1085. Sum of Digits in the Minimum Number
Problem Description
In this problem, you're given an array of integers called nums
. Your task is to determine the sum of the digits of the smallest integer in this array. Once you've calculated this sum, you need to decide the return value based on whether this sum is odd or even. If the sum of the digits of the smallest integer is odd, return 0
. If it's even, return 1
.
For example, if the array is [34, 23, 1, 24, 75, 33, 54, 8]
, the smallest integer is 1
, and the sum of its digits is 1
. Since 1
is odd, the function should return 0
.
Intuition
To find the solution to this problem, you should follow these steps:
- Identify the smallest integer in the
nums
array. You can do this by directly using Python'smin()
function. - Calculate the sum of digits of this smallest integer. This can be done by repeatedly taking the remainder of the number when divided by
10
(to get the last digit) and adding it to a sum variable. After getting the last digit, you divide the number by10
(using floor division) to remove the last digit. You keep doing this in a loop until the number becomes0
. - To determine if the sum is even or odd, you can use the bitwise AND operator
&
with1
. Ifs & 1
is1
, the sum is odd; otherwise, it's even. To return0
for odd sums and1
for even sums, you can use the XOR operator^
with1
to invert the bit returned bys & 1
.
The given solution follows this thinking process and applies these operations to arrive at the correct answer.
Learn more about Math patterns.
Solution Approach
The implementation of the solution uses a straightforward algorithm that involves the following steps:
-
Find the minimum value in the array: We use Python's built-in
min()
function to find the smallest integer in thenums
array. This is an efficient way to scan through the array once and identify the minimum value. This step usesO(n)
time, wheren
is the number of elements innums
. -
Sum the digits of the minimum value: After finding the smallest integer
x
, we initialize a variables
to0
to hold the sum of the digits. We then enter a while loop that continues as long asx
is not0
. Inside the loop, we:- Use the modulo operator
%
to get the last digit ofx
by calculatingx % 10
. - Add this last digit to the sum
s
. - Remove the last digit from
x
by performing floor divisionx //= 10
, effectively reducingx
by one digit from the right.
This loop runs as many times as there are digits in the minimum value, which is at most
O(log(max(nums)))
since the number of digits in a number is proportional to the logarithm of the number. - Use the modulo operator
-
Determine the parity of the sum and provide the correct output: After obtaining the sum of the digits
s
, we need to return0
ifs
is odd, and1
ifs
is even. Since we want to return the opposite of the sum's parity:- We check if the sum is odd using
s & 1
which is a common bit manipulation technique to get the least significant bit of a number. - We then invert the result by using the XOR operator with
1
,s & 1 ^ 1
. The operations & 1
returns1
if the sum is odd (because the least significant bit will be1
) and0
otherwise. The XOR operation^ 1
essentially flips the bit, turning1
into0
and vice versa.
- We check if the sum is odd using
By following this simple yet effective algorithm and using basic bit manipulation, we efficiently solve the problem without the need for complex data structures or patterns.
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Start EvaluatorExample Walkthrough
Let's walk through a small example to illustrate the solution approach. Consider the array [56, 32, 14, 12, 22]
.
-
Find the Minimum Value in the Array: We apply the
min()
function to find the smallest integer in thenums
array. In this case,min([56, 32, 14, 12, 22])
gives us12
, which is the smallest integer in the array. -
Sum the Digits of the Minimum Value: With the smallest integer,
12
, we need to sum its digits:- We initialize sum
s
to0
. - We enter a while loop where
x
is our smallest integer,12
, and iterate untilx
becomes0
:- First iteration:
x % 10
gives us2
, andx // 10
reducesx
to1
. - Add
2
to the sums
(initially0
), sos
becomes2
. - Second iteration:
x % 10
gives us1
, andx // 10
reducesx
to0
. - Add
1
to the sums
(currently2
), sos
becomes3
.
- First iteration:
- The loop ends as
x
is now0
.
- We initialize sum
-
Determine the Parity of the Sum and Provide the Correct Output: Now we have the sum of the digits
s
which is3
. We use bit manipulation to find out if it's odd or even and then return the corresponding value:- We check if the sum is odd using
s & 1
. In this case, it is3 & 1
, which evaluates to1
(since3
is odd). - We then invert the result using the XOR operator with
1
, i.e.,s & 1 ^ 1
. So the final operation is1 ^ 1
, which evaluates to0
.
- We check if the sum is odd using
Thus, since the sum of the digits 3
is odd, we return 0
. This small example demonstrates how the algorithm effectively computes the correct return value by identifying the smallest number, summing its digits, and determining the sum's parity with simple arithmetic and bit manipulation operations.
Solution Implementation
1from typing import List
2
3class Solution:
4 def sumOfDigits(self, nums: List[int]) -> int:
5 # Find the minimum number in the list
6 min_num = min(nums)
7
8 # Initialize sum of digits to zero
9 digit_sum = 0
10
11 # Calculate the sum of digits of the minimum number
12 while min_num:
13 digit_sum += min_num % 10 # Get the last digit and add to sum
14 min_num //= 10 # Remove the last digit
15
16 # Check if the sum of digits is odd or even
17 # If the sum is odd, return 0 (since odd & 1 is 1, then 1 ^ 1 is 0)
18 # If the sum is even, return 1 (since even & 1 is 0, then 0 ^ 1 is 1)
19 return digit_sum % 2 ^ 1
20
1class Solution {
2 // This method calculates the sum of digits of the smallest number in the array.
3 // If the sum is odd, it returns 0, and if even, it returns 1.
4 public int sumOfDigits(int[] nums) {
5 // Initialize the minimum to a high value.
6 int min = 100;
7
8 // Iterate through the array to find the smallest value.
9 for (int value : nums) {
10 min = Math.min(min, value);
11 }
12
13 // Calculate the sum of the digits of the smallest number.
14 int sum = 0;
15 while (min > 0) {
16 sum += min % 10; // Add the rightmost digit to sum.
17 min /= 10; // Remove the rightmost digit.
18 }
19
20 // If the sum of the digits is odd, return 0, otherwise return 1.
21 // The bitwise AND with 1 will be 0 if sum is even, or 1 if odd.
22 // The bitwise XOR with 1 inverts the result, so even sums return 1 and odd sums return 0.
23 return sum & 1 ^ 1;
24 }
25}
26
1class Solution {
2public:
3 int sumOfDigits(vector<int>& nums) {
4 // Find the minimum element in the vector 'nums'
5 int minElement = *min_element(nums.begin(), nums.end());
6
7 // Initialize sum of digits of the minimum element to zero
8 int sum = 0;
9
10 // Calculate the sum of digits of the minimum element
11 for (; minElement > 0; minElement /= 10) {
12 sum += minElement % 10; // Add the least significant digit to 'sum'
13 }
14
15 // Return 1 if the sum is even, and 0 if the sum is odd
16 // The bitwise '&' checks if the sum is odd (sum & 1 is 1 if sum is odd),
17 // then the '^ 1' inverts the bit, so odd sums return 0, even sums return 1.
18 return sum & 1 ^ 1;
19 }
20};
21
1// Function to find the sum of digits of the smallest number in the array.
2// Returns 1 if sum of digits is even, and 0 if sum is odd
3function sumOfDigits(nums: number[]): number {
4 // Find the minimum element in the array 'nums'
5 const minElement: number = Math.min(...nums);
6
7 // Initialize sum of digits of the minimum element to zero
8 let sumDigits: number = 0;
9
10 // Temporary variable to hold the value for manipulation
11 let tempMinElement: number = minElement;
12
13 // Calculate the sum of digits of the minimum element
14 while (tempMinElement > 0) {
15 sumDigits += tempMinElement % 10; // Add the least significant digit to 'sumDigits'
16 tempMinElement = Math.floor(tempMinElement / 10); // Remove the least significant digit
17 }
18
19 // Return 1 if the sumDigits is even, and 0 if the sumDigits is odd
20 // The bitwise '&' checks if sumDigits is odd (sumDigits & 1 is 1 if sumDigits is odd),
21 // The '^ 1' inverts the bit, so odd sums return 0, even sums return 1.
22 return sumDigits & 1 ^ 1;
23}
24
25// Example of using the function with an array of numbers
26const result: number = sumOfDigits([34, 23, 1, 24, 75, 33, 54, 8]);
27console.log(result); // Output will be the result according to the sum of digits of minimum element.
28
Time and Space Complexity
The given Python code computes the sum of digits of the smallest number in the list nums
and then returns 0
if that sum is odd, or 1
if the sum is even.
Time Complexity
The time complexity of the function sumOfDigits
is determined by two separate operations:
- Finding the minimum value in
nums
, which takesO(n)
time wheren
is the number of elements innums
. - Calculating the sum of the digits of the minimum value. In the worst case scenario, the minimum value could have
O(log x)
digits wherex
is the value of the minimum element. Therefore, the loop runs at mostO(log x)
times.
Overall, the time complexity is O(n + log x)
. However, since n
is the dominant factor, we can simplify the overall time complexity to O(n)
.
Space Complexity
The space complexity of the code is O(1)
because the function uses a fixed amount of space: variables x
and s
are the only additional memory used, and their size does not scale with the input size n
.
Learn more about how to find time and space complexity quickly using problem constraints.
Which of the following uses divide and conquer strategy?
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