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Tarun Sharma
Tarun Sharma

Posted on • Originally published at tapstechie.hashnode.dev on

Using Tuples and Comparisons in Python: A Beginner's Guide

Tuples are immutable sequences, typically used to store collections of heterogeneous data. Here’s a simple overview of tuples and how they can be compared:

Basics of Tuples

A tuple is created by placing all the items (elements) inside parentheses (), separated by commas.

# Creating a tuple
t1 = (1, 2, 3)
t2 = (4, 5, 6)

# Tuples can also be created without parentheses
t3 = 1, 2, 3

# Tuples can contain different types
t4 = (1, "hello", 3.14)
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When comparing tuples in Python, the comparison is done lexicographically. This means that Python compares the tuples element by element, starting from the first element. If the first elements are equal, it moves to the second elements, and so on, until it finds elements that differ or reaches the end of the tuples.

Tuple Comparisons

Tuples in Python can be compared using comparison operators such as ==, !=, <, <=, >, and >=. When comparing tuples, Python compares the items element by element, starting with the first elements.

Why Use Tuples?

  1. Simplicity: Tuples offer a concise way to group and compare multiple attributes. Instead of writing multiple and conditions, you can use a single tuple comparison.

  2. Lexicographical Order: When comparing tuples, Python performs a lexicographical comparison, which means it compares the first element, then the second element if the first elements are equal, and so on. This matches many natural ways of ordering (e.g., sorting by primary and secondary criteria).

  3. Readability: Using tuples can make the comparison logic clearer and more readable. It’s immediately obvious that you're comparing two sets of attributes, rather than having a long list of and conditions.

Example with Detailed Steps

t1 = (1, 2, 3)
t2 = (1, 2, 3)
t3 = (3, 2, 1)

print(t1 == t2)  # True, because all elements are equal
print(t1 == t3)  # False, because elements are different
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Let's examine the comparisons:

1. t1 < t2

t1 = (1, 2, 3)
t2 = (1, 2, 4)

# Step-by-step comparison:
# Compare first elements: 1 == 1 (equal, so move to the next elements)
# Compare second elements: 2 == 2 (equal, so move to the next elements)
# Compare third elements: 3 < 4 (3 is less than 4)

# Therefore, t1 < t2 is True
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  • Python starts by comparing the first elements: 1 and 1. Since they are equal, it moves to the second elements.

  • The second elements are 2 and 2. Again, they are equal, so it moves to the third elements.

  • The third elements are 3 and 4. Since 3 is less than 4, t1 < t2 is True.

2. t1 < t3

t1 = (1, 2, 3)
t3 = (1, 3, 2)

# Step-by-step comparison:
# Compare first elements: 1 == 1 (equal, so move to the next elements)
# Compare second elements: 2 < 3 (2 is less than 3)

# Therefore, t1 < t3 is True
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  • Python starts by comparing the first elements: 1 and 1. Since they are equal, it moves to the second elements.

  • The second elements are 2 and 3. Since 2 is less than 3, t1 < t3 is True.

Why Doesn't It Consider Further Elements?

  • Once Python finds a pair of elements that are not equal, it can determine the result of the comparison without looking at the rest of the elements.

  • In t1 < t2, after comparing the third elements (3 < 4), it doesn't matter what comes after because the result is already determined.

  • Similarly, in t1 < t3, after comparing the second elements (2 < 3), Python doesn't need to check the third elements because the result is determined.

Let's look at another example to reinforce this understanding.

Example: Different Length Tuples

Consider the tuples:

  • t4 = (1, 2)

  • t5 = (1, 2, 0)

Comparing t4 and t5:

t4 = (1, 2)
t5 = (1, 2, 0)

# Step-by-step comparison:
# Compare first elements: 1 == 1 (equal, so move to the next elements)
# Compare second elements: 2 == 2 (equal, but t4 has no more elements)

# Therefore, t4 < t5 is True because t4 is considered "less than" t5 due to its shorter length
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  • The first elements are equal (1 == 1).

  • The second elements are equal (2 == 2).

  • t4 has no more elements, while t5 has one more element (0). Thus, t4 is considered less than t5.

Using Tuples in a Class for Comparisons

Let's see how we can use tuples to implement comparison methods in a class. We'll take a simpler example.

Example: Point Class

Suppose we have a Point class representing a point in 2D space. We can use tuples to compare points based on their coordinates:

class Point:
    def __init__(self, x, y):
        self.x = x
        self.y = y

    def __eq__(self, other):
        if isinstance(other, Point):
            return (self.x, self.y) == (other.x, other.y)
        return False

    def __lt__(self, other):
        if isinstance(other, Point):
            return (self.x, self.y) < (other.x, other.y)
        return NotImplemented

# Testing the Point class
p1 = Point(1, 2)
p2 = Point(1, 2)
p3 = Point(2, 1)

print(p1 == p2)  # True
print(p1 < p3)   # True, because 1 < 2
print(p3 < p1)   # False
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Points to Remember

  • Tuple comparisons are lexicographical, meaning they compare element by element, from left to right.

  • Python stops comparing as soon as it finds a pair of elements that are not equal.

  • The first differing pair of elements determines the result of the comparison.

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