Is this homework?
Sum the digits of a number?
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Hi, I'd like to know how can someone add the digits of a number to the final point in matlab.
For example 525 --> 5 + 2 + 5 = 12 --> 1 + 2 = 3
I'm thinking about dividing by ten and adding the digits after the decimal point while at the same time round the number.
Any ideas on how to add the digits would be really helpfull.
Also how to identify a digit by knowing its position in a number
i.e. the 5th digit of 9483672 is 6. Thanks in advance
Answers (7)
Les Beckham
on 2 May 2020
Edited: Les Beckham
on 2 May 2020
I know it sounds too easy to be true but this manipulation is actually the same as modulo 9. No loops or string conversions needed.
>> mod(525,9)
ans =
3
>> mod(9483672,9)
ans =
3
For the second part of your question, try this:
function [out] = extract_digit(num,digit)
%EXTRACT_DIGIT Return the specified digit from a number
out = num2str(num);
out = out(digit);
end
4 Comments
John D'Errico
on 6 Apr 2021
@Dimitri Assuming you want to keep on re-summing the digits until the sum is a single digit number... then special case handling still will work. You just need to think about what happens.
The ONLY case where that digit sum is zero is when the number is itself zero. Therefore, if the number is NOT zero, but the modulus was zero, then the digit sum would have been 9.
As such we can see a simple solution:
N = 12345678;
if N == 0
digsum = 0;
else
digsum = mod(N,9);
if digsum == 0
digsum = 9;
end
end
digsum
Is that algorithm correct for N larger than 0? Clearly it works when N == 9. We can write a really simple code to compute the sum of the digits directly, for just one iteration, and then just iterate until it is done.
dsum = @(n) sum(dec2base(n,10) - '0');
digsum = N;
while digsum > 9
digsum = dsum(digsum);
end
digsum
Azzi Abdelmalek
on 17 Jan 2014
a=525;
b=num2str(a);
while numel(b)>1
a=sum(str2double(regexp(b,'\d','match')));
b=num2str(a);
end
out=str2num(b)
% -------------------------------
a=9483672;
b=num2str(a);
b(5)
Ans sadiq
on 19 Aug 2021
function out=digit_sum(in)
q=in;
a=q/10;
b=floor(a);
c=q-b*10;
w=c;
if q>0
w=w+digit_sum(b);
end
out=w;
end
0 Comments
Pablo López
on 5 Feb 2019
You can try this:
n = 525;
sum(str2num(num2str(sum(str2num(num2str(n)')))'))
4 Comments
Stephen23
on 6 Feb 2019
Edited: Stephen23
on 6 Feb 2019
The question gave this example:
"For example 525 --> 5 + 2 + 5 = 12 --> 1 + 2 = 3"
which indicates that the 12 digits should also be summed to 3. Usually when this task is given, it is required to continue summing until only one digit is reached (and this is what the other answers do). In contrast, your code sums twice only, regardless of how many digits remain. This may or may not be the intended behavior, it depends entirely on the specifications requested by the assignment. I just wanted to note the distinction.
Image Analyst
on 7 Apr 2021
Here is how I did it:
fprintf('Beginning to run %s.m ...\n', mfilename);
% Get a random integer.
originalNumber = int64(randi(2^53-1, 1, 1))
% Do the first iteration.
strNumbers = num2str(originalNumber);
intNumbers = strNumbers - '0'
loopCounter = 1;
maxIterations = 100; % The Failsafe (so we never get an infinite loop due to a logic error). Every while loop should always have a failsafe.
while length(intNumbers) >= 2 && loopCounter < maxIterations
theSum = sum(intNumbers);
fprintf('After %d iterations, the number is %s and the sum of its digits is %d\n',...
loopCounter, strNumbers, theSum);
% Prepare the next iteration:
strNumbers = num2str(theSum);
intNumbers = num2str(theSum) - '0';
loopCounter = loopCounter + 1;
end
fprintf('Done running %s.m ...\n', mfilename);
I get:
int64
7208285642958972
intNumbers =
7 2 0 8 2 8 5 6 4 2 9 5 8 9 7 2
After 1 iterations, the number is 7208285642958972 and the sum of its digits is 84
After 2 iterations, the number is 84 and the sum of its digits is 12
After 3 iterations, the number is 12 and the sum of its digits is 3
0 Comments
Javier Echanobe
on 15 Sep 2023
Edited: Javier Echanobe
on 15 Sep 2023
n=round(1000*rand(1))
SUM=sum(num2str(n))-48*length(num2str(n)) % 48 is the ASCII code for 0
________________
When I execute this code I obtain:
n =
633
SUM =
12
4 Comments
Dyuman Joshi
on 15 Sep 2023
@Stephen23, I also figured that it does something different.
But from @Javier Echanobe's line "When I execute this code I obtain", I assumed that they were trying to do the same as the original question, but could not achieve it.
Hence my comment.
Javier Echanobe
on 18 Sep 2023
Moved: Dyuman Joshi
on 18 Sep 2023
n=round(1000*rand(1))
SUM=sum(num2str(n))-48*length(num2str(n)); % 48 is the ASCII code for 0
while SUM>9
SUM=sum(num2str(SUM))-48*length(num2str(SUM));
end
SUM
You are right.
This code does make it.
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