def processSets(offset, maxFilesToProcess): fileIdList = getFileList(itemDirectory, "tif") setSize = len(fileIdList) if(not maxFilesToProcess): maxFilesToProcess = setSize + 1 if(not offset): offset = 0 offset = int(offset) maxFilesToProcess = int(maxFilesToProcess) setSize = int(setSize) print ("Max files to process = " + str(maxFilesToProcess)) print ("Offset = " + str(offset)) counter = 1 totalBytes = 0 fileSet = [] startCount = 1 for fileName, fileSize in fileIdList.items(): if( (counter >= offset) and (counter <= maxFilesToProcess) ) : print("counter = " + str(counter) + " processing file " + fileName + " with size " + str(fileSize)) nextFile = fileName fileSet.append(fileName) counter = counter + 1 if(len(fileSet) > 0): createXmlFiles(fileSet) # maxFilesPerZip = input("Please enter maximum number of files per zip file: ") maxFilesToProcess = input("Please enter maximum number of files to process enter to process all: ") offset = input("Please enter the offset position (inclusive) press enter to start from the beginning: ") processSets(offset, maxFilesToProcess)	template_file = 'C:\\python-scripts\\xml-file-output\\aids_skeletalmods.xml' def create_xml_files(idList): print('create xml file list') for id in idList: tree = element_tree() tree.parse(templateFile) root = tree.getroot() name_element = tree.find('titleInfo/title') nameElement.text = id ap_element = tree.find('identifier') apElement.text = id root.attrib = {'xmlns:xlink': 'http://www.w3.org/1999/xlink', 'xmlns:xsi': 'http://www.w3.org/2001/XMLSchema-instance', 'xmlns': 'http://www.loc.gov/mods/v3', 'version': '3.5', 'xsi:schemaLocation': 'http://www.loc.gov/mods/v3 http://www.loc.gov/standards/mods/v3/mods-3-5.xsd'} tree.write(xmlOutputDir + id + '.xml') def create_xml_files(idList): print('create xml file list') for id in idList: tree = element_tree() tree.parse(templateFile) root = tree.getroot() name_element = tree.find('titleInfo/title') nameElement.text = id ap_element = tree.find('identifier') apElement.text = id root.attrib = {'xmlns:xlink': 'http://www.w3.org/1999/xlink', 'xmlns:xsi': 'http://www.w3.org/2001/XMLSchema-instance', 'xmlns': 'http://www.loc.gov/mods/v3', 'version': '3.5', 'xsi:schemaLocation': 'http://www.loc.gov/mods/v3 http://www.loc.gov/standards/mods/v3/mods-3-5.xsd'} tree.write(xmlOutputDir + id + '.xml') def process_sets(offset, maxFilesToProcess): file_id_list = get_file_list(itemDirectory, 'tif') set_size = len(fileIdList) if not maxFilesToProcess: max_files_to_process = setSize + 1 if not offset: offset = 0 offset = int(offset) max_files_to_process = int(maxFilesToProcess) set_size = int(setSize) print('Max files to process = ' + str(maxFilesToProcess)) print('Offset = ' + str(offset)) counter = 1 total_bytes = 0 file_set = [] start_count = 1 for (file_name, file_size) in fileIdList.items(): if counter >= offset and counter <= maxFilesToProcess: print('counter = ' + str(counter) + ' processing file ' + fileName + ' with size ' + str(fileSize)) next_file = fileName fileSet.append(fileName) counter = counter + 1 if len(fileSet) > 0: create_xml_files(fileSet) max_files_to_process = input('Please enter maximum number of files to process enter to process all: ') offset = input('Please enter the offset position (inclusive) press enter to start from the beginning: ') process_sets(offset, maxFilesToProcess)
j,i=65,-2 for I in range (1,14): J= j-5 I=i+3 print('I=%d J=%d' %(I,J)) j=J i=I	(j, i) = (65, -2) for i in range(1, 14): j = j - 5 i = i + 3 print('I=%d J=%d' % (I, J)) j = J i = I
class TreeNode: def __init__(self, val=0, left=None, right=None): self.val = val self.left = left self.right = right class Solution: def isMirror(self, left: TreeNode, right: TreeNode) -> bool: if left is None and right is None: return True elif left is not None and right is not None: inner = self.isMirror(left.right, right.left) outer = self.isMirror(left.left, right.right) return left.val == right.val and inner and outer return False def isSymmetric(self, root: TreeNode) -> bool: return root is None or self.isMirror(root.left, root.right)	class Treenode: def __init__(self, val=0, left=None, right=None): self.val = val self.left = left self.right = right class Solution: def is_mirror(self, left: TreeNode, right: TreeNode) -> bool: if left is None and right is None: return True elif left is not None and right is not None: inner = self.isMirror(left.right, right.left) outer = self.isMirror(left.left, right.right) return left.val == right.val and inner and outer return False def is_symmetric(self, root: TreeNode) -> bool: return root is None or self.isMirror(root.left, root.right)
class Config: # image size image_min_dims = 512 image_max_dims = 512 steps_per_epoch = 50 validation_steps = 20 batch_size = 16 epochs = 10 shuffle = True num_classes = 21	class Config: image_min_dims = 512 image_max_dims = 512 steps_per_epoch = 50 validation_steps = 20 batch_size = 16 epochs = 10 shuffle = True num_classes = 21
'''https://leetcode.com/problems/course-schedule/ 207. Course Schedule Medium 7445 303 Add to List Share There are a total of numCourses courses you have to take, labeled from 0 to numCourses - 1. You are given an array prerequisites where prerequisites[i] = [ai, bi] indicates that you must take course bi first if you want to take course ai. For example, the pair [0, 1], indicates that to take course 0 you have to first take course 1. Return true if you can finish all courses. Otherwise, return false. Example 1: Input: numCourses = 2, prerequisites = [[1,0]] Output: true Explanation: There are a total of 2 courses to take. To take course 1 you should have finished course 0. So it is possible. Example 2: Input: numCourses = 2, prerequisites = [[1,0],[0,1]] Output: false Explanation: There are a total of 2 courses to take. To take course 1 you should have finished course 0, and to take course 0 you should also have finished course 1. So it is impossible. Constraints: 1 <= numCourses <= 105 0 <= prerequisites.length <= 5000 prerequisites[i].length == 2 0 <= ai, bi < numCourses All the pairs prerequisites[i] are unique.''' # [207] Course Schedule # class Solution: def canFinish(self, numCourses: int, prerequisites: List[List[int]]) -> bool: indegree = [0 for i in range(numCourses)] connection = {i: [] for i in range(numCourses)} for link in prerequisites: connection[link[1]].append(link[0]) indegree[link[0]] += 1 zero_indegree = [] for i in range(numCourses): if indegree[i] == 0: zero_indegree.append(i) i = 0 while i < len(zero_indegree): for node in connection[zero_indegree[i]]: indegree[node] -= 1 if indegree[node] == 0: zero_indegree.append(node) i += 1 if len(zero_indegree) == numCourses: return True else: return False def DFS(self): record = [[0 for _ in range(numCourses)] for _ in range(numCourses)] visited = [False for _ in range(numCourses)] for item in prerequisites: record[item[1]][item[0]] = 1 # sort def dfs(num): for i in range(numCourses): if record[num][i] == 1: visited[num] = True if visited[i]: return False else: if not dfs(i): return False visited[num] = False return True for i in range(numCourses): if not dfs(i): return False return True	"""https://leetcode.com/problems/course-schedule/ 207. Course Schedule Medium 7445 303 Add to List Share There are a total of numCourses courses you have to take, labeled from 0 to numCourses - 1. You are given an array prerequisites where prerequisites[i] = [ai, bi] indicates that you must take course bi first if you want to take course ai. For example, the pair [0, 1], indicates that to take course 0 you have to first take course 1. Return true if you can finish all courses. Otherwise, return false. Example 1: Input: numCourses = 2, prerequisites = [[1,0]] Output: true Explanation: There are a total of 2 courses to take. To take course 1 you should have finished course 0. So it is possible. Example 2: Input: numCourses = 2, prerequisites = [[1,0],[0,1]] Output: false Explanation: There are a total of 2 courses to take. To take course 1 you should have finished course 0, and to take course 0 you should also have finished course 1. So it is impossible. Constraints: 1 <= numCourses <= 105 0 <= prerequisites.length <= 5000 prerequisites[i].length == 2 0 <= ai, bi < numCourses All the pairs prerequisites[i] are unique.""" class Solution: def can_finish(self, numCourses: int, prerequisites: List[List[int]]) -> bool: indegree = [0 for i in range(numCourses)] connection = {i: [] for i in range(numCourses)} for link in prerequisites: connection[link[1]].append(link[0]) indegree[link[0]] += 1 zero_indegree = [] for i in range(numCourses): if indegree[i] == 0: zero_indegree.append(i) i = 0 while i < len(zero_indegree): for node in connection[zero_indegree[i]]: indegree[node] -= 1 if indegree[node] == 0: zero_indegree.append(node) i += 1 if len(zero_indegree) == numCourses: return True else: return False def dfs(self): record = [[0 for _ in range(numCourses)] for _ in range(numCourses)] visited = [False for _ in range(numCourses)] for item in prerequisites: record[item[1]][item[0]] = 1 def dfs(num): for i in range(numCourses): if record[num][i] == 1: visited[num] = True if visited[i]: return False else: if not dfs(i): return False visited[num] = False return True for i in range(numCourses): if not dfs(i): return False return True
#=================================================================================================================================================================================== # Author: Shlomo Stept # ccvaliditycheck.py will open up a window and determine if any credit card number; entered by the user, is valid. #=================================================================================================================================================================================== # Prompt for User to Enter A credit Card number as a long integer userInput = input("Enter Your Credit Card Number as a long integer: ") # Initilizing variables to keep track of, the Sum of every other even and odd, credit card number totalEven=0 totalOdd=0 # Variable that detemines the number of loops requred due to length of the credit card number entered numberofVariables = len(userInput) # Initalizing variables to keep track of the Loop the program is on, and this is also determine/track the List/ (array) vairable the program needs to use/pull from the userInput countEven = numberofVariables-2 countOdd = numberofVariables-1 # Test to determine of the credit card value entered is the correct length of a credit card (some new cards have 19 digits) if numberofVariables > 12 and numberofVariables < 20: # loop that runs through every ODD number moving from right to left (of the credit card) and adds them all up for loopcounter in range(numberofVariables,0,-2): oddPlacesSingle = int(userInput[countOdd]) totalOdd = totalOdd + oddPlacesSingle countOdd = countOdd - 2 # loop that runs through every EVEN number moving from right to left (of the credit card); doubles that number and then adds them all up for loopcounter in range(numberofVariables-1,0,-2): evenPlacesDouble = 2 * int(userInput[countEven]) # Evaluation, whether the doubling, results in a value more than one digit, and if it does, adds the two digits to get a single digit number if len(str(evenPlacesDouble)) > 1: evenPlacesDouble = str(evenPlacesDouble) evenPlacesDouble = int(evenPlacesDouble[0]) + int(evenPlacesDouble[1]) else: exit totalEven = totalEven + evenPlacesDouble countEven = countEven - 2 # Variable that takes the total of Even values that were doubles, and the total of all ODD values that were just summed, and adds the total odd and total even up total = totalEven + totalOdd # Test to determine if the Grand total, of odd-single and doubled-Even values is divisable by ten. The final step in determining the Validity of the Credit Card Number entered if len (str(total)) > 1: total = str( total ) if int ( total [ (len(str(total))) -1 ]) == 0: # Test to determine of the credit card number entered is associated with VISA, MASTERCARD, DISCOVER, OR AMERICAN EXPRESS. if int(userInput[0]) == 3 and int(userInput[1]) == 7 : print("\n\tYour American Express card is Valid, Congragulations!") elif int(userInput[0]) == 4: print("\n\tYour Visa card is Valid, Congragulations!") elif int(userInput[0]) == 5: print("\n\tYour Master Card card is Valid, Congragulations!") elif int(userInput[0]) == 6: print("\n\tYour Discover card is Valid, Congragulations!") else: print("\n\tYour Alternative credit card is Valid, Congragulations!") # TEST RESULTS that return an invalid, if the credit card number failed to be devided by ten or any of the other validity tests previously run. else: print("\nYour card is Invalid, Please try again.") else: print("\nYour card is Invalid, Please try again.") else: print("\nYour card is Invalid,Please try again.")	user_input = input('Enter Your Credit Card Number as a long integer: ') total_even = 0 total_odd = 0 numberof_variables = len(userInput) count_even = numberofVariables - 2 count_odd = numberofVariables - 1 if numberofVariables > 12 and numberofVariables < 20: for loopcounter in range(numberofVariables, 0, -2): odd_places_single = int(userInput[countOdd]) total_odd = totalOdd + oddPlacesSingle count_odd = countOdd - 2 for loopcounter in range(numberofVariables - 1, 0, -2): even_places_double = 2 * int(userInput[countEven]) if len(str(evenPlacesDouble)) > 1: even_places_double = str(evenPlacesDouble) even_places_double = int(evenPlacesDouble[0]) + int(evenPlacesDouble[1]) else: exit total_even = totalEven + evenPlacesDouble count_even = countEven - 2 total = totalEven + totalOdd if len(str(total)) > 1: total = str(total) if int(total[len(str(total)) - 1]) == 0: if int(userInput[0]) == 3 and int(userInput[1]) == 7: print('\n\tYour American Express card is Valid, Congragulations!') elif int(userInput[0]) == 4: print('\n\tYour Visa card is Valid, Congragulations!') elif int(userInput[0]) == 5: print('\n\tYour Master Card card is Valid, Congragulations!') elif int(userInput[0]) == 6: print('\n\tYour Discover card is Valid, Congragulations!') else: print('\n\tYour Alternative credit card is Valid, Congragulations!') else: print('\nYour card is Invalid, Please try again.') else: print('\nYour card is Invalid, Please try again.') else: print('\nYour card is Invalid,Please try again.')
# Time complexity: O(n) # Approach: Manacher's Algorithm. Please watch this vide for explanation https://youtu.be/V-sEwsca1ak class Solution: def longestPalindrome(self, s: str) -> str: newS = "" n = 2 * len(s) + 1 ind = 0 for j in range(n): if j % 2 == 1: newS += s[ind] ind += 1 else: newS += "$" LPS = [0] * n start, end, i = 0, 0, 0 while i < n: while start > 0 and end < n-1 and newS[start-1] == newS[end+1]: start -= 1 end += 1 LPS[i] = end - start + 1 if end == n - 1: break newCenter = end + (1 if i%2==0 else 0) for j in range(i+1, end+1): LPS[j] = min(LPS[i-(j-i)], 2*(end-j)+1) if j + LPS[i-(j-i)]//2 == end: newCenter = j break i = newCenter start = i - LPS[i]//2 end = i + LPS[i]//2 ind, mx = 0, 0 for j in range(n): if mx < LPS[j]: ind, mx = j, LPS[j] ans = "" start = ind - LPS[ind]//2 end = ind + LPS[ind]//2 for j in range(start, end+1): if newS[j] != "$": ans += newS[j] return ans	class Solution: def longest_palindrome(self, s: str) -> str: new_s = '' n = 2 * len(s) + 1 ind = 0 for j in range(n): if j % 2 == 1: new_s += s[ind] ind += 1 else: new_s += '$' lps = [0] * n (start, end, i) = (0, 0, 0) while i < n: while start > 0 and end < n - 1 and (newS[start - 1] == newS[end + 1]): start -= 1 end += 1 LPS[i] = end - start + 1 if end == n - 1: break new_center = end + (1 if i % 2 == 0 else 0) for j in range(i + 1, end + 1): LPS[j] = min(LPS[i - (j - i)], 2 * (end - j) + 1) if j + LPS[i - (j - i)] // 2 == end: new_center = j break i = newCenter start = i - LPS[i] // 2 end = i + LPS[i] // 2 (ind, mx) = (0, 0) for j in range(n): if mx < LPS[j]: (ind, mx) = (j, LPS[j]) ans = '' start = ind - LPS[ind] // 2 end = ind + LPS[ind] // 2 for j in range(start, end + 1): if newS[j] != '$': ans += newS[j] return ans
def is_index_valid(i, length): return 0 <= i < length initial_loot = input().split('\|') while True: line = input() if line == 'Yohoho!': break command = line.split(' ', maxsplit=1) if command[0] == 'Loot': items = command[1].split() for item in items: if item not in initial_loot: initial_loot.insert(0, item) elif command[0] == 'Drop': index = int(command[1]) if not is_index_valid(index, len(initial_loot)): continue dropped_item = initial_loot.pop(index) initial_loot.append(dropped_item) elif command[0] == 'Steal': count = int(command[1]) stolen_items = [] if count <= len(initial_loot): for _ in range(count): stolen = initial_loot.pop() stolen_items.insert(0, stolen) else: for _ in range(len(initial_loot)): stolen = initial_loot.pop() stolen_items.insert(0, stolen) print(', '.join(stolen_items)) items_count = len(initial_loot) if len(initial_loot) > 0: total_length = 0 for item in initial_loot: item_length = len(item) total_length += item_length average_gain = total_length / items_count print(f'Average treasure gain: {average_gain:.2f} pirate credits.') else: print(f'Failed treasure hunt.')	def is_index_valid(i, length): return 0 <= i < length initial_loot = input().split('\|') while True: line = input() if line == 'Yohoho!': break command = line.split(' ', maxsplit=1) if command[0] == 'Loot': items = command[1].split() for item in items: if item not in initial_loot: initial_loot.insert(0, item) elif command[0] == 'Drop': index = int(command[1]) if not is_index_valid(index, len(initial_loot)): continue dropped_item = initial_loot.pop(index) initial_loot.append(dropped_item) elif command[0] == 'Steal': count = int(command[1]) stolen_items = [] if count <= len(initial_loot): for _ in range(count): stolen = initial_loot.pop() stolen_items.insert(0, stolen) else: for _ in range(len(initial_loot)): stolen = initial_loot.pop() stolen_items.insert(0, stolen) print(', '.join(stolen_items)) items_count = len(initial_loot) if len(initial_loot) > 0: total_length = 0 for item in initial_loot: item_length = len(item) total_length += item_length average_gain = total_length / items_count print(f'Average treasure gain: {average_gain:.2f} pirate credits.') else: print(f'Failed treasure hunt.')
__author__ = 'Administrator' # class Foo(object): # instance = None # # def __init__(self): # self.name = 'alex' # @classmethod # def get_instance(cls): # if Foo.instance: # return Foo.instance # else: # Foo.instance = Foo() # return Foo.instance # # def process(self): # return '123' # obj1 = Foo() # obj2 = Foo() # print(id(obj1),id(obj2)) # obj1 = Foo.get_instance() # obj2 = Foo.get_instance() # print(id(obj1),id(obj2)) class Foo(object): instance = None def __init__(self): self.name = 'alex' def __new__(cls, args, kwargs): if Foo.instance: return Foo.instance else: Foo.instance = object.__new__(cls, args, **kwargs) return Foo.instance # obj1 = Foo() # obj2 = Foo() # print(id(obj1),id(obj2))	__author__ = 'Administrator' class Foo(object): instance = None def __init__(self): self.name = 'alex' def __new__(cls, args, kwargs): if Foo.instance: return Foo.instance else: Foo.instance = object.__new__(cls, args, **kwargs) return Foo.instance
inputfile = open('primes.txt') lista = inputfile.read().split(',') inputfile.close() lista = sorted([int(i) for i in lista]) outputfile = open('primes_sorted.txt', 'w') for i in lista: outputfile.write(str(i)+',')	inputfile = open('primes.txt') lista = inputfile.read().split(',') inputfile.close() lista = sorted([int(i) for i in lista]) outputfile = open('primes_sorted.txt', 'w') for i in lista: outputfile.write(str(i) + ',')
inp = input("Input roman numerals: ").upper() + " " tot = 0 numeralDict = { "I":1, "V":5, "X":10, "L":50, "C":100, "D":500, "M":1000 } inp = list(inp) for charNum in range(len(inp)): char = inp[charNum] if(char == "I"): if(inp[charNum + 1] != "I" and inp[charNum + 1] != " "): tot -= 1 else: tot += 1 elif(char != " "): tot += numeralDict[char] print(tot)	inp = input('Input roman numerals: ').upper() + ' ' tot = 0 numeral_dict = {'I': 1, 'V': 5, 'X': 10, 'L': 50, 'C': 100, 'D': 500, 'M': 1000} inp = list(inp) for char_num in range(len(inp)): char = inp[charNum] if char == 'I': if inp[charNum + 1] != 'I' and inp[charNum + 1] != ' ': tot -= 1 else: tot += 1 elif char != ' ': tot += numeralDict[char] print(tot)