practical-file.tex
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%! Author = Sujal Singh
%! Date = 5/8/24
% Preamble
%! suppress = FileNotFound
\documentclass[11pt]{ipu-python}
\usepackage[
pdftitle={Programming in Python Practical File},
pdfsubject={Programming in Python Practical File},
pdfauthor={Sujal Singh},
pdfdisplaydoctitle,
hidelinks,
]{hyperref}
% Packages
\usepackage{amsmath}
\graphicspath{figures/}
% Document
\makeindex
\begin{document}
\maketitle
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\question{%
Write a program to perform string maniuplation operations using set of pre-defined functions such as:
\begin{itemize}
\item find()
\item upper()
\item len()
\item max() and min()
\item fetching specific content from string
\end{itemize}}\vspace*{10pt}
\begin{code}
{Program}{python}
string = "Hello, World!"
print(
f'string: "{string}"\n',
f'find("llo"): {string.find("llo")}',
f'upper(): {string.upper()}',
f'len(): {len(string)}',
f'max(): "{max(string)}"',
f'min(): "{min(string)}"',
f'fetching "llo": "{string[(start := string.find("llo")):start + len("llo")]}"',
sep="\n"
)
\end{code}
\begin{code}
{Output}{text}
string: "Hello, World!"
find("llo"): 2
upper(): HELLO, WORLD!
len(): 13
max(): "r"
min(): " "
fetching "llo": "llo"
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\\~\vfill%
\question{%
Write a program to test and check the mathematical functions such as:
\begin{itemize}
\item ciel()
\item sqrt()
\item pow()
\item factorial()
\end{itemize}}\vfill
\newpage
\begin{code}
{Program}{python}
from math import ceil, sqrt, pow, factorial
num = 3.14
print(
f"num: {num}\n",
f"ceil(num): {ceil(num)}",
f"sqrt(num): {sqrt(num)}",
f"pow(num, 2): {pow(num, 2)}",
f"factorial(5): {factorial(5)}",
sep="\n"
)
\end{code}
\begin{code}
{Output}{text}
num: 3.14
ceil(num): 4
sqrt(num): 1.772004514666935
pow(num, 2): 9.8596
factorial(5): 120
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\\~\\%
\question{Write a program that receives a number as input from user and returns if it's an odd or even number.}
\begin{code}
{Program}{python}
num = int(input("Enter an integer: "))
print(f"{num} is {'even' if num % 2 == 0 else 'odd'}.")
\end{code}
\begin{code}
{Output}{text}
Enter an integer: 42
42 is even.
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\\~\\
\question{Write a program that receives input from the user to calculate the area of a triangle.}
\begin{code}
{Program}{python}
base = int(input("Enter base length of triangle(m): "))
height = int(input("Enter height of triangle(m): "))
print("area =", 0.5 * base * height)
\end{code}
\begin{code}
{Output}{text}
Enter base length of triangle(m): 5
Enter height of triangle(m): 4
area = 10.0
\end{code}
\newpage
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\question{Write a program that receives input from the user to calculate the area of a square.}
\begin{code}
{Program}{python}
side = int(input("Enter side length of square(m): "))
print(f"Area of square of side length {side} is {side * side}.")
\end{code}
\begin{code}
{Output}{text}
Enter side length of square(m): 4
Area of square of side length 4 is 16.
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\\~\\
\question{Write a program that receives input from the user to calculate the area of a rectangle.}
\begin{code}
{Program}{python}
length = int(input("Enter length: "))
breadth = int(input("Enter breadth: "))
print(f"Area of rectangle having length {length} and breadth {breadth} is {length * breadth}.")
\end{code}
\begin{code}
{Output}{text}
Enter length: 5
Enter breadth: 4
Area of rectangle having length 5 and breadth 4 is 20.
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\\~\\
\question{Write a program to check if the input string is a palindrome or not.}
\begin{code}
{Program}{python}
original = input("Enter a string: ")
print("Given string is", "a" if original == original[::-1] else "not a", "palindrome.")
\end{code}
\begin{code}
{Output}{text}
Enter a string: ehehe
Given string is a palindrome.
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\question{Write a program that receives marks of a student for a subject as input and assigns a grade A$\|$B$\|$C%
$\|$D$\|$E$\|$F.}
\begin{code}
{Program}{python}
offset = 9 - int(input("Enter marks for subject (0 - 100): ")) // 10
# Makes negative offset values equal zero
positive_offset = (abs(offset) + offset) // 2
print(chr(65 + positive_offset) if offset <= 5 else "F")
\end{code}
\begin{code}
{Output}{text}
Enter marks for subject (0 - 100): 90
A
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\question{Write a program to compute the GCD of two numbers.}
\begin{code}
{Program}{python}
def gcd(a, b):
# Using the Euclidean algorithm
if a < b:
return gcd(a, b - a)
elif a > b:
return gcd(a - b, b)
return a # if a equals b, then gcd is the same as a and b.
print(gcd(
int(input("Enter first number: ")),
int(input("Enter second number: "))
))
\end{code}
\begin{code}
{Output}{text}
Enter first number: 10
Enter second number: 4
2
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\\~\\
\question{Write a program to check if the given number is an Armstrong number or not. Examples of Armstrong number
are 153, 370, 371 etc.}
\begin{code}
{Program}{python}
num = int(str_num := input("Enter a number: "))
power = len(str_num)
print(
"Given number is",
"not an" if sum([int(digit) ** power for digit in str_num]) != num else "an",
"Armstrong number."
)
\end{code}
\begin{code}
{Output}{text}
Enter a number: 153
Given number is an Armstrong number.
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\newpage
\question{Write a program to check if the input year is a leap year or not.}
\begin{code}
{Program}{python}
from calendar import isleap
print(
"Given year is",
"a" if isleap(int(input("Enter a year: "))) else "not a",
"leap year."
)
\end{code}
\begin{code}
{Output}{text}
Enter a year: 2024
Given year is a leap year.
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\\~\\
\question{Write a program to compute factorial of a given number.}
\begin{code}
{Program}{python}
def fac(n):
if n == 0:
return 1
return n * fac(n - 1)
print(fac(int(input("Enter a number: "))))
\end{code}
\begin{code}
{Output}{text}
Enter a number: 5
120
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\\~\\
\question{Write a program to generate the Fibonacci sequence till 100.}
\begin{code}
{Program}{python}
a, b = 0, 1
print(a, end=" ")
while b <= 100:
print(b, end=" ")
a, b = b, b + a
\end{code}
\begin{code}
{Output}{text}
0 1 1 2 3 5 8 13 21 34 55 89
\end{code}
\vfill
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\newpage
\question{Write a program to print the multiplication table of a given number.}
\begin{code}
{Program}{python}
def table(n):
for i in range(1, 11):
print(f"{n} x {i} = {n * i}")
table(int(input("Enter a number: ")))
\end{code}
\begin{code}
{Output}{text}
Enter a number: 3
3 x 1 = 3
3 x 2 = 6
3 x 3 = 9
3 x 4 = 12
3 x 5 = 15
3 x 6 = 18
3 x 7 = 21
3 x 8 = 24
3 x 9 = 27
3 x 10 = 30
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\question{Write a program to create two lists and perform the following operation's:%
\begin{enumerate}
\item Add the elements of the two list.
\item Compare the contents of the two list.
\item Find the number of elements in the list.
\item Sort the elements of the list.
\item Reverse the contents of the list.
\end{enumerate}}
\begin{code}
{Program}{python}
a, b = [1, 3, 2, 4, 5], [6, 5, 7, 9, 8]
print(
[x + y for x, y in zip(a, b)], # Only works for lists having same lengths
a[2] == a[3],
len(a), len(b),
sorted(b),
list(reversed(a)),
sep="\n"
)
\end{code}
\newpage
\begin{code}
{Output}{text}
[7, 8, 9, 13, 13]
False
5
5
[5, 6, 7, 8, 9]
[5, 4, 2, 3, 1]
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\question{Write a Program to create and display the content of the tuple. Initialize the tuple with the name of
the cities. Display content of the tuple along with name/index positions of the cities.}
\begin{code}
{Program}{python}
cities = ("New Delhi", "Pune", "Jaipur", "Amritsar")
print(cities)
print(*[f"({i}): {name}" for i, name in enumerate(cities)], sep="\n")
\end{code}
\begin{code}
{Output}{text}
('New Delhi', 'Pune', 'Jaipur', 'Amritsar')
(0): New Delhi
(1): Pune
(2): Jaipur
(3): Amritsar
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\question{Write a program to create an array of even numbers till 14. Display the contents of array, compute the
length of the array and also show how to delete a element from the desired position from the array.}
\begin{code}
{Program}{python}
array = list(range(0, 15, 2))
print(array)
print(len(array))
del array[3]
print(array)
\end{code}
\begin{code}
{Output}{text}
[0, 2, 4, 6, 8, 10, 12, 14]
8
[0, 2, 4, 8, 10, 12, 14]
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\question{Using \texttt{filter()} function, write a program to filter the elements which are greater than 9.}
\begin{code}
{Program}{python}
from random import randrange
data = [randrange(0, 20) for _ in range(20)]
print(list(filter(lambda x: x > 9, data)))
\end{code}
\newpage
\begin{code}
{Output}{text}
[12, 12, 17, 14, 15, 16, 12, 13, 11, 15, 14, 12]
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\\~\\
\question{Using \texttt{filter()} function, write a program to filter the elements which are greater than 9.}
\begin{code}
{Program}{python}
from random import randrange
data = [randrange(0, 100) for _ in range(30)]
print(data)
print(list(filter(lambda x: x % 5 == 0, data)))
\end{code}
\begin{code}
{Output}{text}
[94, 39, 28, 55, 56, 39, 1, 53, 82, 24, 71, 20, 22, 36, 27, 40, 33, 67, 42, 94, 51, 41, 50, 3, 71, 15, 68, 29, 78, 79]
[55, 20, 40, 50, 15]
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\\~\\
\question{Write a program to create a file called “input.txt”, perform write/read operation on it with a string
``Computer Science''.}
\begin{code}
{Program}{python}
with open("input.txt", "w") as file:
file.write("Computer Science")
with open("input.txt") as file:
print(file.read())
\end{code}
\begin{code}
{Output}{text}
Computer Science
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\\~\\
\question{Write a program to create a file called “input.txt”, initialize it with a string of your choice and
perform the read operation to read only the first 3 characters from the file.}
\begin{code}
{Program}{python}
with open("input.txt", "w") as file:
file.write("Hello, World!")
with open("input.txt") as file:
print(file.read(3))
\end{code}
\begin{code}
{Output}{text}
Hel
\end{code}
\newpage
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\question{Using NumPy, write a program to create 1-dimensional array, load it with numbers, and perform the
operation of iteration and slicing on it.}
\begin{code}
{Program}{python}
import numpy as np
print(arr := np.array([2, 3, 4, 1, 7, 6], np.int32))
for e in np.nditer(arr):
print(e, end=" ")
print()
print(arr[2:5])
\end{code}
\begin{code}
{Output}{text}
[2 3 4 1 7 6]
2 3 4 1 7 6
[4 1 7]
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\\~\\
\question{Using NumPy, write a program to create multidimensional array, load it with the numbers and display the
content of it.}
\begin{code}
{Program}{python}
import numpy as np
arr = np.array([[1, 2, 3], [4, 5, 6]])
print(arr)
\end{code}
\begin{code}
{Output}{text}
[[1 2 3]
[4 5 6]]
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\\~\\
\question{Using NumPy, write a program to create two 1-dimensional array and perform the operation of iteration,
sorting the contents of array and concatenating the contents of the array.}
\begin{code}
{Program}{python}
import numpy as np
arr = np.array([9, 4, 6, 2, 7])
for e in np.nditer(arr):
print(e)
print(np.sort(arr))
print(np.concatenate((arr, np.array([38, 77, 29, 84, 75]))))
\end{code}
\begin{code}
{Output}{text}
9
4
6
2
7
[2 4 6 7 9]
[ 9 4 6 2 7 38 77 29 84 75]
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\\~\\
\question{Using NumPy, initialize an array and display its dimensionality.}
\begin{code}
{Program}{python}
import numpy as np
arr = np.array([[[1, 2], [3, 4]], [[5, 6], [6, 7]], [[8, 9], [9, 10]]])
print(arr.shape)
\end{code}
\begin{code}
{Output}{text}
(3, 2, 2)
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\\~\\
\question{Using Pandas, create a dataframe, initialize it with the contents such as your enrollment Number and
name and display them.}
\begin{code}
{Program}{python}
import numpy as np
import pandas as pd
class_list = pd.DataFrame(np.array([
["Name", "Enrollment Number"],
["Alice", 1],
["Bob", 2],
["Bob", 3]
]))
print(class_list)
\end{code}
\begin{code}
{Output}{text}
0 1
0 Name Enrollment Number
1 Alice 1
2 Bob 2
3 Bob 3
\end{code}
% ---------------------------------------------------------------------------------------------------------------- %
% ---------------------------------------------------------------------------------------------------------------- %
\\~\\
\question{Create 2 arrays, using MatPlotLib, plot the graph with the content of the two arrays, with coordinates
plotted on x-axis and y-axis.}
\begin{code}
{Program}{python}
import numpy as np
import matplotlib.pyplot as plt
from random import randint
points = np.array([
[randint(0, 100) for _ in range(50)],
[randint(0, 100) for _ in range(50)],
])
fig, ax = plt.subplots()
ax.plot(points[0], points[1], 'ro')
plt.show()
\end{code}
\outputfigure{q27}
% ---------------------------------------------------------------------------------------------------------------- %
\end{document}
1 | %! Author = Sujal Singh |
2 | %! Date = 5/8/24 |
3 | |
4 | % Preamble |
5 | %! suppress = FileNotFound |
6 | \documentclass[11pt]{ipu-python} |
7 | \usepackage[ |
8 | pdftitle={Programming in Python Practical File}, |
9 | pdfsubject={Programming in Python Practical File}, |
10 | pdfauthor={Sujal Singh}, |
11 | pdfdisplaydoctitle, |
12 | hidelinks, |
13 | ]{hyperref} |
14 | |
15 | % Packages |
16 | \usepackage{amsmath} |
17 | |
18 | \graphicspath{figures/} |
19 | |
20 | % Document |
21 | \makeindex |
22 | \begin{document} |
23 | \maketitle |
24 | % ---------------------------------------------------------------------------------------------------------------- % |
25 | |
26 | % ---------------------------------------------------------------------------------------------------------------- % |
27 | \question{% |
28 | Write a program to perform string maniuplation operations using set of pre-defined functions such as: |
29 | \begin{itemize} |
30 | \item find() |
31 | \item upper() |
32 | \item len() |
33 | \item max() and min() |
34 | \item fetching specific content from string |
35 | \end{itemize}}\vspace*{10pt} |
36 | \begin{code} |
37 | {Program}{python} |
38 | string = "Hello, World!" |
39 | |
40 | print( |
41 | f'string: "{string}"\n', |
42 | f'find("llo"): {string.find("llo")}', |
43 | f'upper(): {string.upper()}', |
44 | f'len(): {len(string)}', |
45 | f'max(): "{max(string)}"', |
46 | f'min(): "{min(string)}"', |
47 | f'fetching "llo": "{string[(start := string.find("llo")):start + len("llo")]}"', |
48 | sep="\n" |
49 | ) |
50 | \end{code} |
51 | \begin{code} |
52 | {Output}{text} |
53 | string: "Hello, World!" |
54 | |
55 | find("llo"): 2 |
56 | upper(): HELLO, WORLD! |
57 | len(): 13 |
58 | max(): "r" |
59 | min(): " " |
60 | fetching "llo": "llo" |
61 | \end{code} |
62 | % ---------------------------------------------------------------------------------------------------------------- % |
63 | |
64 | % ---------------------------------------------------------------------------------------------------------------- % |
65 | \\~\vfill% |
66 | \question{% |
67 | Write a program to test and check the mathematical functions such as: |
68 | \begin{itemize} |
69 | \item ciel() |
70 | \item sqrt() |
71 | \item pow() |
72 | \item factorial() |
73 | \end{itemize}}\vfill |
74 | \newpage |
75 | \begin{code} |
76 | {Program}{python} |
77 | from math import ceil, sqrt, pow, factorial |
78 | |
79 | num = 3.14 |
80 | |
81 | print( |
82 | f"num: {num}\n", |
83 | f"ceil(num): {ceil(num)}", |
84 | f"sqrt(num): {sqrt(num)}", |
85 | f"pow(num, 2): {pow(num, 2)}", |
86 | f"factorial(5): {factorial(5)}", |
87 | sep="\n" |
88 | ) |
89 | \end{code} |
90 | \begin{code} |
91 | {Output}{text} |
92 | num: 3.14 |
93 | |
94 | ceil(num): 4 |
95 | sqrt(num): 1.772004514666935 |
96 | pow(num, 2): 9.8596 |
97 | factorial(5): 120 |
98 | \end{code} |
99 | % ---------------------------------------------------------------------------------------------------------------- % |
100 | |
101 | % ---------------------------------------------------------------------------------------------------------------- % |
102 | \\~\\% |
103 | \question{Write a program that receives a number as input from user and returns if it's an odd or even number.} |
104 | \begin{code} |
105 | {Program}{python} |
106 | num = int(input("Enter an integer: ")) |
107 | print(f"{num} is {'even' if num % 2 == 0 else 'odd'}.") |
108 | \end{code} |
109 | \begin{code} |
110 | {Output}{text} |
111 | Enter an integer: 42 |
112 | 42 is even. |
113 | \end{code} |
114 | % ---------------------------------------------------------------------------------------------------------------- % |
115 | |
116 | % ---------------------------------------------------------------------------------------------------------------- % |
117 | \\~\\ |
118 | \question{Write a program that receives input from the user to calculate the area of a triangle.} |
119 | \begin{code} |
120 | {Program}{python} |
121 | base = int(input("Enter base length of triangle(m): ")) |
122 | height = int(input("Enter height of triangle(m): ")) |
123 | print("area =", 0.5 * base * height) |
124 | \end{code} |
125 | \begin{code} |
126 | {Output}{text} |
127 | Enter base length of triangle(m): 5 |
128 | Enter height of triangle(m): 4 |
129 | area = 10.0 |
130 | \end{code} |
131 | \newpage |
132 | % ---------------------------------------------------------------------------------------------------------------- % |
133 | |
134 | % ---------------------------------------------------------------------------------------------------------------- % |
135 | \question{Write a program that receives input from the user to calculate the area of a square.} |
136 | \begin{code} |
137 | {Program}{python} |
138 | side = int(input("Enter side length of square(m): ")) |
139 | print(f"Area of square of side length {side} is {side * side}.") |
140 | \end{code} |
141 | \begin{code} |
142 | {Output}{text} |
143 | Enter side length of square(m): 4 |
144 | Area of square of side length 4 is 16. |
145 | \end{code} |
146 | % ---------------------------------------------------------------------------------------------------------------- % |
147 | |
148 | % ---------------------------------------------------------------------------------------------------------------- % |
149 | \\~\\ |
150 | \question{Write a program that receives input from the user to calculate the area of a rectangle.} |
151 | \begin{code} |
152 | {Program}{python} |
153 | length = int(input("Enter length: ")) |
154 | breadth = int(input("Enter breadth: ")) |
155 | print(f"Area of rectangle having length {length} and breadth {breadth} is {length * breadth}.") |
156 | \end{code} |
157 | \begin{code} |
158 | {Output}{text} |
159 | Enter length: 5 |
160 | Enter breadth: 4 |
161 | Area of rectangle having length 5 and breadth 4 is 20. |
162 | \end{code} |
163 | % ---------------------------------------------------------------------------------------------------------------- % |
164 | |
165 | % ---------------------------------------------------------------------------------------------------------------- % |
166 | \\~\\ |
167 | \question{Write a program to check if the input string is a palindrome or not.} |
168 | \begin{code} |
169 | {Program}{python} |
170 | original = input("Enter a string: ") |
171 | print("Given string is", "a" if original == original[::-1] else "not a", "palindrome.") |
172 | \end{code} |
173 | \begin{code} |
174 | {Output}{text} |
175 | Enter a string: ehehe |
176 | Given string is a palindrome. |
177 | \end{code} |
178 | % ---------------------------------------------------------------------------------------------------------------- % |
179 | |
180 | % ---------------------------------------------------------------------------------------------------------------- % |
181 | \question{Write a program that receives marks of a student for a subject as input and assigns a grade A$\|$B$\|$C% |
182 | $\|$D$\|$E$\|$F.} |
183 | \begin{code} |
184 | {Program}{python} |
185 | offset = 9 - int(input("Enter marks for subject (0 - 100): ")) // 10 |
186 | # Makes negative offset values equal zero |
187 | positive_offset = (abs(offset) + offset) // 2 |
188 | print(chr(65 + positive_offset) if offset <= 5 else "F") |
189 | \end{code} |
190 | \begin{code} |
191 | {Output}{text} |
192 | Enter marks for subject (0 - 100): 90 |
193 | A |
194 | \end{code} |
195 | % ---------------------------------------------------------------------------------------------------------------- % |
196 | |
197 | % ---------------------------------------------------------------------------------------------------------------- % |
198 | \question{Write a program to compute the GCD of two numbers.} |
199 | \begin{code} |
200 | {Program}{python} |
201 | def gcd(a, b): |
202 | # Using the Euclidean algorithm |
203 | if a < b: |
204 | return gcd(a, b - a) |
205 | elif a > b: |
206 | return gcd(a - b, b) |
207 | return a # if a equals b, then gcd is the same as a and b. |
208 | |
209 | |
210 | print(gcd( |
211 | int(input("Enter first number: ")), |
212 | int(input("Enter second number: ")) |
213 | )) |
214 | \end{code} |
215 | \begin{code} |
216 | {Output}{text} |
217 | Enter first number: 10 |
218 | Enter second number: 4 |
219 | 2 |
220 | \end{code} |
221 | % ---------------------------------------------------------------------------------------------------------------- % |
222 | |
223 | % ---------------------------------------------------------------------------------------------------------------- % |
224 | \\~\\ |
225 | \question{Write a program to check if the given number is an Armstrong number or not. Examples of Armstrong number |
226 | are 153, 370, 371 etc.} |
227 | \begin{code} |
228 | {Program}{python} |
229 | num = int(str_num := input("Enter a number: ")) |
230 | |
231 | power = len(str_num) |
232 | print( |
233 | "Given number is", |
234 | "not an" if sum([int(digit) ** power for digit in str_num]) != num else "an", |
235 | "Armstrong number." |
236 | ) |
237 | \end{code} |
238 | \begin{code} |
239 | {Output}{text} |
240 | Enter a number: 153 |
241 | Given number is an Armstrong number. |
242 | \end{code} |
243 | % ---------------------------------------------------------------------------------------------------------------- % |
244 | |
245 | % ---------------------------------------------------------------------------------------------------------------- % |
246 | \newpage |
247 | \question{Write a program to check if the input year is a leap year or not.} |
248 | \begin{code} |
249 | {Program}{python} |
250 | from calendar import isleap |
251 | |
252 | print( |
253 | "Given year is", |
254 | "a" if isleap(int(input("Enter a year: "))) else "not a", |
255 | "leap year." |
256 | ) |
257 | \end{code} |
258 | \begin{code} |
259 | {Output}{text} |
260 | Enter a year: 2024 |
261 | Given year is a leap year. |
262 | \end{code} |
263 | % ---------------------------------------------------------------------------------------------------------------- % |
264 | |
265 | % ---------------------------------------------------------------------------------------------------------------- % |
266 | \\~\\ |
267 | \question{Write a program to compute factorial of a given number.} |
268 | \begin{code} |
269 | {Program}{python} |
270 | def fac(n): |
271 | if n == 0: |
272 | return 1 |
273 | return n * fac(n - 1) |
274 | |
275 | |
276 | print(fac(int(input("Enter a number: ")))) |
277 | \end{code} |
278 | \begin{code} |
279 | {Output}{text} |
280 | Enter a number: 5 |
281 | 120 |
282 | \end{code} |
283 | % ---------------------------------------------------------------------------------------------------------------- % |
284 | |
285 | % ---------------------------------------------------------------------------------------------------------------- % |
286 | \\~\\ |
287 | \question{Write a program to generate the Fibonacci sequence till 100.} |
288 | \begin{code} |
289 | {Program}{python} |
290 | a, b = 0, 1 |
291 | print(a, end=" ") |
292 | while b <= 100: |
293 | print(b, end=" ") |
294 | a, b = b, b + a |
295 | \end{code} |
296 | \begin{code} |
297 | {Output}{text} |
298 | 0 1 1 2 3 5 8 13 21 34 55 89 |
299 | \end{code} |
300 | \vfill |
301 | % ---------------------------------------------------------------------------------------------------------------- % |
302 | |
303 | % ---------------------------------------------------------------------------------------------------------------- % |
304 | \newpage |
305 | \question{Write a program to print the multiplication table of a given number.} |
306 | \begin{code} |
307 | {Program}{python} |
308 | def table(n): |
309 | for i in range(1, 11): |
310 | print(f"{n} x {i} = {n * i}") |
311 | |
312 | |
313 | table(int(input("Enter a number: "))) |
314 | \end{code} |
315 | \begin{code} |
316 | {Output}{text} |
317 | Enter a number: 3 |
318 | 3 x 1 = 3 |
319 | 3 x 2 = 6 |
320 | 3 x 3 = 9 |
321 | 3 x 4 = 12 |
322 | 3 x 5 = 15 |
323 | 3 x 6 = 18 |
324 | 3 x 7 = 21 |
325 | 3 x 8 = 24 |
326 | 3 x 9 = 27 |
327 | 3 x 10 = 30 |
328 | \end{code} |
329 | % ---------------------------------------------------------------------------------------------------------------- % |
330 | |
331 | % ---------------------------------------------------------------------------------------------------------------- % |
332 | \question{Write a program to create two lists and perform the following operation's:% |
333 | \begin{enumerate} |
334 | \item Add the elements of the two list. |
335 | \item Compare the contents of the two list. |
336 | \item Find the number of elements in the list. |
337 | \item Sort the elements of the list. |
338 | \item Reverse the contents of the list. |
339 | \end{enumerate}} |
340 | \begin{code} |
341 | {Program}{python} |
342 | a, b = [1, 3, 2, 4, 5], [6, 5, 7, 9, 8] |
343 | print( |
344 | [x + y for x, y in zip(a, b)], # Only works for lists having same lengths |
345 | a[2] == a[3], |
346 | len(a), len(b), |
347 | sorted(b), |
348 | list(reversed(a)), |
349 | sep="\n" |
350 | ) |
351 | \end{code} |
352 | \newpage |
353 | \begin{code} |
354 | {Output}{text} |
355 | [7, 8, 9, 13, 13] |
356 | False |
357 | 5 |
358 | 5 |
359 | [5, 6, 7, 8, 9] |
360 | [5, 4, 2, 3, 1] |
361 | \end{code} |
362 | % ---------------------------------------------------------------------------------------------------------------- % |
363 | |
364 | % ---------------------------------------------------------------------------------------------------------------- % |
365 | \question{Write a Program to create and display the content of the tuple. Initialize the tuple with the name of |
366 | the cities. Display content of the tuple along with name/index positions of the cities.} |
367 | \begin{code} |
368 | {Program}{python} |
369 | cities = ("New Delhi", "Pune", "Jaipur", "Amritsar") |
370 | print(cities) |
371 | print(*[f"({i}): {name}" for i, name in enumerate(cities)], sep="\n") |
372 | \end{code} |
373 | \begin{code} |
374 | {Output}{text} |
375 | ('New Delhi', 'Pune', 'Jaipur', 'Amritsar') |
376 | (0): New Delhi |
377 | (1): Pune |
378 | (2): Jaipur |
379 | (3): Amritsar |
380 | \end{code} |
381 | % ---------------------------------------------------------------------------------------------------------------- % |
382 | |
383 | % ---------------------------------------------------------------------------------------------------------------- % |
384 | \question{Write a program to create an array of even numbers till 14. Display the contents of array, compute the |
385 | length of the array and also show how to delete a element from the desired position from the array.} |
386 | \begin{code} |
387 | {Program}{python} |
388 | array = list(range(0, 15, 2)) |
389 | print(array) |
390 | print(len(array)) |
391 | del array[3] |
392 | print(array) |
393 | \end{code} |
394 | \begin{code} |
395 | {Output}{text} |
396 | [0, 2, 4, 6, 8, 10, 12, 14] |
397 | 8 |
398 | [0, 2, 4, 8, 10, 12, 14] |
399 | \end{code} |
400 | % ---------------------------------------------------------------------------------------------------------------- % |
401 | |
402 | % ---------------------------------------------------------------------------------------------------------------- % |
403 | \question{Using \texttt{filter()} function, write a program to filter the elements which are greater than 9.} |
404 | \begin{code} |
405 | {Program}{python} |
406 | from random import randrange |
407 | |
408 | data = [randrange(0, 20) for _ in range(20)] |
409 | print(list(filter(lambda x: x > 9, data))) |
410 | \end{code} |
411 | \newpage |
412 | \begin{code} |
413 | {Output}{text} |
414 | [12, 12, 17, 14, 15, 16, 12, 13, 11, 15, 14, 12] |
415 | \end{code} |
416 | % ---------------------------------------------------------------------------------------------------------------- % |
417 | |
418 | % ---------------------------------------------------------------------------------------------------------------- % |
419 | \\~\\ |
420 | \question{Using \texttt{filter()} function, write a program to filter the elements which are greater than 9.} |
421 | \begin{code} |
422 | {Program}{python} |
423 | from random import randrange |
424 | |
425 | data = [randrange(0, 100) for _ in range(30)] |
426 | print(data) |
427 | print(list(filter(lambda x: x % 5 == 0, data))) |
428 | \end{code} |
429 | \begin{code} |
430 | {Output}{text} |
431 | [94, 39, 28, 55, 56, 39, 1, 53, 82, 24, 71, 20, 22, 36, 27, 40, 33, 67, 42, 94, 51, 41, 50, 3, 71, 15, 68, 29, 78, 79] |
432 | [55, 20, 40, 50, 15] |
433 | \end{code} |
434 | % ---------------------------------------------------------------------------------------------------------------- % |
435 | |
436 | % ---------------------------------------------------------------------------------------------------------------- % |
437 | \\~\\ |
438 | \question{Write a program to create a file called “input.txt”, perform write/read operation on it with a string |
439 | ``Computer Science''.} |
440 | \begin{code} |
441 | {Program}{python} |
442 | with open("input.txt", "w") as file: |
443 | file.write("Computer Science") |
444 | |
445 | with open("input.txt") as file: |
446 | print(file.read()) |
447 | \end{code} |
448 | \begin{code} |
449 | {Output}{text} |
450 | Computer Science |
451 | \end{code} |
452 | % ---------------------------------------------------------------------------------------------------------------- % |
453 | |
454 | % ---------------------------------------------------------------------------------------------------------------- % |
455 | \\~\\ |
456 | \question{Write a program to create a file called “input.txt”, initialize it with a string of your choice and |
457 | perform the read operation to read only the first 3 characters from the file.} |
458 | \begin{code} |
459 | {Program}{python} |
460 | with open("input.txt", "w") as file: |
461 | file.write("Hello, World!") |
462 | |
463 | with open("input.txt") as file: |
464 | print(file.read(3)) |
465 | \end{code} |
466 | \begin{code} |
467 | {Output}{text} |
468 | Hel |
469 | \end{code} |
470 | \newpage |
471 | % ---------------------------------------------------------------------------------------------------------------- % |
472 | |
473 | % ---------------------------------------------------------------------------------------------------------------- % |
474 | \question{Using NumPy, write a program to create 1-dimensional array, load it with numbers, and perform the |
475 | operation of iteration and slicing on it.} |
476 | \begin{code} |
477 | {Program}{python} |
478 | import numpy as np |
479 | |
480 | print(arr := np.array([2, 3, 4, 1, 7, 6], np.int32)) |
481 | for e in np.nditer(arr): |
482 | print(e, end=" ") |
483 | print() |
484 | print(arr[2:5]) |
485 | \end{code} |
486 | \begin{code} |
487 | {Output}{text} |
488 | [2 3 4 1 7 6] |
489 | 2 3 4 1 7 6 |
490 | [4 1 7] |
491 | \end{code} |
492 | % ---------------------------------------------------------------------------------------------------------------- % |
493 | |
494 | % ---------------------------------------------------------------------------------------------------------------- % |
495 | \\~\\ |
496 | \question{Using NumPy, write a program to create multidimensional array, load it with the numbers and display the |
497 | content of it.} |
498 | \begin{code} |
499 | {Program}{python} |
500 | import numpy as np |
501 | |
502 | arr = np.array([[1, 2, 3], [4, 5, 6]]) |
503 | print(arr) |
504 | \end{code} |
505 | \begin{code} |
506 | {Output}{text} |
507 | [[1 2 3] |
508 | [4 5 6]] |
509 | \end{code} |
510 | % ---------------------------------------------------------------------------------------------------------------- % |
511 | |
512 | % ---------------------------------------------------------------------------------------------------------------- % |
513 | \\~\\ |
514 | \question{Using NumPy, write a program to create two 1-dimensional array and perform the operation of iteration, |
515 | sorting the contents of array and concatenating the contents of the array.} |
516 | \begin{code} |
517 | {Program}{python} |
518 | import numpy as np |
519 | |
520 | arr = np.array([9, 4, 6, 2, 7]) |
521 | |
522 | for e in np.nditer(arr): |
523 | print(e) |
524 | |
525 | print(np.sort(arr)) |
526 | print(np.concatenate((arr, np.array([38, 77, 29, 84, 75])))) |
527 | \end{code} |
528 | \begin{code} |
529 | {Output}{text} |
530 | 9 |
531 | 4 |
532 | 6 |
533 | 2 |
534 | 7 |
535 | [2 4 6 7 9] |
536 | [ 9 4 6 2 7 38 77 29 84 75] |
537 | \end{code} |
538 | % ---------------------------------------------------------------------------------------------------------------- % |
539 | |
540 | % ---------------------------------------------------------------------------------------------------------------- % |
541 | \\~\\ |
542 | \question{Using NumPy, initialize an array and display its dimensionality.} |
543 | \begin{code} |
544 | {Program}{python} |
545 | import numpy as np |
546 | |
547 | arr = np.array([[[1, 2], [3, 4]], [[5, 6], [6, 7]], [[8, 9], [9, 10]]]) |
548 | print(arr.shape) |
549 | \end{code} |
550 | \begin{code} |
551 | {Output}{text} |
552 | (3, 2, 2) |
553 | \end{code} |
554 | % ---------------------------------------------------------------------------------------------------------------- % |
555 | |
556 | % ---------------------------------------------------------------------------------------------------------------- % |
557 | \\~\\ |
558 | \question{Using Pandas, create a dataframe, initialize it with the contents such as your enrollment Number and |
559 | name and display them.} |
560 | \begin{code} |
561 | {Program}{python} |
562 | import numpy as np |
563 | import pandas as pd |
564 | |
565 | class_list = pd.DataFrame(np.array([ |
566 | ["Name", "Enrollment Number"], |
567 | ["Alice", 1], |
568 | ["Bob", 2], |
569 | ["Bob", 3] |
570 | ])) |
571 | |
572 | print(class_list) |
573 | \end{code} |
574 | \begin{code} |
575 | {Output}{text} |
576 | 0 1 |
577 | 0 Name Enrollment Number |
578 | 1 Alice 1 |
579 | 2 Bob 2 |
580 | 3 Bob 3 |
581 | \end{code} |
582 | % ---------------------------------------------------------------------------------------------------------------- % |
583 | |
584 | % ---------------------------------------------------------------------------------------------------------------- % |
585 | \\~\\ |
586 | \question{Create 2 arrays, using MatPlotLib, plot the graph with the content of the two arrays, with coordinates |
587 | plotted on x-axis and y-axis.} |
588 | \begin{code} |
589 | {Program}{python} |
590 | import numpy as np |
591 | import matplotlib.pyplot as plt |
592 | from random import randint |
593 | |
594 | points = np.array([ |
595 | [randint(0, 100) for _ in range(50)], |
596 | [randint(0, 100) for _ in range(50)], |
597 | ]) |
598 | |
599 | fig, ax = plt.subplots() |
600 | ax.plot(points[0], points[1], 'ro') |
601 | plt.show() |
602 | \end{code} |
603 | \outputfigure{q27} |
604 | % ---------------------------------------------------------------------------------------------------------------- % |
605 | \end{document} |