Own digits power sum
- Description
For the purposes of this task, an own digits power sum is a decimal integer which is N digits long and is equal to the sum of its individual digits raised to the power N.
- Example
The three digit integer 153 is an own digits power sum because 1³ + 5³ + 3³ = 1 + 125 + 27 = 153.
- Task
Find and show here all own digits power sums for N = 3 to N = 8 inclusive.
Optionally, do the same for N = 9 which may take a while for interpreted languages.
C
<lang c>#include <stdio.h>
- include <math.h>
- define MAX_DIGITS 9
int digits[MAX_DIGITS];
void getDigits(int i) {
int ix = 0; while (i > 0) { digits[ix++] = i % 10; i /= 10; }
}
int main() {
int n, d, i, max, lastDigit, sum, dp; int powers[10] = {0, 1, 4, 9, 16, 25, 36, 49, 64, 81}; printf("Own digits power sums for N = 3 to 9 inclusive:\n"); for (n = 3; n < 10; ++n) { for (d = 2; d < 10; ++d) powers[d] *= d; i = (int)pow(10, n-1); max = i * 10; lastDigit = 0; while (i < max) { if (!lastDigit) { getDigits(i); sum = 0; for (d = 0; d < n; ++d) { dp = digits[d]; sum += powers[dp]; } } else if (lastDigit == 1) { sum++; } else { sum += powers[lastDigit] - powers[lastDigit-1]; } if (sum == i) { printf("%d\n", i); if (lastDigit == 0) printf("%d\n", i + 1); i += 10 - lastDigit; lastDigit = 0; } else if (sum > i) { i += 10 - lastDigit; lastDigit = 0; } else if (lastDigit < 9) { i++; lastDigit++; } else { i++; lastDigit = 0; } } } return 0;
}</lang>
- Output:
Same as Wren example.
Go
<lang go>package main
import (
"fmt" "math" "rcu"
)
func main() {
powers := [10]int{0, 1, 4, 9, 16, 25, 36, 49, 64, 81} fmt.Println("Own digits power sums for N = 3 to 9 inclusive:") for n := 3; n < 10; n++ { for d := 2; d < 10; d++ { powers[d] *= d } i := int(math.Pow(10, float64(n-1))) max := i * 10 lastDigit := 0 sum := 0 var digits []int for i < max { if lastDigit == 0 { digits = rcu.Digits(i, 10) sum = 0 for _, d := range digits { sum += powers[d] } } else if lastDigit == 1 { sum++ } else { sum += powers[lastDigit] - powers[lastDigit-1] } if sum == i { fmt.Println(i) if lastDigit == 0 { fmt.Println(i + 1) } i += 10 - lastDigit lastDigit = 0 } else if sum > i { i += 10 - lastDigit lastDigit = 0 } else if lastDigit < 9 { i++ lastDigit++ } else { i++ lastDigit = 0 } } }
}</lang>
- Output:
Same as Wren example.
Julia
<lang julia>function isowndigitspowersum(n::Integer, base=10)
dig = digits(n, base=base) exponent = length(dig) return mapreduce(x -> x^exponent, +, dig) == n
end
for i in 10^2:10^9-1
isowndigitspowersum(i) && println(i)
end
</lang>
- Output:
153 370 371 407 1634 8208 9474 54748 92727 93084 548834 1741725 4210818 9800817 9926315 24678050 24678051 88593477 472335975 534494836 912985153
Python
<lang python>""" Rosetta code task: Own_digits_power_sum """
def isowndigitspowersum(integer):
""" true if sum of (digits of number raised to number of digits) == number """ digits = [int(c) for c in str(integer)] exponent = len(digits) return sum([x ** exponent for x in digits]) == integer
print("Own digits power sums for N = 3 to 9 inclusive:") for i in range(100, 1000000000):
if isowndigitspowersum(i): print(i)
</lang>
- Output:
Same as Wren example. Takes over a half hour to run.
Wren
Includes some simple optimizations to try and quicken up the search. However, getting up to N = 9 still took a little over 4 minutes on my machine. <lang ecmascript>import "./math" for Int
var powers = [0, 1, 4, 9, 16, 25, 36, 49, 64, 81] System.print("Own digits power sums for N = 3 to 9 inclusive:") for (n in 3..9) {
for (d in 2..9) powers[d] = powers[d] * d var i = 10.pow(n-1) var max = i * 10 var lastDigit = 0 var sum = 0 var digits = null while (i < max) { if (lastDigit == 0) { digits = Int.digits(i) sum = digits.reduce(0) { |acc, d| acc + powers[d] } } else if (lastDigit == 1) { sum = sum + 1 } else { sum = sum + powers[lastDigit] - powers[lastDigit-1] } if (sum == i) { System.print(i) if (lastDigit == 0) System.print(i + 1) i = i + 10 - lastDigit lastDigit = 0 } else if (sum > i) { i = i + 10 - lastDigit lastDigit = 0 } else if (lastDigit < 9) { i = i + 1 lastDigit = lastDigit + 1 } else { i = i + 1 lastDigit = 0 } }
}</lang>
- Output:
Own digits power sums for N = 3 to 9 inclusive: 153 370 371 407 1634 8208 9474 54748 92727 93084 548834 1741725 4210818 9800817 9926315 24678050 24678051 88593477 146511208 472335975 534494836 912985153