#!/bin/python3
import math
import os
import random
import re
import sys
#
# Complete the 'collectionfunc' function below.
#
# The function accepts following parameters:
# 1. STRING text1
# 2. DICTIONARY dictionary1
# 3. LIST key1
# 4. LIST val1
# 5. DICTIONARY deduct
# 6. LIST list1
#
from collections import OrderedDict
def collectionfunc(text1, dictionary1, key1, val1, deduct, list1):
# Write your code here
d = {}
for word in text1.split():
# Check if the word is already in dictionary
if word in d:
# Increment count of word by 1
d[word] = d[word] + 1
else:
# Add the word to dictionary with count 1
d[word] = 1
print("{"+", ".join("'{}': {}".format(k,v) for k,v in sorted(d.items()))+"}")
d1_counter = Counter(dictionary1)
d2_counter = Counter(deduct)
#print (dict(d1_counter - d2_counter))
d1_counter.subtract(d2_counter)
print (dict(d1_counter))
val2 = []
res = OrderedDict()
for key in key1:
for value in val1:
res[key] = value
val2.append(value)
val1.remove(value)
break
v = res.pop(key1[1])
#print (res)
res[key1[1]] = val2[1]
print (dict(res))
list3_odd = []
list4_even = []
for i in list1:
if i%2 == 0:
list4_even.append(i)
else:
list3_odd.append(i)
if list3_odd and list4_even:
print ("{'odd': " +str(list3_odd) +", 'even': " +str(list4_even)+"}")
elif list3_odd:
print ("{'odd': " +str(list3_odd)+"}")
elif list4_even:
print ("{'even': " +str(list4_even)+"}")
if __name__ == '__main__':
from collections import Counter
text1 = input()
n1 = int(input().strip())
qw1 = []
qw2 = []
for _ in range(n1):
qw1_item = (input().strip())
qw1.append(qw1_item)
qw2_item = int(input().strip())
qw2.append(qw2_item)
testdict={}
for i in range(n1):
testdict[qw1[i]]=qw2[i]
collection1 = (testdict)
qw1 = []
n2 = int(input().strip())
for _ in range(n2):
qw1_item = (input().strip())
qw1.append(qw1_item)
key1 = qw1
qw1 = []
n3 = int(input().strip())
for _ in range(n3):
qw1_item = int(input().strip())
qw1.append(qw1_item)
val1 = qw1
n4 = int(input().strip())
qw1 = []
qw2 = []
for _ in range(n4):
qw1_item = (input().strip())
qw1.append(qw1_item)
qw2_item = int(input().strip())
qw2.append(qw2_item)
testdict={}
for i in range(n4):
testdict[qw1[i]]=qw2[i]
deduct = testdict
qw1 = []
n5 = int(input().strip())
for _ in range(n5):
qw1_item = int(input().strip())
qw1.append(qw1_item)
list1 = qw1
collectionfunc(text1, collection1, key1, val1, deduct, list1)
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import sys
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Python is a very popular general-purpose programming language which was created by Guido van Rossum, and released in 1991. It is very popular for web development and you can build almost anything like mobile apps, web apps, tools, data analytics, machine learning etc. It is designed to be simple and easy like english language. It's is highly productive and efficient making it a very popular language.
When ever you want to perform a set of operations based on a condition IF-ELSE is used.
if conditional-expression
#code
elif conditional-expression
#code
else:
#code
Indentation is very important in Python, make sure the indentation is followed correctly
For loop is used to iterate over arrays(list, tuple, set, dictionary) or strings.
mylist=("Iphone","Pixel","Samsung")
for i in mylist:
print(i)
While is also used to iterate a set of statements based on a condition. Usually while is preferred when number of iterations are not known in advance.
while condition
#code
There are four types of collections in Python.
List is a collection which is ordered and can be changed. Lists are specified in square brackets.
mylist=["iPhone","Pixel","Samsung"]
print(mylist)
Tuple is a collection which is ordered and can not be changed. Tuples are specified in round brackets.
myTuple=("iPhone","Pixel","Samsung")
print(myTuple)
Below throws an error if you assign another value to tuple again.
myTuple=("iPhone","Pixel","Samsung")
print(myTuple)
myTuple[1]="onePlus"
print(myTuple)
Set is a collection which is unordered and unindexed. Sets are specified in curly brackets.
myset = {"iPhone","Pixel","Samsung"}
print(myset)
Dictionary is a collection of key value pairs which is unordered, can be changed, and indexed. They are written in curly brackets with key - value pairs.
mydict = {
"brand" :"iPhone",
"model": "iPhone 11"
}
print(mydict)
Following are the libraries supported by OneCompiler's Python compiler
| Name | Description |
|---|---|
| NumPy | NumPy python library helps users to work on arrays with ease |
| SciPy | SciPy is a scientific computation library which depends on NumPy for convenient and fast N-dimensional array manipulation |
| SKLearn/Scikit-learn | Scikit-learn or Scikit-learn is the most useful library for machine learning in Python |
| Pandas | Pandas is the most efficient Python library for data manipulation and analysis |
| DOcplex | DOcplex is IBM Decision Optimization CPLEX Modeling for Python, is a library composed of Mathematical Programming Modeling and Constraint Programming Modeling |