Project Euler Problem 17 Statement
Give a number, 0 ≤ N ≤ 1012, write out the equivalent value in English. This differs substantially from the original Project Euler problem by adapting it to the HackerRank requirements.
The intrinsic data
We create several lists to define all the English words that are required to spell any value less than one quintillion (1018). Lists
tens are permuted using the
itertools.product function to generate the decades and compound numbers between 20 and 99. The words for the numbers 1 through 19 are then prepended to this list and stored in the
units list. The intention was to have a one–to–one relationship with the index of the
unit list and the corresponding number in written form.
You can extend the maximum value by simply adding other magnitudes to the
The recursive function for hundreds
No matter how big the number is, it can be expressed by translating each 3–digit magnitude to a hundred designation (0–999) and then appending the appropriate magnitude (thousand’s) name to the end. For example, consider the number 194,382,426,112 expressed in English:
One Hundred Four Billion Three Hundred Eighty–Two Million Four Hundred Twenty–Six Thousand One Hundred Twelve
This pattern in large numbers allows us to create a recursive function (which could easily be replaced by a loop) to call upon itself until all the 3–digit magnitudes are processed. The
q list will accumulate the word groups for each magnitude. Because we start with the lowest magnitude and work upwards, the list is joined in reverse order to place the larger magnitudes first.
Here is a flow chart to better explain the logic used to solve this problem:
HackerRank Project Euler 17 has us represent compound numbers with a space other than a hyphen. That is the only change required to solve their version of this problem.
Python Source Code
import itertools ones = ['', 'One','Two','Three','Four','Five','Six','Seven','Eight','Nine'] teens = ['Ten','Eleven','Twelve','Thirteen','Fourteen','Fifteen','Sixteen','Seventeen','Eighteen','Nineteen'] tens = ['Twenty','Thirty','Forty','Fifty','Sixty','Seventy','Eighty','Ninety'] units = ones + teens + list(map(lambda n: n+("-"+n if n else ''), itertools.product(tens,ones))) thousands = ['','Thousand','Million','Billion','Trillion','Quadrillion'] def n2words(n, z=0, q=): if n==0: return ' '.join(q[::-1]) n,r = divmod(n, 1000) if r>0: h,u = divmod(r, 100) words = (ones[h]+' Hundred ' if h>0 else '') + units[u] + " " + thousands[z] q.append(words) return n2words(n, z+1, q) n = int(input("Enter a number to spell out? ")) print ('Zero' if n==0 else n2words(n))
Other thousands groups: Quintillion 1018, Sextillion 1021, Septillion 1024, Octillion 1027, and even more here.